index int64 0 66.5k | func_name stringlengths 2 5.36k | func_dep stringlengths 16 2.19k | func stringlengths 8 55.3k | test stringlengths 0 7.07k | opt stringclasses 4 values | language stringclasses 2 values | asm stringlengths 0 45.4k | ida_asm stringlengths 0 44.7k | ida_pseudo stringlengths 0 44.3k | ghidra_asm stringlengths 0 49.1k | ghidra_pseudo stringlengths 0 64.7k |
|---|---|---|---|---|---|---|---|---|---|---|---|
34,400 | my_wc_mb_big5 | eloqsql/strings/ctype-big5.c | static int
my_wc_mb_big5(CHARSET_INFO *cs __attribute__((unused)),
my_wc_t wc, uchar *s, uchar *e)
{
int code;
if (s >= e)
return MY_CS_TOOSMALL;
if ((int) wc < 0x80)
{
s[0]= (uchar) wc;
return 1;
}
if (!(code=func_uni_big5_onechar(wc)))
return MY_CS_ILUNI;
if (s+2>e)
return MY_CS_TOOSMALL;
s[0]=code>>8;
s[1]=code&0xFF;
return 2;
} | O0 | c | my_wc_mb_big5:
pushq %rbp
movq %rsp, %rbp
subq $0x30, %rsp
movq %rdi, -0x10(%rbp)
movq %rsi, -0x18(%rbp)
movq %rdx, -0x20(%rbp)
movq %rcx, -0x28(%rbp)
movq -0x20(%rbp), %rax
cmpq -0x28(%rbp), %rax
jb 0x3648b
movl $0xffffff9b, -0x4(%rbp) # imm = 0xFFFFFF9B
jmp 0x36504
movq -0x18(%rbp), %rax
cmpl $0x80, %eax
jge 0x364ab
movq -0x18(%rbp), %rax
movb %al, %cl
movq -0x20(%rbp), %rax
movb %cl, (%rax)
movl $0x1, -0x4(%rbp)
jmp 0x36504
movq -0x18(%rbp), %rax
movl %eax, %edi
callq 0x36800
movl %eax, -0x2c(%rbp)
cmpl $0x0, %eax
jne 0x364c7
movl $0x0, -0x4(%rbp)
jmp 0x36504
movq -0x20(%rbp), %rax
addq $0x2, %rax
cmpq -0x28(%rbp), %rax
jbe 0x364de
movl $0xffffff9b, -0x4(%rbp) # imm = 0xFFFFFF9B
jmp 0x36504
movl -0x2c(%rbp), %eax
sarl $0x8, %eax
movb %al, %cl
movq -0x20(%rbp), %rax
movb %cl, (%rax)
movl -0x2c(%rbp), %eax
andl $0xff, %eax
movb %al, %cl
movq -0x20(%rbp), %rax
movb %cl, 0x1(%rax)
movl $0x2, -0x4(%rbp)
movl -0x4(%rbp), %eax
addq $0x30, %rsp
popq %rbp
retq
nopl (%rax)
| my_wc_mb_big5:
push rbp
mov rbp, rsp
sub rsp, 30h
mov [rbp+var_10], rdi
mov [rbp+var_18], rsi
mov [rbp+var_20], rdx
mov [rbp+var_28], rcx
mov rax, [rbp+var_20]
cmp rax, [rbp+var_28]
jb short loc_3648B
mov [rbp+var_4], 0FFFFFF9Bh
jmp short loc_36504
loc_3648B:
mov rax, [rbp+var_18]
cmp eax, 80h
jge short loc_364AB
mov rax, [rbp+var_18]
mov cl, al
mov rax, [rbp+var_20]
mov [rax], cl
mov [rbp+var_4], 1
jmp short loc_36504
loc_364AB:
mov rax, [rbp+var_18]
mov edi, eax
call func_uni_big5_onechar
mov [rbp+var_2C], eax
cmp eax, 0
jnz short loc_364C7
mov [rbp+var_4], 0
jmp short loc_36504
loc_364C7:
mov rax, [rbp+var_20]
add rax, 2
cmp rax, [rbp+var_28]
jbe short loc_364DE
mov [rbp+var_4], 0FFFFFF9Bh
jmp short loc_36504
loc_364DE:
mov eax, [rbp+var_2C]
sar eax, 8
mov cl, al
mov rax, [rbp+var_20]
mov [rax], cl
mov eax, [rbp+var_2C]
and eax, 0FFh
mov cl, al
mov rax, [rbp+var_20]
mov [rax+1], cl
mov [rbp+var_4], 2
loc_36504:
mov eax, [rbp+var_4]
add rsp, 30h
pop rbp
retn
| long long my_wc_mb_big5(long long a1, int a2, _BYTE *a3, unsigned long long a4)
{
int v5; // [rsp+4h] [rbp-2Ch]
if ( (unsigned long long)a3 < a4 )
{
if ( a2 >= 128 )
{
v5 = func_uni_big5_onechar((unsigned int)a2);
if ( v5 )
{
if ( (unsigned long long)(a3 + 2) <= a4 )
{
*a3 = BYTE1(v5);
a3[1] = v5;
return 2;
}
else
{
return (unsigned int)-101;
}
}
else
{
return 0;
}
}
else
{
*a3 = a2;
return 1;
}
}
else
{
return (unsigned int)-101;
}
}
| my_wc_mb_big5:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x30
MOV qword ptr [RBP + -0x10],RDI
MOV qword ptr [RBP + -0x18],RSI
MOV qword ptr [RBP + -0x20],RDX
MOV qword ptr [RBP + -0x28],RCX
MOV RAX,qword ptr [RBP + -0x20]
CMP RAX,qword ptr [RBP + -0x28]
JC 0x0013648b
MOV dword ptr [RBP + -0x4],0xffffff9b
JMP 0x00136504
LAB_0013648b:
MOV RAX,qword ptr [RBP + -0x18]
CMP EAX,0x80
JGE 0x001364ab
MOV RAX,qword ptr [RBP + -0x18]
MOV CL,AL
MOV RAX,qword ptr [RBP + -0x20]
MOV byte ptr [RAX],CL
MOV dword ptr [RBP + -0x4],0x1
JMP 0x00136504
LAB_001364ab:
MOV RAX,qword ptr [RBP + -0x18]
MOV EDI,EAX
CALL 0x00136800
MOV dword ptr [RBP + -0x2c],EAX
CMP EAX,0x0
JNZ 0x001364c7
MOV dword ptr [RBP + -0x4],0x0
JMP 0x00136504
LAB_001364c7:
MOV RAX,qword ptr [RBP + -0x20]
ADD RAX,0x2
CMP RAX,qword ptr [RBP + -0x28]
JBE 0x001364de
MOV dword ptr [RBP + -0x4],0xffffff9b
JMP 0x00136504
LAB_001364de:
MOV EAX,dword ptr [RBP + -0x2c]
SAR EAX,0x8
MOV CL,AL
MOV RAX,qword ptr [RBP + -0x20]
MOV byte ptr [RAX],CL
MOV EAX,dword ptr [RBP + -0x2c]
AND EAX,0xff
MOV CL,AL
MOV RAX,qword ptr [RBP + -0x20]
MOV byte ptr [RAX + 0x1],CL
MOV dword ptr [RBP + -0x4],0x2
LAB_00136504:
MOV EAX,dword ptr [RBP + -0x4]
ADD RSP,0x30
POP RBP
RET
|
int4 my_wc_mb_big5(int8 param_1,int param_2,int1 *param_3,int1 *param_4)
{
int iVar1;
int4 local_c;
if (param_3 < param_4) {
if (param_2 < 0x80) {
*param_3 = (char)param_2;
local_c = 1;
}
else {
iVar1 = func_uni_big5_onechar(param_2);
if (iVar1 == 0) {
local_c = 0;
}
else if (param_4 < param_3 + 2) {
local_c = 0xffffff9b;
}
else {
*param_3 = (char)((uint)iVar1 >> 8);
param_3[1] = (char)iVar1;
local_c = 2;
}
}
}
else {
local_c = 0xffffff9b;
}
return local_c;
}
| |
34,401 | reset_pagecache_counters | eloqsql/storage/maria/ma_pagecache.c | int reset_pagecache_counters(const char *name __attribute__((unused)),
PAGECACHE *pagecache)
{
DBUG_ENTER("reset_pagecache_counters");
if (!pagecache->inited)
{
DBUG_PRINT("info", ("Key cache %s not initialized.", name));
DBUG_RETURN(0);
}
DBUG_PRINT("info", ("Resetting counters for key cache %s.", name));
pagecache->global_blocks_changed= 0; /* Key_blocks_not_flushed */
pagecache->global_cache_r_requests= 0; /* Key_read_requests */
pagecache->global_cache_read= 0; /* Key_reads */
pagecache->global_cache_w_requests= 0; /* Key_write_requests */
pagecache->global_cache_write= 0; /* Key_writes */
DBUG_RETURN(0);
} | O0 | c | reset_pagecache_counters:
pushq %rbp
movq %rsp, %rbp
movq %rdi, -0x10(%rbp)
movq %rsi, -0x18(%rbp)
movq -0x18(%rbp), %rax
cmpb $0x0, 0x1a8(%rax)
jne 0x9e418
jmp 0x9e40b
jmp 0x9e40d
jmp 0x9e40f
movl $0x0, -0x4(%rbp)
jmp 0x9e46e
jmp 0x9e41a
jmp 0x9e41c
movq -0x18(%rbp), %rax
movq $0x0, 0x168(%rax)
movq -0x18(%rbp), %rax
movq $0x0, 0x180(%rax)
movq -0x18(%rbp), %rax
movq $0x0, 0x188(%rax)
movq -0x18(%rbp), %rax
movq $0x0, 0x170(%rax)
movq -0x18(%rbp), %rax
movq $0x0, 0x178(%rax)
movl $0x0, -0x4(%rbp)
movl -0x4(%rbp), %eax
popq %rbp
retq
nopw %cs:(%rax,%rax)
| reset_pagecache_counters:
push rbp
mov rbp, rsp
mov [rbp+var_10], rdi
mov [rbp+var_18], rsi
mov rax, [rbp+var_18]
cmp byte ptr [rax+1A8h], 0
jnz short loc_9E418
jmp short $+2
loc_9E40B:
jmp short $+2
loc_9E40D:
jmp short $+2
loc_9E40F:
mov [rbp+var_4], 0
jmp short loc_9E46E
loc_9E418:
jmp short $+2
loc_9E41A:
jmp short $+2
loc_9E41C:
mov rax, [rbp+var_18]
mov qword ptr [rax+168h], 0
mov rax, [rbp+var_18]
mov qword ptr [rax+180h], 0
mov rax, [rbp+var_18]
mov qword ptr [rax+188h], 0
mov rax, [rbp+var_18]
mov qword ptr [rax+170h], 0
mov rax, [rbp+var_18]
mov qword ptr [rax+178h], 0
mov [rbp+var_4], 0
loc_9E46E:
mov eax, [rbp+var_4]
pop rbp
retn
| long long reset_pagecache_counters(long long a1, long long a2)
{
if ( *(_BYTE *)(a2 + 424) )
{
*(_QWORD *)(a2 + 360) = 0LL;
*(_QWORD *)(a2 + 384) = 0LL;
*(_QWORD *)(a2 + 392) = 0LL;
*(_QWORD *)(a2 + 368) = 0LL;
*(_QWORD *)(a2 + 376) = 0LL;
}
return 0LL;
}
| reset_pagecache_counters:
PUSH RBP
MOV RBP,RSP
MOV qword ptr [RBP + -0x10],RDI
MOV qword ptr [RBP + -0x18],RSI
MOV RAX,qword ptr [RBP + -0x18]
CMP byte ptr [RAX + 0x1a8],0x0
JNZ 0x0019e418
JMP 0x0019e40b
LAB_0019e40b:
JMP 0x0019e40d
LAB_0019e40d:
JMP 0x0019e40f
LAB_0019e40f:
MOV dword ptr [RBP + -0x4],0x0
JMP 0x0019e46e
LAB_0019e418:
JMP 0x0019e41a
LAB_0019e41a:
JMP 0x0019e41c
LAB_0019e41c:
MOV RAX,qword ptr [RBP + -0x18]
MOV qword ptr [RAX + 0x168],0x0
MOV RAX,qword ptr [RBP + -0x18]
MOV qword ptr [RAX + 0x180],0x0
MOV RAX,qword ptr [RBP + -0x18]
MOV qword ptr [RAX + 0x188],0x0
MOV RAX,qword ptr [RBP + -0x18]
MOV qword ptr [RAX + 0x170],0x0
MOV RAX,qword ptr [RBP + -0x18]
MOV qword ptr [RAX + 0x178],0x0
MOV dword ptr [RBP + -0x4],0x0
LAB_0019e46e:
MOV EAX,dword ptr [RBP + -0x4]
POP RBP
RET
|
int4 reset_pagecache_counters(int8 param_1,long param_2)
{
if (*(char *)(param_2 + 0x1a8) != '\0') {
*(int8 *)(param_2 + 0x168) = 0;
*(int8 *)(param_2 + 0x180) = 0;
*(int8 *)(param_2 + 0x188) = 0;
*(int8 *)(param_2 + 0x170) = 0;
*(int8 *)(param_2 + 0x178) = 0;
}
return 0;
}
| |
34,402 | my_casefold_ujis | eloqsql/strings/ctype-ujis.c | static size_t
my_casefold_ujis(CHARSET_INFO *cs,
const char *src, size_t srclen,
char *dst, size_t dstlen __attribute__((unused)),
const uchar * const map,
size_t is_upper)
{
const char *srcend= src + srclen, *dst0= dst;
while (src < srcend)
{
size_t mblen= my_ismbchar(cs, src, srcend);
if (mblen)
{
MY_UNICASE_CHARACTER *ch;
ch= (mblen == 2) ?
get_case_info_for_ch(cs, 0, (uchar) src[0], (uchar) src[1]) :
get_case_info_for_ch(cs, 1, (uchar) src[1], (uchar) src[2]);
if (ch)
{
int code= is_upper ? ch->toupper : ch->tolower;
src+= mblen;
if (code > 0xFFFF)
*dst++= (char) (uchar) ((code >> 16) & 0xFF);
if (code > 0xFF)
*dst++= (char) (uchar) ((code >> 8) & 0xFF);
*dst++= (char) (uchar) (code & 0xFF);
}
else
{
if (mblen == 3)
*dst++= *src++;
*dst++= *src++;
*dst++= *src++;
}
}
else
{
*dst++= (char) map[(uchar) *src++];
}
}
return (size_t) (dst - dst0);
} | O3 | c | my_casefold_ujis:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x18, %rsp
movq %r8, -0x40(%rbp)
movq %rcx, %rbx
movq %rcx, -0x30(%rbp)
testq %rdx, %rdx
jle 0x506b7
movq %rdx, %r15
movq %rsi, %r12
movq %rdi, %r13
addq %rsi, %r15
xorl %eax, %eax
testq %r9, %r9
sete %al
shll $0x2, %eax
movq %rax, -0x38(%rbp)
xorl %r14d, %r14d
movq -0x30(%rbp), %rbx
movq 0xb8(%r13), %rax
movq %r13, %rdi
movq %r12, %rsi
movq %r15, %rdx
callq *0xc0(%rax)
cmpl $0x2, %eax
cmovll %r14d, %eax
testl %eax, %eax
je 0x50611
cmpl $0x2, %eax
jne 0x50627
movzbl (%r12), %ecx
movq 0x78(%r13), %rdx
movq 0x8(%rdx), %rdx
movq (%rdx,%rcx,8), %rcx
testq %rcx, %rcx
je 0x50681
movzbl 0x1(%r12), %edx
jmp 0x50648
movzbl (%r12), %eax
incq %r12
movq -0x40(%rbp), %rcx
movb (%rcx,%rax), %al
movb %al, (%rbx)
jmp 0x506ab
movzbl 0x1(%r12), %ecx
movq 0x78(%r13), %rdx
movq 0x8(%rdx), %rdx
movq 0x800(%rdx,%rcx,8), %rcx
testq %rcx, %rcx
je 0x50670
movzbl 0x2(%r12), %edx
leaq (%rdx,%rdx,2), %rdx
leaq (%rcx,%rdx,4), %rcx
testq %rcx, %rcx
je 0x50670
movq -0x38(%rbp), %rdx
movl (%rcx,%rdx), %ecx
cmpl $0x10000, %ecx # imm = 0x10000
jl 0x50699
movl %ecx, %edx
shrl $0x10, %edx
movb %dl, (%rbx)
incq %rbx
jmp 0x506a1
cmpl $0x3, %eax
jne 0x50681
movb (%r12), %al
incq %r12
movb %al, (%rbx)
incq %rbx
movb (%r12), %al
movb %al, (%rbx)
movb 0x1(%r12), %al
addq $0x2, %r12
movb %al, 0x1(%rbx)
addq $0x2, %rbx
jmp 0x506ae
cmpl $0x100, %ecx # imm = 0x100
jl 0x506a6
movb %ch, (%rbx)
incq %rbx
addq %rax, %r12
movb %cl, (%rbx)
incq %rbx
cmpq %r15, %r12
jb 0x505cd
subq -0x30(%rbp), %rbx
movq %rbx, %rax
addq $0x18, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| my_casefold_ujis:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 18h
mov [rbp+var_40], r8
mov rbx, rcx
mov [rbp+var_30], rcx
test rdx, rdx
jle loc_506B7
mov r15, rdx
mov r12, rsi
mov r13, rdi
add r15, rsi
xor eax, eax
test r9, r9
setz al
shl eax, 2
mov [rbp+var_38], rax
xor r14d, r14d
mov rbx, [rbp+var_30]
loc_505CD:
mov rax, [r13+0B8h]
mov rdi, r13
mov rsi, r12
mov rdx, r15
call qword ptr [rax+0C0h]
cmp eax, 2
cmovl eax, r14d
test eax, eax
jz short loc_50611
cmp eax, 2
jnz short loc_50627
movzx ecx, byte ptr [r12]
mov rdx, [r13+78h]
mov rdx, [rdx+8]
mov rcx, [rdx+rcx*8]
test rcx, rcx
jz short loc_50681
movzx edx, byte ptr [r12+1]
jmp short loc_50648
loc_50611:
movzx eax, byte ptr [r12]
inc r12
mov rcx, [rbp+var_40]
mov al, [rcx+rax]
mov [rbx], al
jmp loc_506AB
loc_50627:
movzx ecx, byte ptr [r12+1]
mov rdx, [r13+78h]
mov rdx, [rdx+8]
mov rcx, [rdx+rcx*8+800h]
test rcx, rcx
jz short loc_50670
movzx edx, byte ptr [r12+2]
loc_50648:
lea rdx, [rdx+rdx*2]
lea rcx, [rcx+rdx*4]
test rcx, rcx
jz short loc_50670
mov rdx, [rbp+var_38]
mov ecx, [rcx+rdx]
cmp ecx, offset stru_10000
jl short loc_50699
mov edx, ecx
shr edx, 10h
mov [rbx], dl
inc rbx
jmp short loc_506A1
loc_50670:
cmp eax, 3
jnz short loc_50681
mov al, [r12]
inc r12
mov [rbx], al
inc rbx
loc_50681:
mov al, [r12]
mov [rbx], al
mov al, [r12+1]
add r12, 2
mov [rbx+1], al
add rbx, 2
jmp short loc_506AE
loc_50699:
cmp ecx, 100h
jl short loc_506A6
loc_506A1:
mov [rbx], ch
inc rbx
loc_506A6:
add r12, rax
mov [rbx], cl
loc_506AB:
inc rbx
loc_506AE:
cmp r12, r15
jb loc_505CD
loc_506B7:
sub rbx, [rbp+var_30]
mov rax, rbx
add rsp, 18h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| _BYTE * my_casefold_ujis(
long long a1,
unsigned __int8 *a2,
long long a3,
unsigned __int8 *a4,
long long a5,
long long a6)
{
unsigned __int8 *v6; // rbx
unsigned __int8 *v7; // r12
unsigned long long v8; // r15
long long v9; // rax
long long v10; // rcx
long long v11; // rdx
long long v12; // rax
long long v13; // rcx
int v14; // ecx
unsigned __int8 v15; // al
unsigned __int8 v16; // al
long long v19; // [rsp+8h] [rbp-38h]
v6 = a4;
if ( a3 > 0 )
{
v7 = a2;
v8 = (unsigned long long)&a2[a3];
v19 = 4 * (unsigned int)(a6 == 0);
v6 = a4;
while ( 1 )
{
v9 = (*(long long ( **)(long long, unsigned __int8 *, unsigned long long))(*(_QWORD *)(a1 + 184) + 192LL))(
a1,
v7,
v8);
if ( (int)v9 < 2 )
v9 = 0LL;
if ( !(_DWORD)v9 )
{
v12 = *v7++;
*v6 = *(_BYTE *)(a5 + v12);
goto LABEL_21;
}
if ( (_DWORD)v9 != 2 )
break;
v10 = *(_QWORD *)(*(_QWORD *)(*(_QWORD *)(a1 + 120) + 8LL) + 8LL * *v7);
if ( v10 )
{
v11 = v7[1];
LABEL_12:
v13 = v10 + 12 * v11;
if ( v13 )
{
v14 = *(_DWORD *)(v13 + v19);
if ( v14 >= (int)&stru_10000 )
{
*v6++ = BYTE2(v14);
goto LABEL_19;
}
if ( v14 >= 256 )
LABEL_19:
*v6++ = BYTE1(v14);
v7 += v9;
*v6 = v14;
LABEL_21:
++v6;
goto LABEL_22;
}
goto LABEL_15;
}
LABEL_17:
*v6 = *v7;
v16 = v7[1];
v7 += 2;
v6[1] = v16;
v6 += 2;
LABEL_22:
if ( (unsigned long long)v7 >= v8 )
return (_BYTE *)(v6 - a4);
}
v10 = *(_QWORD *)(*(_QWORD *)(*(_QWORD *)(a1 + 120) + 8LL) + 8LL * v7[1] + 2048);
if ( v10 )
{
v11 = v7[2];
goto LABEL_12;
}
LABEL_15:
if ( (_DWORD)v9 == 3 )
{
v15 = *v7++;
*v6++ = v15;
}
goto LABEL_17;
}
return (_BYTE *)(v6 - a4);
}
| my_casefold_ujis:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x18
MOV qword ptr [RBP + -0x40],R8
MOV RBX,RCX
MOV qword ptr [RBP + -0x30],RCX
TEST RDX,RDX
JLE 0x001506b7
MOV R15,RDX
MOV R12,RSI
MOV R13,RDI
ADD R15,RSI
XOR EAX,EAX
TEST R9,R9
SETZ AL
SHL EAX,0x2
MOV qword ptr [RBP + -0x38],RAX
XOR R14D,R14D
MOV RBX,qword ptr [RBP + -0x30]
LAB_001505cd:
MOV RAX,qword ptr [R13 + 0xb8]
MOV RDI,R13
MOV RSI,R12
MOV RDX,R15
CALL qword ptr [RAX + 0xc0]
CMP EAX,0x2
CMOVL EAX,R14D
TEST EAX,EAX
JZ 0x00150611
CMP EAX,0x2
JNZ 0x00150627
MOVZX ECX,byte ptr [R12]
MOV RDX,qword ptr [R13 + 0x78]
MOV RDX,qword ptr [RDX + 0x8]
MOV RCX,qword ptr [RDX + RCX*0x8]
TEST RCX,RCX
JZ 0x00150681
MOVZX EDX,byte ptr [R12 + 0x1]
JMP 0x00150648
LAB_00150611:
MOVZX EAX,byte ptr [R12]
INC R12
MOV RCX,qword ptr [RBP + -0x40]
MOV AL,byte ptr [RCX + RAX*0x1]
MOV byte ptr [RBX],AL
JMP 0x001506ab
LAB_00150627:
MOVZX ECX,byte ptr [R12 + 0x1]
MOV RDX,qword ptr [R13 + 0x78]
MOV RDX,qword ptr [RDX + 0x8]
MOV RCX,qword ptr [RDX + RCX*0x8 + 0x800]
TEST RCX,RCX
JZ 0x00150670
MOVZX EDX,byte ptr [R12 + 0x2]
LAB_00150648:
LEA RDX,[RDX + RDX*0x2]
LEA RCX,[RCX + RDX*0x4]
TEST RCX,RCX
JZ 0x00150670
MOV RDX,qword ptr [RBP + -0x38]
MOV ECX,dword ptr [RCX + RDX*0x1]
CMP ECX,0x10000
JL 0x00150699
MOV EDX,ECX
SHR EDX,0x10
MOV byte ptr [RBX],DL
INC RBX
JMP 0x001506a1
LAB_00150670:
CMP EAX,0x3
JNZ 0x00150681
MOV AL,byte ptr [R12]
INC R12
MOV byte ptr [RBX],AL
INC RBX
LAB_00150681:
MOV AL,byte ptr [R12]
MOV byte ptr [RBX],AL
MOV AL,byte ptr [R12 + 0x1]
ADD R12,0x2
MOV byte ptr [RBX + 0x1],AL
ADD RBX,0x2
JMP 0x001506ae
LAB_00150699:
CMP ECX,0x100
JL 0x001506a6
LAB_001506a1:
MOV byte ptr [RBX],CH
INC RBX
LAB_001506a6:
ADD R12,RAX
MOV byte ptr [RBX],CL
LAB_001506ab:
INC RBX
LAB_001506ae:
CMP R12,R15
JC 0x001505cd
LAB_001506b7:
SUB RBX,qword ptr [RBP + -0x30]
MOV RAX,RBX
ADD RSP,0x18
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
long my_casefold_ujis(long param_1,byte *param_2,long param_3,byte *param_4,long param_5,
long param_6)
{
byte *pbVar1;
byte bVar2;
uint uVar3;
int iVar4;
long lVar6;
byte *pbVar7;
byte *pbVar8;
ulong uVar5;
pbVar7 = param_4;
if (0 < param_3) {
pbVar8 = param_2 + param_3;
do {
uVar3 = (**(code **)(*(long *)(param_1 + 0xb8) + 0xc0))(param_1,param_2,pbVar8);
uVar5 = (ulong)uVar3;
if ((int)uVar3 < 2) {
uVar5 = 0;
}
iVar4 = (int)uVar5;
if (iVar4 == 0) {
bVar2 = *param_2;
param_2 = param_2 + 1;
*pbVar7 = *(byte *)(param_5 + (ulong)bVar2);
LAB_001506ab:
pbVar7 = pbVar7 + 1;
}
else {
if (iVar4 == 2) {
lVar6 = *(long *)(*(long *)(*(long *)(param_1 + 0x78) + 8) + (ulong)*param_2 * 8);
if (lVar6 != 0) {
bVar2 = param_2[1];
LAB_00150648:
lVar6 = lVar6 + (ulong)bVar2 * 0xc;
if (lVar6 == 0) goto LAB_00150670;
iVar4 = *(int *)(lVar6 + (ulong)(param_6 == 0) * 4);
if (iVar4 < 0x10000) {
if (0xff < iVar4) goto LAB_001506a1;
}
else {
*pbVar7 = (byte)((uint)iVar4 >> 0x10);
pbVar7 = pbVar7 + 1;
LAB_001506a1:
*pbVar7 = (byte)((uint)iVar4 >> 8);
pbVar7 = pbVar7 + 1;
}
param_2 = param_2 + uVar5;
*pbVar7 = (byte)iVar4;
goto LAB_001506ab;
}
}
else {
lVar6 = *(long *)(*(long *)(*(long *)(param_1 + 0x78) + 8) + 0x800 + (ulong)param_2[1] * 8
);
if (lVar6 != 0) {
bVar2 = param_2[2];
goto LAB_00150648;
}
LAB_00150670:
if (iVar4 == 3) {
bVar2 = *param_2;
param_2 = param_2 + 1;
*pbVar7 = bVar2;
pbVar7 = pbVar7 + 1;
}
}
*pbVar7 = *param_2;
pbVar1 = param_2 + 1;
param_2 = param_2 + 2;
pbVar7[1] = *pbVar1;
pbVar7 = pbVar7 + 2;
}
} while (param_2 < pbVar8);
}
return (long)pbVar7 - (long)param_4;
}
| |
34,403 | my_lengthsp_utf16le | eloqsql/strings/ctype-ucs2.c | static size_t
my_lengthsp_utf16le(CHARSET_INFO *cs __attribute__((unused)),
const char *ptr, size_t length)
{
const char *end= ptr + length;
while (end > ptr + 1 && uint2korr(end - 2) == ' ')
end-= 2;
return (size_t) (end - ptr);
} | O0 | c | my_lengthsp_utf16le:
pushq %rbp
movq %rsp, %rbp
movq %rdi, -0x8(%rbp)
movq %rsi, -0x10(%rbp)
movq %rdx, -0x18(%rbp)
movq -0x10(%rbp), %rax
addq -0x18(%rbp), %rax
movq %rax, -0x20(%rbp)
movq -0x20(%rbp), %rcx
movq -0x10(%rbp), %rdx
addq $0x1, %rdx
xorl %eax, %eax
cmpq %rdx, %rcx
movb %al, -0x21(%rbp)
jbe 0x66b33
movq -0x20(%rbp), %rax
movzwl -0x2(%rax), %eax
cmpl $0x20, %eax
sete %al
movb %al, -0x21(%rbp)
movb -0x21(%rbp), %al
testb $0x1, %al
jne 0x66b3c
jmp 0x66b4a
movq -0x20(%rbp), %rax
addq $-0x2, %rax
movq %rax, -0x20(%rbp)
jmp 0x66b0c
movq -0x20(%rbp), %rax
movq -0x10(%rbp), %rcx
subq %rcx, %rax
popq %rbp
retq
nopw (%rax,%rax)
| my_lengthsp_utf16le:
push rbp
mov rbp, rsp
mov [rbp+var_8], rdi
mov [rbp+var_10], rsi
mov [rbp+var_18], rdx
mov rax, [rbp+var_10]
add rax, [rbp+var_18]
mov [rbp+var_20], rax
loc_66B0C:
mov rcx, [rbp+var_20]
mov rdx, [rbp+var_10]
add rdx, 1
xor eax, eax
cmp rcx, rdx
mov [rbp+var_21], al
jbe short loc_66B33
mov rax, [rbp+var_20]
movzx eax, word ptr [rax-2]
cmp eax, 20h ; ' '
setz al
mov [rbp+var_21], al
loc_66B33:
mov al, [rbp+var_21]
test al, 1
jnz short loc_66B3C
jmp short loc_66B4A
loc_66B3C:
mov rax, [rbp+var_20]
add rax, 0FFFFFFFFFFFFFFFEh
mov [rbp+var_20], rax
jmp short loc_66B0C
loc_66B4A:
mov rax, [rbp+var_20]
mov rcx, [rbp+var_10]
sub rax, rcx
pop rbp
retn
| long long my_lengthsp_utf16le(long long a1, long long a2, long long a3)
{
bool v4; // [rsp+1h] [rbp-21h]
unsigned long long i; // [rsp+2h] [rbp-20h]
for ( i = a3 + a2; ; i -= 2LL )
{
v4 = 0;
if ( i > a2 + 1 )
v4 = *(unsigned __int16 *)(i - 2) == 32;
if ( !v4 )
break;
}
return i - a2;
}
| my_lengthsp_utf16le:
PUSH RBP
MOV RBP,RSP
MOV qword ptr [RBP + -0x8],RDI
MOV qword ptr [RBP + -0x10],RSI
MOV qword ptr [RBP + -0x18],RDX
MOV RAX,qword ptr [RBP + -0x10]
ADD RAX,qword ptr [RBP + -0x18]
MOV qword ptr [RBP + -0x20],RAX
LAB_00166b0c:
MOV RCX,qword ptr [RBP + -0x20]
MOV RDX,qword ptr [RBP + -0x10]
ADD RDX,0x1
XOR EAX,EAX
CMP RCX,RDX
MOV byte ptr [RBP + -0x21],AL
JBE 0x00166b33
MOV RAX,qword ptr [RBP + -0x20]
MOVZX EAX,word ptr [RAX + -0x2]
CMP EAX,0x20
SETZ AL
MOV byte ptr [RBP + -0x21],AL
LAB_00166b33:
MOV AL,byte ptr [RBP + -0x21]
TEST AL,0x1
JNZ 0x00166b3c
JMP 0x00166b4a
LAB_00166b3c:
MOV RAX,qword ptr [RBP + -0x20]
ADD RAX,-0x2
MOV qword ptr [RBP + -0x20],RAX
JMP 0x00166b0c
LAB_00166b4a:
MOV RAX,qword ptr [RBP + -0x20]
MOV RCX,qword ptr [RBP + -0x10]
SUB RAX,RCX
POP RBP
RET
|
long my_lengthsp_utf16le(int8 param_1,long param_2,long param_3)
{
bool bVar1;
int8 local_28;
local_28 = param_2 + param_3;
while( true ) {
bVar1 = false;
if (param_2 + 1U < local_28) {
bVar1 = *(short *)(local_28 - 2) == 0x20;
}
if (!bVar1) break;
local_28 = local_28 - 2;
}
return local_28 - param_2;
}
| |
34,404 | js_execute_async_module | bluesky950520[P]quickjs/quickjs.c | static int js_execute_async_module(JSContext *ctx, JSModuleDef *m)
{
JSValue promise, m_obj;
JSValue resolve_funcs[2], ret_val;
promise = js_async_function_call(ctx, m->func_obj, JS_UNDEFINED, 0, NULL, 0);
if (JS_IsException(promise))
return -1;
m_obj = JS_NewModuleValue(ctx, m);
resolve_funcs[0] = JS_NewCFunctionData(ctx, js_async_module_execution_fulfilled, 0, 0, 1, (JSValueConst *)&m_obj);
resolve_funcs[1] = JS_NewCFunctionData(ctx, js_async_module_execution_rejected, 0, 0, 1, (JSValueConst *)&m_obj);
ret_val = js_promise_then(ctx, promise, 2, (JSValueConst *)resolve_funcs);
JS_FreeValue(ctx, ret_val);
JS_FreeValue(ctx, m_obj);
JS_FreeValue(ctx, resolve_funcs[0]);
JS_FreeValue(ctx, resolve_funcs[1]);
JS_FreeValue(ctx, promise);
return 0;
} | O1 | c | js_execute_async_module:
pushq %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x68, %rsp
movq %rsi, %r12
movq %rdi, %rbx
movq 0x68(%rsi), %rsi
movq 0x70(%r12), %rdx
andq $0x0, (%rsp)
pushq $0x3
popq %r8
xorl %ecx, %ecx
xorl %r9d, %r9d
callq 0x106c2
movq %rdx, %r15
cmpl $0x6, %r15d
jne 0x110f7
addq $0x68, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
incl (%r12)
leaq 0x30(%rsp), %r14
movq %r12, (%r14)
movq $-0x3, 0x8(%r14)
leaq 0x33d49(%rip), %rsi # 0x44e5b
pushq $0x1
popq %r8
movq %rbx, %rdi
xorl %edx, %edx
xorl %ecx, %ecx
movq %r14, %r9
movq %rax, %r13
callq 0x210ea
movq %rax, 0x28(%rsp)
movq %rdx, 0x20(%rsp)
leaq 0x40(%rsp), %rbp
movq %rax, (%rbp)
movq %rdx, 0x8(%rbp)
leaq 0x33e8b(%rip), %rsi # 0x44fd1
movq %rbx, %rdi
xorl %edx, %edx
xorl %ecx, %ecx
pushq $0x1
popq %r8
movq %r14, %r9
callq 0x210ea
movq %rax, %r14
movq %rdx, 0x18(%rsp)
movq %rax, 0x10(%rbp)
movq %rdx, 0x18(%rbp)
movq %rbx, %rdi
movq %r13, %rsi
movq %r15, %rdx
movq %rbp, %r8
callq 0x43f7a
movq 0x18(%rbx), %rdi
movq %rax, %rsi
callq 0x1d8c6
movq 0x18(%rbx), %rdi
pushq $-0x3
popq %rdx
movq %r12, %rsi
callq 0x1d8c6
movq 0x18(%rbx), %rdi
movq 0x28(%rsp), %rsi
movq 0x20(%rsp), %rdx
callq 0x1d8c6
movq 0x18(%rbx), %rdi
movq %r14, %rsi
movq 0x18(%rsp), %rdx
callq 0x1d8c6
movq 0x18(%rbx), %rdi
movq %r13, %rsi
movq %r15, %rdx
addq $0x68, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
jmp 0x1d8c6
| js_execute_async_module:
push rbp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 68h
mov r12, rsi
mov rbx, rdi
mov rsi, [rsi+68h]
mov rdx, [r12+70h]
and [rsp+98h+var_98], 0
push 3
pop r8
xor ecx, ecx
xor r9d, r9d
call js_async_function_call
mov r15, rdx
cmp r15d, 6
jnz short loc_110F7
add rsp, 68h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
loc_110F7:
inc dword ptr [r12]
lea r14, [rsp+98h+var_68]
mov [r14], r12
mov qword ptr [r14+8], 0FFFFFFFFFFFFFFFDh
lea rsi, js_async_module_execution_fulfilled
push 1
pop r8
mov rdi, rbx
xor edx, edx
xor ecx, ecx
mov r9, r14
mov r13, rax
call JS_NewCFunctionData
mov [rsp+98h+var_70], rax
mov [rsp+98h+var_78], rdx
lea rbp, [rsp+98h+var_58]
mov [rbp+0], rax
mov [rbp+8], rdx
lea rsi, js_async_module_execution_rejected
mov rdi, rbx
xor edx, edx
xor ecx, ecx
push 1
pop r8
mov r9, r14
call JS_NewCFunctionData
mov r14, rax
mov [rsp+98h+var_80], rdx
mov [rbp+10h], rax
mov [rbp+18h], rdx
mov rdi, rbx
mov rsi, r13
mov rdx, r15
mov r8, rbp
call js_promise_then
mov rdi, [rbx+18h]
mov rsi, rax
call JS_FreeValueRT
mov rdi, [rbx+18h]
push 0FFFFFFFFFFFFFFFDh
pop rdx
mov rsi, r12
call JS_FreeValueRT
mov rdi, [rbx+18h]
mov rsi, [rsp+98h+var_70]
mov rdx, [rsp+98h+var_78]
call JS_FreeValueRT
mov rdi, [rbx+18h]
mov rsi, r14
mov rdx, [rsp+98h+var_80]
call JS_FreeValueRT
mov rdi, [rbx+18h]
mov rsi, r13
mov rdx, r15
add rsp, 68h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
jmp JS_FreeValueRT
| unsigned long long js_execute_async_module(long long a1, long long a2)
{
unsigned long long result; // rax
long long v3; // rdx
long long v4; // r15
unsigned long long v5; // r13
long long v6; // rdx
long long v7; // r14
long long v8; // rdx
long long v9; // rcx
long long v10; // rax
long long v11; // [rsp+28h] [rbp-70h]
_QWORD v12[2]; // [rsp+30h] [rbp-68h] BYREF
_QWORD v13[11]; // [rsp+40h] [rbp-58h] BYREF
result = js_async_function_call(a1, *(_QWORD *)(a2 + 104), *(_QWORD *)(a2 + 112), 0, 3, 0, 0LL);
v4 = v3;
if ( (_DWORD)v3 != 6 )
{
++*(_DWORD *)a2;
v12[0] = a2;
v12[1] = -3LL;
v5 = result;
v11 = JS_NewCFunctionData(a1, js_async_module_execution_fulfilled, 0LL, 0LL, 1LL, v12);
v13[0] = v11;
v13[1] = v6;
v7 = JS_NewCFunctionData(a1, js_async_module_execution_rejected, 0LL, 0LL, 1LL, v12);
v13[2] = v7;
v13[3] = v8;
v10 = js_promise_then(a1, v5, v4, v9, v13);
JS_FreeValueRT(*(_QWORD *)(a1 + 24), v10);
JS_FreeValueRT(*(_QWORD *)(a1 + 24), a2);
JS_FreeValueRT(*(_QWORD *)(a1 + 24), v11);
JS_FreeValueRT(*(_QWORD *)(a1 + 24), v7);
return JS_FreeValueRT(*(_QWORD *)(a1 + 24), v5);
}
return result;
}
| |||
34,405 | js_execute_async_module | bluesky950520[P]quickjs/quickjs.c | static int js_execute_async_module(JSContext *ctx, JSModuleDef *m)
{
JSValue promise, m_obj;
JSValue resolve_funcs[2], ret_val;
promise = js_async_function_call(ctx, m->func_obj, JS_UNDEFINED, 0, NULL, 0);
if (JS_IsException(promise))
return -1;
m_obj = JS_NewModuleValue(ctx, m);
resolve_funcs[0] = JS_NewCFunctionData(ctx, js_async_module_execution_fulfilled, 0, 0, 1, (JSValueConst *)&m_obj);
resolve_funcs[1] = JS_NewCFunctionData(ctx, js_async_module_execution_rejected, 0, 0, 1, (JSValueConst *)&m_obj);
ret_val = js_promise_then(ctx, promise, 2, (JSValueConst *)resolve_funcs);
JS_FreeValue(ctx, ret_val);
JS_FreeValue(ctx, m_obj);
JS_FreeValue(ctx, resolve_funcs[0]);
JS_FreeValue(ctx, resolve_funcs[1]);
JS_FreeValue(ctx, promise);
return 0;
} | O2 | c | js_execute_async_module:
pushq %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x68, %rsp
movq %rsi, %r14
movq %rdi, %rbx
movq 0x68(%rsi), %rsi
movq 0x70(%r14), %rdx
andq $0x0, (%rsp)
pushq $0x3
popq %r8
xorl %ecx, %ecx
xorl %r9d, %r9d
callq 0x2fc9c
movq %rdx, %r12
cmpl $0x6, %r12d
jne 0x3c8ba
addq $0x68, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
incl (%r14)
leaq 0x30(%rsp), %r13
movq %r14, (%r13)
movq $-0x3, 0x8(%r13)
leaq 0x1ba(%rip), %rsi # 0x3ca8f
pushq $0x1
popq %r8
movq %rbx, %rdi
xorl %edx, %edx
xorl %ecx, %ecx
movq %r13, %r9
movq %rax, %r15
callq 0x1b3ba
movq %rax, 0x28(%rsp)
movq %rdx, 0x20(%rsp)
leaq 0x40(%rsp), %rbp
movq %rax, (%rbp)
movq %rdx, 0x8(%rbp)
leaq 0x2ed(%rip), %rsi # 0x3cbf6
movq %rbx, %rdi
xorl %edx, %edx
xorl %ecx, %ecx
pushq $0x1
popq %r8
movq %r13, %r9
callq 0x1b3ba
movq %rax, 0x18(%rsp)
movq %rdx, %r13
movq %rax, 0x10(%rbp)
movq %rdx, 0x18(%rbp)
movq %rbx, %rdi
movq %r15, %rsi
movq %r12, %rdx
movq %rbp, %r8
callq 0x3b993
movq %rbx, %rdi
movq %rax, %rsi
callq 0x1801e
pushq $-0x3
popq %rdx
movq %rbx, %rdi
movq %r14, %rsi
callq 0x1801e
movq %rbx, %rdi
movq 0x28(%rsp), %rsi
movq 0x20(%rsp), %rdx
callq 0x1801e
movq %rbx, %rdi
movq 0x18(%rsp), %rsi
movq %r13, %rdx
callq 0x1801e
movq %rbx, %rdi
movq %r15, %rsi
movq %r12, %rdx
addq $0x68, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
jmp 0x1801e
| js_execute_async_module:
push rbp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 68h
mov r14, rsi
mov rbx, rdi
mov rsi, [rsi+68h]
mov rdx, [r14+70h]
and [rsp+98h+var_98], 0
push 3
pop r8
xor ecx, ecx
xor r9d, r9d
call js_async_function_call
mov r12, rdx
cmp r12d, 6
jnz short loc_3C8BA
add rsp, 68h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
loc_3C8BA:
inc dword ptr [r14]
lea r13, [rsp+98h+var_68]
mov [r13+0], r14
mov qword ptr [r13+8], 0FFFFFFFFFFFFFFFDh
lea rsi, js_async_module_execution_fulfilled
push 1
pop r8
mov rdi, rbx
xor edx, edx
xor ecx, ecx
mov r9, r13
mov r15, rax
call JS_NewCFunctionData
mov [rsp+98h+var_70], rax
mov [rsp+98h+var_78], rdx
lea rbp, [rsp+98h+var_58]
mov [rbp+0], rax
mov [rbp+8], rdx
lea rsi, js_async_module_execution_rejected
mov rdi, rbx
xor edx, edx
xor ecx, ecx
push 1
pop r8
mov r9, r13
call JS_NewCFunctionData
mov [rsp+98h+var_80], rax
mov r13, rdx
mov [rbp+10h], rax
mov [rbp+18h], rdx
mov rdi, rbx
mov rsi, r15
mov rdx, r12
mov r8, rbp
call js_promise_then
mov rdi, rbx
mov rsi, rax
call JS_FreeValue
push 0FFFFFFFFFFFFFFFDh
pop rdx
mov rdi, rbx
mov rsi, r14
call JS_FreeValue
mov rdi, rbx
mov rsi, [rsp+98h+var_70]
mov rdx, [rsp+98h+var_78]
call JS_FreeValue
mov rdi, rbx
mov rsi, [rsp+98h+var_80]
mov rdx, r13
call JS_FreeValue
mov rdi, rbx
mov rsi, r15
mov rdx, r12
add rsp, 68h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
jmp JS_FreeValue
| unsigned long long js_execute_async_module(
long long a1,
long long a2,
__m128 a3,
__m128 a4,
__m128 a5,
__m128 a6,
double a7,
double a8,
__m128 a9,
__m128 a10)
{
unsigned long long result; // rax
long long v11; // rdx
long long v12; // r12
long long v13; // r15
long long v14; // rdx
long long v15; // rdx
long long v16; // r13
long long v17; // rcx
double v18; // xmm4_8
double v19; // xmm5_8
unsigned long long v20; // rax
long long v21; // rdx
unsigned long long v22; // [rsp+18h] [rbp-80h]
long long v23; // [rsp+20h] [rbp-78h]
unsigned long long v24; // [rsp+28h] [rbp-70h]
_QWORD v25[2]; // [rsp+30h] [rbp-68h] BYREF
_QWORD v26[11]; // [rsp+40h] [rbp-58h] BYREF
result = js_async_function_call(a1, *(_QWORD *)(a2 + 104), *(_QWORD *)(a2 + 112), 0, 3, 0, 0LL);
v12 = v11;
if ( (_DWORD)v11 != 6 )
{
++*(_DWORD *)a2;
v25[0] = a2;
v25[1] = -3LL;
v13 = result;
v24 = JS_NewCFunctionData(a1, (long long)js_async_module_execution_fulfilled, 0, 0, 1u, (long long)v25);
v23 = v14;
v26[0] = v24;
v26[1] = v14;
v22 = JS_NewCFunctionData(a1, (long long)js_async_module_execution_rejected, 0, 0, 1u, (long long)v25);
v16 = v15;
v26[2] = v22;
v26[3] = v15;
v20 = js_promise_then(a1, v13, v12, a3, a4, a5, a6, v18, v19, a9, a10, v17, (long long)v26);
JS_FreeValue(a1, v20, v21);
JS_FreeValue(a1, a2, -3LL);
JS_FreeValue(a1, v24, v23);
JS_FreeValue(a1, v22, v16);
return JS_FreeValue(a1, v13, v12);
}
return result;
}
| js_execute_async_module:
PUSH RBP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x68
MOV R14,RSI
MOV RBX,RDI
MOV RSI,qword ptr [RSI + 0x68]
MOV RDX,qword ptr [R14 + 0x70]
AND qword ptr [RSP],0x0
PUSH 0x3
POP R8
XOR ECX,ECX
XOR R9D,R9D
CALL 0x0012fc9c
MOV R12,RDX
CMP R12D,0x6
JNZ 0x0013c8ba
ADD RSP,0x68
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
LAB_0013c8ba:
INC dword ptr [R14]
LEA R13,[RSP + 0x30]
MOV qword ptr [R13],R14
MOV qword ptr [R13 + 0x8],-0x3
LEA RSI,[0x13ca8f]
PUSH 0x1
POP R8
MOV RDI,RBX
XOR EDX,EDX
XOR ECX,ECX
MOV R9,R13
MOV R15,RAX
CALL 0x0011b3ba
MOV qword ptr [RSP + 0x28],RAX
MOV qword ptr [RSP + 0x20],RDX
LEA RBP,[RSP + 0x40]
MOV qword ptr [RBP],RAX
MOV qword ptr [RBP + 0x8],RDX
LEA RSI,[0x13cbf6]
MOV RDI,RBX
XOR EDX,EDX
XOR ECX,ECX
PUSH 0x1
POP R8
MOV R9,R13
CALL 0x0011b3ba
MOV qword ptr [RSP + 0x18],RAX
MOV R13,RDX
MOV qword ptr [RBP + 0x10],RAX
MOV qword ptr [RBP + 0x18],RDX
MOV RDI,RBX
MOV RSI,R15
MOV RDX,R12
MOV R8,RBP
CALL 0x0013b993
MOV RDI,RBX
MOV RSI,RAX
CALL 0x0011801e
PUSH -0x3
POP RDX
MOV RDI,RBX
MOV RSI,R14
CALL 0x0011801e
MOV RDI,RBX
MOV RSI,qword ptr [RSP + 0x28]
MOV RDX,qword ptr [RSP + 0x20]
CALL 0x0011801e
MOV RDI,RBX
MOV RSI,qword ptr [RSP + 0x18]
MOV RDX,R13
CALL 0x0011801e
MOV RDI,RBX
MOV RSI,R15
MOV RDX,R12
ADD RSP,0x68
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
JMP 0x0011801e
|
void js_execute_async_module(int8 param_1,int *param_2)
{
int8 uVar1;
int8 uVar2;
int8 uVar3;
int8 uVar4;
int8 uVar5;
int1 auVar6 [16];
int *local_68;
int8 local_60;
int1 local_58 [16];
int1 local_48 [16];
auVar6 = js_async_function_call
(param_1,*(int8 *)(param_2 + 0x1a),*(int8 *)(param_2 + 0x1c),0,3,0,
0);
if (auVar6._8_4_ == 6) {
return;
}
*param_2 = *param_2 + 1;
local_60 = 0xfffffffffffffffd;
local_68 = param_2;
local_58 = JS_NewCFunctionData(param_1,js_async_module_execution_fulfilled,0,0,1,&local_68);
uVar4 = local_58._8_8_;
uVar1 = local_58._0_8_;
local_48 = JS_NewCFunctionData(param_1,js_async_module_execution_rejected,0,0,1,&local_68);
uVar5 = local_48._8_8_;
uVar2 = local_48._0_8_;
uVar3 = js_promise_then(param_1,auVar6._0_8_,auVar6._8_8_);
JS_FreeValue(param_1,uVar3);
JS_FreeValue(param_1,param_2,0xfffffffffffffffd);
JS_FreeValue(param_1,uVar1,uVar4);
JS_FreeValue(param_1,uVar2,uVar5);
JS_FreeValue(param_1,auVar6._0_8_,auVar6._8_8_);
return;
}
| |
34,406 | get_charset_name | eloqsql/mysys/charset.c | const char *get_charset_name(uint charset_number)
{
my_pthread_once(&charsets_initialized, init_available_charsets);
if (charset_number < array_elements(all_charsets))
{
CHARSET_INFO *cs= all_charsets[charset_number];
if (cs && (cs->number == charset_number) && cs->coll_name.str)
return cs->coll_name.str;
}
return "?"; /* this mimics find_type() */
} | O0 | c | get_charset_name:
pushq %rbp
movq %rsp, %rbp
subq $0x20, %rsp
movl %edi, -0xc(%rbp)
leaq 0x3b7cc2(%rip), %rdi # 0x419ff4
leaq -0x479(%rip), %rsi # 0x61ec0
callq 0x262e0
cmpl $0x800, -0xc(%rbp) # imm = 0x800
jae 0x62388
movl -0xc(%rbp), %eax
movl %eax, %ecx
leaq 0x3afc2d(%rip), %rax # 0x411f80
movq (%rax,%rcx,8), %rax
movq %rax, -0x18(%rbp)
cmpq $0x0, -0x18(%rbp)
je 0x62386
movq -0x18(%rbp), %rax
movl (%rax), %eax
cmpl -0xc(%rbp), %eax
jne 0x62386
movq -0x18(%rbp), %rax
cmpq $0x0, 0x20(%rax)
je 0x62386
movq -0x18(%rbp), %rax
movq 0x20(%rax), %rax
movq %rax, -0x8(%rbp)
jmp 0x62393
jmp 0x62388
leaq 0x4fdbc(%rip), %rax # 0xb214b
movq %rax, -0x8(%rbp)
movq -0x8(%rbp), %rax
addq $0x20, %rsp
popq %rbp
retq
nopl (%rax)
| get_charset_name:
push rbp
mov rbp, rsp
sub rsp, 20h
mov [rbp+var_C], edi
lea rdi, charsets_initialized
lea rsi, init_available_charsets
call _pthread_once
cmp [rbp+var_C], 800h
jnb short loc_62388
mov eax, [rbp+var_C]
mov ecx, eax
lea rax, all_charsets
mov rax, [rax+rcx*8]
mov [rbp+var_18], rax
cmp [rbp+var_18], 0
jz short loc_62386
mov rax, [rbp+var_18]
mov eax, [rax]
cmp eax, [rbp+var_C]
jnz short loc_62386
mov rax, [rbp+var_18]
cmp qword ptr [rax+20h], 0
jz short loc_62386
mov rax, [rbp+var_18]
mov rax, [rax+20h]
mov [rbp+var_8], rax
jmp short loc_62393
loc_62386:
jmp short $+2
loc_62388:
lea rax, asc_B214B; "?"
mov [rbp+var_8], rax
loc_62393:
mov rax, [rbp+var_8]
add rsp, 20h
pop rbp
retn
| const char * get_charset_name(unsigned int a1)
{
long long v2; // [rsp+8h] [rbp-18h]
pthread_once(&charsets_initialized, init_available_charsets);
if ( a1 < 0x800 && (v2 = all_charsets[a1]) != 0 && *(_DWORD *)v2 == a1 && *(_QWORD *)(v2 + 32) )
return *(const char **)(v2 + 32);
else
return "?";
}
| get_charset_name:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x20
MOV dword ptr [RBP + -0xc],EDI
LEA RDI,[0x519ff4]
LEA RSI,[0x161ec0]
CALL 0x001262e0
CMP dword ptr [RBP + -0xc],0x800
JNC 0x00162388
MOV EAX,dword ptr [RBP + -0xc]
MOV ECX,EAX
LEA RAX,[0x511f80]
MOV RAX,qword ptr [RAX + RCX*0x8]
MOV qword ptr [RBP + -0x18],RAX
CMP qword ptr [RBP + -0x18],0x0
JZ 0x00162386
MOV RAX,qword ptr [RBP + -0x18]
MOV EAX,dword ptr [RAX]
CMP EAX,dword ptr [RBP + -0xc]
JNZ 0x00162386
MOV RAX,qword ptr [RBP + -0x18]
CMP qword ptr [RAX + 0x20],0x0
JZ 0x00162386
MOV RAX,qword ptr [RBP + -0x18]
MOV RAX,qword ptr [RAX + 0x20]
MOV qword ptr [RBP + -0x8],RAX
JMP 0x00162393
LAB_00162386:
JMP 0x00162388
LAB_00162388:
LEA RAX,[0x1b214b]
MOV qword ptr [RBP + -0x8],RAX
LAB_00162393:
MOV RAX,qword ptr [RBP + -0x8]
ADD RSP,0x20
POP RBP
RET
|
int * get_charset_name(uint param_1)
{
uint *puVar1;
int *local_10;
pthread_once(&charsets_initialized,init_available_charsets);
if ((((param_1 < 0x800) && (puVar1 = (uint *)(&all_charsets)[param_1], puVar1 != (uint *)0x0)) &&
(*puVar1 == param_1)) && (*(long *)(puVar1 + 8) != 0)) {
local_10 = *(int **)(puVar1 + 8);
}
else {
local_10 = &DAT_001b214b;
}
return local_10;
}
| |
34,407 | my_hash_sort_utf8mb4_nopad | eloqsql/strings/ctype-utf8.c | static void
my_hash_sort_utf8mb4_nopad(CHARSET_INFO *cs, const uchar *s, size_t slen,
ulong *nr1, ulong *nr2)
{
my_wc_t wc;
int res;
const uchar *e= s + slen;
MY_UNICASE_INFO *uni_plane= cs->caseinfo;
register ulong m1= *nr1, m2= *nr2;
while ((res= my_mb_wc_utf8mb4(cs, &wc, (uchar*) s, (uchar*) e)) > 0)
{
my_tosort_unicode(uni_plane, &wc, cs->state);
MY_HASH_ADD_16(m1, m2, (uint) (wc & 0xFFFF));
if (wc > 0xFFFF)
{
/*
Put the highest byte only if it is non-zero,
to make hash functions for utf8mb3 and utf8mb4
compatible for BMP characters.
This is useful to keep order of records in
test results, e.g. for "SHOW GRANTS".
*/
MY_HASH_ADD(m1, m2, (uint) ((wc >> 16) & 0xFF));
}
s+= res;
}
*nr1= m1;
*nr2= m2;
} | O0 | c | my_hash_sort_utf8mb4_nopad:
pushq %rbp
movq %rsp, %rbp
subq $0x60, %rsp
movq %rdi, -0x8(%rbp)
movq %rsi, -0x10(%rbp)
movq %rdx, -0x18(%rbp)
movq %rcx, -0x20(%rbp)
movq %r8, -0x28(%rbp)
movq -0x10(%rbp), %rax
addq -0x18(%rbp), %rax
movq %rax, -0x40(%rbp)
movq -0x8(%rbp), %rax
movq 0x78(%rax), %rax
movq %rax, -0x48(%rbp)
movq -0x20(%rbp), %rax
movq (%rax), %rax
movq %rax, -0x50(%rbp)
movq -0x28(%rbp), %rax
movq (%rax), %rax
movq %rax, -0x58(%rbp)
movq -0x8(%rbp), %rdi
movq -0x10(%rbp), %rdx
movq -0x40(%rbp), %rcx
leaq -0x30(%rbp), %rsi
callq 0x65390
movl %eax, -0x34(%rbp)
cmpl $0x0, %eax
jle 0x6a40a
movq -0x48(%rbp), %rdi
movq -0x8(%rbp), %rax
movl 0xc(%rax), %edx
leaq -0x30(%rbp), %rsi
callq 0x65ab0
jmp 0x6a321
movq -0x50(%rbp), %rax
andq $0x3f, %rax
addq -0x58(%rbp), %rax
movq -0x30(%rbp), %rcx
andq $0xffff, %rcx # imm = 0xFFFF
andl $0xff, %ecx
movl %ecx, %ecx
imulq %rcx, %rax
movq -0x50(%rbp), %rcx
shlq $0x8, %rcx
addq %rcx, %rax
xorq -0x50(%rbp), %rax
movq %rax, -0x50(%rbp)
movq -0x58(%rbp), %rax
addq $0x3, %rax
movq %rax, -0x58(%rbp)
jmp 0x6a365
movq -0x50(%rbp), %rax
andq $0x3f, %rax
addq -0x58(%rbp), %rax
movq -0x30(%rbp), %rcx
andq $0xffff, %rcx # imm = 0xFFFF
shrl $0x8, %ecx
movl %ecx, %ecx
imulq %rcx, %rax
movq -0x50(%rbp), %rcx
shlq $0x8, %rcx
addq %rcx, %rax
xorq -0x50(%rbp), %rax
movq %rax, -0x50(%rbp)
movq -0x58(%rbp), %rax
addq $0x3, %rax
movq %rax, -0x58(%rbp)
jmp 0x6a3a6
cmpq $0xffff, -0x30(%rbp) # imm = 0xFFFF
jbe 0x6a3f4
jmp 0x6a3b2
movq -0x50(%rbp), %rax
andq $0x3f, %rax
addq -0x58(%rbp), %rax
movq -0x30(%rbp), %rcx
shrq $0x10, %rcx
andq $0xff, %rcx
movl %ecx, %ecx
imulq %rcx, %rax
movq -0x50(%rbp), %rcx
shlq $0x8, %rcx
addq %rcx, %rax
xorq -0x50(%rbp), %rax
movq %rax, -0x50(%rbp)
movq -0x58(%rbp), %rax
addq $0x3, %rax
movq %rax, -0x58(%rbp)
jmp 0x6a3f4
movl -0x34(%rbp), %ecx
movq -0x10(%rbp), %rax
movslq %ecx, %rcx
addq %rcx, %rax
movq %rax, -0x10(%rbp)
jmp 0x6a2ea
movq -0x50(%rbp), %rcx
movq -0x20(%rbp), %rax
movq %rcx, (%rax)
movq -0x58(%rbp), %rcx
movq -0x28(%rbp), %rax
movq %rcx, (%rax)
addq $0x60, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| my_hash_sort_utf8mb4_nopad:
push rbp
mov rbp, rsp
sub rsp, 60h
mov [rbp+var_8], rdi
mov [rbp+var_10], rsi
mov [rbp+var_18], rdx
mov [rbp+var_20], rcx
mov [rbp+var_28], r8
mov rax, [rbp+var_10]
add rax, [rbp+var_18]
mov [rbp+var_40], rax
mov rax, [rbp+var_8]
mov rax, [rax+78h]
mov [rbp+var_48], rax
mov rax, [rbp+var_20]
mov rax, [rax]
mov [rbp+var_50], rax
mov rax, [rbp+var_28]
mov rax, [rax]
mov [rbp+var_58], rax
loc_6A2EA:
mov rdi, [rbp+var_8]
mov rdx, [rbp+var_10]
mov rcx, [rbp+var_40]
lea rsi, [rbp+var_30]
call my_mb_wc_utf8mb4
mov [rbp+var_34], eax
cmp eax, 0
jle loc_6A40A
mov rdi, [rbp+var_48]
mov rax, [rbp+var_8]
mov edx, [rax+0Ch]
lea rsi, [rbp+var_30]
call my_tosort_unicode
jmp short $+2
loc_6A321:
mov rax, [rbp+var_50]
and rax, 3Fh
add rax, [rbp+var_58]
mov rcx, [rbp+var_30]
and rcx, 0FFFFh
and ecx, 0FFh
mov ecx, ecx
imul rax, rcx
mov rcx, [rbp+var_50]
shl rcx, 8
add rax, rcx
xor rax, [rbp+var_50]
mov [rbp+var_50], rax
mov rax, [rbp+var_58]
add rax, 3
mov [rbp+var_58], rax
jmp short $+2
loc_6A365:
mov rax, [rbp+var_50]
and rax, 3Fh
add rax, [rbp+var_58]
mov rcx, [rbp+var_30]
and rcx, 0FFFFh
shr ecx, 8
mov ecx, ecx
imul rax, rcx
mov rcx, [rbp+var_50]
shl rcx, 8
add rax, rcx
xor rax, [rbp+var_50]
mov [rbp+var_50], rax
mov rax, [rbp+var_58]
add rax, 3
mov [rbp+var_58], rax
jmp short $+2
loc_6A3A6:
cmp [rbp+var_30], 0FFFFh
jbe short loc_6A3F4
jmp short $+2
loc_6A3B2:
mov rax, [rbp+var_50]
and rax, 3Fh
add rax, [rbp+var_58]
mov rcx, [rbp+var_30]
shr rcx, 10h
and rcx, 0FFh
mov ecx, ecx
imul rax, rcx
mov rcx, [rbp+var_50]
shl rcx, 8
add rax, rcx
xor rax, [rbp+var_50]
mov [rbp+var_50], rax
mov rax, [rbp+var_58]
add rax, 3
mov [rbp+var_58], rax
jmp short $+2
loc_6A3F4:
mov ecx, [rbp+var_34]
mov rax, [rbp+var_10]
movsxd rcx, ecx
add rax, rcx
mov [rbp+var_10], rax
jmp loc_6A2EA
loc_6A40A:
mov rcx, [rbp+var_50]
mov rax, [rbp+var_20]
mov [rax], rcx
mov rcx, [rbp+var_58]
mov rax, [rbp+var_28]
mov [rax], rcx
add rsp, 60h
pop rbp
retn
| _QWORD * my_hash_sort_utf8mb4_nopad(long long a1, long long a2, long long a3, long long *a4, _QWORD *a5, long long a6)
{
_QWORD *result; // rax
long long v7; // [rsp+8h] [rbp-58h]
long long v8; // [rsp+8h] [rbp-58h]
long long v9; // [rsp+10h] [rbp-50h]
long long v10; // [rsp+10h] [rbp-50h]
_QWORD *v11; // [rsp+18h] [rbp-48h]
long long v12; // [rsp+20h] [rbp-40h]
int v13; // [rsp+2Ch] [rbp-34h]
unsigned long long v14; // [rsp+30h] [rbp-30h] BYREF
_QWORD *v15; // [rsp+38h] [rbp-28h]
long long *v16; // [rsp+40h] [rbp-20h]
long long v17; // [rsp+48h] [rbp-18h]
long long v18; // [rsp+50h] [rbp-10h]
long long v19; // [rsp+58h] [rbp-8h]
v19 = a1;
v18 = a2;
v17 = a3;
v16 = a4;
v15 = a5;
v12 = a3 + a2;
v11 = *(_QWORD **)(a1 + 120);
v9 = *a4;
v7 = *a5;
while ( 1 )
{
v13 = my_mb_wc_utf8mb4(v19, (long long)&v14, v18, v12, (long long)a5, a6);
if ( v13 <= 0 )
break;
my_tosort_unicode(v11, &v14, *(_DWORD *)(v19 + 12));
v10 = v9 ^ ((v9 << 8) + (unsigned __int8)v14 * (v7 + (v9 & 0x3F)));
v8 = v7 + 3;
v9 = v10 ^ ((v10 << 8) + BYTE1(v14) * (v8 + (v10 & 0x3F)));
v7 = v8 + 3;
if ( v14 > 0xFFFF )
{
v9 ^= (v9 << 8) + BYTE2(v14) * (v7 + (v9 & 0x3F));
v7 += 3LL;
}
v18 += v13;
}
*v16 = v9;
result = v15;
*v15 = v7;
return result;
}
| my_hash_sort_utf8mb4_nopad:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x60
MOV qword ptr [RBP + -0x8],RDI
MOV qword ptr [RBP + -0x10],RSI
MOV qword ptr [RBP + -0x18],RDX
MOV qword ptr [RBP + -0x20],RCX
MOV qword ptr [RBP + -0x28],R8
MOV RAX,qword ptr [RBP + -0x10]
ADD RAX,qword ptr [RBP + -0x18]
MOV qword ptr [RBP + -0x40],RAX
MOV RAX,qword ptr [RBP + -0x8]
MOV RAX,qword ptr [RAX + 0x78]
MOV qword ptr [RBP + -0x48],RAX
MOV RAX,qword ptr [RBP + -0x20]
MOV RAX,qword ptr [RAX]
MOV qword ptr [RBP + -0x50],RAX
MOV RAX,qword ptr [RBP + -0x28]
MOV RAX,qword ptr [RAX]
MOV qword ptr [RBP + -0x58],RAX
LAB_0016a2ea:
MOV RDI,qword ptr [RBP + -0x8]
MOV RDX,qword ptr [RBP + -0x10]
MOV RCX,qword ptr [RBP + -0x40]
LEA RSI,[RBP + -0x30]
CALL 0x00165390
MOV dword ptr [RBP + -0x34],EAX
CMP EAX,0x0
JLE 0x0016a40a
MOV RDI,qword ptr [RBP + -0x48]
MOV RAX,qword ptr [RBP + -0x8]
MOV EDX,dword ptr [RAX + 0xc]
LEA RSI,[RBP + -0x30]
CALL 0x00165ab0
JMP 0x0016a321
LAB_0016a321:
MOV RAX,qword ptr [RBP + -0x50]
AND RAX,0x3f
ADD RAX,qword ptr [RBP + -0x58]
MOV RCX,qword ptr [RBP + -0x30]
AND RCX,0xffff
AND ECX,0xff
MOV ECX,ECX
IMUL RAX,RCX
MOV RCX,qword ptr [RBP + -0x50]
SHL RCX,0x8
ADD RAX,RCX
XOR RAX,qword ptr [RBP + -0x50]
MOV qword ptr [RBP + -0x50],RAX
MOV RAX,qword ptr [RBP + -0x58]
ADD RAX,0x3
MOV qword ptr [RBP + -0x58],RAX
JMP 0x0016a365
LAB_0016a365:
MOV RAX,qword ptr [RBP + -0x50]
AND RAX,0x3f
ADD RAX,qword ptr [RBP + -0x58]
MOV RCX,qword ptr [RBP + -0x30]
AND RCX,0xffff
SHR ECX,0x8
MOV ECX,ECX
IMUL RAX,RCX
MOV RCX,qword ptr [RBP + -0x50]
SHL RCX,0x8
ADD RAX,RCX
XOR RAX,qword ptr [RBP + -0x50]
MOV qword ptr [RBP + -0x50],RAX
MOV RAX,qword ptr [RBP + -0x58]
ADD RAX,0x3
MOV qword ptr [RBP + -0x58],RAX
JMP 0x0016a3a6
LAB_0016a3a6:
CMP qword ptr [RBP + -0x30],0xffff
JBE 0x0016a3f4
JMP 0x0016a3b2
LAB_0016a3b2:
MOV RAX,qword ptr [RBP + -0x50]
AND RAX,0x3f
ADD RAX,qword ptr [RBP + -0x58]
MOV RCX,qword ptr [RBP + -0x30]
SHR RCX,0x10
AND RCX,0xff
MOV ECX,ECX
IMUL RAX,RCX
MOV RCX,qword ptr [RBP + -0x50]
SHL RCX,0x8
ADD RAX,RCX
XOR RAX,qword ptr [RBP + -0x50]
MOV qword ptr [RBP + -0x50],RAX
MOV RAX,qword ptr [RBP + -0x58]
ADD RAX,0x3
MOV qword ptr [RBP + -0x58],RAX
JMP 0x0016a3f4
LAB_0016a3f4:
MOV ECX,dword ptr [RBP + -0x34]
MOV RAX,qword ptr [RBP + -0x10]
MOVSXD RCX,ECX
ADD RAX,RCX
MOV qword ptr [RBP + -0x10],RAX
JMP 0x0016a2ea
LAB_0016a40a:
MOV RCX,qword ptr [RBP + -0x50]
MOV RAX,qword ptr [RBP + -0x20]
MOV qword ptr [RAX],RCX
MOV RCX,qword ptr [RBP + -0x58]
MOV RAX,qword ptr [RBP + -0x28]
MOV qword ptr [RAX],RCX
ADD RSP,0x60
POP RBP
RET
|
void my_hash_sort_utf8mb4_nopad(long param_1,long param_2,long param_3,ulong *param_4,long *param_5)
{
int8 uVar1;
long lVar2;
int iVar3;
long local_60;
ulong local_58;
ulong local_38;
long *local_30;
ulong *local_28;
long local_20;
long local_18;
long local_10;
uVar1 = *(int8 *)(param_1 + 0x78);
local_58 = *param_4;
local_60 = *param_5;
local_30 = param_5;
local_28 = param_4;
local_20 = param_3;
local_18 = param_2;
local_10 = param_1;
while( true ) {
iVar3 = my_mb_wc_utf8mb4(local_10,&local_38,local_18,param_2 + param_3);
if (iVar3 < 1) break;
my_tosort_unicode(uVar1,&local_38,*(int4 *)(local_10 + 0xc));
local_58 = ((local_58 & 0x3f) + local_60) * (ulong)((uint)local_38 & 0xff) + local_58 * 0x100 ^
local_58;
local_58 = ((local_58 & 0x3f) + local_60 + 3) * (ulong)(((uint)local_38 & 0xffff) >> 8) +
local_58 * 0x100 ^ local_58;
lVar2 = local_60 + 6;
if (0xffff < local_38) {
local_58 = ((local_58 & 0x3f) + local_60 + 6) * (ulong)((uint)(local_38 >> 0x10) & 0xff) +
local_58 * 0x100 ^ local_58;
lVar2 = local_60 + 9;
}
local_60 = lVar2;
local_18 = local_18 + iVar3;
}
*local_28 = local_58;
*local_30 = local_60;
return;
}
| |
34,408 | nlohmann::json_abi_v3_11_3::detail::json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>>::~json_sax_dom_callback_parser() | monkey531[P]llama/common/./json.hpp | ~json_sax_dom_callback_parser() = default; | O1 | cpp | nlohmann::json_abi_v3_11_3::detail::json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>>::~json_sax_dom_callback_parser():
pushq %r14
pushq %rbx
pushq %rax
movq %rdi, %rbx
leaq 0xa8(%rdi), %r14
movq %r14, %rdi
xorl %esi, %esi
callq 0x3efdc
movq %r14, %rdi
callq 0x4bfb8
movq 0x90(%rbx), %rax
testq %rax, %rax
je 0x48877
leaq 0x80(%rbx), %rdi
movq %rdi, %rsi
movl $0x3, %edx
callq *%rax
leaq 0x48(%rbx), %rdi
callq 0x499d2
leaq 0x20(%rbx), %rdi
callq 0x499d2
movq 0x8(%rbx), %rdi
testq %rdi, %rdi
je 0x488a5
movq 0x18(%rbx), %rsi
subq %rdi, %rsi
addq $0x8, %rsp
popq %rbx
popq %r14
jmp 0x186a0
addq $0x8, %rsp
popq %rbx
popq %r14
retq
jmp 0x488b1
jmp 0x488b1
movq %rax, %rdi
callq 0x2c043
nop
| _ZN8nlohmann16json_abi_v3_11_36detail28json_sax_dom_callback_parserINS0_10basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES5_IhSaIhEEvEEED2Ev:
push r14
push rbx
push rax
mov rbx, rdi
lea r14, [rdi+0A8h]
mov rdi, r14
xor esi, esi
call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE16assert_invariantEb; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::assert_invariant(bool)
mov rdi, r14
call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE4dataD2Ev; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::data::~data()
mov rax, [rbx+90h]
test rax, rax
jz short loc_48877
lea rdi, [rbx+80h]
mov rsi, rdi
mov edx, 3
call rax
loc_48877:
lea rdi, [rbx+48h]
call _ZNSt13_Bvector_baseISaIbEE13_M_deallocateEv; std::_Bvector_base<std::allocator<bool>>::_M_deallocate(void)
lea rdi, [rbx+20h]
call _ZNSt13_Bvector_baseISaIbEE13_M_deallocateEv; std::_Bvector_base<std::allocator<bool>>::_M_deallocate(void)
mov rdi, [rbx+8]; void *
test rdi, rdi
jz short loc_488A5
mov rsi, [rbx+18h]
sub rsi, rdi; unsigned __int64
add rsp, 8
pop rbx
pop r14
jmp __ZdlPvm; operator delete(void *,ulong)
loc_488A5:
add rsp, 8
pop rbx
pop r14
retn
jmp short loc_488B1
jmp short $+2
loc_488B1:
mov rdi, rax
call __clang_call_terminate
| void nlohmann::json_abi_v3_11_3::detail::json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>>::~json_sax_dom_callback_parser(
long long a1)
{
long long v2; // rsi
void ( *v3)(long long, long long, long long); // rax
void *v4; // rdi
v2 = 0LL;
nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::assert_invariant((char *)(a1 + 168));
nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::data::~data(a1 + 168);
v3 = *(void ( **)(long long, long long, long long))(a1 + 144);
if ( v3 )
{
v2 = a1 + 128;
v3(a1 + 128, a1 + 128, 3LL);
}
std::_Bvector_base<std::allocator<bool>>::_M_deallocate(a1 + 72, v2);
std::_Bvector_base<std::allocator<bool>>::_M_deallocate(a1 + 32, v2);
v4 = *(void **)(a1 + 8);
if ( v4 )
operator delete(v4, *(_QWORD *)(a1 + 24) - (_QWORD)v4);
}
| ~json_sax_dom_callback_parser:
PUSH R14
PUSH RBX
PUSH RAX
MOV RBX,RDI
LEA R14,[RDI + 0xa8]
MOV RDI,R14
XOR ESI,ESI
CALL 0x0013efdc
MOV RDI,R14
CALL 0x0014bfb8
MOV RAX,qword ptr [RBX + 0x90]
TEST RAX,RAX
JZ 0x00148877
LEA RDI,[RBX + 0x80]
LAB_0014886d:
MOV RSI,RDI
MOV EDX,0x3
CALL RAX
LAB_00148877:
LEA RDI,[RBX + 0x48]
LAB_0014887b:
CALL 0x001499d2
LEA RDI,[RBX + 0x20]
LAB_00148884:
CALL 0x001499d2
MOV RDI,qword ptr [RBX + 0x8]
TEST RDI,RDI
JZ 0x001488a5
MOV RSI,qword ptr [RBX + 0x18]
SUB RSI,RDI
ADD RSP,0x8
POP RBX
POP R14
JMP 0x001186a0
LAB_001488a5:
ADD RSP,0x8
POP RBX
POP R14
RET
|
/* nlohmann::json_abi_v3_11_3::detail::json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,
std::vector, std::__cxx11::string, bool, long, unsigned long, double, std::allocator,
nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned
char> >, void> >::~json_sax_dom_callback_parser() */
void __thiscall
nlohmann::json_abi_v3_11_3::detail::
json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>>
::~json_sax_dom_callback_parser
(json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>>
*this)
{
void *pvVar1;
basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>
::assert_invariant(SUB81((data *)(this + 0xa8),0));
basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>
::data::~data((data *)(this + 0xa8));
if (*(code **)(this + 0x90) != (code *)0x0) {
/* try { // try from 0014886d to 00148876 has its CatchHandler @ 001488ad */
(**(code **)(this + 0x90))(this + 0x80,this + 0x80,3);
}
/* try { // try from 0014887b to 0014887f has its CatchHandler @ 001488b1 */
std::_Bvector_base<std::allocator<bool>>::_M_deallocate
((_Bvector_base<std::allocator<bool>> *)(this + 0x48));
/* try { // try from 00148884 to 00148888 has its CatchHandler @ 001488af */
std::_Bvector_base<std::allocator<bool>>::_M_deallocate
((_Bvector_base<std::allocator<bool>> *)(this + 0x20));
pvVar1 = *(void **)(this + 8);
if (pvVar1 != (void *)0x0) {
operator_delete(pvVar1,*(long *)(this + 0x18) - (long)pvVar1);
return;
}
return;
}
| |
34,409 | nlohmann::json_abi_v3_11_3::detail::json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>>::~json_sax_dom_callback_parser() | monkey531[P]llama/common/./json.hpp | ~json_sax_dom_callback_parser() = default; | O3 | cpp | nlohmann::json_abi_v3_11_3::detail::json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>>::~json_sax_dom_callback_parser():
pushq %r14
pushq %rbx
pushq %rax
movq %rdi, %rbx
leaq 0xa8(%rdi), %r14
movq %r14, %rdi
xorl %esi, %esi
callq 0x3d970
movq %r14, %rdi
callq 0x4a5c0
movq 0x90(%rbx), %rax
testq %rax, %rax
je 0x46f67
leaq 0x80(%rbx), %rdi
movq %rdi, %rsi
movl $0x3, %edx
callq *%rax
leaq 0x48(%rbx), %rdi
callq 0x47fce
leaq 0x20(%rbx), %rdi
callq 0x47fce
movq 0x8(%rbx), %rdi
testq %rdi, %rdi
je 0x46f95
movq 0x18(%rbx), %rsi
subq %rdi, %rsi
addq $0x8, %rsp
popq %rbx
popq %r14
jmp 0x186a0
addq $0x8, %rsp
popq %rbx
popq %r14
retq
jmp 0x46fa1
jmp 0x46fa1
movq %rax, %rdi
callq 0x2ad73
nop
| _ZN8nlohmann16json_abi_v3_11_36detail28json_sax_dom_callback_parserINS0_10basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES5_IhSaIhEEvEEED2Ev:
push r14
push rbx
push rax
mov rbx, rdi
lea r14, [rdi+0A8h]
mov rdi, r14
xor esi, esi
call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE16assert_invariantEb; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::assert_invariant(bool)
mov rdi, r14
call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE4dataD2Ev; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::data::~data()
mov rax, [rbx+90h]
test rax, rax
jz short loc_46F67
lea rdi, [rbx+80h]
mov rsi, rdi
mov edx, 3
call rax
loc_46F67:
lea rdi, [rbx+48h]
call _ZNSt13_Bvector_baseISaIbEE13_M_deallocateEv; std::_Bvector_base<std::allocator<bool>>::_M_deallocate(void)
lea rdi, [rbx+20h]
call _ZNSt13_Bvector_baseISaIbEE13_M_deallocateEv; std::_Bvector_base<std::allocator<bool>>::_M_deallocate(void)
mov rdi, [rbx+8]; void *
test rdi, rdi
jz short loc_46F95
mov rsi, [rbx+18h]
sub rsi, rdi; unsigned __int64
add rsp, 8
pop rbx
pop r14
jmp __ZdlPvm; operator delete(void *,ulong)
loc_46F95:
add rsp, 8
pop rbx
pop r14
retn
jmp short loc_46FA1
jmp short $+2
loc_46FA1:
mov rdi, rax
call __clang_call_terminate
| void nlohmann::json_abi_v3_11_3::detail::json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>>::~json_sax_dom_callback_parser(
long long a1)
{
long long v2; // rsi
void ( *v3)(long long, long long, long long); // rax
void *v4; // rdi
v2 = 0LL;
nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::assert_invariant((char *)(a1 + 168));
nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::data::~data(a1 + 168);
v3 = *(void ( **)(long long, long long, long long))(a1 + 144);
if ( v3 )
{
v2 = a1 + 128;
v3(a1 + 128, a1 + 128, 3LL);
}
std::_Bvector_base<std::allocator<bool>>::_M_deallocate(a1 + 72, v2);
std::_Bvector_base<std::allocator<bool>>::_M_deallocate(a1 + 32, v2);
v4 = *(void **)(a1 + 8);
if ( v4 )
operator delete(v4, *(_QWORD *)(a1 + 24) - (_QWORD)v4);
}
| ~json_sax_dom_callback_parser:
PUSH R14
PUSH RBX
PUSH RAX
MOV RBX,RDI
LEA R14,[RDI + 0xa8]
MOV RDI,R14
XOR ESI,ESI
CALL 0x0013d970
MOV RDI,R14
CALL 0x0014a5c0
MOV RAX,qword ptr [RBX + 0x90]
TEST RAX,RAX
JZ 0x00146f67
LEA RDI,[RBX + 0x80]
LAB_00146f5d:
MOV RSI,RDI
MOV EDX,0x3
CALL RAX
LAB_00146f67:
LEA RDI,[RBX + 0x48]
LAB_00146f6b:
CALL 0x00147fce
LEA RDI,[RBX + 0x20]
LAB_00146f74:
CALL 0x00147fce
MOV RDI,qword ptr [RBX + 0x8]
TEST RDI,RDI
JZ 0x00146f95
MOV RSI,qword ptr [RBX + 0x18]
SUB RSI,RDI
ADD RSP,0x8
POP RBX
POP R14
JMP 0x001186a0
LAB_00146f95:
ADD RSP,0x8
POP RBX
POP R14
RET
|
/* nlohmann::json_abi_v3_11_3::detail::json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,
std::vector, std::__cxx11::string, bool, long, unsigned long, double, std::allocator,
nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned
char> >, void> >::~json_sax_dom_callback_parser() */
void __thiscall
nlohmann::json_abi_v3_11_3::detail::
json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>>
::~json_sax_dom_callback_parser
(json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>>
*this)
{
void *pvVar1;
basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>
::assert_invariant(SUB81((data *)(this + 0xa8),0));
basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>
::data::~data((data *)(this + 0xa8));
if (*(code **)(this + 0x90) != (code *)0x0) {
/* try { // try from 00146f5d to 00146f66 has its CatchHandler @ 00146f9d */
(**(code **)(this + 0x90))(this + 0x80,this + 0x80,3);
}
/* try { // try from 00146f6b to 00146f6f has its CatchHandler @ 00146fa1 */
std::_Bvector_base<std::allocator<bool>>::_M_deallocate
((_Bvector_base<std::allocator<bool>> *)(this + 0x48));
/* try { // try from 00146f74 to 00146f78 has its CatchHandler @ 00146f9f */
std::_Bvector_base<std::allocator<bool>>::_M_deallocate
((_Bvector_base<std::allocator<bool>> *)(this + 0x20));
pvVar1 = *(void **)(this + 8);
if (pvVar1 != (void *)0x0) {
operator_delete(pvVar1,*(long *)(this + 0x18) - (long)pvVar1);
return;
}
return;
}
| |
34,410 | flush_pending | 3fs/build_O3/src/apache-arrow-cpp/cpp/zlib_ep-prefix/src/zlib_ep/deflate.c | local void flush_pending(strm)
z_streamp strm;
{
unsigned len;
deflate_state *s = strm->state;
_tr_flush_bits(s);
len = s->pending;
if (len > strm->avail_out) len = strm->avail_out;
if (len == 0) return;
zmemcpy(strm->next_out, s->pending_out, len);
strm->next_out += len;
s->pending_out += len;
strm->total_out += len;
strm->avail_out -= len;
s->pending -= len;
if (s->pending == 0) {
s->pending_out = s->pending_buf;
}
} | O3 | c | flush_pending:
pushq %rbp
pushq %r15
pushq %r14
pushq %rbx
pushq %rax
movq %rdi, %r14
movq 0x38(%rdi), %rbx
movq %rbx, %rdi
callq 0xcfea
movl 0x28(%rbx), %ebp
movl 0x20(%r14), %eax
cmpl %ebp, %eax
cmovbl %eax, %ebp
testl %ebp, %ebp
je 0x57be
movq 0x18(%r14), %rdi
movq 0x20(%rbx), %rsi
movl %ebp, %r15d
movq %r15, %rdx
callq 0x31b0
addq %r15, 0x18(%r14)
addq %r15, 0x20(%rbx)
addq %r15, 0x28(%r14)
subl %ebp, 0x20(%r14)
subq %r15, 0x28(%rbx)
jne 0x57be
movq 0x10(%rbx), %rax
movq %rax, 0x20(%rbx)
addq $0x8, %rsp
popq %rbx
popq %r14
popq %r15
popq %rbp
retq
| flush_pending:
push rbp
push r15
push r14
push rbx
push rax
mov r14, rdi
mov rbx, [rdi+38h]
mov rdi, rbx
call _tr_flush_bits
mov ebp, [rbx+28h]
mov eax, [r14+20h]
cmp eax, ebp
cmovb ebp, eax
test ebp, ebp
jz short loc_57BE
mov rdi, [r14+18h]
mov rsi, [rbx+20h]
mov r15d, ebp
mov rdx, r15
call _memcpy
add [r14+18h], r15
add [rbx+20h], r15
add [r14+28h], r15
sub [r14+20h], ebp
sub [rbx+28h], r15
jnz short loc_57BE
mov rax, [rbx+10h]
mov [rbx+20h], rax
loc_57BE:
add rsp, 8
pop rbx
pop r14
pop r15
pop rbp
retn
| long long flush_pending(long long a1)
{
long long v1; // rbx
unsigned int v2; // ebp
long long result; // rax
bool v4; // zf
v1 = *(_QWORD *)(a1 + 56);
tr_flush_bits(v1);
v2 = *(_DWORD *)(v1 + 40);
result = *(unsigned int *)(a1 + 32);
if ( (unsigned int)result < v2 )
v2 = *(_DWORD *)(a1 + 32);
if ( v2 )
{
result = memcpy(*(_QWORD *)(a1 + 24), *(_QWORD *)(v1 + 32), v2);
*(_QWORD *)(a1 + 24) += v2;
*(_QWORD *)(v1 + 32) += v2;
*(_QWORD *)(a1 + 40) += v2;
*(_DWORD *)(a1 + 32) -= v2;
v4 = *(_QWORD *)(v1 + 40) == v2;
*(_QWORD *)(v1 + 40) -= v2;
if ( v4 )
{
result = *(_QWORD *)(v1 + 16);
*(_QWORD *)(v1 + 32) = result;
}
}
return result;
}
| flush_pending:
PUSH RBP
PUSH R15
PUSH R14
PUSH RBX
PUSH RAX
MOV R14,RDI
MOV RBX,qword ptr [RDI + 0x38]
MOV RDI,RBX
CALL 0x0010cfea
MOV EBP,dword ptr [RBX + 0x28]
MOV EAX,dword ptr [R14 + 0x20]
CMP EAX,EBP
CMOVC EBP,EAX
TEST EBP,EBP
JZ 0x001057be
MOV RDI,qword ptr [R14 + 0x18]
MOV RSI,qword ptr [RBX + 0x20]
MOV R15D,EBP
MOV RDX,R15
CALL 0x001031b0
ADD qword ptr [R14 + 0x18],R15
ADD qword ptr [RBX + 0x20],R15
ADD qword ptr [R14 + 0x28],R15
SUB dword ptr [R14 + 0x20],EBP
SUB qword ptr [RBX + 0x28],R15
JNZ 0x001057be
MOV RAX,qword ptr [RBX + 0x10]
MOV qword ptr [RBX + 0x20],RAX
LAB_001057be:
ADD RSP,0x8
POP RBX
POP R14
POP R15
POP RBP
RET
|
void flush_pending(long param_1)
{
long *plVar1;
long lVar2;
uint uVar3;
ulong __n;
lVar2 = *(long *)(param_1 + 0x38);
_tr_flush_bits(lVar2);
uVar3 = *(uint *)(lVar2 + 0x28);
if (*(uint *)(param_1 + 0x20) < *(uint *)(lVar2 + 0x28)) {
uVar3 = *(uint *)(param_1 + 0x20);
}
if (uVar3 != 0) {
__n = (ulong)uVar3;
memcpy(*(void **)(param_1 + 0x18),*(void **)(lVar2 + 0x20),__n);
*(long *)(param_1 + 0x18) = *(long *)(param_1 + 0x18) + __n;
*(long *)(lVar2 + 0x20) = *(long *)(lVar2 + 0x20) + __n;
*(long *)(param_1 + 0x28) = *(long *)(param_1 + 0x28) + __n;
*(int *)(param_1 + 0x20) = *(int *)(param_1 + 0x20) - uVar3;
plVar1 = (long *)(lVar2 + 0x28);
*plVar1 = *plVar1 - __n;
if (*plVar1 == 0) {
*(int8 *)(lVar2 + 0x20) = *(int8 *)(lVar2 + 0x10);
}
}
return;
}
| |
34,411 | ma_find_half_pos | eloqsql/storage/maria/ma_write.c | uchar *_ma_find_half_pos(MARIA_KEY *key, MARIA_PAGE *ma_page,
uchar **after_key)
{
uint keys, length, key_ref_length, page_flag, nod_flag;
uchar *page, *end, *lastpos;
MARIA_HA *info= ma_page->info;
MARIA_SHARE *share= info->s;
MARIA_KEYDEF *keyinfo= key->keyinfo;
DBUG_ENTER("_ma_find_half_pos");
nod_flag= ma_page->node;
key_ref_length= share->keypage_header + nod_flag;
page_flag= ma_page->flag;
length= ma_page->size - key_ref_length;
page= ma_page->buff+ key_ref_length; /* Point to first key */
if (!(keyinfo->flag &
(HA_PACK_KEY | HA_SPACE_PACK_USED | HA_VAR_LENGTH_KEY |
HA_BINARY_PACK_KEY)) && !(page_flag & KEYPAGE_FLAG_HAS_TRANSID))
{
key_ref_length= keyinfo->keylength+nod_flag;
key->data_length= keyinfo->keylength - info->s->rec_reflength;
key->ref_length= info->s->rec_reflength;
key->flag= 0;
keys=length/(key_ref_length*2);
end=page+keys*key_ref_length;
*after_key=end+key_ref_length;
memcpy(key->data, end, key_ref_length);
DBUG_RETURN(end);
}
end=page+length/2-key_ref_length; /* This is aprox. half */
key->data[0]= 0; /* Safety */
do
{
lastpos=page;
if (!(length= (*keyinfo->get_key)(key, page_flag, nod_flag, &page)))
DBUG_RETURN(0);
} while (page < end);
*after_key= page;
DBUG_PRINT("exit",("returns: %p page: %p half: %p",
lastpos, page, end));
DBUG_RETURN(lastpos);
} | O3 | c | ma_find_half_pos:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x28, %rsp
movq %rdx, %r8
movq (%rsi), %rbx
movq (%rbx), %rcx
movq 0x8(%rdi), %r11
movl 0x28(%rsi), %r10d
movl 0x744(%rcx), %edx
addl %r10d, %edx
movl 0x2c(%rsi), %r9d
movl 0x20(%rsi), %eax
subl %edx, %eax
movq 0x10(%rsi), %r14
addq %rdx, %r14
movq %r14, -0x38(%rbp)
testb $0x2e, 0xa2(%r11)
sete %sil
movl %r9d, -0x2c(%rbp)
testb $0x2, %r9b
sete %r9b
andb %sil, %r9b
cmpb $0x1, %r9b
jne 0x6c95f
movzwl 0xaa(%r11), %edx
addl %edx, %r10d
subl 0x740(%rcx), %edx
movl %edx, 0x10(%rdi)
movq (%rbx), %rcx
movl 0x740(%rcx), %ecx
movl %ecx, 0x14(%rdi)
movl $0x0, 0x18(%rdi)
leal (%r10,%r10), %ecx
xorl %edx, %edx
divl %ecx
imull %r10d, %eax
addq %rax, %r14
leaq (%r14,%r10), %rax
movq %rax, (%r8)
movq (%rdi), %rdi
movq %r14, %rsi
movq %r10, %rdx
callq 0x270d0
movq %r14, %r12
jmp 0x6c9b5
movq %r8, -0x40(%rbp)
shrl %eax
addq %r14, %rax
subq %rdx, %rax
movq %rax, -0x48(%rbp)
movq (%rdi), %rax
movb $0x0, (%rax)
movq %r14, %r12
movq %rdi, %r15
movl -0x2c(%rbp), %esi
movq %r10, %rbx
movl %r10d, %edx
leaq -0x38(%rbp), %rcx
movq %r11, %r13
callq *0xe0(%r11)
testl %eax, %eax
je 0x6c9b2
movq -0x38(%rbp), %r14
cmpq -0x48(%rbp), %r14
movq %r15, %rdi
movq %rbx, %r10
movq %r13, %r11
jb 0x6c975
movq -0x40(%rbp), %rax
movq %r14, (%rax)
jmp 0x6c9b5
xorl %r12d, %r12d
movq %r12, %rax
addq $0x28, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| _ma_find_half_pos:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 28h
mov r8, rdx
mov rbx, [rsi]
mov rcx, [rbx]
mov r11, [rdi+8]
mov r10d, [rsi+28h]
mov edx, [rcx+744h]
add edx, r10d
mov r9d, [rsi+2Ch]
mov eax, [rsi+20h]
sub eax, edx
mov r14, [rsi+10h]
add r14, rdx
mov [rbp+var_38], r14
test byte ptr [r11+0A2h], 2Eh
setz sil
mov [rbp+var_2C], r9d
test r9b, 2
setz r9b
and r9b, sil
cmp r9b, 1
jnz short loc_6C95F
movzx edx, word ptr [r11+0AAh]
add r10d, edx
sub edx, [rcx+740h]
mov [rdi+10h], edx
mov rcx, [rbx]
mov ecx, [rcx+740h]
mov [rdi+14h], ecx
mov dword ptr [rdi+18h], 0
lea ecx, [r10+r10]
xor edx, edx
div ecx
imul eax, r10d
add r14, rax
lea rax, [r14+r10]
mov [r8], rax
mov rdi, [rdi]
mov rsi, r14
mov rdx, r10
call _memcpy
mov r12, r14
jmp short loc_6C9B5
loc_6C95F:
mov [rbp+var_40], r8
shr eax, 1
add rax, r14
sub rax, rdx
mov [rbp+var_48], rax
mov rax, [rdi]
mov byte ptr [rax], 0
loc_6C975:
mov r12, r14
mov r15, rdi
mov esi, [rbp+var_2C]
mov rbx, r10
mov edx, r10d
lea rcx, [rbp+var_38]
mov r13, r11
call qword ptr [r11+0E0h]
test eax, eax
jz short loc_6C9B2
mov r14, [rbp+var_38]
cmp r14, [rbp+var_48]
mov rdi, r15
mov r10, rbx
mov r11, r13
jb short loc_6C975
mov rax, [rbp+var_40]
mov [rax], r14
jmp short loc_6C9B5
loc_6C9B2:
xor r12d, r12d
loc_6C9B5:
mov rax, r12
add rsp, 28h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| long long ma_find_half_pos(long long a1, long long **a2, unsigned long long *a3)
{
long long *v4; // rbx
long long v5; // rcx
long long v6; // r11
long long v7; // r10
long long v8; // rdx
unsigned int v9; // r9d
unsigned int v10; // eax
long long v11; // r14
bool v12; // si
int v13; // edx
long long v14; // r10
long long v15; // r14
long long v16; // r12
long long v17; // rbx
long long v18; // r13
unsigned long long v20; // [rsp+8h] [rbp-48h]
unsigned long long *v21; // [rsp+10h] [rbp-40h]
unsigned long long v22; // [rsp+18h] [rbp-38h] BYREF
unsigned int v23; // [rsp+24h] [rbp-2Ch]
v4 = *a2;
v5 = **a2;
v6 = *(_QWORD *)(a1 + 8);
v7 = *((unsigned int *)a2 + 10);
v8 = (unsigned int)(v7 + *(_DWORD *)(v5 + 1860));
v9 = *((_DWORD *)a2 + 11);
v10 = *((_DWORD *)a2 + 8) - v8;
v11 = (long long)a2[2] + v8;
v22 = v11;
v12 = (*(_BYTE *)(v6 + 162) & 0x2E) == 0;
v23 = v9;
if ( v12 && (v9 & 2) == 0 )
{
v13 = *(unsigned __int16 *)(v6 + 170);
v14 = (unsigned int)(v13 + v7);
*(_DWORD *)(a1 + 16) = v13 - *(_DWORD *)(v5 + 1856);
*(_DWORD *)(a1 + 20) = *(_DWORD *)(*v4 + 1856);
*(_DWORD *)(a1 + 24) = 0;
v15 = (unsigned int)v14 * (v10 / (2 * (int)v14)) + v11;
*a3 = v15 + v14;
memcpy(*(_QWORD *)a1, v15, v14);
return v15;
}
else
{
v21 = a3;
v20 = v11 + (v10 >> 1) - v8;
**(_BYTE **)a1 = 0;
while ( 1 )
{
v16 = v11;
v17 = v7;
v18 = v6;
if ( !(*(unsigned int ( **)(long long, _QWORD, _QWORD, unsigned long long *))(v6 + 224))(
a1,
v23,
(unsigned int)v7,
&v22) )
break;
v11 = v22;
v7 = v17;
v6 = v18;
if ( v22 >= v20 )
{
*v21 = v22;
return v16;
}
}
return 0LL;
}
}
| _ma_find_half_pos:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x28
MOV R8,RDX
MOV RBX,qword ptr [RSI]
MOV RCX,qword ptr [RBX]
MOV R11,qword ptr [RDI + 0x8]
MOV R10D,dword ptr [RSI + 0x28]
MOV EDX,dword ptr [RCX + 0x744]
ADD EDX,R10D
MOV R9D,dword ptr [RSI + 0x2c]
MOV EAX,dword ptr [RSI + 0x20]
SUB EAX,EDX
MOV R14,qword ptr [RSI + 0x10]
ADD R14,RDX
MOV qword ptr [RBP + -0x38],R14
TEST byte ptr [R11 + 0xa2],0x2e
SETZ SIL
MOV dword ptr [RBP + -0x2c],R9D
TEST R9B,0x2
SETZ R9B
AND R9B,SIL
CMP R9B,0x1
JNZ 0x0016c95f
MOVZX EDX,word ptr [R11 + 0xaa]
ADD R10D,EDX
SUB EDX,dword ptr [RCX + 0x740]
MOV dword ptr [RDI + 0x10],EDX
MOV RCX,qword ptr [RBX]
MOV ECX,dword ptr [RCX + 0x740]
MOV dword ptr [RDI + 0x14],ECX
MOV dword ptr [RDI + 0x18],0x0
LEA ECX,[R10 + R10*0x1]
XOR EDX,EDX
DIV ECX
IMUL EAX,R10D
ADD R14,RAX
LEA RAX,[R14 + R10*0x1]
MOV qword ptr [R8],RAX
MOV RDI,qword ptr [RDI]
MOV RSI,R14
MOV RDX,R10
CALL 0x001270d0
MOV R12,R14
JMP 0x0016c9b5
LAB_0016c95f:
MOV qword ptr [RBP + -0x40],R8
SHR EAX,0x1
ADD RAX,R14
SUB RAX,RDX
MOV qword ptr [RBP + -0x48],RAX
MOV RAX,qword ptr [RDI]
MOV byte ptr [RAX],0x0
LAB_0016c975:
MOV R12,R14
MOV R15,RDI
MOV ESI,dword ptr [RBP + -0x2c]
MOV RBX,R10
MOV EDX,R10D
LEA RCX,[RBP + -0x38]
MOV R13,R11
CALL qword ptr [R11 + 0xe0]
TEST EAX,EAX
JZ 0x0016c9b2
MOV R14,qword ptr [RBP + -0x38]
CMP R14,qword ptr [RBP + -0x48]
MOV RDI,R15
MOV R10,RBX
MOV R11,R13
JC 0x0016c975
MOV RAX,qword ptr [RBP + -0x40]
MOV qword ptr [RAX],R14
JMP 0x0016c9b5
LAB_0016c9b2:
XOR R12D,R12D
LAB_0016c9b5:
MOV RAX,R12
ADD RSP,0x28
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
void * _ma_find_half_pos(int8 *param_1,int8 *param_2,long *param_3)
{
int iVar1;
long *plVar2;
long lVar3;
long lVar4;
int iVar5;
void *pvVar6;
uint uVar7;
uint uVar8;
void *__src;
void *local_40;
uint local_34;
plVar2 = (long *)*param_2;
lVar3 = *plVar2;
lVar4 = param_1[1];
iVar1 = *(int *)(param_2 + 5);
uVar7 = *(int *)(lVar3 + 0x744) + iVar1;
local_34 = *(uint *)((long)param_2 + 0x2c);
iVar5 = *(int *)(param_2 + 4);
local_40 = (void *)(param_2[2] + (ulong)uVar7);
if ((local_34 & 2) == 0 && (*(byte *)(lVar4 + 0xa2) & 0x2e) == 0) {
uVar8 = iVar1 + (uint)*(ushort *)(lVar4 + 0xaa);
*(uint *)(param_1 + 2) = (uint)*(ushort *)(lVar4 + 0xaa) - *(int *)(lVar3 + 0x740);
*(int4 *)((long)param_1 + 0x14) = *(int4 *)(*plVar2 + 0x740);
*(int4 *)(param_1 + 3) = 0;
__src = (void *)((long)local_40 + (ulong)(((iVar5 - uVar7) / (uVar8 * 2)) * uVar8));
*param_3 = (long)__src + (ulong)uVar8;
memcpy((void *)*param_1,__src,(ulong)uVar8);
}
else {
pvVar6 = (void *)((long)local_40 + ((ulong)(iVar5 - uVar7 >> 1) - (ulong)uVar7));
*(int1 *)*param_1 = 0;
do {
__src = local_40;
iVar5 = (**(code **)(lVar4 + 0xe0))(param_1,local_34,iVar1,&local_40);
if (iVar5 == 0) {
return (void *)0x0;
}
} while (local_40 < pvVar6);
*param_3 = (long)local_40;
}
return __src;
}
| |
34,412 | my_casedn_utf8mb3 | eloqsql/strings/ctype-utf8.c | static size_t my_casedn_utf8mb3(CHARSET_INFO *cs,
const char *src, size_t srclen,
char *dst, size_t dstlen)
{
my_wc_t wc;
int srcres, dstres;
const char *srcend= src + srclen;
char *dstend= dst + dstlen, *dst0= dst;
MY_UNICASE_INFO *uni_plane= cs->caseinfo;
DBUG_ASSERT(src != dst || cs->casedn_multiply == 1);
while ((src < srcend) &&
(srcres= my_utf8mb3_uni(cs, &wc, (uchar*) src, (uchar*)srcend)) > 0)
{
my_tolower_utf8mb3(uni_plane, &wc);
if ((dstres= my_uni_utf8mb3(cs, wc, (uchar*) dst, (uchar*) dstend)) <= 0)
break;
src+= srcres;
dst+= dstres;
}
return (size_t) (dst - dst0);
} | O3 | c | my_casedn_utf8mb3:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x18, %rsp
movq %rcx, %r13
movq %rcx, -0x30(%rbp)
testq %rdx, %rdx
jle 0xcbee2
movq %r8, %r14
movq %rdx, %r15
movq %rsi, %r12
addq %rsi, %r15
movq -0x30(%rbp), %r13
addq %r13, %r14
movq 0x78(%rdi), %rax
movq %rax, -0x40(%rbp)
leaq -0x38(%rbp), %rsi
movq %r12, %rdx
movq %r15, %rcx
callq 0xcba77
testl %eax, %eax
jle 0xcbee2
movl %eax, %ebx
movq -0x40(%rbp), %rax
movq 0x8(%rax), %rcx
movq -0x38(%rbp), %rax
movzbl %ah, %edx
movq (%rcx,%rdx,8), %rcx
testq %rcx, %rcx
je 0xcbec1
movzbl %al, %eax
leaq (%rax,%rax,2), %rax
movl 0x4(%rcx,%rax,4), %eax
movq %rax, -0x38(%rbp)
movq %rax, %rsi
movq %r13, %rdx
movq %r14, %rcx
callq 0xcbb3c
testl %eax, %eax
jle 0xcbee2
movl %ebx, %ecx
addq %rcx, %r12
movl %eax, %eax
addq %rax, %r13
cmpq %r15, %r12
jb 0xcbe85
subq -0x30(%rbp), %r13
movq %r13, %rax
addq $0x18, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| my_casedn_utf8mb3:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 18h
mov r13, rcx
mov [rbp+var_30], rcx
test rdx, rdx
jle short loc_CBEE2
mov r14, r8
mov r15, rdx
mov r12, rsi
add r15, rsi
mov r13, [rbp+var_30]
add r14, r13
mov rax, [rdi+78h]
mov [rbp+var_40], rax
loc_CBE85:
lea rsi, [rbp+var_38]
mov rdx, r12
mov rcx, r15
call my_utf8mb3_uni
test eax, eax
jle short loc_CBEE2
mov ebx, eax
mov rax, [rbp+var_40]
mov rcx, [rax+8]
mov rax, [rbp+var_38]
movzx edx, ah
mov rcx, [rcx+rdx*8]
test rcx, rcx
jz short loc_CBEC1
movzx eax, al
lea rax, [rax+rax*2]
mov eax, [rcx+rax*4+4]
mov [rbp+var_38], rax
loc_CBEC1:
mov rsi, rax
mov rdx, r13
mov rcx, r14
call my_uni_utf8mb3
test eax, eax
jle short loc_CBEE2
mov ecx, ebx
add r12, rcx
mov eax, eax
add r13, rax
cmp r12, r15
jb short loc_CBE85
loc_CBEE2:
sub r13, [rbp+var_30]
mov rax, r13
add rsp, 18h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| _BYTE * my_casedn_utf8mb3(long long a1, unsigned __int8 *a2, long long a3, _BYTE *a4, long long a5)
{
_BYTE *v5; // r13
unsigned __int8 *v6; // r12
unsigned long long v7; // r15
unsigned long long v8; // r14
int v9; // eax
unsigned int v10; // ebx
unsigned long long v11; // rax
long long v12; // rcx
int v13; // eax
long long v15; // [rsp+0h] [rbp-40h]
unsigned long long v16; // [rsp+8h] [rbp-38h] BYREF
_BYTE *v17; // [rsp+10h] [rbp-30h]
v5 = a4;
v17 = a4;
if ( a3 > 0 )
{
v6 = a2;
v7 = (unsigned long long)&a2[a3];
v5 = v17;
v8 = (unsigned long long)&v17[a5];
v15 = *(_QWORD *)(a1 + 120);
do
{
v9 = my_utf8mb3_uni(a1, &v16, v6, v7);
if ( v9 <= 0 )
break;
v10 = v9;
v11 = v16;
v12 = *(_QWORD *)(*(_QWORD *)(v15 + 8) + 8LL * BYTE1(v16));
if ( v12 )
{
v11 = *(unsigned int *)(v12 + 12LL * (unsigned __int8)v16 + 4);
v16 = v11;
}
v13 = my_uni_utf8mb3(a1, v11, v5, v8);
if ( v13 <= 0 )
break;
v6 += v10;
v5 += (unsigned int)v13;
}
while ( (unsigned long long)v6 < v7 );
}
return (_BYTE *)(v5 - v17);
}
| my_casedn_utf8mb3:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x18
MOV R13,RCX
MOV qword ptr [RBP + -0x30],RCX
TEST RDX,RDX
JLE 0x001cbee2
MOV R14,R8
MOV R15,RDX
MOV R12,RSI
ADD R15,RSI
MOV R13,qword ptr [RBP + -0x30]
ADD R14,R13
MOV RAX,qword ptr [RDI + 0x78]
MOV qword ptr [RBP + -0x40],RAX
LAB_001cbe85:
LEA RSI,[RBP + -0x38]
MOV RDX,R12
MOV RCX,R15
CALL 0x001cba77
TEST EAX,EAX
JLE 0x001cbee2
MOV EBX,EAX
MOV RAX,qword ptr [RBP + -0x40]
MOV RCX,qword ptr [RAX + 0x8]
MOV RAX,qword ptr [RBP + -0x38]
MOVZX EDX,AH
MOV RCX,qword ptr [RCX + RDX*0x8]
TEST RCX,RCX
JZ 0x001cbec1
MOVZX EAX,AL
LEA RAX,[RAX + RAX*0x2]
MOV EAX,dword ptr [RCX + RAX*0x4 + 0x4]
MOV qword ptr [RBP + -0x38],RAX
LAB_001cbec1:
MOV RSI,RAX
MOV RDX,R13
MOV RCX,R14
CALL 0x001cbb3c
TEST EAX,EAX
JLE 0x001cbee2
MOV ECX,EBX
ADD R12,RCX
MOV EAX,EAX
ADD R13,RAX
CMP R12,R15
JC 0x001cbe85
LAB_001cbee2:
SUB R13,qword ptr [RBP + -0x30]
MOV RAX,R13
ADD RSP,0x18
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
long my_casedn_utf8mb3(long param_1,ulong param_2,long param_3,long param_4)
{
long lVar1;
long lVar2;
uint uVar3;
uint uVar4;
long lVar5;
ulong uVar6;
int8 local_40;
lVar5 = param_4;
if (0 < param_3) {
uVar6 = param_3 + param_2;
lVar1 = *(long *)(param_1 + 0x78);
do {
uVar3 = my_utf8mb3_uni();
if ((int)uVar3 < 1) break;
lVar2 = *(long *)(*(long *)(lVar1 + 8) + (local_40 >> 8 & 0xff) * 8);
if (lVar2 != 0) {
local_40 = (ulong)*(uint *)(lVar2 + 4 + (local_40 & 0xff) * 0xc);
}
uVar4 = my_uni_utf8mb3();
if ((int)uVar4 < 1) break;
param_2 = param_2 + uVar3;
lVar5 = lVar5 + (ulong)uVar4;
} while (param_2 < uVar6);
}
return lVar5 - param_4;
}
| |
34,413 | protocol::encode(protocol::ScoreboardUpdate const&, unsigned int) | untodesu[P]voxelius/game/shared/protocol.cc | ENetPacket *protocol::encode(const protocol::ScoreboardUpdate &packet, enet_uint32 flags)
{
write_buffer.reset();
write_buffer.write_UI16(protocol::ScoreboardUpdate::ID);
write_buffer.write_UI16(static_cast<std::uint16_t>(packet.names.size()));
for(const std::string &username : packet.names)
write_buffer.write_string(username.substr(0, protocol::MAX_USERNAME));
return write_buffer.to_packet(flags);
} | O2 | cpp | protocol::encode(protocol::ScoreboardUpdate const&, unsigned int):
pushq %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x28, %rsp
movl %esi, %ebx
movq %rdi, %r12
leaq 0xce14a(%rip), %r14 # 0x10e118
movq %r14, %rdi
callq 0x4ca72
pushq $0xe
popq %rsi
movq %r14, %rdi
callq 0x4ca9a
movl 0x18(%r12), %eax
subl 0x10(%r12), %eax
shrl $0x5, %eax
movzwl %ax, %esi
movq %r14, %rdi
callq 0x4ca9a
movq 0x10(%r12), %r15
movq 0x18(%r12), %rbp
leaq 0x8(%rsp), %r12
pushq $0x40
popq %r13
cmpq %rbp, %r15
je 0x4003a
movq %r12, %rdi
movq %r15, %rsi
xorl %edx, %edx
movq %r13, %rcx
callq 0x17770
movq %r14, %rdi
movq %r12, %rsi
callq 0x4cbe8
movq %r12, %rdi
callq 0x17ec8
addq $0x20, %r15
jmp 0x4000c
leaq 0xce0d7(%rip), %rdi # 0x10e118
movl %ebx, %esi
callq 0x4cc8e
addq $0x28, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
movq %rax, %rbx
leaq 0x8(%rsp), %rdi
callq 0x17ec8
movq %rbx, %rdi
callq 0x17cd0
| _ZN8protocol6encodeERKNS_16ScoreboardUpdateEj:
push rbp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 28h
mov ebx, esi
mov r12, rdi
lea r14, _ZL12write_buffer; write_buffer
mov rdi, r14; this
call _ZN11WriteBuffer5resetEv; WriteBuffer::reset(void)
push 0Eh
pop rsi; unsigned __int16
mov rdi, r14; this
call _ZN11WriteBuffer10write_UI16Et; WriteBuffer::write_UI16(ushort)
mov eax, [r12+18h]
sub eax, [r12+10h]
shr eax, 5
movzx esi, ax; unsigned __int16
mov rdi, r14; this
call _ZN11WriteBuffer10write_UI16Et; WriteBuffer::write_UI16(ushort)
mov r15, [r12+10h]
mov rbp, [r12+18h]
lea r12, [rsp+58h+var_50]
push 40h ; '@'
pop r13
loc_4000C:
cmp r15, rbp
jz short loc_4003A
mov rdi, r12
mov rsi, r15
xor edx, edx
mov rcx, r13
call __ZNKSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE6substrEmm; std::string::substr(ulong,ulong)
mov rdi, r14
mov rsi, r12
call _ZN11WriteBuffer12write_stringERKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE; WriteBuffer::write_string(std::string const&)
mov rdi, r12; void *
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEED2Ev; std::string::~string()
add r15, 20h ; ' '
jmp short loc_4000C
loc_4003A:
lea rdi, _ZL12write_buffer; this
mov esi, ebx; unsigned int
call _ZNK11WriteBuffer9to_packetEj; WriteBuffer::to_packet(uint)
add rsp, 28h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
mov rbx, rax
lea rdi, [rsp+arg_0]; void *
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEED2Ev; std::string::~string()
mov rdi, rbx
call __Unwind_Resume
| long long protocol::encode(protocol *this, const protocol::ScoreboardUpdate *a2)
{
long long v2; // r15
long long v3; // rbp
_BYTE v5[80]; // [rsp+8h] [rbp-50h] BYREF
WriteBuffer::reset((WriteBuffer *)&write_buffer);
WriteBuffer::write_UI16((WriteBuffer *)&write_buffer, 0xEu);
WriteBuffer::write_UI16(
(WriteBuffer *)&write_buffer,
(unsigned int)(*((_DWORD *)this + 6) - *((_DWORD *)this + 4)) >> 5);
v2 = *((_QWORD *)this + 2);
v3 = *((_QWORD *)this + 3);
while ( v2 != v3 )
{
std::string::substr(v5, v2, 0LL, 64LL);
WriteBuffer::write_string(&write_buffer, v5);
std::string::~string(v5);
v2 += 32LL;
}
return WriteBuffer::to_packet((WriteBuffer *)&write_buffer, (unsigned int)a2);
}
| encode:
PUSH RBP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x28
MOV EBX,ESI
MOV R12,RDI
LEA R14,[0x20e118]
MOV RDI,R14
CALL 0x0014ca72
PUSH 0xe
POP RSI
MOV RDI,R14
CALL 0x0014ca9a
MOV EAX,dword ptr [R12 + 0x18]
SUB EAX,dword ptr [R12 + 0x10]
SHR EAX,0x5
MOVZX ESI,AX
MOV RDI,R14
CALL 0x0014ca9a
MOV R15,qword ptr [R12 + 0x10]
MOV RBP,qword ptr [R12 + 0x18]
LEA R12,[RSP + 0x8]
PUSH 0x40
POP R13
LAB_0014000c:
CMP R15,RBP
JZ 0x0014003a
MOV RDI,R12
MOV RSI,R15
XOR EDX,EDX
MOV RCX,R13
CALL 0x00117770
LAB_00140021:
MOV RDI,R14
MOV RSI,R12
CALL 0x0014cbe8
LAB_0014002c:
MOV RDI,R12
CALL 0x00117ec8
ADD R15,0x20
JMP 0x0014000c
LAB_0014003a:
LEA RDI,[0x20e118]
MOV ESI,EBX
CALL 0x0014cc8e
ADD RSP,0x28
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
/* protocol::encode(protocol::ScoreboardUpdate const&, unsigned int) */
void protocol::encode(ScoreboardUpdate *param_1,uint param_2)
{
ulong uVar1;
ulong uVar2;
string local_50 [32];
WriteBuffer::reset((WriteBuffer *)write_buffer);
WriteBuffer::write_UI16(0xe118);
WriteBuffer::write_UI16(0xe118);
uVar1 = *(ulong *)(param_1 + 0x18);
for (uVar2 = *(ulong *)(param_1 + 0x10); uVar2 != uVar1; uVar2 = uVar2 + 0x20) {
std::__cxx11::string::substr((ulong)local_50,uVar2);
/* try { // try from 00140021 to 0014002b has its CatchHandler @ 00140057 */
WriteBuffer::write_string((WriteBuffer *)write_buffer,local_50);
std::__cxx11::string::~string(local_50);
}
WriteBuffer::to_packet((WriteBuffer *)write_buffer,param_2);
return;
}
| |
34,414 | Timer::UpdateTimerBDivisors() | sp1187[P]veesem/src/core/spg200/timer.cc | void Timer::UpdateTimerBDivisors() {
timer_b_divisor_ = -1;
switch (timer_b_control_.source_c) {
case 2: // 32768 Hz
timer_b_divisor_ = 0;
break;
case 3: // 8192 Hz
timer_b_divisor_ = 2;
break;
case 4: // 4096 Hz
timer_b_divisor_ = 3;
break;
}
} | O2 | cpp | Timer::UpdateTimerBDivisors():
orl $-0x1, 0x14(%rdi)
movzwl 0x28(%rdi), %eax
andl $0x7, %eax
addl $-0x2, %eax
cmpw $0x2, %ax
ja 0xb498
movzwl %ax, %eax
leaq 0x76ad6(%rip), %rcx # 0x81f68
movl (%rcx,%rax,4), %eax
movl %eax, 0x14(%rdi)
retq
nop
| _ZN5Timer20UpdateTimerBDivisorsEv:
or dword ptr [rdi+14h], 0FFFFFFFFh
movzx eax, word ptr [rdi+28h]
and eax, 7
add eax, 0FFFFFFFEh
cmp ax, 2
ja short locret_B498
movzx eax, ax
lea rcx, dword_81F68
mov eax, [rcx+rax*4]
mov [rdi+14h], eax
locret_B498:
retn
| long long Timer::UpdateTimerBDivisors(Timer *this)
{
long long result; // rax
*((_DWORD *)this + 5) = -1;
result = (*((unsigned __int16 *)this + 20) & 7u) - 2;
if ( (unsigned __int16)((*((_WORD *)this + 20) & 7) - 2) <= 2u )
{
result = dword_81F68[(unsigned __int16)((*((_WORD *)this + 20) & 7) - 2)];
*((_DWORD *)this + 5) = result;
}
return result;
}
| UpdateTimerBDivisors:
OR dword ptr [RDI + 0x14],0xffffffff
MOVZX EAX,word ptr [RDI + 0x28]
AND EAX,0x7
ADD EAX,-0x2
CMP AX,0x2
JA 0x0010b498
MOVZX EAX,AX
LEA RCX,[0x181f68]
MOV EAX,dword ptr [RCX + RAX*0x4]
MOV dword ptr [RDI + 0x14],EAX
LAB_0010b498:
RET
|
/* Timer::UpdateTimerBDivisors() */
void __thiscall Timer::UpdateTimerBDivisors(Timer *this)
{
ushort uVar1;
*(int4 *)(this + 0x14) = 0xffffffff;
uVar1 = (*(ushort *)(this + 0x28) & 7) - 2;
if (uVar1 < 3) {
*(int4 *)(this + 0x14) = *(int4 *)(&DAT_00181f68 + (ulong)uVar1 * 4);
}
return;
}
| |
34,415 | google::protobuf::FieldDescriptor::is_packed() const | aimrt_mujoco_sim/_deps/protobuf-src/src/google/protobuf/descriptor.cc | bool FieldDescriptor::is_packed() const {
if (!is_packable()) return false;
if (file_->syntax() == FileDescriptor::SYNTAX_PROTO2) {
return (options_ != nullptr) && options_->packed();
} else {
return options_ == nullptr || !options_->has_packed() || options_->packed();
}
} | O0 | cpp | google::protobuf::FieldDescriptor::is_packed() const:
subq $0x28, %rsp
movq %rdi, 0x18(%rsp)
movq 0x18(%rsp), %rdi
movq %rdi, 0x10(%rsp)
callq 0x76de0
testb $0x1, %al
jne 0x41206
movb $0x0, 0x27(%rsp)
jmp 0x41294
movq 0x10(%rsp), %rax
movq 0x10(%rax), %rdi
callq 0x75b20
cmpl $0x2, %eax
jne 0x41249
movq 0x10(%rsp), %rcx
xorl %eax, %eax
cmpq $0x0, 0x38(%rcx)
movb %al, 0xf(%rsp)
je 0x4123d
movq 0x10(%rsp), %rax
movq 0x38(%rax), %rdi
callq 0x76e30
movb %al, 0xf(%rsp)
movb 0xf(%rsp), %al
andb $0x1, %al
movb %al, 0x27(%rsp)
jmp 0x41294
movq 0x10(%rsp), %rcx
movb $0x1, %al
cmpq $0x0, 0x38(%rcx)
movb %al, 0xe(%rsp)
je 0x4128a
movq 0x10(%rsp), %rax
movq 0x38(%rax), %rdi
callq 0x76e50
movb %al, %cl
movb $0x1, %al
testb $0x1, %cl
movb %al, 0xe(%rsp)
jne 0x41278
jmp 0x4128a
movq 0x10(%rsp), %rax
movq 0x38(%rax), %rdi
callq 0x76e30
movb %al, 0xe(%rsp)
movb 0xe(%rsp), %al
andb $0x1, %al
movb %al, 0x27(%rsp)
movb 0x27(%rsp), %al
andb $0x1, %al
addq $0x28, %rsp
retq
nop
| _ZNK6google8protobuf15FieldDescriptor9is_packedEv:
sub rsp, 28h
mov [rsp+28h+var_10], rdi
mov rdi, [rsp+28h+var_10]; this
mov [rsp+28h+var_18], rdi
call _ZNK6google8protobuf15FieldDescriptor11is_packableEv; google::protobuf::FieldDescriptor::is_packable(void)
test al, 1
jnz short loc_41206
mov [rsp+28h+var_1], 0
jmp loc_41294
loc_41206:
mov rax, [rsp+28h+var_18]
mov rdi, [rax+10h]; this
call _ZNK6google8protobuf14FileDescriptor6syntaxEv; google::protobuf::FileDescriptor::syntax(void)
cmp eax, 2
jnz short loc_41249
mov rcx, [rsp+28h+var_18]
xor eax, eax
cmp qword ptr [rcx+38h], 0
mov [rsp+28h+var_19], al
jz short loc_4123D
mov rax, [rsp+28h+var_18]
mov rdi, [rax+38h]; this
call _ZNK6google8protobuf12FieldOptions6packedEv; google::protobuf::FieldOptions::packed(void)
mov [rsp+28h+var_19], al
loc_4123D:
mov al, [rsp+28h+var_19]
and al, 1
mov [rsp+28h+var_1], al
jmp short loc_41294
loc_41249:
mov rcx, [rsp+28h+var_18]
mov al, 1
cmp qword ptr [rcx+38h], 0
mov [rsp+28h+var_1A], al
jz short loc_4128A
mov rax, [rsp+28h+var_18]
mov rdi, [rax+38h]; this
call _ZNK6google8protobuf12FieldOptions10has_packedEv; google::protobuf::FieldOptions::has_packed(void)
mov cl, al
mov al, 1
test cl, 1
mov [rsp+28h+var_1A], al
jnz short loc_41278
jmp short loc_4128A
loc_41278:
mov rax, [rsp+28h+var_18]
mov rdi, [rax+38h]; this
call _ZNK6google8protobuf12FieldOptions6packedEv; google::protobuf::FieldOptions::packed(void)
mov [rsp+28h+var_1A], al
loc_4128A:
mov al, [rsp+28h+var_1A]
and al, 1
mov [rsp+28h+var_1], al
loc_41294:
mov al, [rsp+28h+var_1]
and al, 1
add rsp, 28h
retn
| char google::protobuf::FieldDescriptor::is_packed(google::protobuf::FileDescriptor **this)
{
char v2; // [rsp+Eh] [rbp-1Ah]
char v3; // [rsp+Fh] [rbp-19h]
if ( (google::protobuf::FieldDescriptor::is_packable((google::protobuf::FieldDescriptor *)this) & 1) == 0 )
return 0;
if ( (unsigned int)google::protobuf::FileDescriptor::syntax(this[2]) == 2 )
{
v3 = 0;
if ( this[7] )
v3 = google::protobuf::FieldOptions::packed(this[7]);
return v3 & 1;
}
else
{
v2 = 1;
if ( this[7] )
{
v2 = 1;
if ( (google::protobuf::FieldOptions::has_packed(this[7]) & 1) != 0 )
v2 = google::protobuf::FieldOptions::packed(this[7]);
}
return v2 & 1;
}
}
| is_packed:
SUB RSP,0x28
MOV qword ptr [RSP + 0x18],RDI
MOV RDI,qword ptr [RSP + 0x18]
MOV qword ptr [RSP + 0x10],RDI
CALL 0x00176de0
TEST AL,0x1
JNZ 0x00141206
MOV byte ptr [RSP + 0x27],0x0
JMP 0x00141294
LAB_00141206:
MOV RAX,qword ptr [RSP + 0x10]
MOV RDI,qword ptr [RAX + 0x10]
CALL 0x00175b20
CMP EAX,0x2
JNZ 0x00141249
MOV RCX,qword ptr [RSP + 0x10]
XOR EAX,EAX
CMP qword ptr [RCX + 0x38],0x0
MOV byte ptr [RSP + 0xf],AL
JZ 0x0014123d
MOV RAX,qword ptr [RSP + 0x10]
MOV RDI,qword ptr [RAX + 0x38]
CALL 0x00176e30
MOV byte ptr [RSP + 0xf],AL
LAB_0014123d:
MOV AL,byte ptr [RSP + 0xf]
AND AL,0x1
MOV byte ptr [RSP + 0x27],AL
JMP 0x00141294
LAB_00141249:
MOV RCX,qword ptr [RSP + 0x10]
MOV AL,0x1
CMP qword ptr [RCX + 0x38],0x0
MOV byte ptr [RSP + 0xe],AL
JZ 0x0014128a
MOV RAX,qword ptr [RSP + 0x10]
MOV RDI,qword ptr [RAX + 0x38]
CALL 0x00176e50
MOV CL,AL
MOV AL,0x1
TEST CL,0x1
MOV byte ptr [RSP + 0xe],AL
JNZ 0x00141278
JMP 0x0014128a
LAB_00141278:
MOV RAX,qword ptr [RSP + 0x10]
MOV RDI,qword ptr [RAX + 0x38]
CALL 0x00176e30
MOV byte ptr [RSP + 0xe],AL
LAB_0014128a:
MOV AL,byte ptr [RSP + 0xe]
AND AL,0x1
MOV byte ptr [RSP + 0x27],AL
LAB_00141294:
MOV AL,byte ptr [RSP + 0x27]
AND AL,0x1
ADD RSP,0x28
RET
|
/* google::protobuf::FieldDescriptor::is_packed() const */
byte __thiscall google::protobuf::FieldDescriptor::is_packed(FieldDescriptor *this)
{
byte extraout_AL;
int iVar1;
ulong uVar2;
byte local_1a;
byte local_19;
byte local_1;
uVar2 = is_packable(this);
if ((uVar2 & 1) == 0) {
local_1 = 0;
}
else {
iVar1 = FileDescriptor::syntax(*(FileDescriptor **)(this + 0x10));
if (iVar1 == 2) {
local_19 = 0;
if (*(long *)(this + 0x38) != 0) {
local_19 = FieldOptions::packed(*(FieldOptions **)(this + 0x38));
}
local_1 = local_19 & 1;
}
else {
local_1a = 1;
if (*(long *)(this + 0x38) != 0) {
uVar2 = FieldOptions::has_packed(*(FieldOptions **)(this + 0x38));
local_1a = 1;
if ((uVar2 & 1) != 0) {
FieldOptions::packed(*(FieldOptions **)(this + 0x38));
local_1a = extraout_AL;
}
}
local_1 = local_1a & 1;
}
}
return local_1;
}
| |
34,416 | uf_intervall | eloqsql/storage/maria/ma_packrec.c | static void uf_intervall(MARIA_COLUMNDEF *rec, MARIA_BIT_BUFF *bit_buff,
uchar *to,
uchar *end)
{
reg1 uint field_length=(uint) (end-to);
memcpy(to,rec->huff_tree->intervalls+field_length*decode_pos(bit_buff,
rec->huff_tree),
(size_t) field_length);
} | O0 | c | uf_intervall:
pushq %rbp
movq %rsp, %rbp
subq $0x40, %rsp
movq %rdi, -0x8(%rbp)
movq %rsi, -0x10(%rbp)
movq %rdx, -0x18(%rbp)
movq %rcx, -0x20(%rbp)
movq -0x20(%rbp), %rax
movq -0x18(%rbp), %rcx
subq %rcx, %rax
movl %eax, -0x24(%rbp)
movq -0x18(%rbp), %rax
movq %rax, -0x30(%rbp)
movq -0x8(%rbp), %rax
movq 0x30(%rax), %rax
movq 0x10(%rax), %rax
movq %rax, -0x38(%rbp)
movl -0x24(%rbp), %eax
movl %eax, -0x28(%rbp)
movq -0x10(%rbp), %rdi
movq -0x8(%rbp), %rax
movq 0x30(%rax), %rsi
callq 0x37a40
movq -0x38(%rbp), %rsi
movq -0x30(%rbp), %rdi
movl %eax, %ecx
movl -0x28(%rbp), %eax
imull %ecx, %eax
movl %eax, %eax
addq %rax, %rsi
movl -0x24(%rbp), %eax
movl %eax, %edx
callq 0x2a0b0
addq $0x40, %rsp
popq %rbp
retq
nopw (%rax,%rax)
| uf_intervall:
push rbp
mov rbp, rsp
sub rsp, 40h
mov [rbp+var_8], rdi
mov [rbp+var_10], rsi
mov [rbp+var_18], rdx
mov [rbp+var_20], rcx
mov rax, [rbp+var_20]
mov rcx, [rbp+var_18]
sub rax, rcx
mov [rbp+var_24], eax
mov rax, [rbp+var_18]
mov [rbp+var_30], rax
mov rax, [rbp+var_8]
mov rax, [rax+30h]
mov rax, [rax+10h]
mov [rbp+var_38], rax
mov eax, [rbp+var_24]
mov [rbp+var_28], eax
mov rdi, [rbp+var_10]
mov rax, [rbp+var_8]
mov rsi, [rax+30h]
call decode_pos
mov rsi, [rbp+var_38]
mov rdi, [rbp+var_30]
mov ecx, eax
mov eax, [rbp+var_28]
imul eax, ecx
mov eax, eax
add rsi, rax
mov eax, [rbp+var_24]
mov edx, eax
call _memcpy
add rsp, 40h
pop rbp
retn
| long long uf_intervall(long long a1, long long a2, long long a3, int a4)
{
int v4; // eax
long long v6; // [rsp+8h] [rbp-38h]
int v8; // [rsp+18h] [rbp-28h]
unsigned int v9; // [rsp+1Ch] [rbp-24h]
v9 = a4 - a3;
v6 = *(_QWORD *)(*(_QWORD *)(a1 + 48) + 16LL);
v8 = a4 - a3;
v4 = decode_pos(a2, *(_QWORD *)(a1 + 48));
return memcpy(a3, (unsigned int)(v4 * v8) + v6, v9);
}
| uf_intervall:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x40
MOV qword ptr [RBP + -0x8],RDI
MOV qword ptr [RBP + -0x10],RSI
MOV qword ptr [RBP + -0x18],RDX
MOV qword ptr [RBP + -0x20],RCX
MOV RAX,qword ptr [RBP + -0x20]
MOV RCX,qword ptr [RBP + -0x18]
SUB RAX,RCX
MOV dword ptr [RBP + -0x24],EAX
MOV RAX,qword ptr [RBP + -0x18]
MOV qword ptr [RBP + -0x30],RAX
MOV RAX,qword ptr [RBP + -0x8]
MOV RAX,qword ptr [RAX + 0x30]
MOV RAX,qword ptr [RAX + 0x10]
MOV qword ptr [RBP + -0x38],RAX
MOV EAX,dword ptr [RBP + -0x24]
MOV dword ptr [RBP + -0x28],EAX
MOV RDI,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RBP + -0x8]
MOV RSI,qword ptr [RAX + 0x30]
CALL 0x00137a40
MOV RSI,qword ptr [RBP + -0x38]
MOV RDI,qword ptr [RBP + -0x30]
MOV ECX,EAX
MOV EAX,dword ptr [RBP + -0x28]
IMUL EAX,ECX
MOV EAX,EAX
ADD RSI,RAX
MOV EAX,dword ptr [RBP + -0x24]
MOV EDX,EAX
CALL 0x0012a0b0
ADD RSP,0x40
POP RBP
RET
|
void uf_intervall(long param_1,int8 param_2,void *param_3,int param_4)
{
long lVar1;
uint uVar2;
int iVar3;
uVar2 = param_4 - (int)param_3;
lVar1 = *(long *)(*(long *)(param_1 + 0x30) + 0x10);
iVar3 = decode_pos(param_2,*(int8 *)(param_1 + 0x30));
memcpy(param_3,(void *)(lVar1 + (ulong)(uVar2 * iVar3)),(ulong)uVar2);
return;
}
| |
34,417 | translog_chaser_page_next | eloqsql/storage/maria/ma_loghandler.c | static my_bool translog_chaser_page_next(TRANSLOG_ADDRESS *horizon,
struct st_buffer_cursor *cursor)
{
struct st_translog_buffer *buffer_to_flush;
my_bool rc;
DBUG_ENTER("translog_chaser_page_next");
DBUG_ASSERT(cursor->chaser);
rc= translog_page_next(horizon, cursor, &buffer_to_flush);
if (buffer_to_flush != NULL)
{
translog_buffer_lock(buffer_to_flush);
translog_buffer_decrease_writers(buffer_to_flush);
used_buffs_register_unlock(&cursor->buffs, buffer_to_flush);
if (!rc)
rc= translog_buffer_flush(buffer_to_flush);
translog_buffer_unlock(buffer_to_flush);
}
DBUG_RETURN(rc);
} | O0 | c | translog_chaser_page_next:
pushq %rbp
movq %rsp, %rbp
subq $0x20, %rsp
movq %rdi, -0x8(%rbp)
movq %rsi, -0x10(%rbp)
jmp 0x5c012
movq -0x8(%rbp), %rdi
movq -0x10(%rbp), %rsi
leaq -0x18(%rbp), %rdx
callq 0x59a60
movb %al, -0x19(%rbp)
cmpq $0x0, -0x18(%rbp)
je 0x5c067
movq -0x18(%rbp), %rdi
callq 0x50170
movq -0x18(%rbp), %rdi
callq 0x5bd70
movq -0x10(%rbp), %rdi
movq -0x18(%rbp), %rsi
callq 0x5bdc0
cmpb $0x0, -0x19(%rbp)
jne 0x5c05e
movq -0x18(%rbp), %rdi
callq 0x563a0
movb %al, -0x19(%rbp)
movq -0x18(%rbp), %rdi
callq 0x501b0
jmp 0x5c069
movb -0x19(%rbp), %al
movb %al, -0x1a(%rbp)
movb -0x1a(%rbp), %al
addq $0x20, %rsp
popq %rbp
retq
nopl (%rax,%rax)
| translog_chaser_page_next:
push rbp
mov rbp, rsp
sub rsp, 20h
mov [rbp+var_8], rdi
mov [rbp+var_10], rsi
jmp short $+2
loc_5C012:
mov rdi, [rbp+var_8]
mov rsi, [rbp+var_10]
lea rdx, [rbp+var_18]
call translog_page_next
mov [rbp+var_19], al
cmp [rbp+var_18], 0
jz short loc_5C067
mov rdi, [rbp+var_18]
call translog_buffer_lock
mov rdi, [rbp+var_18]
call translog_buffer_decrease_writers
mov rdi, [rbp+var_10]
mov rsi, [rbp+var_18]
call used_buffs_register_unlock
cmp [rbp+var_19], 0
jnz short loc_5C05E
mov rdi, [rbp+var_18]
call translog_buffer_flush
mov [rbp+var_19], al
loc_5C05E:
mov rdi, [rbp+var_18]
call translog_buffer_unlock
loc_5C067:
jmp short $+2
loc_5C069:
mov al, [rbp+var_19]
mov [rbp+var_1A], al
mov al, [rbp+var_1A]
add rsp, 20h
pop rbp
retn
| char translog_chaser_page_next(long long *a1, long long a2)
{
char v3; // [rsp+7h] [rbp-19h]
long long v4; // [rsp+8h] [rbp-18h] BYREF
long long v5; // [rsp+10h] [rbp-10h]
long long *v6; // [rsp+18h] [rbp-8h]
v6 = a1;
v5 = a2;
v3 = translog_page_next(a1, a2, &v4);
if ( v4 )
{
translog_buffer_lock(v4);
translog_buffer_decrease_writers(v4);
used_buffs_register_unlock(v5);
if ( !v3 )
v3 = translog_buffer_flush(v4);
translog_buffer_unlock(v4);
}
return v3;
}
| translog_chaser_page_next:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x20
MOV qword ptr [RBP + -0x8],RDI
MOV qword ptr [RBP + -0x10],RSI
JMP 0x0015c012
LAB_0015c012:
MOV RDI,qword ptr [RBP + -0x8]
MOV RSI,qword ptr [RBP + -0x10]
LEA RDX,[RBP + -0x18]
CALL 0x00159a60
MOV byte ptr [RBP + -0x19],AL
CMP qword ptr [RBP + -0x18],0x0
JZ 0x0015c067
MOV RDI,qword ptr [RBP + -0x18]
CALL 0x00150170
MOV RDI,qword ptr [RBP + -0x18]
CALL 0x0015bd70
MOV RDI,qword ptr [RBP + -0x10]
MOV RSI,qword ptr [RBP + -0x18]
CALL 0x0015bdc0
CMP byte ptr [RBP + -0x19],0x0
JNZ 0x0015c05e
MOV RDI,qword ptr [RBP + -0x18]
CALL 0x001563a0
MOV byte ptr [RBP + -0x19],AL
LAB_0015c05e:
MOV RDI,qword ptr [RBP + -0x18]
CALL 0x001501b0
LAB_0015c067:
JMP 0x0015c069
LAB_0015c069:
MOV AL,byte ptr [RBP + -0x19]
MOV byte ptr [RBP + -0x1a],AL
MOV AL,byte ptr [RBP + -0x1a]
ADD RSP,0x20
POP RBP
RET
|
char translog_chaser_page_next(int8 param_1,int8 param_2)
{
char local_21;
long local_20;
int8 local_18;
int8 local_10;
local_18 = param_2;
local_10 = param_1;
local_21 = translog_page_next(param_1,param_2,&local_20);
if (local_20 != 0) {
translog_buffer_lock(local_20);
translog_buffer_decrease_writers(local_20);
used_buffs_register_unlock(local_18,local_20);
if (local_21 == '\0') {
local_21 = translog_buffer_flush(local_20);
}
translog_buffer_unlock(local_20);
}
return local_21;
}
| |
34,418 | init_dynamic_array2 | eloqsql/mysys/array.c | my_bool init_dynamic_array2(PSI_memory_key psi_key, DYNAMIC_ARRAY *array,
uint element_size, void *init_buffer,
uint init_alloc, uint alloc_increment, myf my_flags)
{
DBUG_ENTER("init_dynamic_array2");
if (!alloc_increment)
{
alloc_increment=MY_MAX((8192-MALLOC_OVERHEAD)/element_size,16);
if (init_alloc > 8 && alloc_increment > init_alloc * 2)
alloc_increment=init_alloc*2;
}
array->elements=0;
array->max_element=init_alloc;
array->alloc_increment=alloc_increment;
array->size_of_element=element_size;
array->m_psi_key= psi_key;
array->malloc_flags= my_flags;
DBUG_ASSERT((my_flags & MY_INIT_BUFFER_USED) == 0);
if ((array->buffer= init_buffer))
{
array->malloc_flags|= MY_INIT_BUFFER_USED;
DBUG_RETURN(FALSE);
}
/*
Since the dynamic array is usable even if allocation fails here malloc
should not throw an error
*/
if (init_alloc &&
!(array->buffer= (uchar*) my_malloc(psi_key, element_size*init_alloc,
MYF(my_flags))))
array->max_element=0;
DBUG_RETURN(FALSE);
} | O3 | c | init_dynamic_array2:
pushq %rbp
movq %rsp, %rbp
pushq %rbx
pushq %rax
movl %edx, %r11d
movq %rsi, %rbx
movq 0x10(%rbp), %r10
testl %r9d, %r9d
jne 0x772df
movl $0x10, %r9d
cmpl $0x1e1, %r11d # imm = 0x1E1
ja 0x772ce
movw $0x1ff8, %ax # imm = 0x1FF8
xorl %edx, %edx
divw %r11w
movzwl %ax, %r9d
cmpl $0x9, %r8d
jb 0x772df
leal (%r8,%r8), %eax
cmpl %eax, %r9d
cmovael %eax, %r9d
movl $0x0, 0x8(%rbx)
movl %r8d, 0xc(%rbx)
movl %r9d, 0x10(%rbx)
movl %r11d, 0x14(%rbx)
movl %edi, 0x18(%rbx)
movq %r10, 0x20(%rbx)
movq %rcx, (%rbx)
testq %rcx, %rcx
je 0x77315
orq $0x100, %r10 # imm = 0x100
movq %r10, 0x20(%rbx)
xorl %eax, %eax
addq $0x8, %rsp
popq %rbx
popq %rbp
retq
testl %r8d, %r8d
je 0x7730c
imull %r11d, %r8d
movq %r8, %rsi
movq %r10, %rdx
callq 0x84505
movq %rax, (%rbx)
testq %rax, %rax
jne 0x7730c
movl $0x0, 0xc(%rbx)
jmp 0x7730c
| init_dynamic_array2:
push rbp
mov rbp, rsp
push rbx
push rax
mov r11d, edx
mov rbx, rsi
mov r10, [rbp+arg_0]
test r9d, r9d
jnz short loc_772DF
mov r9d, 10h
cmp r11d, 1E1h
ja short loc_772CE
mov ax, 1FF8h
xor edx, edx
div r11w
movzx r9d, ax
loc_772CE:
cmp r8d, 9
jb short loc_772DF
lea eax, [r8+r8]
cmp r9d, eax
cmovnb r9d, eax
loc_772DF:
mov dword ptr [rbx+8], 0
mov [rbx+0Ch], r8d
mov [rbx+10h], r9d
mov [rbx+14h], r11d
mov [rbx+18h], edi
mov [rbx+20h], r10
mov [rbx], rcx
test rcx, rcx
jz short loc_77315
or r10, 100h
mov [rbx+20h], r10
loc_7730C:
xor eax, eax
add rsp, 8
pop rbx
pop rbp
retn
loc_77315:
test r8d, r8d
jz short loc_7730C
imul r8d, r11d
mov rsi, r8
mov rdx, r10
call my_malloc
mov [rbx], rax
test rax, rax
jnz short loc_7730C
mov dword ptr [rbx+0Ch], 0
jmp short loc_7730C
| long long init_dynamic_array2(
long long a1,
long long a2,
unsigned int a3,
long long a4,
unsigned int a5,
unsigned int a6,
long long a7)
{
long long v8; // rax
if ( !a6 )
{
a6 = 16;
if ( a3 <= 0x1E1 )
a6 = 0x1FF8u / (unsigned __int16)a3;
if ( a5 >= 9 && a6 >= 2 * a5 )
a6 = 2 * a5;
}
*(_DWORD *)(a2 + 8) = 0;
*(_DWORD *)(a2 + 12) = a5;
*(_DWORD *)(a2 + 16) = a6;
*(_DWORD *)(a2 + 20) = a3;
*(_DWORD *)(a2 + 24) = a1;
*(_QWORD *)(a2 + 32) = a7;
*(_QWORD *)a2 = a4;
if ( a4 )
{
*(_QWORD *)(a2 + 32) = a7 | 0x100;
}
else if ( a5 )
{
v8 = my_malloc(a1, a3 * a5);
*(_QWORD *)a2 = v8;
if ( !v8 )
*(_DWORD *)(a2 + 12) = 0;
}
return 0LL;
}
| init_dynamic_array2:
PUSH RBP
MOV RBP,RSP
PUSH RBX
PUSH RAX
MOV R11D,EDX
MOV RBX,RSI
MOV R10,qword ptr [RBP + 0x10]
TEST R9D,R9D
JNZ 0x001772df
MOV R9D,0x10
CMP R11D,0x1e1
JA 0x001772ce
MOV AX,0x1ff8
XOR EDX,EDX
DIV R11W
MOVZX R9D,AX
LAB_001772ce:
CMP R8D,0x9
JC 0x001772df
LEA EAX,[R8 + R8*0x1]
CMP R9D,EAX
CMOVNC R9D,EAX
LAB_001772df:
MOV dword ptr [RBX + 0x8],0x0
MOV dword ptr [RBX + 0xc],R8D
MOV dword ptr [RBX + 0x10],R9D
MOV dword ptr [RBX + 0x14],R11D
MOV dword ptr [RBX + 0x18],EDI
MOV qword ptr [RBX + 0x20],R10
MOV qword ptr [RBX],RCX
TEST RCX,RCX
JZ 0x00177315
OR R10,0x100
MOV qword ptr [RBX + 0x20],R10
LAB_0017730c:
XOR EAX,EAX
ADD RSP,0x8
POP RBX
POP RBP
RET
LAB_00177315:
TEST R8D,R8D
JZ 0x0017730c
IMUL R8D,R11D
MOV RSI,R8
MOV RDX,R10
CALL 0x00184505
MOV qword ptr [RBX],RAX
TEST RAX,RAX
JNZ 0x0017730c
MOV dword ptr [RBX + 0xc],0x0
JMP 0x0017730c
|
int8
init_dynamic_array2(int4 param_1,long *param_2,uint param_3,long param_4,uint param_5,
uint param_6,ulong param_7)
{
long lVar1;
if (param_6 == 0) {
param_6 = 0x10;
if (param_3 < 0x1e2) {
param_6 = 0x1ff8 / (param_3 & 0xffff);
}
if ((8 < param_5) && (param_5 * 2 <= param_6)) {
param_6 = param_5 * 2;
}
}
*(int4 *)(param_2 + 1) = 0;
*(uint *)((long)param_2 + 0xc) = param_5;
*(uint *)(param_2 + 2) = param_6;
*(uint *)((long)param_2 + 0x14) = param_3;
*(int4 *)(param_2 + 3) = param_1;
param_2[4] = param_7;
*param_2 = param_4;
if (param_4 == 0) {
if (param_5 != 0) {
lVar1 = my_malloc(param_1,param_5 * param_3,param_7);
*param_2 = lVar1;
if (lVar1 == 0) {
*(int4 *)((long)param_2 + 0xc) = 0;
}
}
}
else {
param_2[4] = param_7 | 0x100;
}
return 0;
}
| |
34,419 | ftb_parse_query_internal | eloqsql/storage/myisam/ft_boolean_search.c | static int ftb_parse_query_internal(MYSQL_FTPARSER_PARAM *param,
const char *query, int len)
{
MY_FTB_PARAM *ftb_param= param->mysql_ftparam;
MYSQL_FTPARSER_BOOLEAN_INFO info;
CHARSET_INFO *cs= ftb_param->ftb->charset;
const uchar **start= (const uchar**) &query;
uchar *end= (uchar*) query + len;
FT_WORD w;
info.prev= ' ';
info.quot= 0;
while (ft_get_word(cs, start, end, &w, &info))
param->mysql_add_word(param, (char*) w.pos, (int)w.len, &info);
return(0);
} | O3 | c | ftb_parse_query_internal:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x38, %rsp
movq %rdi, %rbx
leaq -0x30(%rbp), %rax
movq %rsi, (%rax)
movq 0x18(%rdi), %rcx
movq (%rcx), %rcx
movq 0x10(%rcx), %r14
movslq %edx, %r15
addq %rsi, %r15
leaq -0x60(%rbp), %r8
movb $0x20, 0xe(%r8)
movq $0x0, 0x10(%r8)
leaq -0x48(%rbp), %rcx
movq %r14, %rdi
movq %rax, %rsi
movq %r15, %rdx
callq 0x7527d
testb %al, %al
je 0x74174
leaq -0x60(%rbp), %r12
leaq -0x48(%rbp), %r13
movq -0x48(%rbp), %rsi
movl -0x38(%rbp), %edx
movq %rbx, %rdi
movq %r12, %rcx
callq *0x8(%rbx)
movq %r14, %rdi
leaq -0x30(%rbp), %rsi
movq %r15, %rdx
movq %r13, %rcx
movq %r12, %r8
callq 0x7527d
testb %al, %al
jne 0x7414b
xorl %eax, %eax
addq $0x38, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| ftb_parse_query_internal:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 38h
mov rbx, rdi
lea rax, [rbp+var_30]
mov [rax], rsi
mov rcx, [rdi+18h]
mov rcx, [rcx]
mov r14, [rcx+10h]
movsxd r15, edx
add r15, rsi
lea r8, [rbp+var_60]
mov byte ptr [r8+0Eh], 20h ; ' '
mov qword ptr [r8+10h], 0
lea rcx, [rbp+var_48]
mov rdi, r14
mov rsi, rax
mov rdx, r15
call ft_get_word
test al, al
jz short loc_74174
lea r12, [rbp+var_60]
lea r13, [rbp+var_48]
loc_7414B:
mov rsi, [rbp+var_48]
mov edx, [rbp+var_38]
mov rdi, rbx
mov rcx, r12
call qword ptr [rbx+8]
mov rdi, r14
lea rsi, [rbp+var_30]
mov rdx, r15
mov rcx, r13
mov r8, r12
call ft_get_word
test al, al
jnz short loc_7414B
loc_74174:
xor eax, eax
add rsp, 38h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| long long ftb_parse_query_internal(long long a1, long long a2, int a3)
{
long long v3; // r14
long long v4; // r15
_BYTE v6[16]; // [rsp+0h] [rbp-60h] BYREF
long long v7; // [rsp+10h] [rbp-50h]
_QWORD v8[2]; // [rsp+18h] [rbp-48h] BYREF
unsigned int v9; // [rsp+28h] [rbp-38h]
_QWORD v10[6]; // [rsp+30h] [rbp-30h] BYREF
v10[0] = a2;
v3 = *(_QWORD *)(**(_QWORD **)(a1 + 24) + 16LL);
v4 = a2 + a3;
v6[14] = 32;
v7 = 0LL;
while ( (unsigned __int8)ft_get_word(v3, v10, v4, v8) )
(*(void ( **)(long long, _QWORD, _QWORD, _BYTE *))(a1 + 8))(a1, v8[0], v9, v6);
return 0LL;
}
| ftb_parse_query_internal:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x38
MOV RBX,RDI
LEA RAX,[RBP + -0x30]
MOV qword ptr [RAX],RSI
MOV RCX,qword ptr [RDI + 0x18]
MOV RCX,qword ptr [RCX]
MOV R14,qword ptr [RCX + 0x10]
MOVSXD R15,EDX
ADD R15,RSI
LEA R8,[RBP + -0x60]
MOV byte ptr [R8 + 0xe],0x20
MOV qword ptr [R8 + 0x10],0x0
LEA RCX,[RBP + -0x48]
MOV RDI,R14
MOV RSI,RAX
MOV RDX,R15
CALL 0x0017527d
TEST AL,AL
JZ 0x00174174
LEA R12,[RBP + -0x60]
LEA R13,[RBP + -0x48]
LAB_0017414b:
MOV RSI,qword ptr [RBP + -0x48]
MOV EDX,dword ptr [RBP + -0x38]
MOV RDI,RBX
MOV RCX,R12
CALL qword ptr [RBX + 0x8]
MOV RDI,R14
LEA RSI,[RBP + -0x30]
MOV RDX,R15
MOV RCX,R13
MOV R8,R12
CALL 0x0017527d
TEST AL,AL
JNZ 0x0017414b
LAB_00174174:
XOR EAX,EAX
ADD RSP,0x38
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
int8 ftb_parse_query_internal(long param_1,long param_2,int param_3)
{
int8 uVar1;
char cVar2;
int1 local_68 [14];
int1 local_5a;
int8 local_58;
int8 local_50 [2];
int4 local_40;
long local_38;
uVar1 = *(int8 *)(**(long **)(param_1 + 0x18) + 0x10);
local_5a = 0x20;
local_58 = 0;
local_38 = param_2;
cVar2 = ft_get_word(uVar1,&local_38,param_3 + param_2,local_50);
if (cVar2 != '\0') {
do {
(**(code **)(param_1 + 8))(param_1,local_50[0],local_40,local_68);
cVar2 = ft_get_word(uVar1,&local_38,param_3 + param_2,local_50,local_68);
} while (cVar2 != '\0');
}
return 0;
}
| |
34,420 | common_detokenize[abi:cxx11](llama_vocab const*, std::vector<int, std::allocator<int>> const&, bool) | llama.cpp/common/common.cpp | std::string common_detokenize(const struct llama_vocab * vocab, const std::vector<llama_token> & tokens, bool special) {
std::string text;
text.resize(std::max(text.capacity(), tokens.size()));
int32_t n_chars = llama_detokenize(vocab, tokens.data(), (int32_t)tokens.size(), &text[0], (int32_t)text.size(), false, special);
if (n_chars < 0) {
text.resize(-n_chars);
n_chars = llama_detokenize(vocab, tokens.data(), (int32_t)tokens.size(), &text[0], (int32_t)text.size(), false, special);
GGML_ASSERT(n_chars <= (int32_t)text.size()); // whitespace trimming is performed after per-token detokenization
}
text.resize(n_chars);
// NOTE: the original tokenizer decodes bytes after collecting the pieces.
return text;
} | O3 | cpp | common_detokenize[abi:cxx11](llama_vocab const*, std::vector<int, std::allocator<int>> const&, bool):
pushq %rbp
pushq %r15
pushq %r14
pushq %r12
pushq %rbx
subq $0x10, %rsp
movl %ecx, %ebp
movq %rdx, %r15
movq %rsi, %r14
movq %rdi, %rbx
leaq 0x10(%rdi), %r12
movq %r12, (%rdi)
movq $0x0, 0x8(%rdi)
movb $0x0, 0x10(%rdi)
movq 0x8(%rdx), %rax
subq (%rdx), %rax
sarq $0x2, %rax
cmpq $0x10, %rax
movl $0xf, %esi
cmovaeq %rax, %rsi
xorl %edx, %edx
callq 0x20b70
movq (%r15), %rsi
movq 0x8(%r15), %rdx
subq %rsi, %rdx
shrq $0x2, %rdx
movq (%rbx), %rcx
movl 0x8(%rbx), %r8d
movzbl %bpl, %ebp
movl %ebp, (%rsp)
movq %r14, %rdi
xorl %r9d, %r9d
callq 0x21200
testl %eax, %eax
jns 0xfaaba
negl %eax
movq %rbx, %rdi
movq %rax, %rsi
xorl %edx, %edx
callq 0x20b70
movq (%r15), %rsi
movq 0x8(%r15), %rdx
subq %rsi, %rdx
shrq $0x2, %rdx
movq (%rbx), %rcx
movl 0x8(%rbx), %r8d
movl %ebp, (%rsp)
movq %r14, %rdi
xorl %r9d, %r9d
callq 0x21200
cmpl 0x8(%rbx), %eax
jg 0xfaad7
movslq %eax, %rsi
movq %rbx, %rdi
xorl %edx, %edx
callq 0x20b70
movq %rbx, %rax
addq $0x10, %rsp
popq %rbx
popq %r12
popq %r14
popq %r15
popq %rbp
retq
leaq 0x29f47(%rip), %rdi # 0x124a25
leaq 0x1f3ee(%rip), %rdx # 0x119ed3
leaq 0x2a56d(%rip), %rcx # 0x125059
movl $0x505, %esi # imm = 0x505
xorl %eax, %eax
callq 0x20e70
jmp 0xfaafa
movq %rax, %r14
movq (%rbx), %rdi
cmpq %r12, %rdi
je 0xfab11
movq (%r12), %rsi
incq %rsi
callq 0x20180
movq %r14, %rdi
callq 0x20af0
| _Z17common_detokenizeB5cxx11PK11llama_vocabRKSt6vectorIiSaIiEEb:
push rbp
push r15
push r14
push r12
push rbx
sub rsp, 10h
mov ebp, ecx
mov r15, rdx
mov r14, rsi
mov rbx, rdi
lea r12, [rdi+10h]
mov [rdi], r12
mov qword ptr [rdi+8], 0
mov byte ptr [rdi+10h], 0
mov rax, [rdx+8]
sub rax, [rdx]
sar rax, 2
cmp rax, 10h
mov esi, 0Fh
cmovnb rsi, rax
xor edx, edx
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE6resizeEmc; std::string::resize(ulong,char)
mov rsi, [r15]
mov rdx, [r15+8]
sub rdx, rsi
shr rdx, 2
mov rcx, [rbx]
mov r8d, [rbx+8]
movzx ebp, bpl
mov [rsp+38h+var_38], ebp
mov rdi, r14
xor r9d, r9d
call _llama_detokenize
test eax, eax
jns short loc_FAABA
neg eax
mov rdi, rbx
mov rsi, rax
xor edx, edx
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE6resizeEmc; std::string::resize(ulong,char)
mov rsi, [r15]
mov rdx, [r15+8]
sub rdx, rsi
shr rdx, 2
mov rcx, [rbx]
mov r8d, [rbx+8]
mov [rsp+38h+var_38], ebp
mov rdi, r14
xor r9d, r9d
call _llama_detokenize
cmp eax, [rbx+8]
jg short loc_FAAD7
loc_FAABA:
movsxd rsi, eax
mov rdi, rbx
xor edx, edx
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE6resizeEmc; std::string::resize(ulong,char)
mov rax, rbx
add rsp, 10h
pop rbx
pop r12
pop r14
pop r15
pop rbp
retn
loc_FAAD7:
lea rdi, aWorkspaceLlm4b_2; "/workspace/llm4binary/github2025/llama."...
lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed"
lea rcx, aNCharsInt32TTe; "n_chars <= (int32_t)text.size()"
mov esi, 505h
xor eax, eax
call _ggml_abort
jmp short $+2
loc_FAAFA:
mov r14, rax
mov rdi, [rbx]; void *
cmp rdi, r12
jz short loc_FAB11
mov rsi, [r12]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_FAB11:
mov rdi, r14
call __Unwind_Resume
| _QWORD * common_detokenize[abi:cxx11](_QWORD *a1, long long a2, _QWORD *a3, unsigned __int8 a4)
{
_QWORD *v7; // r12
long long v8; // rsi
int v9; // eax
long long v11; // rax
long long v12; // r14
v7 = a1 + 2;
*a1 = a1 + 2;
a1[1] = 0LL;
*((_BYTE *)a1 + 16) = 0;
v8 = 15LL;
if ( (unsigned long long)((long long)(a3[1] - *a3) >> 2) >= 0x10 )
v8 = (long long)(a3[1] - *a3) >> 2;
std::string::resize(a1, v8, 0LL);
v9 = llama_detokenize(a2, *a3, (a3[1] - *a3) >> 2, *a1, *((unsigned int *)a1 + 2), 0LL, a4);
if ( v9 < 0 )
{
std::string::resize(a1, (unsigned int)-v9, 0LL);
v9 = llama_detokenize(a2, *a3, (a3[1] - *a3) >> 2, *a1, *((unsigned int *)a1 + 2), 0LL, a4);
if ( v9 > *((_DWORD *)a1 + 2) )
{
ggml_abort(
"/workspace/llm4binary/github2025/llama.cpp/common/common.cpp",
1285LL,
"GGML_ASSERT(%s) failed",
"n_chars <= (int32_t)text.size()");
v12 = v11;
if ( (_QWORD *)*a1 != v7 )
operator delete((void *)*a1, *v7 + 1LL);
_Unwind_Resume(v12);
}
}
std::string::resize(a1, v9, 0LL);
return a1;
}
| common_detokenize[abi:cxx11]:
PUSH RBP
PUSH R15
PUSH R14
PUSH R12
PUSH RBX
SUB RSP,0x10
MOV EBP,ECX
MOV R15,RDX
MOV R14,RSI
MOV RBX,RDI
LEA R12,[RDI + 0x10]
MOV qword ptr [RDI],R12
MOV qword ptr [RDI + 0x8],0x0
MOV byte ptr [RDI + 0x10],0x0
MOV RAX,qword ptr [RDX + 0x8]
SUB RAX,qword ptr [RDX]
SAR RAX,0x2
CMP RAX,0x10
MOV ESI,0xf
CMOVNC RSI,RAX
LAB_001faa51:
XOR EDX,EDX
CALL 0x00120b70
MOV RSI,qword ptr [R15]
MOV RDX,qword ptr [R15 + 0x8]
SUB RDX,RSI
SHR RDX,0x2
MOV RCX,qword ptr [RBX]
MOV R8D,dword ptr [RBX + 0x8]
LAB_001faa6d:
MOVZX EBP,BPL
MOV dword ptr [RSP],EBP
MOV RDI,R14
XOR R9D,R9D
CALL 0x00121200
TEST EAX,EAX
JNS 0x001faaba
NEG EAX
MOV RDI,RBX
MOV RSI,RAX
XOR EDX,EDX
CALL 0x00120b70
MOV RSI,qword ptr [R15]
MOV RDX,qword ptr [R15 + 0x8]
SUB RDX,RSI
SHR RDX,0x2
MOV RCX,qword ptr [RBX]
MOV R8D,dword ptr [RBX + 0x8]
MOV dword ptr [RSP],EBP
MOV RDI,R14
XOR R9D,R9D
CALL 0x00121200
CMP EAX,dword ptr [RBX + 0x8]
JG 0x001faad7
LAB_001faaba:
MOVSXD RSI,EAX
MOV RDI,RBX
XOR EDX,EDX
CALL 0x00120b70
MOV RAX,RBX
ADD RSP,0x10
POP RBX
POP R12
POP R14
POP R15
POP RBP
RET
LAB_001faad7:
LEA RDI,[0x224a25]
LEA RDX,[0x219ed3]
LEA RCX,[0x225059]
MOV ESI,0x505
XOR EAX,EAX
CALL 0x00120e70
|
/* common_detokenize[abi:cxx11](llama_vocab const*, std::vector<int, std::allocator<int> > const&,
bool) */
llama_vocab * common_detokenize_abi_cxx11_(llama_vocab *param_1,vector *param_2,bool param_3)
{
int iVar1;
ulong uVar2;
int1 in_CL;
int7 in_register_00000011;
long *plVar3;
ulong uVar4;
plVar3 = (long *)CONCAT71(in_register_00000011,param_3);
*(llama_vocab **)param_1 = param_1 + 0x10;
*(int8 *)(param_1 + 8) = 0;
param_1[0x10] = (llama_vocab)0x0;
uVar2 = plVar3[1] - *plVar3 >> 2;
uVar4 = 0xf;
if (0xf < uVar2) {
uVar4 = uVar2;
}
/* try { // try from 001faa51 to 001faa57 has its CatchHandler @ 001faaf8 */
std::__cxx11::string::resize((ulong)param_1,(char)uVar4);
/* try { // try from 001faa6d to 001faaf7 has its CatchHandler @ 001faafa */
iVar1 = llama_detokenize(param_2,*plVar3,(ulong)(plVar3[1] - *plVar3) >> 2,*(int8 *)param_1,
*(int4 *)(param_1 + 8),0,in_CL);
if (iVar1 < 0) {
std::__cxx11::string::resize((ulong)param_1,-(char)iVar1);
iVar1 = llama_detokenize(param_2,*plVar3,(ulong)(plVar3[1] - *plVar3) >> 2,
*(int8 *)param_1,*(int4 *)(param_1 + 8),0,in_CL);
if (*(int *)(param_1 + 8) < iVar1) {
/* WARNING: Subroutine does not return */
ggml_abort("/workspace/llm4binary/github2025/llama.cpp/common/common.cpp",0x505,
"GGML_ASSERT(%s) failed","n_chars <= (int32_t)text.size()");
}
}
std::__cxx11::string::resize((ulong)param_1,(char)iVar1);
return param_1;
}
| |
34,421 | main | bluesky950520[P]quickjs/gen/function_source.c | int main(int argc, char **argv)
{
int r;
JSValue ret;
JSRuntime *rt;
JSContext *ctx;
r = 0;
rt = JS_NewRuntime();
js_std_set_worker_new_context_func(JS_NewCustomContext);
js_std_init_handlers(rt);
JS_SetModuleLoaderFunc(rt, NULL, js_module_loader, NULL);
ctx = JS_NewCustomContext(rt);
js_std_add_helpers(ctx, argc, argv);
js_std_eval_binary(ctx, qjsc_function_source, qjsc_function_source_size, 0);
ret = js_std_loop(ctx);
if (JS_IsException(ret)) {
js_std_dump_error1(ctx, ret);
r = 1;
}
JS_FreeValue(ctx, ret);
JS_FreeContext(ctx);
js_std_free_handlers(rt);
JS_FreeRuntime(rt);
return r;
} | O1 | c | main:
pushq %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
pushq %rax
movq %rsi, %r12
movl %edi, %ebp
callq 0x1cb5b
movq %rax, %rbx
leaq 0xb1(%rip), %rdi # 0x13b2c
callq 0x14111
movq %rbx, %rdi
callq 0x14531
leaq 0x340(%rip), %rdx # 0x13dcf
xorl %r14d, %r14d
movq %rbx, %rdi
xorl %esi, %esi
xorl %ecx, %ecx
callq 0x2fecd
movq %rbx, %rdi
callq 0xf36b
movq %rax, %r15
movq %rax, %rdi
movl %ebp, %esi
movq %r12, %rdx
callq 0x142b7
leaq 0x86563(%rip), %rsi # 0x9a020
movl $0x13a, %edx # imm = 0x13A
movq %r15, %rdi
xorl %ecx, %ecx
callq 0x15033
movq %r15, %rdi
callq 0x1494d
movq %rax, %r12
movq %rdx, %r13
cmpl $0x6, %r13d
jne 0x13af4
movq %r15, %rdi
movq %r12, %rsi
movq %r13, %rdx
callq 0x1481f
movl $0x1, %r14d
movq %r15, %rdi
movq %r12, %rsi
movq %r13, %rdx
callq 0x1cc9f
movq %r15, %rdi
callq 0x1ee8c
movq %rbx, %rdi
callq 0x14661
movq %rbx, %rdi
callq 0x1c8f6
movl %r14d, %eax
addq $0x8, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| main:
push rbp
push r15
push r14
push r13
push r12
push rbx
push rax
mov r12, rsi
mov ebp, edi
call JS_NewRuntime
mov rbx, rax
lea rdi, JS_NewCustomContext
call js_std_set_worker_new_context_func
mov rdi, rbx
call js_std_init_handlers
lea rdx, js_module_loader
xor r14d, r14d
mov rdi, rbx
xor esi, esi
xor ecx, ecx
call JS_SetModuleLoaderFunc
mov rdi, rbx
call JS_NewContext
mov r15, rax
mov rdi, rax
mov esi, ebp
mov rdx, r12
call js_std_add_helpers
lea rsi, qjsc_function_source
mov edx, 13Ah
mov rdi, r15
xor ecx, ecx
call js_std_eval_binary
mov rdi, r15
call js_std_loop
mov r12, rax
mov r13, rdx
cmp r13d, 6
jnz short loc_13AF4
mov rdi, r15
mov rsi, r12
mov rdx, r13
call js_std_dump_error1
mov r14d, 1
loc_13AF4:
mov rdi, r15
mov rsi, r12
mov rdx, r13
call JS_FreeValue
mov rdi, r15
call JS_FreeContext
mov rdi, rbx
call js_std_free_handlers
mov rdi, rbx
call JS_FreeRuntime
mov eax, r14d
add rsp, 8
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| int main(int argc, const char **argv, const char **envp)
{
long long v3; // rbx
int v4; // r14d
_QWORD *v5; // r15
long long v6; // rax
long long v7; // rdx
long long v8; // r12
long long v9; // r13
v3 = JS_NewRuntime(argc, argv, envp);
js_std_set_worker_new_context_func(JS_NewCustomContext);
js_std_init_handlers(v3);
v4 = 0;
JS_SetModuleLoaderFunc(v3, 0LL, js_module_loader, 0LL);
v5 = JS_NewContext(v3);
js_std_add_helpers(v5, (unsigned int)argc, argv);
js_std_eval_binary(v5, &qjsc_function_source, 314LL, 0LL);
v6 = js_std_loop(v5);
v8 = v6;
v9 = v7;
if ( (_DWORD)v7 == 6 )
{
js_std_dump_error1(v5, v6, v7);
v4 = 1;
}
JS_FreeValue(v5, v8, v9);
JS_FreeContext(v5);
js_std_free_handlers(v3);
JS_FreeRuntime(v3);
return v4;
}
| main:
PUSH RBP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
PUSH RAX
MOV R12,RSI
MOV EBP,EDI
CALL 0x0011cb5b
MOV RBX,RAX
LEA RDI,[0x113b2c]
CALL 0x00114111
MOV RDI,RBX
CALL 0x00114531
LEA RDX,[0x113dcf]
XOR R14D,R14D
MOV RDI,RBX
XOR ESI,ESI
XOR ECX,ECX
CALL 0x0012fecd
MOV RDI,RBX
CALL 0x0010f36b
MOV R15,RAX
MOV RDI,RAX
MOV ESI,EBP
MOV RDX,R12
CALL 0x001142b7
LEA RSI,[0x19a020]
MOV EDX,0x13a
MOV RDI,R15
XOR ECX,ECX
CALL 0x00115033
MOV RDI,R15
CALL 0x0011494d
MOV R12,RAX
MOV R13,RDX
CMP R13D,0x6
JNZ 0x00113af4
MOV RDI,R15
MOV RSI,R12
MOV RDX,R13
CALL 0x0011481f
MOV R14D,0x1
LAB_00113af4:
MOV RDI,R15
MOV RSI,R12
MOV RDX,R13
CALL 0x0011cc9f
MOV RDI,R15
CALL 0x0011ee8c
MOV RDI,RBX
CALL 0x00114661
MOV RDI,RBX
CALL 0x0011c8f6
MOV EAX,R14D
ADD RSP,0x8
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
bool main(int4 param_1,int8 param_2)
{
int8 uVar1;
int8 uVar2;
bool bVar3;
int1 auVar4 [16];
uVar1 = JS_NewRuntime();
js_std_set_worker_new_context_func(JS_NewCustomContext);
js_std_init_handlers(uVar1);
JS_SetModuleLoaderFunc(uVar1,0,js_module_loader,0);
uVar2 = JS_NewContext(uVar1);
js_std_add_helpers(uVar2,param_1,param_2);
js_std_eval_binary(uVar2,qjsc_function_source,0x13a,0);
auVar4 = js_std_loop(uVar2);
bVar3 = auVar4._8_4_ == 6;
if (bVar3) {
js_std_dump_error1(uVar2,auVar4._0_8_,auVar4._8_8_);
}
JS_FreeValue(uVar2,auVar4._0_8_,auVar4._8_8_);
JS_FreeContext(uVar2);
js_std_free_handlers(uVar1);
JS_FreeRuntime(uVar1);
return bVar3;
}
| |
34,422 | main | bluesky950520[P]quickjs/gen/function_source.c | int main(int argc, char **argv)
{
int r;
JSValue ret;
JSRuntime *rt;
JSContext *ctx;
r = 0;
rt = JS_NewRuntime();
js_std_set_worker_new_context_func(JS_NewCustomContext);
js_std_init_handlers(rt);
JS_SetModuleLoaderFunc(rt, NULL, js_module_loader, NULL);
ctx = JS_NewCustomContext(rt);
js_std_add_helpers(ctx, argc, argv);
js_std_eval_binary(ctx, qjsc_function_source, qjsc_function_source_size, 0);
ret = js_std_loop(ctx);
if (JS_IsException(ret)) {
js_std_dump_error1(ctx, ret);
r = 1;
}
JS_FreeValue(ctx, ret);
JS_FreeContext(ctx);
js_std_free_handlers(rt);
JS_FreeRuntime(rt);
return r;
} | O3 | c | main:
pushq %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
pushq %rax
movq %rsi, %r12
movl %edi, %ebp
callq 0x1d430
movq %rax, %rbx
leaq 0xb1(%rip), %rdi # 0x1456c
callq 0x14b62
movq %rbx, %rdi
callq 0x14f7e
leaq 0x340(%rip), %rdx # 0x1480f
xorl %r14d, %r14d
movq %rbx, %rdi
xorl %esi, %esi
xorl %ecx, %ecx
callq 0x30eb2
movq %rbx, %rdi
callq 0xf3bf
movq %rax, %r15
movq %rax, %rdi
movl %ebp, %esi
movq %r12, %rdx
callq 0x14d04
leaq 0x88b23(%rip), %rsi # 0x9d020
movl $0x13a, %edx # imm = 0x13A
movq %r15, %rdi
xorl %ecx, %ecx
callq 0x15a19
movq %r15, %rdi
callq 0x15397
movq %rax, %r12
movq %rdx, %r13
cmpl $0x6, %r13d
jne 0x14534
movq %r15, %rdi
movq %r12, %rsi
movq %r13, %rdx
callq 0x15269
movl $0x1, %r14d
movq %r15, %rdi
movq %r12, %rsi
movq %r13, %rdx
callq 0x1d599
movq %r15, %rdi
callq 0x1f4a7
movq %rbx, %rdi
callq 0x150ae
movq %rbx, %rdi
callq 0x1d1a3
movl %r14d, %eax
addq $0x8, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| main:
push rbp
push r15
push r14
push r13
push r12
push rbx
push rax
mov r12, rsi
mov ebp, edi
call JS_NewRuntime
mov rbx, rax
lea rdi, JS_NewCustomContext
call js_std_set_worker_new_context_func
mov rdi, rbx
call js_std_init_handlers
lea rdx, js_module_loader
xor r14d, r14d
mov rdi, rbx
xor esi, esi
xor ecx, ecx
call JS_SetModuleLoaderFunc
mov rdi, rbx
call JS_NewContext
mov r15, rax
mov rdi, rax
mov esi, ebp
mov rdx, r12
call js_std_add_helpers
lea rsi, qjsc_function_source
mov edx, 13Ah
mov rdi, r15
xor ecx, ecx
call js_std_eval_binary
mov rdi, r15
call js_std_loop
mov r12, rax
mov r13, rdx
cmp r13d, 6
jnz short loc_14534
mov rdi, r15
mov rsi, r12
mov rdx, r13
call js_std_dump_error1
mov r14d, 1
loc_14534:
mov rdi, r15
mov rsi, r12
mov rdx, r13
call JS_FreeValue
mov rdi, r15
call JS_FreeContext
mov rdi, rbx
call js_std_free_handlers
mov rdi, rbx
call JS_FreeRuntime
mov eax, r14d
add rsp, 8
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| int main(int argc, const char **argv, const char **envp)
{
long long v3; // rbx
int v4; // r14d
_QWORD *v5; // r15
long long v6; // rax
long long v7; // rdx
long long v8; // r12
long long v9; // r13
v3 = JS_NewRuntime(argc, argv, envp);
js_std_set_worker_new_context_func(JS_NewCustomContext);
js_std_init_handlers(v3);
v4 = 0;
JS_SetModuleLoaderFunc(v3, 0LL, js_module_loader, 0LL);
v5 = JS_NewContext(v3);
js_std_add_helpers(v5, (unsigned int)argc, argv);
js_std_eval_binary(v5, &qjsc_function_source, 314LL, 0LL);
v6 = js_std_loop(v5);
v8 = v6;
v9 = v7;
if ( (_DWORD)v7 == 6 )
{
js_std_dump_error1(v5, v6, v7);
v4 = 1;
}
JS_FreeValue(v5, v8, v9);
JS_FreeContext(v5);
js_std_free_handlers(v3);
JS_FreeRuntime(v3);
return v4;
}
| main:
PUSH RBP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
PUSH RAX
MOV R12,RSI
MOV EBP,EDI
CALL 0x0011d430
MOV RBX,RAX
LEA RDI,[0x11456c]
CALL 0x00114b62
MOV RDI,RBX
CALL 0x00114f7e
LEA RDX,[0x11480f]
XOR R14D,R14D
MOV RDI,RBX
XOR ESI,ESI
XOR ECX,ECX
CALL 0x00130eb2
MOV RDI,RBX
CALL 0x0010f3bf
MOV R15,RAX
MOV RDI,RAX
MOV ESI,EBP
MOV RDX,R12
CALL 0x00114d04
LEA RSI,[0x19d020]
MOV EDX,0x13a
MOV RDI,R15
XOR ECX,ECX
CALL 0x00115a19
MOV RDI,R15
CALL 0x00115397
MOV R12,RAX
MOV R13,RDX
CMP R13D,0x6
JNZ 0x00114534
MOV RDI,R15
MOV RSI,R12
MOV RDX,R13
CALL 0x00115269
MOV R14D,0x1
LAB_00114534:
MOV RDI,R15
MOV RSI,R12
MOV RDX,R13
CALL 0x0011d599
MOV RDI,R15
CALL 0x0011f4a7
MOV RDI,RBX
CALL 0x001150ae
MOV RDI,RBX
CALL 0x0011d1a3
MOV EAX,R14D
ADD RSP,0x8
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
bool main(int4 param_1,int8 param_2)
{
int8 uVar1;
int8 uVar2;
bool bVar3;
int1 auVar4 [16];
uVar1 = JS_NewRuntime();
js_std_set_worker_new_context_func(JS_NewCustomContext);
js_std_init_handlers(uVar1);
JS_SetModuleLoaderFunc(uVar1,0,js_module_loader,0);
uVar2 = JS_NewContext(uVar1);
js_std_add_helpers(uVar2,param_1,param_2);
js_std_eval_binary(uVar2,qjsc_function_source,0x13a,0);
auVar4 = js_std_loop(uVar2);
bVar3 = auVar4._8_4_ == 6;
if (bVar3) {
js_std_dump_error1(uVar2,auVar4._0_8_,auVar4._8_8_);
}
JS_FreeValue(uVar2,auVar4._0_8_,auVar4._8_8_);
JS_FreeContext(uVar2);
js_std_free_handlers(uVar1);
JS_FreeRuntime(uVar1);
return bVar3;
}
| |
34,423 | plan | eloqsql/unittest/mytap/tap.c | void
plan(int count)
{
char *config= getenv("MYTAP_CONFIG");
size_t i;
start_time= start_timer();
if (config)
skip_big_tests= strcmp(config, "big");
setvbuf(tapout, 0, _IONBF, 0); /* provide output at once */
/*
Install signal handler
*/
for (i= 0; i < sizeof(install_signal)/sizeof(*install_signal); ++i)
signal(install_signal[i].signo, install_signal[i].handler);
g_test.plan= count;
switch (count)
{
case NO_PLAN:
break;
default:
if (count > 0)
{
fprintf(tapout, "1..%d\n", count);
fflush(tapout);
}
break;
}
} | O0 | c | plan:
pushq %rbp
movq %rsp, %rbp
subq $0x20, %rsp
movl %edi, -0x4(%rbp)
leaq 0x79595(%rip), %rdi # 0x152c37
callq 0x2a5e0
movq %rax, -0x10(%rbp)
callq 0xd9790
movq %rax, 0xb9ffe9(%rip) # 0xc796a0
cmpq $0x0, -0x10(%rbp)
je 0xd96d4
movq -0x10(%rbp), %rdi
leaq 0x7de70(%rip), %rsi # 0x157539
callq 0x2a660
movl %eax, 0x1e4ffc(%rip) # 0x2be6d0
movq 0x1e28f5(%rip), %rax # 0x2bbfd0
movq (%rax), %rdi
xorl %eax, %eax
movl %eax, %ecx
movl $0x2, %edx
movq %rcx, %rsi
callq 0x2a3a0
movq $0x0, -0x18(%rbp)
cmpq $0xb, -0x18(%rbp)
jae 0xd973b
movq -0x18(%rbp), %rcx
leaq 0x1e4fd7(%rip), %rax # 0x2be6e0
shlq $0x4, %rcx
addq %rcx, %rax
movl (%rax), %edi
movq -0x18(%rbp), %rcx
leaq 0x1e4fc3(%rip), %rax # 0x2be6e0
shlq $0x4, %rcx
addq %rcx, %rax
movq 0x8(%rax), %rsi
callq 0x2a300
movq -0x18(%rbp), %rax
addq $0x1, %rax
movq %rax, -0x18(%rbp)
jmp 0xd96f7
movl -0x4(%rbp), %eax
movl %eax, 0xb9fecc(%rip) # 0xc79610
movl -0x4(%rbp), %eax
testl %eax, %eax
jne 0xd974f
jmp 0xd974d
jmp 0xd9781
cmpl $0x0, -0x4(%rbp)
jle 0xd977f
movq 0x1e2874(%rip), %rax # 0x2bbfd0
movq (%rax), %rdi
movl -0x4(%rbp), %edx
leaq 0x794db(%rip), %rsi # 0x152c44
movb $0x0, %al
callq 0x2a180
movq 0x1e2859(%rip), %rax # 0x2bbfd0
movq (%rax), %rdi
callq 0x2a3e0
jmp 0xd9781
addq $0x20, %rsp
popq %rbp
retq
nopw (%rax,%rax)
| plan:
push rbp
mov rbp, rsp
sub rsp, 20h
mov [rbp+var_4], edi
lea rdi, aMytapConfig; "MYTAP_CONFIG"
call _getenv
mov [rbp+var_10], rax
call start_timer
mov cs:start_time, rax
cmp [rbp+var_10], 0
jz short loc_D96D4
mov rdi, [rbp+var_10]
lea rsi, aUndoRecordTooB+10h; "big"
call _strcmp
mov cs:skip_big_tests, eax
loc_D96D4:
mov rax, cs:stdout_ptr
mov rdi, [rax]
xor eax, eax
mov ecx, eax
mov edx, 2
mov rsi, rcx
call _setvbuf
mov [rbp+var_18], 0
loc_D96F7:
cmp [rbp+var_18], 0Bh
jnb short loc_D973B
mov rcx, [rbp+var_18]
lea rax, install_signal
shl rcx, 4
add rax, rcx
mov edi, [rax]
mov rcx, [rbp+var_18]
lea rax, install_signal
shl rcx, 4
add rax, rcx
mov rsi, [rax+8]
call _signal
mov rax, [rbp+var_18]
add rax, 1
mov [rbp+var_18], rax
jmp short loc_D96F7
loc_D973B:
mov eax, [rbp+var_4]
mov cs:g_test, eax
mov eax, [rbp+var_4]
test eax, eax
jnz short loc_D974F
jmp short $+2
loc_D974D:
jmp short loc_D9781
loc_D974F:
cmp [rbp+var_4], 0
jle short loc_D977F
mov rax, cs:stdout_ptr
mov rdi, [rax]
mov edx, [rbp+var_4]
lea rsi, a1D; "1..%d\n"
mov al, 0
call _fprintf
mov rax, cs:stdout_ptr
mov rdi, [rax]
call _fflush
loc_D977F:
jmp short $+2
loc_D9781:
add rsp, 20h
pop rbp
retn
| long long plan(int a1)
{
long long result; // rax
unsigned long long i; // [rsp+8h] [rbp-18h]
long long v3; // [rsp+10h] [rbp-10h]
v3 = getenv("MYTAP_CONFIG");
start_time = start_timer();
if ( v3 )
skip_big_tests = strcmp(v3, "big");
setvbuf(stdout, 0LL, 2LL);
for ( i = 0LL; i < 0xB; ++i )
signal(*((unsigned int *)&install_signal + 4 * i), *((_QWORD *)&install_signal + 2 * i + 1));
g_test = a1;
result = (unsigned int)a1;
if ( a1 > 0 )
{
fprintf(stdout, "1..%d\n", a1);
return fflush(stdout);
}
return result;
}
| plan:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x20
MOV dword ptr [RBP + -0x4],EDI
LEA RDI,[0x252c37]
CALL 0x0012a5e0
MOV qword ptr [RBP + -0x10],RAX
CALL 0x001d9790
MOV qword ptr [0x00d796a0],RAX
CMP qword ptr [RBP + -0x10],0x0
JZ 0x001d96d4
MOV RDI,qword ptr [RBP + -0x10]
LEA RSI,[0x257539]
CALL 0x0012a660
MOV dword ptr [0x003be6d0],EAX
LAB_001d96d4:
MOV RAX,qword ptr [0x003bbfd0]
MOV RDI,qword ptr [RAX]
XOR EAX,EAX
MOV ECX,EAX
MOV EDX,0x2
MOV RSI,RCX
CALL 0x0012a3a0
MOV qword ptr [RBP + -0x18],0x0
LAB_001d96f7:
CMP qword ptr [RBP + -0x18],0xb
JNC 0x001d973b
MOV RCX,qword ptr [RBP + -0x18]
LEA RAX,[0x3be6e0]
SHL RCX,0x4
ADD RAX,RCX
MOV EDI,dword ptr [RAX]
MOV RCX,qword ptr [RBP + -0x18]
LEA RAX,[0x3be6e0]
SHL RCX,0x4
ADD RAX,RCX
MOV RSI,qword ptr [RAX + 0x8]
CALL 0x0012a300
MOV RAX,qword ptr [RBP + -0x18]
ADD RAX,0x1
MOV qword ptr [RBP + -0x18],RAX
JMP 0x001d96f7
LAB_001d973b:
MOV EAX,dword ptr [RBP + -0x4]
MOV dword ptr [0x00d79610],EAX
MOV EAX,dword ptr [RBP + -0x4]
TEST EAX,EAX
JNZ 0x001d974f
JMP 0x001d974d
LAB_001d974d:
JMP 0x001d9781
LAB_001d974f:
CMP dword ptr [RBP + -0x4],0x0
JLE 0x001d977f
MOV RAX,qword ptr [0x003bbfd0]
MOV RDI,qword ptr [RAX]
MOV EDX,dword ptr [RBP + -0x4]
LEA RSI,[0x252c44]
MOV AL,0x0
CALL 0x0012a180
MOV RAX,qword ptr [0x003bbfd0]
MOV RDI,qword ptr [RAX]
CALL 0x0012a3e0
LAB_001d977f:
JMP 0x001d9781
LAB_001d9781:
ADD RSP,0x20
POP RBP
RET
|
void plan(uint param_1)
{
char *__s1;
ulong local_20;
__s1 = getenv("MYTAP_CONFIG");
start_time = start_timer();
if (__s1 != (char *)0x0) {
skip_big_tests = strcmp(__s1,"big");
}
setvbuf(*(FILE **)PTR_stdout_003bbfd0,(char *)0x0,2,0);
for (local_20 = 0; local_20 < 0xb; local_20 = local_20 + 1) {
signal(*(int *)(install_signal + local_20 * 0x10),
*(__sighandler_t *)(install_signal + local_20 * 0x10 + 8));
}
g_test = param_1;
if ((param_1 != 0) && (0 < (int)param_1)) {
fprintf(*(FILE **)PTR_stdout_003bbfd0,"1..%d\n",(ulong)param_1);
fflush(*(FILE **)PTR_stdout_003bbfd0);
}
return;
}
| |
34,424 | plan | eloqsql/unittest/mytap/tap.c | void
plan(int count)
{
char *config= getenv("MYTAP_CONFIG");
size_t i;
start_time= start_timer();
if (config)
skip_big_tests= strcmp(config, "big");
setvbuf(tapout, 0, _IONBF, 0); /* provide output at once */
/*
Install signal handler
*/
for (i= 0; i < sizeof(install_signal)/sizeof(*install_signal); ++i)
signal(install_signal[i].signo, install_signal[i].handler);
g_test.plan= count;
switch (count)
{
case NO_PLAN:
break;
default:
if (count > 0)
{
fprintf(tapout, "1..%d\n", count);
fflush(tapout);
}
break;
}
} | O3 | c | plan:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x28, %rsp
movl %edi, %ebx
leaq 0x4af12(%rip), %rdi # 0xdbc37
callq 0x29620
movq %rax, %r14
leaq -0x48(%rbp), %rdi
callq 0x29170
movq %rax, 0xb6ed63(%rip) # 0xbffaa0
testq %r14, %r14
je 0x90d57
leaq 0x4f7d4(%rip), %rsi # 0xe051d
movq %r14, %rdi
callq 0x296a0
movl %eax, 0x2f4991(%rip) # 0x3856e8
movq 0x2f324a(%rip), %r15 # 0x383fa8
movq (%r15), %rdi
xorl %r12d, %r12d
xorl %esi, %esi
movl $0x2, %edx
xorl %ecx, %ecx
callq 0x293c0
leaq 0x2ea6e7(%rip), %r13 # 0x37b460
leaq 0x8e2(%rip), %r14 # 0x91662
movl (%r12,%r13), %edi
movq %r14, %rsi
callq 0x29300
addq $0x10, %r12
cmpq $0xb0, %r12
jne 0x90d80
movl %ebx, 0xb6ec71(%rip) # 0xbffa10
testl %ebx, %ebx
jle 0x90dd1
movq (%r15), %rdi
leaq 0x4ae97(%rip), %rdx # 0xdbc44
movl $0x1, %esi
movl %ebx, %ecx
xorl %eax, %eax
callq 0x29200
movq (%r15), %rdi
addq $0x28, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
jmp 0x29400
addq $0x28, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| plan:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 28h
mov ebx, edi
lea rdi, aMytapConfig; "MYTAP_CONFIG"
call _getenv
mov r14, rax
lea rdi, [rbp+var_48]
call _times
mov cs:start_time, rax
test r14, r14
jz short loc_90D57
lea rsi, aUndoRecordTooB+10h; "big"
mov rdi, r14
call _strcmp
mov cs:skip_big_tests, eax
loc_90D57:
mov r15, cs:stdout_ptr
mov rdi, [r15]
xor r12d, r12d
xor esi, esi
mov edx, 2
xor ecx, ecx
call _setvbuf
lea r13, install_signal
lea r14, handle_core_signal
loc_90D80:
mov edi, [r12+r13]
mov rsi, r14
call _signal
add r12, 10h
cmp r12, 0B0h
jnz short loc_90D80
mov cs:g_test, ebx
test ebx, ebx
jle short loc_90DD1
mov rdi, [r15]
lea rdx, a1D; "1..%d\n"
mov esi, 1
mov ecx, ebx
xor eax, eax
call ___fprintf_chk
mov rdi, [r15]
add rsp, 28h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
jmp _fflush
loc_90DD1:
add rsp, 28h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| long long plan(int a1)
{
long long v1; // r14
long long v2; // r12
long long result; // rax
_BYTE v4[72]; // [rsp+8h] [rbp-48h] BYREF
v1 = getenv("MYTAP_CONFIG");
start_time = times(v4);
if ( v1 )
skip_big_tests = strcmp(v1, "big");
v2 = 0LL;
setvbuf(stdout, 0LL, 2LL, 0LL);
do
{
result = signal(*(unsigned int *)((char *)&install_signal + v2), handle_core_signal);
v2 += 16LL;
}
while ( v2 != 176 );
g_test = a1;
if ( a1 > 0 )
{
__fprintf_chk(stdout, 1LL, "1..%d\n", a1);
return fflush(stdout);
}
return result;
}
| plan:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x28
MOV EBX,EDI
LEA RDI,[0x1dbc37]
CALL 0x00129620
MOV R14,RAX
LEA RDI,[RBP + -0x48]
CALL 0x00129170
MOV qword ptr [0x00cffaa0],RAX
TEST R14,R14
JZ 0x00190d57
LEA RSI,[0x1e051d]
MOV RDI,R14
CALL 0x001296a0
MOV dword ptr [0x004856e8],EAX
LAB_00190d57:
MOV R15,qword ptr [0x00483fa8]
MOV RDI,qword ptr [R15]
XOR R12D,R12D
XOR ESI,ESI
MOV EDX,0x2
XOR ECX,ECX
CALL 0x001293c0
LEA R13,[0x47b460]
LEA R14,[0x191662]
LAB_00190d80:
MOV EDI,dword ptr [R12 + R13*0x1]
MOV RSI,R14
CALL 0x00129300
ADD R12,0x10
CMP R12,0xb0
JNZ 0x00190d80
MOV dword ptr [0x00cffa10],EBX
TEST EBX,EBX
JLE 0x00190dd1
MOV RDI,qword ptr [R15]
LEA RDX,[0x1dbc44]
MOV ESI,0x1
MOV ECX,EBX
XOR EAX,EAX
CALL 0x00129200
MOV RDI,qword ptr [R15]
ADD RSP,0x28
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
JMP 0x00129400
LAB_00190dd1:
ADD RSP,0x28
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
void plan(int param_1)
{
int *puVar1;
char *__s1;
long lVar2;
tms local_50;
__s1 = getenv("MYTAP_CONFIG");
start_time = times(&local_50);
if (__s1 != (char *)0x0) {
skip_big_tests = strcmp(__s1,"big");
}
puVar1 = PTR_stdout_00483fa8;
lVar2 = 0;
setvbuf(*(FILE **)PTR_stdout_00483fa8,(char *)0x0,2,0);
do {
signal(*(int *)((long)&install_signal + lVar2),handle_core_signal);
lVar2 = lVar2 + 0x10;
} while (lVar2 != 0xb0);
g_test = param_1;
if (0 < param_1) {
__fprintf_chk(*(int8 *)puVar1,1,"1..%d\n",param_1);
fflush(*(FILE **)puVar1);
return;
}
return;
}
| |
34,425 | simple_cs_is_full | eloqsql/mysys/charset.c | static my_bool simple_cs_is_full(CHARSET_INFO *cs)
{
return cs->number && cs->cs_name.str && cs->coll_name.str &&
simple_8bit_charset_data_is_full(cs) &&
(simple_8bit_collation_data_is_full(cs) || cs->tailoring);
} | O3 | c | simple_cs_is_full:
pushq %rbp
movq %rsp, %rbp
cmpl $0x0, (%rdi)
je 0x2c10b
cmpq $0x0, 0x10(%rdi)
je 0x2c10b
cmpq $0x0, 0x20(%rdi)
je 0x2c10b
cmpq $0x0, 0x40(%rdi)
je 0x2c10b
cmpq $0x0, 0x50(%rdi)
je 0x2c10b
cmpq $0x0, 0x48(%rdi)
je 0x2c10b
cmpq $0x0, 0x68(%rdi)
je 0x2c10b
movb $0x1, %al
cmpq $0x0, 0x58(%rdi)
jne 0x2c10d
testb $0x10, 0xc(%rdi)
jne 0x2c10d
cmpq $0x0, 0x38(%rdi)
setne %al
jmp 0x2c10d
xorl %eax, %eax
popq %rbp
retq
| simple_cs_is_full:
push rbp
mov rbp, rsp
cmp dword ptr [rdi], 0
jz short loc_2C10B
cmp qword ptr [rdi+10h], 0
jz short loc_2C10B
cmp qword ptr [rdi+20h], 0
jz short loc_2C10B
cmp qword ptr [rdi+40h], 0
jz short loc_2C10B
cmp qword ptr [rdi+50h], 0
jz short loc_2C10B
cmp qword ptr [rdi+48h], 0
jz short loc_2C10B
cmp qword ptr [rdi+68h], 0
jz short loc_2C10B
mov al, 1
cmp qword ptr [rdi+58h], 0
jnz short loc_2C10D
test byte ptr [rdi+0Ch], 10h
jnz short loc_2C10D
cmp qword ptr [rdi+38h], 0
setnz al
jmp short loc_2C10D
loc_2C10B:
xor eax, eax
loc_2C10D:
pop rbp
retn
| bool simple_cs_is_full(long long a1)
{
bool result; // al
if ( !*(_DWORD *)a1
|| !*(_QWORD *)(a1 + 16)
|| !*(_QWORD *)(a1 + 32)
|| !*(_QWORD *)(a1 + 64)
|| !*(_QWORD *)(a1 + 80)
|| !*(_QWORD *)(a1 + 72)
|| !*(_QWORD *)(a1 + 104) )
{
return 0;
}
result = 1;
if ( !*(_QWORD *)(a1 + 88) && (*(_BYTE *)(a1 + 12) & 0x10) == 0 )
return *(_QWORD *)(a1 + 56) != 0LL;
return result;
}
| simple_cs_is_full:
PUSH RBP
MOV RBP,RSP
CMP dword ptr [RDI],0x0
JZ 0x0012c10b
CMP qword ptr [RDI + 0x10],0x0
JZ 0x0012c10b
CMP qword ptr [RDI + 0x20],0x0
JZ 0x0012c10b
CMP qword ptr [RDI + 0x40],0x0
JZ 0x0012c10b
CMP qword ptr [RDI + 0x50],0x0
JZ 0x0012c10b
CMP qword ptr [RDI + 0x48],0x0
JZ 0x0012c10b
CMP qword ptr [RDI + 0x68],0x0
JZ 0x0012c10b
MOV AL,0x1
CMP qword ptr [RDI + 0x58],0x0
JNZ 0x0012c10d
TEST byte ptr [RDI + 0xc],0x10
JNZ 0x0012c10d
CMP qword ptr [RDI + 0x38],0x0
SETNZ AL
JMP 0x0012c10d
LAB_0012c10b:
XOR EAX,EAX
LAB_0012c10d:
POP RBP
RET
|
bool simple_cs_is_full(int *param_1)
{
bool bVar1;
if (((((*param_1 == 0) || (*(long *)(param_1 + 4) == 0)) || (*(long *)(param_1 + 8) == 0)) ||
((*(long *)(param_1 + 0x10) == 0 || (*(long *)(param_1 + 0x14) == 0)))) ||
((*(long *)(param_1 + 0x12) == 0 || (*(long *)(param_1 + 0x1a) == 0)))) {
bVar1 = false;
}
else {
bVar1 = true;
if ((*(long *)(param_1 + 0x16) == 0) && ((*(byte *)(param_1 + 3) & 0x10) == 0)) {
bVar1 = *(long *)(param_1 + 0xe) != 0;
}
}
return bVar1;
}
| |
34,426 | stbi__pic_is4(stbi__context*, char const*) | 7CodeWizard[P]stablediffusion/thirdparty/stb_image.h | static int stbi__pic_is4(stbi__context *s,const char *str)
{
int i;
for (i=0; i<4; ++i)
if (stbi__get8(s) != (stbi_uc)str[i])
return 0;
return 1;
} | O0 | c | stbi__pic_is4(stbi__context*, char const*):
subq $0x28, %rsp
movq %rdi, 0x18(%rsp)
movq %rsi, 0x10(%rsp)
movl $0x0, 0xc(%rsp)
cmpl $0x4, 0xc(%rsp)
jge 0x1e675
movq 0x18(%rsp), %rdi
callq 0x17f50
movzbl %al, %eax
movq 0x10(%rsp), %rcx
movslq 0xc(%rsp), %rdx
movzbl (%rcx,%rdx), %ecx
cmpl %ecx, %eax
je 0x1e666
movl $0x0, 0x24(%rsp)
jmp 0x1e67d
jmp 0x1e668
movl 0xc(%rsp), %eax
addl $0x1, %eax
movl %eax, 0xc(%rsp)
jmp 0x1e636
movl $0x1, 0x24(%rsp)
movl 0x24(%rsp), %eax
addq $0x28, %rsp
retq
nopw %cs:(%rax,%rax)
| _ZL13stbi__pic_is4P13stbi__contextPKc:
sub rsp, 28h
mov [rsp+28h+var_10], rdi
mov [rsp+28h+var_18], rsi
mov [rsp+28h+var_1C], 0
loc_1E636:
cmp [rsp+28h+var_1C], 4
jge short loc_1E675
mov rdi, [rsp+28h+var_10]
call _ZL10stbi__get8P13stbi__context; stbi__get8(stbi__context *)
movzx eax, al
mov rcx, [rsp+28h+var_18]
movsxd rdx, [rsp+28h+var_1C]
movzx ecx, byte ptr [rcx+rdx]
cmp eax, ecx
jz short loc_1E666
mov [rsp+28h+var_4], 0
jmp short loc_1E67D
loc_1E666:
jmp short $+2
loc_1E668:
mov eax, [rsp+28h+var_1C]
add eax, 1
mov [rsp+28h+var_1C], eax
jmp short loc_1E636
loc_1E675:
mov [rsp+28h+var_4], 1
loc_1E67D:
mov eax, [rsp+28h+var_4]
add rsp, 28h
retn
| long long stbi__pic_is4(long long a1, long long a2)
{
int i; // [rsp+Ch] [rbp-1Ch]
for ( i = 0; i < 4; ++i )
{
if ( stbi__get8(a1) != *(_BYTE *)(a2 + i) )
return 0;
}
return 1;
}
| stbi__pic_is4:
SUB RSP,0x28
MOV qword ptr [RSP + 0x18],RDI
MOV qword ptr [RSP + 0x10],RSI
MOV dword ptr [RSP + 0xc],0x0
LAB_0011e636:
CMP dword ptr [RSP + 0xc],0x4
JGE 0x0011e675
MOV RDI,qword ptr [RSP + 0x18]
CALL 0x00117f50
MOVZX EAX,AL
MOV RCX,qword ptr [RSP + 0x10]
MOVSXD RDX,dword ptr [RSP + 0xc]
MOVZX ECX,byte ptr [RCX + RDX*0x1]
CMP EAX,ECX
JZ 0x0011e666
MOV dword ptr [RSP + 0x24],0x0
JMP 0x0011e67d
LAB_0011e666:
JMP 0x0011e668
LAB_0011e668:
MOV EAX,dword ptr [RSP + 0xc]
ADD EAX,0x1
MOV dword ptr [RSP + 0xc],EAX
JMP 0x0011e636
LAB_0011e675:
MOV dword ptr [RSP + 0x24],0x1
LAB_0011e67d:
MOV EAX,dword ptr [RSP + 0x24]
ADD RSP,0x28
RET
|
/* stbi__pic_is4(stbi__context*, char const*) */
int4 stbi__pic_is4(stbi__context *param_1,char *param_2)
{
char cVar1;
int local_1c;
local_1c = 0;
while( true ) {
if (3 < local_1c) {
return 1;
}
cVar1 = stbi__get8(param_1);
if (cVar1 != param_2[local_1c]) break;
local_1c = local_1c + 1;
}
return 0;
}
| |
34,427 | stbi__pic_is4(stbi__context*, char const*) | 7CodeWizard[P]stablediffusion/thirdparty/stb_image.h | static int stbi__pic_is4(stbi__context *s,const char *str)
{
int i;
for (i=0; i<4; ++i)
if (stbi__get8(s) != (stbi_uc)str[i])
return 0;
return 1;
} | O1 | c | stbi__pic_is4(stbi__context*, char const*):
pushq %r15
pushq %r14
pushq %rbx
movq %rsi, %rbx
movq %rdi, %r14
xorl %r15d, %r15d
movq 0xc0(%r14), %rax
cmpq 0xc8(%r14), %rax
jb 0x2a903
cmpl $0x0, 0x30(%r14)
je 0x2a921
movq %r14, %rdi
callq 0x2696c
movq 0xc0(%r14), %rax
leaq 0x1(%rax), %rcx
movq %rcx, 0xc0(%r14)
movb (%rax), %al
cmpb (%rbx,%r15), %al
jne 0x2a925
incq %r15
cmpq $0x4, %r15
jne 0x2a8dd
jmp 0x2a929
xorl %eax, %eax
jmp 0x2a910
xorl %eax, %eax
jmp 0x2a92e
movl $0x1, %eax
popq %rbx
popq %r14
popq %r15
retq
| _ZL13stbi__pic_is4P13stbi__contextPKc:
push r15
push r14
push rbx
mov rbx, rsi
mov r14, rdi
xor r15d, r15d
loc_2A8DD:
mov rax, [r14+0C0h]
cmp rax, [r14+0C8h]
jb short loc_2A903
cmp dword ptr [r14+30h], 0
jz short loc_2A921
mov rdi, r14
call _ZL19stbi__refill_bufferP13stbi__context; stbi__refill_buffer(stbi__context *)
mov rax, [r14+0C0h]
loc_2A903:
lea rcx, [rax+1]
mov [r14+0C0h], rcx
mov al, [rax]
loc_2A910:
cmp al, [rbx+r15]
jnz short loc_2A925
inc r15
cmp r15, 4
jnz short loc_2A8DD
jmp short loc_2A929
loc_2A921:
xor eax, eax
jmp short loc_2A910
loc_2A925:
xor eax, eax
jmp short loc_2A92E
loc_2A929:
mov eax, 1
loc_2A92E:
pop rbx
pop r14
pop r15
retn
| long long stbi__pic_is4(long long a1, long long a2)
{
long long v2; // r15
char *v3; // rax
char v4; // al
v2 = 0LL;
while ( 1 )
{
v3 = *(char **)(a1 + 192);
if ( (unsigned long long)v3 < *(_QWORD *)(a1 + 200) )
goto LABEL_5;
if ( *(_DWORD *)(a1 + 48) )
{
stbi__refill_buffer(a1);
v3 = *(char **)(a1 + 192);
LABEL_5:
*(_QWORD *)(a1 + 192) = v3 + 1;
v4 = *v3;
goto LABEL_6;
}
v4 = 0;
LABEL_6:
if ( v4 != *(_BYTE *)(a2 + v2) )
return 0LL;
if ( ++v2 == 4 )
return 1LL;
}
}
| |||
34,428 | stbi__pic_is4(stbi__context*, char const*) | 7CodeWizard[P]stablediffusion/thirdparty/stb_image.h | static int stbi__pic_is4(stbi__context *s,const char *str)
{
int i;
for (i=0; i<4; ++i)
if (stbi__get8(s) != (stbi_uc)str[i])
return 0;
return 1;
} | O3 | c | stbi__pic_is4(stbi__context*, char const*):
pushq %r15
pushq %r14
pushq %rbx
movq %rsi, %rbx
movq %rdi, %r14
movq 0xc0(%rdi), %rax
xorl %r15d, %r15d
cmpq 0xc8(%r14), %rax
jb 0x29d2a
cmpl $0x0, 0x30(%r14)
je 0x29d4b
movq %r14, %rdi
callq 0x2620e
movq 0xc0(%r14), %rax
leaq 0x1(%rax), %rdx
movq %rdx, 0xc0(%r14)
movb (%rax), %cl
movq %rdx, %rax
cmpb (%rbx,%r15), %cl
jne 0x29d4f
incq %r15
cmpq $0x4, %r15
jne 0x29d0b
jmp 0x29d53
xorl %ecx, %ecx
jmp 0x29d3a
xorl %eax, %eax
jmp 0x29d58
movl $0x1, %eax
popq %rbx
popq %r14
popq %r15
retq
| _ZL13stbi__pic_is4P13stbi__contextPKc:
push r15
push r14
push rbx
mov rbx, rsi
mov r14, rdi
mov rax, [rdi+0C0h]
xor r15d, r15d
loc_29D0B:
cmp rax, [r14+0C8h]
jb short loc_29D2A
cmp dword ptr [r14+30h], 0
jz short loc_29D4B
mov rdi, r14
call _ZL19stbi__refill_bufferP13stbi__context; stbi__refill_buffer(stbi__context *)
mov rax, [r14+0C0h]
loc_29D2A:
lea rdx, [rax+1]
mov [r14+0C0h], rdx
mov cl, [rax]
mov rax, rdx
loc_29D3A:
cmp cl, [rbx+r15]
jnz short loc_29D4F
inc r15
cmp r15, 4
jnz short loc_29D0B
jmp short loc_29D53
loc_29D4B:
xor ecx, ecx
jmp short loc_29D3A
loc_29D4F:
xor eax, eax
jmp short loc_29D58
loc_29D53:
mov eax, 1
loc_29D58:
pop rbx
pop r14
pop r15
retn
| long long stbi__pic_is4(long long a1, long long a2)
{
char *v2; // rax
long long v3; // r15
char v4; // cl
v2 = *(char **)(a1 + 192);
v3 = 0LL;
while ( 1 )
{
if ( (unsigned long long)v2 < *(_QWORD *)(a1 + 200) )
goto LABEL_5;
if ( *(_DWORD *)(a1 + 48) )
{
stbi__refill_buffer(a1);
v2 = *(char **)(a1 + 192);
LABEL_5:
*(_QWORD *)(a1 + 192) = v2 + 1;
v4 = *v2++;
goto LABEL_6;
}
v4 = 0;
LABEL_6:
if ( v4 != *(_BYTE *)(a2 + v3) )
return 0LL;
if ( ++v3 == 4 )
return 1LL;
}
}
| |||
34,429 | my_strnncoll_latin1_de | eloqsql/strings/ctype-latin1.c | static int my_strnncoll_latin1_de(CHARSET_INFO *cs __attribute__((unused)),
const uchar *a, size_t a_length,
const uchar *b, size_t b_length,
my_bool b_is_prefix)
{
const uchar *a_end= a + a_length;
const uchar *b_end= b + b_length;
uchar a_char, a_extend= 0, b_char, b_extend= 0;
while ((a < a_end || a_extend) && (b < b_end || b_extend))
{
if (a_extend)
{
a_char=a_extend; a_extend=0;
}
else
{
a_extend=combo2map[*a];
a_char=combo1map[*a++];
}
if (b_extend)
{
b_char=b_extend; b_extend=0;
}
else
{
b_extend=combo2map[*b];
b_char=combo1map[*b++];
}
if (a_char != b_char)
return (int) a_char - (int) b_char;
}
/*
A simple test of string lengths won't work -- we test to see
which string ran out first
*/
return ((a < a_end || a_extend) ? (b_is_prefix ? 0 : 1) :
(b < b_end || b_extend) ? -1 : 0);
} | O0 | c | my_strnncoll_latin1_de:
pushq %rbp
movq %rsp, %rbp
movb %r9b, %al
movq %rdi, -0x10(%rbp)
movq %rsi, -0x18(%rbp)
movq %rdx, -0x20(%rbp)
movq %rcx, -0x28(%rbp)
movq %r8, -0x30(%rbp)
movb %al, -0x31(%rbp)
movq -0x18(%rbp), %rax
addq -0x20(%rbp), %rax
movq %rax, -0x40(%rbp)
movq -0x28(%rbp), %rax
addq -0x30(%rbp), %rax
movq %rax, -0x48(%rbp)
movb $0x0, -0x4a(%rbp)
movb $0x0, -0x4c(%rbp)
movq -0x18(%rbp), %rax
cmpq -0x40(%rbp), %rax
jb 0x4e856
movzbl -0x4a(%rbp), %ecx
xorl %eax, %eax
cmpl $0x0, %ecx
movb %al, -0x4d(%rbp)
je 0x4e878
movq -0x28(%rbp), %rcx
movb $0x1, %al
cmpq -0x48(%rbp), %rcx
movb %al, -0x4e(%rbp)
jb 0x4e872
movzbl -0x4c(%rbp), %eax
cmpl $0x0, %eax
setne %al
movb %al, -0x4e(%rbp)
movb -0x4e(%rbp), %al
movb %al, -0x4d(%rbp)
movb -0x4d(%rbp), %al
testb $0x1, %al
jne 0x4e884
jmp 0x4e936
cmpb $0x0, -0x4a(%rbp)
je 0x4e896
movb -0x4a(%rbp), %al
movb %al, -0x49(%rbp)
movb $0x0, -0x4a(%rbp)
jmp 0x4e8cd
movq -0x18(%rbp), %rax
movzbl (%rax), %eax
movl %eax, %ecx
leaq 0x165bfa(%rip), %rax # 0x1b44a0
movb (%rax,%rcx), %al
movb %al, -0x4a(%rbp)
movq -0x18(%rbp), %rax
movq %rax, %rcx
addq $0x1, %rcx
movq %rcx, -0x18(%rbp)
movzbl (%rax), %eax
movl %eax, %ecx
leaq 0x165ad9(%rip), %rax # 0x1b43a0
movb (%rax,%rcx), %al
movb %al, -0x49(%rbp)
cmpb $0x0, -0x4c(%rbp)
je 0x4e8df
movb -0x4c(%rbp), %al
movb %al, -0x4b(%rbp)
movb $0x0, -0x4c(%rbp)
jmp 0x4e916
movq -0x28(%rbp), %rax
movzbl (%rax), %eax
movl %eax, %ecx
leaq 0x165bb1(%rip), %rax # 0x1b44a0
movb (%rax,%rcx), %al
movb %al, -0x4c(%rbp)
movq -0x28(%rbp), %rax
movq %rax, %rcx
addq $0x1, %rcx
movq %rcx, -0x28(%rbp)
movzbl (%rax), %eax
movl %eax, %ecx
leaq 0x165a90(%rip), %rax # 0x1b43a0
movb (%rax,%rcx), %al
movb %al, -0x4b(%rbp)
movzbl -0x49(%rbp), %eax
movzbl -0x4b(%rbp), %ecx
cmpl %ecx, %eax
je 0x4e931
movzbl -0x49(%rbp), %eax
movzbl -0x4b(%rbp), %ecx
subl %ecx, %eax
movl %eax, -0x4(%rbp)
jmp 0x4e994
jmp 0x4e83e
movq -0x18(%rbp), %rax
cmpq -0x40(%rbp), %rax
jb 0x4e949
movzbl -0x4a(%rbp), %eax
cmpl $0x0, %eax
je 0x4e95f
movsbl -0x31(%rbp), %edx
movl $0x1, %eax
xorl %ecx, %ecx
cmpl $0x0, %edx
cmovnel %ecx, %eax
movl %eax, -0x54(%rbp)
jmp 0x4e98e
movq -0x28(%rbp), %rcx
movb $0x1, %al
cmpq -0x48(%rbp), %rcx
movb %al, -0x55(%rbp)
jb 0x4e97b
movzbl -0x4c(%rbp), %eax
cmpl $0x0, %eax
setne %al
movb %al, -0x55(%rbp)
movb -0x55(%rbp), %dl
xorl %eax, %eax
movl $0xffffffff, %ecx # imm = 0xFFFFFFFF
testb $0x1, %dl
cmovnel %ecx, %eax
movl %eax, -0x54(%rbp)
movl -0x54(%rbp), %eax
movl %eax, -0x4(%rbp)
movl -0x4(%rbp), %eax
popq %rbp
retq
nopl (%rax)
| my_strnncoll_latin1_de:
push rbp
mov rbp, rsp
mov al, r9b
mov [rbp+var_10], rdi
mov [rbp+var_18], rsi
mov [rbp+var_20], rdx
mov [rbp+var_28], rcx
mov [rbp+var_30], r8
mov [rbp+var_31], al
mov rax, [rbp+var_18]
add rax, [rbp+var_20]
mov [rbp+var_40], rax
mov rax, [rbp+var_28]
add rax, [rbp+var_30]
mov [rbp+var_48], rax
mov [rbp+var_4A], 0
mov [rbp+var_4C], 0
loc_4E83E:
mov rax, [rbp+var_18]
cmp rax, [rbp+var_40]
jb short loc_4E856
movzx ecx, [rbp+var_4A]
xor eax, eax
cmp ecx, 0
mov [rbp+var_4D], al
jz short loc_4E878
loc_4E856:
mov rcx, [rbp+var_28]
mov al, 1
cmp rcx, [rbp+var_48]
mov [rbp+var_4E], al
jb short loc_4E872
movzx eax, [rbp+var_4C]
cmp eax, 0
setnz al
mov [rbp+var_4E], al
loc_4E872:
mov al, [rbp+var_4E]
mov [rbp+var_4D], al
loc_4E878:
mov al, [rbp+var_4D]
test al, 1
jnz short loc_4E884
jmp loc_4E936
loc_4E884:
cmp [rbp+var_4A], 0
jz short loc_4E896
mov al, [rbp+var_4A]
mov [rbp+var_49], al
mov [rbp+var_4A], 0
jmp short loc_4E8CD
loc_4E896:
mov rax, [rbp+var_18]
movzx eax, byte ptr [rax]
mov ecx, eax
lea rax, combo2map
mov al, [rax+rcx]
mov [rbp+var_4A], al
mov rax, [rbp+var_18]
mov rcx, rax
add rcx, 1
mov [rbp+var_18], rcx
movzx eax, byte ptr [rax]
mov ecx, eax
lea rax, combo1map
mov al, [rax+rcx]
mov [rbp+var_49], al
loc_4E8CD:
cmp [rbp+var_4C], 0
jz short loc_4E8DF
mov al, [rbp+var_4C]
mov [rbp+var_4B], al
mov [rbp+var_4C], 0
jmp short loc_4E916
loc_4E8DF:
mov rax, [rbp+var_28]
movzx eax, byte ptr [rax]
mov ecx, eax
lea rax, combo2map
mov al, [rax+rcx]
mov [rbp+var_4C], al
mov rax, [rbp+var_28]
mov rcx, rax
add rcx, 1
mov [rbp+var_28], rcx
movzx eax, byte ptr [rax]
mov ecx, eax
lea rax, combo1map
mov al, [rax+rcx]
mov [rbp+var_4B], al
loc_4E916:
movzx eax, [rbp+var_49]
movzx ecx, [rbp+var_4B]
cmp eax, ecx
jz short loc_4E931
movzx eax, [rbp+var_49]
movzx ecx, [rbp+var_4B]
sub eax, ecx
mov [rbp+var_4], eax
jmp short loc_4E994
loc_4E931:
jmp loc_4E83E
loc_4E936:
mov rax, [rbp+var_18]
cmp rax, [rbp+var_40]
jb short loc_4E949
movzx eax, [rbp+var_4A]
cmp eax, 0
jz short loc_4E95F
loc_4E949:
movsx edx, [rbp+var_31]
mov eax, 1
xor ecx, ecx
cmp edx, 0
cmovnz eax, ecx
mov [rbp+var_54], eax
jmp short loc_4E98E
loc_4E95F:
mov rcx, [rbp+var_28]
mov al, 1
cmp rcx, [rbp+var_48]
mov [rbp+var_55], al
jb short loc_4E97B
movzx eax, [rbp+var_4C]
cmp eax, 0
setnz al
mov [rbp+var_55], al
loc_4E97B:
mov dl, [rbp+var_55]
xor eax, eax
mov ecx, 0FFFFFFFFh
test dl, 1
cmovnz eax, ecx
mov [rbp+var_54], eax
loc_4E98E:
mov eax, [rbp+var_54]
mov [rbp+var_4], eax
loc_4E994:
mov eax, [rbp+var_4]
pop rbp
retn
| long long my_strnncoll_latin1_de(
long long a1,
unsigned __int8 *a2,
long long a3,
unsigned __int8 *a4,
long long a5,
char a6)
{
unsigned __int8 *v6; // rax
unsigned __int8 *v7; // rax
unsigned int v8; // eax
bool v10; // [rsp+1h] [rbp-55h]
bool v12; // [rsp+8h] [rbp-4Eh]
bool v13; // [rsp+9h] [rbp-4Dh]
unsigned __int8 v14; // [rsp+Ah] [rbp-4Ch]
unsigned __int8 v15; // [rsp+Bh] [rbp-4Bh]
unsigned __int8 v16; // [rsp+Ch] [rbp-4Ah]
unsigned __int8 v17; // [rsp+Dh] [rbp-49h]
unsigned long long v18; // [rsp+Eh] [rbp-48h]
unsigned long long v19; // [rsp+16h] [rbp-40h]
unsigned __int8 *v20; // [rsp+2Eh] [rbp-28h]
unsigned __int8 *v21; // [rsp+3Eh] [rbp-18h]
v21 = a2;
v20 = a4;
v19 = (unsigned long long)&a2[a3];
v18 = (unsigned long long)&a4[a5];
v16 = 0;
v14 = 0;
while ( 1 )
{
if ( (unsigned long long)v21 < v19 || (v13 = 0, v16) )
{
v12 = 1;
if ( (unsigned long long)v20 >= v18 )
v12 = v14 != 0;
v13 = v12;
}
if ( !v13 )
break;
if ( v16 )
{
v17 = v16;
v16 = 0;
}
else
{
v16 = combo2map[*v21];
v6 = v21++;
v17 = combo1map[*v6];
}
if ( v14 )
{
v15 = v14;
v14 = 0;
}
else
{
v14 = combo2map[*v20];
v7 = v20++;
v15 = combo1map[*v7];
}
if ( v17 != v15 )
return (unsigned int)(v17 - v15);
}
if ( (unsigned long long)v21 < v19 || v16 )
{
return a6 == 0;
}
else
{
v10 = 1;
if ( (unsigned long long)v20 >= v18 )
v10 = v14 != 0;
v8 = 0;
if ( v10 )
v8 = -1;
return v8;
}
}
| my_strnncoll_latin1_de:
PUSH RBP
MOV RBP,RSP
MOV AL,R9B
MOV qword ptr [RBP + -0x10],RDI
MOV qword ptr [RBP + -0x18],RSI
MOV qword ptr [RBP + -0x20],RDX
MOV qword ptr [RBP + -0x28],RCX
MOV qword ptr [RBP + -0x30],R8
MOV byte ptr [RBP + -0x31],AL
MOV RAX,qword ptr [RBP + -0x18]
ADD RAX,qword ptr [RBP + -0x20]
MOV qword ptr [RBP + -0x40],RAX
MOV RAX,qword ptr [RBP + -0x28]
ADD RAX,qword ptr [RBP + -0x30]
MOV qword ptr [RBP + -0x48],RAX
MOV byte ptr [RBP + -0x4a],0x0
MOV byte ptr [RBP + -0x4c],0x0
LAB_0014e83e:
MOV RAX,qword ptr [RBP + -0x18]
CMP RAX,qword ptr [RBP + -0x40]
JC 0x0014e856
MOVZX ECX,byte ptr [RBP + -0x4a]
XOR EAX,EAX
CMP ECX,0x0
MOV byte ptr [RBP + -0x4d],AL
JZ 0x0014e878
LAB_0014e856:
MOV RCX,qword ptr [RBP + -0x28]
MOV AL,0x1
CMP RCX,qword ptr [RBP + -0x48]
MOV byte ptr [RBP + -0x4e],AL
JC 0x0014e872
MOVZX EAX,byte ptr [RBP + -0x4c]
CMP EAX,0x0
SETNZ AL
MOV byte ptr [RBP + -0x4e],AL
LAB_0014e872:
MOV AL,byte ptr [RBP + -0x4e]
MOV byte ptr [RBP + -0x4d],AL
LAB_0014e878:
MOV AL,byte ptr [RBP + -0x4d]
TEST AL,0x1
JNZ 0x0014e884
JMP 0x0014e936
LAB_0014e884:
CMP byte ptr [RBP + -0x4a],0x0
JZ 0x0014e896
MOV AL,byte ptr [RBP + -0x4a]
MOV byte ptr [RBP + -0x49],AL
MOV byte ptr [RBP + -0x4a],0x0
JMP 0x0014e8cd
LAB_0014e896:
MOV RAX,qword ptr [RBP + -0x18]
MOVZX EAX,byte ptr [RAX]
MOV ECX,EAX
LEA RAX,[0x2b44a0]
MOV AL,byte ptr [RAX + RCX*0x1]
MOV byte ptr [RBP + -0x4a],AL
MOV RAX,qword ptr [RBP + -0x18]
MOV RCX,RAX
ADD RCX,0x1
MOV qword ptr [RBP + -0x18],RCX
MOVZX EAX,byte ptr [RAX]
MOV ECX,EAX
LEA RAX,[0x2b43a0]
MOV AL,byte ptr [RAX + RCX*0x1]
MOV byte ptr [RBP + -0x49],AL
LAB_0014e8cd:
CMP byte ptr [RBP + -0x4c],0x0
JZ 0x0014e8df
MOV AL,byte ptr [RBP + -0x4c]
MOV byte ptr [RBP + -0x4b],AL
MOV byte ptr [RBP + -0x4c],0x0
JMP 0x0014e916
LAB_0014e8df:
MOV RAX,qword ptr [RBP + -0x28]
MOVZX EAX,byte ptr [RAX]
MOV ECX,EAX
LEA RAX,[0x2b44a0]
MOV AL,byte ptr [RAX + RCX*0x1]
MOV byte ptr [RBP + -0x4c],AL
MOV RAX,qword ptr [RBP + -0x28]
MOV RCX,RAX
ADD RCX,0x1
MOV qword ptr [RBP + -0x28],RCX
MOVZX EAX,byte ptr [RAX]
MOV ECX,EAX
LEA RAX,[0x2b43a0]
MOV AL,byte ptr [RAX + RCX*0x1]
MOV byte ptr [RBP + -0x4b],AL
LAB_0014e916:
MOVZX EAX,byte ptr [RBP + -0x49]
MOVZX ECX,byte ptr [RBP + -0x4b]
CMP EAX,ECX
JZ 0x0014e931
MOVZX EAX,byte ptr [RBP + -0x49]
MOVZX ECX,byte ptr [RBP + -0x4b]
SUB EAX,ECX
MOV dword ptr [RBP + -0x4],EAX
JMP 0x0014e994
LAB_0014e931:
JMP 0x0014e83e
LAB_0014e936:
MOV RAX,qword ptr [RBP + -0x18]
CMP RAX,qword ptr [RBP + -0x40]
JC 0x0014e949
MOVZX EAX,byte ptr [RBP + -0x4a]
CMP EAX,0x0
JZ 0x0014e95f
LAB_0014e949:
MOVSX EDX,byte ptr [RBP + -0x31]
MOV EAX,0x1
XOR ECX,ECX
CMP EDX,0x0
CMOVNZ EAX,ECX
MOV dword ptr [RBP + -0x54],EAX
JMP 0x0014e98e
LAB_0014e95f:
MOV RCX,qword ptr [RBP + -0x28]
MOV AL,0x1
CMP RCX,qword ptr [RBP + -0x48]
MOV byte ptr [RBP + -0x55],AL
JC 0x0014e97b
MOVZX EAX,byte ptr [RBP + -0x4c]
CMP EAX,0x0
SETNZ AL
MOV byte ptr [RBP + -0x55],AL
LAB_0014e97b:
MOV DL,byte ptr [RBP + -0x55]
XOR EAX,EAX
MOV ECX,0xffffffff
TEST DL,0x1
CMOVNZ EAX,ECX
MOV dword ptr [RBP + -0x54],EAX
LAB_0014e98e:
MOV EAX,dword ptr [RBP + -0x54]
MOV dword ptr [RBP + -0x4],EAX
LAB_0014e994:
MOV EAX,dword ptr [RBP + -0x4]
POP RBP
RET
|
uint my_strnncoll_latin1_de
(int8 param_1,byte *param_2,long param_3,byte *param_4,long param_5,
char param_6)
{
uint local_5c;
bool local_56;
byte local_54;
byte local_53;
byte local_52;
byte local_51;
byte *local_30;
byte *local_20;
local_52 = 0;
local_54 = 0;
local_30 = param_4;
local_20 = param_2;
do {
if ((local_20 < param_2 + param_3) || (local_56 = false, local_52 != 0)) {
local_56 = local_30 < param_4 + param_5 || local_54 != 0;
}
if (!local_56) {
if ((local_20 < param_2 + param_3) || (local_52 != 0)) {
local_5c = (uint)(param_6 == '\0');
}
else {
local_5c = 0;
if (local_30 < param_4 + param_5 || local_54 != 0) {
local_5c = 0xffffffff;
}
}
return local_5c;
}
if (local_52 == 0) {
local_52 = combo2map[*local_20];
local_51 = combo1map[*local_20];
local_20 = local_20 + 1;
}
else {
local_51 = local_52;
local_52 = 0;
}
if (local_54 == 0) {
local_54 = combo2map[*local_30];
local_53 = combo1map[*local_30];
local_30 = local_30 + 1;
}
else {
local_53 = local_54;
local_54 = 0;
}
} while (local_51 == local_53);
return (uint)local_51 - (uint)local_53;
}
| |
34,430 | mi_ft_parse | eloqsql/storage/myisam/ft_update.c | uint _mi_ft_parse(TREE *parsed, MI_INFO *info, uint keynr, const uchar *record,
MYSQL_FTPARSER_PARAM *param, MEM_ROOT *mem_root)
{
FT_SEG_ITERATOR ftsi;
struct st_mysql_ftparser *parser;
DBUG_ENTER("_mi_ft_parse");
_mi_ft_segiterator_init(info, keynr, record, &ftsi);
ft_parse_init(parsed, info->s->keyinfo[keynr].seg->charset);
parser= info->s->keyinfo[keynr].parser;
while (_mi_ft_segiterator(&ftsi))
{
if (ftsi.pos)
if (ft_parse(parsed, (uchar *)ftsi.pos, ftsi.len, parser, param, mem_root))
DBUG_RETURN(1);
}
DBUG_RETURN(0);
} | O3 | c | mi_ft_parse:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x28, %rsp
movq %r9, %rbx
movq %r8, %r14
movq %rsi, -0x30(%rbp)
movq %rdi, %r15
movq (%rsi), %rax
movq 0x218(%rax), %rax
movl %edx, %edx
imulq $0x70, %rdx, %r13
movzwl 0x8(%rax,%r13), %edx
leaq -0x50(%rbp), %r12
movl %edx, (%r12)
movq 0x28(%rax,%r13), %rax
movq %rax, 0x8(%r12)
movq %rcx, 0x10(%r12)
movq $0x0, 0x18(%r12)
movl $0x0, 0x4(%r12)
movq (%rax), %rsi
callq 0x4875e
movq -0x30(%rbp), %rax
movq (%rax), %rax
movq 0x218(%rax), %rax
movq 0x38(%rax,%r13), %r13
movq %r12, %rdi
callq 0x48e4a
xorl %ecx, %ecx
testl %eax, %eax
je 0x48fbe
movq -0x38(%rbp), %rsi
testq %rsi, %rsi
je 0x48fa9
movl -0x4c(%rbp), %edx
movq %r15, %rdi
movq %r13, %rcx
movq %r14, %r8
movq %rbx, %r9
callq 0x487ae
testl %eax, %eax
jne 0x48fb9
movq %r12, %rdi
callq 0x48e4a
testl %eax, %eax
jne 0x48f88
xorl %ecx, %ecx
jmp 0x48fbe
movl $0x1, %ecx
movl %ecx, %eax
addq $0x28, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| _mi_ft_parse:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 28h
mov rbx, r9
mov r14, r8
mov [rbp+var_30], rsi
mov r15, rdi
mov rax, [rsi]
mov rax, [rax+218h]
mov edx, edx
imul r13, rdx, 70h ; 'p'
movzx edx, word ptr [rax+r13+8]
lea r12, [rbp+var_50]
mov [r12], edx
mov rax, [rax+r13+28h]
mov [r12+8], rax
mov [r12+10h], rcx
mov qword ptr [r12+18h], 0
mov dword ptr [r12+4], 0
mov rsi, [rax]
call ft_parse_init
mov rax, [rbp+var_30]
mov rax, [rax]
mov rax, [rax+218h]
mov r13, [rax+r13+38h]
mov rdi, r12
call _mi_ft_segiterator
xor ecx, ecx
test eax, eax
jz short loc_48FBE
loc_48F88:
mov rsi, [rbp+var_38]
test rsi, rsi
jz short loc_48FA9
mov edx, [rbp+var_4C]
mov rdi, r15
mov rcx, r13
mov r8, r14
mov r9, rbx
call ft_parse
test eax, eax
jnz short loc_48FB9
loc_48FA9:
mov rdi, r12
call _mi_ft_segiterator
test eax, eax
jnz short loc_48F88
xor ecx, ecx
jmp short loc_48FBE
loc_48FB9:
mov ecx, 1
loc_48FBE:
mov eax, ecx
add rsp, 28h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| long long mi_ft_parse(_QWORD *a1, long long a2, unsigned int a3, long long a4, long long a5, long long a6)
{
long long v8; // rax
long long v9; // r13
long long v10; // r13
int v11; // eax
unsigned int v12; // ecx
int v14; // [rsp+0h] [rbp-50h] BYREF
int v15; // [rsp+4h] [rbp-4Ch]
long long *v16; // [rsp+8h] [rbp-48h]
long long v17; // [rsp+10h] [rbp-40h]
long long v18; // [rsp+18h] [rbp-38h]
long long v19; // [rsp+20h] [rbp-30h]
v19 = a2;
v8 = *(_QWORD *)(*(_QWORD *)a2 + 536LL);
v9 = 112LL * a3;
v14 = *(unsigned __int16 *)(v8 + v9 + 8);
v16 = *(long long **)(v8 + v9 + 40);
v17 = a4;
v18 = 0LL;
v15 = 0;
ft_parse_init(a1, *v16);
v10 = *(_QWORD *)(*(_QWORD *)(*(_QWORD *)a2 + 536LL) + v9 + 56);
v11 = mi_ft_segiterator((long long)&v14);
v12 = 0;
if ( v11 )
{
while ( !v18 || !(unsigned int)ft_parse((long long)a1, v18, v15, v10, a5, a6) )
{
if ( !(unsigned int)mi_ft_segiterator((long long)&v14) )
return 0;
}
return 1;
}
return v12;
}
| _mi_ft_parse:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x28
MOV RBX,R9
MOV R14,R8
MOV qword ptr [RBP + -0x30],RSI
MOV R15,RDI
MOV RAX,qword ptr [RSI]
MOV RAX,qword ptr [RAX + 0x218]
MOV EDX,EDX
IMUL R13,RDX,0x70
MOVZX EDX,word ptr [RAX + R13*0x1 + 0x8]
LEA R12,[RBP + -0x50]
MOV dword ptr [R12],EDX
MOV RAX,qword ptr [RAX + R13*0x1 + 0x28]
MOV qword ptr [R12 + 0x8],RAX
MOV qword ptr [R12 + 0x10],RCX
MOV qword ptr [R12 + 0x18],0x0
MOV dword ptr [R12 + 0x4],0x0
MOV RSI,qword ptr [RAX]
CALL 0x0014875e
MOV RAX,qword ptr [RBP + -0x30]
MOV RAX,qword ptr [RAX]
MOV RAX,qword ptr [RAX + 0x218]
MOV R13,qword ptr [RAX + R13*0x1 + 0x38]
MOV RDI,R12
CALL 0x00148e4a
XOR ECX,ECX
TEST EAX,EAX
JZ 0x00148fbe
LAB_00148f88:
MOV RSI,qword ptr [RBP + -0x38]
TEST RSI,RSI
JZ 0x00148fa9
MOV EDX,dword ptr [RBP + -0x4c]
MOV RDI,R15
MOV RCX,R13
MOV R8,R14
MOV R9,RBX
CALL 0x001487ae
TEST EAX,EAX
JNZ 0x00148fb9
LAB_00148fa9:
MOV RDI,R12
CALL 0x00148e4a
TEST EAX,EAX
JNZ 0x00148f88
XOR ECX,ECX
JMP 0x00148fbe
LAB_00148fb9:
MOV ECX,0x1
LAB_00148fbe:
MOV EAX,ECX
ADD RSP,0x28
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
int8
_mi_ft_parse(int8 param_1,long *param_2,uint param_3,int8 param_4,int8 param_5,
int8 param_6)
{
int8 uVar1;
int iVar2;
long lVar3;
uint local_58;
int4 local_54;
int8 *local_50;
int8 local_48;
long local_40;
long *local_38;
lVar3 = (ulong)param_3 * 0x70;
local_58 = (uint)*(ushort *)(*(long *)(*param_2 + 0x218) + 8 + lVar3);
local_50 = *(int8 **)(*(long *)(*param_2 + 0x218) + 0x28 + lVar3);
local_40 = 0;
local_54 = 0;
local_48 = param_4;
local_38 = param_2;
ft_parse_init(param_1,*local_50);
uVar1 = *(int8 *)(*(long *)(*local_38 + 0x218) + 0x38 + lVar3);
iVar2 = _mi_ft_segiterator(&local_58);
while( true ) {
if (iVar2 == 0) {
return 0;
}
if ((local_40 != 0) &&
(iVar2 = ft_parse(param_1,local_40,local_54,uVar1,param_5,param_6), iVar2 != 0)) break;
iVar2 = _mi_ft_segiterator(&local_58);
}
return 1;
}
| |
34,431 | trnman_can_read_from | eloqsql/storage/maria/trnman.c | int trnman_can_read_from(TRN *trn, TrID trid)
{
TRN **found;
my_bool can;
if (trid < trn->min_read_from)
return 1; /* Row is visible by all transactions in the system */
if (trid >= trn->trid)
{
/*
We have now two cases
trid > trn->trid, in which case the row is from a new transaction
and not visible, in which case we should return 0.
trid == trn->trid in which case the row is from the current transaction
and we should return 1
*/
return trid == trn->trid;
}
found= lf_hash_search(&trid_to_trn, trn->pins, &trid, sizeof(trid));
if (found == NULL)
return 0; /* not in the hash of transactions = cannot read */
if (found == MY_ERRPTR)
return -1;
can= (*found)->commit_trid < trn->trid;
lf_hash_search_unpin(trn->pins);
return can;
} | O3 | c | trnman_can_read_from:
pushq %rbp
movq %rsp, %rbp
pushq %rbx
pushq %rax
movq %rsi, -0x10(%rbp)
movl $0x1, %eax
cmpq %rsi, 0x80(%rdi)
ja 0x60bd2
movq %rdi, %rbx
cmpq %rsi, 0x78(%rdi)
jbe 0x60baa
movq (%rbx), %rsi
leaq 0xb9e6be(%rip), %rdi # 0xbff248
leaq -0x10(%rbp), %rdx
movl $0x8, %ecx
callq 0x2fc3f
testq %rax, %rax
je 0x60bb2
cmpq $0x1, %rax
jne 0x60bb6
movl $0xffffffff, %eax # imm = 0xFFFFFFFF
jmp 0x60bd2
sete %al
movzbl %al, %eax
jmp 0x60bd2
xorl %eax, %eax
jmp 0x60bd2
movq (%rax), %rax
movq 0x88(%rax), %rcx
xorl %eax, %eax
cmpq 0x78(%rbx), %rcx
setb %al
movq (%rbx), %rcx
xorl %edx, %edx
xchgq %rdx, 0x10(%rcx)
addq $0x8, %rsp
popq %rbx
popq %rbp
retq
| trnman_can_read_from:
push rbp
mov rbp, rsp
push rbx
push rax
mov [rbp+var_10], rsi
mov eax, 1
cmp [rdi+80h], rsi
ja short loc_60BD2
mov rbx, rdi
cmp [rdi+78h], rsi
jbe short loc_60BAA
mov rsi, [rbx]
lea rdi, trid_to_trn
lea rdx, [rbp+var_10]
mov ecx, 8
call lf_hash_search
test rax, rax
jz short loc_60BB2
cmp rax, 1
jnz short loc_60BB6
mov eax, 0FFFFFFFFh
jmp short loc_60BD2
loc_60BAA:
setz al
movzx eax, al
jmp short loc_60BD2
loc_60BB2:
xor eax, eax
jmp short loc_60BD2
loc_60BB6:
mov rax, [rax]
mov rcx, [rax+88h]
xor eax, eax
cmp rcx, [rbx+78h]
setb al
mov rcx, [rbx]
xor edx, edx
xchg rdx, [rcx+10h]
loc_60BD2:
add rsp, 8
pop rbx
pop rbp
retn
| long long trnman_can_read_from(long long a1, unsigned long long a2)
{
long long result; // rax
long long v3; // rax
unsigned long long v4; // [rsp+0h] [rbp-10h] BYREF
v4 = a2;
result = 1LL;
if ( *(_QWORD *)(a1 + 128) <= a2 )
{
if ( *(_QWORD *)(a1 + 120) <= a2 )
{
return *(_QWORD *)(a1 + 120) == a2;
}
else
{
v3 = lf_hash_search((long long)&trid_to_trn, *(volatile long long **)a1, (long long)&v4, 8u);
if ( v3 )
{
if ( v3 == 1 )
{
return 0xFFFFFFFFLL;
}
else
{
result = *(_QWORD *)(*(_QWORD *)v3 + 136LL) < *(_QWORD *)(a1 + 120);
_InterlockedExchange64((volatile long long *)(*(_QWORD *)a1 + 16LL), 0LL);
}
}
else
{
return 0LL;
}
}
}
return result;
}
| trnman_can_read_from:
PUSH RBP
MOV RBP,RSP
PUSH RBX
PUSH RAX
MOV qword ptr [RBP + -0x10],RSI
MOV EAX,0x1
CMP qword ptr [RDI + 0x80],RSI
JA 0x00160bd2
MOV RBX,RDI
CMP qword ptr [RDI + 0x78],RSI
JBE 0x00160baa
MOV RSI,qword ptr [RBX]
LEA RDI,[0xcff248]
LEA RDX,[RBP + -0x10]
MOV ECX,0x8
CALL 0x0012fc3f
TEST RAX,RAX
JZ 0x00160bb2
CMP RAX,0x1
JNZ 0x00160bb6
MOV EAX,0xffffffff
JMP 0x00160bd2
LAB_00160baa:
SETZ AL
MOVZX EAX,AL
JMP 0x00160bd2
LAB_00160bb2:
XOR EAX,EAX
JMP 0x00160bd2
LAB_00160bb6:
MOV RAX,qword ptr [RAX]
MOV RCX,qword ptr [RAX + 0x88]
XOR EAX,EAX
CMP RCX,qword ptr [RBX + 0x78]
SETC AL
MOV RCX,qword ptr [RBX]
XOR EDX,EDX
XCHG qword ptr [RCX + 0x10],RDX
LAB_00160bd2:
ADD RSP,0x8
POP RBX
POP RBP
RET
|
ulong trnman_can_read_from(long *param_1,ulong param_2)
{
ulong uVar1;
long *plVar2;
ulong local_18;
uVar1 = 1;
if ((ulong)param_1[0x10] <= param_2) {
if (param_2 < (ulong)param_1[0xf]) {
local_18 = param_2;
plVar2 = (long *)lf_hash_search(trid_to_trn,*param_1,&local_18,8);
if (plVar2 == (long *)0x0) {
uVar1 = 0;
}
else if (plVar2 == (long *)0x1) {
uVar1 = 0xffffffff;
}
else {
uVar1 = (ulong)(*(ulong *)(*plVar2 + 0x88) < (ulong)param_1[0xf]);
LOCK();
*(int8 *)(*param_1 + 0x10) = 0;
UNLOCK();
}
}
else {
uVar1 = (ulong)(param_1[0xf] == param_2);
}
}
return uVar1;
}
| |
34,432 | my_getcputime | eloqsql/mysys/my_getsystime.c | ulonglong my_getcputime()
{
#ifdef CLOCK_THREAD_CPUTIME_ID
struct timespec tp;
if (clock_gettime(CLOCK_THREAD_CPUTIME_ID, &tp))
return 0;
return (ulonglong)tp.tv_sec*10000000+(ulonglong)tp.tv_nsec/100;
#elif defined(__NR_clock_gettime)
struct timespec tp;
if (syscall(__NR_clock_gettime, CLOCK_THREAD_CPUTIME_ID, &tp))
return 0;
return (ulonglong)tp.tv_sec*10000000+(ulonglong)tp.tv_nsec/100;
#endif /* CLOCK_THREAD_CPUTIME_ID */
return 0;
} | O3 | c | my_getcputime:
pushq %rbp
movq %rsp, %rbp
subq $0x10, %rsp
leaq -0x10(%rbp), %rsi
movl $0x3, %edi
callq 0x292d0
testl %eax, %eax
je 0x9e700
xorl %eax, %eax
jmp 0x9e727
imulq $0x989680, -0x10(%rbp), %rcx # imm = 0x989680
movq -0x8(%rbp), %rax
shrq $0x2, %rax
movabsq $0x28f5c28f5c28f5c3, %rdx # imm = 0x28F5C28F5C28F5C3
mulq %rdx
movq %rdx, %rax
shrq $0x2, %rax
addq %rcx, %rax
addq $0x10, %rsp
popq %rbp
retq
nopl (%rax)
| my_getcputime:
push rbp
mov rbp, rsp
sub rsp, 10h
lea rsi, [rbp+var_10]
mov edi, 3
call _clock_gettime
test eax, eax
jz short loc_9E700
xor eax, eax
jmp short loc_9E727
loc_9E700:
imul rcx, [rbp+var_10], 989680h
mov rax, [rbp+var_8]
shr rax, 2
mov rdx, 28F5C28F5C28F5C3h
mul rdx
mov rax, rdx
shr rax, 2
add rax, rcx
loc_9E727:
add rsp, 10h
pop rbp
retn
| unsigned long long my_getcputime()
{
long long v1; // [rsp+0h] [rbp-10h] BYREF
unsigned long long v2; // [rsp+8h] [rbp-8h]
if ( (unsigned int)clock_gettime(3LL, &v1) )
return 0LL;
else
return 10000000 * v1 + v2 / 0x64;
}
| my_getcputime:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x10
LEA RSI,[RBP + -0x10]
MOV EDI,0x3
CALL 0x001292d0
TEST EAX,EAX
JZ 0x0019e700
XOR EAX,EAX
JMP 0x0019e727
LAB_0019e700:
IMUL RCX,qword ptr [RBP + -0x10],0x989680
MOV RAX,qword ptr [RBP + -0x8]
SHR RAX,0x2
MOV RDX,0x28f5c28f5c28f5c3
MUL RDX
MOV RAX,RDX
SHR RAX,0x2
ADD RAX,RCX
LAB_0019e727:
ADD RSP,0x10
POP RBP
RET
|
long my_getcputime(void)
{
int iVar1;
long lVar2;
timespec local_18;
iVar1 = clock_gettime(3,&local_18);
if (iVar1 == 0) {
lVar2 = (ulong)local_18.tv_nsec / 100 + local_18.tv_sec * 10000000;
}
else {
lVar2 = 0;
}
return lVar2;
}
| |
34,433 | gguf_get_tensor_offset | Yangxiaoz[P]GGML-Tutorial/ggml/src/gguf.cpp | size_t gguf_get_tensor_offset(const struct gguf_context * ctx, int64_t tensor_id) {
GGML_ASSERT(tensor_id >= 0 && tensor_id < gguf_get_n_tensors(ctx));
return ctx->info[tensor_id].offset;
} | O1 | cpp | gguf_get_tensor_offset:
pushq %rax
testq %rsi, %rsi
js 0x3f6f2
movq 0x20(%rdi), %rax
movq 0x28(%rdi), %rdx
subq %rax, %rdx
sarq $0x3, %rdx
movabsq $-0x7d05f417d05f417d, %rcx # imm = 0x82FA0BE82FA0BE83
imulq %rcx, %rdx
cmpq %rsi, %rdx
jle 0x3f6f2
movq 0x28(%rdi), %rdx
subq %rax, %rdx
sarq $0x3, %rdx
imulq %rcx, %rdx
cmpq %rsi, %rdx
jbe 0x3f6ed
imulq $0x158, %rsi, %rcx # imm = 0x158
movq 0x150(%rax,%rcx), %rax
popq %rcx
retq
callq 0x19e31
leaq 0x1d8f4(%rip), %rdi # 0x5cfed
leaq 0xcec1(%rip), %rdx # 0x4c5c1
leaq 0x1de49(%rip), %rcx # 0x5d550
movl $0x382, %esi # imm = 0x382
xorl %eax, %eax
callq 0x18ce0
| gguf_get_tensor_offset:
push rax
test rsi, rsi
js short loc_3F6F2
mov rax, [rdi+20h]
mov rdx, [rdi+28h]
sub rdx, rax
sar rdx, 3
mov rcx, 82FA0BE82FA0BE83h
imul rdx, rcx
cmp rdx, rsi
jle short loc_3F6F2
mov rdx, [rdi+28h]
sub rdx, rax
sar rdx, 3
imul rdx, rcx
cmp rdx, rsi
jbe short loc_3F6ED
imul rcx, rsi, 158h
mov rax, [rax+rcx+150h]
pop rcx
retn
loc_3F6ED:
call gguf_get_tensor_offset_cold_1
loc_3F6F2:
lea rdi, aWorkspaceLlm4b_5; "/workspace/llm4binary/github/2025_star3"...
lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed"
lea rcx, aTensorId0Tenso; "tensor_id >= 0 && tensor_id < gguf_get_"...
mov esi, 382h
xor eax, eax
call _ggml_abort
| long long gguf_get_tensor_offset(long long a1, signed long long a2, long long a3, long long a4, int a5, int a6)
{
long long v6; // rax
if ( a2 < 0 || (v6 = *(_QWORD *)(a1 + 32), (long long)(0x82FA0BE82FA0BE83LL * ((*(_QWORD *)(a1 + 40) - v6) >> 3)) <= a2) )
ggml_abort(
(unsigned int)"/workspace/llm4binary/github/2025_star3/Yangxiaoz[P]GGML-Tutorial/ggml/src/gguf.cpp",
898,
(unsigned int)"GGML_ASSERT(%s) failed",
(unsigned int)"tensor_id >= 0 && tensor_id < gguf_get_n_tensors(ctx)",
a5,
a6);
if ( 0x82FA0BE82FA0BE83LL * ((*(_QWORD *)(a1 + 40) - v6) >> 3) <= a2 )
gguf_get_tensor_offset_cold_1(a1);
return *(_QWORD *)(v6 + 344 * a2 + 336);
}
| gguf_get_tensor_offset:
PUSH RAX
TEST RSI,RSI
JS 0x0013f6f2
MOV RAX,qword ptr [RDI + 0x20]
MOV RDX,qword ptr [RDI + 0x28]
SUB RDX,RAX
SAR RDX,0x3
MOV RCX,-0x7d05f417d05f417d
IMUL RDX,RCX
CMP RDX,RSI
JLE 0x0013f6f2
MOV RDX,qword ptr [RDI + 0x28]
SUB RDX,RAX
SAR RDX,0x3
IMUL RDX,RCX
CMP RDX,RSI
JBE 0x0013f6ed
IMUL RCX,RSI,0x158
MOV RAX,qword ptr [RAX + RCX*0x1 + 0x150]
POP RCX
RET
LAB_0013f6ed:
CALL 0x00119e31
LAB_0013f6f2:
LEA RDI,[0x15cfed]
LEA RDX,[0x14c5c1]
LEA RCX,[0x15d550]
MOV ESI,0x382
XOR EAX,EAX
CALL 0x00118ce0
|
int8 gguf_get_tensor_offset(long param_1,ulong param_2)
{
long lVar1;
long lVar2;
ulong uVar3;
if ((-1 < (long)param_2) &&
(lVar1 = *(long *)(param_1 + 0x20),
lVar2 = (*(long *)(param_1 + 0x28) - lVar1 >> 3) * -0x7d05f417d05f417d,
lVar2 - param_2 != 0 && (long)param_2 <= lVar2)) {
uVar3 = (*(long *)(param_1 + 0x28) - lVar1 >> 3) * -0x7d05f417d05f417d;
if (param_2 <= uVar3 && uVar3 - param_2 != 0) {
return *(int8 *)(lVar1 + 0x150 + param_2 * 0x158);
}
gguf_get_tensor_offset_cold_1();
}
/* WARNING: Subroutine does not return */
ggml_abort("/workspace/llm4binary/github/2025_star3/Yangxiaoz[P]GGML-Tutorial/ggml/src/gguf.cpp",
0x382,"GGML_ASSERT(%s) failed","tensor_id >= 0 && tensor_id < gguf_get_n_tensors(ctx)")
;
}
| |
34,434 | nlohmann::json_abi_v3_11_3::ordered_map<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>, minja::Value, std::less<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>>, std::allocator<std::pair<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void> const, minja::Value>>>::emplace(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void> const&, minja::Value&&) | monkey531[P]llama/common/json.hpp | std::pair<iterator, bool> emplace(const key_type& key, T&& t)
{
for (auto it = this->begin(); it != this->end(); ++it)
{
if (m_compare(it->first, key))
{
return {it, false};
}
}
Container::emplace_back(key, std::forward<T>(t));
return {std::prev(this->end()), true};
} | O3 | cpp | nlohmann::json_abi_v3_11_3::ordered_map<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>, minja::Value, std::less<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>>, std::allocator<std::pair<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void> const, minja::Value>>>::emplace(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void> const&, minja::Value&&):
pushq %r15
pushq %r14
pushq %r12
pushq %rbx
pushq %rax
movq %rdx, %r15
movq %rsi, %r12
movq %rdi, %r14
movq (%rdi), %rbx
cmpq 0x8(%rdi), %rbx
je 0x4facb
movq %rbx, %rdi
movq %r12, %rsi
callq 0x4ddf6
testb %al, %al
jne 0x4fae5
addq $0x60, %rbx
cmpq 0x8(%r14), %rbx
jne 0x4fab2
movq %r14, %rdi
movq %r12, %rsi
movq %r15, %rdx
callq 0x4faf6
movq 0x8(%r14), %rbx
addq $-0x60, %rbx
movb $0x1, %dl
jmp 0x4fae7
xorl %edx, %edx
movq %rbx, %rax
addq $0x8, %rsp
popq %rbx
popq %r12
popq %r14
popq %r15
retq
| _ZN8nlohmann16json_abi_v3_11_311ordered_mapINS0_10basic_jsonIS1_St6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEEN5minja5ValueESt4lessISD_ESaISt4pairIKSD_SF_EEE7emplaceERSJ_OSF_:
push r15
push r14
push r12
push rbx
push rax
mov r15, rdx
mov r12, rsi
mov r14, rdi
mov rbx, [rdi]
cmp rbx, [rdi+8]
jz short loc_4FACB
loc_4FAB2:
mov rdi, rbx
mov rsi, r12
call _ZN8nlohmann16json_abi_v3_11_3eqERKNS0_10basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEESF_; nlohmann::json_abi_v3_11_3::operator==(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> const&,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> const&)
test al, al
jnz short loc_4FAE5
add rbx, 60h ; '`'
cmp rbx, [r14+8]
jnz short loc_4FAB2
loc_4FACB:
mov rdi, r14
mov rsi, r12
mov rdx, r15
call _ZNSt6vectorISt4pairIKN8nlohmann16json_abi_v3_11_310basic_jsonINS2_11ordered_mapES_NSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS2_14adl_serializerES_IhSaIhEEvEEN5minja5ValueEESaISI_EE12emplace_backIJRSF_SH_EEERSI_DpOT_; std::vector<std::pair<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> const,minja::Value>>::emplace_back<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> const&,minja::Value>(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> const&,minja::Value &&)
mov rbx, [r14+8]
add rbx, 0FFFFFFFFFFFFFFA0h
mov dl, 1
jmp short loc_4FAE7
loc_4FAE5:
xor edx, edx
loc_4FAE7:
mov rax, rbx
add rsp, 8
pop rbx
pop r12
pop r14
pop r15
retn
| long long nlohmann::json_abi_v3_11_3::ordered_map<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>,minja::Value,std::less<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>>,std::allocator<std::pair<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> const,minja::Value>>>::emplace(
long long a1,
unsigned __int8 *a2,
long long a3,
__m128d a4)
{
unsigned __int8 *v5; // rbx
v5 = *(unsigned __int8 **)a1;
if ( *(_QWORD *)a1 == *(_QWORD *)(a1 + 8) )
{
LABEL_4:
std::vector<std::pair<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> const,minja::Value>>::emplace_back<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> const&,minja::Value>(
a1,
a2,
a3);
return *(_QWORD *)(a1 + 8) - 96LL;
}
else
{
while ( !(unsigned __int8)nlohmann::json_abi_v3_11_3::operator==(v5, a2, a4) )
{
v5 += 96;
if ( v5 == *(unsigned __int8 **)(a1 + 8) )
goto LABEL_4;
}
}
return (long long)v5;
}
| emplace:
PUSH R15
PUSH R14
PUSH R12
PUSH RBX
PUSH RAX
MOV R15,RDX
MOV R12,RSI
MOV R14,RDI
MOV RBX,qword ptr [RDI]
CMP RBX,qword ptr [RDI + 0x8]
JZ 0x0014facb
LAB_0014fab2:
MOV RDI,RBX
MOV RSI,R12
CALL 0x0014ddf6
TEST AL,AL
JNZ 0x0014fae5
ADD RBX,0x60
CMP RBX,qword ptr [R14 + 0x8]
JNZ 0x0014fab2
LAB_0014facb:
MOV RDI,R14
MOV RSI,R12
MOV RDX,R15
CALL 0x0014faf6
MOV RBX,qword ptr [R14 + 0x8]
ADD RBX,-0x60
MOV DL,0x1
JMP 0x0014fae7
LAB_0014fae5:
XOR EDX,EDX
LAB_0014fae7:
MOV RAX,RBX
ADD RSP,0x8
POP RBX
POP R12
POP R14
POP R15
RET
|
/* nlohmann::json_abi_v3_11_3::ordered_map<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,
std::vector, std::__cxx11::string, bool, long, unsigned long, double, std::allocator,
nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned
char> >, void>, minja::Value,
std::less<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,
std::vector, std::__cxx11::string, bool, long, unsigned long, double, std::allocator,
nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned
char> >, void> >,
std::allocator<std::pair<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,
std::vector, std::__cxx11::string, bool, long, unsigned long, double, std::allocator,
nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned
char> >, void> const, minja::Value> >
>::emplace(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,
std::vector, std::__cxx11::string, bool, long, unsigned long, double, std::allocator,
nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned
char> >, void> const&, minja::Value&&) */
int1 [16] __thiscall
nlohmann::json_abi_v3_11_3::
ordered_map<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>,minja::Value,std::less<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>>,std::allocator<std::pair<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>const,minja::Value>>>
::emplace(ordered_map<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>,minja::Value,std::less<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>>,std::allocator<std::pair<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>const,minja::Value>>>
*this,basic_json *param_1,Value *param_2)
{
char cVar1;
int8 extraout_RDX;
int8 uVar2;
basic_json *pbVar3;
int1 auVar4 [16];
pbVar3 = *(basic_json **)this;
if (pbVar3 != *(basic_json **)(this + 8)) {
do {
cVar1 = operator==(pbVar3,param_1);
if (cVar1 != '\0') {
uVar2 = 0;
goto LAB_0014fae7;
}
pbVar3 = pbVar3 + 0x60;
} while (pbVar3 != *(basic_json **)(this + 8));
}
std::
vector<std::pair<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>const,minja::Value>,std::allocator<std::pair<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>const,minja::Value>>>
::
emplace_back<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>const&,minja::Value>
((vector<std::pair<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>const,minja::Value>,std::allocator<std::pair<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>const,minja::Value>>>
*)this,param_1,param_2);
pbVar3 = (basic_json *)(*(long *)(this + 8) + -0x60);
uVar2 = CONCAT71((int7)((ulong)extraout_RDX >> 8),1);
LAB_0014fae7:
auVar4._8_8_ = uVar2;
auVar4._0_8_ = pbVar3;
return auVar4;
}
| |
34,435 | my_strnxfrm_czech | eloqsql/strings/ctype-czech.c | static size_t
my_strnxfrm_czech(CHARSET_INFO *cs __attribute__((unused)),
uchar *dest, size_t len,
uint nweights_arg __attribute__((unused)),
const uchar *src, size_t srclen, uint flags)
{
int value;
const uchar *p, * store;
int pass = 0;
size_t totlen = 0;
p = src; store = src;
if (!(flags & 0x0F)) /* All levels by default */
flags|= 0x0F;
do
{
int add= (1 << pass) & flags; /* If this level is needed */
NEXT_CMP_VALUE(src, p, store, pass, value, (int)srclen);
if (add)
ADD_TO_RESULT(dest, len, totlen, value);
}
while (value);
if ((flags & MY_STRXFRM_PAD_TO_MAXLEN) && len > totlen)
{
memset(dest + totlen, ' ', len - totlen);
totlen= len;
}
return totlen;
} | O3 | c | my_strnxfrm_czech:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x38, %rsp
movq %r8, %r15
movq %rdx, %rbx
movq %rsi, -0x48(%rbp)
movl 0x10(%rbp), %eax
movl %eax, %r11d
orl $0xf, %r11d
testb $0xf, %al
cmovnel %eax, %r11d
movslq %r9d, %rdx
movl $0x1, %eax
subq %r8, %rax
movq %rax, -0x50(%rbp)
xorl %ecx, %ecx
leaq 0x2b66c0(%rip), %r13 # 0x2eb610
movq %r8, %r14
xorl %r12d, %r12d
movq %rbx, -0x38(%rbp)
movl %r11d, -0x2c(%rbp)
movl $0x1, %esi
shll %cl, %esi
movq %r8, %rax
subq %r15, %rax
cmpq %rdx, %rax
jge 0x34fef
movslq %ecx, %rax
movq %rax, -0x58(%rbp)
movq (%r13,%rax,8), %r9
movzbl (%r8), %eax
movzbl (%r9,%rax), %eax
testl %eax, %eax
je 0x34fbe
cmpl $0x2, %eax
jne 0x35023
incq %r8
movq %r8, %rax
subq %r15, %rax
movq %r8, %r10
cmpq %rdx, %rax
jge 0x34fcc
movzbl (%r10), %edi
cmpb $0x2, (%r9,%rdi)
jne 0x34fcc
incq %r10
incq %rax
movq %r10, %rdi
cmpq %rdx, %rax
jl 0x34fa3
jmp 0x34fcf
incq %r8
movq %r8, %rax
subq %r15, %rax
movq %r8, %r10
jmp 0x34fe8
movq %r8, %rdi
cmpl $0x3, %ecx
cmovgeq %rdi, %r10
movq %r10, %rax
subq %r15, %rax
cmpq %rdx, %rax
jl 0x350a4
movq %r10, %r8
cmpq %rdx, %rax
jl 0x34f7c
jmp 0x34ff2
movq %r8, %r10
cmpl $0x3, %ecx
jne 0x3500a
xorl %r9d, %r9d
movl $0x3, %ecx
movq %r14, %rax
movq %r10, %r8
jmp 0x350fc
testl %ecx, %ecx
movq %r15, %r8
cmoveq %r14, %r8
incl %ecx
movl $0x1, %r9d
movq %r14, %rax
jmp 0x350fc
cmpl $0xff, %eax
jne 0x350f2
movq %r12, -0x40(%rbp)
movq %r8, %r9
subq %r15, %r9
movq -0x50(%rbp), %rax
addq %r8, %rax
movq %rax, -0x60(%rbp)
xorl %ebx, %ebx
movq %rbx, %r11
shlq $0x4, %r11
leaq 0x2b65dd(%rip), %rax # 0x2eb630
movq (%r11,%rax), %r13
movb (%r13), %al
testb %al, %al
je 0x35090
cmpq %rdx, %r9
jge 0x35090
incq %r13
movq -0x60(%rbp), %r10
movq %r8, %r12
cmpb %al, (%r12)
jne 0x35097
incq %r12
movb (%r13), %al
testb %al, %al
je 0x35093
incq %r13
leaq 0x1(%r10), %rdi
cmpq %rdx, %r10
movq %rdi, %r10
jl 0x3506e
jmp 0x35093
movq %r8, %r12
testb %al, %al
je 0x350c4
incq %rbx
cmpq $0x50, %rbx
jne 0x35045
movb $-0x1, %al
jmp 0x350df
movl $0x2, %r9d
cmpl $0x1, %ecx
jg 0x34fff
movl $0x1, %edi
subl %ecx, %edi
movq %r10, %rax
movl %edi, %ecx
movq %r14, %r8
jmp 0x350fc
leaq 0x2b6565(%rip), %rax # 0x2eb630
addq %rax, %r11
movq 0x8(%r11), %rax
movq -0x58(%rbp), %rdi
movb (%rax,%rdi), %al
decq %r12
movq %r12, %r8
movq -0x38(%rbp), %rbx
movl -0x2c(%rbp), %r11d
movq -0x40(%rbp), %r12
leaq 0x2b651e(%rip), %r13 # 0x2eb610
movzbl %al, %r9d
incq %r8
movq %r14, %rax
testl %r11d, %esi
setne %r10b
cmpq %rbx, %r12
setb %dil
andb %r10b, %dil
cmpb $0x1, %dil
jne 0x3511e
movq -0x48(%rbp), %rsi
movb %r9b, (%rsi,%r12)
incq %r12
movq %rax, %r14
testl %r9d, %r9d
jne 0x34f5e
testb %r11b, %r11b
sets %al
movq %rbx, %rdx
subq %r12, %rdx
seta %cl
andb %al, %cl
cmpb $0x1, %cl
jne 0x35153
movq -0x48(%rbp), %rdi
addq %r12, %rdi
movl $0x20, %esi
callq 0x24180
jmp 0x35156
movq %r12, %rbx
movq %rbx, %rax
addq $0x38, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| my_strnxfrm_czech:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 38h
mov r15, r8
mov rbx, rdx
mov [rbp+var_48], rsi
mov eax, [rbp+arg_0]
mov r11d, eax
or r11d, 0Fh
test al, 0Fh
cmovnz r11d, eax
movsxd rdx, r9d
mov eax, 1
sub rax, r8
mov [rbp+var_50], rax
xor ecx, ecx
lea r13, CZ_SORT_TABLE
mov r14, r8
xor r12d, r12d
mov [rbp+var_38], rbx
mov [rbp+var_2C], r11d
loc_34F5E:
mov esi, 1
shl esi, cl
mov rax, r8
sub rax, r15
cmp rax, rdx
jge short loc_34FEF
movsxd rax, ecx
mov [rbp+var_58], rax
mov r9, [r13+rax*8+0]
loc_34F7C:
movzx eax, byte ptr [r8]
movzx eax, byte ptr [r9+rax]
test eax, eax
jz short loc_34FBE
cmp eax, 2
jnz loc_35023
inc r8
mov rax, r8
sub rax, r15
mov r10, r8
cmp rax, rdx
jge short loc_34FCC
loc_34FA3:
movzx edi, byte ptr [r10]
cmp byte ptr [r9+rdi], 2
jnz short loc_34FCC
inc r10
inc rax
mov rdi, r10
cmp rax, rdx
jl short loc_34FA3
jmp short loc_34FCF
loc_34FBE:
inc r8
mov rax, r8
sub rax, r15
mov r10, r8
jmp short loc_34FE8
loc_34FCC:
mov rdi, r8
loc_34FCF:
cmp ecx, 3
cmovge r10, rdi
mov rax, r10
sub rax, r15
cmp rax, rdx
jl loc_350A4
mov r8, r10
loc_34FE8:
cmp rax, rdx
jl short loc_34F7C
jmp short loc_34FF2
loc_34FEF:
mov r10, r8
loc_34FF2:
cmp ecx, 3
jnz short loc_3500A
xor r9d, r9d
mov ecx, 3
loc_34FFF:
mov rax, r14
mov r8, r10
jmp loc_350FC
loc_3500A:
test ecx, ecx
mov r8, r15
cmovz r8, r14
inc ecx
mov r9d, 1
mov rax, r14
jmp loc_350FC
loc_35023:
cmp eax, 0FFh
jnz loc_350F2
mov [rbp+var_40], r12
mov r9, r8
sub r9, r15
mov rax, [rbp+var_50]
add rax, r8
mov [rbp+var_60], rax
xor ebx, ebx
loc_35045:
mov r11, rbx
shl r11, 4
lea rax, doubles
mov r13, [r11+rax]
mov al, [r13+0]
test al, al
jz short loc_35090
cmp r9, rdx
jge short loc_35090
inc r13
mov r10, [rbp+var_60]
mov r12, r8
loc_3506E:
cmp [r12], al
jnz short loc_35097
inc r12
mov al, [r13+0]
test al, al
jz short loc_35093
inc r13
lea rdi, [r10+1]
cmp r10, rdx
mov r10, rdi
jl short loc_3506E
jmp short loc_35093
loc_35090:
mov r12, r8
loc_35093:
test al, al
jz short loc_350C4
loc_35097:
inc rbx
cmp rbx, 50h ; 'P'
jnz short loc_35045
mov al, 0FFh
jmp short loc_350DF
loc_350A4:
mov r9d, 2
cmp ecx, 1
jg loc_34FFF
mov edi, 1
sub edi, ecx
mov rax, r10
mov ecx, edi
mov r8, r14
jmp short loc_350FC
loc_350C4:
lea rax, doubles
add r11, rax
mov rax, [r11+8]
mov rdi, [rbp+var_58]
mov al, [rax+rdi]
dec r12
mov r8, r12
loc_350DF:
mov rbx, [rbp+var_38]
mov r11d, [rbp+var_2C]
mov r12, [rbp+var_40]
lea r13, CZ_SORT_TABLE
loc_350F2:
movzx r9d, al
inc r8
mov rax, r14
loc_350FC:
test esi, r11d
setnz r10b
cmp r12, rbx
setb dil
and dil, r10b
cmp dil, 1
jnz short loc_3511E
mov rsi, [rbp+var_48]
mov [rsi+r12], r9b
inc r12
loc_3511E:
mov r14, rax
test r9d, r9d
jnz loc_34F5E
test r11b, r11b
sets al
mov rdx, rbx
sub rdx, r12
setnbe cl
and cl, al
cmp cl, 1
jnz short loc_35153
mov rdi, [rbp+var_48]
add rdi, r12
mov esi, 20h ; ' '
call _memset
jmp short loc_35156
loc_35153:
mov rbx, r12
loc_35156:
mov rax, rbx
add rsp, 38h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| unsigned long long my_strnxfrm_czech(
long long a1,
long long a2,
unsigned long long a3,
long long a4,
unsigned __int8 *a5,
int a6,
int a7)
{
unsigned __int8 *v7; // r15
int v9; // r11d
long long v10; // rdx
int v11; // ecx
unsigned __int8 *v12; // r14
unsigned long long v13; // r12
int v14; // esi
long long v15; // r9
int v16; // eax
unsigned __int8 *v17; // r8
long long v18; // rax
unsigned __int8 *v19; // r10
unsigned __int8 *v20; // rdi
unsigned __int8 *v21; // rax
int v22; // r9d
unsigned __int8 *v23; // rax
long long v24; // rbx
char *v25; // r13
char v26; // al
char *v27; // r13
unsigned __int8 *v28; // r10
_BYTE *v29; // r12
long long v32; // [rsp+10h] [rbp-50h]
unsigned long long v34; // [rsp+20h] [rbp-40h]
unsigned long long v35; // [rsp+28h] [rbp-38h]
int v36; // [rsp+34h] [rbp-2Ch]
v7 = a5;
v9 = a7 | 0xF;
if ( (a7 & 0xF) != 0 )
v9 = a7;
v10 = a6;
v32 = 1LL - (_QWORD)a5;
v11 = 0;
v12 = a5;
v13 = 0LL;
v35 = a3;
v36 = v9;
do
{
v14 = 1 << v11;
if ( a5 - v7 >= v10 )
{
v19 = a5;
LABEL_21:
if ( v11 != 3 )
{
a5 = v7;
if ( !v11 )
a5 = v12;
++v11;
v22 = 1;
v23 = v12;
goto LABEL_45;
}
v22 = 0;
v11 = 3;
LABEL_23:
v23 = v12;
a5 = v19;
goto LABEL_45;
}
v15 = (long long)*(&CZ_SORT_TABLE + v11);
while ( 1 )
{
v16 = *(unsigned __int8 *)(v15 + *a5);
if ( !*(_BYTE *)(v15 + *a5) )
{
v21 = (unsigned __int8 *)(++a5 - v7);
v19 = a5;
goto LABEL_18;
}
if ( v16 != 2 )
break;
v17 = a5 + 1;
v18 = v17 - v7;
v19 = v17;
if ( v17 - v7 < v10 )
{
while ( *(_BYTE *)(v15 + *v19) == 2 )
{
++v19;
++v18;
v20 = v19;
if ( v18 >= v10 )
goto LABEL_14;
}
}
v20 = v17;
LABEL_14:
if ( v11 >= 3 )
v19 = v20;
v21 = (unsigned __int8 *)(v19 - v7);
if ( v19 - v7 < v10 )
{
v22 = 2;
if ( v11 <= 1 )
{
v23 = v19;
v11 = 1 - v11;
a5 = v12;
goto LABEL_45;
}
goto LABEL_23;
}
a5 = v19;
LABEL_18:
if ( (long long)v21 >= v10 )
goto LABEL_21;
}
if ( v16 != 255 )
goto LABEL_44;
v34 = v13;
v24 = 0LL;
while ( 2 )
{
v25 = (char *)*(&doubles + 2 * v24);
v26 = *v25;
if ( *v25 && a5 - v7 < v10 )
{
v27 = v25 + 1;
v28 = &a5[v32];
v29 = a5;
while ( *v29 == v26 )
{
++v29;
v26 = *v27;
if ( *v27 )
{
++v27;
if ( (long long)v28++ < v10 )
continue;
}
goto LABEL_37;
}
goto LABEL_38;
}
v29 = a5;
LABEL_37:
if ( v26 )
{
LABEL_38:
if ( ++v24 == 80 )
{
LOBYTE(v16) = -1;
goto LABEL_43;
}
continue;
}
break;
}
LOBYTE(v16) = *((_BYTE *)*(&doubles + 2 * v24 + 1) + v11);
a5 = v29 - 1;
LABEL_43:
a3 = v35;
v9 = v36;
v13 = v34;
LABEL_44:
v22 = (unsigned __int8)v16;
++a5;
v23 = v12;
LABEL_45:
if ( (v9 & v14) != 0 && v13 < a3 )
*(_BYTE *)(a2 + v13++) = v22;
v12 = v23;
}
while ( v22 );
if ( (v9 & 0x80u) == 0 || a3 <= v13 )
return v13;
memset(v13 + a2, 32LL, a3 - v13);
return a3;
}
| my_strnxfrm_czech:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x38
MOV R15,R8
MOV RBX,RDX
MOV qword ptr [RBP + -0x48],RSI
MOV EAX,dword ptr [RBP + 0x10]
MOV R11D,EAX
OR R11D,0xf
TEST AL,0xf
CMOVNZ R11D,EAX
MOVSXD RDX,R9D
MOV EAX,0x1
SUB RAX,R8
MOV qword ptr [RBP + -0x50],RAX
XOR ECX,ECX
LEA R13,[0x3eb610]
MOV R14,R8
XOR R12D,R12D
MOV qword ptr [RBP + -0x38],RBX
MOV dword ptr [RBP + -0x2c],R11D
LAB_00134f5e:
MOV ESI,0x1
SHL ESI,CL
MOV RAX,R8
SUB RAX,R15
CMP RAX,RDX
JGE 0x00134fef
MOVSXD RAX,ECX
MOV qword ptr [RBP + -0x58],RAX
MOV R9,qword ptr [R13 + RAX*0x8]
LAB_00134f7c:
MOVZX EAX,byte ptr [R8]
MOVZX EAX,byte ptr [R9 + RAX*0x1]
TEST EAX,EAX
JZ 0x00134fbe
CMP EAX,0x2
JNZ 0x00135023
INC R8
MOV RAX,R8
SUB RAX,R15
MOV R10,R8
CMP RAX,RDX
JGE 0x00134fcc
LAB_00134fa3:
MOVZX EDI,byte ptr [R10]
CMP byte ptr [R9 + RDI*0x1],0x2
JNZ 0x00134fcc
INC R10
INC RAX
MOV RDI,R10
CMP RAX,RDX
JL 0x00134fa3
JMP 0x00134fcf
LAB_00134fbe:
INC R8
MOV RAX,R8
SUB RAX,R15
MOV R10,R8
JMP 0x00134fe8
LAB_00134fcc:
MOV RDI,R8
LAB_00134fcf:
CMP ECX,0x3
CMOVGE R10,RDI
MOV RAX,R10
SUB RAX,R15
CMP RAX,RDX
JL 0x001350a4
MOV R8,R10
LAB_00134fe8:
CMP RAX,RDX
JL 0x00134f7c
JMP 0x00134ff2
LAB_00134fef:
MOV R10,R8
LAB_00134ff2:
CMP ECX,0x3
JNZ 0x0013500a
XOR R9D,R9D
MOV ECX,0x3
LAB_00134fff:
MOV RAX,R14
MOV R8,R10
JMP 0x001350fc
LAB_0013500a:
TEST ECX,ECX
MOV R8,R15
CMOVZ R8,R14
INC ECX
MOV R9D,0x1
MOV RAX,R14
JMP 0x001350fc
LAB_00135023:
CMP EAX,0xff
JNZ 0x001350f2
MOV qword ptr [RBP + -0x40],R12
MOV R9,R8
SUB R9,R15
MOV RAX,qword ptr [RBP + -0x50]
ADD RAX,R8
MOV qword ptr [RBP + -0x60],RAX
XOR EBX,EBX
LAB_00135045:
MOV R11,RBX
SHL R11,0x4
LEA RAX,[0x3eb630]
MOV R13,qword ptr [R11 + RAX*0x1]
MOV AL,byte ptr [R13]
TEST AL,AL
JZ 0x00135090
CMP R9,RDX
JGE 0x00135090
INC R13
MOV R10,qword ptr [RBP + -0x60]
MOV R12,R8
LAB_0013506e:
CMP byte ptr [R12],AL
JNZ 0x00135097
INC R12
MOV AL,byte ptr [R13]
TEST AL,AL
JZ 0x00135093
INC R13
LEA RDI,[R10 + 0x1]
CMP R10,RDX
MOV R10,RDI
JL 0x0013506e
JMP 0x00135093
LAB_00135090:
MOV R12,R8
LAB_00135093:
TEST AL,AL
JZ 0x001350c4
LAB_00135097:
INC RBX
CMP RBX,0x50
JNZ 0x00135045
MOV AL,0xff
JMP 0x001350df
LAB_001350a4:
MOV R9D,0x2
CMP ECX,0x1
JG 0x00134fff
MOV EDI,0x1
SUB EDI,ECX
MOV RAX,R10
MOV ECX,EDI
MOV R8,R14
JMP 0x001350fc
LAB_001350c4:
LEA RAX,[0x3eb630]
ADD R11,RAX
MOV RAX,qword ptr [R11 + 0x8]
MOV RDI,qword ptr [RBP + -0x58]
MOV AL,byte ptr [RAX + RDI*0x1]
DEC R12
MOV R8,R12
LAB_001350df:
MOV RBX,qword ptr [RBP + -0x38]
MOV R11D,dword ptr [RBP + -0x2c]
MOV R12,qword ptr [RBP + -0x40]
LEA R13,[0x3eb610]
LAB_001350f2:
MOVZX R9D,AL
INC R8
MOV RAX,R14
LAB_001350fc:
TEST ESI,R11D
SETNZ R10B
CMP R12,RBX
SETC DIL
AND DIL,R10B
CMP DIL,0x1
JNZ 0x0013511e
MOV RSI,qword ptr [RBP + -0x48]
MOV byte ptr [RSI + R12*0x1],R9B
INC R12
LAB_0013511e:
MOV R14,RAX
TEST R9D,R9D
JNZ 0x00134f5e
TEST R11B,R11B
SETS AL
MOV RDX,RBX
SUB RDX,R12
SETA CL
AND CL,AL
CMP CL,0x1
JNZ 0x00135153
MOV RDI,qword ptr [RBP + -0x48]
ADD RDI,R12
MOV ESI,0x20
CALL 0x00124180
JMP 0x00135156
LAB_00135153:
MOV RBX,R12
LAB_00135156:
MOV RAX,RBX
ADD RSP,0x38
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
ulong my_strnxfrm_czech(int8 param_1,long param_2,ulong param_3,int8 param_4,
byte *param_5,int param_6,uint param_7)
{
uint uVar1;
byte *pbVar2;
byte *pbVar3;
byte bVar4;
char cVar5;
long lVar6;
byte *pbVar7;
byte bVar8;
int iVar9;
long lVar10;
byte *pbVar11;
byte *pbVar12;
byte *pbVar13;
ulong uVar14;
byte *pbVar15;
uVar1 = param_7 | 0xf;
if ((param_7 & 0xf) != 0) {
uVar1 = param_7;
}
lVar10 = (long)param_6;
iVar9 = 0;
uVar14 = 0;
pbVar13 = param_5;
pbVar15 = param_5;
LAB_00134f5e:
bVar8 = (byte)iVar9;
pbVar7 = pbVar15;
if ((long)pbVar13 - (long)param_5 < lVar10) {
do {
cVar5 = (&CZ_SORT_TABLE)[iVar9][*pbVar13];
if (cVar5 == '\0') {
pbVar13 = pbVar13 + 1;
lVar6 = (long)pbVar13 - (long)param_5;
}
else {
if (cVar5 != '\x02') {
if (cVar5 != -1) goto LAB_001350f2;
lVar6 = 0;
goto LAB_00135045;
}
pbVar12 = pbVar13 + 1;
lVar6 = (long)pbVar12 - (long)param_5;
pbVar13 = pbVar12;
while ((pbVar11 = pbVar13, lVar6 < lVar10 &&
(pbVar11 = pbVar12, (&CZ_SORT_TABLE)[iVar9][*pbVar13] == '\x02'))) {
pbVar13 = pbVar13 + 1;
lVar6 = lVar6 + 1;
}
if (2 < iVar9) {
pbVar13 = pbVar11;
}
lVar6 = (long)pbVar13 - (long)param_5;
if (lVar6 < lVar10) {
cVar5 = '\x02';
if (iVar9 < 2) {
iVar9 = 1 - iVar9;
pbVar7 = pbVar13;
pbVar13 = pbVar15;
}
goto LAB_001350fc;
}
}
} while (lVar6 < lVar10);
}
if (iVar9 == 3) {
cVar5 = '\0';
iVar9 = 3;
}
else {
pbVar13 = param_5;
if (iVar9 == 0) {
pbVar13 = pbVar15;
}
iVar9 = iVar9 + 1;
cVar5 = '\x01';
}
goto LAB_001350fc;
LAB_00135045:
do {
pbVar15 = (&doubles)[lVar6 * 2];
bVar4 = *pbVar15;
pbVar12 = pbVar13;
pbVar3 = pbVar13 + (1 - (long)param_5);
pbVar11 = pbVar13 + -(long)param_5;
if (bVar4 != 0) {
while (pbVar2 = pbVar3, (long)pbVar11 < lVar10) {
pbVar15 = pbVar15 + 1;
if (*pbVar12 != bVar4) goto LAB_00135097;
pbVar12 = pbVar12 + 1;
bVar4 = *pbVar15;
if (bVar4 == 0) break;
pbVar3 = pbVar2 + 1;
pbVar11 = pbVar2;
}
}
if (bVar4 == 0) {
cVar5 = (&PTR_DAT_003eb638)[lVar6 * 2][iVar9];
pbVar13 = pbVar12 + -1;
goto LAB_001350f2;
}
LAB_00135097:
lVar6 = lVar6 + 1;
} while (lVar6 != 0x50);
cVar5 = -1;
LAB_001350f2:
pbVar13 = pbVar13 + 1;
LAB_001350fc:
if (uVar14 < param_3 && (1 << (bVar8 & 0x1f) & uVar1) != 0) {
*(char *)(param_2 + uVar14) = cVar5;
uVar14 = uVar14 + 1;
}
pbVar15 = pbVar7;
if (cVar5 == '\0') {
if ((uVar14 <= param_3 && param_3 - uVar14 != 0) && (char)uVar1 < '\0') {
memset((void *)(param_2 + uVar14),0x20,param_3 - uVar14);
uVar14 = param_3;
}
return uVar14;
}
goto LAB_00134f5e;
}
| |
34,436 | aimrt::runtime::core::logger::RotateFileLoggerBackend::~RotateFileLoggerBackend() | aimrt_mujoco_sim/_deps/aimrt-src/src/runtime/core/logger/rotate_file_logger_backend.cc | RotateFileLoggerBackend::~RotateFileLoggerBackend() {
if (options_.enable_sync) {
(void)fflush(file_);
(void)fclose(file_);
file_ = nullptr;
return;
}
if (ofs_.is_open()) {
ofs_.flush();
ofs_.clear();
ofs_.close();
}
} | O0 | cpp | aimrt::runtime::core::logger::RotateFileLoggerBackend::~RotateFileLoggerBackend():
subq $0x18, %rsp
movq %rdi, 0x10(%rsp)
movq 0x10(%rsp), %rdi
movq %rdi, 0x8(%rsp)
callq 0x147470
movq 0x8(%rsp), %rdi
movl $0x3f8, %esi # imm = 0x3F8
callq 0x8d7d0
addq $0x18, %rsp
retq
nopl (%rax)
| _ZN5aimrt7runtime4core6logger23RotateFileLoggerBackendD0Ev:
sub rsp, 18h
mov [rsp+18h+var_8], rdi
mov rdi, [rsp+18h+var_8]; this
mov [rsp+18h+var_10], rdi
call _ZN5aimrt7runtime4core6logger23RotateFileLoggerBackendD2Ev; aimrt::runtime::core::logger::RotateFileLoggerBackend::~RotateFileLoggerBackend()
mov rdi, [rsp+18h+var_10]; void *
mov esi, 3F8h; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
add rsp, 18h
retn
| void aimrt::runtime::core::logger::RotateFileLoggerBackend::~RotateFileLoggerBackend(
aimrt::runtime::core::logger::RotateFileLoggerBackend *this)
{
aimrt::runtime::core::logger::RotateFileLoggerBackend::~RotateFileLoggerBackend(this);
operator delete(this, 0x3F8uLL);
}
| |||
34,437 | aimrt::runtime::core::logger::RotateFileLoggerBackend::~RotateFileLoggerBackend() | aimrt_mujoco_sim/_deps/aimrt-src/src/runtime/core/logger/rotate_file_logger_backend.cc | RotateFileLoggerBackend::~RotateFileLoggerBackend() {
if (options_.enable_sync) {
(void)fflush(file_);
(void)fclose(file_);
file_ = nullptr;
return;
}
if (ofs_.is_open()) {
ofs_.flush();
ofs_.clear();
ofs_.close();
}
} | O3 | cpp | aimrt::runtime::core::logger::RotateFileLoggerBackend::~RotateFileLoggerBackend():
pushq %r14
pushq %rbx
pushq %rax
movq %rdi, %rbx
leaq 0x52afa(%rip), %rax # 0xaed50
movq %rax, (%rdi)
cmpb $0x1, 0xb0(%rdi)
jne 0x5c287
movq 0x3f0(%rbx), %rdi
callq 0x1f460
movq 0x3f0(%rbx), %rdi
callq 0x1f210
movq $0x0, 0x3f0(%rbx)
jmp 0x5c2bf
leaq 0x198(%rbx), %rdi
callq 0x1e2e0
testb %al, %al
je 0x5c2bf
leaq 0x128(%rbx), %r14
movq %r14, %rdi
callq 0x1eb50
movq (%r14), %rax
movq -0x18(%rax), %rdi
addq %r14, %rdi
xorl %esi, %esi
callq 0x1fe60
movq %r14, %rdi
callq 0x1f8d0
movq 0x3e8(%rbx), %rdi
testq %rdi, %rdi
je 0x5c2d0
callq 0x1ed80
movq 0x3c0(%rbx), %rdi
leaq 0x3d0(%rbx), %rax
cmpq %rax, %rdi
je 0x5c2ee
movq (%rax), %rsi
incq %rsi
callq 0x1f250
leaq 0x3a0(%rbx), %rdi
callq 0x5bb22
leaq 0x368(%rbx), %rdi
callq 0x5bb90
movq 0x53aeb(%rip), %rax # 0xafdf8
movq (%rax), %rcx
movq 0x18(%rax), %rax
movq %rcx, 0x128(%rbx)
movq -0x18(%rcx), %rcx
movq %rax, 0x128(%rbx,%rcx)
leaq 0x130(%rbx), %rdi
callq 0x1ee30
leaq 0x220(%rbx), %rdi
callq 0x1e4d0
movq 0x108(%rbx), %rdi
leaq 0x118(%rbx), %rax
cmpq %rax, %rdi
je 0x5c35d
movq (%rax), %rsi
incq %rsi
callq 0x1f250
movq 0xe8(%rbx), %rax
testq %rax, %rax
je 0x5c37a
leaq 0xd8(%rbx), %rdi
movq %rdi, %rsi
movl $0x3, %edx
callq *%rax
addq $0x8, %rbx
movq %rbx, %rdi
addq $0x8, %rsp
popq %rbx
popq %r14
jmp 0x5bf7a
jmp 0x5c38f
movq %rax, %rdi
callq 0x23e15
nop
| _ZN5aimrt7runtime4core6logger23RotateFileLoggerBackendD2Ev:
push r14
push rbx
push rax
mov rbx, rdi
lea rax, off_AED50
mov [rdi], rax
cmp byte ptr [rdi+0B0h], 1
jnz short loc_5C287
mov rdi, [rbx+3F0h]
call _fflush
mov rdi, [rbx+3F0h]
call _fclose
mov qword ptr [rbx+3F0h], 0
jmp short loc_5C2BF
loc_5C287:
lea rdi, [rbx+198h]
call __ZNKSt12__basic_fileIcE7is_openEv; std::__basic_file<char>::is_open(void)
test al, al
jz short loc_5C2BF
lea r14, [rbx+128h]
mov rdi, r14; this
call __ZNSo5flushEv; std::ostream::flush(void)
mov rax, [r14]
mov rdi, [rax-18h]
add rdi, r14
xor esi, esi
call __ZNSt9basic_iosIcSt11char_traitsIcEE5clearESt12_Ios_Iostate; std::ios::clear(std::_Ios_Iostate)
mov rdi, r14
call __ZNSt14basic_ofstreamIcSt11char_traitsIcEE5closeEv; std::ofstream::close(void)
loc_5C2BF:
mov rdi, [rbx+3E8h]
test rdi, rdi
jz short loc_5C2D0
call __ZNSt16_Sp_counted_baseILN9__gnu_cxx12_Lock_policyE2EE10_M_releaseEv; std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(void)
loc_5C2D0:
mov rdi, [rbx+3C0h]; void *
lea rax, [rbx+3D0h]
cmp rdi, rax
jz short loc_5C2EE
mov rsi, [rax]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_5C2EE:
lea rdi, [rbx+3A0h]
call _ZNSt6vectorISt8functionIFvRKN5aimrt7runtime4core6logger14LogDataWrapperERNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEEESaISG_EED2Ev; std::vector<std::function<void ()(aimrt::runtime::core::logger::LogDataWrapper const&,std::string &)>>::~vector()
lea rdi, [rbx+368h]
call _ZNSt10_HashtableINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEESt4pairIKS5_bESaIS8_ENSt8__detail10_Select1stESt8equal_toIvEN5aimrt6common4util10StringHashENSA_18_Mod_range_hashingENSA_20_Default_ranged_hashENSA_20_Prime_rehash_policyENSA_17_Hashtable_traitsILb1ELb0ELb1EEEED2Ev; std::_Hashtable<std::string,std::pair<std::string const,bool>,std::allocator<std::pair<std::string const,bool>>,std::__detail::_Select1st,std::equal_to<void>,aimrt::common::util::StringHash,std::__detail::_Mod_range_hashing,std::__detail::_Default_ranged_hash,std::__detail::_Prime_rehash_policy,std::__detail::_Hashtable_traits<true,false,true>>::~_Hashtable()
mov rax, cs:_ZTTSt14basic_ofstreamIcSt11char_traitsIcEE_ptr
mov rcx, [rax]
mov rax, [rax+18h]
mov [rbx+128h], rcx
mov rcx, [rcx-18h]
mov [rbx+rcx+128h], rax
lea rdi, [rbx+130h]
call __ZNSt13basic_filebufIcSt11char_traitsIcEED2Ev; std::filebuf::~filebuf()
lea rdi, [rbx+220h]; this
call __ZNSt8ios_baseD2Ev; std::ios_base::~ios_base()
mov rdi, [rbx+108h]; void *
lea rax, [rbx+118h]
cmp rdi, rax
jz short loc_5C35D
mov rsi, [rax]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_5C35D:
mov rax, [rbx+0E8h]
test rax, rax
jz short loc_5C37A
lea rdi, [rbx+0D8h]
mov rsi, rdi
mov edx, 3
call rax
loc_5C37A:
add rbx, 8
mov rdi, rbx; this
add rsp, 8
pop rbx
pop r14
jmp _ZN5aimrt7runtime4core6logger23RotateFileLoggerBackend7OptionsD2Ev; aimrt::runtime::core::logger::RotateFileLoggerBackend::Options::~Options()
jmp short $+2
loc_5C38F:
mov rdi, rax
call __clang_call_terminate
| void aimrt::runtime::core::logger::RotateFileLoggerBackend::~RotateFileLoggerBackend(
aimrt::runtime::core::logger::RotateFileLoggerBackend *this)
{
long long v2; // rdi
char *v3; // rdi
long long v4; // rcx
long long v5; // rax
char *v6; // rdi
void ( *v7)(char *, char *, long long); // rax
*(_QWORD *)this = off_AED50;
if ( *((_BYTE *)this + 176) == 1 )
{
fflush(*((_QWORD *)this + 126));
fclose(*((_QWORD *)this + 126));
*((_QWORD *)this + 126) = 0LL;
}
else if ( (unsigned __int8)std::__basic_file<char>::is_open((char *)this + 408) )
{
std::ostream::flush((aimrt::runtime::core::logger::RotateFileLoggerBackend *)((char *)this + 296));
std::ios::clear((char *)this + *(_QWORD *)(*((_QWORD *)this + 37) - 24LL) + 296, 0LL);
std::ofstream::close((char *)this + 296);
}
v2 = *((_QWORD *)this + 125);
if ( v2 )
std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(v2);
v3 = (char *)*((_QWORD *)this + 120);
if ( v3 != (char *)this + 976 )
operator delete(v3, *((_QWORD *)this + 122) + 1LL);
std::vector<std::function<void ()(aimrt::runtime::core::logger::LogDataWrapper const&,std::string &)>>::~vector((_QWORD *)this + 116);
std::_Hashtable<std::string,std::pair<std::string const,bool>,std::allocator<std::pair<std::string const,bool>>,std::__detail::_Select1st,std::equal_to<void>,aimrt::common::util::StringHash,std::__detail::_Mod_range_hashing,std::__detail::_Default_ranged_hash,std::__detail::_Prime_rehash_policy,std::__detail::_Hashtable_traits<true,false,true>>::~_Hashtable((long long)this + 872);
v4 = `VTT for'std::ofstream[0];
v5 = `VTT for'std::ofstream[3];
*((_QWORD *)this + 37) = `VTT for'std::ofstream[0];
*(_QWORD *)((char *)this + *(_QWORD *)(v4 - 24) + 296) = v5;
std::filebuf::~filebuf((char *)this + 304);
std::ios_base::~ios_base((aimrt::runtime::core::logger::RotateFileLoggerBackend *)((char *)this + 544));
v6 = (char *)*((_QWORD *)this + 33);
if ( v6 != (char *)this + 280 )
operator delete(v6, *((_QWORD *)this + 35) + 1LL);
v7 = (void ( *)(char *, char *, long long))*((_QWORD *)this + 29);
if ( v7 )
v7((char *)this + 216, (char *)this + 216, 3LL);
aimrt::runtime::core::logger::RotateFileLoggerBackend::Options::~Options((aimrt::runtime::core::logger::RotateFileLoggerBackend *)((char *)this + 8));
}
| ~RotateFileLoggerBackend:
PUSH R14
PUSH RBX
PUSH RAX
MOV RBX,RDI
LEA RAX,[0x1aed50]
MOV qword ptr [RDI],RAX
CMP byte ptr [RDI + 0xb0],0x1
JNZ 0x0015c287
MOV RDI,qword ptr [RBX + 0x3f0]
CALL 0x0011f460
MOV RDI,qword ptr [RBX + 0x3f0]
CALL 0x0011f210
MOV qword ptr [RBX + 0x3f0],0x0
JMP 0x0015c2bf
LAB_0015c287:
LEA RDI,[RBX + 0x198]
CALL 0x0011e2e0
TEST AL,AL
JZ 0x0015c2bf
LAB_0015c297:
LEA R14,[RBX + 0x128]
MOV RDI,R14
CALL 0x0011eb50
MOV RAX,qword ptr [R14]
MOV RDI,qword ptr [RAX + -0x18]
ADD RDI,R14
XOR ESI,ESI
CALL 0x0011fe60
MOV RDI,R14
CALL 0x0011f8d0
LAB_0015c2bf:
MOV RDI,qword ptr [RBX + 0x3e8]
TEST RDI,RDI
JZ 0x0015c2d0
CALL 0x0011ed80
LAB_0015c2d0:
MOV RDI,qword ptr [RBX + 0x3c0]
LEA RAX,[RBX + 0x3d0]
CMP RDI,RAX
JZ 0x0015c2ee
MOV RSI,qword ptr [RAX]
INC RSI
CALL 0x0011f250
LAB_0015c2ee:
LEA RDI,[RBX + 0x3a0]
CALL 0x0015bb22
LEA RDI,[RBX + 0x368]
CALL 0x0015bb90
MOV RAX,qword ptr [0x001afdf8]
MOV RCX,qword ptr [RAX]
MOV RAX,qword ptr [RAX + 0x18]
MOV qword ptr [RBX + 0x128],RCX
MOV RCX,qword ptr [RCX + -0x18]
MOV qword ptr [RBX + RCX*0x1 + 0x128],RAX
LEA RDI,[RBX + 0x130]
CALL 0x0011ee30
LEA RDI,[RBX + 0x220]
CALL 0x0011e4d0
MOV RDI,qword ptr [RBX + 0x108]
LEA RAX,[RBX + 0x118]
CMP RDI,RAX
JZ 0x0015c35d
MOV RSI,qword ptr [RAX]
INC RSI
CALL 0x0011f250
LAB_0015c35d:
MOV RAX,qword ptr [RBX + 0xe8]
TEST RAX,RAX
JZ 0x0015c37a
LEA RDI,[RBX + 0xd8]
LAB_0015c370:
MOV RSI,RDI
MOV EDX,0x3
CALL RAX
LAB_0015c37a:
ADD RBX,0x8
MOV RDI,RBX
ADD RSP,0x8
POP RBX
POP R14
JMP 0x0015bf7a
|
/* aimrt::runtime::core::logger::RotateFileLoggerBackend::~RotateFileLoggerBackend() */
void __thiscall
aimrt::runtime::core::logger::RotateFileLoggerBackend::~RotateFileLoggerBackend
(RotateFileLoggerBackend *this)
{
long lVar1;
int8 uVar2;
char cVar3;
*(int ***)this = &PTR__RotateFileLoggerBackend_001aed50;
if (this[0xb0] == (RotateFileLoggerBackend)0x1) {
fflush(*(FILE **)(this + 0x3f0));
fclose(*(FILE **)(this + 0x3f0));
*(int8 *)(this + 0x3f0) = 0;
}
else {
cVar3 = std::__basic_file<char>::is_open();
if (cVar3 != '\0') {
/* try { // try from 0015c297 to 0015c2be has its CatchHandler @ 0015c38f */
std::ostream::flush();
std::ios::clear(this + 0x128 + *(long *)(*(long *)(this + 0x128) + -0x18),0);
std::ofstream::close();
}
}
if (*(_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> **)(this + 1000) !=
(_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *)0x0) {
std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release
(*(_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> **)(this + 1000));
}
if (*(RotateFileLoggerBackend **)(this + 0x3c0) != this + 0x3d0) {
operator_delete(*(RotateFileLoggerBackend **)(this + 0x3c0),*(long *)(this + 0x3d0) + 1);
}
std::
vector<std::function<void(aimrt::runtime::core::logger::LogDataWrapper_const&,std::__cxx11::string&)>,std::allocator<std::function<void(aimrt::runtime::core::logger::LogDataWrapper_const&,std::__cxx11::string&)>>>
::~vector((vector<std::function<void(aimrt::runtime::core::logger::LogDataWrapper_const&,std::__cxx11::string&)>,std::allocator<std::function<void(aimrt::runtime::core::logger::LogDataWrapper_const&,std::__cxx11::string&)>>>
*)(this + 0x3a0));
std::
_Hashtable<std::__cxx11::string,std::pair<std::__cxx11::string_const,bool>,std::allocator<std::pair<std::__cxx11::string_const,bool>>,std::__detail::_Select1st,std::equal_to<void>,aimrt::common::util::StringHash,std::__detail::_Mod_range_hashing,std::__detail::_Default_ranged_hash,std::__detail::_Prime_rehash_policy,std::__detail::_Hashtable_traits<true,false,true>>
::~_Hashtable((_Hashtable<std::__cxx11::string,std::pair<std::__cxx11::string_const,bool>,std::allocator<std::pair<std::__cxx11::string_const,bool>>,std::__detail::_Select1st,std::equal_to<void>,aimrt::common::util::StringHash,std::__detail::_Mod_range_hashing,std::__detail::_Default_ranged_hash,std::__detail::_Prime_rehash_policy,std::__detail::_Hashtable_traits<true,false,true>>
*)(this + 0x368));
lVar1 = *(long *)PTR_VTT_001afdf8;
uVar2 = *(int8 *)(PTR_VTT_001afdf8 + 0x18);
*(long *)(this + 0x128) = lVar1;
*(int8 *)(this + *(long *)(lVar1 + -0x18) + 0x128) = uVar2;
std::filebuf::~filebuf((filebuf *)(this + 0x130));
std::ios_base::~ios_base((ios_base *)(this + 0x220));
if (*(RotateFileLoggerBackend **)(this + 0x108) != this + 0x118) {
operator_delete(*(RotateFileLoggerBackend **)(this + 0x108),*(long *)(this + 0x118) + 1);
}
if (*(code **)(this + 0xe8) != (code *)0x0) {
/* try { // try from 0015c370 to 0015c379 has its CatchHandler @ 0015c38d */
(**(code **)(this + 0xe8))(this + 0xd8,this + 0xd8,3);
}
Options::~Options((Options *)(this + 8));
return;
}
| |
34,438 | stbi__refill_buffer(stbi__context*) | 7CodeWizard[P]stablediffusion/thirdparty/stb_image.h | static void stbi__refill_buffer(stbi__context *s)
{
int n = (s->io.read)(s->io_user_data,(char*)s->buffer_start,s->buflen);
s->callback_already_read += (int) (s->img_buffer - s->img_buffer_original);
if (n == 0) {
// at end of file, treat same as if from memory, but need to handle case
// where s->img_buffer isn't pointing to safe memory, e.g. 0-byte file
s->read_from_callbacks = 0;
s->img_buffer = s->buffer_start;
s->img_buffer_end = s->buffer_start+1;
*s->img_buffer = 0;
} else {
s->img_buffer = s->buffer_start;
s->img_buffer_end = s->buffer_start + n;
}
} | O0 | c | stbi__refill_buffer(stbi__context*):
subq $0x18, %rsp
movq %rdi, 0x10(%rsp)
movq 0x10(%rsp), %rax
movq 0x10(%rax), %rax
movq 0x10(%rsp), %rcx
movq 0x28(%rcx), %rdi
movq 0x10(%rsp), %rsi
addq $0x38, %rsi
movq 0x10(%rsp), %rcx
movl 0x34(%rcx), %edx
callq *%rax
movl %eax, 0xc(%rsp)
movq 0x10(%rsp), %rax
movq 0xc0(%rax), %rax
movq 0x10(%rsp), %rcx
movq 0xd0(%rcx), %rcx
subq %rcx, %rax
movl %eax, %ecx
movq 0x10(%rsp), %rax
addl 0xb8(%rax), %ecx
movl %ecx, 0xb8(%rax)
cmpl $0x0, 0xc(%rsp)
jne 0x18092
movq 0x10(%rsp), %rax
movl $0x0, 0x30(%rax)
movq 0x10(%rsp), %rcx
addq $0x38, %rcx
movq 0x10(%rsp), %rax
movq %rcx, 0xc0(%rax)
movq 0x10(%rsp), %rcx
addq $0x38, %rcx
addq $0x1, %rcx
movq 0x10(%rsp), %rax
movq %rcx, 0xc8(%rax)
movq 0x10(%rsp), %rax
movq 0xc0(%rax), %rax
movb $0x0, (%rax)
jmp 0x180c4
movq 0x10(%rsp), %rcx
addq $0x38, %rcx
movq 0x10(%rsp), %rax
movq %rcx, 0xc0(%rax)
movq 0x10(%rsp), %rcx
addq $0x38, %rcx
movslq 0xc(%rsp), %rax
addq %rax, %rcx
movq 0x10(%rsp), %rax
movq %rcx, 0xc8(%rax)
addq $0x18, %rsp
retq
nopl (%rax)
| _ZL19stbi__refill_bufferP13stbi__context:
sub rsp, 18h
mov [rsp+18h+var_8], rdi
mov rax, [rsp+18h+var_8]
mov rax, [rax+10h]
mov rcx, [rsp+18h+var_8]
mov rdi, [rcx+28h]
mov rsi, [rsp+18h+var_8]
add rsi, 38h ; '8'
mov rcx, [rsp+18h+var_8]
mov edx, [rcx+34h]
call rax
mov [rsp+18h+var_C], eax
mov rax, [rsp+18h+var_8]
mov rax, [rax+0C0h]
mov rcx, [rsp+18h+var_8]
mov rcx, [rcx+0D0h]
sub rax, rcx
mov ecx, eax
mov rax, [rsp+18h+var_8]
add ecx, [rax+0B8h]
mov [rax+0B8h], ecx
cmp [rsp+18h+var_C], 0
jnz short loc_18092
mov rax, [rsp+18h+var_8]
mov dword ptr [rax+30h], 0
mov rcx, [rsp+18h+var_8]
add rcx, 38h ; '8'
mov rax, [rsp+18h+var_8]
mov [rax+0C0h], rcx
mov rcx, [rsp+18h+var_8]
add rcx, 38h ; '8'
add rcx, 1
mov rax, [rsp+18h+var_8]
mov [rax+0C8h], rcx
mov rax, [rsp+18h+var_8]
mov rax, [rax+0C0h]
mov byte ptr [rax], 0
jmp short loc_180C4
loc_18092:
mov rcx, [rsp+18h+var_8]
add rcx, 38h ; '8'
mov rax, [rsp+18h+var_8]
mov [rax+0C0h], rcx
mov rcx, [rsp+18h+var_8]
add rcx, 38h ; '8'
movsxd rax, [rsp+18h+var_C]
add rcx, rax
mov rax, [rsp+18h+var_8]
mov [rax+0C8h], rcx
loc_180C4:
add rsp, 18h
retn
| _BYTE * stbi__refill_buffer(long long a1)
{
_BYTE *result; // rax
int v2; // [rsp+Ch] [rbp-Ch]
v2 = (*(long long ( **)(_QWORD, long long, _QWORD))(a1 + 16))(
*(_QWORD *)(a1 + 40),
a1 + 56,
*(unsigned int *)(a1 + 52));
*(_DWORD *)(a1 + 184) += *(_QWORD *)(a1 + 192) - *(_QWORD *)(a1 + 208);
if ( v2 )
{
*(_QWORD *)(a1 + 192) = a1 + 56;
result = (_BYTE *)a1;
*(_QWORD *)(a1 + 200) = v2 + a1 + 56;
}
else
{
*(_DWORD *)(a1 + 48) = 0;
*(_QWORD *)(a1 + 192) = a1 + 56;
*(_QWORD *)(a1 + 200) = a1 + 57;
result = *(_BYTE **)(a1 + 192);
*result = 0;
}
return result;
}
| stbi__refill_buffer:
SUB RSP,0x18
MOV qword ptr [RSP + 0x10],RDI
MOV RAX,qword ptr [RSP + 0x10]
MOV RAX,qword ptr [RAX + 0x10]
MOV RCX,qword ptr [RSP + 0x10]
MOV RDI,qword ptr [RCX + 0x28]
MOV RSI,qword ptr [RSP + 0x10]
ADD RSI,0x38
MOV RCX,qword ptr [RSP + 0x10]
MOV EDX,dword ptr [RCX + 0x34]
CALL RAX
MOV dword ptr [RSP + 0xc],EAX
MOV RAX,qword ptr [RSP + 0x10]
MOV RAX,qword ptr [RAX + 0xc0]
MOV RCX,qword ptr [RSP + 0x10]
MOV RCX,qword ptr [RCX + 0xd0]
SUB RAX,RCX
MOV ECX,EAX
MOV RAX,qword ptr [RSP + 0x10]
ADD ECX,dword ptr [RAX + 0xb8]
MOV dword ptr [RAX + 0xb8],ECX
CMP dword ptr [RSP + 0xc],0x0
JNZ 0x00118092
MOV RAX,qword ptr [RSP + 0x10]
MOV dword ptr [RAX + 0x30],0x0
MOV RCX,qword ptr [RSP + 0x10]
ADD RCX,0x38
MOV RAX,qword ptr [RSP + 0x10]
MOV qword ptr [RAX + 0xc0],RCX
MOV RCX,qword ptr [RSP + 0x10]
ADD RCX,0x38
ADD RCX,0x1
MOV RAX,qword ptr [RSP + 0x10]
MOV qword ptr [RAX + 0xc8],RCX
MOV RAX,qword ptr [RSP + 0x10]
MOV RAX,qword ptr [RAX + 0xc0]
MOV byte ptr [RAX],0x0
JMP 0x001180c4
LAB_00118092:
MOV RCX,qword ptr [RSP + 0x10]
ADD RCX,0x38
MOV RAX,qword ptr [RSP + 0x10]
MOV qword ptr [RAX + 0xc0],RCX
MOV RCX,qword ptr [RSP + 0x10]
ADD RCX,0x38
MOVSXD RAX,dword ptr [RSP + 0xc]
ADD RCX,RAX
MOV RAX,qword ptr [RSP + 0x10]
MOV qword ptr [RAX + 0xc8],RCX
LAB_001180c4:
ADD RSP,0x18
RET
|
/* stbi__refill_buffer(stbi__context*) */
void stbi__refill_buffer(stbi__context *param_1)
{
int iVar1;
iVar1 = (**(code **)(param_1 + 0x10))
(*(int8 *)(param_1 + 0x28),param_1 + 0x38,*(int4 *)(param_1 + 0x34))
;
*(int *)(param_1 + 0xb8) =
((int)*(int8 *)(param_1 + 0xc0) - (int)*(int8 *)(param_1 + 0xd0)) +
*(int *)(param_1 + 0xb8);
if (iVar1 == 0) {
*(int4 *)(param_1 + 0x30) = 0;
*(stbi__context **)(param_1 + 0xc0) = param_1 + 0x38;
*(stbi__context **)(param_1 + 200) = param_1 + 0x39;
**(int1 **)(param_1 + 0xc0) = 0;
}
else {
*(stbi__context **)(param_1 + 0xc0) = param_1 + 0x38;
*(stbi__context **)(param_1 + 200) = param_1 + (long)iVar1 + 0x38;
}
return;
}
| |
34,439 | stbi__refill_buffer(stbi__context*) | 7CodeWizard[P]stablediffusion/thirdparty/stb_image.h | static void stbi__refill_buffer(stbi__context *s)
{
int n = (s->io.read)(s->io_user_data,(char*)s->buffer_start,s->buflen);
s->callback_already_read += (int) (s->img_buffer - s->img_buffer_original);
if (n == 0) {
// at end of file, treat same as if from memory, but need to handle case
// where s->img_buffer isn't pointing to safe memory, e.g. 0-byte file
s->read_from_callbacks = 0;
s->img_buffer = s->buffer_start;
s->img_buffer_end = s->buffer_start+1;
*s->img_buffer = 0;
} else {
s->img_buffer = s->buffer_start;
s->img_buffer_end = s->buffer_start + n;
}
} | O2 | c | stbi__refill_buffer(stbi__context*):
pushq %r14
pushq %rbx
pushq %rax
movq %rdi, %rbx
movq 0x28(%rdi), %rdi
leaq 0x38(%rbx), %r14
movl 0x34(%rbx), %edx
movq %r14, %rsi
callq *0x10(%rbx)
movl 0xc0(%rbx), %ecx
subl 0xd0(%rbx), %ecx
addl %ecx, 0xb8(%rbx)
testl %eax, %eax
je 0x143b3
cltq
addq %r14, %rax
jmp 0x143bf
andl $0x0, 0x30(%rbx)
leaq 0x39(%rbx), %rax
movb $0x0, 0x38(%rbx)
movq %r14, 0xc0(%rbx)
movq %rax, 0xc8(%rbx)
addq $0x8, %rsp
popq %rbx
popq %r14
retq
| _ZL19stbi__refill_bufferP13stbi__context:
push r14
push rbx
push rax
mov rbx, rdi
mov rdi, [rdi+28h]
lea r14, [rbx+38h]
mov edx, [rbx+34h]
mov rsi, r14
call qword ptr [rbx+10h]
mov ecx, [rbx+0C0h]
sub ecx, [rbx+0D0h]
add [rbx+0B8h], ecx
test eax, eax
jz short loc_143B3
cdqe
add rax, r14
jmp short loc_143BF
loc_143B3:
and dword ptr [rbx+30h], 0
lea rax, [rbx+39h]
mov byte ptr [rbx+38h], 0
loc_143BF:
mov [rbx+0C0h], r14
mov [rbx+0C8h], rax
add rsp, 8
pop rbx
pop r14
retn
| long long stbi__refill_buffer(long long a1)
{
long long v1; // r14
int v2; // eax
long long result; // rax
v1 = a1 + 56;
v2 = (*(long long ( **)(_QWORD, long long, _QWORD))(a1 + 16))(
*(_QWORD *)(a1 + 40),
a1 + 56,
*(unsigned int *)(a1 + 52));
*(_DWORD *)(a1 + 184) += *(_DWORD *)(a1 + 192) - *(_DWORD *)(a1 + 208);
if ( v2 )
{
result = v1 + v2;
}
else
{
*(_DWORD *)(a1 + 48) = 0;
result = a1 + 57;
*(_BYTE *)(a1 + 56) = 0;
}
*(_QWORD *)(a1 + 192) = v1;
*(_QWORD *)(a1 + 200) = result;
return result;
}
| stbi__refill_buffer:
PUSH R14
PUSH RBX
PUSH RAX
MOV RBX,RDI
MOV RDI,qword ptr [RDI + 0x28]
LEA R14,[RBX + 0x38]
MOV EDX,dword ptr [RBX + 0x34]
MOV RSI,R14
CALL qword ptr [RBX + 0x10]
MOV ECX,dword ptr [RBX + 0xc0]
SUB ECX,dword ptr [RBX + 0xd0]
ADD dword ptr [RBX + 0xb8],ECX
TEST EAX,EAX
JZ 0x001143b3
CDQE
ADD RAX,R14
JMP 0x001143bf
LAB_001143b3:
AND dword ptr [RBX + 0x30],0x0
LEA RAX,[RBX + 0x39]
MOV byte ptr [RBX + 0x38],0x0
LAB_001143bf:
MOV qword ptr [RBX + 0xc0],R14
MOV qword ptr [RBX + 0xc8],RAX
ADD RSP,0x8
POP RBX
POP R14
RET
|
/* stbi__refill_buffer(stbi__context*) */
void stbi__refill_buffer(stbi__context *param_1)
{
stbi__context *psVar1;
int iVar2;
stbi__context *psVar3;
psVar1 = param_1 + 0x38;
iVar2 = (**(code **)(param_1 + 0x10))
(*(int8 *)(param_1 + 0x28),psVar1,*(int4 *)(param_1 + 0x34));
*(int *)(param_1 + 0xb8) =
*(int *)(param_1 + 0xb8) + (*(int *)(param_1 + 0xc0) - *(int *)(param_1 + 0xd0));
if (iVar2 == 0) {
*(int4 *)(param_1 + 0x30) = 0;
psVar3 = param_1 + 0x39;
param_1[0x38] = (stbi__context)0x0;
}
else {
psVar3 = psVar1 + iVar2;
}
*(stbi__context **)(param_1 + 0xc0) = psVar1;
*(stbi__context **)(param_1 + 200) = psVar3;
return;
}
| |
34,440 | ankerl::nanobench::detail::LinuxPerformanceCounters::endMeasure() | BadAccessGuards/build_O0/_deps/nanobench-src/src/include/nanobench.h | inline void endMeasure() {
if (mHasError) {
return;
}
// NOLINTNEXTLINE(hicpp-signed-bitwise,cppcoreguidelines-pro-type-vararg)
mHasError = (-1 == ioctl(mFd, PERF_EVENT_IOC_DISABLE, PERF_IOC_FLAG_GROUP));
if (mHasError) {
return;
}
auto const numBytes = sizeof(uint64_t) * mCounters.size();
auto ret = read(mFd, mCounters.data(), numBytes);
mHasError = ret != static_cast<ssize_t>(numBytes);
} | O0 | c | ankerl::nanobench::detail::LinuxPerformanceCounters::endMeasure():
pushq %rbp
movq %rsp, %rbp
subq $0x30, %rsp
movq %rdi, -0x8(%rbp)
movq -0x8(%rbp), %rax
movq %rax, -0x20(%rbp)
testb $0x1, 0x8c(%rax)
je 0x1d592
jmp 0x1d62a
movq -0x20(%rbp), %rax
movl 0x88(%rax), %edi
movl $0x2401, %esi # imm = 0x2401
movl $0x1, %edx
movb $0x0, %al
callq 0x4640
movl %eax, %edx
movq -0x20(%rbp), %rax
movl $0xffffffff, %ecx # imm = 0xFFFFFFFF
cmpl %edx, %ecx
sete %cl
andb $0x1, %cl
movb %cl, 0x8c(%rax)
testb $0x1, 0x8c(%rax)
je 0x1d5d1
jmp 0x1d62a
movq -0x20(%rbp), %rdi
addq $0x30, %rdi
callq 0xf5f0
movq -0x20(%rbp), %rdi
shlq $0x3, %rax
movq %rax, -0x10(%rbp)
movl 0x88(%rdi), %eax
movl %eax, -0x24(%rbp)
addq $0x30, %rdi
callq 0x26140
movl -0x24(%rbp), %edi
movq %rax, %rsi
movq -0x10(%rbp), %rdx
callq 0x4660
movq %rax, %rcx
movq -0x20(%rbp), %rax
movq %rcx, -0x18(%rbp)
movq -0x18(%rbp), %rcx
cmpq -0x10(%rbp), %rcx
setne %cl
andb $0x1, %cl
movb %cl, 0x8c(%rax)
addq $0x30, %rsp
popq %rbp
retq
| _ZN6ankerl9nanobench6detail24LinuxPerformanceCounters10endMeasureEv:
push rbp
mov rbp, rsp
sub rsp, 30h
mov [rbp+var_8], rdi
mov rax, [rbp+var_8]
mov [rbp+var_20], rax
test byte ptr [rax+8Ch], 1
jz short loc_1D592
jmp loc_1D62A
loc_1D592:
mov rax, [rbp+var_20]
mov edi, [rax+88h]
mov esi, 2401h
mov edx, 1
mov al, 0
call _ioctl
mov edx, eax
mov rax, [rbp+var_20]
mov ecx, 0FFFFFFFFh
cmp ecx, edx
setz cl
and cl, 1
mov [rax+8Ch], cl
test byte ptr [rax+8Ch], 1
jz short loc_1D5D1
jmp short loc_1D62A
loc_1D5D1:
mov rdi, [rbp+var_20]
add rdi, 30h ; '0'
call _ZNKSt6vectorImSaImEE4sizeEv; std::vector<ulong>::size(void)
mov rdi, [rbp+var_20]
shl rax, 3
mov [rbp+var_10], rax
mov eax, [rdi+88h]
mov [rbp+var_24], eax
add rdi, 30h ; '0'
call _ZNSt6vectorImSaImEE4dataEv; std::vector<ulong>::data(void)
mov edi, [rbp+var_24]
mov rsi, rax
mov rdx, [rbp+var_10]
call _read
mov rcx, rax
mov rax, [rbp+var_20]
mov [rbp+var_18], rcx
mov rcx, [rbp+var_18]
cmp rcx, [rbp+var_10]
setnz cl
and cl, 1
mov [rax+8Ch], cl
loc_1D62A:
add rsp, 30h
pop rbp
retn
| ankerl::nanobench::detail::LinuxPerformanceCounters * ankerl::nanobench::detail::LinuxPerformanceCounters::endMeasure(
ankerl::nanobench::detail::LinuxPerformanceCounters *this)
{
ankerl::nanobench::detail::LinuxPerformanceCounters *result; // rax
int v2; // edx
long long v3; // rax
long long v4; // rcx
unsigned int v5; // [rsp+Ch] [rbp-24h]
long long v6; // [rsp+20h] [rbp-10h]
result = this;
if ( (*((_BYTE *)this + 140) & 1) == 0 )
{
v2 = ioctl(*((unsigned int *)this + 34), 9217LL, 1LL);
result = this;
*((_BYTE *)this + 140) = v2 == -1;
if ( (*((_BYTE *)this + 140) & 1) == 0 )
{
v6 = 8 * std::vector<unsigned long>::size((_QWORD *)this + 6);
v5 = *((_DWORD *)this + 34);
v3 = std::vector<unsigned long>::data((char *)this + 48);
v4 = read(v5, v3, v6);
result = this;
*((_BYTE *)this + 140) = v4 != v6;
}
}
return result;
}
| endMeasure:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x30
MOV qword ptr [RBP + -0x8],RDI
MOV RAX,qword ptr [RBP + -0x8]
MOV qword ptr [RBP + -0x20],RAX
TEST byte ptr [RAX + 0x8c],0x1
JZ 0x0011d592
JMP 0x0011d62a
LAB_0011d592:
MOV RAX,qword ptr [RBP + -0x20]
MOV EDI,dword ptr [RAX + 0x88]
MOV ESI,0x2401
MOV EDX,0x1
MOV AL,0x0
CALL 0x00104640
MOV EDX,EAX
MOV RAX,qword ptr [RBP + -0x20]
MOV ECX,0xffffffff
CMP ECX,EDX
SETZ CL
AND CL,0x1
MOV byte ptr [RAX + 0x8c],CL
TEST byte ptr [RAX + 0x8c],0x1
JZ 0x0011d5d1
JMP 0x0011d62a
LAB_0011d5d1:
MOV RDI,qword ptr [RBP + -0x20]
ADD RDI,0x30
CALL 0x0010f5f0
MOV RDI,qword ptr [RBP + -0x20]
SHL RAX,0x3
MOV qword ptr [RBP + -0x10],RAX
MOV EAX,dword ptr [RDI + 0x88]
MOV dword ptr [RBP + -0x24],EAX
ADD RDI,0x30
CALL 0x00126140
MOV EDI,dword ptr [RBP + -0x24]
MOV RSI,RAX
MOV RDX,qword ptr [RBP + -0x10]
CALL 0x00104660
MOV RCX,RAX
MOV RAX,qword ptr [RBP + -0x20]
MOV qword ptr [RBP + -0x18],RCX
MOV RCX,qword ptr [RBP + -0x18]
CMP RCX,qword ptr [RBP + -0x10]
SETNZ CL
AND CL,0x1
MOV byte ptr [RAX + 0x8c],CL
LAB_0011d62a:
ADD RSP,0x30
POP RBP
RET
|
/* ankerl::nanobench::detail::LinuxPerformanceCounters::endMeasure() */
void __thiscall
ankerl::nanobench::detail::LinuxPerformanceCounters::endMeasure(LinuxPerformanceCounters *this)
{
int iVar1;
long lVar2;
void *__buf;
size_t sVar3;
if (((byte)this[0x8c] & 1) == 0) {
iVar1 = ioctl(*(int *)(this + 0x88),0x2401,1);
this[0x8c] = (LinuxPerformanceCounters)(iVar1 == -1);
if (((byte)this[0x8c] & 1) == 0) {
lVar2 = std::vector<unsigned_long,std::allocator<unsigned_long>>::size
((vector<unsigned_long,std::allocator<unsigned_long>> *)(this + 0x30));
iVar1 = *(int *)(this + 0x88);
__buf = (void *)std::vector<unsigned_long,std::allocator<unsigned_long>>::data
((vector<unsigned_long,std::allocator<unsigned_long>> *)
(this + 0x30));
sVar3 = read(iVar1,__buf,lVar2 << 3);
this[0x8c] = (LinuxPerformanceCounters)(sVar3 != lVar2 << 3);
}
}
return;
}
| |
34,441 | convert_dirname | eloqsql/mysys/mf_dirname.c | char *convert_dirname(char *to, const char *from, const char *from_end)
{
char *to_org=to;
#ifdef BACKSLASH_MBTAIL
CHARSET_INFO *fs= fs_character_set();
#endif
DBUG_ENTER("convert_dirname");
/* We use -2 here, becasue we need place for the last FN_LIBCHAR */
if (!from_end || (from_end - from) > FN_REFLEN-2)
from_end=from+FN_REFLEN -2;
#if FN_LIBCHAR != '/'
{
for (; from != from_end && *from ; from++)
{
if (*from == '/')
*to++= FN_LIBCHAR;
else
{
#ifdef BACKSLASH_MBTAIL
uint l;
if (my_ci_use_mb(fs) && (l= my_ismbchar(fs, from, from + 3)))
{
memmove(to, from, l);
to+= l;
from+= l - 1;
to_org= to; /* Don't look inside mbchar */
}
else
#endif
{
*to++= *from;
}
}
}
*to=0;
}
#else
/* This is ok even if to == from, becasue we need to cut the string */
to= strmake(to, from, (size_t) (from_end-from));
#endif
/* Add FN_LIBCHAR to the end of directory path */
if (to != to_org && (to[-1] != FN_LIBCHAR && to[-1] != FN_DEVCHAR))
{
*to++=FN_LIBCHAR;
*to=0;
}
DBUG_RETURN(to); /* Pointer to end of dir */
} | O0 | c | convert_dirname:
pushq %rbp
movq %rsp, %rbp
subq $0x30, %rsp
movq %rdi, -0x8(%rbp)
movq %rsi, -0x10(%rbp)
movq %rdx, -0x18(%rbp)
movq -0x8(%rbp), %rax
movq %rax, -0x20(%rbp)
cmpq $0x0, -0x18(%rbp)
je 0x82c36
movq -0x18(%rbp), %rax
movq -0x10(%rbp), %rcx
subq %rcx, %rax
cmpq $0x1fe, %rax # imm = 0x1FE
jle 0x82c48
movq -0x10(%rbp), %rax
addq $0x200, %rax # imm = 0x200
addq $-0x2, %rax
movq %rax, -0x18(%rbp)
movq -0x8(%rbp), %rdi
movq -0x10(%rbp), %rsi
movq -0x18(%rbp), %rdx
movq -0x10(%rbp), %rax
subq %rax, %rdx
callq 0xd5860
movq %rax, -0x8(%rbp)
movq -0x8(%rbp), %rax
cmpq -0x20(%rbp), %rax
je 0x82ca1
movq -0x8(%rbp), %rax
movsbl -0x1(%rax), %eax
cmpl $0x2f, %eax
je 0x82ca1
movq -0x8(%rbp), %rax
movsbl -0x1(%rax), %eax
cmpl $0x0, %eax
je 0x82ca1
movq -0x8(%rbp), %rax
movq %rax, %rcx
addq $0x1, %rcx
movq %rcx, -0x8(%rbp)
movb $0x2f, (%rax)
movq -0x8(%rbp), %rax
movb $0x0, (%rax)
jmp 0x82ca3
movq -0x8(%rbp), %rax
movq %rax, -0x28(%rbp)
movq -0x28(%rbp), %rax
addq $0x30, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
nop
| convert_dirname:
push rbp
mov rbp, rsp
sub rsp, 30h
mov [rbp+var_8], rdi
mov [rbp+var_10], rsi
mov [rbp+var_18], rdx
mov rax, [rbp+var_8]
mov [rbp+var_20], rax
cmp [rbp+var_18], 0
jz short loc_82C36
mov rax, [rbp+var_18]
mov rcx, [rbp+var_10]
sub rax, rcx
cmp rax, 1FEh
jle short loc_82C48
loc_82C36:
mov rax, [rbp+var_10]
add rax, 200h
add rax, 0FFFFFFFFFFFFFFFEh
mov [rbp+var_18], rax
loc_82C48:
mov rdi, [rbp+var_8]
mov rsi, [rbp+var_10]
mov rdx, [rbp+var_18]
mov rax, [rbp+var_10]
sub rdx, rax
call strmake
mov [rbp+var_8], rax
mov rax, [rbp+var_8]
cmp rax, [rbp+var_20]
jz short loc_82CA1
mov rax, [rbp+var_8]
movsx eax, byte ptr [rax-1]
cmp eax, 2Fh ; '/'
jz short loc_82CA1
mov rax, [rbp+var_8]
movsx eax, byte ptr [rax-1]
cmp eax, 0
jz short loc_82CA1
mov rax, [rbp+var_8]
mov rcx, rax
add rcx, 1
mov [rbp+var_8], rcx
mov byte ptr [rax], 2Fh ; '/'
mov rax, [rbp+var_8]
mov byte ptr [rax], 0
loc_82CA1:
jmp short $+2
loc_82CA3:
mov rax, [rbp+var_8]
mov [rbp+var_28], rax
mov rax, [rbp+var_28]
add rsp, 30h
pop rbp
retn
| _BYTE * convert_dirname(_BYTE *a1, long long a2, long long a3)
{
_BYTE *v3; // rax
long long v5; // [rsp+18h] [rbp-18h]
_BYTE *v6; // [rsp+28h] [rbp-8h]
v5 = a3;
if ( !a3 || a3 - a2 > 510 )
v5 = a2 + 510;
v6 = (_BYTE *)strmake(a1, a2, v5 - a2);
if ( v6 != a1 && *(v6 - 1) != 47 && *(v6 - 1) )
{
v3 = v6++;
*v3 = 47;
*v6 = 0;
}
return v6;
}
| convert_dirname:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x30
MOV qword ptr [RBP + -0x8],RDI
MOV qword ptr [RBP + -0x10],RSI
MOV qword ptr [RBP + -0x18],RDX
MOV RAX,qword ptr [RBP + -0x8]
MOV qword ptr [RBP + -0x20],RAX
CMP qword ptr [RBP + -0x18],0x0
JZ 0x00182c36
MOV RAX,qword ptr [RBP + -0x18]
MOV RCX,qword ptr [RBP + -0x10]
SUB RAX,RCX
CMP RAX,0x1fe
JLE 0x00182c48
LAB_00182c36:
MOV RAX,qword ptr [RBP + -0x10]
ADD RAX,0x200
ADD RAX,-0x2
MOV qword ptr [RBP + -0x18],RAX
LAB_00182c48:
MOV RDI,qword ptr [RBP + -0x8]
MOV RSI,qword ptr [RBP + -0x10]
MOV RDX,qword ptr [RBP + -0x18]
MOV RAX,qword ptr [RBP + -0x10]
SUB RDX,RAX
CALL 0x001d5860
MOV qword ptr [RBP + -0x8],RAX
MOV RAX,qword ptr [RBP + -0x8]
CMP RAX,qword ptr [RBP + -0x20]
JZ 0x00182ca1
MOV RAX,qword ptr [RBP + -0x8]
MOVSX EAX,byte ptr [RAX + -0x1]
CMP EAX,0x2f
JZ 0x00182ca1
MOV RAX,qword ptr [RBP + -0x8]
MOVSX EAX,byte ptr [RAX + -0x1]
CMP EAX,0x0
JZ 0x00182ca1
MOV RAX,qword ptr [RBP + -0x8]
MOV RCX,RAX
ADD RCX,0x1
MOV qword ptr [RBP + -0x8],RCX
MOV byte ptr [RAX],0x2f
MOV RAX,qword ptr [RBP + -0x8]
MOV byte ptr [RAX],0x0
LAB_00182ca1:
JMP 0x00182ca3
LAB_00182ca3:
MOV RAX,qword ptr [RBP + -0x8]
MOV qword ptr [RBP + -0x28],RAX
MOV RAX,qword ptr [RBP + -0x28]
ADD RSP,0x30
POP RBP
RET
|
int1 * convert_dirname(int1 *param_1,long param_2,long param_3)
{
int1 *puVar1;
long local_20;
int1 *local_10;
if ((param_3 == 0) || (local_20 = param_3, 0x1fe < param_3 - param_2)) {
local_20 = param_2 + 0x1fe;
}
puVar1 = (int1 *)strmake(param_1,param_2,local_20 - param_2);
local_10 = puVar1;
if (((puVar1 != param_1) && (puVar1[-1] != '/')) && (puVar1[-1] != '\0')) {
local_10 = puVar1 + 1;
*puVar1 = 0x2f;
*local_10 = 0;
}
return local_10;
}
| |
34,442 | thai2sortable | eloqsql/strings/ctype-tis620.c | static size_t thai2sortable(uchar *tstr, size_t len)
{
uchar *p;
size_t tlen;
uchar l2bias;
tlen= len;
l2bias= 256 - 8;
for (p= tstr; tlen > 0; p++, tlen--)
{
uchar c= *p;
if (isthai(c))
{
const int *t_ctype0= t_ctype[c];
if (isconsnt(c))
l2bias -= 8;
if (isldvowel(c) && tlen != 1 && isconsnt(p[1]))
{
/* simply swap between leading-vowel and consonant */
*p= p[1];
p[1]= c;
tlen--;
p++;
continue;
}
/* if found level 2 char (L2_GARAN,L2_TONE*,L2_TYKHU) move to last */
if (t_ctype0[1] >= L2_GARAN)
{
/*
l2bias use to control position weight of l2char
example (*=l2char) XX*X must come before X*XX
*/
memmove((char*) p, (char*) (p+1), tlen-1);
tstr[len-1]= l2bias + t_ctype0[1]- L2_GARAN +1;
p--;
continue;
}
}
else
{
l2bias-= 8;
*p= to_lower_tis620[c];
}
}
return len;
} | O3 | c | thai2sortable:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x18, %rsp
movq %rdi, -0x38(%rbp)
movq %rsi, -0x30(%rbp)
testq %rsi, %rsi
je 0x43fd8
movb $-0x8, %r13b
leaq 0x1a8b25(%rip), %r12 # 0x1eca40
leaq 0x2e0a8e(%rip), %r8 # 0x3249b0
movq -0x38(%rbp), %r15
movq -0x30(%rbp), %rbx
movb (%r15), %al
movzbl %al, %ecx
testb %cl, %cl
js 0x43f4c
addb $-0x8, %r13b
movb (%rcx,%r8), %al
movb %al, (%r15)
incq %r15
decq %rbx
jne 0x43f2a
jmp 0x43fd8
leaq (%rcx,%rcx,4), %rcx
movl 0x10(%r12,%rcx,4), %edx
leal -0x8(%r13), %esi
testb $0x10, %dl
movzbl %r13b, %edi
movzbl %sil, %r13d
cmovel %edi, %r13d
cmpq $0x1, %rbx
je 0x43f85
andl $0x20, %edx
je 0x43f85
movzbl 0x1(%r15), %edx
leaq -0xcf(%rdx), %rsi
cmpq $-0x2e, %rsi
jae 0x43fc6
leaq (%r12,%rcx,4), %rax
movl 0x4(%rax), %r14d
cmpl $0x9, %r14d
jl 0x43f3f
leaq 0x1(%r15), %rsi
leaq -0x1(%rbx), %rdx
movq %r15, %rdi
callq 0x24610
leaq 0x2e0a06(%rip), %r8 # 0x3249b0
addb %r13b, %r14b
addb $-0x8, %r14b
movq -0x30(%rbp), %rax
movq -0x38(%rbp), %rcx
movb %r14b, -0x1(%rcx,%rax)
decq %r15
jmp 0x43f3f
movb %dl, (%r15)
movb %al, 0x1(%r15)
incq %r15
decq %rbx
jmp 0x43f3f
movq -0x30(%rbp), %rax
addq $0x18, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| thai2sortable:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 18h
mov [rbp+var_38], rdi
mov [rbp+var_30], rsi
test rsi, rsi
jz loc_43FD8
mov r13b, 0F8h
lea r12, t_ctype
lea r8, to_lower_tis620
mov r15, [rbp+var_38]
mov rbx, [rbp+var_30]
loc_43F2A:
mov al, [r15]
movzx ecx, al
test cl, cl
js short loc_43F4C
add r13b, 0F8h
mov al, [rcx+r8]
mov [r15], al
loc_43F3F:
inc r15
dec rbx
jnz short loc_43F2A
jmp loc_43FD8
loc_43F4C:
lea rcx, [rcx+rcx*4]
mov edx, [r12+rcx*4+10h]
lea esi, [r13-8]
test dl, 10h
movzx edi, r13b
movzx r13d, sil
cmovz r13d, edi
cmp rbx, 1
jz short loc_43F85
and edx, 20h
jz short loc_43F85
movzx edx, byte ptr [r15+1]
lea rsi, [rdx-0CFh]
cmp rsi, 0FFFFFFFFFFFFFFD2h
jnb short loc_43FC6
loc_43F85:
lea rax, [r12+rcx*4]
mov r14d, [rax+4]
cmp r14d, 9
jl short loc_43F3F
lea rsi, [r15+1]
lea rdx, [rbx-1]
mov rdi, r15
call _memmove
lea r8, to_lower_tis620
add r14b, r13b
add r14b, 0F8h
mov rax, [rbp+var_30]
mov rcx, [rbp+var_38]
mov [rcx+rax-1], r14b
dec r15
jmp loc_43F3F
loc_43FC6:
mov [r15], dl
mov [r15+1], al
inc r15
dec rbx
jmp loc_43F3F
loc_43FD8:
mov rax, [rbp+var_30]
add rsp, 18h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| long long thai2sortable(unsigned __int8 *a1, long long a2)
{
char v2; // r13
unsigned __int8 *v3; // r15
long long v4; // rbx
unsigned __int8 v5; // al
long long v6; // rcx
long long v7; // rcx
int v8; // edx
char v9; // di
long long v10; // rdx
int v11; // r14d
if ( a2 )
{
v2 = -8;
v3 = a1;
v4 = a2;
do
{
v5 = *v3;
v6 = *v3;
if ( (v6 & 0x80u) != 0LL )
{
v7 = 5 * v6;
v8 = t_ctype[v7 + 4];
v9 = v2;
v2 -= 8;
if ( (v8 & 0x10) == 0 )
v2 = v9;
if ( v4 != 1 && (v8 & 0x20) != 0 && (v10 = v3[1], (unsigned long long)(v10 - 207) >= 0xFFFFFFFFFFFFFFD2LL) )
{
*v3 = v10;
*++v3 = v5;
--v4;
}
else
{
v11 = t_ctype[v7 + 1];
if ( v11 >= 9 )
{
memmove(v3, v3 + 1, v4 - 1);
a1[a2 - 1] = v2 + v11 - 8;
--v3;
}
}
}
else
{
v2 -= 8;
*v3 = to_lower_tis620[v6];
}
++v3;
--v4;
}
while ( v4 );
}
return a2;
}
| thai2sortable:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x18
MOV qword ptr [RBP + -0x38],RDI
MOV qword ptr [RBP + -0x30],RSI
TEST RSI,RSI
JZ 0x00143fd8
MOV R13B,0xf8
LEA R12,[0x2eca40]
LEA R8,[0x4249b0]
MOV R15,qword ptr [RBP + -0x38]
MOV RBX,qword ptr [RBP + -0x30]
LAB_00143f2a:
MOV AL,byte ptr [R15]
MOVZX ECX,AL
TEST CL,CL
JS 0x00143f4c
ADD R13B,0xf8
MOV AL,byte ptr [RCX + R8*0x1]
MOV byte ptr [R15],AL
LAB_00143f3f:
INC R15
DEC RBX
JNZ 0x00143f2a
JMP 0x00143fd8
LAB_00143f4c:
LEA RCX,[RCX + RCX*0x4]
MOV EDX,dword ptr [R12 + RCX*0x4 + 0x10]
LEA ESI,[R13 + -0x8]
TEST DL,0x10
MOVZX EDI,R13B
MOVZX R13D,SIL
CMOVZ R13D,EDI
CMP RBX,0x1
JZ 0x00143f85
AND EDX,0x20
JZ 0x00143f85
MOVZX EDX,byte ptr [R15 + 0x1]
LEA RSI,[RDX + -0xcf]
CMP RSI,-0x2e
JNC 0x00143fc6
LAB_00143f85:
LEA RAX,[R12 + RCX*0x4]
MOV R14D,dword ptr [RAX + 0x4]
CMP R14D,0x9
JL 0x00143f3f
LEA RSI,[R15 + 0x1]
LEA RDX,[RBX + -0x1]
MOV RDI,R15
CALL 0x00124610
LEA R8,[0x4249b0]
ADD R14B,R13B
ADD R14B,0xf8
MOV RAX,qword ptr [RBP + -0x30]
MOV RCX,qword ptr [RBP + -0x38]
MOV byte ptr [RCX + RAX*0x1 + -0x1],R14B
DEC R15
JMP 0x00143f3f
LAB_00143fc6:
MOV byte ptr [R15],DL
MOV byte ptr [R15 + 0x1],AL
INC R15
DEC RBX
JMP 0x00143f3f
LAB_00143fd8:
MOV RAX,qword ptr [RBP + -0x30]
ADD RSP,0x18
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
long thai2sortable(byte *param_1,long param_2)
{
byte bVar1;
int iVar2;
char cVar3;
ulong uVar4;
long lVar5;
char cVar6;
byte *__dest;
if (param_2 != 0) {
cVar6 = -8;
lVar5 = param_2;
__dest = param_1;
do {
bVar1 = *__dest;
uVar4 = (ulong)bVar1;
if ((char)bVar1 < '\0') {
cVar3 = cVar6 + -8;
if ((*(uint *)(t_ctype + uVar4 * 0x14 + 0x10) & 0x10) == 0) {
cVar3 = cVar6;
}
cVar6 = cVar3;
if (((lVar5 == 1) || ((*(uint *)(t_ctype + uVar4 * 0x14 + 0x10) & 0x20) == 0)) ||
((ulong)__dest[1] - 0xcf < 0xffffffffffffffd2)) {
iVar2 = *(int *)(t_ctype + uVar4 * 0x14 + 4);
if (8 < iVar2) {
memmove(__dest,__dest + 1,lVar5 - 1);
param_1[param_2 + -1] = ((char)iVar2 + cVar3) - 8;
__dest = __dest + -1;
}
}
else {
*__dest = __dest[1];
__dest[1] = bVar1;
__dest = __dest + 1;
lVar5 = lVar5 + -1;
}
}
else {
*__dest = to_lower_tis620[uVar4];
cVar6 = cVar6 + -8;
}
__dest = __dest + 1;
lVar5 = lVar5 + -1;
} while (lVar5 != 0);
}
return param_2;
}
| |
34,443 | my_sync_dir_by_file | eloqsql/mysys/my_sync.c | int my_sync_dir_by_file(const char *file_name __attribute__((unused)),
myf my_flags __attribute__((unused)))
{
#ifdef NEED_EXPLICIT_SYNC_DIR
char dir_name[FN_REFLEN];
size_t dir_name_length;
dirname_part(dir_name, file_name, &dir_name_length);
return my_sync_dir(dir_name, my_flags & ~MY_NOSYMLINKS);
#else
return 0;
#endif
} | O3 | c | my_sync_dir_by_file:
pushq %rbp
movq %rsp, %rbp
pushq %r14
pushq %rbx
subq $0x220, %rsp # imm = 0x220
movq %rsi, %rbx
movq %rdi, %rsi
movq %fs:0x28, %rax
movq %rax, -0x18(%rbp)
leaq -0x220(%rbp), %r14
leaq -0x228(%rbp), %rdx
movq %r14, %rdi
callq 0x66069
andl $0xfffffdff, %ebx # imm = 0xFFFFFDFF
movq %r14, %rdi
movq %rbx, %rsi
callq 0x6bf2d
movq %fs:0x28, %rcx
cmpq -0x18(%rbp), %rcx
jne 0x6bffe
addq $0x220, %rsp # imm = 0x220
popq %rbx
popq %r14
popq %rbp
retq
callq 0x372b0
nop
| my_sync_dir_by_file:
push rbp
mov rbp, rsp
push r14
push rbx
sub rsp, 220h
mov rbx, rsi
mov rsi, rdi
mov rax, fs:28h
mov [rbp+var_18], rax
lea r14, [rbp+var_220]
lea rdx, [rbp+var_228]
mov rdi, r14
call dirname_part
and ebx, 0FFFFFDFFh
mov rdi, r14
mov rsi, rbx
call my_sync_dir
mov rcx, fs:28h
cmp rcx, [rbp+var_18]
jnz short loc_6BFFE
add rsp, 220h
pop rbx
pop r14
pop rbp
retn
loc_6BFFE:
call ___stack_chk_fail
| long long my_sync_dir_by_file(_BYTE *a1, int a2)
{
long long v3; // [rsp+8h] [rbp-228h] BYREF
_BYTE v4[520]; // [rsp+10h] [rbp-220h] BYREF
unsigned long long v5; // [rsp+218h] [rbp-18h]
v5 = __readfsqword(0x28u);
dirname_part((long long)v4, a1, &v3);
return my_sync_dir(v4, a2 & 0xFFFFFDFF);
}
| my_sync_dir_by_file:
PUSH RBP
MOV RBP,RSP
PUSH R14
PUSH RBX
SUB RSP,0x220
MOV RBX,RSI
MOV RSI,RDI
MOV RAX,qword ptr FS:[0x28]
MOV qword ptr [RBP + -0x18],RAX
LEA R14,[RBP + -0x220]
LEA RDX,[RBP + -0x228]
MOV RDI,R14
CALL 0x00166069
AND EBX,0xfffffdff
MOV RDI,R14
MOV RSI,RBX
CALL 0x0016bf2d
MOV RCX,qword ptr FS:[0x28]
CMP RCX,qword ptr [RBP + -0x18]
JNZ 0x0016bffe
ADD RSP,0x220
POP RBX
POP R14
POP RBP
RET
LAB_0016bffe:
CALL 0x001372b0
|
void my_sync_dir_by_file(int8 param_1,uint param_2)
{
long in_FS_OFFSET;
int1 local_230 [8];
int1 local_228 [520];
long local_20;
local_20 = *(long *)(in_FS_OFFSET + 0x28);
dirname_part(local_228,param_1,local_230);
my_sync_dir(local_228,param_2 & 0xfffffdff);
if (*(long *)(in_FS_OFFSET + 0x28) == local_20) {
return;
}
/* WARNING: Subroutine does not return */
__stack_chk_fail();
}
| |
34,444 | ma_crypt_index_post_read_hook | eloqsql/storage/maria/ma_crypt.c | static my_bool ma_crypt_index_post_read_hook(int res,
PAGECACHE_IO_HOOK_ARGS *args)
{
MARIA_SHARE *share= (MARIA_SHARE*) args->data;
const uint block_size= share->block_size;
const uint page_used= _ma_get_page_used(share, args->page);
if (res ||
page_used < share->keypage_header ||
page_used >= block_size - CRC_SIZE)
{
res= 1;
my_errno= HA_ERR_DECRYPTION_FAILED;
}
else
{
const uchar *src= args->page;
uchar* dst= args->crypt_buf;
uint pageno= (uint)args->pageno;
LSN lsn= lsn_korr(src);
const uint head= share->keypage_header;
const uint tail= CRC_SIZE;
const uint32 key_version= _ma_get_key_version(share, src);
/* page_used includes header (but not trailer) */
const uint size= page_used - head;
/* 1 - copy head */
memcpy(dst, src, head);
/* 2 - decrypt page */
res= ma_decrypt(share, share->crypt_data,
src + head, dst + head, size, pageno, lsn, key_version);
/* 3 - copy tail */
memcpy(dst + block_size - tail, src + block_size - tail, tail);
/* 4 clear key version to get correct crc */
_ma_store_key_version(share, dst, 0);
}
if (args->crypt_buf != NULL)
{
uchar *tmp= args->page;
args->page= args->crypt_buf;
args->crypt_buf= NULL;
my_free(tmp);
}
return maria_page_crc_check_index(res, args);
} | O0 | c | ma_crypt_index_post_read_hook:
pushq %rbp
movq %rsp, %rbp
subq $0x70, %rsp
movl %edi, -0x4(%rbp)
movq %rsi, -0x10(%rbp)
movq -0x10(%rbp), %rax
movq 0x10(%rax), %rax
movq %rax, -0x18(%rbp)
movq -0x18(%rbp), %rax
movl 0x7bc(%rax), %eax
movl %eax, -0x1c(%rbp)
movq -0x10(%rbp), %rax
movq (%rax), %rax
movq -0x18(%rbp), %rcx
movl 0x744(%rcx), %ecx
movzbl -0x1(%rax,%rcx), %eax
movzwl %ax, %eax
movq -0x10(%rbp), %rcx
movq (%rcx), %rcx
movq -0x18(%rbp), %rdx
movl 0x744(%rdx), %edx
movzbl -0x2(%rcx,%rdx), %ecx
movzwl %cx, %ecx
shll $0x8, %ecx
orl %ecx, %eax
movzwl %ax, %eax
movl %eax, -0x20(%rbp)
cmpl $0x0, -0x4(%rbp)
jne 0x5ef17
movl -0x20(%rbp), %eax
movq -0x18(%rbp), %rcx
cmpl 0x744(%rcx), %eax
jb 0x5ef17
movl -0x20(%rbp), %eax
movl -0x1c(%rbp), %ecx
subl $0x4, %ecx
cmpl %ecx, %eax
jb 0x5ef2e
movl $0x1, -0x4(%rbp)
callq 0xf6090
movl $0xc0, (%rax)
jmp 0x5f046
movq -0x10(%rbp), %rax
movq (%rax), %rax
movq %rax, -0x28(%rbp)
movq -0x10(%rbp), %rax
movq 0x18(%rax), %rax
movq %rax, -0x30(%rbp)
movq -0x10(%rbp), %rax
movq 0x8(%rax), %rax
movl %eax, -0x34(%rbp)
movq -0x28(%rbp), %rax
movzbl (%rax), %eax
movq -0x28(%rbp), %rcx
movzbl 0x1(%rcx), %ecx
shll $0x8, %ecx
orl %ecx, %eax
movq -0x28(%rbp), %rcx
movzbl 0x2(%rcx), %ecx
shll $0x10, %ecx
orl %ecx, %eax
movl %eax, %eax
shlq $0x20, %rax
movq -0x28(%rbp), %rcx
movl 0x3(%rcx), %ecx
orq %rcx, %rax
movq %rax, -0x40(%rbp)
movq -0x18(%rbp), %rax
movl 0x744(%rax), %eax
movl %eax, -0x44(%rbp)
movl $0x4, -0x48(%rbp)
movq -0x28(%rbp), %rax
movq -0x18(%rbp), %rcx
movl 0x744(%rcx), %ecx
movl -0x8(%rax,%rcx), %eax
movl %eax, -0x4c(%rbp)
movl -0x20(%rbp), %eax
subl -0x44(%rbp), %eax
movl %eax, -0x50(%rbp)
movq -0x30(%rbp), %rdi
movq -0x28(%rbp), %rsi
movl -0x44(%rbp), %eax
movl %eax, %edx
callq 0x2a090
movq -0x18(%rbp), %rdi
movq -0x18(%rbp), %rax
movq 0xc20(%rax), %rsi
movq -0x28(%rbp), %rdx
movl -0x44(%rbp), %eax
addq %rax, %rdx
movq -0x30(%rbp), %rcx
movl -0x44(%rbp), %eax
addq %rax, %rcx
movl -0x50(%rbp), %r8d
movl -0x34(%rbp), %r9d
movq -0x40(%rbp), %r10
movl -0x4c(%rbp), %eax
movq %r10, (%rsp)
movl %eax, 0x8(%rsp)
callq 0x5f360
movl %eax, -0x4(%rbp)
movq -0x30(%rbp), %rax
movl -0x1c(%rbp), %ecx
movq -0x28(%rbp), %rdx
movl -0x1c(%rbp), %esi
movl -0x4(%rdx,%rsi), %edx
movl %edx, -0x4(%rax,%rcx)
movq -0x30(%rbp), %rax
movq -0x18(%rbp), %rcx
movl 0x744(%rcx), %ecx
addq %rcx, %rax
addq $-0x8, %rax
movq %rax, -0x58(%rbp)
movq -0x58(%rbp), %rax
movl $0x0, (%rax)
jmp 0x5f046
movq -0x10(%rbp), %rax
cmpq $0x0, 0x18(%rax)
je 0x5f080
movq -0x10(%rbp), %rax
movq (%rax), %rax
movq %rax, -0x60(%rbp)
movq -0x10(%rbp), %rax
movq 0x18(%rax), %rcx
movq -0x10(%rbp), %rax
movq %rcx, (%rax)
movq -0x10(%rbp), %rax
movq $0x0, 0x18(%rax)
movq -0x60(%rbp), %rdi
callq 0xf3bb0
movl -0x4(%rbp), %edi
movq -0x10(%rbp), %rsi
callq 0x5d7a0
addq $0x70, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| ma_crypt_index_post_read_hook:
push rbp
mov rbp, rsp
sub rsp, 70h
mov [rbp+var_4], edi
mov [rbp+var_10], rsi
mov rax, [rbp+var_10]
mov rax, [rax+10h]
mov [rbp+var_18], rax
mov rax, [rbp+var_18]
mov eax, [rax+7BCh]
mov [rbp+var_1C], eax
mov rax, [rbp+var_10]
mov rax, [rax]
mov rcx, [rbp+var_18]
mov ecx, [rcx+744h]
movzx eax, byte ptr [rax+rcx-1]
movzx eax, ax
mov rcx, [rbp+var_10]
mov rcx, [rcx]
mov rdx, [rbp+var_18]
mov edx, [rdx+744h]
movzx ecx, byte ptr [rcx+rdx-2]
movzx ecx, cx
shl ecx, 8
or eax, ecx
movzx eax, ax
mov [rbp+var_20], eax
cmp [rbp+var_4], 0
jnz short loc_5EF17
mov eax, [rbp+var_20]
mov rcx, [rbp+var_18]
cmp eax, [rcx+744h]
jb short loc_5EF17
mov eax, [rbp+var_20]
mov ecx, [rbp+var_1C]
sub ecx, 4
cmp eax, ecx
jb short loc_5EF2E
loc_5EF17:
mov [rbp+var_4], 1
call _my_thread_var
mov dword ptr [rax], 0C0h
jmp loc_5F046
loc_5EF2E:
mov rax, [rbp+var_10]
mov rax, [rax]
mov [rbp+var_28], rax
mov rax, [rbp+var_10]
mov rax, [rax+18h]
mov [rbp+var_30], rax
mov rax, [rbp+var_10]
mov rax, [rax+8]
mov [rbp+var_34], eax
mov rax, [rbp+var_28]
movzx eax, byte ptr [rax]
mov rcx, [rbp+var_28]
movzx ecx, byte ptr [rcx+1]
shl ecx, 8
or eax, ecx
mov rcx, [rbp+var_28]
movzx ecx, byte ptr [rcx+2]
shl ecx, 10h
or eax, ecx
mov eax, eax
shl rax, 20h
mov rcx, [rbp+var_28]
mov ecx, [rcx+3]
or rax, rcx
mov [rbp+var_40], rax
mov rax, [rbp+var_18]
mov eax, [rax+744h]
mov [rbp+var_44], eax
mov [rbp+var_48], 4
mov rax, [rbp+var_28]
mov rcx, [rbp+var_18]
mov ecx, [rcx+744h]
mov eax, [rax+rcx-8]
mov [rbp+var_4C], eax
mov eax, [rbp+var_20]
sub eax, [rbp+var_44]
mov [rbp+var_50], eax
mov rdi, [rbp+var_30]
mov rsi, [rbp+var_28]
mov eax, [rbp+var_44]
mov edx, eax
call _memcpy
mov rdi, [rbp+var_18]
mov rax, [rbp+var_18]
mov rsi, [rax+0C20h]
mov rdx, [rbp+var_28]
mov eax, [rbp+var_44]
add rdx, rax
mov rcx, [rbp+var_30]
mov eax, [rbp+var_44]
add rcx, rax
mov r8d, [rbp+var_50]
mov r9d, [rbp+var_34]
mov r10, [rbp+var_40]
mov eax, [rbp+var_4C]
mov [rsp+70h+var_70], r10
mov [rsp+70h+var_68], eax
call ma_decrypt
mov [rbp+var_4], eax
mov rax, [rbp+var_30]
mov ecx, [rbp+var_1C]
mov rdx, [rbp+var_28]
mov esi, [rbp+var_1C]
mov edx, [rdx+rsi-4]
mov [rax+rcx-4], edx
mov rax, [rbp+var_30]
mov rcx, [rbp+var_18]
mov ecx, [rcx+744h]
add rax, rcx
add rax, 0FFFFFFFFFFFFFFF8h
mov [rbp+var_58], rax
mov rax, [rbp+var_58]
mov dword ptr [rax], 0
jmp short $+2
loc_5F046:
mov rax, [rbp+var_10]
cmp qword ptr [rax+18h], 0
jz short loc_5F080
mov rax, [rbp+var_10]
mov rax, [rax]
mov [rbp+var_60], rax
mov rax, [rbp+var_10]
mov rcx, [rax+18h]
mov rax, [rbp+var_10]
mov [rax], rcx
mov rax, [rbp+var_10]
mov qword ptr [rax+18h], 0
mov rdi, [rbp+var_60]
call my_free
loc_5F080:
mov edi, [rbp+var_4]
mov rsi, [rbp+var_10]
call maria_page_crc_check_index
add rsp, 70h
pop rbp
retn
| bool ma_crypt_index_post_read_hook(long long a1, char *a2)
{
long long v3; // [rsp+10h] [rbp-60h]
int v4; // [rsp+24h] [rbp-4Ch]
unsigned int v5; // [rsp+2Ch] [rbp-44h]
unsigned long long v6; // [rsp+30h] [rbp-40h]
int v7; // [rsp+3Ch] [rbp-34h]
long long v8; // [rsp+40h] [rbp-30h]
unsigned __int16 *v9; // [rsp+48h] [rbp-28h]
unsigned int v10; // [rsp+50h] [rbp-20h]
unsigned int v11; // [rsp+54h] [rbp-1Ch]
long long v12; // [rsp+58h] [rbp-18h]
unsigned int v13; // [rsp+6Ch] [rbp-4h]
v12 = *((_QWORD *)a2 + 2);
v11 = *(_DWORD *)(v12 + 1980);
v10 = _byteswap_ushort(*(_WORD *)(*(_QWORD *)a2 + *(unsigned int *)(v12 + 1860) - 2LL));
if ( (_DWORD)a1 || v10 < *(_DWORD *)(v12 + 1860) || v10 >= v11 - 4 )
{
v13 = 1;
*(_DWORD *)my_thread_var(a1, a2) = 192;
}
else
{
v9 = *(unsigned __int16 **)a2;
v8 = *((_QWORD *)a2 + 3);
v7 = *((_QWORD *)a2 + 1);
v6 = *(unsigned int *)((char *)v9 + 3) | ((unsigned long long)((*((unsigned __int8 *)v9 + 2) << 16) | (unsigned int)*v9) << 32);
v5 = *(_DWORD *)(v12 + 1860);
v4 = *(_DWORD *)(*(_QWORD *)a2 + v5 - 8LL);
memcpy(v8, *(_QWORD *)a2, v5);
v13 = ma_decrypt(v12, *(_QWORD *)(v12 + 3104), v5 + (unsigned int)v9, v5 + (unsigned int)v8, v10 - v5, v7, v6, v4);
*(_DWORD *)(v8 + v11 - 4) = *(_DWORD *)((char *)v9 + v11 - 4);
*(_DWORD *)(*(unsigned int *)(v12 + 1860) + v8 - 8) = 0;
}
if ( *((_QWORD *)a2 + 3) )
{
v3 = *(_QWORD *)a2;
*(_QWORD *)a2 = *((_QWORD *)a2 + 3);
*((_QWORD *)a2 + 3) = 0LL;
my_free(v3);
}
return maria_page_crc_check_index(v13, a2);
}
| ma_crypt_index_post_read_hook:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x70
MOV dword ptr [RBP + -0x4],EDI
MOV qword ptr [RBP + -0x10],RSI
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x10]
MOV qword ptr [RBP + -0x18],RAX
MOV RAX,qword ptr [RBP + -0x18]
MOV EAX,dword ptr [RAX + 0x7bc]
MOV dword ptr [RBP + -0x1c],EAX
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX]
MOV RCX,qword ptr [RBP + -0x18]
MOV ECX,dword ptr [RCX + 0x744]
MOVZX EAX,byte ptr [RAX + RCX*0x1 + -0x1]
MOVZX EAX,AX
MOV RCX,qword ptr [RBP + -0x10]
MOV RCX,qword ptr [RCX]
MOV RDX,qword ptr [RBP + -0x18]
MOV EDX,dword ptr [RDX + 0x744]
MOVZX ECX,byte ptr [RCX + RDX*0x1 + -0x2]
MOVZX ECX,CX
SHL ECX,0x8
OR EAX,ECX
MOVZX EAX,AX
MOV dword ptr [RBP + -0x20],EAX
CMP dword ptr [RBP + -0x4],0x0
JNZ 0x0015ef17
MOV EAX,dword ptr [RBP + -0x20]
MOV RCX,qword ptr [RBP + -0x18]
CMP EAX,dword ptr [RCX + 0x744]
JC 0x0015ef17
MOV EAX,dword ptr [RBP + -0x20]
MOV ECX,dword ptr [RBP + -0x1c]
SUB ECX,0x4
CMP EAX,ECX
JC 0x0015ef2e
LAB_0015ef17:
MOV dword ptr [RBP + -0x4],0x1
CALL 0x001f6090
MOV dword ptr [RAX],0xc0
JMP 0x0015f046
LAB_0015ef2e:
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX]
MOV qword ptr [RBP + -0x28],RAX
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x18]
MOV qword ptr [RBP + -0x30],RAX
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x8]
MOV dword ptr [RBP + -0x34],EAX
MOV RAX,qword ptr [RBP + -0x28]
MOVZX EAX,byte ptr [RAX]
MOV RCX,qword ptr [RBP + -0x28]
MOVZX ECX,byte ptr [RCX + 0x1]
SHL ECX,0x8
OR EAX,ECX
MOV RCX,qword ptr [RBP + -0x28]
MOVZX ECX,byte ptr [RCX + 0x2]
SHL ECX,0x10
OR EAX,ECX
MOV EAX,EAX
SHL RAX,0x20
MOV RCX,qword ptr [RBP + -0x28]
MOV ECX,dword ptr [RCX + 0x3]
OR RAX,RCX
MOV qword ptr [RBP + -0x40],RAX
MOV RAX,qword ptr [RBP + -0x18]
MOV EAX,dword ptr [RAX + 0x744]
MOV dword ptr [RBP + -0x44],EAX
MOV dword ptr [RBP + -0x48],0x4
MOV RAX,qword ptr [RBP + -0x28]
MOV RCX,qword ptr [RBP + -0x18]
MOV ECX,dword ptr [RCX + 0x744]
MOV EAX,dword ptr [RAX + RCX*0x1 + -0x8]
MOV dword ptr [RBP + -0x4c],EAX
MOV EAX,dword ptr [RBP + -0x20]
SUB EAX,dword ptr [RBP + -0x44]
MOV dword ptr [RBP + -0x50],EAX
MOV RDI,qword ptr [RBP + -0x30]
MOV RSI,qword ptr [RBP + -0x28]
MOV EAX,dword ptr [RBP + -0x44]
MOV EDX,EAX
CALL 0x0012a090
MOV RDI,qword ptr [RBP + -0x18]
MOV RAX,qword ptr [RBP + -0x18]
MOV RSI,qword ptr [RAX + 0xc20]
MOV RDX,qword ptr [RBP + -0x28]
MOV EAX,dword ptr [RBP + -0x44]
ADD RDX,RAX
MOV RCX,qword ptr [RBP + -0x30]
MOV EAX,dword ptr [RBP + -0x44]
ADD RCX,RAX
MOV R8D,dword ptr [RBP + -0x50]
MOV R9D,dword ptr [RBP + -0x34]
MOV R10,qword ptr [RBP + -0x40]
MOV EAX,dword ptr [RBP + -0x4c]
MOV qword ptr [RSP],R10
MOV dword ptr [RSP + 0x8],EAX
CALL 0x0015f360
MOV dword ptr [RBP + -0x4],EAX
MOV RAX,qword ptr [RBP + -0x30]
MOV ECX,dword ptr [RBP + -0x1c]
MOV RDX,qword ptr [RBP + -0x28]
MOV ESI,dword ptr [RBP + -0x1c]
MOV EDX,dword ptr [RDX + RSI*0x1 + -0x4]
MOV dword ptr [RAX + RCX*0x1 + -0x4],EDX
MOV RAX,qword ptr [RBP + -0x30]
MOV RCX,qword ptr [RBP + -0x18]
MOV ECX,dword ptr [RCX + 0x744]
ADD RAX,RCX
ADD RAX,-0x8
MOV qword ptr [RBP + -0x58],RAX
MOV RAX,qword ptr [RBP + -0x58]
MOV dword ptr [RAX],0x0
JMP 0x0015f046
LAB_0015f046:
MOV RAX,qword ptr [RBP + -0x10]
CMP qword ptr [RAX + 0x18],0x0
JZ 0x0015f080
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX]
MOV qword ptr [RBP + -0x60],RAX
MOV RAX,qword ptr [RBP + -0x10]
MOV RCX,qword ptr [RAX + 0x18]
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX],RCX
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX + 0x18],0x0
MOV RDI,qword ptr [RBP + -0x60]
CALL 0x001f3bb0
LAB_0015f080:
MOV EDI,dword ptr [RBP + -0x4]
MOV RSI,qword ptr [RBP + -0x10]
CALL 0x0015d7a0
ADD RSP,0x70
POP RBP
RET
|
void ma_crypt_index_post_read_hook(int param_1,long *param_2)
{
uint uVar1;
int4 uVar2;
uint uVar3;
int4 uVar4;
long lVar5;
int3 *__src;
void *__dest;
ulong uVar6;
int3 uVar7;
uint uVar8;
int4 *puVar9;
int4 local_c;
lVar5 = param_2[2];
uVar1 = *(uint *)(lVar5 + 0x7bc);
uVar8 = (uint)CONCAT11(*(int1 *)(*param_2 + -2 + (ulong)*(uint *)(lVar5 + 0x744)),
*(int1 *)(*param_2 + -1 + (ulong)*(uint *)(lVar5 + 0x744)));
if (((param_1 == 0) && (*(uint *)(lVar5 + 0x744) <= uVar8)) && (uVar8 < uVar1 - 4)) {
__src = (int3 *)*param_2;
__dest = (void *)param_2[3];
uVar6 = param_2[1];
uVar7 = *__src;
uVar2 = *(int4 *)((long)__src + 3);
uVar3 = *(uint *)(lVar5 + 0x744);
uVar4 = *(int4 *)((long)__src + ((ulong)*(uint *)(lVar5 + 0x744) - 8));
memcpy(__dest,__src,(ulong)uVar3);
local_c = ma_decrypt(lVar5,*(int8 *)(lVar5 + 0xc20),(long)__src + (ulong)uVar3,
(long)__dest + (ulong)uVar3,uVar8 - uVar3,uVar6 & 0xffffffff,
(ulong)CONCAT34(uVar7,uVar2),uVar4);
*(int4 *)((long)__dest + ((ulong)uVar1 - 4)) =
*(int4 *)((long)__src + ((ulong)uVar1 - 4));
*(int4 *)((long)__dest + ((ulong)*(uint *)(lVar5 + 0x744) - 8)) = 0;
}
else {
local_c = 1;
puVar9 = (int4 *)_my_thread_var();
*puVar9 = 0xc0;
}
if (param_2[3] != 0) {
lVar5 = *param_2;
*param_2 = param_2[3];
param_2[3] = 0;
my_free(lVar5);
}
maria_page_crc_check_index(local_c,param_2);
return;
}
| |
34,445 | Rpl_filter::set_do_table(char const*) | eloqsql/sql/rpl_filter.cc | int
Rpl_filter::set_do_table(const char* table_spec)
{
int status;
if (do_table_inited)
{
my_hash_free(&do_table);
do_table_inited= 0;
}
status= parse_filter_rule(table_spec, &Rpl_filter::add_do_table);
if (do_table_inited && status)
{
if (!do_table.records)
{
my_hash_free(&do_table);
do_table_inited= 0;
}
}
return status;
} | O3 | cpp | Rpl_filter::set_do_table(char const*):
pushq %rbp
movq %rsp, %rbp
pushq %r14
pushq %rbx
movq %rsi, %r14
movq %rdi, %rbx
cmpb $0x1, 0x135(%rdi)
jne 0x54efd
movq %rbx, %rdi
callq 0x7a04d
movb $0x0, 0x135(%rbx)
leaq -0x20c(%rip), %rdx # 0x54cf8
movq %rbx, %rdi
movq %r14, %rsi
xorl %ecx, %ecx
callq 0x54c1a
movl %eax, %r14d
testl %eax, %eax
je 0x54f37
cmpb $0x0, 0x135(%rbx)
je 0x54f37
cmpq $0x0, 0x18(%rbx)
jne 0x54f37
movq %rbx, %rdi
callq 0x7a04d
movb $0x0, 0x135(%rbx)
movl %r14d, %eax
popq %rbx
popq %r14
popq %rbp
retq
nop
| _ZN10Rpl_filter12set_do_tableEPKc:
push rbp
mov rbp, rsp
push r14
push rbx
mov r14, rsi
mov rbx, rdi
cmp byte ptr [rdi+135h], 1
jnz short loc_54EFD
mov rdi, rbx
call my_hash_free
mov byte ptr [rbx+135h], 0
loc_54EFD:
lea rdx, _ZN10Rpl_filter12add_do_tableEPKc; Rpl_filter::add_do_table(char const*)
mov rdi, rbx
mov rsi, r14
xor ecx, ecx
call _ZN10Rpl_filter17parse_filter_ruleEPKcMS_FiS1_E; Rpl_filter::parse_filter_rule(char const*,int (Rpl_filter::*)(char const*))
mov r14d, eax
test eax, eax
jz short loc_54F37
cmp byte ptr [rbx+135h], 0
jz short loc_54F37
cmp qword ptr [rbx+18h], 0
jnz short loc_54F37
mov rdi, rbx
call my_hash_free
mov byte ptr [rbx+135h], 0
loc_54F37:
mov eax, r14d
pop rbx
pop r14
pop rbp
retn
| long long Rpl_filter::set_do_table(Rpl_filter *this, const char *a2)
{
unsigned int v2; // r14d
if ( *((_BYTE *)this + 309) == 1 )
{
my_hash_free(this);
*((_BYTE *)this + 309) = 0;
}
v2 = Rpl_filter::parse_filter_rule((long long)this, (long long)a2, (char *)Rpl_filter::add_do_table, 0LL);
if ( v2 && *((_BYTE *)this + 309) && !*((_QWORD *)this + 3) )
{
my_hash_free(this);
*((_BYTE *)this + 309) = 0;
}
return v2;
}
| set_do_table:
PUSH RBP
MOV RBP,RSP
PUSH R14
PUSH RBX
MOV R14,RSI
MOV RBX,RDI
CMP byte ptr [RDI + 0x135],0x1
JNZ 0x00154efd
MOV RDI,RBX
CALL 0x0017a04d
MOV byte ptr [RBX + 0x135],0x0
LAB_00154efd:
LEA RDX,[0x154cf8]
MOV RDI,RBX
MOV RSI,R14
XOR ECX,ECX
CALL 0x00154c1a
MOV R14D,EAX
TEST EAX,EAX
JZ 0x00154f37
CMP byte ptr [RBX + 0x135],0x0
JZ 0x00154f37
CMP qword ptr [RBX + 0x18],0x0
JNZ 0x00154f37
MOV RDI,RBX
CALL 0x0017a04d
MOV byte ptr [RBX + 0x135],0x0
LAB_00154f37:
MOV EAX,R14D
POP RBX
POP R14
POP RBP
RET
|
/* Rpl_filter::set_do_table(char const*) */
int __thiscall Rpl_filter::set_do_table(Rpl_filter *this,char *param_1)
{
int iVar1;
if (this[0x135] == (Rpl_filter)0x1) {
my_hash_free(this);
this[0x135] = (Rpl_filter)0x0;
}
iVar1 = parse_filter_rule((char *)this,(_func_int_char_ptr *)param_1);
if (((iVar1 != 0) && (this[0x135] != (Rpl_filter)0x0)) && (*(long *)(this + 0x18) == 0)) {
my_hash_free(this);
this[0x135] = (Rpl_filter)0x0;
}
return iVar1;
}
| |
34,446 | google::protobuf::Base64EscapeInternal(unsigned char const*, int, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>*, bool, char const*) | aimrt_mujoco_sim/_deps/protobuf-src/src/google/protobuf/stubs/strutil.cc | void Base64EscapeInternal(const unsigned char *src, int szsrc,
std::string *dest, bool do_padding,
const char *base64_chars) {
const int calc_escaped_size =
CalculateBase64EscapedLen(szsrc, do_padding);
dest->resize(calc_escaped_size);
const int escaped_len = Base64EscapeInternal(src, szsrc,
string_as_array(dest),
dest->size(),
base64_chars,
do_padding);
GOOGLE_DCHECK_EQ(calc_escaped_size, escaped_len);
dest->erase(escaped_len);
} | O0 | cpp | google::protobuf::Base64EscapeInternal(unsigned char const*, int, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>*, bool, char const*):
subq $0xa8, %rsp
movb %cl, %al
movq %rdi, 0xa0(%rsp)
movl %esi, 0x9c(%rsp)
movq %rdx, 0x90(%rsp)
andb $0x1, %al
movb %al, 0x8f(%rsp)
movq %r8, 0x80(%rsp)
movl 0x9c(%rsp), %edi
movb 0x8f(%rsp), %al
andb $0x1, %al
movzbl %al, %esi
callq 0x2dee0
movl %eax, 0x7c(%rsp)
movq 0x90(%rsp), %rdi
movslq 0x7c(%rsp), %rsi
callq 0x13600
movq 0xa0(%rsp), %rax
movq %rax, 0x10(%rsp)
movl 0x9c(%rsp), %eax
movl %eax, 0x1c(%rsp)
movq 0x90(%rsp), %rdi
callq 0x30b80
movq %rax, 0x20(%rsp)
movq 0x90(%rsp), %rdi
callq 0x147d0
movq 0x10(%rsp), %rdi
movl 0x1c(%rsp), %esi
movq 0x20(%rsp), %rdx
movl %eax, %ecx
movq 0x80(%rsp), %r8
movb 0x8f(%rsp), %al
andb $0x1, %al
movzbl %al, %r9d
callq 0x2efb0
movl %eax, 0x78(%rsp)
xorl %eax, %eax
testb $0x1, %al
jne 0x2f70f
jmp 0x2f7ab
movl 0x7c(%rsp), %eax
movl 0x78(%rsp), %ecx
movb $0x0, 0x3f(%rsp)
cmpl %ecx, %eax
jne 0x2f722
jmp 0x2f770
leaq 0x1bd567(%rip), %rdx # 0x1ecc90
leaq 0x40(%rsp), %rdi
movq %rdi, (%rsp)
movl $0x3, %esi
movl $0x8a7, %ecx # imm = 0x8A7
callq 0x237e0
movq (%rsp), %rdi
movb $0x1, 0x3f(%rsp)
leaq 0x1bd9cf(%rip), %rsi # 0x1ed120
callq 0x230a0
movq %rax, 0x8(%rsp)
jmp 0x2f75d
movq 0x8(%rsp), %rsi
leaq 0x2b(%rsp), %rdi
callq 0x23250
jmp 0x2f76e
jmp 0x2f770
testb $0x1, 0x3f(%rsp)
jne 0x2f779
jmp 0x2f783
leaq 0x40(%rsp), %rdi
callq 0x23820
jmp 0x2f704
movq %rax, %rcx
movl %edx, %eax
movq %rcx, 0x30(%rsp)
movl %eax, 0x2c(%rsp)
testb $0x1, 0x3f(%rsp)
jne 0x2f79f
jmp 0x2f7a9
leaq 0x40(%rsp), %rdi
callq 0x23820
jmp 0x2f7cc
movq 0x90(%rsp), %rdi
movslq 0x78(%rsp), %rsi
movq $-0x1, %rdx
callq 0x130d0
addq $0xa8, %rsp
retq
movq 0x30(%rsp), %rdi
callq 0x13750
nopw %cs:(%rax,%rax)
| _ZN6google8protobuf20Base64EscapeInternalEPKhiPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEbPKc:
sub rsp, 0A8h
mov al, cl
mov [rsp+0A8h+var_C+4], rdi
mov dword ptr [rsp+0A8h+var_C], esi
mov [rsp+0A8h+var_18], rdx
and al, 1
mov [rsp+0A8h+var_19], al
mov qword ptr [rsp+0A8h+var_28], r8
mov edi, dword ptr [rsp+0A8h+var_C]; this
mov al, [rsp+0A8h+var_19]
and al, 1
movzx esi, al; int
call _ZN6google8protobuf25CalculateBase64EscapedLenEib; google::protobuf::CalculateBase64EscapedLen(int,bool)
mov [rsp+0A8h+var_2C], eax
mov rdi, [rsp+0A8h+var_18]
movsxd rsi, [rsp+0A8h+var_2C]
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE6resizeEm; std::string::resize(ulong)
mov rax, [rsp+0A8h+var_C+4]
mov [rsp+0A8h+var_98], rax
mov eax, dword ptr [rsp+0A8h+var_C]
mov dword ptr [rsp+0A8h+var_8C], eax
mov rdi, [rsp+0A8h+var_18]
call _ZN6google8protobuf15string_as_arrayEPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE; google::protobuf::string_as_array(std::string *)
mov [rsp+0A8h+var_8C+4], rax
mov rdi, [rsp+0A8h+var_18]
call _ZNKSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE4sizeEv; std::string::size(void)
mov rdi, [rsp+0A8h+var_98]; this
mov esi, dword ptr [rsp+0A8h+var_8C]; unsigned __int8 *
mov rdx, [rsp+0A8h+var_8C+4]; int
mov ecx, eax; char *
mov r8, qword ptr [rsp+0A8h+var_28]; int
mov al, [rsp+0A8h+var_19]
and al, 1
movzx r9d, al; char *
call _ZN6google8protobuf20Base64EscapeInternalEPKhiPciPKcb; google::protobuf::Base64EscapeInternal(uchar const*,int,char *,int,char const*,bool)
mov [rsp+0A8h+var_30], eax
loc_2F704:
xor eax, eax
test al, 1
jnz short loc_2F70F
jmp loc_2F7AB
loc_2F70F:
mov eax, [rsp+0A8h+var_2C]
mov ecx, [rsp+0A8h+var_30]
mov [rsp+0A8h+var_69], 0
cmp eax, ecx
jnz short loc_2F722
jmp short loc_2F770
loc_2F722:
lea rdx, aWorkspaceLlm4b_3; "/workspace/llm4binary/github2025/aimrt_"...
lea rdi, [rsp+0A8h+var_68]
mov [rsp+0A8h+var_A8], rdi
mov esi, 3
mov ecx, 8A7h
call _ZN6google8protobuf8internal10LogMessageC2ENS0_8LogLevelEPKci; google::protobuf::internal::LogMessage::LogMessage(google::protobuf::LogLevel,char const*,int)
mov rdi, [rsp+0A8h+var_A8]
mov [rsp+0A8h+var_69], 1
lea rsi, aCheckFailedCal; "CHECK failed: (calc_escaped_size) == (e"...
call _ZN6google8protobuf8internal10LogMessagelsEPKc; google::protobuf::internal::LogMessage::operator<<(char const*)
mov [rsp+0A8h+var_A0], rax
jmp short $+2
loc_2F75D:
mov rsi, [rsp+0A8h+var_A0]
lea rdi, [rsp+0A8h+var_7D]
call _ZN6google8protobuf8internal11LogFinisheraSERNS1_10LogMessageE; google::protobuf::internal::LogFinisher::operator=(google::protobuf::internal::LogMessage &)
jmp short $+2
loc_2F76E:
jmp short $+2
loc_2F770:
test [rsp+0A8h+var_69], 1
jnz short loc_2F779
jmp short loc_2F783
loc_2F779:
lea rdi, [rsp+0A8h+var_68]; this
call _ZN6google8protobuf8internal10LogMessageD2Ev; google::protobuf::internal::LogMessage::~LogMessage()
loc_2F783:
jmp loc_2F704
mov rcx, rax
mov eax, edx
mov [rsp+arg_28], rcx
mov [rsp+arg_24], eax
test [rsp+arg_37], 1
jnz short loc_2F79F
jmp short loc_2F7A9
loc_2F79F:
lea rdi, [rsp+arg_38]; this
call _ZN6google8protobuf8internal10LogMessageD2Ev; google::protobuf::internal::LogMessage::~LogMessage()
loc_2F7A9:
jmp short loc_2F7CC
loc_2F7AB:
mov rdi, [rsp+0A8h+var_18]
movsxd rsi, [rsp+0A8h+var_30]
mov rdx, 0FFFFFFFFFFFFFFFFh
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE5eraseEmm; std::string::erase(ulong,ulong)
add rsp, 0A8h
retn
loc_2F7CC:
mov rdi, [rsp+arg_28]
call __Unwind_Resume
| long long google::protobuf::Base64EscapeInternal(
google::protobuf *a1,
unsigned int a2,
long long a3,
char a4,
long long a5)
{
unsigned int v5; // eax
unsigned __int8 *v7; // [rsp+20h] [rbp-88h]
int v8; // [rsp+78h] [rbp-30h]
int v9; // [rsp+7Ch] [rbp-2Ch]
int v10[2]; // [rsp+80h] [rbp-28h]
char v11; // [rsp+8Fh] [rbp-19h]
long long v12; // [rsp+90h] [rbp-18h]
_DWORD v13[3]; // [rsp+9Ch] [rbp-Ch]
*(_QWORD *)&v13[1] = a1;
v13[0] = a2;
v12 = a3;
v11 = a4 & 1;
*(_QWORD *)v10 = a5;
v9 = google::protobuf::CalculateBase64EscapedLen((google::protobuf *)a2, a4 & 1);
std::string::resize(v12, v9);
v7 = (unsigned __int8 *)google::protobuf::string_as_array(v12);
v5 = std::string::size(v12);
v8 = google::protobuf::Base64EscapeInternal(
a1,
(const unsigned __int8 *)a2,
v7,
(char *)v5,
*(long long *)v10,
(const char *)(v11 & 1));
return std::string::erase(v12, v8, -1LL);
}
| Base64EscapeInternal:
SUB RSP,0xa8
MOV AL,CL
MOV qword ptr [RSP + 0xa0],RDI
MOV dword ptr [RSP + 0x9c],ESI
MOV qword ptr [RSP + 0x90],RDX
AND AL,0x1
MOV byte ptr [RSP + 0x8f],AL
MOV qword ptr [RSP + 0x80],R8
MOV EDI,dword ptr [RSP + 0x9c]
MOV AL,byte ptr [RSP + 0x8f]
AND AL,0x1
MOVZX ESI,AL
CALL 0x0012dee0
MOV dword ptr [RSP + 0x7c],EAX
MOV RDI,qword ptr [RSP + 0x90]
MOVSXD RSI,dword ptr [RSP + 0x7c]
CALL 0x00113600
MOV RAX,qword ptr [RSP + 0xa0]
MOV qword ptr [RSP + 0x10],RAX
MOV EAX,dword ptr [RSP + 0x9c]
MOV dword ptr [RSP + 0x1c],EAX
MOV RDI,qword ptr [RSP + 0x90]
CALL 0x00130b80
MOV qword ptr [RSP + 0x20],RAX
MOV RDI,qword ptr [RSP + 0x90]
CALL 0x001147d0
MOV RDI,qword ptr [RSP + 0x10]
MOV ESI,dword ptr [RSP + 0x1c]
MOV RDX,qword ptr [RSP + 0x20]
MOV ECX,EAX
MOV R8,qword ptr [RSP + 0x80]
MOV AL,byte ptr [RSP + 0x8f]
AND AL,0x1
MOVZX R9D,AL
CALL 0x0012efb0
MOV dword ptr [RSP + 0x78],EAX
LAB_0012f704:
XOR EAX,EAX
TEST AL,0x1
JNZ 0x0012f70f
JMP 0x0012f7ab
LAB_0012f70f:
MOV EAX,dword ptr [RSP + 0x7c]
MOV ECX,dword ptr [RSP + 0x78]
MOV byte ptr [RSP + 0x3f],0x0
CMP EAX,ECX
JNZ 0x0012f722
JMP 0x0012f770
LAB_0012f722:
LEA RDX,[0x2ecc90]
LEA RDI,[RSP + 0x40]
MOV qword ptr [RSP],RDI
MOV ESI,0x3
MOV ECX,0x8a7
CALL 0x001237e0
MOV RDI,qword ptr [RSP]
MOV byte ptr [RSP + 0x3f],0x1
LAB_0012f74a:
LEA RSI,[0x2ed120]
CALL 0x001230a0
MOV qword ptr [RSP + 0x8],RAX
JMP 0x0012f75d
LAB_0012f75d:
MOV RSI,qword ptr [RSP + 0x8]
LEA RDI,[RSP + 0x2b]
CALL 0x00123250
LAB_0012f76c:
JMP 0x0012f76e
LAB_0012f76e:
JMP 0x0012f770
LAB_0012f770:
TEST byte ptr [RSP + 0x3f],0x1
JNZ 0x0012f779
JMP 0x0012f783
LAB_0012f779:
LEA RDI,[RSP + 0x40]
CALL 0x00123820
LAB_0012f783:
JMP 0x0012f704
LAB_0012f7ab:
MOV RDI,qword ptr [RSP + 0x90]
MOVSXD RSI,dword ptr [RSP + 0x78]
MOV RDX,-0x1
CALL 0x001130d0
ADD RSP,0xa8
RET
|
/* WARNING: Removing unreachable block (ram,0x0012f70f) */
/* WARNING: Removing unreachable block (ram,0x0012f722) */
/* WARNING: Removing unreachable block (ram,0x0012f720) */
/* WARNING: Removing unreachable block (ram,0x0012f770) */
/* WARNING: Removing unreachable block (ram,0x0012f779) */
/* WARNING: Removing unreachable block (ram,0x0012f777) */
/* WARNING: Removing unreachable block (ram,0x0012f783) */
/* google::protobuf::Base64EscapeInternal(unsigned char const*, int, std::__cxx11::string*, bool,
char const*) */
void google::protobuf::Base64EscapeInternal
(uchar *param_1,int param_2,string *param_3,bool param_4,char *param_5)
{
int iVar1;
char *pcVar2;
CalculateBase64EscapedLen(param_2,param_4);
std::__cxx11::string::resize((ulong)param_3);
pcVar2 = (char *)string_as_array(param_3);
iVar1 = std::__cxx11::string::size(param_3);
iVar1 = Base64EscapeInternal(param_1,param_2,pcVar2,iVar1,param_5,param_4);
std::__cxx11::string::erase((ulong)param_3,(long)iVar1);
return;
}
| |
34,447 | ftxui::borderEmpty(std::shared_ptr<ftxui::Node>) | Andrewchistyakov[P]flashcards_lyc/build_O1/_deps/ftxui-src/src/ftxui/dom/border.cpp | Element borderEmpty(Element child) {
return std::make_shared<Border>(unpack(std::move(child)), EMPTY);
} | O1 | cpp | ftxui::borderEmpty(std::shared_ptr<ftxui::Node>):
pushq %r15
pushq %r14
pushq %rbx
subq $0x40, %rsp
movq %rdi, %rbx
movq (%rsi), %rcx
leaq 0x18(%rsp), %rax
movq %rcx, (%rax)
xorl %ecx, %ecx
movq %rcx, 0x8(%rax)
movq 0x8(%rsi), %rdx
movq %rcx, 0x8(%rsi)
movq %rdx, 0x8(%rax)
movq %rcx, (%rsi)
movq %rsp, %rdi
movq %rax, %rsi
callq 0x22c33
movl $0x80, %edi
callq 0xb3e0
movq %rax, %r14
movabsq $0x100000001, %rax # imm = 0x100000001
movq %rax, 0x8(%r14)
leaq 0x36535(%rip), %rax # 0x580a0
movq %rax, (%r14)
movq %r14, %r15
addq $0x10, %r15
movq (%rsp), %rax
leaq 0x28(%rsp), %rsi
movq %rax, (%rsi)
movups 0x8(%rsp), %xmm0
movups %xmm0, 0x8(%rsi)
xorps %xmm0, %xmm0
movaps %xmm0, (%rsp)
movq $0x0, 0x10(%rsp)
movq %r15, %rdi
movl $0x5, %edx
xorl %ecx, %ecx
callq 0x21dd2
leaq 0x28(%rsp), %rdi
callq 0x151c0
movq %r15, (%rbx)
movq %r14, 0x8(%rbx)
movq %rsp, %rdi
callq 0x151c0
movq 0x20(%rsp), %rdi
testq %rdi, %rdi
je 0x21bd1
callq 0x14c7c
movq %rbx, %rax
addq $0x40, %rsp
popq %rbx
popq %r14
popq %r15
retq
movq %rax, %rbx
leaq 0x28(%rsp), %rdi
callq 0x151c0
movl $0x80, %esi
movq %r14, %rdi
callq 0xb400
jmp 0x21bfd
movq %rax, %rbx
movq %rsp, %rdi
callq 0x151c0
jmp 0x21c0a
movq %rax, %rbx
movq 0x20(%rsp), %rdi
testq %rdi, %rdi
je 0x21c19
callq 0x14c7c
movq %rbx, %rdi
callq 0xb780
| _ZN5ftxui11borderEmptyESt10shared_ptrINS_4NodeEE:
push r15
push r14
push rbx
sub rsp, 40h
mov rbx, rdi
mov rcx, [rsi]
lea rax, [rsp+58h+var_40]
mov [rax], rcx
xor ecx, ecx
mov [rax+8], rcx
mov rdx, [rsi+8]
mov [rsi+8], rcx
mov [rax+8], rdx
mov [rsi], rcx
mov rdi, rsp
mov rsi, rax
call _ZN5ftxui6unpackIJSt10shared_ptrINS_4NodeEEEEESt6vectorIS3_SaIS3_EEDpT_; ftxui::unpack<std::shared_ptr<ftxui::Node>>(std::shared_ptr<ftxui::Node>)
mov edi, 80h; unsigned __int64
call __Znwm; operator new(ulong)
mov r14, rax
mov rax, 100000001h
mov [r14+8], rax
lea rax, off_580A0
mov [r14], rax
mov r15, r14
add r15, 10h
mov rax, qword ptr [rsp+58h+var_58]
lea rsi, [rsp+58h+var_30]
mov [rsi], rax
movups xmm0, [rsp+58h+var_58+8]
movups xmmword ptr [rsi+8], xmm0
xorps xmm0, xmm0
movaps [rsp+58h+var_58], xmm0
mov [rsp+58h+var_48], 0
mov rdi, r15
mov edx, 5
xor ecx, ecx
call _ZN5ftxui12_GLOBAL__N_16BorderC2ESt6vectorISt10shared_ptrINS_4NodeEESaIS5_EENS_11BorderStyleESt8optionalINS_5ColorEE; ftxui::`anonymous namespace'::Border::Border(std::vector<std::shared_ptr<ftxui::Node>>,ftxui::BorderStyle,std::optional<ftxui::Color>)
lea rdi, [rsp+58h+var_30]
call _ZNSt6vectorISt10shared_ptrIN5ftxui4NodeEESaIS3_EED2Ev; std::vector<std::shared_ptr<ftxui::Node>>::~vector()
mov [rbx], r15
mov [rbx+8], r14
mov rdi, rsp
call _ZNSt6vectorISt10shared_ptrIN5ftxui4NodeEESaIS3_EED2Ev; std::vector<std::shared_ptr<ftxui::Node>>::~vector()
mov rdi, [rsp+58h+var_38]
test rdi, rdi
jz short loc_21BD1
call _ZNSt16_Sp_counted_baseILN9__gnu_cxx12_Lock_policyE2EE10_M_releaseEv; std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(void)
loc_21BD1:
mov rax, rbx
add rsp, 40h
pop rbx
pop r14
pop r15
retn
mov rbx, rax
lea rdi, [rsp+arg_20]
call _ZNSt6vectorISt10shared_ptrIN5ftxui4NodeEESaIS3_EED2Ev; std::vector<std::shared_ptr<ftxui::Node>>::~vector()
mov esi, 80h; unsigned __int64
mov rdi, r14; void *
call __ZdlPvm; operator delete(void *,ulong)
jmp short loc_21BFD
mov rbx, rax
loc_21BFD:
mov rdi, rsp
call _ZNSt6vectorISt10shared_ptrIN5ftxui4NodeEESaIS3_EED2Ev; std::vector<std::shared_ptr<ftxui::Node>>::~vector()
jmp short loc_21C0A
mov rbx, rax
loc_21C0A:
mov rdi, [rsp+arg_18]
test rdi, rdi
jz short loc_21C19
call _ZNSt16_Sp_counted_baseILN9__gnu_cxx12_Lock_policyE2EE10_M_releaseEv; std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(void)
loc_21C19:
mov rdi, rbx
call __Unwind_Resume
| _QWORD * ftxui::borderEmpty(_QWORD *a1, long long *a2, long long a3, long long a4, int a5, int a6)
{
volatile signed __int32 *v6; // rdx
_QWORD *v7; // r14
int v8; // r8d
int v9; // r9d
void *v11; // [rsp+0h] [rbp-58h] BYREF
__int128 v12; // [rsp+8h] [rbp-50h]
long long v13; // [rsp+18h] [rbp-40h] BYREF
volatile signed __int32 *v14; // [rsp+20h] [rbp-38h]
void *v15; // [rsp+28h] [rbp-30h] BYREF
__int128 v16; // [rsp+30h] [rbp-28h]
v13 = *a2;
v14 = 0LL;
v6 = (volatile signed __int32 *)a2[1];
a2[1] = 0LL;
v14 = v6;
*a2 = 0LL;
ftxui::unpack<std::shared_ptr<ftxui::Node>>(
(unsigned int)&v11,
(unsigned int)&v13,
(_DWORD)v6,
0,
a5,
a6,
(_DWORD)v11,
v12);
v7 = (_QWORD *)operator new(0x80uLL);
v7[1] = 0x100000001LL;
*v7 = off_580A0;
v15 = v11;
v16 = v12;
ftxui::`anonymous namespace'::Border::Border((_DWORD)v7 + 16, (unsigned int)&v15, 5, 0, v8, v9, 0LL, 0LL, 0LL);
std::vector<std::shared_ptr<ftxui::Node>>::~vector(&v15);
*a1 = v7 + 2;
a1[1] = v7;
std::vector<std::shared_ptr<ftxui::Node>>::~vector(&v11);
if ( v14 )
std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(v14);
return a1;
}
| borderEmpty:
PUSH R15
PUSH R14
PUSH RBX
SUB RSP,0x40
MOV RBX,RDI
MOV RCX,qword ptr [RSI]
LEA RAX,[RSP + 0x18]
MOV qword ptr [RAX],RCX
XOR ECX,ECX
MOV qword ptr [RAX + 0x8],RCX
MOV RDX,qword ptr [RSI + 0x8]
MOV qword ptr [RSI + 0x8],RCX
MOV qword ptr [RAX + 0x8],RDX
MOV qword ptr [RSI],RCX
LAB_00121b3e:
MOV RDI,RSP
MOV RSI,RAX
CALL 0x00122c33
LAB_00121b49:
MOV EDI,0x80
CALL 0x0010b3e0
MOV R14,RAX
MOV RAX,0x100000001
MOV qword ptr [R14 + 0x8],RAX
LEA RAX,[0x1580a0]
MOV qword ptr [R14],RAX
MOV R15,R14
ADD R15,0x10
MOV RAX,qword ptr [RSP]
LEA RSI,[RSP + 0x28]
MOV qword ptr [RSI],RAX
MOVUPS XMM0,xmmword ptr [RSP + 0x8]
MOVUPS xmmword ptr [RSI + 0x8],XMM0
XORPS XMM0,XMM0
MOVAPS xmmword ptr [RSP],XMM0
MOV qword ptr [RSP + 0x10],0x0
LAB_00121b9a:
MOV RDI,R15
MOV EDX,0x5
XOR ECX,ECX
CALL 0x00121dd2
LAB_00121ba9:
LEA RDI,[RSP + 0x28]
CALL 0x001151c0
MOV qword ptr [RBX],R15
MOV qword ptr [RBX + 0x8],R14
MOV RDI,RSP
CALL 0x001151c0
MOV RDI,qword ptr [RSP + 0x20]
TEST RDI,RDI
JZ 0x00121bd1
CALL 0x00114c7c
LAB_00121bd1:
MOV RAX,RBX
ADD RSP,0x40
POP RBX
POP R14
POP R15
RET
|
/* ftxui::borderEmpty(std::shared_ptr<ftxui::Node>) */
ftxui * __thiscall ftxui::borderEmpty(ftxui *this,int8 *param_2)
{
int8 *puVar1;
int8 local_58;
int8 uStack_50;
int8 uStack_48;
int8 local_40;
_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *local_38;
int8 local_30;
int8 local_28;
int8 uStack_20;
local_40 = *param_2;
local_38 = (_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *)param_2[1];
param_2[1] = 0;
*param_2 = 0;
/* try { // try from 00121b3e to 00121b48 has its CatchHandler @ 00121c07 */
unpack<std::shared_ptr<ftxui::Node>>((ftxui *)&local_58,&local_40);
/* try { // try from 00121b49 to 00121b52 has its CatchHandler @ 00121bfa */
puVar1 = (int8 *)operator_new(0x80);
puVar1[1] = 0x100000001;
*puVar1 = &PTR___Sp_counted_ptr_inplace_001580a0;
local_30 = local_58;
local_28 = uStack_50;
uStack_20 = uStack_48;
local_58 = 0;
uStack_50 = 0;
uStack_48 = 0;
/* try { // try from 00121b9a to 00121ba8 has its CatchHandler @ 00121bde */
(anonymous_namespace)::Border::Border((Border *)(puVar1 + 2),&local_30,5,0);
std::vector<std::shared_ptr<ftxui::Node>,std::allocator<std::shared_ptr<ftxui::Node>>>::~vector
((vector<std::shared_ptr<ftxui::Node>,std::allocator<std::shared_ptr<ftxui::Node>>> *)
&local_30);
*(Border **)this = (Border *)(puVar1 + 2);
*(int8 **)(this + 8) = puVar1;
std::vector<std::shared_ptr<ftxui::Node>,std::allocator<std::shared_ptr<ftxui::Node>>>::~vector
((vector<std::shared_ptr<ftxui::Node>,std::allocator<std::shared_ptr<ftxui::Node>>> *)
&local_58);
if (local_38 != (_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *)0x0) {
std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(local_38);
}
return this;
}
| |
34,448 | cs_enter | eloqsql/strings/ctype.c | static int cs_enter(MY_XML_PARSER *st,const char *attr, size_t len)
{
struct my_cs_file_info *i= (struct my_cs_file_info *)st->user_data;
const struct my_cs_file_section_st *s= cs_file_sec(attr,len);
int state= s ? s->state : 0;
switch (state) {
case 0:
i->loader->reporter(WARNING_LEVEL, "Unknown LDML tag: '%.*s'", len, attr);
break;
case _CS_CHARSET:
my_charset_file_reset_charset(i);
break;
case _CS_COLLATION:
my_charset_file_reset_collation(i);
break;
case _CS_RESET:
return tailoring_append(st, " &", 0, NULL);
default:
break;
}
return MY_XML_OK;
} | O0 | c | cs_enter:
pushq %rbp
movq %rsp, %rbp
subq $0x40, %rsp
movq %rdi, -0x10(%rbp)
movq %rsi, -0x18(%rbp)
movq %rdx, -0x20(%rbp)
movq -0x10(%rbp), %rax
movq 0x140(%rax), %rax
movq %rax, -0x28(%rbp)
movq -0x18(%rbp), %rdi
movq -0x20(%rbp), %rsi
callq 0x73dd0
movq %rax, -0x30(%rbp)
cmpq $0x0, -0x30(%rbp)
je 0x72366
movq -0x30(%rbp), %rax
movl (%rax), %eax
movl %eax, -0x38(%rbp)
jmp 0x7236d
xorl %eax, %eax
movl %eax, -0x38(%rbp)
jmp 0x7236d
movl -0x38(%rbp), %eax
movl %eax, -0x34(%rbp)
movl -0x34(%rbp), %eax
movl %eax, -0x3c(%rbp)
testl %eax, %eax
je 0x7239f
jmp 0x7237f
movl -0x3c(%rbp), %eax
subl $0x8, %eax
je 0x723cc
jmp 0x72389
movl -0x3c(%rbp), %eax
subl $0x9, %eax
je 0x723d7
jmp 0x72393
movl -0x3c(%rbp), %eax
subl $0x12d, %eax # imm = 0x12D
je 0x723e2
jmp 0x723fe
movq -0x28(%rbp), %rax
movq 0x7a8(%rax), %rax
movq 0xa0(%rax), %r8
movq -0x20(%rbp), %rdx
movq -0x18(%rbp), %rcx
movl $0x1, %edi
leaq 0x10adc(%rip), %rsi # 0x82ea1
movb $0x0, %al
callq *%r8
jmp 0x72400
movq -0x28(%rbp), %rdi
callq 0x73d70
jmp 0x72400
movq -0x28(%rbp), %rdi
callq 0x73da0
jmp 0x72400
movq -0x10(%rbp), %rdi
leaq 0x10acd(%rip), %rsi # 0x82eba
xorl %eax, %eax
movl %eax, %ecx
movq %rcx, %rdx
callq 0x73e60
movl %eax, -0x4(%rbp)
jmp 0x72407
jmp 0x72400
movl $0x0, -0x4(%rbp)
movl -0x4(%rbp), %eax
addq $0x40, %rsp
popq %rbp
retq
| cs_enter:
push rbp
mov rbp, rsp
sub rsp, 40h
mov [rbp+var_10], rdi
mov [rbp+var_18], rsi
mov [rbp+var_20], rdx
mov rax, [rbp+var_10]
mov rax, [rax+140h]
mov [rbp+var_28], rax
mov rdi, [rbp+var_18]
mov rsi, [rbp+var_20]
call cs_file_sec
mov [rbp+var_30], rax
cmp [rbp+var_30], 0
jz short loc_72366
mov rax, [rbp+var_30]
mov eax, [rax]
mov [rbp+var_38], eax
jmp short loc_7236D
loc_72366:
xor eax, eax
mov [rbp+var_38], eax
jmp short $+2
loc_7236D:
mov eax, [rbp+var_38]
mov [rbp+var_34], eax
mov eax, [rbp+var_34]
mov [rbp+var_3C], eax
test eax, eax
jz short loc_7239F
jmp short $+2
loc_7237F:
mov eax, [rbp+var_3C]
sub eax, 8
jz short loc_723CC
jmp short $+2
loc_72389:
mov eax, [rbp+var_3C]
sub eax, 9
jz short loc_723D7
jmp short $+2
loc_72393:
mov eax, [rbp+var_3C]
sub eax, 12Dh
jz short loc_723E2
jmp short loc_723FE
loc_7239F:
mov rax, [rbp+var_28]
mov rax, [rax+7A8h]
mov r8, [rax+0A0h]
mov rdx, [rbp+var_20]
mov rcx, [rbp+var_18]
mov edi, 1
lea rsi, aUnknownLdmlTag; "Unknown LDML tag: '%.*s'"
mov al, 0
call r8
jmp short loc_72400
loc_723CC:
mov rdi, [rbp+var_28]
call my_charset_file_reset_charset
jmp short loc_72400
loc_723D7:
mov rdi, [rbp+var_28]
call my_charset_file_reset_collation
jmp short loc_72400
loc_723E2:
mov rdi, [rbp+var_10]
lea rsi, asc_82EBA; " &"
xor eax, eax
mov ecx, eax
mov rdx, rcx
call tailoring_append
mov [rbp+var_4], eax
jmp short loc_72407
loc_723FE:
jmp short $+2
loc_72400:
mov [rbp+var_4], 0
loc_72407:
mov eax, [rbp+var_4]
add rsp, 40h
pop rbp
retn
| long long cs_enter(long long a1, const char *a2, long long a3)
{
int v4; // [rsp+8h] [rbp-38h]
int *v5; // [rsp+10h] [rbp-30h]
long long v6; // [rsp+18h] [rbp-28h]
int v7; // [rsp+20h] [rbp-20h]
v7 = a3;
v6 = *(_QWORD *)(a1 + 320);
v5 = (int *)cs_file_sec(a2, a3);
if ( v5 )
v4 = *v5;
else
v4 = 0;
switch ( v4 )
{
case 0:
(*(void (**)(long long, const char *, ...))(*(_QWORD *)(v6 + 1960) + 160LL))(
1LL,
"Unknown LDML tag: '%.*s'",
v7,
a2);
return 0;
case 8:
my_charset_file_reset_charset(v6);
return 0;
case 9:
my_charset_file_reset_collation(v6);
return 0;
}
if ( v4 != 301 )
return 0;
return (unsigned int)tailoring_append(a1, " &", 0LL);
}
| cs_enter:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x40
MOV qword ptr [RBP + -0x10],RDI
MOV qword ptr [RBP + -0x18],RSI
MOV qword ptr [RBP + -0x20],RDX
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x140]
MOV qword ptr [RBP + -0x28],RAX
MOV RDI,qword ptr [RBP + -0x18]
MOV RSI,qword ptr [RBP + -0x20]
CALL 0x00173dd0
MOV qword ptr [RBP + -0x30],RAX
CMP qword ptr [RBP + -0x30],0x0
JZ 0x00172366
MOV RAX,qword ptr [RBP + -0x30]
MOV EAX,dword ptr [RAX]
MOV dword ptr [RBP + -0x38],EAX
JMP 0x0017236d
LAB_00172366:
XOR EAX,EAX
MOV dword ptr [RBP + -0x38],EAX
JMP 0x0017236d
LAB_0017236d:
MOV EAX,dword ptr [RBP + -0x38]
MOV dword ptr [RBP + -0x34],EAX
MOV EAX,dword ptr [RBP + -0x34]
MOV dword ptr [RBP + -0x3c],EAX
TEST EAX,EAX
JZ 0x0017239f
JMP 0x0017237f
LAB_0017237f:
MOV EAX,dword ptr [RBP + -0x3c]
SUB EAX,0x8
JZ 0x001723cc
JMP 0x00172389
LAB_00172389:
MOV EAX,dword ptr [RBP + -0x3c]
SUB EAX,0x9
JZ 0x001723d7
JMP 0x00172393
LAB_00172393:
MOV EAX,dword ptr [RBP + -0x3c]
SUB EAX,0x12d
JZ 0x001723e2
JMP 0x001723fe
LAB_0017239f:
MOV RAX,qword ptr [RBP + -0x28]
MOV RAX,qword ptr [RAX + 0x7a8]
MOV R8,qword ptr [RAX + 0xa0]
MOV RDX,qword ptr [RBP + -0x20]
MOV RCX,qword ptr [RBP + -0x18]
MOV EDI,0x1
LEA RSI,[0x182ea1]
MOV AL,0x0
CALL R8
JMP 0x00172400
LAB_001723cc:
MOV RDI,qword ptr [RBP + -0x28]
CALL 0x00173d70
JMP 0x00172400
LAB_001723d7:
MOV RDI,qword ptr [RBP + -0x28]
CALL 0x00173da0
JMP 0x00172400
LAB_001723e2:
MOV RDI,qword ptr [RBP + -0x10]
LEA RSI,[0x182eba]
XOR EAX,EAX
MOV ECX,EAX
MOV RDX,RCX
CALL 0x00173e60
MOV dword ptr [RBP + -0x4],EAX
JMP 0x00172407
LAB_001723fe:
JMP 0x00172400
LAB_00172400:
MOV dword ptr [RBP + -0x4],0x0
LAB_00172407:
MOV EAX,dword ptr [RBP + -0x4]
ADD RSP,0x40
POP RBP
RET
|
int4 cs_enter(long param_1,int8 param_2,int8 param_3)
{
long lVar1;
int4 uVar2;
int *piVar3;
int local_40;
lVar1 = *(long *)(param_1 + 0x140);
piVar3 = (int *)cs_file_sec(param_2,param_3);
if (piVar3 == (int *)0x0) {
local_40 = 0;
}
else {
local_40 = *piVar3;
}
if (local_40 == 0) {
(**(code **)(*(long *)(lVar1 + 0x7a8) + 0xa0))(1,"Unknown LDML tag: \'%.*s\'",param_3,param_2);
}
else if (local_40 == 8) {
my_charset_file_reset_charset(lVar1);
}
else if (local_40 == 9) {
my_charset_file_reset_collation(lVar1);
}
else if (local_40 == 0x12d) {
uVar2 = tailoring_append(param_1,&DAT_00182eba,0);
return uVar2;
}
return 0;
}
| |
34,449 | my_wc_mb_gb2312 | eloqsql/strings/ctype-gb2312.c | static int
my_wc_mb_gb2312(CHARSET_INFO *cs __attribute__((unused)),
my_wc_t wc, uchar *s, uchar *e)
{
int code;
if (s >= e)
return MY_CS_TOOSMALL;
if ((uint) wc < 0x80)
{
s[0]= (uchar) wc;
return 1;
}
if (!(code=func_uni_gb2312_onechar(wc)))
return MY_CS_ILUNI;
if (s+2>e)
return MY_CS_TOOSMALL2;
code|=0x8080;
s[0]=code>>8;
s[1]=code&0xFF;
return 2;
} | O3 | c | my_wc_mb_gb2312:
movl $0xffffff9b, %eax # imm = 0xFFFFFF9B
cmpq %rcx, %rdx
jae 0x3cca4
cmpl $0x7f, %esi
ja 0x3cca5
movb %sil, (%rdx)
movl $0x1, %eax
retq
leal -0xa4(%rsi), %eax
cmpl $0x138, %eax # imm = 0x138
ja 0x3ccc0
movl %eax, %eax
leaq 0x13ad95(%rip), %rsi # 0x177a50
jmp 0x3cd9b
leal -0x2c7(%rsi), %eax
cmpl $0x18a, %eax # imm = 0x18A
ja 0x3ccdb
movl %eax, %eax
leaq 0x13affa(%rip), %rsi # 0x177cd0
jmp 0x3cd9b
leal -0x2015(%rsi), %eax
cmpl $0x2fd, %eax # imm = 0x2FD
ja 0x3ccf6
movl %eax, %eax
leaq 0x13b2ff(%rip), %rsi # 0x177ff0
jmp 0x3cd9b
leal -0x2460(%rsi), %eax
cmpl $0x1e2, %eax # imm = 0x1E2
ja 0x3cd11
movl %eax, %eax
leaq 0x13b8e4(%rip), %rsi # 0x1785f0
jmp 0x3cd9b
leal -0x3000(%rsi), %eax
cmpl $0x129, %eax # imm = 0x129
ja 0x3cd29
movl %eax, %eax
leaq 0x13bc99(%rip), %rsi # 0x1789c0
jmp 0x3cd9b
leal -0x3220(%rsi), %eax
cmpl $0x9, %eax
ja 0x3cd3f
movl %eax, %eax
leaq 0x13bee3(%rip), %rsi # 0x178c20
jmp 0x3cd9b
leal -0x4e00(%rsi), %eax
cmpl $0x4d54, %eax # imm = 0x4D54
ja 0x3cd57
movl %eax, %eax
leaq 0x13beeb(%rip), %rsi # 0x178c40
jmp 0x3cd9b
leal -0x9c7c(%rsi), %eax
cmpl $0x66, %eax
ja 0x3cd6d
movl %eax, %eax
leaq 0x145985(%rip), %rsi # 0x1826f0
jmp 0x3cd9b
leal -0x9e1f(%rsi), %eax
cmpl $0x181, %eax # imm = 0x181
ja 0x3cd85
movl %eax, %eax
leaq 0x145a3d(%rip), %rsi # 0x1827c0
jmp 0x3cd9b
leal -0xff01(%rsi), %eax
cmpl $0xe4, %eax
ja 0x3cdd1
movl %eax, %eax
leaq 0x145d35(%rip), %rsi # 0x182ad0
leaq (%rsi,%rax,2), %rax
pushq %rbp
movq %rsp, %rbp
movzwl (%rax), %esi
testw %si, %si
je 0x3cdcd
leaq 0x2(%rdx), %rdi
movl $0xffffff9a, %eax # imm = 0xFFFFFF9A
cmpq %rcx, %rdi
ja 0x3cdcf
orl $0x8080, %esi # imm = 0x8080
rolw $0x8, %si
movw %si, (%rdx)
movl $0x2, %eax
jmp 0x3cdcf
xorl %eax, %eax
popq %rbp
retq
xorl %eax, %eax
retq
| my_wc_mb_gb2312:
mov eax, 0FFFFFF9Bh
cmp rdx, rcx
jnb short locret_3CCA4
cmp esi, 7Fh
ja short loc_3CCA5
mov [rdx], sil
mov eax, 1
locret_3CCA4:
retn
loc_3CCA5:
lea eax, [rsi-0A4h]
cmp eax, 138h
ja short loc_3CCC0
mov eax, eax
lea rsi, tab_uni_gb23120
jmp loc_3CD9B
loc_3CCC0:
lea eax, [rsi-2C7h]
cmp eax, 18Ah
ja short loc_3CCDB
mov eax, eax
lea rsi, tab_uni_gb23121
jmp loc_3CD9B
loc_3CCDB:
lea eax, [rsi-2015h]
cmp eax, 2FDh
ja short loc_3CCF6
mov eax, eax
lea rsi, tab_uni_gb23122; "*!,!"
jmp loc_3CD9B
loc_3CCF6:
lea eax, [rsi-2460h]
cmp eax, 1E2h
ja short loc_3CD11
mov eax, eax
lea rsi, tab_uni_gb23123; "Y\"Z\"[\"\\\"]\"^\"_\"`\"a\"b\""
jmp loc_3CD9B
loc_3CD11:
lea eax, [rsi-3000h]
cmp eax, 129h
ja short loc_3CD29
mov eax, eax
lea rsi, tab_uni_gb23124; "!!\"!#!(!"
jmp short loc_3CD9B
loc_3CD29:
lea eax, [rsi-3220h]
cmp eax, 9
ja short loc_3CD3F
mov eax, eax
lea rsi, tab_uni_gb23125; "e\"f\"g\"h\"i\"j\"k\"l\"m\"n\""
jmp short loc_3CD9B
loc_3CD3F:
lea eax, [rsi-4E00h]
cmp eax, 4D54h
ja short loc_3CD57
mov eax, eax
lea rsi, tab_uni_gb23126; ";R!6"
jmp short loc_3CD9B
loc_3CD57:
lea eax, [rsi-9C7Ch]
cmp eax, 66h ; 'f'
ja short loc_3CD6D
mov eax, eax
lea rsi, tab_uni_gb23127
jmp short loc_3CD9B
loc_3CD6D:
lea eax, [rsi-9E1Fh]
cmp eax, 181h
ja short loc_3CD85
mov eax, eax
lea rsi, tab_uni_gb23128; "qD/p&<0pyC"
jmp short loc_3CD9B
loc_3CD85:
lea eax, [rsi-0FF01h]
cmp eax, 0E4h
ja short loc_3CDD1
mov eax, eax
lea rsi, tab_uni_gb23129; "!#\"###g!%#&#'#(#)#*#+#,#-#.#/#0#1#2#3#"...
loc_3CD9B:
lea rax, [rsi+rax*2]
push rbp
mov rbp, rsp
movzx esi, word ptr [rax]
test si, si
jz short loc_3CDCD
lea rdi, [rdx+2]
mov eax, 0FFFFFF9Ah
cmp rdi, rcx
ja short loc_3CDCF
or esi, 8080h
rol si, 8
mov [rdx], si
mov eax, 2
jmp short loc_3CDCF
loc_3CDCD:
xor eax, eax
loc_3CDCF:
pop rbp
retn
loc_3CDD1:
xor eax, eax
retn
| long long my_wc_mb_gb2312(long long a1, unsigned int a2, _WORD *a3, unsigned long long a4)
{
long long result; // rax
long long v5; // rax
const char *v6; // rsi
__int16 v7; // si
result = 4294967195LL;
if ( (unsigned long long)a3 < a4 )
{
if ( a2 > 0x7F )
{
LODWORD(v5) = a2 - 164;
if ( a2 - 164 > 0x138 )
{
LODWORD(v5) = a2 - 711;
if ( a2 - 711 > 0x18A )
{
LODWORD(v5) = a2 - 8213;
if ( a2 - 8213 > 0x2FD )
{
LODWORD(v5) = a2 - 9312;
if ( a2 - 9312 > 0x1E2 )
{
LODWORD(v5) = a2 - 12288;
if ( a2 - 12288 > 0x129 )
{
LODWORD(v5) = a2 - 12832;
if ( a2 - 12832 > 9 )
{
LODWORD(v5) = a2 - 19968;
if ( a2 - 19968 > 0x4D54 )
{
LODWORD(v5) = a2 - 40060;
if ( a2 - 40060 > 0x66 )
{
LODWORD(v5) = a2 - 40479;
if ( a2 - 40479 > 0x181 )
{
LODWORD(v5) = a2 - 65281;
if ( a2 - 65281 > 0xE4 )
return 0LL;
v5 = (unsigned int)v5;
v6 = "!#\"###g!%#&#'#(#)#*#+#,#-#.#/#0#1#2#3#4#5#6#7#8#9#:#;#<#=#>#?#@#A#B#C#D#E#F#G#H#I#J#K#L#M#"
"N#O#P#Q#R#S#T#U#V#W#X#Y#Z#[#\\#]#^#_#`#a#b#c#d#e#f#g#h#i#j#k#l#m#n#o#p#q#r#s#t#u#v#w#x#y#z#{#|#}#+!";
}
else
{
v5 = (unsigned int)v5;
v6 = "qD/p&<0pyC";
}
}
else
{
v5 = (unsigned int)v5;
v6 = (const char *)&tab_uni_gb23127;
}
}
else
{
v5 = (unsigned int)v5;
v6 = ";R!6";
}
}
else
{
v5 = (unsigned int)v5;
v6 = "e\"f\"g\"h\"i\"j\"k\"l\"m\"n\"";
}
}
else
{
v5 = (unsigned int)v5;
v6 = "!!\"!#!(!";
}
}
else
{
v5 = (unsigned int)v5;
v6 = "Y\"Z\"[\"\\\"]\"^\"_\"`\"a\"b\"";
}
}
else
{
v5 = (unsigned int)v5;
v6 = "*!,!";
}
}
else
{
v5 = (unsigned int)v5;
v6 = (const char *)&tab_uni_gb23121;
}
}
else
{
v5 = (unsigned int)v5;
v6 = (const char *)&tab_uni_gb23120;
}
v7 = *(_WORD *)&v6[2 * v5];
if ( v7 )
{
result = 4294967194LL;
if ( (unsigned long long)(a3 + 1) <= a4 )
{
*a3 = __ROL2__(v7 | 0x8080, 8);
return 2LL;
}
}
else
{
return 0LL;
}
}
else
{
*(_BYTE *)a3 = a2;
return 1LL;
}
}
return result;
}
| my_wc_mb_gb2312:
MOV EAX,0xffffff9b
CMP RDX,RCX
JNC 0x0013cca4
CMP ESI,0x7f
JA 0x0013cca5
MOV byte ptr [RDX],SIL
MOV EAX,0x1
LAB_0013cca4:
RET
LAB_0013cca5:
LEA EAX,[RSI + -0xa4]
CMP EAX,0x138
JA 0x0013ccc0
MOV EAX,EAX
LEA RSI,[0x277a50]
JMP 0x0013cd9b
LAB_0013ccc0:
LEA EAX,[RSI + -0x2c7]
CMP EAX,0x18a
JA 0x0013ccdb
MOV EAX,EAX
LEA RSI,[0x277cd0]
JMP 0x0013cd9b
LAB_0013ccdb:
LEA EAX,[RSI + -0x2015]
CMP EAX,0x2fd
JA 0x0013ccf6
MOV EAX,EAX
LEA RSI,[0x277ff0]
JMP 0x0013cd9b
LAB_0013ccf6:
LEA EAX,[RSI + -0x2460]
CMP EAX,0x1e2
JA 0x0013cd11
MOV EAX,EAX
LEA RSI,[0x2785f0]
JMP 0x0013cd9b
LAB_0013cd11:
LEA EAX,[RSI + -0x3000]
CMP EAX,0x129
JA 0x0013cd29
MOV EAX,EAX
LEA RSI,[0x2789c0]
JMP 0x0013cd9b
LAB_0013cd29:
LEA EAX,[RSI + -0x3220]
CMP EAX,0x9
JA 0x0013cd3f
MOV EAX,EAX
LEA RSI,[0x278c20]
JMP 0x0013cd9b
LAB_0013cd3f:
LEA EAX,[RSI + -0x4e00]
CMP EAX,0x4d54
JA 0x0013cd57
MOV EAX,EAX
LEA RSI,[0x278c40]
JMP 0x0013cd9b
LAB_0013cd57:
LEA EAX,[RSI + -0x9c7c]
CMP EAX,0x66
JA 0x0013cd6d
MOV EAX,EAX
LEA RSI,[0x2826f0]
JMP 0x0013cd9b
LAB_0013cd6d:
LEA EAX,[RSI + -0x9e1f]
CMP EAX,0x181
JA 0x0013cd85
MOV EAX,EAX
LEA RSI,[0x2827c0]
JMP 0x0013cd9b
LAB_0013cd85:
LEA EAX,[RSI + -0xff01]
CMP EAX,0xe4
JA 0x0013cdd1
MOV EAX,EAX
LEA RSI,[0x282ad0]
LAB_0013cd9b:
LEA RAX,[RSI + RAX*0x2]
PUSH RBP
MOV RBP,RSP
MOVZX ESI,word ptr [RAX]
TEST SI,SI
JZ 0x0013cdcd
LEA RDI,[RDX + 0x2]
MOV EAX,0xffffff9a
CMP RDI,RCX
JA 0x0013cdcf
OR ESI,0x8080
ROL SI,0x8
MOV word ptr [RDX],SI
MOV EAX,0x2
JMP 0x0013cdcf
LAB_0013cdcd:
XOR EAX,EAX
LAB_0013cdcf:
POP RBP
RET
LAB_0013cdd1:
XOR EAX,EAX
RET
|
int8 my_wc_mb_gb2312(int8 param_1,uint param_2,ushort *param_3,ushort *param_4)
{
int8 uVar1;
ulong uVar2;
ushort uVar3;
int1 *puVar4;
uVar1 = 0xffffff9b;
if (param_3 < param_4) {
if (0x7f < param_2) {
if (param_2 - 0xa4 < 0x139) {
uVar2 = (ulong)(param_2 - 0xa4);
puVar4 = tab_uni_gb23120;
}
else if (param_2 - 0x2c7 < 0x18b) {
uVar2 = (ulong)(param_2 - 0x2c7);
puVar4 = tab_uni_gb23121;
}
else if (param_2 - 0x2015 < 0x2fe) {
uVar2 = (ulong)(param_2 - 0x2015);
puVar4 = tab_uni_gb23122;
}
else if (param_2 - 0x2460 < 0x1e3) {
uVar2 = (ulong)(param_2 - 0x2460);
puVar4 = tab_uni_gb23123;
}
else if (param_2 - 0x3000 < 0x12a) {
uVar2 = (ulong)(param_2 - 0x3000);
puVar4 = tab_uni_gb23124;
}
else if (param_2 - 0x3220 < 10) {
uVar2 = (ulong)(param_2 - 0x3220);
puVar4 = tab_uni_gb23125;
}
else if (param_2 - 0x4e00 < 0x4d55) {
uVar2 = (ulong)(param_2 - 0x4e00);
puVar4 = &tab_uni_gb23126;
}
else if (param_2 - 0x9c7c < 0x67) {
uVar2 = (ulong)(param_2 - 0x9c7c);
puVar4 = tab_uni_gb23127;
}
else if (param_2 - 0x9e1f < 0x182) {
uVar2 = (ulong)(param_2 - 0x9e1f);
puVar4 = tab_uni_gb23128;
}
else {
uVar2 = (ulong)(param_2 - 0xff01);
if (0xe4 < param_2 - 0xff01) {
return 0;
}
puVar4 = tab_uni_gb23129;
}
if (*(ushort *)(puVar4 + uVar2 * 2) == 0) {
uVar1 = 0;
}
else {
uVar1 = 0xffffff9a;
if (param_3 + 1 <= param_4) {
uVar3 = *(ushort *)(puVar4 + uVar2 * 2) | 0x8080;
*param_3 = uVar3 << 8 | uVar3 >> 8;
uVar1 = 2;
}
}
return uVar1;
}
*(char *)param_3 = (char)param_2;
uVar1 = 1;
}
return uVar1;
}
| |
34,450 | mariadb_convert_string | eloqsql/libmariadb/libmariadb/ma_charset.c | size_t STDCALL mariadb_convert_string(const char *from __attribute__((unused)),
size_t *from_len __attribute__((unused)),
MARIADB_CHARSET_INFO *from_cs __attribute__((unused)),
char *to __attribute__((unused)),
size_t *to_len __attribute__((unused)),
MARIADB_CHARSET_INFO *to_cs __attribute__((unused)), int *errorcode)
{
#ifndef HAVE_ICONV
*errorcode= ENOTSUP;
return -1;
#else
iconv_t conv= 0;
size_t rc= -1;
size_t save_len= *to_len;
char to_encoding[128], from_encoding[128];
*errorcode= 0;
/* check if conversion is supported */
if (!from_cs || !from_cs->encoding || !from_cs->encoding[0] ||
!to_cs || !to_cs->encoding || !to_cs->encoding[0])
{
*errorcode= EINVAL;
return rc;
}
map_charset_name(to_cs->encoding, 1, to_encoding, sizeof(to_encoding));
map_charset_name(from_cs->encoding, 0, from_encoding, sizeof(from_encoding));
if ((conv= iconv_open(to_encoding, from_encoding)) == (iconv_t)-1)
{
*errorcode= errno;
goto error;
}
if ((rc= iconv(conv, IF_WIN(,IF_SOLARIS(,(char **)))&from, from_len, &to, to_len)) == (size_t)-1)
{
*errorcode= errno;
goto error;
}
rc= save_len - *to_len;
error:
if (conv != (iconv_t)-1)
iconv_close(conv);
return rc;
#endif
} | O0 | c | mariadb_convert_string:
pushq %rbp
movq %rsp, %rbp
movq 0x10(%rbp), %rax
movq %rdi, -0x8(%rbp)
movq %rsi, -0x10(%rbp)
movq %rdx, -0x18(%rbp)
movq %rcx, -0x20(%rbp)
movq %r8, -0x28(%rbp)
movq %r9, -0x30(%rbp)
movq 0x10(%rbp), %rax
movl $0x5f, (%rax)
movq $-0x1, %rax
popq %rbp
retq
nopw %cs:(%rax,%rax)
| mariadb_convert_string:
push rbp
mov rbp, rsp
mov rax, [rbp+arg_0]
mov [rbp+var_8], rdi
mov [rbp+var_10], rsi
mov [rbp+var_18], rdx
mov [rbp+var_20], rcx
mov [rbp+var_28], r8
mov [rbp+var_30], r9
mov rax, [rbp+arg_0]
mov dword ptr [rax], 5Fh ; '_'
mov rax, 0FFFFFFFFFFFFFFFFh
pop rbp
retn
| long long mariadb_convert_string(
long long a1,
long long a2,
long long a3,
long long a4,
long long a5,
long long a6,
_DWORD *a7)
{
*a7 = 95;
return -1LL;
}
| mariadb_convert_string:
PUSH RBP
MOV RBP,RSP
MOV RAX,qword ptr [RBP + 0x10]
MOV qword ptr [RBP + -0x8],RDI
MOV qword ptr [RBP + -0x10],RSI
MOV qword ptr [RBP + -0x18],RDX
MOV qword ptr [RBP + -0x20],RCX
MOV qword ptr [RBP + -0x28],R8
MOV qword ptr [RBP + -0x30],R9
MOV RAX,qword ptr [RBP + 0x10]
MOV dword ptr [RAX],0x5f
MOV RAX,-0x1
POP RBP
RET
|
int8 mariadb_convert_string(void)
{
int4 *in_stack_00000008;
*in_stack_00000008 = 0x5f;
return 0xffffffffffffffff;
}
| |
34,451 | ma_find_half_pos | eloqsql/storage/maria/ma_write.c | uchar *_ma_find_half_pos(MARIA_KEY *key, MARIA_PAGE *ma_page,
uchar **after_key)
{
uint keys, length, key_ref_length, page_flag, nod_flag;
uchar *page, *end, *lastpos;
MARIA_HA *info= ma_page->info;
MARIA_SHARE *share= info->s;
MARIA_KEYDEF *keyinfo= key->keyinfo;
DBUG_ENTER("_ma_find_half_pos");
nod_flag= ma_page->node;
key_ref_length= share->keypage_header + nod_flag;
page_flag= ma_page->flag;
length= ma_page->size - key_ref_length;
page= ma_page->buff+ key_ref_length; /* Point to first key */
if (!(keyinfo->flag &
(HA_PACK_KEY | HA_SPACE_PACK_USED | HA_VAR_LENGTH_KEY |
HA_BINARY_PACK_KEY)) && !(page_flag & KEYPAGE_FLAG_HAS_TRANSID))
{
key_ref_length= keyinfo->keylength+nod_flag;
key->data_length= keyinfo->keylength - info->s->rec_reflength;
key->ref_length= info->s->rec_reflength;
key->flag= 0;
keys=length/(key_ref_length*2);
end=page+keys*key_ref_length;
*after_key=end+key_ref_length;
memcpy(key->data, end, key_ref_length);
DBUG_RETURN(end);
}
end=page+length/2-key_ref_length; /* This is aprox. half */
key->data[0]= 0; /* Safety */
do
{
lastpos=page;
if (!(length= (*keyinfo->get_key)(key, page_flag, nod_flag, &page)))
DBUG_RETURN(0);
} while (page < end);
*after_key= page;
DBUG_PRINT("exit",("returns: %p page: %p half: %p",
lastpos, page, end));
DBUG_RETURN(lastpos);
} | O3 | c | ma_find_half_pos:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x28, %rsp
movq %rdx, %r8
movq (%rsi), %rbx
movq (%rbx), %rcx
movq 0x8(%rdi), %r11
movl 0x28(%rsi), %r10d
movl 0x744(%rcx), %edx
addl %r10d, %edx
movl 0x2c(%rsi), %r9d
movl 0x20(%rsi), %eax
subl %edx, %eax
movq 0x10(%rsi), %r14
addq %rdx, %r14
movq %r14, -0x38(%rbp)
testb $0x2e, 0xa2(%r11)
sete %sil
movl %r9d, -0x2c(%rbp)
testb $0x2, %r9b
sete %r9b
andb %sil, %r9b
cmpb $0x1, %r9b
jne 0x668bf
movzwl 0xaa(%r11), %edx
addl %edx, %r10d
subl 0x740(%rcx), %edx
movl %edx, 0x10(%rdi)
movq (%rbx), %rcx
movl 0x740(%rcx), %ecx
movl %ecx, 0x14(%rdi)
movl $0x0, 0x18(%rdi)
leal (%r10,%r10), %ecx
xorl %edx, %edx
divl %ecx
imull %r10d, %eax
addq %rax, %r14
leaq (%r14,%r10), %rax
movq %rax, (%r8)
movq (%rdi), %rdi
movq %r14, %rsi
movq %r10, %rdx
callq 0x29080
movq %r14, %r12
jmp 0x66915
movq %r8, -0x40(%rbp)
shrl %eax
addq %r14, %rax
subq %rdx, %rax
movq %rax, -0x48(%rbp)
movq (%rdi), %rax
movb $0x0, (%rax)
movq %r14, %r12
movq %rdi, %r15
movl -0x2c(%rbp), %esi
movq %r10, %rbx
movl %r10d, %edx
leaq -0x38(%rbp), %rcx
movq %r11, %r13
callq *0xe0(%r11)
testl %eax, %eax
je 0x66912
movq -0x38(%rbp), %r14
cmpq -0x48(%rbp), %r14
movq %r15, %rdi
movq %rbx, %r10
movq %r13, %r11
jb 0x668d5
movq -0x40(%rbp), %rax
movq %r14, (%rax)
jmp 0x66915
xorl %r12d, %r12d
movq %r12, %rax
addq $0x28, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| _ma_find_half_pos:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 28h
mov r8, rdx
mov rbx, [rsi]
mov rcx, [rbx]
mov r11, [rdi+8]
mov r10d, [rsi+28h]
mov edx, [rcx+744h]
add edx, r10d
mov r9d, [rsi+2Ch]
mov eax, [rsi+20h]
sub eax, edx
mov r14, [rsi+10h]
add r14, rdx
mov [rbp+var_38], r14
test byte ptr [r11+0A2h], 2Eh
setz sil
mov [rbp+var_2C], r9d
test r9b, 2
setz r9b
and r9b, sil
cmp r9b, 1
jnz short loc_668BF
movzx edx, word ptr [r11+0AAh]
add r10d, edx
sub edx, [rcx+740h]
mov [rdi+10h], edx
mov rcx, [rbx]
mov ecx, [rcx+740h]
mov [rdi+14h], ecx
mov dword ptr [rdi+18h], 0
lea ecx, [r10+r10]
xor edx, edx
div ecx
imul eax, r10d
add r14, rax
lea rax, [r14+r10]
mov [r8], rax
mov rdi, [rdi]
mov rsi, r14
mov rdx, r10
call _memcpy
mov r12, r14
jmp short loc_66915
loc_668BF:
mov [rbp+var_40], r8
shr eax, 1
add rax, r14
sub rax, rdx
mov [rbp+var_48], rax
mov rax, [rdi]
mov byte ptr [rax], 0
loc_668D5:
mov r12, r14
mov r15, rdi
mov esi, [rbp+var_2C]
mov rbx, r10
mov edx, r10d
lea rcx, [rbp+var_38]
mov r13, r11
call qword ptr [r11+0E0h]
test eax, eax
jz short loc_66912
mov r14, [rbp+var_38]
cmp r14, [rbp+var_48]
mov rdi, r15
mov r10, rbx
mov r11, r13
jb short loc_668D5
mov rax, [rbp+var_40]
mov [rax], r14
jmp short loc_66915
loc_66912:
xor r12d, r12d
loc_66915:
mov rax, r12
add rsp, 28h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| long long ma_find_half_pos(long long a1, long long **a2, unsigned long long *a3)
{
long long *v4; // rbx
long long v5; // rcx
long long v6; // r11
long long v7; // r10
long long v8; // rdx
unsigned int v9; // r9d
unsigned int v10; // eax
long long v11; // r14
bool v12; // si
int v13; // edx
long long v14; // r10
long long v15; // r14
long long v16; // r12
long long v17; // rbx
long long v18; // r13
unsigned long long v20; // [rsp+8h] [rbp-48h]
unsigned long long *v21; // [rsp+10h] [rbp-40h]
unsigned long long v22; // [rsp+18h] [rbp-38h] BYREF
unsigned int v23; // [rsp+24h] [rbp-2Ch]
v4 = *a2;
v5 = **a2;
v6 = *(_QWORD *)(a1 + 8);
v7 = *((unsigned int *)a2 + 10);
v8 = (unsigned int)(v7 + *(_DWORD *)(v5 + 1860));
v9 = *((_DWORD *)a2 + 11);
v10 = *((_DWORD *)a2 + 8) - v8;
v11 = (long long)a2[2] + v8;
v22 = v11;
v12 = (*(_BYTE *)(v6 + 162) & 0x2E) == 0;
v23 = v9;
if ( v12 && (v9 & 2) == 0 )
{
v13 = *(unsigned __int16 *)(v6 + 170);
v14 = (unsigned int)(v13 + v7);
*(_DWORD *)(a1 + 16) = v13 - *(_DWORD *)(v5 + 1856);
*(_DWORD *)(a1 + 20) = *(_DWORD *)(*v4 + 1856);
*(_DWORD *)(a1 + 24) = 0;
v15 = (unsigned int)v14 * (v10 / (2 * (int)v14)) + v11;
*a3 = v15 + v14;
memcpy(*(_QWORD *)a1, v15, v14);
return v15;
}
else
{
v21 = a3;
v20 = v11 + (v10 >> 1) - v8;
**(_BYTE **)a1 = 0;
while ( 1 )
{
v16 = v11;
v17 = v7;
v18 = v6;
if ( !(*(unsigned int ( **)(long long, _QWORD, _QWORD, unsigned long long *))(v6 + 224))(
a1,
v23,
(unsigned int)v7,
&v22) )
break;
v11 = v22;
v7 = v17;
v6 = v18;
if ( v22 >= v20 )
{
*v21 = v22;
return v16;
}
}
return 0LL;
}
}
| _ma_find_half_pos:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x28
MOV R8,RDX
MOV RBX,qword ptr [RSI]
MOV RCX,qword ptr [RBX]
MOV R11,qword ptr [RDI + 0x8]
MOV R10D,dword ptr [RSI + 0x28]
MOV EDX,dword ptr [RCX + 0x744]
ADD EDX,R10D
MOV R9D,dword ptr [RSI + 0x2c]
MOV EAX,dword ptr [RSI + 0x20]
SUB EAX,EDX
MOV R14,qword ptr [RSI + 0x10]
ADD R14,RDX
MOV qword ptr [RBP + -0x38],R14
TEST byte ptr [R11 + 0xa2],0x2e
SETZ SIL
MOV dword ptr [RBP + -0x2c],R9D
TEST R9B,0x2
SETZ R9B
AND R9B,SIL
CMP R9B,0x1
JNZ 0x001668bf
MOVZX EDX,word ptr [R11 + 0xaa]
ADD R10D,EDX
SUB EDX,dword ptr [RCX + 0x740]
MOV dword ptr [RDI + 0x10],EDX
MOV RCX,qword ptr [RBX]
MOV ECX,dword ptr [RCX + 0x740]
MOV dword ptr [RDI + 0x14],ECX
MOV dword ptr [RDI + 0x18],0x0
LEA ECX,[R10 + R10*0x1]
XOR EDX,EDX
DIV ECX
IMUL EAX,R10D
ADD R14,RAX
LEA RAX,[R14 + R10*0x1]
MOV qword ptr [R8],RAX
MOV RDI,qword ptr [RDI]
MOV RSI,R14
MOV RDX,R10
CALL 0x00129080
MOV R12,R14
JMP 0x00166915
LAB_001668bf:
MOV qword ptr [RBP + -0x40],R8
SHR EAX,0x1
ADD RAX,R14
SUB RAX,RDX
MOV qword ptr [RBP + -0x48],RAX
MOV RAX,qword ptr [RDI]
MOV byte ptr [RAX],0x0
LAB_001668d5:
MOV R12,R14
MOV R15,RDI
MOV ESI,dword ptr [RBP + -0x2c]
MOV RBX,R10
MOV EDX,R10D
LEA RCX,[RBP + -0x38]
MOV R13,R11
CALL qword ptr [R11 + 0xe0]
TEST EAX,EAX
JZ 0x00166912
MOV R14,qword ptr [RBP + -0x38]
CMP R14,qword ptr [RBP + -0x48]
MOV RDI,R15
MOV R10,RBX
MOV R11,R13
JC 0x001668d5
MOV RAX,qword ptr [RBP + -0x40]
MOV qword ptr [RAX],R14
JMP 0x00166915
LAB_00166912:
XOR R12D,R12D
LAB_00166915:
MOV RAX,R12
ADD RSP,0x28
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
void * _ma_find_half_pos(int8 *param_1,int8 *param_2,long *param_3)
{
int iVar1;
long *plVar2;
long lVar3;
long lVar4;
int iVar5;
void *pvVar6;
uint uVar7;
uint uVar8;
void *__src;
void *local_40;
uint local_34;
plVar2 = (long *)*param_2;
lVar3 = *plVar2;
lVar4 = param_1[1];
iVar1 = *(int *)(param_2 + 5);
uVar7 = *(int *)(lVar3 + 0x744) + iVar1;
local_34 = *(uint *)((long)param_2 + 0x2c);
iVar5 = *(int *)(param_2 + 4);
local_40 = (void *)(param_2[2] + (ulong)uVar7);
if ((local_34 & 2) == 0 && (*(byte *)(lVar4 + 0xa2) & 0x2e) == 0) {
uVar8 = iVar1 + (uint)*(ushort *)(lVar4 + 0xaa);
*(uint *)(param_1 + 2) = (uint)*(ushort *)(lVar4 + 0xaa) - *(int *)(lVar3 + 0x740);
*(int4 *)((long)param_1 + 0x14) = *(int4 *)(*plVar2 + 0x740);
*(int4 *)(param_1 + 3) = 0;
__src = (void *)((long)local_40 + (ulong)(((iVar5 - uVar7) / (uVar8 * 2)) * uVar8));
*param_3 = (long)__src + (ulong)uVar8;
memcpy((void *)*param_1,__src,(ulong)uVar8);
}
else {
pvVar6 = (void *)((long)local_40 + ((ulong)(iVar5 - uVar7 >> 1) - (ulong)uVar7));
*(int1 *)*param_1 = 0;
do {
__src = local_40;
iVar5 = (**(code **)(lVar4 + 0xe0))(param_1,local_34,iVar1,&local_40);
if (iVar5 == 0) {
return (void *)0x0;
}
} while (local_40 < pvVar6);
*param_3 = (long)local_40;
}
return __src;
}
| |
34,452 | my_hash_sort_bin | eloqsql/strings/ctype-bin.c | void my_hash_sort_bin(CHARSET_INFO *cs __attribute__((unused)),
const uchar *key, size_t len,ulong *nr1, ulong *nr2)
{
const uchar *end = key + len;
ulong tmp1= *nr1;
ulong tmp2= *nr2;
for (; key < end ; key++)
{
MY_HASH_ADD(tmp1, tmp2, (uint) *key);
}
*nr1= tmp1;
*nr2= tmp2;
} | O0 | c | my_hash_sort_bin:
pushq %rbp
movq %rsp, %rbp
movq %rdi, -0x8(%rbp)
movq %rsi, -0x10(%rbp)
movq %rdx, -0x18(%rbp)
movq %rcx, -0x20(%rbp)
movq %r8, -0x28(%rbp)
movq -0x10(%rbp), %rax
addq -0x18(%rbp), %rax
movq %rax, -0x30(%rbp)
movq -0x20(%rbp), %rax
movq (%rax), %rax
movq %rax, -0x38(%rbp)
movq -0x28(%rbp), %rax
movq (%rax), %rax
movq %rax, -0x40(%rbp)
movq -0x10(%rbp), %rax
cmpq -0x30(%rbp), %rax
jae 0x3c7ce
jmp 0x3c786
movq -0x38(%rbp), %rax
andq $0x3f, %rax
addq -0x40(%rbp), %rax
movq -0x10(%rbp), %rcx
movzbl (%rcx), %ecx
movl %ecx, %ecx
imulq %rcx, %rax
movq -0x38(%rbp), %rcx
shlq $0x8, %rcx
addq %rcx, %rax
xorq -0x38(%rbp), %rax
movq %rax, -0x38(%rbp)
movq -0x40(%rbp), %rax
addq $0x3, %rax
movq %rax, -0x40(%rbp)
jmp 0x3c7c0
movq -0x10(%rbp), %rax
addq $0x1, %rax
movq %rax, -0x10(%rbp)
jmp 0x3c77a
movq -0x38(%rbp), %rcx
movq -0x20(%rbp), %rax
movq %rcx, (%rax)
movq -0x40(%rbp), %rcx
movq -0x28(%rbp), %rax
movq %rcx, (%rax)
popq %rbp
retq
nopw %cs:(%rax,%rax)
| my_hash_sort_bin:
push rbp
mov rbp, rsp
mov [rbp+var_8], rdi
mov [rbp+var_10], rsi
mov [rbp+var_18], rdx
mov [rbp+var_20], rcx
mov [rbp+var_28], r8
mov rax, [rbp+var_10]
add rax, [rbp+var_18]
mov [rbp+var_30], rax
mov rax, [rbp+var_20]
mov rax, [rax]
mov [rbp+var_38], rax
mov rax, [rbp+var_28]
mov rax, [rax]
mov [rbp+var_40], rax
loc_3C77A:
mov rax, [rbp+var_10]
cmp rax, [rbp+var_30]
jnb short loc_3C7CE
jmp short $+2
loc_3C786:
mov rax, [rbp+var_38]
and rax, 3Fh
add rax, [rbp+var_40]
mov rcx, [rbp+var_10]
movzx ecx, byte ptr [rcx]
mov ecx, ecx
imul rax, rcx
mov rcx, [rbp+var_38]
shl rcx, 8
add rax, rcx
xor rax, [rbp+var_38]
mov [rbp+var_38], rax
mov rax, [rbp+var_40]
add rax, 3
mov [rbp+var_40], rax
jmp short $+2
loc_3C7C0:
mov rax, [rbp+var_10]
add rax, 1
mov [rbp+var_10], rax
jmp short loc_3C77A
loc_3C7CE:
mov rcx, [rbp+var_38]
mov rax, [rbp+var_20]
mov [rax], rcx
mov rcx, [rbp+var_40]
mov rax, [rbp+var_28]
mov [rax], rcx
pop rbp
retn
| _QWORD * my_hash_sort_bin(long long a1, unsigned __int8 *a2, long long a3, long long *a4, _QWORD *a5)
{
_QWORD *result; // rax
long long v6; // [rsp+0h] [rbp-40h]
long long v7; // [rsp+8h] [rbp-38h]
unsigned __int8 *v8; // [rsp+30h] [rbp-10h]
v8 = a2;
v7 = *a4;
v6 = *a5;
while ( v8 < &a2[a3] )
{
v7 ^= (v7 << 8) + *v8 * (v6 + (v7 & 0x3F));
v6 += 3LL;
++v8;
}
*a4 = v7;
result = a5;
*a5 = v6;
return result;
}
| my_hash_sort_bin:
PUSH RBP
MOV RBP,RSP
MOV qword ptr [RBP + -0x8],RDI
MOV qword ptr [RBP + -0x10],RSI
MOV qword ptr [RBP + -0x18],RDX
MOV qword ptr [RBP + -0x20],RCX
MOV qword ptr [RBP + -0x28],R8
MOV RAX,qword ptr [RBP + -0x10]
ADD RAX,qword ptr [RBP + -0x18]
MOV qword ptr [RBP + -0x30],RAX
MOV RAX,qword ptr [RBP + -0x20]
MOV RAX,qword ptr [RAX]
MOV qword ptr [RBP + -0x38],RAX
MOV RAX,qword ptr [RBP + -0x28]
MOV RAX,qword ptr [RAX]
MOV qword ptr [RBP + -0x40],RAX
LAB_0013c77a:
MOV RAX,qword ptr [RBP + -0x10]
CMP RAX,qword ptr [RBP + -0x30]
JNC 0x0013c7ce
JMP 0x0013c786
LAB_0013c786:
MOV RAX,qword ptr [RBP + -0x38]
AND RAX,0x3f
ADD RAX,qword ptr [RBP + -0x40]
MOV RCX,qword ptr [RBP + -0x10]
MOVZX ECX,byte ptr [RCX]
MOV ECX,ECX
IMUL RAX,RCX
MOV RCX,qword ptr [RBP + -0x38]
SHL RCX,0x8
ADD RAX,RCX
XOR RAX,qword ptr [RBP + -0x38]
MOV qword ptr [RBP + -0x38],RAX
MOV RAX,qword ptr [RBP + -0x40]
ADD RAX,0x3
MOV qword ptr [RBP + -0x40],RAX
JMP 0x0013c7c0
LAB_0013c7c0:
MOV RAX,qword ptr [RBP + -0x10]
ADD RAX,0x1
MOV qword ptr [RBP + -0x10],RAX
JMP 0x0013c77a
LAB_0013c7ce:
MOV RCX,qword ptr [RBP + -0x38]
MOV RAX,qword ptr [RBP + -0x20]
MOV qword ptr [RAX],RCX
MOV RCX,qword ptr [RBP + -0x40]
MOV RAX,qword ptr [RBP + -0x28]
MOV qword ptr [RAX],RCX
POP RBP
RET
|
void my_hash_sort_bin(int8 param_1,byte *param_2,long param_3,ulong *param_4,long *param_5)
{
long local_48;
ulong local_40;
byte *local_18;
local_40 = *param_4;
local_48 = *param_5;
for (local_18 = param_2; local_18 < param_2 + param_3; local_18 = local_18 + 1) {
local_40 = ((local_40 & 0x3f) + local_48) * (ulong)*local_18 + local_40 * 0x100 ^ local_40;
local_48 = local_48 + 3;
}
*param_4 = local_40;
*param_5 = local_48;
return;
}
| |
34,453 | common_log::set_colors(bool) | monkey531[P]llama/common/log.cpp | void set_colors(bool colors) {
pause();
if (colors) {
g_col[COMMON_LOG_COL_DEFAULT] = LOG_COL_DEFAULT;
g_col[COMMON_LOG_COL_BOLD] = LOG_COL_BOLD;
g_col[COMMON_LOG_COL_RED] = LOG_COL_RED;
g_col[COMMON_LOG_COL_GREEN] = LOG_COL_GREEN;
g_col[COMMON_LOG_COL_YELLOW] = LOG_COL_YELLOW;
g_col[COMMON_LOG_COL_BLUE] = LOG_COL_BLUE;
g_col[COMMON_LOG_COL_MAGENTA] = LOG_COL_MAGENTA;
g_col[COMMON_LOG_COL_CYAN] = LOG_COL_CYAN;
g_col[COMMON_LOG_COL_WHITE] = LOG_COL_WHITE;
} else {
for (size_t i = 0; i < g_col.size(); i++) {
g_col[i] = "";
}
}
resume();
} | O3 | cpp | common_log::set_colors(bool):
pushq %rbp
pushq %rbx
pushq %rax
movl %esi, %ebp
movq %rdi, %rbx
callq 0xcbd2a
testl %ebp, %ebp
je 0xcc1e9
movq 0x632a2(%rip), %rax # 0x12f420
leaq 0x2ac96(%rip), %rcx # 0xf6e1b
movq %rcx, (%rax)
movq 0x63291(%rip), %rax # 0x12f420
leaq 0x2ac8a(%rip), %rcx # 0xf6e20
movq %rcx, 0x8(%rax)
leaq 0x2ac84(%rip), %rcx # 0xf6e25
movq %rcx, 0x10(%rax)
leaq 0x2ac7f(%rip), %rcx # 0xf6e2b
movq %rcx, 0x18(%rax)
leaq 0x2ac7a(%rip), %rcx # 0xf6e31
movq %rcx, 0x20(%rax)
leaq 0x2ac75(%rip), %rcx # 0xf6e37
movq %rcx, 0x28(%rax)
leaq 0x2ac70(%rip), %rcx # 0xf6e3d
movq %rcx, 0x30(%rax)
leaq 0x2ac6b(%rip), %rcx # 0xf6e43
movq %rcx, 0x38(%rax)
leaq 0x2ac66(%rip), %rcx # 0xf6e49
movq %rcx, 0x40(%rax)
jmp 0xcc223
movq 0x63230(%rip), %rax # 0x12f420
cmpq %rax, 0x63231(%rip) # 0x12f428
je 0xcc223
xorl %ecx, %ecx
leaq 0x216d4(%rip), %rdx # 0xed8d6
movq %rdx, (%rax,%rcx,8)
incq %rcx
movq 0x63218(%rip), %rsi # 0x12f428
movq 0x63209(%rip), %rax # 0x12f420
subq %rax, %rsi
sarq $0x3, %rsi
cmpq %rsi, %rcx
jb 0xcc202
movq %rbx, %rdi
addq $0x8, %rsp
popq %rbx
popq %rbp
jmp 0xcbdb2
nop
| _ZN10common_log10set_colorsEb:
push rbp
push rbx
push rax
mov ebp, esi
mov rbx, rdi
call _ZN10common_log5pauseEv; common_log::pause(void)
test ebp, ebp
jz short loc_CC1E9
mov rax, cs:_ZL5g_col; g_col
lea rcx, a0m; "\x1B[0m"
mov [rax], rcx
mov rax, cs:_ZL5g_col; g_col
lea rcx, a1m; "\x1B[1m"
mov [rax+8], rcx
lea rcx, a31m; "\x1B[31m"
mov [rax+10h], rcx
lea rcx, a32m; "\x1B[32m"
mov [rax+18h], rcx
lea rcx, a33m; "\x1B[33m"
mov [rax+20h], rcx
lea rcx, a34m; "\x1B[34m"
mov [rax+28h], rcx
lea rcx, a35m; "\x1B[35m"
mov [rax+30h], rcx
lea rcx, a36m; "\x1B[36m"
mov [rax+38h], rcx
lea rcx, a37m; "\x1B[37m"
mov [rax+40h], rcx
jmp short loc_CC223
loc_CC1E9:
mov rax, cs:_ZL5g_col; g_col
cmp cs:qword_12F428, rax
jz short loc_CC223
xor ecx, ecx
lea rdx, aErrorWhileHand_0+34h; ""
loc_CC202:
mov [rax+rcx*8], rdx
inc rcx
mov rsi, cs:qword_12F428
mov rax, cs:_ZL5g_col; g_col
sub rsi, rax
sar rsi, 3
cmp rcx, rsi
jb short loc_CC202
loc_CC223:
mov rdi, rbx; this
add rsp, 8
pop rbx
pop rbp
jmp _ZN10common_log6resumeEv; common_log::resume(void)
| long long common_log::set_colors(common_log *this, int a2)
{
_QWORD *v2; // rax
long long v3; // rax
unsigned long long v4; // rcx
common_log::pause(this);
if ( a2 )
{
*(_QWORD *)g_col = "\x1B[0m";
v2 = (_QWORD *)g_col;
*(_QWORD *)(g_col + 8) = "\x1B[1m";
v2[2] = "\x1B[31m";
v2[3] = "\x1B[32m";
v2[4] = "\x1B[33m";
v2[5] = "\x1B[34m";
v2[6] = "\x1B[35m";
v2[7] = "\x1B[36m";
v2[8] = "\x1B[37m";
}
else
{
v3 = g_col;
if ( qword_12F428 != g_col )
{
v4 = 0LL;
do
{
*(_QWORD *)(v3 + 8 * v4++) = "";
v3 = g_col;
}
while ( v4 < (qword_12F428 - g_col) >> 3 );
}
}
return common_log::resume(this);
}
| set_colors:
PUSH RBP
PUSH RBX
PUSH RAX
MOV EBP,ESI
MOV RBX,RDI
CALL 0x001cbd2a
TEST EBP,EBP
JZ 0x001cc1e9
MOV RAX,qword ptr [0x0022f420]
LEA RCX,[0x1f6e1b]
MOV qword ptr [RAX],RCX
MOV RAX,qword ptr [0x0022f420]
LEA RCX,[0x1f6e20]
MOV qword ptr [RAX + 0x8],RCX
LEA RCX,[0x1f6e25]
MOV qword ptr [RAX + 0x10],RCX
LEA RCX,[0x1f6e2b]
MOV qword ptr [RAX + 0x18],RCX
LEA RCX,[0x1f6e31]
MOV qword ptr [RAX + 0x20],RCX
LEA RCX,[0x1f6e37]
MOV qword ptr [RAX + 0x28],RCX
LEA RCX,[0x1f6e3d]
MOV qword ptr [RAX + 0x30],RCX
LEA RCX,[0x1f6e43]
MOV qword ptr [RAX + 0x38],RCX
LEA RCX,[0x1f6e49]
MOV qword ptr [RAX + 0x40],RCX
JMP 0x001cc223
LAB_001cc1e9:
MOV RAX,qword ptr [0x0022f420]
CMP qword ptr [0x0022f428],RAX
JZ 0x001cc223
XOR ECX,ECX
LEA RDX,[0x1ed8d6]
LAB_001cc202:
MOV qword ptr [RAX + RCX*0x8],RDX
INC RCX
MOV RSI,qword ptr [0x0022f428]
MOV RAX,qword ptr [0x0022f420]
SUB RSI,RAX
SAR RSI,0x3
CMP RCX,RSI
JC 0x001cc202
LAB_001cc223:
MOV RDI,RBX
ADD RSP,0x8
POP RBX
POP RBP
JMP 0x001cbdb2
|
/* common_log::set_colors(bool) */
void __thiscall common_log::set_colors(common_log *this,bool param_1)
{
int8 *puVar1;
ulong uVar2;
int7 in_register_00000031;
pause(this);
if ((int)CONCAT71(in_register_00000031,param_1) == 0) {
if (DAT_0022f428 != g_col) {
uVar2 = 0;
do {
g_col[uVar2] = "";
uVar2 = uVar2 + 1;
} while (uVar2 < (ulong)((long)DAT_0022f428 - (long)g_col >> 3));
}
}
else {
*g_col = &DAT_001f6e1b;
puVar1 = g_col;
g_col[1] = &DAT_001f6e20;
puVar1[2] = &DAT_001f6e25;
puVar1[3] = &DAT_001f6e2b;
puVar1[4] = &DAT_001f6e31;
puVar1[5] = &DAT_001f6e37;
puVar1[6] = &DAT_001f6e3d;
puVar1[7] = &DAT_001f6e43;
puVar1[8] = &DAT_001f6e49;
}
resume(this);
return;
}
| |
34,454 | nlohmann::json_abi_v3_11_3::ordered_map<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>, minja::Value, std::less<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>>, std::allocator<std::pair<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void> const, minja::Value>>>::at(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void> const&) | monkey531[P]llama/common/json.hpp | T& at(const key_type& key)
{
for (auto it = this->begin(); it != this->end(); ++it)
{
if (m_compare(it->first, key))
{
return it->second;
}
}
JSON_THROW(std::out_of_range("key not found"));
} | O2 | cpp | nlohmann::json_abi_v3_11_3::ordered_map<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>, minja::Value, std::less<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>>, std::allocator<std::pair<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void> const, minja::Value>>>::at(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void> const&):
pushq %r15
pushq %r14
pushq %rbx
movq %rsi, %r14
movq %rdi, %r15
movq (%rdi), %rbx
cmpq 0x8(%r15), %rbx
je 0x50318
movq %rbx, %rdi
movq %r14, %rsi
callq 0x4a1fe
testb %al, %al
jne 0x5030b
addq $0x60, %rbx
jmp 0x502f0
addq $0x10, %rbx
movq %rbx, %rax
popq %rbx
popq %r14
popq %r15
retq
pushq $0x10
popq %rdi
callq 0x20380
movq %rax, %rbx
leaq 0x3fefe(%rip), %rsi # 0x90228
movq %rax, %rdi
callq 0x200e0
movq 0x7fc87(%rip), %rsi # 0xcffc0
movq 0x7fc68(%rip), %rdx # 0xcffa8
movq %rbx, %rdi
callq 0x20b30
movq %rax, %r14
movq %rbx, %rdi
callq 0x20510
movq %r14, %rdi
callq 0x20bb0
nop
| _ZN8nlohmann16json_abi_v3_11_311ordered_mapINS0_10basic_jsonIS1_St6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEEN5minja5ValueESt4lessISD_ESaISt4pairIKSD_SF_EEE2atERSJ_:
push r15
push r14
push rbx
mov r14, rsi
mov r15, rdi
mov rbx, [rdi]
loc_502F0:
cmp rbx, [r15+8]
jz short loc_50318
mov rdi, rbx
mov rsi, r14
call _ZN8nlohmann16json_abi_v3_11_3eqERKNS0_10basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEESF_; nlohmann::json_abi_v3_11_3::operator==(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> const&,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> const&)
test al, al
jnz short loc_5030B
add rbx, 60h ; '`'
jmp short loc_502F0
loc_5030B:
add rbx, 10h
mov rax, rbx
pop rbx
pop r14
pop r15
retn
loc_50318:
push 10h
pop rdi; thrown_size
call ___cxa_allocate_exception
mov rbx, rax
lea rsi, aKeyNotFound; "key not found"
mov rdi, rax; this
call __ZNSt12out_of_rangeC1EPKc; std::out_of_range::out_of_range(char const*)
mov rsi, cs:_ZTISt12out_of_range_ptr; lptinfo
mov rdx, cs:_ZNSt12out_of_rangeD1Ev_ptr; void (*)(void *)
mov rdi, rbx; void *
call ___cxa_throw
mov r14, rax
mov rdi, rbx; void *
call ___cxa_free_exception
mov rdi, r14
call __Unwind_Resume
| unsigned __int8 * nlohmann::json_abi_v3_11_3::ordered_map<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>,minja::Value,std::less<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>>,std::allocator<std::pair<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> const,minja::Value>>>::at(
unsigned __int8 **a1,
unsigned __int8 *a2,
__m128d a3)
{
unsigned __int8 *i; // rbx
std::out_of_range *exception; // rbx
for ( i = *a1; ; i += 96 )
{
if ( i == a1[1] )
{
exception = (std::out_of_range *)__cxa_allocate_exception(0x10uLL);
std::out_of_range::out_of_range(exception, "key not found");
__cxa_throw(
exception,
(struct type_info *)&`typeinfo for'std::out_of_range,
(void (*)(void *))&std::out_of_range::~out_of_range);
}
if ( nlohmann::json_abi_v3_11_3::operator==(i, a2, a3) )
break;
}
return i + 16;
}
| at:
PUSH R15
PUSH R14
PUSH RBX
MOV R14,RSI
MOV R15,RDI
MOV RBX,qword ptr [RDI]
LAB_001502f0:
CMP RBX,qword ptr [R15 + 0x8]
JZ 0x00150318
MOV RDI,RBX
MOV RSI,R14
CALL 0x0014a1fe
TEST AL,AL
JNZ 0x0015030b
ADD RBX,0x60
JMP 0x001502f0
LAB_0015030b:
ADD RBX,0x10
MOV RAX,RBX
POP RBX
POP R14
POP R15
RET
LAB_00150318:
PUSH 0x10
POP RDI
CALL 0x00120380
MOV RBX,RAX
LAB_00150323:
LEA RSI,[0x190228]
MOV RDI,RAX
CALL 0x001200e0
LAB_00150332:
MOV RSI,qword ptr [0x001cffc0]
MOV RDX,qword ptr [0x001cffa8]
MOV RDI,RBX
CALL 0x00120b30
|
/* nlohmann::json_abi_v3_11_3::ordered_map<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,
std::vector, std::__cxx11::string, bool, long, unsigned long, double, std::allocator,
nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned
char> >, void>, minja::Value,
std::less<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,
std::vector, std::__cxx11::string, bool, long, unsigned long, double, std::allocator,
nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned
char> >, void> >,
std::allocator<std::pair<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,
std::vector, std::__cxx11::string, bool, long, unsigned long, double, std::allocator,
nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned
char> >, void> const, minja::Value> >
>::at(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,
std::vector, std::__cxx11::string, bool, long, unsigned long, double, std::allocator,
nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned
char> >, void> const&) */
basic_json * __thiscall
nlohmann::json_abi_v3_11_3::
ordered_map<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>,minja::Value,std::less<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>>,std::allocator<std::pair<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>const,minja::Value>>>
::at(ordered_map<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>,minja::Value,std::less<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>>,std::allocator<std::pair<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>const,minja::Value>>>
*this,basic_json *param_1)
{
char cVar1;
out_of_range *this_00;
basic_json *pbVar2;
pbVar2 = *(basic_json **)this;
while( true ) {
if (pbVar2 == *(basic_json **)(this + 8)) {
this_00 = (out_of_range *)__cxa_allocate_exception(0x10);
/* try { // try from 00150323 to 00150331 has its CatchHandler @ 00150348 */
std::out_of_range::out_of_range(this_00,"key not found");
/* WARNING: Subroutine does not return */
__cxa_throw(this_00,PTR_typeinfo_001cffc0,PTR__out_of_range_001cffa8);
}
cVar1 = operator==(pbVar2,param_1);
if (cVar1 != '\0') break;
pbVar2 = pbVar2 + 0x60;
}
return pbVar2 + 0x10;
}
| |
34,455 | replace_dynstr_append_mem(st_dynamic_string*, char const*, unsigned long) | eloqsql/client/mysqltest.cc | void replace_dynstr_append_mem(DYNAMIC_STRING *ds, const char *val, size_t len)
{
char lower[1024];
if (len < sizeof(lower) - 1)
{
if (display_result_lower)
{
/* Convert to lower case, and do this first */
char *c= lower;
for (const char *v= val, *end_v= v + len; v < end_v; v++)
*c++= my_tolower(charset_info, *v);
*c= '\0';
/* Copy from this buffer instead */
}
else
{
memcpy(lower, val, len);
lower[len]= 0;
}
fix_win_paths(lower, len);
val= lower;
}
if (glob_replace_regex)
{
/* Regex replace */
if (!multi_reg_replace(glob_replace_regex, (char*)val))
{
val= glob_replace_regex->buf;
len= strlen(val);
}
}
if (glob_replace)
{
/* Normal replace */
replace_strings_append(glob_replace, ds, val);
}
else
dynstr_append_mem(ds, val, len);
} | O3 | cpp | replace_dynstr_append_mem(st_dynamic_string*, char const*, unsigned long):
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %rbx
subq $0x408, %rsp # imm = 0x408
movq %rdx, %r14
movq %rsi, %r15
movq %rdi, %rbx
movq %fs:0x28, %rax
movq %rax, -0x20(%rbp)
cmpq $0x3fe, %rdx # imm = 0x3FE
ja 0x63bb9
cmpb $0x1, 0x3fa7f1(%rip) # 0x45e341
jne 0x63b85
testq %r14, %r14
je 0x63ba8
leaq (%r15,%r14), %rcx
leaq -0x420(%rbp), %rax
movq 0x37681f(%rip), %rdx # 0x3da388
movq 0x48(%rdx), %rsi
movzbl (%r15), %edi
movb (%rsi,%rdi), %sil
movb %sil, (%rax)
incq %rax
incq %r15
cmpq %rcx, %r15
jb 0x63b69
jmp 0x63baf
leaq -0x420(%rbp), %rdi
movl $0x400, %ecx # imm = 0x400
movq %r15, %rsi
movq %r14, %rdx
callq 0x5f590
leaq (%r14,%rbp), %rax
addq $-0x420, %rax # imm = 0xFBE0
jmp 0x63baf
leaq -0x420(%rbp), %rax
movb $0x0, (%rax)
leaq -0x420(%rbp), %r15
movq 0x3f89d0(%rip), %rdi # 0x45c590
testq %rdi, %rdi
je 0x63be7
movq %r15, %rsi
callq 0x652eb
testl %eax, %eax
jne 0x63be7
movq 0x3f89b8(%rip), %rax # 0x45c590
movq 0x28(%rax), %r15
movq %r15, %rdi
callq 0x5f480
movq %rax, %r14
movq 0x3f89aa(%rip), %rdi # 0x45c598
testq %rdi, %rdi
je 0x63c00
movq %rbx, %rsi
movq %r15, %rdx
callq 0x653e3
jmp 0x63c0e
movq %rbx, %rdi
movq %r15, %rsi
movq %r14, %rdx
callq 0x9ed13
movq %fs:0x28, %rax
cmpq -0x20(%rbp), %rax
jne 0x63c2b
addq $0x408, %rsp # imm = 0x408
popq %rbx
popq %r14
popq %r15
popq %rbp
retq
callq 0x5f320
| _Z25replace_dynstr_append_memP17st_dynamic_stringPKcm:
push rbp
mov rbp, rsp
push r15
push r14
push rbx
sub rsp, 408h
mov r14, rdx
mov r15, rsi
mov rbx, rdi
mov rax, fs:28h
mov [rbp+var_20], rax
cmp rdx, 3FEh
ja short loc_63BB9
cmp cs:_ZL20display_result_lower, 1; display_result_lower
jnz short loc_63B85
test r14, r14
jz short loc_63BA8
lea rcx, [r15+r14]
lea rax, [rbp+var_420]
mov rdx, cs:_ZL12charset_info; charset_info
loc_63B69:
mov rsi, [rdx+48h]
movzx edi, byte ptr [r15]
mov sil, [rsi+rdi]
mov [rax], sil
inc rax
inc r15
cmp r15, rcx
jb short loc_63B69
jmp short loc_63BAF
loc_63B85:
lea rdi, [rbp+var_420]
mov ecx, 400h
mov rsi, r15
mov rdx, r14
call ___memcpy_chk
lea rax, [r14+rbp]
add rax, 0FFFFFFFFFFFFFBE0h
jmp short loc_63BAF
loc_63BA8:
lea rax, [rbp+var_420]
loc_63BAF:
mov byte ptr [rax], 0
lea r15, [rbp+var_420]
loc_63BB9:
mov rdi, cs:glob_replace_regex
test rdi, rdi
jz short loc_63BE7
mov rsi, r15
call _Z17multi_reg_replaceP16st_replace_regexPc; multi_reg_replace(st_replace_regex *,char *)
test eax, eax
jnz short loc_63BE7
mov rax, cs:glob_replace_regex
mov r15, [rax+28h]
mov rdi, r15
call _strlen
mov r14, rax
loc_63BE7:
mov rdi, cs:glob_replace
test rdi, rdi
jz short loc_63C00
mov rsi, rbx
mov rdx, r15
call _Z22replace_strings_appendP10st_replaceP17st_dynamic_stringPKc; replace_strings_append(st_replace *,st_dynamic_string *,char const*)
jmp short loc_63C0E
loc_63C00:
mov rdi, rbx
mov rsi, r15
mov rdx, r14
call dynstr_append_mem
loc_63C0E:
mov rax, fs:28h
cmp rax, [rbp+var_20]
jnz short loc_63C2B
add rsp, 408h
pop rbx
pop r14
pop r15
pop rbp
retn
loc_63C2B:
call ___stack_chk_fail
| unsigned long long replace_dynstr_append_mem(long long a1, unsigned __int8 *a2, unsigned long long a3)
{
long long v3; // r14
unsigned __int8 *v4; // r15
unsigned long long v5; // rcx
_BYTE *v6; // rax
_QWORD *v7; // rdx
_BYTE v9[1024]; // [rsp+0h] [rbp-420h] BYREF
unsigned long long v10; // [rsp+400h] [rbp-20h]
v3 = a3;
v4 = a2;
v10 = __readfsqword(0x28u);
if ( a3 <= 0x3FE )
{
if ( display_result_lower == 1 )
{
if ( a3 )
{
v5 = (unsigned long long)&a2[a3];
v6 = v9;
v7 = charset_info;
do
*v6++ = *(_BYTE *)(v7[9] + *v4++);
while ( (unsigned long long)v4 < v5 );
}
else
{
v6 = v9;
}
}
else
{
__memcpy_chk(v9, a2, a3, 1024LL);
v6 = &v9[v3];
}
*v6 = 0;
v4 = v9;
}
if ( glob_replace_regex && !(unsigned int)multi_reg_replace(glob_replace_regex, v4) )
{
v4 = *(unsigned __int8 **)(glob_replace_regex + 40);
v3 = strlen(v4);
}
if ( glob_replace )
replace_strings_append(glob_replace, a1, v4);
else
dynstr_append_mem(a1, v4, v3);
return __readfsqword(0x28u);
}
| replace_dynstr_append_mem:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH RBX
SUB RSP,0x408
MOV R14,RDX
MOV R15,RSI
MOV RBX,RDI
MOV RAX,qword ptr FS:[0x28]
MOV qword ptr [RBP + -0x20],RAX
CMP RDX,0x3fe
JA 0x00163bb9
CMP byte ptr [0x0055e341],0x1
JNZ 0x00163b85
TEST R14,R14
JZ 0x00163ba8
LEA RCX,[R15 + R14*0x1]
LEA RAX,[RBP + -0x420]
MOV RDX,qword ptr [0x004da388]
LAB_00163b69:
MOV RSI,qword ptr [RDX + 0x48]
MOVZX EDI,byte ptr [R15]
MOV SIL,byte ptr [RSI + RDI*0x1]
MOV byte ptr [RAX],SIL
INC RAX
INC R15
CMP R15,RCX
JC 0x00163b69
JMP 0x00163baf
LAB_00163b85:
LEA RDI,[RBP + -0x420]
MOV ECX,0x400
MOV RSI,R15
MOV RDX,R14
CALL 0x0015f590
LEA RAX,[R14 + RBP*0x1]
ADD RAX,-0x420
JMP 0x00163baf
LAB_00163ba8:
LEA RAX,[RBP + -0x420]
LAB_00163baf:
MOV byte ptr [RAX],0x0
LEA R15,[RBP + -0x420]
LAB_00163bb9:
MOV RDI,qword ptr [0x0055c590]
TEST RDI,RDI
JZ 0x00163be7
MOV RSI,R15
CALL 0x001652eb
TEST EAX,EAX
JNZ 0x00163be7
MOV RAX,qword ptr [0x0055c590]
MOV R15,qword ptr [RAX + 0x28]
MOV RDI,R15
CALL 0x0015f480
MOV R14,RAX
LAB_00163be7:
MOV RDI,qword ptr [0x0055c598]
TEST RDI,RDI
JZ 0x00163c00
MOV RSI,RBX
MOV RDX,R15
CALL 0x001653e3
JMP 0x00163c0e
LAB_00163c00:
MOV RDI,RBX
MOV RSI,R15
MOV RDX,R14
CALL 0x0019ed13
LAB_00163c0e:
MOV RAX,qword ptr FS:[0x28]
CMP RAX,qword ptr [RBP + -0x20]
JNZ 0x00163c2b
ADD RSP,0x408
POP RBX
POP R14
POP R15
POP RBP
RET
LAB_00163c2b:
CALL 0x0015f320
|
/* replace_dynstr_append_mem(st_dynamic_string*, char const*, unsigned long) */
void replace_dynstr_append_mem(st_dynamic_string *param_1,char *param_2,ulong param_3)
{
byte *pbVar1;
int iVar2;
char *pcVar3;
long in_FS_OFFSET;
char local_428 [1024];
long local_28;
local_28 = *(long *)(in_FS_OFFSET + 0x28);
if (param_3 < 0x3ff) {
if (display_result_lower == '\x01') {
if (param_3 == 0) {
pcVar3 = local_428;
}
else {
pbVar1 = (byte *)(param_2 + param_3);
pcVar3 = local_428;
do {
*pcVar3 = *(char *)(*(long *)(charset_info + 0x48) + (ulong)(byte)*param_2);
pcVar3 = pcVar3 + 1;
param_2 = (char *)((byte *)param_2 + 1);
} while (param_2 < pbVar1);
}
}
else {
__memcpy_chk(local_428,param_2,param_3,0x400);
pcVar3 = local_428 + param_3;
}
*pcVar3 = '\0';
param_2 = local_428;
}
if ((glob_replace_regex != (st_replace_regex *)0x0) &&
(iVar2 = multi_reg_replace(glob_replace_regex,param_2), iVar2 == 0)) {
param_2 = *(char **)(glob_replace_regex + 0x28);
param_3 = strlen(param_2);
}
if (glob_replace == (st_replace *)0x0) {
dynstr_append_mem(param_1,param_2,param_3);
}
else {
replace_strings_append(glob_replace,param_1,param_2);
}
if (*(long *)(in_FS_OFFSET + 0x28) != local_28) {
/* WARNING: Subroutine does not return */
__stack_chk_fail();
}
return;
}
| |
34,456 | JS_EvalThis | bluesky950520[P]quickjs/quickjs.c | JSValue JS_EvalThis(JSContext *ctx, JSValue this_obj,
const char *input, size_t input_len,
const char *filename, int eval_flags)
{
JSValue ret;
assert((eval_flags & JS_EVAL_TYPE_MASK) == JS_EVAL_TYPE_GLOBAL ||
(eval_flags & JS_EVAL_TYPE_MASK) == JS_EVAL_TYPE_MODULE);
ret = JS_EvalInternal(ctx, this_obj, input, input_len, filename,
eval_flags, -1);
return ret;
} | O0 | c | JS_EvalThis:
subq $0x68, %rsp
movl 0x70(%rsp), %eax
movq %rsi, 0x40(%rsp)
movq %rdx, 0x48(%rsp)
movq %rdi, 0x38(%rsp)
movq %rcx, 0x30(%rsp)
movq %r8, 0x28(%rsp)
movq %r9, 0x20(%rsp)
movq 0x38(%rsp), %rdi
movq 0x30(%rsp), %rcx
movq 0x28(%rsp), %r8
movq 0x20(%rsp), %r9
movl 0x70(%rsp), %r10d
movq 0x40(%rsp), %rsi
movq 0x48(%rsp), %rdx
movq %rsp, %rax
movl %r10d, (%rax)
movl $0xffffffff, 0x8(%rax) # imm = 0xFFFFFFFF
callq 0x49970
movq %rax, 0x10(%rsp)
movq %rdx, 0x18(%rsp)
movups 0x10(%rsp), %xmm0
movaps %xmm0, 0x50(%rsp)
movq 0x50(%rsp), %rax
movq 0x58(%rsp), %rdx
addq $0x68, %rsp
retq
nop
| JS_EvalThis:
sub rsp, 68h
mov eax, [rsp+68h+arg_0]
mov [rsp+68h+var_28], rsi
mov [rsp+68h+var_20], rdx
mov [rsp+68h+var_30], rdi
mov [rsp+68h+var_38], rcx
mov [rsp+68h+var_40], r8
mov [rsp+68h+var_48], r9
mov rdi, [rsp+68h+var_30]
mov rcx, [rsp+68h+var_38]
mov r8, [rsp+68h+var_40]
mov r9, [rsp+68h+var_48]
mov r10d, [rsp+68h+arg_0]
mov rsi, [rsp+68h+var_28]
mov rdx, [rsp+68h+var_20]
mov rax, rsp
mov [rax], r10d
mov dword ptr [rax+8], 0FFFFFFFFh
call JS_EvalInternal
mov qword ptr [rsp+68h+var_58], rax
mov qword ptr [rsp+68h+var_58+8], rdx
movups xmm0, [rsp+68h+var_58]
movaps [rsp+68h+var_18], xmm0
mov rax, qword ptr [rsp+68h+var_18]
mov rdx, qword ptr [rsp+68h+var_18+8]
add rsp, 68h
retn
| long long JS_EvalThis(int a1, int a2, int a3, int a4, int a5, int a6, int a7)
{
return JS_EvalInternal(a1, a2, a3, a4, a5, a6, a7, -1);
}
| JS_EvalThis:
SUB RSP,0x68
MOV EAX,dword ptr [RSP + 0x70]
MOV qword ptr [RSP + 0x40],RSI
MOV qword ptr [RSP + 0x48],RDX
MOV qword ptr [RSP + 0x38],RDI
MOV qword ptr [RSP + 0x30],RCX
MOV qword ptr [RSP + 0x28],R8
MOV qword ptr [RSP + 0x20],R9
MOV RDI,qword ptr [RSP + 0x38]
MOV RCX,qword ptr [RSP + 0x30]
MOV R8,qword ptr [RSP + 0x28]
MOV R9,qword ptr [RSP + 0x20]
MOV R10D,dword ptr [RSP + 0x70]
MOV RSI,qword ptr [RSP + 0x40]
MOV RDX,qword ptr [RSP + 0x48]
MOV RAX,RSP
MOV dword ptr [RAX],R10D
MOV dword ptr [RAX + 0x8],0xffffffff
CALL 0x00149970
MOV qword ptr [RSP + 0x10],RAX
MOV qword ptr [RSP + 0x18],RDX
MOVUPS XMM0,xmmword ptr [RSP + 0x10]
MOVAPS xmmword ptr [RSP + 0x50],XMM0
MOV RAX,qword ptr [RSP + 0x50]
MOV RDX,qword ptr [RSP + 0x58]
ADD RSP,0x68
RET
|
int1 [16]
JS_EvalThis(int8 param_1,int8 param_2,int8 param_3,int8 param_4,
int8 param_5,int8 param_6,int4 param_7)
{
int1 auVar1 [16];
auVar1 = JS_EvalInternal(param_1,param_2,param_3,param_4,param_5,param_6,param_7,0xffffffff);
return auVar1;
}
| |
34,457 | parse_date | eloqsql/libmariadb/libmariadb/ma_stmt_codec.c | static int parse_date(const char *str, size_t length, const char **end_ptr, MYSQL_TIME *tm)
{
int err = 0;
const char *p = str;
const char *end = str + length;
int ret = 1;
tm->year = my_strtoui(p, end - p, &p, &err);
if (err || tm->year > 9999 || p == end || *p != '-')
goto end;
if (p - str == 2) // 2-digit year
tm->year += (tm->year >= 70) ? 1900 : 2000;
p++;
tm->month = my_strtoui(p,end -p, &p, &err);
if (err || tm->month > 12 || p == end || *p != '-')
goto end;
p++;
tm->day = my_strtoui(p, end -p , &p, &err);
if (err || tm->day > 31)
goto end;
ret = 0;
end:
*end_ptr = p;
return ret;
} | O0 | c | parse_date:
pushq %rbp
movq %rsp, %rbp
subq $0x40, %rsp
movq %rdi, -0x8(%rbp)
movq %rsi, -0x10(%rbp)
movq %rdx, -0x18(%rbp)
movq %rcx, -0x20(%rbp)
movl $0x0, -0x24(%rbp)
movq -0x8(%rbp), %rax
movq %rax, -0x30(%rbp)
movq -0x8(%rbp), %rax
addq -0x10(%rbp), %rax
movq %rax, -0x38(%rbp)
movl $0x1, -0x3c(%rbp)
movq -0x30(%rbp), %rdi
movq -0x38(%rbp), %rsi
movq -0x30(%rbp), %rax
subq %rax, %rsi
leaq -0x30(%rbp), %rdx
leaq -0x24(%rbp), %rcx
callq 0x3ca90
movl %eax, %ecx
movq -0x20(%rbp), %rax
movl %ecx, (%rax)
cmpl $0x0, -0x24(%rbp)
jne 0x3b946
movq -0x20(%rbp), %rax
cmpl $0x270f, (%rax) # imm = 0x270F
ja 0x3b946
movq -0x30(%rbp), %rax
cmpq -0x38(%rbp), %rax
je 0x3b946
movq -0x30(%rbp), %rax
movsbl (%rax), %eax
cmpl $0x2d, %eax
je 0x3b94b
jmp 0x3ba1d
movq -0x30(%rbp), %rax
movq -0x8(%rbp), %rcx
subq %rcx, %rax
cmpq $0x2, %rax
jne 0x3b97a
movq -0x20(%rbp), %rax
movl (%rax), %edx
movl $0x7d0, %ecx # imm = 0x7D0
movl $0x76c, %eax # imm = 0x76C
cmpl $0x46, %edx
cmovael %eax, %ecx
movq -0x20(%rbp), %rax
addl (%rax), %ecx
movl %ecx, (%rax)
movq -0x30(%rbp), %rax
addq $0x1, %rax
movq %rax, -0x30(%rbp)
movq -0x30(%rbp), %rdi
movq -0x38(%rbp), %rsi
movq -0x30(%rbp), %rax
subq %rax, %rsi
leaq -0x30(%rbp), %rdx
leaq -0x24(%rbp), %rcx
callq 0x3ca90
movl %eax, %ecx
movq -0x20(%rbp), %rax
movl %ecx, 0x4(%rax)
cmpl $0x0, -0x24(%rbp)
jne 0x3b9d1
movq -0x20(%rbp), %rax
cmpl $0xc, 0x4(%rax)
ja 0x3b9d1
movq -0x30(%rbp), %rax
cmpq -0x38(%rbp), %rax
je 0x3b9d1
movq -0x30(%rbp), %rax
movsbl (%rax), %eax
cmpl $0x2d, %eax
je 0x3b9d3
jmp 0x3ba1d
movq -0x30(%rbp), %rax
addq $0x1, %rax
movq %rax, -0x30(%rbp)
movq -0x30(%rbp), %rdi
movq -0x38(%rbp), %rsi
movq -0x30(%rbp), %rax
subq %rax, %rsi
leaq -0x30(%rbp), %rdx
leaq -0x24(%rbp), %rcx
callq 0x3ca90
movl %eax, %ecx
movq -0x20(%rbp), %rax
movl %ecx, 0x8(%rax)
cmpl $0x0, -0x24(%rbp)
jne 0x3ba14
movq -0x20(%rbp), %rax
cmpl $0x1f, 0x8(%rax)
jbe 0x3ba16
jmp 0x3ba1d
movl $0x0, -0x3c(%rbp)
movq -0x30(%rbp), %rcx
movq -0x18(%rbp), %rax
movq %rcx, (%rax)
movl -0x3c(%rbp), %eax
addq $0x40, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| parse_date:
push rbp
mov rbp, rsp
sub rsp, 40h
mov [rbp+var_8], rdi
mov [rbp+var_10], rsi
mov [rbp+var_18], rdx
mov [rbp+var_20], rcx
mov [rbp+var_24], 0
mov rax, [rbp+var_8]
mov [rbp+var_30], rax
mov rax, [rbp+var_8]
add rax, [rbp+var_10]
mov [rbp+var_38], rax
mov [rbp+var_3C], 1
mov rdi, [rbp+var_30]
mov rsi, [rbp+var_38]
mov rax, [rbp+var_30]
sub rsi, rax
lea rdx, [rbp+var_30]
lea rcx, [rbp+var_24]
call my_strtoui
mov ecx, eax
mov rax, [rbp+var_20]
mov [rax], ecx
cmp [rbp+var_24], 0
jnz short loc_3B946
mov rax, [rbp+var_20]
cmp dword ptr [rax], 270Fh
ja short loc_3B946
mov rax, [rbp+var_30]
cmp rax, [rbp+var_38]
jz short loc_3B946
mov rax, [rbp+var_30]
movsx eax, byte ptr [rax]
cmp eax, 2Dh ; '-'
jz short loc_3B94B
loc_3B946:
jmp loc_3BA1D
loc_3B94B:
mov rax, [rbp+var_30]
mov rcx, [rbp+var_8]
sub rax, rcx
cmp rax, 2
jnz short loc_3B97A
mov rax, [rbp+var_20]
mov edx, [rax]
mov ecx, 7D0h
mov eax, 76Ch
cmp edx, 46h ; 'F'
cmovnb ecx, eax
mov rax, [rbp+var_20]
add ecx, [rax]
mov [rax], ecx
loc_3B97A:
mov rax, [rbp+var_30]
add rax, 1
mov [rbp+var_30], rax
mov rdi, [rbp+var_30]
mov rsi, [rbp+var_38]
mov rax, [rbp+var_30]
sub rsi, rax
lea rdx, [rbp+var_30]
lea rcx, [rbp+var_24]
call my_strtoui
mov ecx, eax
mov rax, [rbp+var_20]
mov [rax+4], ecx
cmp [rbp+var_24], 0
jnz short loc_3B9D1
mov rax, [rbp+var_20]
cmp dword ptr [rax+4], 0Ch
ja short loc_3B9D1
mov rax, [rbp+var_30]
cmp rax, [rbp+var_38]
jz short loc_3B9D1
mov rax, [rbp+var_30]
movsx eax, byte ptr [rax]
cmp eax, 2Dh ; '-'
jz short loc_3B9D3
loc_3B9D1:
jmp short loc_3BA1D
loc_3B9D3:
mov rax, [rbp+var_30]
add rax, 1
mov [rbp+var_30], rax
mov rdi, [rbp+var_30]
mov rsi, [rbp+var_38]
mov rax, [rbp+var_30]
sub rsi, rax
lea rdx, [rbp+var_30]
lea rcx, [rbp+var_24]
call my_strtoui
mov ecx, eax
mov rax, [rbp+var_20]
mov [rax+8], ecx
cmp [rbp+var_24], 0
jnz short loc_3BA14
mov rax, [rbp+var_20]
cmp dword ptr [rax+8], 1Fh
jbe short loc_3BA16
loc_3BA14:
jmp short loc_3BA1D
loc_3BA16:
mov [rbp+var_3C], 0
loc_3BA1D:
mov rcx, [rbp+var_30]
mov rax, [rbp+var_18]
mov [rax], rcx
mov eax, [rbp+var_3C]
add rsp, 40h
pop rbp
retn
| long long parse_date(_BYTE *a1, long long a2, _QWORD *a3, _DWORD *a4)
{
int v4; // eax
int v5; // ecx
int v6; // eax
int v7; // eax
unsigned int v9; // [rsp+4h] [rbp-3Ch]
_BYTE *v10; // [rsp+8h] [rbp-38h]
_BYTE *v11; // [rsp+10h] [rbp-30h] BYREF
int v12; // [rsp+1Ch] [rbp-24h] BYREF
_DWORD *v13; // [rsp+20h] [rbp-20h]
_QWORD *v14; // [rsp+28h] [rbp-18h]
long long v15; // [rsp+30h] [rbp-10h]
_BYTE *v16; // [rsp+38h] [rbp-8h]
v16 = a1;
v15 = a2;
v14 = a3;
v13 = a4;
v12 = 0;
v11 = a1;
v10 = &a1[a2];
v9 = 1;
v4 = my_strtoui(a1, a2, &v11, &v12);
*v13 = v4;
if ( !v12 && *v13 <= 0x270Fu && v11 != v10 && *v11 == 45 )
{
if ( v11 - v16 == 2 )
{
v5 = 2000;
if ( *v13 >= 0x46u )
v5 = 1900;
*v13 += v5;
}
++v11;
v6 = my_strtoui(v11, v10 - v11, &v11, &v12);
v13[1] = v6;
if ( !v12 && v13[1] <= 0xCu && v11 != v10 && *v11 == 45 )
{
++v11;
v7 = my_strtoui(v11, v10 - v11, &v11, &v12);
v13[2] = v7;
if ( !v12 && v13[2] <= 0x1Fu )
v9 = 0;
}
}
*v14 = v11;
return v9;
}
| parse_date:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x40
MOV qword ptr [RBP + -0x8],RDI
MOV qword ptr [RBP + -0x10],RSI
MOV qword ptr [RBP + -0x18],RDX
MOV qword ptr [RBP + -0x20],RCX
MOV dword ptr [RBP + -0x24],0x0
MOV RAX,qword ptr [RBP + -0x8]
MOV qword ptr [RBP + -0x30],RAX
MOV RAX,qword ptr [RBP + -0x8]
ADD RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RBP + -0x38],RAX
MOV dword ptr [RBP + -0x3c],0x1
MOV RDI,qword ptr [RBP + -0x30]
MOV RSI,qword ptr [RBP + -0x38]
MOV RAX,qword ptr [RBP + -0x30]
SUB RSI,RAX
LEA RDX,[RBP + -0x30]
LEA RCX,[RBP + -0x24]
CALL 0x0013ca90
MOV ECX,EAX
MOV RAX,qword ptr [RBP + -0x20]
MOV dword ptr [RAX],ECX
CMP dword ptr [RBP + -0x24],0x0
JNZ 0x0013b946
MOV RAX,qword ptr [RBP + -0x20]
CMP dword ptr [RAX],0x270f
JA 0x0013b946
MOV RAX,qword ptr [RBP + -0x30]
CMP RAX,qword ptr [RBP + -0x38]
JZ 0x0013b946
MOV RAX,qword ptr [RBP + -0x30]
MOVSX EAX,byte ptr [RAX]
CMP EAX,0x2d
JZ 0x0013b94b
LAB_0013b946:
JMP 0x0013ba1d
LAB_0013b94b:
MOV RAX,qword ptr [RBP + -0x30]
MOV RCX,qword ptr [RBP + -0x8]
SUB RAX,RCX
CMP RAX,0x2
JNZ 0x0013b97a
MOV RAX,qword ptr [RBP + -0x20]
MOV EDX,dword ptr [RAX]
MOV ECX,0x7d0
MOV EAX,0x76c
CMP EDX,0x46
CMOVNC ECX,EAX
MOV RAX,qword ptr [RBP + -0x20]
ADD ECX,dword ptr [RAX]
MOV dword ptr [RAX],ECX
LAB_0013b97a:
MOV RAX,qword ptr [RBP + -0x30]
ADD RAX,0x1
MOV qword ptr [RBP + -0x30],RAX
MOV RDI,qword ptr [RBP + -0x30]
MOV RSI,qword ptr [RBP + -0x38]
MOV RAX,qword ptr [RBP + -0x30]
SUB RSI,RAX
LEA RDX,[RBP + -0x30]
LEA RCX,[RBP + -0x24]
CALL 0x0013ca90
MOV ECX,EAX
MOV RAX,qword ptr [RBP + -0x20]
MOV dword ptr [RAX + 0x4],ECX
CMP dword ptr [RBP + -0x24],0x0
JNZ 0x0013b9d1
MOV RAX,qword ptr [RBP + -0x20]
CMP dword ptr [RAX + 0x4],0xc
JA 0x0013b9d1
MOV RAX,qword ptr [RBP + -0x30]
CMP RAX,qword ptr [RBP + -0x38]
JZ 0x0013b9d1
MOV RAX,qword ptr [RBP + -0x30]
MOVSX EAX,byte ptr [RAX]
CMP EAX,0x2d
JZ 0x0013b9d3
LAB_0013b9d1:
JMP 0x0013ba1d
LAB_0013b9d3:
MOV RAX,qword ptr [RBP + -0x30]
ADD RAX,0x1
MOV qword ptr [RBP + -0x30],RAX
MOV RDI,qword ptr [RBP + -0x30]
MOV RSI,qword ptr [RBP + -0x38]
MOV RAX,qword ptr [RBP + -0x30]
SUB RSI,RAX
LEA RDX,[RBP + -0x30]
LEA RCX,[RBP + -0x24]
CALL 0x0013ca90
MOV ECX,EAX
MOV RAX,qword ptr [RBP + -0x20]
MOV dword ptr [RAX + 0x8],ECX
CMP dword ptr [RBP + -0x24],0x0
JNZ 0x0013ba14
MOV RAX,qword ptr [RBP + -0x20]
CMP dword ptr [RAX + 0x8],0x1f
JBE 0x0013ba16
LAB_0013ba14:
JMP 0x0013ba1d
LAB_0013ba16:
MOV dword ptr [RBP + -0x3c],0x0
LAB_0013ba1d:
MOV RCX,qword ptr [RBP + -0x30]
MOV RAX,qword ptr [RBP + -0x18]
MOV qword ptr [RAX],RCX
MOV EAX,dword ptr [RBP + -0x3c]
ADD RSP,0x40
POP RBP
RET
|
int4 parse_date(char *param_1,long param_2,int8 *param_3,uint *param_4)
{
uint uVar1;
char *pcVar2;
int iVar3;
int4 local_44;
char *local_38;
int local_2c;
uint *local_28;
int8 *local_20;
long local_18;
char *local_10;
local_2c = 0;
pcVar2 = param_1 + param_2;
local_44 = 1;
local_38 = param_1;
local_28 = param_4;
local_20 = param_3;
local_18 = param_2;
local_10 = param_1;
uVar1 = my_strtoui(param_1,(long)pcVar2 - (long)param_1,&local_38,&local_2c);
*local_28 = uVar1;
if ((((local_2c == 0) && (*local_28 < 10000)) && (local_38 != pcVar2)) && (*local_38 == '-')) {
if ((long)local_38 - (long)local_10 == 2) {
iVar3 = 2000;
if (0x45 < *local_28) {
iVar3 = 0x76c;
}
*local_28 = iVar3 + *local_28;
}
local_38 = local_38 + 1;
uVar1 = my_strtoui(local_38,(long)pcVar2 - (long)local_38,&local_38,&local_2c);
local_28[1] = uVar1;
if (((local_2c == 0) && (local_28[1] < 0xd)) && ((local_38 != pcVar2 && (*local_38 == '-')))) {
local_38 = local_38 + 1;
uVar1 = my_strtoui(local_38,(long)pcVar2 - (long)local_38,&local_38,&local_2c);
local_28[2] = uVar1;
if ((local_2c == 0) && (local_28[2] < 0x20)) {
local_44 = 0;
}
}
}
*local_20 = local_38;
return local_44;
}
| |
34,458 | ssz_create_multi_proof | corpus-core[P]colibri-stateless/src/util/ssz_merkle.c | bytes_t ssz_create_multi_proof(ssz_ob_t root, bytes32_t root_hash, int gindex_len, ...) {
gindex_t* gindex = safe_malloc(gindex_len * sizeof(gindex_t));
va_list args;
va_start(args, gindex_len);
for (int i = 0; i < gindex_len; i++)
gindex[i] = va_arg(args, gindex_t);
va_end(args);
bytes_t proof = ssz_create_multi_proof_for_gindexes(root, root_hash, gindex, gindex_len);
safe_free(gindex);
return proof;
} | O0 | c | ssz_create_multi_proof:
pushq %rbp
movq %rsp, %rbp
subq $0x140, %rsp # imm = 0x140
testb %al, %al
je 0xa0f2e
movaps %xmm0, -0xd0(%rbp)
movaps %xmm1, -0xc0(%rbp)
movaps %xmm2, -0xb0(%rbp)
movaps %xmm3, -0xa0(%rbp)
movaps %xmm4, -0x90(%rbp)
movaps %xmm5, -0x80(%rbp)
movaps %xmm6, -0x70(%rbp)
movaps %xmm7, -0x60(%rbp)
movq %r9, -0xd8(%rbp)
movq %r8, -0xe0(%rbp)
movq %rcx, -0xe8(%rbp)
movq %rdx, -0xf0(%rbp)
leaq 0x10(%rbp), %rax
movq %rax, -0x108(%rbp)
movq %rdi, -0x18(%rbp)
movl %esi, -0x1c(%rbp)
movslq -0x1c(%rbp), %rdi
shlq $0x3, %rdi
callq 0x9c400
movq %rax, -0x28(%rbp)
leaq -0x40(%rbp), %rax
leaq -0x100(%rbp), %rcx
movq %rcx, 0x10(%rax)
leaq 0x28(%rbp), %rcx
movq %rcx, 0x8(%rax)
movl $0x30, 0x4(%rax)
movl $0x10, (%rax)
movl $0x0, -0x44(%rbp)
movl -0x44(%rbp), %eax
cmpl -0x1c(%rbp), %eax
jge 0xa101c
leaq -0x40(%rbp), %rax
movq %rax, -0x118(%rbp)
movl -0x40(%rbp), %eax
movl %eax, -0x10c(%rbp)
cmpl $0x28, %eax
ja 0xa0fdb
movq -0x118(%rbp), %rcx
movl -0x10c(%rbp), %edx
movslq %edx, %rax
addq 0x10(%rcx), %rax
addl $0x8, %edx
movl %edx, (%rcx)
movq %rax, -0x120(%rbp)
jmp 0xa0ff8
movq -0x118(%rbp), %rcx
movq 0x8(%rcx), %rax
movq %rax, %rdx
addq $0x8, %rdx
movq %rdx, 0x8(%rcx)
movq %rax, -0x120(%rbp)
movq -0x120(%rbp), %rax
movq (%rax), %rdx
movq -0x28(%rbp), %rax
movslq -0x44(%rbp), %rcx
movq %rdx, (%rax,%rcx,8)
movl -0x44(%rbp), %eax
addl $0x1, %eax
movl %eax, -0x44(%rbp)
jmp 0xa0f98
movq -0x108(%rbp), %rcx
movq -0x18(%rbp), %rdi
movq -0x28(%rbp), %rsi
movl -0x1c(%rbp), %edx
movq 0x10(%rcx), %r8
movq %rsp, %rax
movq %r8, 0x10(%rax)
movups (%rcx), %xmm0
movups %xmm0, (%rax)
callq 0xa0cf0
movl %eax, -0x10(%rbp)
movq %rdx, -0x8(%rbp)
movq -0x28(%rbp), %rdi
callq 0x9c5a0
movl -0x10(%rbp), %eax
movq -0x8(%rbp), %rdx
addq $0x140, %rsp # imm = 0x140
popq %rbp
retq
nopw %cs:(%rax,%rax)
| ssz_create_multi_proof:
push rbp
mov rbp, rsp
sub rsp, 140h
test al, al
jz short loc_A0F2E
movaps [rbp+var_D0], xmm0
movaps [rbp+var_C0], xmm1
movaps [rbp+var_B0], xmm2
movaps [rbp+var_A0], xmm3
movaps [rbp+var_90], xmm4
movaps [rbp+var_80], xmm5
movaps [rbp+var_70], xmm6
movaps [rbp+var_60], xmm7
loc_A0F2E:
mov [rbp+var_D8], r9
mov [rbp+var_E0], r8
mov [rbp+var_E8], rcx
mov [rbp+var_F0], rdx
lea rax, [rbp+arg_0]
mov [rbp+var_108], rax
mov [rbp+var_18], rdi
mov [rbp+var_1C], esi
movsxd rdi, [rbp+var_1C]
shl rdi, 3
call safe_malloc
mov [rbp+var_28], rax
lea rax, [rbp+var_40]
lea rcx, [rbp+var_100]
mov [rax+10h], rcx
lea rcx, [rbp+arg_18]
mov [rax+8], rcx
mov dword ptr [rax+4], 30h ; '0'
mov dword ptr [rax], 10h
mov [rbp+var_44], 0
loc_A0F98:
mov eax, [rbp+var_44]
cmp eax, [rbp+var_1C]
jge short loc_A101C
lea rax, [rbp+var_40]
mov [rbp+var_118], rax
mov eax, [rbp+var_40]
mov [rbp+var_10C], eax
cmp eax, 28h ; '('
ja short loc_A0FDB
mov rcx, [rbp+var_118]
mov edx, [rbp+var_10C]
movsxd rax, edx
add rax, [rcx+10h]
add edx, 8
mov [rcx], edx
mov [rbp+var_120], rax
jmp short loc_A0FF8
loc_A0FDB:
mov rcx, [rbp+var_118]
mov rax, [rcx+8]
mov rdx, rax
add rdx, 8
mov [rcx+8], rdx
mov [rbp+var_120], rax
loc_A0FF8:
mov rax, [rbp+var_120]
mov rdx, [rax]
mov rax, [rbp+var_28]
movsxd rcx, [rbp+var_44]
mov [rax+rcx*8], rdx
mov eax, [rbp+var_44]
add eax, 1
mov [rbp+var_44], eax
jmp loc_A0F98
loc_A101C:
mov rcx, [rbp+var_108]
mov rdi, [rbp+var_18]
mov rsi, [rbp+var_28]
mov edx, [rbp+var_1C]
mov r8, [rcx+10h]
mov rax, rsp
mov [rax+10h], r8
movups xmm0, xmmword ptr [rcx]
movups xmmword ptr [rax], xmm0
call ssz_create_multi_proof_for_gindexes
mov [rbp+var_10], eax
mov [rbp+var_8], rdx
mov rdi, [rbp+var_28]
call safe_free
mov eax, [rbp+var_10]
mov rdx, [rbp+var_8]
add rsp, 140h
pop rbp
retn
| long long ssz_create_multi_proof(long long a1, int a2, long long a3, unsigned __int8 *a4, long long a5, ...)
{
long long v5; // r9
_QWORD *overflow_arg_area; // rax
long long v7; // rdx
int i; // [rsp+FCh] [rbp-44h]
va_list va; // [rsp+100h] [rbp-40h] BYREF
long long v11; // [rsp+118h] [rbp-28h]
int v12; // [rsp+124h] [rbp-1Ch]
long long v13; // [rsp+128h] [rbp-18h]
unsigned int multi_proof_for_gindexes; // [rsp+130h] [rbp-10h]
long long v15; // [rsp+138h] [rbp-8h]
va_start(va, a5);
va_arg(va, _QWORD);
va_arg(va, _QWORD);
va_arg(va, _QWORD);
va_arg(va, _QWORD);
va_end(va);
va_start(va, a5);
v13 = a1;
v12 = a2;
v11 = safe_malloc(8LL * a2);
for ( i = 0; i < v12; ++i )
{
if ( va[0].gp_offset > 0x28 )
{
overflow_arg_area = va[0].overflow_arg_area;
va[0].overflow_arg_area = (char *)va[0].overflow_arg_area + 8;
}
else
{
overflow_arg_area = (char *)va[0].reg_save_area + (int)va[0].gp_offset;
va[0].gp_offset += 8;
}
*(_QWORD *)(v11 + 8LL * i) = *overflow_arg_area;
}
multi_proof_for_gindexes = ssz_create_multi_proof_for_gindexes(v13, v11, v12, (long long)&a3, a5, v5, a3, a4, a5);
v15 = v7;
safe_free(v11);
return multi_proof_for_gindexes;
}
| ssz_create_multi_proof:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x140
TEST AL,AL
JZ 0x001a0f2e
MOVAPS xmmword ptr [RBP + -0xd0],XMM0
MOVAPS xmmword ptr [RBP + -0xc0],XMM1
MOVAPS xmmword ptr [RBP + -0xb0],XMM2
MOVAPS xmmword ptr [RBP + -0xa0],XMM3
MOVAPS xmmword ptr [RBP + -0x90],XMM4
MOVAPS xmmword ptr [RBP + -0x80],XMM5
MOVAPS xmmword ptr [RBP + -0x70],XMM6
MOVAPS xmmword ptr [RBP + -0x60],XMM7
LAB_001a0f2e:
MOV qword ptr [RBP + -0xd8],R9
MOV qword ptr [RBP + -0xe0],R8
MOV qword ptr [RBP + -0xe8],RCX
MOV qword ptr [RBP + -0xf0],RDX
LEA RAX,[RBP + 0x10]
MOV qword ptr [RBP + -0x108],RAX
MOV qword ptr [RBP + -0x18],RDI
MOV dword ptr [RBP + -0x1c],ESI
MOVSXD RDI,dword ptr [RBP + -0x1c]
SHL RDI,0x3
CALL 0x0019c400
MOV qword ptr [RBP + -0x28],RAX
LEA RAX,[RBP + -0x40]
LEA RCX,[RBP + -0x100]
MOV qword ptr [RAX + 0x10],RCX
LEA RCX,[RBP + 0x28]
MOV qword ptr [RAX + 0x8],RCX
MOV dword ptr [RAX + 0x4],0x30
MOV dword ptr [RAX],0x10
MOV dword ptr [RBP + -0x44],0x0
LAB_001a0f98:
MOV EAX,dword ptr [RBP + -0x44]
CMP EAX,dword ptr [RBP + -0x1c]
JGE 0x001a101c
LEA RAX,[RBP + -0x40]
MOV qword ptr [RBP + -0x118],RAX
MOV EAX,dword ptr [RBP + -0x40]
MOV dword ptr [RBP + -0x10c],EAX
CMP EAX,0x28
JA 0x001a0fdb
MOV RCX,qword ptr [RBP + -0x118]
MOV EDX,dword ptr [RBP + -0x10c]
MOVSXD RAX,EDX
ADD RAX,qword ptr [RCX + 0x10]
ADD EDX,0x8
MOV dword ptr [RCX],EDX
MOV qword ptr [RBP + -0x120],RAX
JMP 0x001a0ff8
LAB_001a0fdb:
MOV RCX,qword ptr [RBP + -0x118]
MOV RAX,qword ptr [RCX + 0x8]
MOV RDX,RAX
ADD RDX,0x8
MOV qword ptr [RCX + 0x8],RDX
MOV qword ptr [RBP + -0x120],RAX
LAB_001a0ff8:
MOV RAX,qword ptr [RBP + -0x120]
MOV RDX,qword ptr [RAX]
MOV RAX,qword ptr [RBP + -0x28]
MOVSXD RCX,dword ptr [RBP + -0x44]
MOV qword ptr [RAX + RCX*0x8],RDX
MOV EAX,dword ptr [RBP + -0x44]
ADD EAX,0x1
MOV dword ptr [RBP + -0x44],EAX
JMP 0x001a0f98
LAB_001a101c:
MOV RCX,qword ptr [RBP + -0x108]
MOV RDI,qword ptr [RBP + -0x18]
MOV RSI,qword ptr [RBP + -0x28]
MOV EDX,dword ptr [RBP + -0x1c]
MOV R8,qword ptr [RCX + 0x10]
MOV RAX,RSP
MOV qword ptr [RAX + 0x10],R8
MOVUPS XMM0,xmmword ptr [RCX]
MOVUPS xmmword ptr [RAX],XMM0
CALL 0x001a0cf0
MOV dword ptr [RBP + -0x10],EAX
MOV qword ptr [RBP + -0x8],RDX
MOV RDI,qword ptr [RBP + -0x28]
CALL 0x0019c5a0
MOV EAX,dword ptr [RBP + -0x10]
MOV RDX,qword ptr [RBP + -0x8]
ADD RSP,0x140
POP RBP
RET
|
/* WARNING: Restarted to delay deadcode elimination for space: stack */
int1 [16]
ssz_create_multi_proof
(int4 param_1,int8 param_2,int8 param_3,int8 param_4,
int8 param_5,int8 param_6,int8 param_7,int8 param_8,
int8 param_9,int param_10,int8 param_11,int8 param_12,
int8 param_13,int8 param_14)
{
char in_AL;
int8 extraout_RDX;
int1 auVar1 [16];
int8 *local_128;
int8 local_108 [4];
int8 local_e8;
int8 local_e0;
int4 local_d8;
int8 local_c8;
int8 local_b8;
int8 local_a8;
int8 local_98;
int8 local_88;
int8 local_78;
int8 local_68;
int local_4c;
uint local_48;
int4 local_44;
int8 *local_40;
int8 *local_38;
long local_30;
int local_24;
int8 local_20;
uint local_18;
int8 local_10;
if (in_AL != '\0') {
local_d8 = param_1;
local_c8 = param_2;
local_b8 = param_3;
local_a8 = param_4;
local_98 = param_5;
local_88 = param_6;
local_78 = param_7;
local_68 = param_8;
}
local_108[2] = param_11;
local_108[3] = param_12;
local_e8 = param_13;
local_e0 = param_14;
local_24 = param_10;
local_20 = param_9;
local_30 = safe_malloc((long)param_10 << 3);
local_38 = local_108;
local_40 = (int8 *)&stack0x00000020;
local_44 = 0x30;
local_48 = 0x10;
for (local_4c = 0; local_4c < local_24; local_4c = local_4c + 1) {
if (local_48 < 0x29) {
local_128 = (int8 *)((long)local_38 + (long)(int)local_48);
local_48 = local_48 + 8;
}
else {
local_128 = local_40;
local_40 = local_40 + 1;
}
*(int8 *)(local_30 + (long)local_4c * 8) = *local_128;
}
local_18 = ssz_create_multi_proof_for_gindexes(local_20,local_30,local_24);
local_10 = extraout_RDX;
safe_free(local_30);
auVar1._4_4_ = 0;
auVar1._0_4_ = local_18;
auVar1._8_8_ = local_10;
return auVar1;
}
| |
34,459 | ssz_create_multi_proof | corpus-core[P]colibri-stateless/src/util/ssz_merkle.c | bytes_t ssz_create_multi_proof(ssz_ob_t root, bytes32_t root_hash, int gindex_len, ...) {
gindex_t* gindex = safe_malloc(gindex_len * sizeof(gindex_t));
va_list args;
va_start(args, gindex_len);
for (int i = 0; i < gindex_len; i++)
gindex[i] = va_arg(args, gindex_t);
va_end(args);
bytes_t proof = ssz_create_multi_proof_for_gindexes(root, root_hash, gindex, gindex_len);
safe_free(gindex);
return proof;
} | O3 | c | ssz_create_multi_proof:
pushq %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0xf8, %rsp
movl %esi, %ebx
movq %rdi, %r14
leaq 0x40(%rsp), %r13
movq %rdx, 0x10(%r13)
movq %rcx, 0x18(%r13)
movq %r8, 0x20(%r13)
movq %r9, 0x28(%r13)
testb %al, %al
je 0x538ac
movaps %xmm0, 0x70(%rsp)
movaps %xmm1, 0x80(%rsp)
movaps %xmm2, 0x90(%rsp)
movaps %xmm3, 0xa0(%rsp)
movaps %xmm4, 0xb0(%rsp)
movaps %xmm5, 0xc0(%rsp)
movaps %xmm6, 0xd0(%rsp)
movaps %xmm7, 0xe0(%rsp)
leaq 0x130(%rsp), %r12
movslq %esi, %rbp
leaq (,%rbp,8), %rdi
callq 0x50ecc
movq %rax, %r15
movq %r13, 0x30(%rsp)
leaq 0x148(%rsp), %rax
movq %rax, 0x28(%rsp)
movabsq $0x3000000010, %rax # imm = 0x3000000010
movq %rax, 0x20(%rsp)
testl %ebp, %ebp
jle 0x53926
movl %ebx, %eax
movl 0x20(%rsp), %ecx
xorl %edx, %edx
cmpl $0x28, %ecx
ja 0x53909
movl %ecx, %esi
addq 0x30(%rsp), %rsi
addl $0x8, %ecx
movl %ecx, 0x20(%rsp)
jmp 0x53917
movq 0x28(%rsp), %rsi
leaq 0x8(%rsi), %rdi
movq %rdi, 0x28(%rsp)
movq (%rsi), %rsi
movq %rsi, (%r15,%rdx,8)
incq %rdx
cmpq %rdx, %rax
jne 0x538f4
movq 0x10(%r12), %rax
movq %rax, 0x10(%rsp)
movups (%r12), %xmm0
movups %xmm0, (%rsp)
movq %r14, %rdi
movq %r15, %rsi
movl %ebx, %edx
callq 0x53685
movl %eax, %ebx
movq %rdx, %r14
movq %r15, %rdi
callq 0x50f4c
movl %ebx, %eax
movq %r14, %rdx
addq $0xf8, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| ssz_create_multi_proof:
push rbp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 0F8h
mov ebx, esi
mov r14, rdi
lea r13, [rsp+128h+var_E8]
mov [r13+10h], rdx
mov [r13+18h], rcx
mov [r13+20h], r8
mov [r13+28h], r9
test al, al
jz short loc_538AC
movaps [rsp+128h+var_B8], xmm0
movaps [rsp+128h+var_A8], xmm1
movaps [rsp+128h+var_98], xmm2
movaps [rsp+128h+var_88], xmm3
movaps [rsp+128h+var_78], xmm4
movaps [rsp+128h+var_68], xmm5
movaps [rsp+128h+var_58], xmm6
movaps [rsp+128h+var_48], xmm7
loc_538AC:
lea r12, [rsp+128h+arg_0]
movsxd rbp, esi
lea rdi, ds:0[rbp*8]
call safe_malloc
mov r15, rax
mov [rsp+128h+var_F8], r13
lea rax, [rsp+128h+arg_18]
mov [rsp+128h+var_100], rax
mov rax, 3000000010h
mov [rsp+128h+var_108], rax
test ebp, ebp
jle short loc_53926
mov eax, ebx
mov ecx, dword ptr [rsp+128h+var_108]
xor edx, edx
loc_538F4:
cmp ecx, 28h ; '('
ja short loc_53909
mov esi, ecx
add rsi, [rsp+128h+var_F8]
add ecx, 8
mov dword ptr [rsp+128h+var_108], ecx
jmp short loc_53917
loc_53909:
mov rsi, [rsp+128h+var_100]
lea rdi, [rsi+8]
mov [rsp+128h+var_100], rdi
loc_53917:
mov rsi, [rsi]
mov [r15+rdx*8], rsi
inc rdx
cmp rax, rdx
jnz short loc_538F4
loc_53926:
mov rax, [r12+10h]
mov [rsp+128h+var_118], rax
movups xmm0, xmmword ptr [r12]
movups [rsp+128h+var_128], xmm0
mov rdi, r14
mov rsi, r15
mov edx, ebx
call ssz_create_multi_proof_for_gindexes
mov ebx, eax
mov r14, rdx
mov rdi, r15
call safe_free
mov eax, ebx
mov rdx, r14
add rsp, 0F8h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| long long ssz_create_multi_proof(
_OWORD *a1,
int a2,
long long a3,
long long a4,
long long a5,
long long a6,
__int128 a7,
long long a8,
...)
{
long long v9; // rcx
long long v10; // r8
long long v11; // r9
long long v12; // r15
long long i; // rdx
long long *v14; // rsi
long long v15; // kr00_8
unsigned int multi_proof_for_gindexes; // ebx
va_list va; // [rsp+20h] [rbp-108h] BYREF
long long v19; // [rsp+50h] [rbp-D8h]
long long v20; // [rsp+58h] [rbp-D0h]
long long v21; // [rsp+60h] [rbp-C8h]
long long v22; // [rsp+68h] [rbp-C0h]
va_start(va, a8);
v19 = a3;
v20 = a4;
v21 = a5;
v22 = a6;
v12 = safe_malloc(8LL * a2);
if ( a2 > 0 )
{
v9 = 16LL;
for ( i = 0LL; i != a2; *(_QWORD *)(v12 + 8 * i++) = *v14 )
{
if ( (unsigned int)v9 > 0x28 )
{
v15 = va_arg(va, _QWORD);
v14 = &v15;
}
else
{
v14 = (long long *)((char *)va[0].reg_save_area + (unsigned int)v9);
v9 = (unsigned int)(v9 + 8);
}
}
}
multi_proof_for_gindexes = ssz_create_multi_proof_for_gindexes(a1, v12, a2, v9, v10, v11, a7, a8);
safe_free(v12);
return multi_proof_for_gindexes;
}
| ssz_create_multi_proof:
PUSH RBP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0xf8
MOV EBX,ESI
MOV R14,RDI
LEA R13,[RSP + 0x40]
MOV qword ptr [R13 + 0x10],RDX
MOV qword ptr [R13 + 0x18],RCX
MOV qword ptr [R13 + 0x20],R8
MOV qword ptr [R13 + 0x28],R9
TEST AL,AL
JZ 0x001538ac
MOVAPS xmmword ptr [RSP + 0x70],XMM0
MOVAPS xmmword ptr [RSP + 0x80],XMM1
MOVAPS xmmword ptr [RSP + 0x90],XMM2
MOVAPS xmmword ptr [RSP + 0xa0],XMM3
MOVAPS xmmword ptr [RSP + 0xb0],XMM4
MOVAPS xmmword ptr [RSP + 0xc0],XMM5
MOVAPS xmmword ptr [RSP + 0xd0],XMM6
MOVAPS xmmword ptr [RSP + 0xe0],XMM7
LAB_001538ac:
LEA R12,[RSP + 0x130]
MOVSXD RBP,ESI
LEA RDI,[RBP*0x8]
CALL 0x00150ecc
MOV R15,RAX
MOV qword ptr [RSP + 0x30],R13
LEA RAX,[RSP + 0x148]
MOV qword ptr [RSP + 0x28],RAX
MOV RAX,0x3000000010
MOV qword ptr [RSP + 0x20],RAX
TEST EBP,EBP
JLE 0x00153926
MOV EAX,EBX
MOV ECX,dword ptr [RSP + 0x20]
XOR EDX,EDX
LAB_001538f4:
CMP ECX,0x28
JA 0x00153909
MOV ESI,ECX
ADD RSI,qword ptr [RSP + 0x30]
ADD ECX,0x8
MOV dword ptr [RSP + 0x20],ECX
JMP 0x00153917
LAB_00153909:
MOV RSI,qword ptr [RSP + 0x28]
LEA RDI,[RSI + 0x8]
MOV qword ptr [RSP + 0x28],RDI
LAB_00153917:
MOV RSI,qword ptr [RSI]
MOV qword ptr [R15 + RDX*0x8],RSI
INC RDX
CMP RAX,RDX
JNZ 0x001538f4
LAB_00153926:
MOV RAX,qword ptr [R12 + 0x10]
MOV qword ptr [RSP + 0x10],RAX
MOVUPS XMM0,xmmword ptr [R12]
MOVUPS xmmword ptr [RSP],XMM0
MOV RDI,R14
MOV RSI,R15
MOV EDX,EBX
CALL 0x00153685
MOV EBX,EAX
MOV R14,RDX
MOV RDI,R15
CALL 0x00150f4c
MOV EAX,EBX
MOV RDX,R14
ADD RSP,0xf8
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
int1 [16]
ssz_create_multi_proof
(int4 param_1,int8 param_2,int8 param_3,int8 param_4,
int8 param_5,int8 param_6,int8 param_7,int8 param_8,
int8 param_9,uint param_10,int8 param_11,int8 param_12,
int8 param_13,int8 param_14)
{
char in_AL;
long lVar1;
ulong uVar2;
int8 extraout_RDX;
ulong uVar3;
int8 *puVar4;
int1 auVar5 [16];
uint local_108;
int8 *local_100;
int8 local_e8 [4];
int8 local_c8;
int8 local_c0;
int4 local_b8;
int8 local_a8;
int8 local_98;
int8 local_88;
int8 local_78;
int8 local_68;
int8 local_58;
int8 local_48;
if (in_AL != '\0') {
local_b8 = param_1;
local_a8 = param_2;
local_98 = param_3;
local_88 = param_4;
local_78 = param_5;
local_68 = param_6;
local_58 = param_7;
local_48 = param_8;
}
local_e8[2] = param_11;
local_e8[3] = param_12;
local_c8 = param_13;
local_c0 = param_14;
lVar1 = safe_malloc((long)(int)param_10 * 8);
local_100 = (int8 *)&stack0x00000020;
if (0 < (int)param_10) {
local_108 = 0x10;
uVar2 = 0;
do {
if (local_108 < 0x29) {
uVar3 = (ulong)local_108;
local_108 = local_108 + 8;
puVar4 = (int8 *)((long)local_e8 + uVar3);
}
else {
puVar4 = local_100;
local_100 = local_100 + 1;
}
*(int8 *)(lVar1 + uVar2 * 8) = *puVar4;
uVar2 = uVar2 + 1;
} while (param_10 != uVar2);
}
auVar5._0_4_ = ssz_create_multi_proof_for_gindexes(param_9,lVar1,(ulong)param_10);
auVar5._4_4_ = 0;
safe_free(lVar1);
auVar5._8_8_ = extraout_RDX;
return auVar5;
}
| |
34,460 | sdflib::OctreeSdf::getDistance(glm::tvec3<float, (glm::precision)0>, glm::tvec3<float, (glm::precision)0>&) const | aimrt_mujoco_sim/_deps/sdflib-src/src/sdf/OctreeSdf.cpp | float OctreeSdf::getDistance(glm::vec3 sample, glm::vec3& outGradient) const
{
glm::vec3 fracPart = (sample - mBox.min) / mStartGridCellSize;
glm::ivec3 startArrayPos = glm::floor(fracPart);
fracPart = glm::fract(fracPart);
if(startArrayPos.x < 0 || startArrayPos.x >= mStartGridSize ||
startArrayPos.y < 0 || startArrayPos.y >= mStartGridSize ||
startArrayPos.z < 0 || startArrayPos.z >= mStartGridSize)
{
return mBox.getDistance(sample, outGradient) + mMinBorderValue;
}
const OctreeNode* currentNode = &mOctreeData[startArrayPos.z * mStartGridXY + startArrayPos.y * mStartGridSize + startArrayPos.x];
while(!currentNode->isLeaf())
{
const uint32_t childIdx = (roundFloat(fracPart.z) << 2) +
(roundFloat(fracPart.y) << 1) +
roundFloat(fracPart.x);
currentNode = &mOctreeData[currentNode->getChildrenIndex() + childIdx];
fracPart = glm::fract(2.0f * fracPart);
}
auto& values = *reinterpret_cast<const std::array<float, InterpolationMethod::NUM_COEFFICIENTS>*>(&mOctreeData[currentNode->getChildrenIndex()]);
outGradient = glm::normalize(InterpolationMethod::interpolateGradient(values, fracPart));
return InterpolationMethod::interpolateValue(values, fracPart);
} | O3 | cpp | sdflib::OctreeSdf::getDistance(glm::tvec3<float, (glm::precision)0>, glm::tvec3<float, (glm::precision)0>&) const:
pushq %r15
pushq %r14
pushq %rbx
subq $0x50, %rsp
movq %rsi, %rbx
movaps %xmm0, 0x30(%rsp)
movq %rdi, %r14
movss %xmm1, 0x2c(%rsp)
movaps %xmm1, %xmm0
subss 0x10(%rdi), %xmm0
movss 0x30(%rdi), %xmm1
movaps %xmm1, 0x10(%rsp)
divss %xmm1, %xmm0
movss %xmm0, 0xc(%rsp)
callq 0xacd0
movss %xmm0, 0x28(%rsp)
movsd 0x8(%r14), %xmm1
movaps 0x30(%rsp), %xmm0
subps %xmm1, %xmm0
movaps 0x10(%rsp), %xmm1
shufps $0x0, %xmm1, %xmm1 # xmm1 = xmm1[0,0,0,0]
divps %xmm1, %xmm0
movaps %xmm0, 0x10(%rsp)
callq 0xacd0
movaps %xmm0, 0x40(%rsp)
movaps 0x10(%rsp), %xmm0
shufps $0x55, %xmm0, %xmm0 # xmm0 = xmm0[1,1,1,1]
callq 0xacd0
movaps 0x40(%rsp), %xmm1
cvttss2si %xmm1, %eax
testl %eax, %eax
js 0x1854a
cvttss2si %xmm0, %edx
movl 0x28(%r14), %ecx
cmpl %eax, %ecx
setle %sil
testl %edx, %edx
sets %dil
orb %sil, %dil
je 0x18571
leaq 0x8(%r14), %rdi
movaps 0x30(%rsp), %xmm0
movss 0x2c(%rsp), %xmm1
movq %rbx, %rsi
callq 0x186dc
addss 0x24(%r14), %xmm0
addq $0x50, %rsp
popq %rbx
popq %r14
popq %r15
retq
cmpl %edx, %ecx
jbe 0x1854a
cvttss2si 0x28(%rsp), %esi
testl %esi, %esi
js 0x1854a
cmpl %esi, %ecx
jle 0x1854a
unpcklps %xmm0, %xmm1 # xmm1 = xmm1[0],xmm0[0],xmm1[1],xmm0[1]
movaps 0x10(%rsp), %xmm0
subps %xmm1, %xmm0
imull 0x2c(%r14), %esi
movss 0xc(%rsp), %xmm1
subss 0x28(%rsp), %xmm1
imull %edx, %ecx
addl %esi, %eax
addl %ecx, %eax
cltq
movq 0x38(%r14), %r14
movl (%r14,%rax,4), %r15d
testl %r15d, %r15d
js 0x18664
movaps %xmm0, 0x10(%rsp)
xorl %eax, %eax
movss 0x320e8(%rip), %xmm2 # 0x4a6b0
ucomiss %xmm2, %xmm1
setae %al
movaps 0x10(%rsp), %xmm0
shufps $0x55, %xmm0, %xmm0 # xmm0 = xmm0[1,1,1,1]
xorl %ecx, %ecx
ucomiss %xmm2, %xmm0
setae %cl
addl %ecx, %ecx
leal (%rcx,%rax,4), %eax
xorl %ecx, %ecx
movaps 0x10(%rsp), %xmm0
ucomiss %xmm2, %xmm0
setae %cl
orl %eax, %ecx
andl $0x3fffffff, %r15d # imm = 0x3FFFFFFF
addl %ecx, %r15d
addss %xmm1, %xmm1
movss %xmm1, 0xc(%rsp)
movaps %xmm1, %xmm0
callq 0xacd0
movss %xmm0, 0x30(%rsp)
movaps 0x10(%rsp), %xmm0
addps %xmm0, %xmm0
movaps %xmm0, 0x10(%rsp)
movaps 0x10(%rsp), %xmm0
callq 0xacd0
movaps %xmm0, 0x40(%rsp)
movaps 0x10(%rsp), %xmm0
shufps $0x55, %xmm0, %xmm0 # xmm0 = xmm0[1,1,1,1]
callq 0xacd0
movss 0xc(%rsp), %xmm1
movaps 0x40(%rsp), %xmm2
unpcklps %xmm0, %xmm2 # xmm2 = xmm2[0],xmm0[0],xmm2[1],xmm0[1]
movaps 0x10(%rsp), %xmm0
subps %xmm2, %xmm0
subss 0x30(%rsp), %xmm1
movl (%r14,%r15,4), %r15d
jmp 0x185b0
shll $0x2, %r15d
addq %r15, %r14
movq %r14, %rdi
movaps %xmm0, 0x10(%rsp)
movss %xmm1, 0xc(%rsp)
callq 0x1881a
movaps %xmm0, %xmm2
mulps %xmm0, %xmm2
movaps %xmm1, %xmm3
mulss %xmm1, %xmm3
movaps %xmm2, %xmm4
shufps $0x55, %xmm2, %xmm4 # xmm4 = xmm4[1,1],xmm2[1,1]
addss %xmm2, %xmm4
addss %xmm3, %xmm4
xorps %xmm2, %xmm2
sqrtss %xmm4, %xmm2
movss 0x31ff7(%rip), %xmm3 # 0x4a6a0
divss %xmm2, %xmm3
mulss %xmm3, %xmm1
unpcklps %xmm3, %xmm3 # xmm3 = xmm3[0,0,1,1]
mulps %xmm0, %xmm3
movlps %xmm3, (%rbx)
movss %xmm1, 0x8(%rbx)
movq %r14, %rdi
movaps 0x10(%rsp), %xmm0
movss 0xc(%rsp), %xmm1
addq $0x50, %rsp
popq %rbx
popq %r14
popq %r15
jmp 0x17d86
nop
| _ZNK6sdflib9OctreeSdf11getDistanceEN3glm5tvec3IfLNS1_9precisionE0EEERS4_:
push r15
push r14
push rbx
sub rsp, 50h
mov rbx, rsi
movaps [rsp+68h+var_38], xmm0
mov r14, rdi
movss [rsp+68h+var_3C], xmm1
movaps xmm0, xmm1
subss xmm0, dword ptr [rdi+10h]
movss xmm1, dword ptr [rdi+30h]
movaps [rsp+68h+var_58], xmm1
divss xmm0, xmm1
movss [rsp+68h+var_5C], xmm0
call _floorf
movss [rsp+68h+var_40], xmm0
movsd xmm1, qword ptr [r14+8]
movaps xmm0, [rsp+68h+var_38]
subps xmm0, xmm1
movaps xmm1, [rsp+68h+var_58]
shufps xmm1, xmm1, 0
divps xmm0, xmm1
movaps [rsp+68h+var_58], xmm0
call _floorf
movaps [rsp+68h+var_28], xmm0
movaps xmm0, [rsp+68h+var_58]
shufps xmm0, xmm0, 55h ; 'U'
call _floorf
movaps xmm1, [rsp+68h+var_28]
cvttss2si eax, xmm1
test eax, eax
js short loc_1854A
cvttss2si edx, xmm0
mov ecx, [r14+28h]
cmp ecx, eax
setle sil
test edx, edx
sets dil
or dil, sil
jz short loc_18571
loc_1854A:
lea rdi, [r14+8]
movaps xmm0, [rsp+68h+var_38]
movss xmm1, [rsp+68h+var_3C]
mov rsi, rbx
call _ZNK6sdflib11BoundingBox11getDistanceEN3glm5tvec3IfLNS1_9precisionE0EEERS4_; sdflib::BoundingBox::getDistance(glm::tvec3<float,(glm::precision)0>,glm::tvec3<float,(glm::precision)0>&)
addss xmm0, dword ptr [r14+24h]
add rsp, 50h
pop rbx
pop r14
pop r15
retn
loc_18571:
cmp ecx, edx
jbe short loc_1854A
cvttss2si esi, [rsp+68h+var_40]
test esi, esi
js short loc_1854A
cmp ecx, esi
jle short loc_1854A
unpcklps xmm1, xmm0
movaps xmm0, [rsp+68h+var_58]
subps xmm0, xmm1
imul esi, [r14+2Ch]
movss xmm1, [rsp+68h+var_5C]
subss xmm1, [rsp+68h+var_40]
imul ecx, edx
add eax, esi
add eax, ecx
cdqe
mov r14, [r14+38h]
mov r15d, [r14+rax*4]
loc_185B0:
test r15d, r15d
js loc_18664
movaps [rsp+68h+var_58], xmm0
xor eax, eax
movss xmm2, cs:dword_4A6B0
ucomiss xmm1, xmm2
setnb al
movaps xmm0, [rsp+68h+var_58]
shufps xmm0, xmm0, 55h ; 'U'
xor ecx, ecx
ucomiss xmm0, xmm2
setnb cl
add ecx, ecx
lea eax, [rcx+rax*4]
xor ecx, ecx
movaps xmm0, [rsp+68h+var_58]
ucomiss xmm0, xmm2
setnb cl
or ecx, eax
and r15d, 3FFFFFFFh
add r15d, ecx
addss xmm1, xmm1
movss [rsp+68h+var_5C], xmm1
movaps xmm0, xmm1
call _floorf
movss dword ptr [rsp+68h+var_38], xmm0
movaps xmm0, [rsp+68h+var_58]
addps xmm0, xmm0
movaps [rsp+68h+var_58], xmm0
movaps xmm0, [rsp+68h+var_58]
call _floorf
movaps [rsp+68h+var_28], xmm0
movaps xmm0, [rsp+68h+var_58]
shufps xmm0, xmm0, 55h ; 'U'
call _floorf
movss xmm1, [rsp+68h+var_5C]
movaps xmm2, [rsp+68h+var_28]
unpcklps xmm2, xmm0
movaps xmm0, [rsp+68h+var_58]
subps xmm0, xmm2
subss xmm1, dword ptr [rsp+68h+var_38]
mov r15d, [r14+r15*4]
jmp loc_185B0
loc_18664:
shl r15d, 2
add r14, r15
mov rdi, r14
movaps [rsp+68h+var_58], xmm0
movss [rsp+68h+var_5C], xmm1
call _ZN6sdflib21TriCubicInterpolation19interpolateGradientERKSt5arrayIfLm64EEN3glm5tvec3IfLNS5_9precisionE0EEE; sdflib::TriCubicInterpolation::interpolateGradient(std::array<float,64ul> const&,glm::tvec3<float,(glm::precision)0>)
movaps xmm2, xmm0
mulps xmm2, xmm0
movaps xmm3, xmm1
mulss xmm3, xmm1
movaps xmm4, xmm2
shufps xmm4, xmm2, 55h ; 'U'
addss xmm4, xmm2
addss xmm4, xmm3
xorps xmm2, xmm2
sqrtss xmm2, xmm4
movss xmm3, cs:dword_4A6A0
divss xmm3, xmm2
mulss xmm1, xmm3
unpcklps xmm3, xmm3
mulps xmm3, xmm0
movlps qword ptr [rbx], xmm3
movss dword ptr [rbx+8], xmm1
mov rdi, r14
movaps xmm0, [rsp+68h+var_58]
movss xmm1, [rsp+68h+var_5C]
add rsp, 50h
pop rbx
pop r14
pop r15
jmp _ZN6sdflib21TriCubicInterpolation16interpolateValueERKSt5arrayIfLm64EEN3glm5tvec3IfLNS5_9precisionE0EEE; sdflib::TriCubicInterpolation::interpolateValue(std::array<float,64ul> const&,glm::tvec3<float,(glm::precision)0>)
| float sdflib::OctreeSdf::getDistance(long long a1, long long a2, __m128 a3, float a4)
{
__m128 v5; // xmm0
__m128 v6; // xmm0
int v7; // eax
unsigned int v8; // edx
signed int v9; // ecx
int v11; // esi
__m128 v12; // xmm0
float v13; // xmm1_4
long long v14; // r14
int i; // r15d
long long v16; // r15
__m128 v17; // xmm0
__m128 v18; // xmm0
float *v19; // r14
__m128 v20; // xmm2
__m128 v21; // xmm3
float v22; // [rsp+Ch] [rbp-5Ch]
__m128 v23; // [rsp+10h] [rbp-58h]
__m128 v24; // [rsp+10h] [rbp-58h]
__m128 v25; // [rsp+10h] [rbp-58h]
__m128 v26; // [rsp+10h] [rbp-58h]
__m128 v27; // [rsp+10h] [rbp-58h]
float v28; // [rsp+28h] [rbp-40h]
float v30; // [rsp+30h] [rbp-38h]
__m128 v31; // [rsp+40h] [rbp-28h]
__m128 v32; // [rsp+40h] [rbp-28h]
v23 = (__m128)*(unsigned int *)(a1 + 48);
v22 = (float)(a4 - *(float *)(a1 + 16)) / v23.m128_f32[0];
v28 = floorf(v22);
v5 = _mm_div_ps(_mm_sub_ps(a3, (__m128)*(unsigned long long *)(a1 + 8)), _mm_shuffle_ps(v23, v23, 0));
v24 = v5;
v5.m128_f32[0] = floorf(v5.m128_f32[0]);
v31 = v5;
v6 = _mm_shuffle_ps(v24, v24, 85);
v6.m128_f32[0] = floorf(v6.m128_f32[0]);
v7 = (int)v31.m128_f32[0];
if ( (int)v31.m128_f32[0] < 0 )
return sdflib::BoundingBox::getDistance(a1 + 8, a2, *(double *)a3.m128_u64, a4) + *(float *)(a1 + 36);
v8 = (int)v6.m128_f32[0];
v9 = *(_DWORD *)(a1 + 40);
if ( v9 <= v7 || (int)v6.m128_f32[0] < 0 )
return sdflib::BoundingBox::getDistance(a1 + 8, a2, *(double *)a3.m128_u64, a4) + *(float *)(a1 + 36);
if ( v9 <= v8 )
return sdflib::BoundingBox::getDistance(a1 + 8, a2, *(double *)a3.m128_u64, a4) + *(float *)(a1 + 36);
v11 = (int)v28;
if ( (int)v28 < 0 || v9 <= v11 )
return sdflib::BoundingBox::getDistance(a1 + 8, a2, *(double *)a3.m128_u64, a4) + *(float *)(a1 + 36);
v12 = _mm_sub_ps(v24, _mm_unpacklo_ps(v31, v6));
v13 = v22 - v28;
v14 = *(_QWORD *)(a1 + 56);
for ( i = *(_DWORD *)(v14 + 4LL * (int)(v8 * v9 + *(_DWORD *)(a1 + 44) * v11 + v7));
i >= 0;
i = *(_DWORD *)(v14 + 4 * v16) )
{
v25 = v12;
v16 = ((2 * (_mm_shuffle_ps(v12, v12, 85).m128_f32[0] >= 0.5) + 4 * (v13 >= 0.5)) | (v12.m128_f32[0] >= 0.5))
+ (i & 0x3FFFFFFFu);
v30 = floorf(v13 + v13);
v17 = _mm_add_ps(v25, v25);
v26 = v17;
v17.m128_f32[0] = floorf(v17.m128_f32[0]);
v32 = v17;
v18 = _mm_shuffle_ps(v26, v26, 85);
v18.m128_f32[0] = floorf(v18.m128_f32[0]);
v12 = _mm_sub_ps(v26, _mm_unpacklo_ps(v32, v18));
v13 = (float)(v13 + v13) - v30;
}
v19 = (float *)((unsigned int)(4 * i) + v14);
v27 = v12;
*(double *)v12.m128_u64 = sdflib::TriCubicInterpolation::interpolateGradient(v19);
v20 = _mm_mul_ps(v12, v12);
v21 = (__m128)0x3F800000u;
v21.m128_f32[0] = 1.0
/ fsqrt((float)(_mm_shuffle_ps(v20, v20, 85).m128_f32[0] + v20.m128_f32[0]) + (float)(v13 * v13));
_mm_storel_ps((double *)a2, _mm_mul_ps(_mm_unpacklo_ps(v21, v21), v12));
*(float *)(a2 + 8) = v13 * v21.m128_f32[0];
return sdflib::TriCubicInterpolation::interpolateValue(v19, v27, v13);
}
| getDistance:
PUSH R15
PUSH R14
PUSH RBX
SUB RSP,0x50
MOV RBX,RSI
MOVAPS xmmword ptr [RSP + 0x30],XMM0
MOV R14,RDI
MOVSS dword ptr [RSP + 0x2c],XMM1
MOVAPS XMM0,XMM1
SUBSS XMM0,dword ptr [RDI + 0x10]
MOVSS XMM1,dword ptr [RDI + 0x30]
MOVAPS xmmword ptr [RSP + 0x10],XMM1
DIVSS XMM0,XMM1
MOVSS dword ptr [RSP + 0xc],XMM0
CALL 0x0010acd0
MOVSS dword ptr [RSP + 0x28],XMM0
MOVSD XMM1,qword ptr [R14 + 0x8]
MOVAPS XMM0,xmmword ptr [RSP + 0x30]
SUBPS XMM0,XMM1
MOVAPS XMM1,xmmword ptr [RSP + 0x10]
SHUFPS XMM1,XMM1,0x0
DIVPS XMM0,XMM1
MOVAPS xmmword ptr [RSP + 0x10],XMM0
CALL 0x0010acd0
MOVAPS xmmword ptr [RSP + 0x40],XMM0
MOVAPS XMM0,xmmword ptr [RSP + 0x10]
SHUFPS XMM0,XMM0,0x55
CALL 0x0010acd0
MOVAPS XMM1,xmmword ptr [RSP + 0x40]
CVTTSS2SI EAX,XMM1
TEST EAX,EAX
JS 0x0011854a
CVTTSS2SI EDX,XMM0
MOV ECX,dword ptr [R14 + 0x28]
CMP ECX,EAX
SETLE SIL
TEST EDX,EDX
SETS DIL
OR DIL,SIL
JZ 0x00118571
LAB_0011854a:
LEA RDI,[R14 + 0x8]
MOVAPS XMM0,xmmword ptr [RSP + 0x30]
MOVSS XMM1,dword ptr [RSP + 0x2c]
MOV RSI,RBX
CALL 0x001186dc
ADDSS XMM0,dword ptr [R14 + 0x24]
ADD RSP,0x50
POP RBX
POP R14
POP R15
RET
LAB_00118571:
CMP ECX,EDX
JBE 0x0011854a
CVTTSS2SI ESI,dword ptr [RSP + 0x28]
TEST ESI,ESI
JS 0x0011854a
CMP ECX,ESI
JLE 0x0011854a
UNPCKLPS XMM1,XMM0
MOVAPS XMM0,xmmword ptr [RSP + 0x10]
SUBPS XMM0,XMM1
IMUL ESI,dword ptr [R14 + 0x2c]
MOVSS XMM1,dword ptr [RSP + 0xc]
SUBSS XMM1,dword ptr [RSP + 0x28]
IMUL ECX,EDX
ADD EAX,ESI
ADD EAX,ECX
CDQE
MOV R14,qword ptr [R14 + 0x38]
MOV R15D,dword ptr [R14 + RAX*0x4]
LAB_001185b0:
TEST R15D,R15D
JS 0x00118664
MOVAPS xmmword ptr [RSP + 0x10],XMM0
XOR EAX,EAX
MOVSS XMM2,dword ptr [0x0014a6b0]
UCOMISS XMM1,XMM2
SETNC AL
MOVAPS XMM0,xmmword ptr [RSP + 0x10]
SHUFPS XMM0,XMM0,0x55
XOR ECX,ECX
UCOMISS XMM0,XMM2
SETNC CL
ADD ECX,ECX
LEA EAX,[RCX + RAX*0x4]
XOR ECX,ECX
MOVAPS XMM0,xmmword ptr [RSP + 0x10]
UCOMISS XMM0,XMM2
SETNC CL
OR ECX,EAX
AND R15D,0x3fffffff
ADD R15D,ECX
ADDSS XMM1,XMM1
MOVSS dword ptr [RSP + 0xc],XMM1
MOVAPS XMM0,XMM1
CALL 0x0010acd0
MOVSS dword ptr [RSP + 0x30],XMM0
MOVAPS XMM0,xmmword ptr [RSP + 0x10]
ADDPS XMM0,XMM0
MOVAPS xmmword ptr [RSP + 0x10],XMM0
MOVAPS XMM0,xmmword ptr [RSP + 0x10]
CALL 0x0010acd0
MOVAPS xmmword ptr [RSP + 0x40],XMM0
MOVAPS XMM0,xmmword ptr [RSP + 0x10]
SHUFPS XMM0,XMM0,0x55
CALL 0x0010acd0
MOVSS XMM1,dword ptr [RSP + 0xc]
MOVAPS XMM2,xmmword ptr [RSP + 0x40]
UNPCKLPS XMM2,XMM0
MOVAPS XMM0,xmmword ptr [RSP + 0x10]
SUBPS XMM0,XMM2
SUBSS XMM1,dword ptr [RSP + 0x30]
MOV R15D,dword ptr [R14 + R15*0x4]
JMP 0x001185b0
LAB_00118664:
SHL R15D,0x2
ADD R14,R15
MOV RDI,R14
MOVAPS xmmword ptr [RSP + 0x10],XMM0
MOVSS dword ptr [RSP + 0xc],XMM1
CALL 0x0011881a
MOVAPS XMM2,XMM0
MULPS XMM2,XMM0
MOVAPS XMM3,XMM1
MULSS XMM3,XMM1
MOVAPS XMM4,XMM2
SHUFPS XMM4,XMM2,0x55
ADDSS XMM4,XMM2
ADDSS XMM4,XMM3
XORPS XMM2,XMM2
SQRTSS XMM2,XMM4
MOVSS XMM3,dword ptr [0x0014a6a0]
DIVSS XMM3,XMM2
MULSS XMM1,XMM3
UNPCKLPS XMM3,XMM3
MULPS XMM3,XMM0
MOVLPS qword ptr [RBX],XMM3
MOVSS dword ptr [RBX + 0x8],XMM1
MOV RDI,R14
MOVAPS XMM0,xmmword ptr [RSP + 0x10]
MOVSS XMM1,dword ptr [RSP + 0xc]
ADD RSP,0x50
POP RBX
POP R14
POP R15
JMP 0x00117d86
|
/* sdflib::OctreeSdf::getDistance(glm::tvec3<float, (glm::precision)0>, glm::tvec3<float,
(glm::precision)0>&) const */
int8
sdflib::OctreeSdf::getDistance(int8 param_1,float param_2,long param_3,int8 *param_4)
{
long lVar1;
bool bVar2;
bool bVar3;
bool bVar4;
int iVar5;
uint uVar6;
int iVar7;
TriCubicInterpolation *pTVar8;
uint uVar9;
float fVar10;
float fVar12;
float fVar13;
float fVar14;
float fVar11;
int8 uVar15;
int8 in_XMM0_Qb;
int1 auVar16 [16];
int1 auVar17 [16];
int1 auVar18 [16];
int1 auVar19 [16];
float fStack_54;
float local_38;
float fStack_34;
float fStack_30;
float fStack_2c;
int8 extraout_XMM0_Qb;
fVar13 = *(float *)(param_3 + 0x30);
fVar10 = (param_2 - *(float *)(param_3 + 0x10)) / fVar13;
fVar11 = floorf(fVar10);
local_38 = (float)param_1;
fStack_34 = (float)((ulong)param_1 >> 0x20);
fStack_30 = (float)in_XMM0_Qb;
fStack_2c = (float)((ulong)in_XMM0_Qb >> 0x20);
auVar16._0_4_ = local_38 - (float)*(int8 *)(param_3 + 8);
auVar16._4_4_ = fStack_34 - (float)((ulong)*(int8 *)(param_3 + 8) >> 0x20);
auVar16._8_4_ = fStack_30 - 0.0;
auVar16._12_4_ = fStack_2c - 0.0;
auVar17._4_4_ = fVar13;
auVar17._0_4_ = fVar13;
auVar17._8_4_ = fVar13;
auVar17._12_4_ = fVar13;
auVar17 = divps(auVar16,auVar17);
fVar12 = floorf(auVar17._0_4_);
fStack_54 = auVar17._4_4_;
fVar13 = floorf(fStack_54);
iVar5 = (int)fVar12;
if (-1 < iVar5) {
uVar6 = (uint)fVar13;
uVar9 = *(uint *)(param_3 + 0x28);
if ((((-1 < (int)uVar6 && iVar5 < (int)uVar9) && (uVar6 < uVar9)) &&
(iVar7 = (int)fVar11, -1 < iVar7)) && (iVar7 < (int)uVar9)) {
fVar12 = auVar17._0_4_ - fVar12;
fStack_54 = fStack_54 - fVar13;
fVar10 = fVar10 - fVar11;
lVar1 = *(long *)(param_3 + 0x38);
for (uVar9 = *(uint *)(lVar1 + (long)(int)(iVar5 + iVar7 * *(int *)(param_3 + 0x2c) +
uVar9 * uVar6) * 4); -1 < (int)uVar9;
uVar9 = *(uint *)(lVar1 + (ulong)((uVar9 & 0x3fffffff) +
((uint)bVar4 | (uint)bVar3 * 2 + (uint)bVar2 * 4)) * 4))
{
bVar2 = DAT_0014a6b0 <= fVar10;
bVar3 = DAT_0014a6b0 <= fStack_54;
bVar4 = DAT_0014a6b0 <= fVar12;
fVar13 = floorf(fVar10 + fVar10);
fVar11 = floorf(fVar12 + fVar12);
fVar14 = floorf(fStack_54 + fStack_54);
fVar12 = (fVar12 + fVar12) - fVar11;
fStack_54 = (fStack_54 + fStack_54) - fVar14;
fVar10 = (fVar10 + fVar10) - fVar13;
}
pTVar8 = (TriCubicInterpolation *)(lVar1 + (ulong)(uVar9 << 2));
uVar15 = TriCubicInterpolation::interpolateGradient(pTVar8);
fVar13 = (float)uVar15;
fVar11 = (float)((ulong)uVar15 >> 0x20);
fVar12 = DAT_0014a6a0 / SQRT(fVar11 * fVar11 + fVar13 * fVar13 + fVar10 * fVar10);
*param_4 = CONCAT44(fVar12 * fVar11,fVar12 * fVar13);
*(float *)(param_4 + 1) = fVar10 * fVar12;
uVar15 = TriCubicInterpolation::interpolateValue(pTVar8);
return uVar15;
}
}
auVar18._0_8_ = BoundingBox::getDistance(param_3 + 8,param_4);
auVar18._8_8_ = extraout_XMM0_Qb;
auVar19._4_12_ = auVar18._4_12_;
auVar19._0_4_ = (float)auVar18._0_8_ + *(float *)(param_3 + 0x24);
return auVar19._0_8_;
}
| |
34,461 | ft_parse_internal | eloqsql/storage/myisam/ft_parser.c | static int ft_parse_internal(MYSQL_FTPARSER_PARAM *param,
const char *doc_arg, int doc_len)
{
uchar *doc= (uchar*) doc_arg;
uchar *end= doc + doc_len;
MY_FT_PARSER_PARAM *ft_param=param->mysql_ftparam;
TREE *wtree= ft_param->wtree;
FT_WORD w;
DBUG_ENTER("ft_parse_internal");
while (ft_simple_get_word(wtree->custom_arg, &doc, end, &w, TRUE))
if (param->mysql_add_word(param, (char*) w.pos, (int)w.len, 0))
DBUG_RETURN(1);
DBUG_RETURN(0);
} | O3 | c | ft_parse_internal:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x28, %rsp
movq %rdi, %rbx
leaq -0x48(%rbp), %r14
movq %rsi, (%r14)
movslq %edx, %r15
addq %rsi, %r15
movq 0x18(%rdi), %rax
movq (%rax), %r12
leaq -0x40(%rbp), %r13
movq 0x230(%r12), %rdi
movq %r14, %rsi
movq %r15, %rdx
movq %r13, %rcx
movl $0x1, %r8d
callq 0x76939
testb %al, %al
je 0x76b73
movq -0x40(%rbp), %rsi
movl -0x30(%rbp), %edx
movq %rbx, %rdi
xorl %ecx, %ecx
callq *0x8(%rbx)
testl %eax, %eax
je 0x76b39
movl $0x1, %eax
jmp 0x76b75
xorl %eax, %eax
addq $0x28, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| ft_parse_internal:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 28h
mov rbx, rdi
lea r14, [rbp+var_48]
mov [r14], rsi
movsxd r15, edx
add r15, rsi
mov rax, [rdi+18h]
mov r12, [rax]
lea r13, [rbp+var_40]
loc_76B39:
mov rdi, [r12+230h]
mov rsi, r14
mov rdx, r15
mov rcx, r13
mov r8d, 1
call ft_simple_get_word
test al, al
jz short loc_76B73
mov rsi, [rbp+var_40]
mov edx, [rbp+var_30]
mov rdi, rbx
xor ecx, ecx
call qword ptr [rbx+8]
test eax, eax
jz short loc_76B39
mov eax, 1
jmp short loc_76B75
loc_76B73:
xor eax, eax
loc_76B75:
add rsp, 28h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| long long ft_parse_internal(long long a1, _BYTE *a2, int a3)
{
unsigned long long v3; // r15
long long v4; // r12
_BYTE *v6; // [rsp+8h] [rbp-48h] BYREF
long long v7; // [rsp+10h] [rbp-40h] BYREF
unsigned int v8; // [rsp+20h] [rbp-30h]
v6 = a2;
v3 = (unsigned long long)&a2[a3];
v4 = **(_QWORD **)(a1 + 24);
while ( ft_simple_get_word(*(_QWORD *)(v4 + 560), &v6, v3, &v7, 1) )
{
if ( (*(unsigned int ( **)(long long, long long, _QWORD, _QWORD))(a1 + 8))(a1, v7, v8, 0LL) )
return 1LL;
}
return 0LL;
}
| ft_parse_internal:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x28
MOV RBX,RDI
LEA R14,[RBP + -0x48]
MOV qword ptr [R14],RSI
MOVSXD R15,EDX
ADD R15,RSI
MOV RAX,qword ptr [RDI + 0x18]
MOV R12,qword ptr [RAX]
LEA R13,[RBP + -0x40]
LAB_00176b39:
MOV RDI,qword ptr [R12 + 0x230]
MOV RSI,R14
MOV RDX,R15
MOV RCX,R13
MOV R8D,0x1
CALL 0x00176939
TEST AL,AL
JZ 0x00176b73
MOV RSI,qword ptr [RBP + -0x40]
MOV EDX,dword ptr [RBP + -0x30]
MOV RDI,RBX
XOR ECX,ECX
CALL qword ptr [RBX + 0x8]
TEST EAX,EAX
JZ 0x00176b39
MOV EAX,0x1
JMP 0x00176b75
LAB_00176b73:
XOR EAX,EAX
LAB_00176b75:
ADD RSP,0x28
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
int8 ft_parse_internal(long param_1,long param_2,int param_3)
{
long lVar1;
char cVar2;
int iVar3;
long local_50;
int8 local_48 [2];
int4 local_38;
lVar1 = **(long **)(param_1 + 0x18);
local_50 = param_2;
do {
cVar2 = ft_simple_get_word(*(int8 *)(lVar1 + 0x230),&local_50,param_3 + param_2,local_48,1
);
if (cVar2 == '\0') {
return 0;
}
iVar3 = (**(code **)(param_1 + 8))(param_1,local_48[0],local_38,0);
} while (iVar3 == 0);
return 1;
}
| |
34,462 | my_uca_scanner_contraction_find | eloqsql/strings/ctype-uca.c | static const MY_CONTRACTION *
my_uca_scanner_contraction_find(my_uca_scanner *scanner, my_wc_t *wc,
size_t max_char_length)
{
size_t clen= 1;
int flag;
const uchar *s, *beg[MY_UCA_MAX_CONTRACTION];
memset((void*) beg, 0, sizeof(beg));
/* Scan all contraction candidates */
for (s= scanner->sbeg, flag= MY_UCA_CNT_MID1;
clen < max_char_length;
flag<<= 1)
{
int mblen;
if ((mblen= my_ci_mb_wc(scanner->cs, &wc[clen], s, scanner->send)) <= 0)
break;
beg[clen]= s= s + mblen;
if (!my_uca_can_be_contraction_part(&scanner->level->contractions,
wc[clen++], flag))
break;
}
/* Find among candidates the longest real contraction */
for ( ; clen > 1; clen--)
{
const MY_CONTRACTION *cnt;
if (my_uca_can_be_contraction_tail(&scanner->level->contractions,
wc[clen - 1]) &&
(cnt= my_uca_contraction_find(&scanner->level->contractions,
wc, clen)))
{
scanner->wbeg= cnt->weight + 1;
scanner->sbeg= beg[clen - 1];
return cnt;
}
}
return NULL; /* No contractions were found */
} | O0 | c | my_uca_scanner_contraction_find:
pushq %rbp
movq %rsp, %rbp
subq $0x80, %rsp
movq %rdi, -0x10(%rbp)
movq %rsi, -0x18(%rbp)
movq %rdx, -0x20(%rbp)
movq $0x1, -0x28(%rbp)
leaq -0x70(%rbp), %rdi
xorl %esi, %esi
movl $0x30, %edx
callq 0x281e0
movq -0x10(%rbp), %rax
movq 0x8(%rax), %rax
movq %rax, -0x38(%rbp)
movl $0x4, -0x2c(%rbp)
movq -0x28(%rbp), %rax
cmpq -0x20(%rbp), %rax
jae 0xb389a
movq -0x10(%rbp), %rax
movq 0x30(%rax), %rax
movq 0xb8(%rax), %rax
movq 0x28(%rax), %rax
movq -0x10(%rbp), %rcx
movq 0x30(%rcx), %rdi
movq -0x18(%rbp), %rsi
movq -0x28(%rbp), %rcx
shlq $0x3, %rcx
addq %rcx, %rsi
movq -0x38(%rbp), %rdx
movq -0x10(%rbp), %rcx
movq 0x10(%rcx), %rcx
callq *%rax
movl %eax, -0x74(%rbp)
cmpl $0x0, %eax
jg 0xb3842
jmp 0xb389a
movq -0x38(%rbp), %rcx
movslq -0x74(%rbp), %rax
addq %rax, %rcx
movq %rcx, -0x38(%rbp)
movq -0x28(%rbp), %rax
movq %rcx, -0x70(%rbp,%rax,8)
movq -0x10(%rbp), %rax
movq 0x18(%rax), %rdi
addq $0x18, %rdi
movq -0x18(%rbp), %rax
movq -0x28(%rbp), %rcx
movq %rcx, %rdx
addq $0x1, %rdx
movq %rdx, -0x28(%rbp)
movq (%rax,%rcx,8), %rsi
movl -0x2c(%rbp), %edx
callq 0xb3950
cmpb $0x0, %al
jne 0xb388b
jmp 0xb389a
jmp 0xb388d
movl -0x2c(%rbp), %eax
shll %eax
movl %eax, -0x2c(%rbp)
jmp 0xb37f2
jmp 0xb389c
cmpq $0x1, -0x28(%rbp)
jbe 0xb3938
movq -0x10(%rbp), %rax
movq 0x18(%rax), %rdi
addq $0x18, %rdi
movq -0x18(%rbp), %rax
movq -0x28(%rbp), %rcx
subq $0x1, %rcx
movq (%rax,%rcx,8), %rsi
callq 0xaab40
movsbl %al, %eax
cmpl $0x0, %eax
je 0xb3925
movq -0x10(%rbp), %rax
movq 0x18(%rax), %rdi
addq $0x18, %rdi
movq -0x18(%rbp), %rsi
movq -0x28(%rbp), %rdx
callq 0xb2f70
movq %rax, -0x80(%rbp)
cmpq $0x0, %rax
je 0xb3925
movq -0x80(%rbp), %rcx
addq $0x30, %rcx
addq $0x2, %rcx
movq -0x10(%rbp), %rax
movq %rcx, (%rax)
movq -0x28(%rbp), %rax
subq $0x1, %rax
movq -0x70(%rbp,%rax,8), %rcx
movq -0x10(%rbp), %rax
movq %rcx, 0x8(%rax)
movq -0x80(%rbp), %rax
movq %rax, -0x8(%rbp)
jmp 0xb3940
jmp 0xb3927
movq -0x28(%rbp), %rax
addq $-0x1, %rax
movq %rax, -0x28(%rbp)
jmp 0xb389c
movq $0x0, -0x8(%rbp)
movq -0x8(%rbp), %rax
addq $0x80, %rsp
popq %rbp
retq
nopl (%rax)
| my_uca_scanner_contraction_find:
push rbp
mov rbp, rsp
sub rsp, 80h
mov [rbp+var_10], rdi
mov [rbp+var_18], rsi
mov [rbp+var_20], rdx
mov [rbp+var_28], 1
lea rdi, [rbp+var_70]
xor esi, esi
mov edx, 30h ; '0'
call _memset
mov rax, [rbp+var_10]
mov rax, [rax+8]
mov [rbp+var_38], rax
mov [rbp+var_2C], 4
loc_B37F2:
mov rax, [rbp+var_28]
cmp rax, [rbp+var_20]
jnb loc_B389A
mov rax, [rbp+var_10]
mov rax, [rax+30h]
mov rax, [rax+0B8h]
mov rax, [rax+28h]
mov rcx, [rbp+var_10]
mov rdi, [rcx+30h]
mov rsi, [rbp+var_18]
mov rcx, [rbp+var_28]
shl rcx, 3
add rsi, rcx
mov rdx, [rbp+var_38]
mov rcx, [rbp+var_10]
mov rcx, [rcx+10h]
call rax
mov [rbp+var_74], eax
cmp eax, 0
jg short loc_B3842
jmp short loc_B389A
loc_B3842:
mov rcx, [rbp+var_38]
movsxd rax, [rbp+var_74]
add rcx, rax
mov [rbp+var_38], rcx
mov rax, [rbp+var_28]
mov [rbp+rax*8+var_70], rcx
mov rax, [rbp+var_10]
mov rdi, [rax+18h]
add rdi, 18h
mov rax, [rbp+var_18]
mov rcx, [rbp+var_28]
mov rdx, rcx
add rdx, 1
mov [rbp+var_28], rdx
mov rsi, [rax+rcx*8]
mov edx, [rbp+var_2C]
call my_uca_can_be_contraction_part
cmp al, 0
jnz short loc_B388B
jmp short loc_B389A
loc_B388B:
jmp short $+2
loc_B388D:
mov eax, [rbp+var_2C]
shl eax, 1
mov [rbp+var_2C], eax
jmp loc_B37F2
loc_B389A:
jmp short $+2
loc_B389C:
cmp [rbp+var_28], 1
jbe loc_B3938
mov rax, [rbp+var_10]
mov rdi, [rax+18h]
add rdi, 18h
mov rax, [rbp+var_18]
mov rcx, [rbp+var_28]
sub rcx, 1
mov rsi, [rax+rcx*8]
call my_uca_can_be_contraction_tail
movsx eax, al
cmp eax, 0
jz short loc_B3925
mov rax, [rbp+var_10]
mov rdi, [rax+18h]
add rdi, 18h
mov rsi, [rbp+var_18]
mov rdx, [rbp+var_28]
call my_uca_contraction_find
mov [rbp+var_80], rax
cmp rax, 0
jz short loc_B3925
mov rcx, [rbp+var_80]
add rcx, 30h ; '0'
add rcx, 2
mov rax, [rbp+var_10]
mov [rax], rcx
mov rax, [rbp+var_28]
sub rax, 1
mov rcx, [rbp+rax*8+var_70]
mov rax, [rbp+var_10]
mov [rax+8], rcx
mov rax, [rbp+var_80]
mov [rbp+var_8], rax
jmp short loc_B3940
loc_B3925:
jmp short $+2
loc_B3927:
mov rax, [rbp+var_28]
add rax, 0FFFFFFFFFFFFFFFFh
mov [rbp+var_28], rax
jmp loc_B389C
loc_B3938:
mov [rbp+var_8], 0
loc_B3940:
mov rax, [rbp+var_8]
add rsp, 80h
pop rbp
retn
| unsigned long long my_uca_scanner_contraction_find(_QWORD *a1, long long a2, unsigned long long a3)
{
long long v3; // rdi
unsigned long long v4; // rcx
unsigned long long v6; // [rsp+0h] [rbp-80h]
int v7; // [rsp+Ch] [rbp-74h]
_QWORD v8[7]; // [rsp+10h] [rbp-70h] BYREF
long long v9; // [rsp+48h] [rbp-38h]
unsigned int i; // [rsp+54h] [rbp-2Ch]
unsigned long long v11; // [rsp+58h] [rbp-28h]
unsigned long long v12; // [rsp+60h] [rbp-20h]
long long v13; // [rsp+68h] [rbp-18h]
_QWORD *v14; // [rsp+70h] [rbp-10h]
v14 = a1;
v13 = a2;
v12 = a3;
v11 = 1LL;
memset(v8, 0LL, 48LL);
v9 = v14[1];
for ( i = 4; v11 < v12; i *= 2 )
{
v7 = (*(long long ( **)(_QWORD, unsigned long long, long long, _QWORD))(*(_QWORD *)(v14[6] + 184LL) + 40LL))(
v14[6],
8 * v11 + v13,
v9,
v14[2]);
if ( v7 <= 0 )
break;
v9 += v7;
v8[v11] = v9;
v3 = v14[3] + 24LL;
v4 = v11++;
if ( !(unsigned __int8)my_uca_can_be_contraction_part(v3, *(_QWORD *)(v13 + 8 * v4), i) )
break;
}
while ( v11 > 1 )
{
if ( (unsigned __int8)my_uca_can_be_contraction_tail(v14[3] + 24LL, *(_QWORD *)(v13 + 8 * (v11 - 1))) )
{
v6 = my_uca_contraction_find((_QWORD *)(v14[3] + 24LL), v13, v11);
if ( v6 )
{
*v14 = v6 + 50;
v14[1] = v8[v11 - 1];
return v6;
}
}
--v11;
}
return 0LL;
}
| my_uca_scanner_contraction_find:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x80
MOV qword ptr [RBP + -0x10],RDI
MOV qword ptr [RBP + -0x18],RSI
MOV qword ptr [RBP + -0x20],RDX
MOV qword ptr [RBP + -0x28],0x1
LEA RDI,[RBP + -0x70]
XOR ESI,ESI
MOV EDX,0x30
CALL 0x001281e0
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x8]
MOV qword ptr [RBP + -0x38],RAX
MOV dword ptr [RBP + -0x2c],0x4
LAB_001b37f2:
MOV RAX,qword ptr [RBP + -0x28]
CMP RAX,qword ptr [RBP + -0x20]
JNC 0x001b389a
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x30]
MOV RAX,qword ptr [RAX + 0xb8]
MOV RAX,qword ptr [RAX + 0x28]
MOV RCX,qword ptr [RBP + -0x10]
MOV RDI,qword ptr [RCX + 0x30]
MOV RSI,qword ptr [RBP + -0x18]
MOV RCX,qword ptr [RBP + -0x28]
SHL RCX,0x3
ADD RSI,RCX
MOV RDX,qword ptr [RBP + -0x38]
MOV RCX,qword ptr [RBP + -0x10]
MOV RCX,qword ptr [RCX + 0x10]
CALL RAX
MOV dword ptr [RBP + -0x74],EAX
CMP EAX,0x0
JG 0x001b3842
JMP 0x001b389a
LAB_001b3842:
MOV RCX,qword ptr [RBP + -0x38]
MOVSXD RAX,dword ptr [RBP + -0x74]
ADD RCX,RAX
MOV qword ptr [RBP + -0x38],RCX
MOV RAX,qword ptr [RBP + -0x28]
MOV qword ptr [RBP + RAX*0x8 + -0x70],RCX
MOV RAX,qword ptr [RBP + -0x10]
MOV RDI,qword ptr [RAX + 0x18]
ADD RDI,0x18
MOV RAX,qword ptr [RBP + -0x18]
MOV RCX,qword ptr [RBP + -0x28]
MOV RDX,RCX
ADD RDX,0x1
MOV qword ptr [RBP + -0x28],RDX
MOV RSI,qword ptr [RAX + RCX*0x8]
MOV EDX,dword ptr [RBP + -0x2c]
CALL 0x001b3950
CMP AL,0x0
JNZ 0x001b388b
JMP 0x001b389a
LAB_001b388b:
JMP 0x001b388d
LAB_001b388d:
MOV EAX,dword ptr [RBP + -0x2c]
SHL EAX,0x1
MOV dword ptr [RBP + -0x2c],EAX
JMP 0x001b37f2
LAB_001b389a:
JMP 0x001b389c
LAB_001b389c:
CMP qword ptr [RBP + -0x28],0x1
JBE 0x001b3938
MOV RAX,qword ptr [RBP + -0x10]
MOV RDI,qword ptr [RAX + 0x18]
ADD RDI,0x18
MOV RAX,qword ptr [RBP + -0x18]
MOV RCX,qword ptr [RBP + -0x28]
SUB RCX,0x1
MOV RSI,qword ptr [RAX + RCX*0x8]
CALL 0x001aab40
MOVSX EAX,AL
CMP EAX,0x0
JZ 0x001b3925
MOV RAX,qword ptr [RBP + -0x10]
MOV RDI,qword ptr [RAX + 0x18]
ADD RDI,0x18
MOV RSI,qword ptr [RBP + -0x18]
MOV RDX,qword ptr [RBP + -0x28]
CALL 0x001b2f70
MOV qword ptr [RBP + -0x80],RAX
CMP RAX,0x0
JZ 0x001b3925
MOV RCX,qword ptr [RBP + -0x80]
ADD RCX,0x30
ADD RCX,0x2
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX],RCX
MOV RAX,qword ptr [RBP + -0x28]
SUB RAX,0x1
MOV RCX,qword ptr [RBP + RAX*0x8 + -0x70]
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX + 0x8],RCX
MOV RAX,qword ptr [RBP + -0x80]
MOV qword ptr [RBP + -0x8],RAX
JMP 0x001b3940
LAB_001b3925:
JMP 0x001b3927
LAB_001b3927:
MOV RAX,qword ptr [RBP + -0x28]
ADD RAX,-0x1
MOV qword ptr [RBP + -0x28],RAX
JMP 0x001b389c
LAB_001b3938:
MOV qword ptr [RBP + -0x8],0x0
LAB_001b3940:
MOV RAX,qword ptr [RBP + -0x8]
ADD RSP,0x80
POP RBP
RET
|
long my_uca_scanner_contraction_find(long *param_1,long param_2,ulong param_3)
{
char cVar1;
int iVar2;
long lVar3;
long local_78 [7];
long local_40;
int local_34;
ulong local_30;
ulong local_28;
long local_20;
long *local_18;
local_30 = 1;
local_28 = param_3;
local_20 = param_2;
local_18 = param_1;
memset(local_78,0,0x30);
local_40 = local_18[1];
local_34 = 4;
while ((local_30 < local_28 &&
(iVar2 = (**(code **)(*(long *)(local_18[6] + 0xb8) + 0x28))
(local_18[6],local_20 + local_30 * 8,local_40,local_18[2]), 0 < iVar2)))
{
local_40 = local_40 + iVar2;
local_78[local_30] = local_40;
lVar3 = local_30 * 8;
local_30 = local_30 + 1;
cVar1 = my_uca_can_be_contraction_part
(local_18[3] + 0x18,*(int8 *)(local_20 + lVar3),local_34);
if (cVar1 == '\0') break;
local_34 = local_34 << 1;
}
while( true ) {
if (local_30 < 2) {
return 0;
}
cVar1 = my_uca_can_be_contraction_tail
(local_18[3] + 0x18,*(int8 *)(local_20 + (local_30 - 1) * 8));
if ((cVar1 != '\0') &&
(lVar3 = my_uca_contraction_find(local_18[3] + 0x18,local_20,local_30), lVar3 != 0)) break;
local_30 = local_30 - 1;
}
*local_18 = lVar3 + 0x32;
local_18[1] = local_78[local_30 - 1];
return lVar3;
}
| |
34,463 | PFS_user_allocator::alloc_array(PFS_user_array*) | eloqsql/storage/perfschema/pfs_buffer_container.cc | int PFS_user_allocator::alloc_array(PFS_user_array *array)
{
size_t size= array->m_max;
PFS_user *pfs;
size_t index;
size_t waits_sizing= size * wait_class_max;
size_t stages_sizing= size * stage_class_max;
size_t statements_sizing= size * statement_class_max;
size_t transactions_sizing= size * transaction_class_max;
size_t memory_sizing= size * memory_class_max;
array->m_ptr= NULL;
array->m_full= true;
array->m_instr_class_waits_array= NULL;
array->m_instr_class_stages_array= NULL;
array->m_instr_class_statements_array= NULL;
array->m_instr_class_transactions_array= NULL;
array->m_instr_class_memory_array= NULL;
if (size > 0)
{
array->m_ptr=
PFS_MALLOC_ARRAY(& builtin_memory_user,
size, sizeof(PFS_user), PFS_user, MYF(MY_ZEROFILL));
if (array->m_ptr == NULL)
return 1;
}
if (waits_sizing > 0)
{
array->m_instr_class_waits_array=
PFS_MALLOC_ARRAY(& builtin_memory_user_waits,
waits_sizing, sizeof(PFS_single_stat), PFS_single_stat, MYF(MY_ZEROFILL));
if (array->m_instr_class_waits_array == NULL)
return 1;
for (index=0; index < waits_sizing; index++)
array->m_instr_class_waits_array[index].reset();
}
if (stages_sizing > 0)
{
array->m_instr_class_stages_array=
PFS_MALLOC_ARRAY(& builtin_memory_user_stages,
stages_sizing, sizeof(PFS_stage_stat), PFS_stage_stat, MYF(MY_ZEROFILL));
if (array->m_instr_class_stages_array == NULL)
return 1;
for (index=0; index < stages_sizing; index++)
array->m_instr_class_stages_array[index].reset();
}
if (statements_sizing > 0)
{
array->m_instr_class_statements_array=
PFS_MALLOC_ARRAY(& builtin_memory_user_statements,
statements_sizing, sizeof(PFS_statement_stat), PFS_statement_stat, MYF(MY_ZEROFILL));
if (array->m_instr_class_statements_array == NULL)
return 1;
for (index=0; index < statements_sizing; index++)
array->m_instr_class_statements_array[index].reset();
}
if (transactions_sizing > 0)
{
array->m_instr_class_transactions_array=
PFS_MALLOC_ARRAY(& builtin_memory_user_transactions,
transactions_sizing, sizeof(PFS_transaction_stat), PFS_transaction_stat, MYF(MY_ZEROFILL));
if (array->m_instr_class_transactions_array == NULL)
return 1;
for (index=0; index < transactions_sizing; index++)
array->m_instr_class_transactions_array[index].reset();
}
if (memory_sizing > 0)
{
array->m_instr_class_memory_array=
PFS_MALLOC_ARRAY(& builtin_memory_user_memory,
memory_sizing, sizeof(PFS_memory_stat), PFS_memory_stat, MYF(MY_ZEROFILL));
if (array->m_instr_class_memory_array == NULL)
return 1;
for (index=0; index < memory_sizing; index++)
array->m_instr_class_memory_array[index].reset();
}
for (index= 0; index < size; index++)
{
pfs= & array->m_ptr[index];
pfs->set_instr_class_waits_stats(
& array->m_instr_class_waits_array[index * wait_class_max]);
pfs->set_instr_class_stages_stats(
& array->m_instr_class_stages_array[index * stage_class_max]);
pfs->set_instr_class_statements_stats(
& array->m_instr_class_statements_array[index * statement_class_max]);
pfs->set_instr_class_transactions_stats(
& array->m_instr_class_transactions_array[index * transaction_class_max]);
pfs->set_instr_class_memory_stats(
& array->m_instr_class_memory_array[index * memory_class_max]);
}
array->m_full= false;
return 0;
} | O3 | cpp | PFS_user_allocator::alloc_array(PFS_user_array*):
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x18, %rsp
movq %rsi, %rbx
movq 0x50(%rsi), %r13
leaq 0x39f06d(%rip), %rax # 0x3cd920
movl (%rax), %r15d
leaq 0x39e813(%rip), %rax # 0x3cd0d0
movq (%rax), %r14
imulq %r13, %r14
leaq 0x39e815(%rip), %rax # 0x3cd0e0
movq (%rax), %r12
imulq %r13, %r12
leaq 0x39e837(%rip), %rax # 0x3cd110
movq (%rax), %rdx
imulq %r13, %rdx
leaq 0x39e819(%rip), %rax # 0x3cd100
movq (%rax), %rcx
imulq %r13, %rcx
xorl %eax, %eax
movq %rax, 0x48(%rsi)
movb $0x1, (%rsi)
xorps %xmm0, %xmm0
movups %xmm0, 0x60(%rsi)
movups %xmm0, 0x70(%rsi)
movq %rax, 0x80(%rsi)
testq %r13, %r13
je 0x2ebe9
movq %rdx, -0x38(%rbp)
movq %rcx, -0x30(%rbp)
leaq 0x39bd1f(%rip), %rdi # 0x3ca640
movl $0x9c0, %edx # imm = 0x9C0
movl $0x20, %ecx
movq %r13, %rsi
callq 0x2cd6c
movq %rax, 0x48(%rbx)
movl $0x1, %ecx
testq %rax, %rax
je 0x2ebf5
movq %r13, -0x40(%rbp)
imulq %r13, %r15
testq %r15, %r15
je 0x2e9a7
leaq 0x60(%rbx), %r13
leaq 0x39be23(%rip), %rdi # 0x3ca780
movl $0x20, %edx
movl $0x20, %ecx
movq %r15, %rsi
callq 0x2cd6c
movq %rax, (%r13)
testq %rax, %rax
je 0x2ebf0
movl $0x18, %eax
xorps %xmm0, %xmm0
movq (%r13), %rcx
movups %xmm0, -0x18(%rcx,%rax)
movq $-0x1, -0x8(%rcx,%rax)
movq $0x0, (%rcx,%rax)
addq $0x20, %rax
decq %r15
jne 0x2e984
testq %r14, %r14
je 0x2e9fd
leaq 0x39bf0d(%rip), %rdi # 0x3ca8c0
movl $0x20, %edx
movl $0x20, %ecx
movq %r14, %rsi
callq 0x2cd6c
movq %rax, 0x68(%rbx)
testq %rax, %rax
je 0x2ebf0
movl $0x18, %eax
xorps %xmm0, %xmm0
movq 0x68(%rbx), %rcx
movups %xmm0, -0x18(%rcx,%rax)
movq $-0x1, -0x8(%rcx,%rax)
movq $0x0, (%rcx,%rax)
addq $0x20, %rax
decq %r14
jne 0x2e9da
testq %r12, %r12
je 0x2ea41
leaq 0x39bff7(%rip), %rdi # 0x3caa00
movl $0xb8, %edx
movl $0x20, %ecx
movq %r12, %rsi
callq 0x2cd6c
movq %rax, 0x70(%rbx)
testq %rax, %rax
je 0x2ebf0
xorl %eax, %eax
movq 0x70(%rbx), %rcx
movq $0x0, (%rcx,%rax)
addq $0xb8, %rax
decq %r12
jne 0x2ea2a
movq -0x38(%rbp), %rsi
testq %rsi, %rsi
movq -0x40(%rbp), %r14
je 0x2eab7
leaq 0x39c0eb(%rip), %rdi # 0x3cab40
movl $0x58, %edx
movl $0x20, %ecx
callq 0x2cd6c
movq %rax, 0x78(%rbx)
testq %rax, %rax
je 0x2ebf0
movl $0x38, %eax
xorps %xmm0, %xmm0
movq $-0x1, %rcx
movq -0x38(%rbp), %rsi
movq 0x78(%rbx), %rdx
movups %xmm0, -0x38(%rdx,%rax)
movq %rcx, -0x28(%rdx,%rax)
movups %xmm0, -0x20(%rdx,%rax)
movq $0x0, -0x10(%rdx,%rax)
movq %rcx, -0x8(%rdx,%rax)
movups %xmm0, (%rdx,%rax)
movups %xmm0, 0x10(%rdx,%rax)
addq $0x58, %rax
decq %rsi
jne 0x2ea84
movq -0x30(%rbp), %rsi
testq %rsi, %rsi
je 0x2eb1f
leaq 0x39c1b9(%rip), %rdi # 0x3cac80
movl $0x48, %edx
movl $0x20, %ecx
callq 0x2cd6c
movq %rax, 0x80(%rbx)
testq %rax, %rax
movl $0x1, %ecx
je 0x2ebf5
movl $0x8, %eax
xorps %xmm0, %xmm0
movq -0x30(%rbp), %rdx
movq 0x80(%rbx), %rcx
movb $0x0, -0x8(%rcx,%rax)
movups %xmm0, (%rcx,%rax)
movups %xmm0, 0x10(%rcx,%rax)
movups %xmm0, 0x20(%rcx,%rax)
movups %xmm0, 0x30(%rcx,%rax)
addq $0x48, %rax
decq %rdx
jne 0x2eaf7
testq %r14, %r14
leaq 0x39edf7(%rip), %r8 # 0x3cd920
leaq 0x39e5a0(%rip), %r9 # 0x3cd0d0
leaq 0x39e5a9(%rip), %r10 # 0x3cd0e0
leaq 0x39e5d2(%rip), %r11 # 0x3cd110
leaq 0x39e5bb(%rip), %r15 # 0x3cd100
je 0x2ebe9
xorl %eax, %eax
xorl %ecx, %ecx
xorl %edx, %edx
movl (%r8), %edi
imulq %rdx, %rdi
shlq $0x5, %rdi
addq 0x60(%rbx), %rdi
movq 0x48(%rbx), %rsi
movb %al, (%rsi,%rcx)
movq %rdi, 0x8(%rsi,%rcx)
movq (%r9), %rdi
imulq %rdx, %rdi
shlq $0x5, %rdi
addq 0x68(%rbx), %rdi
movb %al, 0x1(%rsi,%rcx)
movq %rdi, 0x10(%rsi,%rcx)
movq (%r10), %rdi
imulq %rdx, %rdi
imulq $0xb8, %rdi, %rdi
addq 0x70(%rbx), %rdi
movb %al, 0x2(%rsi,%rcx)
movq %rdi, 0x18(%rsi,%rcx)
movq (%r11), %rdi
imulq %rdx, %rdi
imulq $0x58, %rdi, %rdi
addq 0x78(%rbx), %rdi
movb %al, 0x3(%rsi,%rcx)
movq %rdi, 0x20(%rsi,%rcx)
movq (%r15), %rdi
imulq %rdx, %rdi
leaq (%rdi,%rdi,8), %rdi
shlq $0x3, %rdi
addq 0x80(%rbx), %rdi
movb %al, 0x4(%rsi,%rcx)
movq %rdi, 0x28(%rsi,%rcx)
incq %rdx
addq $0x9c0, %rcx # imm = 0x9C0
cmpq %rdx, %r14
jne 0x2eb51
movb $0x0, (%rbx)
xorl %ecx, %ecx
jmp 0x2ebf5
movl $0x1, %ecx
movl %ecx, %eax
addq $0x18, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| _ZN18PFS_user_allocator11alloc_arrayEP14PFS_user_array:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 18h
mov rbx, rsi
mov r13, [rsi+50h]
lea rax, wait_class_max
mov r15d, [rax]
lea rax, stage_class_max
mov r14, [rax]
imul r14, r13
lea rax, statement_class_max
mov r12, [rax]
imul r12, r13
lea rax, transaction_class_max
mov rdx, [rax]
imul rdx, r13
lea rax, memory_class_max
mov rcx, [rax]
imul rcx, r13
xor eax, eax
mov [rsi+48h], rax
mov byte ptr [rsi], 1
xorps xmm0, xmm0
movups xmmword ptr [rsi+60h], xmm0
movups xmmword ptr [rsi+70h], xmm0
mov [rsi+80h], rax
test r13, r13
jz loc_2EBE9
mov [rbp+var_38], rdx
mov [rbp+var_30], rcx
lea rdi, builtin_memory_user
mov edx, 9C0h
mov ecx, 20h ; ' '
mov rsi, r13
call _Z16pfs_malloc_arrayP24PFS_builtin_memory_classmmm; pfs_malloc_array(PFS_builtin_memory_class *,ulong,ulong,ulong)
mov [rbx+48h], rax
mov ecx, 1
test rax, rax
jz loc_2EBF5
mov [rbp+var_40], r13
imul r15, r13
test r15, r15
jz short loc_2E9A7
lea r13, [rbx+60h]
lea rdi, builtin_memory_user_waits
mov edx, 20h ; ' '
mov ecx, 20h ; ' '
mov rsi, r15
call _Z16pfs_malloc_arrayP24PFS_builtin_memory_classmmm; pfs_malloc_array(PFS_builtin_memory_class *,ulong,ulong,ulong)
mov [r13+0], rax
test rax, rax
jz loc_2EBF0
mov eax, 18h
xorps xmm0, xmm0
loc_2E984:
mov rcx, [r13+0]
movups xmmword ptr [rcx+rax-18h], xmm0
mov qword ptr [rcx+rax-8], 0FFFFFFFFFFFFFFFFh
mov qword ptr [rcx+rax], 0
add rax, 20h ; ' '
dec r15
jnz short loc_2E984
loc_2E9A7:
test r14, r14
jz short loc_2E9FD
lea rdi, builtin_memory_user_stages
mov edx, 20h ; ' '
mov ecx, 20h ; ' '
mov rsi, r14
call _Z16pfs_malloc_arrayP24PFS_builtin_memory_classmmm; pfs_malloc_array(PFS_builtin_memory_class *,ulong,ulong,ulong)
mov [rbx+68h], rax
test rax, rax
jz loc_2EBF0
mov eax, 18h
xorps xmm0, xmm0
loc_2E9DA:
mov rcx, [rbx+68h]
movups xmmword ptr [rcx+rax-18h], xmm0
mov qword ptr [rcx+rax-8], 0FFFFFFFFFFFFFFFFh
mov qword ptr [rcx+rax], 0
add rax, 20h ; ' '
dec r14
jnz short loc_2E9DA
loc_2E9FD:
test r12, r12
jz short loc_2EA41
lea rdi, builtin_memory_user_statements
mov edx, 0B8h
mov ecx, 20h ; ' '
mov rsi, r12
call _Z16pfs_malloc_arrayP24PFS_builtin_memory_classmmm; pfs_malloc_array(PFS_builtin_memory_class *,ulong,ulong,ulong)
mov [rbx+70h], rax
test rax, rax
jz loc_2EBF0
xor eax, eax
loc_2EA2A:
mov rcx, [rbx+70h]
mov qword ptr [rcx+rax], 0
add rax, 0B8h
dec r12
jnz short loc_2EA2A
loc_2EA41:
mov rsi, [rbp+var_38]
test rsi, rsi
mov r14, [rbp+var_40]
jz short loc_2EAB7
lea rdi, builtin_memory_user_transactions
mov edx, 58h ; 'X'
mov ecx, 20h ; ' '
call _Z16pfs_malloc_arrayP24PFS_builtin_memory_classmmm; pfs_malloc_array(PFS_builtin_memory_class *,ulong,ulong,ulong)
mov [rbx+78h], rax
test rax, rax
jz loc_2EBF0
mov eax, 38h ; '8'
xorps xmm0, xmm0
mov rcx, 0FFFFFFFFFFFFFFFFh
mov rsi, [rbp+var_38]
loc_2EA84:
mov rdx, [rbx+78h]
movups xmmword ptr [rdx+rax-38h], xmm0
mov [rdx+rax-28h], rcx
movups xmmword ptr [rdx+rax-20h], xmm0
mov qword ptr [rdx+rax-10h], 0
mov [rdx+rax-8], rcx
movups xmmword ptr [rdx+rax], xmm0
movups xmmword ptr [rdx+rax+10h], xmm0
add rax, 58h ; 'X'
dec rsi
jnz short loc_2EA84
loc_2EAB7:
mov rsi, [rbp+var_30]
test rsi, rsi
jz short loc_2EB1F
lea rdi, builtin_memory_user_memory
mov edx, 48h ; 'H'
mov ecx, 20h ; ' '
call _Z16pfs_malloc_arrayP24PFS_builtin_memory_classmmm; pfs_malloc_array(PFS_builtin_memory_class *,ulong,ulong,ulong)
mov [rbx+80h], rax
test rax, rax
mov ecx, 1
jz loc_2EBF5
mov eax, 8
xorps xmm0, xmm0
mov rdx, [rbp+var_30]
loc_2EAF7:
mov rcx, [rbx+80h]
mov byte ptr [rcx+rax-8], 0
movups xmmword ptr [rcx+rax], xmm0
movups xmmword ptr [rcx+rax+10h], xmm0
movups xmmword ptr [rcx+rax+20h], xmm0
movups xmmword ptr [rcx+rax+30h], xmm0
add rax, 48h ; 'H'
dec rdx
jnz short loc_2EAF7
loc_2EB1F:
test r14, r14
lea r8, wait_class_max
lea r9, stage_class_max
lea r10, statement_class_max
lea r11, transaction_class_max
lea r15, memory_class_max
jz loc_2EBE9
xor eax, eax
xor ecx, ecx
xor edx, edx
loc_2EB51:
mov edi, [r8]
imul rdi, rdx
shl rdi, 5
add rdi, [rbx+60h]
mov rsi, [rbx+48h]
mov [rsi+rcx], al
mov [rsi+rcx+8], rdi
mov rdi, [r9]
imul rdi, rdx
shl rdi, 5
add rdi, [rbx+68h]
mov [rsi+rcx+1], al
mov [rsi+rcx+10h], rdi
mov rdi, [r10]
imul rdi, rdx
imul rdi, 0B8h
add rdi, [rbx+70h]
mov [rsi+rcx+2], al
mov [rsi+rcx+18h], rdi
mov rdi, [r11]
imul rdi, rdx
imul rdi, 58h ; 'X'
add rdi, [rbx+78h]
mov [rsi+rcx+3], al
mov [rsi+rcx+20h], rdi
mov rdi, [r15]
imul rdi, rdx
lea rdi, [rdi+rdi*8]
shl rdi, 3
add rdi, [rbx+80h]
mov [rsi+rcx+4], al
mov [rsi+rcx+28h], rdi
inc rdx
add rcx, 9C0h
cmp r14, rdx
jnz loc_2EB51
loc_2EBE9:
mov byte ptr [rbx], 0
xor ecx, ecx
jmp short loc_2EBF5
loc_2EBF0:
mov ecx, 1
loc_2EBF5:
mov eax, ecx
add rsp, 18h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| long long PFS_user_allocator::alloc_array(long long a1, long long a2)
{
unsigned long long v3; // r13
long long v4; // r15
unsigned long long v5; // r14
unsigned long long v6; // r12
long long v7; // rdx
long long v8; // rcx
long long v9; // rax
unsigned int v10; // ecx
unsigned long long v11; // r15
long long v12; // rax
long long v13; // rax
long long v14; // rcx
long long v15; // rax
long long v16; // rax
long long v17; // rcx
long long v18; // rax
long long v19; // rax
long long v20; // rax
long long v21; // rax
unsigned long long v22; // rsi
long long v23; // rdx
long long v24; // rax
long long v25; // rax
unsigned long long v26; // rdx
long long v27; // rcx
long long v28; // rcx
long long i; // rdx
long long v30; // rdi
long long v31; // rsi
long long v32; // rdi
long long v33; // rdi
long long v34; // rdi
long long v35; // rdi
unsigned long long v37; // [rsp+8h] [rbp-38h]
unsigned long long v38; // [rsp+10h] [rbp-30h]
v3 = *(_QWORD *)(a2 + 80);
v4 = (unsigned int)wait_class_max;
v5 = v3 * stage_class_max;
v6 = v3 * statement_class_max;
v7 = v3 * transaction_class_max;
v8 = v3 * memory_class_max;
*(_QWORD *)(a2 + 72) = 0LL;
*(_BYTE *)a2 = 1;
*(_OWORD *)(a2 + 96) = 0LL;
*(_OWORD *)(a2 + 112) = 0LL;
*(_QWORD *)(a2 + 128) = 0LL;
if ( !v3 )
goto LABEL_25;
v37 = v7;
v38 = v8;
v9 = pfs_malloc_array((long long)&builtin_memory_user, v3, 0x9C0uLL);
*(_QWORD *)(a2 + 72) = v9;
v10 = 1;
if ( !v9 )
return v10;
v11 = v3 * v4;
if ( v11 )
{
v12 = pfs_malloc_array((long long)&builtin_memory_user_waits, v11, 0x20uLL);
*(_QWORD *)(a2 + 96) = v12;
if ( !v12 )
return 1;
v13 = 24LL;
do
{
v14 = *(_QWORD *)(a2 + 96);
*(_OWORD *)(v14 + v13 - 24) = 0LL;
*(_QWORD *)(v14 + v13 - 8) = -1LL;
*(_QWORD *)(v14 + v13) = 0LL;
v13 += 32LL;
--v11;
}
while ( v11 );
}
if ( v5 )
{
v15 = pfs_malloc_array((long long)&builtin_memory_user_stages, v5, 0x20uLL);
*(_QWORD *)(a2 + 104) = v15;
if ( !v15 )
return 1;
v16 = 24LL;
do
{
v17 = *(_QWORD *)(a2 + 104);
*(_OWORD *)(v17 + v16 - 24) = 0LL;
*(_QWORD *)(v17 + v16 - 8) = -1LL;
*(_QWORD *)(v17 + v16) = 0LL;
v16 += 32LL;
--v5;
}
while ( v5 );
}
if ( v6 )
{
v18 = pfs_malloc_array((long long)&builtin_memory_user_statements, v6, 0xB8uLL);
*(_QWORD *)(a2 + 112) = v18;
if ( !v18 )
return 1;
v19 = 0LL;
do
{
*(_QWORD *)(*(_QWORD *)(a2 + 112) + v19) = 0LL;
v19 += 184LL;
--v6;
}
while ( v6 );
}
if ( v37 )
{
v20 = pfs_malloc_array((long long)&builtin_memory_user_transactions, v37, 0x58uLL);
*(_QWORD *)(a2 + 120) = v20;
if ( v20 )
{
v21 = 56LL;
v22 = v37;
do
{
v23 = *(_QWORD *)(a2 + 120);
*(_OWORD *)(v23 + v21 - 56) = 0LL;
*(_QWORD *)(v23 + v21 - 40) = -1LL;
*(_OWORD *)(v23 + v21 - 32) = 0LL;
*(_QWORD *)(v23 + v21 - 16) = 0LL;
*(_QWORD *)(v23 + v21 - 8) = -1LL;
*(_OWORD *)(v23 + v21) = 0LL;
*(_OWORD *)(v23 + v21 + 16) = 0LL;
v21 += 88LL;
--v22;
}
while ( v22 );
goto LABEL_19;
}
return 1;
}
LABEL_19:
if ( !v38 )
{
LABEL_23:
v28 = 0LL;
for ( i = 0LL; i != v3; ++i )
{
v30 = *(_QWORD *)(a2 + 96) + 32 * i * (unsigned int)wait_class_max;
v31 = *(_QWORD *)(a2 + 72);
*(_BYTE *)(v31 + v28) = 0;
*(_QWORD *)(v31 + v28 + 8) = v30;
v32 = *(_QWORD *)(a2 + 104) + 32 * i * stage_class_max;
*(_BYTE *)(v31 + v28 + 1) = 0;
*(_QWORD *)(v31 + v28 + 16) = v32;
v33 = *(_QWORD *)(a2 + 112) + 184 * i * statement_class_max;
*(_BYTE *)(v31 + v28 + 2) = 0;
*(_QWORD *)(v31 + v28 + 24) = v33;
v34 = *(_QWORD *)(a2 + 120) + 88 * i * transaction_class_max;
*(_BYTE *)(v31 + v28 + 3) = 0;
*(_QWORD *)(v31 + v28 + 32) = v34;
v35 = *(_QWORD *)(a2 + 128) + 72 * i * memory_class_max;
*(_BYTE *)(v31 + v28 + 4) = 0;
*(_QWORD *)(v31 + v28 + 40) = v35;
v28 += 2496LL;
}
LABEL_25:
*(_BYTE *)a2 = 0;
return 0;
}
v24 = pfs_malloc_array((long long)&builtin_memory_user_memory, v38, 0x48uLL);
*(_QWORD *)(a2 + 128) = v24;
v10 = 1;
if ( v24 )
{
v25 = 8LL;
v26 = v38;
do
{
v27 = *(_QWORD *)(a2 + 128);
*(_BYTE *)(v27 + v25 - 8) = 0;
*(_OWORD *)(v27 + v25) = 0LL;
*(_OWORD *)(v27 + v25 + 16) = 0LL;
*(_OWORD *)(v27 + v25 + 32) = 0LL;
*(_OWORD *)(v27 + v25 + 48) = 0LL;
v25 += 72LL;
--v26;
}
while ( v26 );
goto LABEL_23;
}
return v10;
}
| alloc_array:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x18
MOV RBX,RSI
MOV R13,qword ptr [RSI + 0x50]
LEA RAX,[0x4cd920]
MOV R15D,dword ptr [RAX]
LEA RAX,[0x4cd0d0]
MOV R14,qword ptr [RAX]
IMUL R14,R13
LEA RAX,[0x4cd0e0]
MOV R12,qword ptr [RAX]
IMUL R12,R13
LEA RAX,[0x4cd110]
MOV RDX,qword ptr [RAX]
IMUL RDX,R13
LEA RAX,[0x4cd100]
MOV RCX,qword ptr [RAX]
IMUL RCX,R13
XOR EAX,EAX
MOV qword ptr [RSI + 0x48],RAX
MOV byte ptr [RSI],0x1
XORPS XMM0,XMM0
MOVUPS xmmword ptr [RSI + 0x60],XMM0
MOVUPS xmmword ptr [RSI + 0x70],XMM0
MOV qword ptr [RSI + 0x80],RAX
TEST R13,R13
JZ 0x0012ebe9
MOV qword ptr [RBP + -0x38],RDX
MOV qword ptr [RBP + -0x30],RCX
LEA RDI,[0x4ca640]
MOV EDX,0x9c0
MOV ECX,0x20
MOV RSI,R13
CALL 0x0012cd6c
MOV qword ptr [RBX + 0x48],RAX
MOV ECX,0x1
TEST RAX,RAX
JZ 0x0012ebf5
MOV qword ptr [RBP + -0x40],R13
IMUL R15,R13
TEST R15,R15
JZ 0x0012e9a7
LEA R13,[RBX + 0x60]
LEA RDI,[0x4ca780]
MOV EDX,0x20
MOV ECX,0x20
MOV RSI,R15
CALL 0x0012cd6c
MOV qword ptr [R13],RAX
TEST RAX,RAX
JZ 0x0012ebf0
MOV EAX,0x18
XORPS XMM0,XMM0
LAB_0012e984:
MOV RCX,qword ptr [R13]
MOVUPS xmmword ptr [RCX + RAX*0x1 + -0x18],XMM0
MOV qword ptr [RCX + RAX*0x1 + -0x8],-0x1
MOV qword ptr [RCX + RAX*0x1],0x0
ADD RAX,0x20
DEC R15
JNZ 0x0012e984
LAB_0012e9a7:
TEST R14,R14
JZ 0x0012e9fd
LEA RDI,[0x4ca8c0]
MOV EDX,0x20
MOV ECX,0x20
MOV RSI,R14
CALL 0x0012cd6c
MOV qword ptr [RBX + 0x68],RAX
TEST RAX,RAX
JZ 0x0012ebf0
MOV EAX,0x18
XORPS XMM0,XMM0
LAB_0012e9da:
MOV RCX,qword ptr [RBX + 0x68]
MOVUPS xmmword ptr [RCX + RAX*0x1 + -0x18],XMM0
MOV qword ptr [RCX + RAX*0x1 + -0x8],-0x1
MOV qword ptr [RCX + RAX*0x1],0x0
ADD RAX,0x20
DEC R14
JNZ 0x0012e9da
LAB_0012e9fd:
TEST R12,R12
JZ 0x0012ea41
LEA RDI,[0x4caa00]
MOV EDX,0xb8
MOV ECX,0x20
MOV RSI,R12
CALL 0x0012cd6c
MOV qword ptr [RBX + 0x70],RAX
TEST RAX,RAX
JZ 0x0012ebf0
XOR EAX,EAX
LAB_0012ea2a:
MOV RCX,qword ptr [RBX + 0x70]
MOV qword ptr [RCX + RAX*0x1],0x0
ADD RAX,0xb8
DEC R12
JNZ 0x0012ea2a
LAB_0012ea41:
MOV RSI,qword ptr [RBP + -0x38]
TEST RSI,RSI
MOV R14,qword ptr [RBP + -0x40]
JZ 0x0012eab7
LEA RDI,[0x4cab40]
MOV EDX,0x58
MOV ECX,0x20
CALL 0x0012cd6c
MOV qword ptr [RBX + 0x78],RAX
TEST RAX,RAX
JZ 0x0012ebf0
MOV EAX,0x38
XORPS XMM0,XMM0
MOV RCX,-0x1
MOV RSI,qword ptr [RBP + -0x38]
LAB_0012ea84:
MOV RDX,qword ptr [RBX + 0x78]
MOVUPS xmmword ptr [RDX + RAX*0x1 + -0x38],XMM0
MOV qword ptr [RDX + RAX*0x1 + -0x28],RCX
MOVUPS xmmword ptr [RDX + RAX*0x1 + -0x20],XMM0
MOV qword ptr [RDX + RAX*0x1 + -0x10],0x0
MOV qword ptr [RDX + RAX*0x1 + -0x8],RCX
MOVUPS xmmword ptr [RDX + RAX*0x1],XMM0
MOVUPS xmmword ptr [RDX + RAX*0x1 + 0x10],XMM0
ADD RAX,0x58
DEC RSI
JNZ 0x0012ea84
LAB_0012eab7:
MOV RSI,qword ptr [RBP + -0x30]
TEST RSI,RSI
JZ 0x0012eb1f
LEA RDI,[0x4cac80]
MOV EDX,0x48
MOV ECX,0x20
CALL 0x0012cd6c
MOV qword ptr [RBX + 0x80],RAX
TEST RAX,RAX
MOV ECX,0x1
JZ 0x0012ebf5
MOV EAX,0x8
XORPS XMM0,XMM0
MOV RDX,qword ptr [RBP + -0x30]
LAB_0012eaf7:
MOV RCX,qword ptr [RBX + 0x80]
MOV byte ptr [RCX + RAX*0x1 + -0x8],0x0
MOVUPS xmmword ptr [RCX + RAX*0x1],XMM0
MOVUPS xmmword ptr [RCX + RAX*0x1 + 0x10],XMM0
MOVUPS xmmword ptr [RCX + RAX*0x1 + 0x20],XMM0
MOVUPS xmmword ptr [RCX + RAX*0x1 + 0x30],XMM0
ADD RAX,0x48
DEC RDX
JNZ 0x0012eaf7
LAB_0012eb1f:
TEST R14,R14
LEA R8,[0x4cd920]
LEA R9,[0x4cd0d0]
LEA R10,[0x4cd0e0]
LEA R11,[0x4cd110]
LEA R15,[0x4cd100]
JZ 0x0012ebe9
XOR EAX,EAX
XOR ECX,ECX
XOR EDX,EDX
LAB_0012eb51:
MOV EDI,dword ptr [R8]
IMUL RDI,RDX
SHL RDI,0x5
ADD RDI,qword ptr [RBX + 0x60]
MOV RSI,qword ptr [RBX + 0x48]
MOV byte ptr [RSI + RCX*0x1],AL
MOV qword ptr [RSI + RCX*0x1 + 0x8],RDI
MOV RDI,qword ptr [R9]
IMUL RDI,RDX
SHL RDI,0x5
ADD RDI,qword ptr [RBX + 0x68]
MOV byte ptr [RSI + RCX*0x1 + 0x1],AL
MOV qword ptr [RSI + RCX*0x1 + 0x10],RDI
MOV RDI,qword ptr [R10]
IMUL RDI,RDX
IMUL RDI,RDI,0xb8
ADD RDI,qword ptr [RBX + 0x70]
MOV byte ptr [RSI + RCX*0x1 + 0x2],AL
MOV qword ptr [RSI + RCX*0x1 + 0x18],RDI
MOV RDI,qword ptr [R11]
IMUL RDI,RDX
IMUL RDI,RDI,0x58
ADD RDI,qword ptr [RBX + 0x78]
MOV byte ptr [RSI + RCX*0x1 + 0x3],AL
MOV qword ptr [RSI + RCX*0x1 + 0x20],RDI
MOV RDI,qword ptr [R15]
IMUL RDI,RDX
LEA RDI,[RDI + RDI*0x8]
SHL RDI,0x3
ADD RDI,qword ptr [RBX + 0x80]
MOV byte ptr [RSI + RCX*0x1 + 0x4],AL
MOV qword ptr [RSI + RCX*0x1 + 0x28],RDI
INC RDX
ADD RCX,0x9c0
CMP R14,RDX
JNZ 0x0012eb51
LAB_0012ebe9:
MOV byte ptr [RBX],0x0
XOR ECX,ECX
JMP 0x0012ebf5
LAB_0012ebf0:
MOV ECX,0x1
LAB_0012ebf5:
MOV EAX,ECX
ADD RSP,0x18
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
/* PFS_user_allocator::alloc_array(PFS_user_array*) */
int8 __thiscall
PFS_user_allocator::alloc_array(PFS_user_allocator *this,PFS_user_array *param_1)
{
int8 *puVar1;
ulong uVar2;
long lVar3;
long lVar4;
long lVar5;
ulong uVar6;
ulong uVar7;
long lVar8;
ulong uVar9;
ulong uVar10;
ulong uVar11;
uVar2 = *(ulong *)(param_1 + 0x50);
uVar11 = (ulong)wait_class_max;
uVar10 = stage_class_max * uVar2;
uVar9 = statement_class_max * uVar2;
uVar7 = transaction_class_max * uVar2;
uVar6 = memory_class_max * uVar2;
*(int8 *)(param_1 + 0x48) = 0;
*param_1 = (PFS_user_array)0x1;
*(int8 *)(param_1 + 0x60) = 0;
*(int8 *)(param_1 + 0x68) = 0;
*(int8 *)(param_1 + 0x70) = 0;
*(int8 *)(param_1 + 0x78) = 0;
*(int8 *)(param_1 + 0x80) = 0;
if (uVar2 != 0) {
lVar5 = pfs_malloc_array((PFS_builtin_memory_class *)builtin_memory_user,uVar2,0x9c0,0x20);
*(long *)(param_1 + 0x48) = lVar5;
if (lVar5 == 0) {
return 1;
}
uVar11 = uVar11 * uVar2;
if (uVar11 != 0) {
lVar5 = pfs_malloc_array((PFS_builtin_memory_class *)builtin_memory_user_waits,uVar11,0x20,
0x20);
*(long *)(param_1 + 0x60) = lVar5;
if (lVar5 == 0) {
return 1;
}
lVar5 = 0x18;
do {
lVar3 = *(long *)(param_1 + 0x60);
puVar1 = (int8 *)(lVar3 + -0x18 + lVar5);
*puVar1 = 0;
puVar1[1] = 0;
*(int8 *)(lVar3 + -8 + lVar5) = 0xffffffffffffffff;
*(int8 *)(lVar3 + lVar5) = 0;
lVar5 = lVar5 + 0x20;
uVar11 = uVar11 - 1;
} while (uVar11 != 0);
}
if (uVar10 != 0) {
lVar5 = pfs_malloc_array((PFS_builtin_memory_class *)builtin_memory_user_stages,uVar10,0x20,
0x20);
*(long *)(param_1 + 0x68) = lVar5;
if (lVar5 == 0) {
return 1;
}
lVar5 = 0x18;
do {
lVar3 = *(long *)(param_1 + 0x68);
puVar1 = (int8 *)(lVar3 + -0x18 + lVar5);
*puVar1 = 0;
puVar1[1] = 0;
*(int8 *)(lVar3 + -8 + lVar5) = 0xffffffffffffffff;
*(int8 *)(lVar3 + lVar5) = 0;
lVar5 = lVar5 + 0x20;
uVar10 = uVar10 - 1;
} while (uVar10 != 0);
}
if (uVar9 != 0) {
lVar5 = pfs_malloc_array((PFS_builtin_memory_class *)builtin_memory_user_statements,uVar9,0xb8
,0x20);
*(long *)(param_1 + 0x70) = lVar5;
if (lVar5 == 0) {
return 1;
}
lVar5 = 0;
do {
*(int8 *)(*(long *)(param_1 + 0x70) + lVar5) = 0;
lVar5 = lVar5 + 0xb8;
uVar9 = uVar9 - 1;
} while (uVar9 != 0);
}
if (uVar7 != 0) {
lVar5 = pfs_malloc_array((PFS_builtin_memory_class *)builtin_memory_user_transactions,uVar7,
0x58,0x20);
*(long *)(param_1 + 0x78) = lVar5;
if (lVar5 == 0) {
return 1;
}
lVar5 = 0x38;
do {
lVar3 = *(long *)(param_1 + 0x78);
puVar1 = (int8 *)(lVar3 + -0x38 + lVar5);
*puVar1 = 0;
puVar1[1] = 0;
*(int8 *)(lVar3 + -0x28 + lVar5) = 0xffffffffffffffff;
puVar1 = (int8 *)(lVar3 + -0x20 + lVar5);
*puVar1 = 0;
puVar1[1] = 0;
*(int8 *)(lVar3 + -0x10 + lVar5) = 0;
*(int8 *)(lVar3 + -8 + lVar5) = 0xffffffffffffffff;
*(int8 *)(lVar3 + lVar5) = 0;
((int8 *)(lVar3 + lVar5))[1] = 0;
puVar1 = (int8 *)(lVar3 + 0x10 + lVar5);
*puVar1 = 0;
puVar1[1] = 0;
lVar5 = lVar5 + 0x58;
uVar7 = uVar7 - 1;
} while (uVar7 != 0);
}
if (uVar6 != 0) {
lVar5 = pfs_malloc_array((PFS_builtin_memory_class *)builtin_memory_user_memory,uVar6,0x48,
0x20);
*(long *)(param_1 + 0x80) = lVar5;
if (lVar5 == 0) {
return 1;
}
lVar5 = 8;
do {
lVar3 = *(long *)(param_1 + 0x80);
*(int1 *)(lVar3 + -8 + lVar5) = 0;
*(int8 *)(lVar3 + lVar5) = 0;
((int8 *)(lVar3 + lVar5))[1] = 0;
puVar1 = (int8 *)(lVar3 + 0x10 + lVar5);
*puVar1 = 0;
puVar1[1] = 0;
puVar1 = (int8 *)(lVar3 + 0x20 + lVar5);
*puVar1 = 0;
puVar1[1] = 0;
puVar1 = (int8 *)(lVar3 + 0x30 + lVar5);
*puVar1 = 0;
puVar1[1] = 0;
lVar5 = lVar5 + 0x48;
uVar6 = uVar6 - 1;
} while (uVar6 != 0);
}
if (uVar2 != 0) {
lVar5 = 0;
uVar6 = 0;
do {
uVar7 = (ulong)wait_class_max;
lVar3 = *(long *)(param_1 + 0x60);
lVar4 = *(long *)(param_1 + 0x48);
*(int1 *)(lVar4 + lVar5) = 0;
*(ulong *)(lVar4 + 8 + lVar5) = uVar7 * uVar6 * 0x20 + lVar3;
lVar8 = stage_class_max * uVar6;
lVar3 = *(long *)(param_1 + 0x68);
*(int1 *)(lVar4 + 1 + lVar5) = 0;
*(long *)(lVar4 + 0x10 + lVar5) = lVar8 * 0x20 + lVar3;
lVar8 = statement_class_max * uVar6;
lVar3 = *(long *)(param_1 + 0x70);
*(int1 *)(lVar4 + 2 + lVar5) = 0;
*(long *)(lVar4 + 0x18 + lVar5) = lVar8 * 0xb8 + lVar3;
lVar8 = transaction_class_max * uVar6;
lVar3 = *(long *)(param_1 + 0x78);
*(int1 *)(lVar4 + 3 + lVar5) = 0;
*(long *)(lVar4 + 0x20 + lVar5) = lVar8 * 0x58 + lVar3;
lVar8 = memory_class_max * uVar6;
lVar3 = *(long *)(param_1 + 0x80);
*(int1 *)(lVar4 + 4 + lVar5) = 0;
*(long *)(lVar4 + 0x28 + lVar5) = lVar8 * 0x48 + lVar3;
uVar6 = uVar6 + 1;
lVar5 = lVar5 + 0x9c0;
} while (uVar2 != uVar6);
}
}
*param_1 = (PFS_user_array)0x0;
return 0;
}
| |
34,464 | my_block_write | eloqsql/mysys/mf_iocache.c | int my_block_write(IO_CACHE *info, const uchar *Buffer, size_t Count,
my_off_t pos)
{
size_t length;
int error=0;
/*
Assert that we cannot come here with a shared cache. If we do one
day, we might need to add a call to copy_to_read_buffer().
*/
DBUG_ASSERT(!info->share);
DBUG_ASSERT(!(info->myflags & MY_ENCRYPT));
if (pos < info->pos_in_file)
{
/* Of no overlap, write everything without buffering */
if (pos + Count <= info->pos_in_file)
return (int)mysql_file_pwrite(info->file, Buffer, Count, pos,
info->myflags | MY_NABP);
/* Write the part of the block that is before buffer */
length= (uint) (info->pos_in_file - pos);
if (mysql_file_pwrite(info->file, Buffer, length, pos, info->myflags | MY_NABP))
info->error= error= -1;
Buffer+=length;
pos+= length;
Count-= length;
}
/* Check if we want to write inside the used part of the buffer.*/
length= (size_t) (info->write_end - info->buffer);
if (pos < info->pos_in_file + length)
{
size_t offset= (size_t) (pos - info->pos_in_file);
length-=offset;
if (length > Count)
length=Count;
memcpy(info->buffer+offset, Buffer, length);
Buffer+=length;
Count-= length;
/* Fix length of buffer if the new data was larger */
if (info->buffer+length > info->write_pos)
info->write_pos=info->buffer+length;
if (!Count)
return (error);
}
/* Write at the end of the current buffer; This is the normal case */
if (_my_b_write(info, Buffer, Count))
error= -1;
return error;
} | O0 | c | my_block_write:
pushq %rbp
movq %rsp, %rbp
subq $0x50, %rsp
movq %rdi, -0x10(%rbp)
movq %rsi, -0x18(%rbp)
movq %rdx, -0x20(%rbp)
movq %rcx, -0x28(%rbp)
movl $0x0, -0x34(%rbp)
jmp 0xe61a1
jmp 0xe61a3
jmp 0xe61a5
movq -0x28(%rbp), %rax
movq -0x10(%rbp), %rcx
cmpq (%rcx), %rax
jae 0xe6296
movq -0x28(%rbp), %rax
addq -0x20(%rbp), %rax
movq -0x10(%rbp), %rcx
cmpq (%rcx), %rax
ja 0xe6209
movq -0x10(%rbp), %rax
movl 0xd4(%rax), %edx
movq -0x18(%rbp), %rcx
movq -0x20(%rbp), %r8
movq -0x28(%rbp), %r9
movq -0x10(%rbp), %rax
movq 0xf8(%rax), %rax
orq $0x4, %rax
leaq 0x77c1b(%rip), %rdi # 0x15de0e
movl $0x673, %esi # imm = 0x673
movq %rax, (%rsp)
callq 0xe6390
movl %eax, -0x4(%rbp)
jmp 0xe6387
movq -0x10(%rbp), %rax
movq (%rax), %rax
subq -0x28(%rbp), %rax
movl %eax, %eax
movq %rax, -0x30(%rbp)
movq -0x10(%rbp), %rax
movl 0xd4(%rax), %edx
movq -0x18(%rbp), %rcx
movq -0x30(%rbp), %r8
movq -0x28(%rbp), %r9
movq -0x10(%rbp), %rax
movq 0xf8(%rax), %rax
orq $0x4, %rax
leaq 0x77bc8(%rip), %rdi # 0x15de0e
movl $0x676, %esi # imm = 0x676
movq %rax, (%rsp)
callq 0xe6390
cmpq $0x0, %rax
je 0xe626f
movl $0xffffffff, -0x34(%rbp) # imm = 0xFFFFFFFF
movq -0x10(%rbp), %rax
movl $0xffffffff, 0xe4(%rax) # imm = 0xFFFFFFFF
movq -0x30(%rbp), %rax
addq -0x18(%rbp), %rax
movq %rax, -0x18(%rbp)
movq -0x30(%rbp), %rax
addq -0x28(%rbp), %rax
movq %rax, -0x28(%rbp)
movq -0x30(%rbp), %rcx
movq -0x20(%rbp), %rax
subq %rcx, %rax
movq %rax, -0x20(%rbp)
movq -0x10(%rbp), %rax
movq 0x48(%rax), %rax
movq -0x10(%rbp), %rcx
movq 0x20(%rcx), %rcx
subq %rcx, %rax
movq %rax, -0x30(%rbp)
movq -0x28(%rbp), %rax
movq -0x10(%rbp), %rcx
movq (%rcx), %rcx
addq -0x30(%rbp), %rcx
cmpq %rcx, %rax
jae 0xe6364
movq -0x28(%rbp), %rax
movq -0x10(%rbp), %rcx
subq (%rcx), %rax
movq %rax, -0x40(%rbp)
movq -0x40(%rbp), %rcx
movq -0x30(%rbp), %rax
subq %rcx, %rax
movq %rax, -0x30(%rbp)
movq -0x30(%rbp), %rax
cmpq -0x20(%rbp), %rax
jbe 0xe62f5
movq -0x20(%rbp), %rax
movq %rax, -0x30(%rbp)
movq -0x10(%rbp), %rax
movq 0x20(%rax), %rdi
addq -0x40(%rbp), %rdi
movq -0x18(%rbp), %rsi
movq -0x30(%rbp), %rdx
callq 0x2a0b0
movq -0x30(%rbp), %rax
addq -0x18(%rbp), %rax
movq %rax, -0x18(%rbp)
movq -0x30(%rbp), %rcx
movq -0x20(%rbp), %rax
subq %rcx, %rax
movq %rax, -0x20(%rbp)
movq -0x10(%rbp), %rax
movq 0x20(%rax), %rax
addq -0x30(%rbp), %rax
movq -0x10(%rbp), %rcx
cmpq 0x40(%rcx), %rax
jbe 0xe6353
movq -0x10(%rbp), %rax
movq 0x20(%rax), %rcx
addq -0x30(%rbp), %rcx
movq -0x10(%rbp), %rax
movq %rcx, 0x40(%rax)
cmpq $0x0, -0x20(%rbp)
jne 0xe6362
movl -0x34(%rbp), %eax
movl %eax, -0x4(%rbp)
jmp 0xe6387
jmp 0xe6364
movq -0x10(%rbp), %rdi
movq -0x18(%rbp), %rsi
movq -0x20(%rbp), %rdx
callq 0xe5220
cmpl $0x0, %eax
je 0xe6381
movl $0xffffffff, -0x34(%rbp) # imm = 0xFFFFFFFF
movl -0x34(%rbp), %eax
movl %eax, -0x4(%rbp)
movl -0x4(%rbp), %eax
addq $0x50, %rsp
popq %rbp
retq
| my_block_write:
push rbp
mov rbp, rsp
sub rsp, 50h
mov [rbp+var_10], rdi
mov [rbp+var_18], rsi
mov [rbp+var_20], rdx
mov [rbp+var_28], rcx
mov [rbp+var_34], 0
jmp short $+2
loc_E61A1:
jmp short $+2
loc_E61A3:
jmp short $+2
loc_E61A5:
mov rax, [rbp+var_28]
mov rcx, [rbp+var_10]
cmp rax, [rcx]
jnb loc_E6296
mov rax, [rbp+var_28]
add rax, [rbp+var_20]
mov rcx, [rbp+var_10]
cmp rax, [rcx]
ja short loc_E6209
mov rax, [rbp+var_10]
mov edx, [rax+0D4h]
mov rcx, [rbp+var_18]
mov r8, [rbp+var_20]
mov r9, [rbp+var_28]
mov rax, [rbp+var_10]
mov rax, [rax+0F8h]
or rax, 4
lea rdi, aWorkspaceLlm4b_36; "/workspace/llm4binary/github2025/eloqsq"...
mov esi, 673h
mov [rsp+50h+var_50], rax
call inline_mysql_file_pwrite_3
mov [rbp+var_4], eax
jmp loc_E6387
loc_E6209:
mov rax, [rbp+var_10]
mov rax, [rax]
sub rax, [rbp+var_28]
mov eax, eax
mov [rbp+var_30], rax
mov rax, [rbp+var_10]
mov edx, [rax+0D4h]
mov rcx, [rbp+var_18]
mov r8, [rbp+var_30]
mov r9, [rbp+var_28]
mov rax, [rbp+var_10]
mov rax, [rax+0F8h]
or rax, 4
lea rdi, aWorkspaceLlm4b_36; "/workspace/llm4binary/github2025/eloqsq"...
mov esi, 676h
mov [rsp+50h+var_50], rax
call inline_mysql_file_pwrite_3
cmp rax, 0
jz short loc_E626F
mov [rbp+var_34], 0FFFFFFFFh
mov rax, [rbp+var_10]
mov dword ptr [rax+0E4h], 0FFFFFFFFh
loc_E626F:
mov rax, [rbp+var_30]
add rax, [rbp+var_18]
mov [rbp+var_18], rax
mov rax, [rbp+var_30]
add rax, [rbp+var_28]
mov [rbp+var_28], rax
mov rcx, [rbp+var_30]
mov rax, [rbp+var_20]
sub rax, rcx
mov [rbp+var_20], rax
loc_E6296:
mov rax, [rbp+var_10]
mov rax, [rax+48h]
mov rcx, [rbp+var_10]
mov rcx, [rcx+20h]
sub rax, rcx
mov [rbp+var_30], rax
mov rax, [rbp+var_28]
mov rcx, [rbp+var_10]
mov rcx, [rcx]
add rcx, [rbp+var_30]
cmp rax, rcx
jnb loc_E6364
mov rax, [rbp+var_28]
mov rcx, [rbp+var_10]
sub rax, [rcx]
mov [rbp+var_40], rax
mov rcx, [rbp+var_40]
mov rax, [rbp+var_30]
sub rax, rcx
mov [rbp+var_30], rax
mov rax, [rbp+var_30]
cmp rax, [rbp+var_20]
jbe short loc_E62F5
mov rax, [rbp+var_20]
mov [rbp+var_30], rax
loc_E62F5:
mov rax, [rbp+var_10]
mov rdi, [rax+20h]
add rdi, [rbp+var_40]
mov rsi, [rbp+var_18]
mov rdx, [rbp+var_30]
call _memcpy
mov rax, [rbp+var_30]
add rax, [rbp+var_18]
mov [rbp+var_18], rax
mov rcx, [rbp+var_30]
mov rax, [rbp+var_20]
sub rax, rcx
mov [rbp+var_20], rax
mov rax, [rbp+var_10]
mov rax, [rax+20h]
add rax, [rbp+var_30]
mov rcx, [rbp+var_10]
cmp rax, [rcx+40h]
jbe short loc_E6353
mov rax, [rbp+var_10]
mov rcx, [rax+20h]
add rcx, [rbp+var_30]
mov rax, [rbp+var_10]
mov [rax+40h], rcx
loc_E6353:
cmp [rbp+var_20], 0
jnz short loc_E6362
mov eax, [rbp+var_34]
mov [rbp+var_4], eax
jmp short loc_E6387
loc_E6362:
jmp short $+2
loc_E6364:
mov rdi, [rbp+var_10]
mov rsi, [rbp+var_18]
mov rdx, [rbp+var_20]
call _my_b_write
cmp eax, 0
jz short loc_E6381
mov [rbp+var_34], 0FFFFFFFFh
loc_E6381:
mov eax, [rbp+var_34]
mov [rbp+var_4], eax
loc_E6387:
mov eax, [rbp+var_4]
add rsp, 50h
pop rbp
retn
| long long my_block_write(long long a1, const char *a2, unsigned long long a3, unsigned long long a4)
{
unsigned long long v5; // [rsp+10h] [rbp-40h]
unsigned int v6; // [rsp+1Ch] [rbp-34h]
long long v7; // [rsp+20h] [rbp-30h]
long long v8; // [rsp+20h] [rbp-30h]
unsigned long long v9; // [rsp+20h] [rbp-30h]
unsigned long long v10; // [rsp+28h] [rbp-28h]
unsigned long long v11; // [rsp+30h] [rbp-20h]
const char *v12; // [rsp+38h] [rbp-18h]
v12 = a2;
v11 = a3;
v10 = a4;
v6 = 0;
if ( a4 < *(_QWORD *)a1 )
{
if ( a3 + a4 <= *(_QWORD *)a1 )
return (unsigned int)inline_mysql_file_pwrite_3(
(unsigned int)"/workspace/llm4binary/github2025/eloqsql/mysys/mf_iocache.c",
1651,
*(_DWORD *)(a1 + 212),
(_DWORD)a2,
a3,
a4,
*(_QWORD *)(a1 + 248) | 4LL);
v7 = (unsigned int)*(_QWORD *)a1 - (unsigned int)a4;
if ( inline_mysql_file_pwrite_3(
(unsigned int)"/workspace/llm4binary/github2025/eloqsql/mysys/mf_iocache.c",
1654,
*(_DWORD *)(a1 + 212),
(_DWORD)a2,
(unsigned int)*(_QWORD *)a1 - (unsigned int)a4,
a4,
*(_QWORD *)(a1 + 248) | 4LL) )
{
v6 = -1;
*(_DWORD *)(a1 + 228) = -1;
}
v12 = &a2[v7];
v10 += v7;
v11 -= v7;
}
v8 = *(_QWORD *)(a1 + 72) - *(_QWORD *)(a1 + 32);
if ( v10 >= v8 + *(_QWORD *)a1 )
goto LABEL_20;
v5 = v10 - *(_QWORD *)a1;
v9 = v8 - v5;
if ( v9 > v11 )
v9 = v11;
memcpy(v5 + *(_QWORD *)(a1 + 32), v12, v9);
v12 += v9;
v11 -= v9;
if ( v9 + *(_QWORD *)(a1 + 32) > *(_QWORD *)(a1 + 64) )
*(_QWORD *)(a1 + 64) = v9 + *(_QWORD *)(a1 + 32);
if ( v11 )
{
LABEL_20:
if ( (unsigned int)my_b_write(a1, v12, v11) )
return (unsigned int)-1;
return v6;
}
else
{
return v6;
}
}
| my_block_write:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x50
MOV qword ptr [RBP + -0x10],RDI
MOV qword ptr [RBP + -0x18],RSI
MOV qword ptr [RBP + -0x20],RDX
MOV qword ptr [RBP + -0x28],RCX
MOV dword ptr [RBP + -0x34],0x0
JMP 0x001e61a1
LAB_001e61a1:
JMP 0x001e61a3
LAB_001e61a3:
JMP 0x001e61a5
LAB_001e61a5:
MOV RAX,qword ptr [RBP + -0x28]
MOV RCX,qword ptr [RBP + -0x10]
CMP RAX,qword ptr [RCX]
JNC 0x001e6296
MOV RAX,qword ptr [RBP + -0x28]
ADD RAX,qword ptr [RBP + -0x20]
MOV RCX,qword ptr [RBP + -0x10]
CMP RAX,qword ptr [RCX]
JA 0x001e6209
MOV RAX,qword ptr [RBP + -0x10]
MOV EDX,dword ptr [RAX + 0xd4]
MOV RCX,qword ptr [RBP + -0x18]
MOV R8,qword ptr [RBP + -0x20]
MOV R9,qword ptr [RBP + -0x28]
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0xf8]
OR RAX,0x4
LEA RDI,[0x25de0e]
MOV ESI,0x673
MOV qword ptr [RSP],RAX
CALL 0x001e6390
MOV dword ptr [RBP + -0x4],EAX
JMP 0x001e6387
LAB_001e6209:
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX]
SUB RAX,qword ptr [RBP + -0x28]
MOV EAX,EAX
MOV qword ptr [RBP + -0x30],RAX
MOV RAX,qword ptr [RBP + -0x10]
MOV EDX,dword ptr [RAX + 0xd4]
MOV RCX,qword ptr [RBP + -0x18]
MOV R8,qword ptr [RBP + -0x30]
MOV R9,qword ptr [RBP + -0x28]
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0xf8]
OR RAX,0x4
LEA RDI,[0x25de0e]
MOV ESI,0x676
MOV qword ptr [RSP],RAX
CALL 0x001e6390
CMP RAX,0x0
JZ 0x001e626f
MOV dword ptr [RBP + -0x34],0xffffffff
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0xe4],0xffffffff
LAB_001e626f:
MOV RAX,qword ptr [RBP + -0x30]
ADD RAX,qword ptr [RBP + -0x18]
MOV qword ptr [RBP + -0x18],RAX
MOV RAX,qword ptr [RBP + -0x30]
ADD RAX,qword ptr [RBP + -0x28]
MOV qword ptr [RBP + -0x28],RAX
MOV RCX,qword ptr [RBP + -0x30]
MOV RAX,qword ptr [RBP + -0x20]
SUB RAX,RCX
MOV qword ptr [RBP + -0x20],RAX
LAB_001e6296:
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x48]
MOV RCX,qword ptr [RBP + -0x10]
MOV RCX,qword ptr [RCX + 0x20]
SUB RAX,RCX
MOV qword ptr [RBP + -0x30],RAX
MOV RAX,qword ptr [RBP + -0x28]
MOV RCX,qword ptr [RBP + -0x10]
MOV RCX,qword ptr [RCX]
ADD RCX,qword ptr [RBP + -0x30]
CMP RAX,RCX
JNC 0x001e6364
MOV RAX,qword ptr [RBP + -0x28]
MOV RCX,qword ptr [RBP + -0x10]
SUB RAX,qword ptr [RCX]
MOV qword ptr [RBP + -0x40],RAX
MOV RCX,qword ptr [RBP + -0x40]
MOV RAX,qword ptr [RBP + -0x30]
SUB RAX,RCX
MOV qword ptr [RBP + -0x30],RAX
MOV RAX,qword ptr [RBP + -0x30]
CMP RAX,qword ptr [RBP + -0x20]
JBE 0x001e62f5
MOV RAX,qword ptr [RBP + -0x20]
MOV qword ptr [RBP + -0x30],RAX
LAB_001e62f5:
MOV RAX,qword ptr [RBP + -0x10]
MOV RDI,qword ptr [RAX + 0x20]
ADD RDI,qword ptr [RBP + -0x40]
MOV RSI,qword ptr [RBP + -0x18]
MOV RDX,qword ptr [RBP + -0x30]
CALL 0x0012a0b0
MOV RAX,qword ptr [RBP + -0x30]
ADD RAX,qword ptr [RBP + -0x18]
MOV qword ptr [RBP + -0x18],RAX
MOV RCX,qword ptr [RBP + -0x30]
MOV RAX,qword ptr [RBP + -0x20]
SUB RAX,RCX
MOV qword ptr [RBP + -0x20],RAX
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x20]
ADD RAX,qword ptr [RBP + -0x30]
MOV RCX,qword ptr [RBP + -0x10]
CMP RAX,qword ptr [RCX + 0x40]
JBE 0x001e6353
MOV RAX,qword ptr [RBP + -0x10]
MOV RCX,qword ptr [RAX + 0x20]
ADD RCX,qword ptr [RBP + -0x30]
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX + 0x40],RCX
LAB_001e6353:
CMP qword ptr [RBP + -0x20],0x0
JNZ 0x001e6362
MOV EAX,dword ptr [RBP + -0x34]
MOV dword ptr [RBP + -0x4],EAX
JMP 0x001e6387
LAB_001e6362:
JMP 0x001e6364
LAB_001e6364:
MOV RDI,qword ptr [RBP + -0x10]
MOV RSI,qword ptr [RBP + -0x18]
MOV RDX,qword ptr [RBP + -0x20]
CALL 0x001e5220
CMP EAX,0x0
JZ 0x001e6381
MOV dword ptr [RBP + -0x34],0xffffffff
LAB_001e6381:
MOV EAX,dword ptr [RBP + -0x34]
MOV dword ptr [RBP + -0x4],EAX
LAB_001e6387:
MOV EAX,dword ptr [RBP + -0x4]
ADD RSP,0x50
POP RBP
RET
|
int4 my_block_write(ulong *param_1,void *param_2,ulong param_3,ulong param_4)
{
int4 uVar1;
int iVar2;
long lVar3;
int4 local_3c;
size_t local_38;
ulong local_30;
ulong local_28;
void *local_20;
local_3c = 0;
local_30 = param_4;
local_28 = param_3;
local_20 = param_2;
if (param_4 < *param_1) {
if (param_4 + param_3 <= *param_1) {
uVar1 = inline_mysql_file_pwrite
("/workspace/llm4binary/github2025/eloqsql/mysys/mf_iocache.c",0x673,
*(int4 *)((long)param_1 + 0xd4),param_2,param_3,param_4,
param_1[0x1f] | 4);
return uVar1;
}
local_28 = (ulong)(uint)((int)*param_1 - (int)param_4);
lVar3 = inline_mysql_file_pwrite
("/workspace/llm4binary/github2025/eloqsql/mysys/mf_iocache.c",0x676,
*(int4 *)((long)param_1 + 0xd4),param_2,local_28,param_4,
param_1[0x1f] | 4);
if (lVar3 != 0) {
local_3c = 0xffffffff;
*(int4 *)((long)param_1 + 0xe4) = 0xffffffff;
}
local_20 = (void *)(local_28 + (long)param_2);
local_30 = local_28 + param_4;
local_28 = param_3 - local_28;
}
if (local_30 < *param_1 + (param_1[9] - param_1[4])) {
local_38 = (param_1[9] - param_1[4]) - (local_30 - *param_1);
if (local_28 < local_38) {
local_38 = local_28;
}
memcpy((void *)(param_1[4] + (local_30 - *param_1)),local_20,local_38);
local_20 = (void *)(local_38 + (long)local_20);
local_28 = local_28 - local_38;
if (param_1[8] < param_1[4] + local_38) {
param_1[8] = param_1[4] + local_38;
}
if (local_28 == 0) {
return local_3c;
}
}
iVar2 = _my_b_write(param_1,local_20,local_28);
if (iVar2 != 0) {
local_3c = 0xffffffff;
}
return local_3c;
}
| |
34,465 | js_typed_array_get_length_unsafe | bluesky950520[P]quickjs/quickjs.c | static int js_typed_array_get_length_unsafe(JSContext *ctx, JSValue obj)
{
JSObject *p;
p = get_typed_array(ctx, obj);
if (!p)
return -1;
if (typed_array_is_oob(p)) {
JS_ThrowTypeErrorArrayBufferOOB(ctx);
return -1;
}
return p->u.array.count;
} | O2 | c | js_typed_array_get_length_unsafe:
pushq %r15
pushq %r14
pushq %rbx
movq %rdi, %r14
callq 0x363bb
pushq $-0x1
popq %rbx
testq %rax, %rax
je 0x68a42
movq %rax, %r15
movq %rax, %rdi
callq 0x363e6
testl %eax, %eax
je 0x68a3e
movq %r14, %rdi
callq 0x3644b
jmp 0x68a42
movl 0x40(%r15), %ebx
movl %ebx, %eax
popq %rbx
popq %r14
popq %r15
retq
| js_typed_array_get_length_unsafe:
push r15
push r14
push rbx
mov r14, rdi
call get_typed_array
push 0FFFFFFFFFFFFFFFFh
pop rbx
test rax, rax
jz short loc_68A42
mov r15, rax
mov rdi, rax
call typed_array_is_oob
test eax, eax
jz short loc_68A3E
mov rdi, r14
call JS_ThrowTypeErrorArrayBufferOOB
jmp short loc_68A42
loc_68A3E:
mov ebx, [r15+40h]
loc_68A42:
mov eax, ebx
pop rbx
pop r14
pop r15
retn
| long long js_typed_array_get_length_unsafe(
long long a1,
long long a2,
long long a3,
long long a4,
long long a5,
long long a6,
__m128 a7,
__m128 a8,
__m128 a9,
__m128 a10,
__m128 a11,
__m128 a12,
__m128 a13,
__m128 a14)
{
long long typed_array; // rax
unsigned int v15; // ebx
long long v16; // r15
long long v17; // rdx
long long v18; // rcx
long long v19; // r8
long long v20; // r9
__m128 v21; // xmm4
__m128 v22; // xmm5
char v24; // [rsp+0h] [rbp-18h]
typed_array = get_typed_array(a1, a2, a3, a4, a5, a6, a7, a8, a9, a10, a11, a12, a13, a14);
v15 = -1;
if ( typed_array )
{
v16 = typed_array;
if ( typed_array_is_oob(typed_array) )
JS_ThrowTypeErrorArrayBufferOOB(a1, a7, a8, a9, a10, v21, v22, a13, a14, a2, v17, v18, v19, v20, v24);
else
return *(unsigned int *)(v16 + 64);
}
return v15;
}
| js_typed_array_get_length_unsafe:
PUSH R15
PUSH R14
PUSH RBX
MOV R14,RDI
CALL 0x001363bb
PUSH -0x1
POP RBX
TEST RAX,RAX
JZ 0x00168a42
MOV R15,RAX
MOV RDI,RAX
CALL 0x001363e6
TEST EAX,EAX
JZ 0x00168a3e
MOV RDI,R14
CALL 0x0013644b
JMP 0x00168a42
LAB_00168a3e:
MOV EBX,dword ptr [R15 + 0x40]
LAB_00168a42:
MOV EAX,EBX
POP RBX
POP R14
POP R15
RET
|
int4 js_typed_array_get_length_unsafe(int8 param_1)
{
int iVar1;
long lVar2;
int4 uVar3;
lVar2 = get_typed_array();
uVar3 = 0xffffffff;
if (lVar2 != 0) {
iVar1 = typed_array_is_oob(lVar2);
if (iVar1 == 0) {
uVar3 = *(int4 *)(lVar2 + 0x40);
}
else {
JS_ThrowTypeErrorArrayBufferOOB(param_1);
}
}
return uVar3;
}
| |
34,466 | js_typed_array_get_length_unsafe | bluesky950520[P]quickjs/quickjs.c | static int js_typed_array_get_length_unsafe(JSContext *ctx, JSValue obj)
{
JSObject *p;
p = get_typed_array(ctx, obj);
if (!p)
return -1;
if (typed_array_is_oob(p)) {
JS_ThrowTypeErrorArrayBufferOOB(ctx);
return -1;
}
return p->u.array.count;
} | O3 | c | js_typed_array_get_length_unsafe:
pushq %r14
pushq %rbx
pushq %rax
movq %rdi, %rbx
cmpl $-0x1, %edx
jne 0x7e9d9
movq %rsi, %r14
movzwl 0x6(%rsi), %eax
addl $-0x15, %eax
cmpw $0xc, %ax
jae 0x7e9d9
movq %r14, %rdi
callq 0x3ea25
testl %eax, %eax
je 0x7e9f7
leaq 0x2ac19(%rip), %rsi # 0xa95f0
jmp 0x7e9e0
leaq 0x2abff(%rip), %rsi # 0xa95df
movq %rbx, %rdi
xorl %eax, %eax
callq 0x26d97
movl $0xffffffff, %eax # imm = 0xFFFFFFFF
addq $0x8, %rsp
popq %rbx
popq %r14
retq
movl 0x40(%r14), %eax
jmp 0x7e9ef
| js_typed_array_get_length_unsafe:
push r14
push rbx
push rax
mov rbx, rdi
cmp edx, 0FFFFFFFFh
jnz short loc_7E9D9
mov r14, rsi
movzx eax, word ptr [rsi+6]
add eax, 0FFFFFFEBh
cmp ax, 0Ch
jnb short loc_7E9D9
mov rdi, r14
call typed_array_is_oob
test eax, eax
jz short loc_7E9F7
lea rsi, aArraybufferIsD_0; "ArrayBuffer is detached or resized"
jmp short loc_7E9E0
loc_7E9D9:
lea rsi, aNotATypedarray; "not a TypedArray"
loc_7E9E0:
mov rdi, rbx
xor eax, eax
call JS_ThrowTypeError
mov eax, 0FFFFFFFFh
loc_7E9EF:
add rsp, 8
pop rbx
pop r14
retn
loc_7E9F7:
mov eax, [r14+40h]
jmp short loc_7E9EF
| long long js_typed_array_get_length_unsafe(
long long a1,
long long a2,
long long a3,
long long a4,
long long a5,
long long a6,
__m128 a7,
__m128 a8,
__m128 a9,
__m128 a10,
__m128 a11,
__m128 a12,
__m128 a13,
__m128 a14)
{
char v14; // al
const char *v15; // rsi
char v17; // [rsp-8h] [rbp-18h]
v17 = v14;
if ( (_DWORD)a3 == -1 && (unsigned __int16)(*(_WORD *)(a2 + 6) - 21) < 0xCu )
{
if ( !typed_array_is_oob(a2) )
return *(unsigned int *)(a2 + 64);
v15 = "ArrayBuffer is detached or resized";
}
else
{
v15 = "not a TypedArray";
}
JS_ThrowTypeError(a1, (long long)v15, a3, a4, a5, a6, a7, a8, a9, a10, a11, a12, a13, a14, v17);
return 0xFFFFFFFFLL;
}
| js_typed_array_get_length_unsafe:
PUSH R14
PUSH RBX
PUSH RAX
MOV RBX,RDI
CMP EDX,-0x1
JNZ 0x0017e9d9
MOV R14,RSI
MOVZX EAX,word ptr [RSI + 0x6]
ADD EAX,-0x15
CMP AX,0xc
JNC 0x0017e9d9
MOV RDI,R14
CALL 0x0013ea25
TEST EAX,EAX
JZ 0x0017e9f7
LEA RSI,[0x1a95f0]
JMP 0x0017e9e0
LAB_0017e9d9:
LEA RSI,[0x1a95df]
LAB_0017e9e0:
MOV RDI,RBX
XOR EAX,EAX
CALL 0x00126d97
MOV EAX,0xffffffff
LAB_0017e9ef:
ADD RSP,0x8
POP RBX
POP R14
RET
LAB_0017e9f7:
MOV EAX,dword ptr [R14 + 0x40]
JMP 0x0017e9ef
|
int4 js_typed_array_get_length_unsafe(int8 param_1,long param_2,int param_3)
{
int iVar1;
char *pcVar2;
if ((param_3 == -1) && ((ushort)(*(short *)(param_2 + 6) - 0x15U) < 0xc)) {
iVar1 = typed_array_is_oob(param_2);
if (iVar1 == 0) {
return *(int4 *)(param_2 + 0x40);
}
pcVar2 = "ArrayBuffer is detached or resized";
}
else {
pcVar2 = "not a TypedArray";
}
JS_ThrowTypeError(param_1,pcVar2);
return 0xffffffff;
}
| |
34,467 | get_plugin_nr | eloqsql/build_O0/libmariadb/libmariadb/ma_client_plugin.c | static int get_plugin_nr(uint type)
{
uint i= 0;
for(; valid_plugins[i][1]; i++)
if (valid_plugins[i][0] == type)
return i;
return -1;
} | O0 | c | get_plugin_nr:
pushq %rbp
movq %rsp, %rbp
movl %edi, -0x8(%rbp)
movl $0x0, -0xc(%rbp)
movl -0xc(%rbp), %eax
movl %eax, %ecx
leaq 0x28ac6(%rip), %rax # 0x5edb0
cmpl $0x0, 0x4(%rax,%rcx,8)
je 0x3631a
movl -0xc(%rbp), %eax
movl %eax, %ecx
leaq 0x28ab3(%rip), %rax # 0x5edb0
movl (%rax,%rcx,8), %eax
cmpl -0x8(%rbp), %eax
jne 0x3630d
movl -0xc(%rbp), %eax
movl %eax, -0x4(%rbp)
jmp 0x36321
jmp 0x3630f
movl -0xc(%rbp), %eax
addl $0x1, %eax
movl %eax, -0xc(%rbp)
jmp 0x362de
movl $0xffffffff, -0x4(%rbp) # imm = 0xFFFFFFFF
movl -0x4(%rbp), %eax
popq %rbp
retq
nopw %cs:(%rax,%rax)
| get_plugin_nr:
push rbp
mov rbp, rsp
mov [rbp+var_8], edi
mov [rbp+var_C], 0
loc_362DE:
mov eax, [rbp+var_C]
mov ecx, eax
lea rax, valid_plugins
cmp dword ptr [rax+rcx*8+4], 0
jz short loc_3631A
mov eax, [rbp+var_C]
mov ecx, eax
lea rax, valid_plugins
mov eax, [rax+rcx*8]
cmp eax, [rbp+var_8]
jnz short loc_3630D
mov eax, [rbp+var_C]
mov [rbp+var_4], eax
jmp short loc_36321
loc_3630D:
jmp short $+2
loc_3630F:
mov eax, [rbp+var_C]
add eax, 1
mov [rbp+var_C], eax
jmp short loc_362DE
loc_3631A:
mov [rbp+var_4], 0FFFFFFFFh
loc_36321:
mov eax, [rbp+var_4]
pop rbp
retn
| long long get_plugin_nr(int a1)
{
unsigned int i; // [rsp+0h] [rbp-Ch]
for ( i = 0; valid_plugins[2 * i + 1]; ++i )
{
if ( valid_plugins[2 * i] == a1 )
return i;
}
return (unsigned int)-1;
}
| get_plugin_nr:
PUSH RBP
MOV RBP,RSP
MOV dword ptr [RBP + -0x8],EDI
MOV dword ptr [RBP + -0xc],0x0
LAB_001362de:
MOV EAX,dword ptr [RBP + -0xc]
MOV ECX,EAX
LEA RAX,[0x15edb0]
CMP dword ptr [RAX + RCX*0x8 + 0x4],0x0
JZ 0x0013631a
MOV EAX,dword ptr [RBP + -0xc]
MOV ECX,EAX
LEA RAX,[0x15edb0]
MOV EAX,dword ptr [RAX + RCX*0x8]
CMP EAX,dword ptr [RBP + -0x8]
JNZ 0x0013630d
MOV EAX,dword ptr [RBP + -0xc]
MOV dword ptr [RBP + -0x4],EAX
JMP 0x00136321
LAB_0013630d:
JMP 0x0013630f
LAB_0013630f:
MOV EAX,dword ptr [RBP + -0xc]
ADD EAX,0x1
MOV dword ptr [RBP + -0xc],EAX
JMP 0x001362de
LAB_0013631a:
MOV dword ptr [RBP + -0x4],0xffffffff
LAB_00136321:
MOV EAX,dword ptr [RBP + -0x4]
POP RBP
RET
|
uint get_plugin_nr(int param_1)
{
uint local_14;
local_14 = 0;
while( true ) {
if (*(int *)(valid_plugins + (ulong)local_14 * 8 + 4) == 0) {
return 0xffffffff;
}
if (*(int *)(valid_plugins + (ulong)local_14 * 8) == param_1) break;
local_14 = local_14 + 1;
}
return local_14;
}
| |
34,468 | js_object_fromEntries | bluesky950520[P]quickjs/quickjs.c | static JSValue js_object_fromEntries(JSContext *ctx, JSValue this_val,
int argc, JSValue *argv)
{
JSValue obj, iter, next_method = JS_UNDEFINED;
JSValue iterable;
BOOL done;
/* RequireObjectCoercible() not necessary because it is tested in
JS_GetIterator() by JS_GetProperty() */
iterable = argv[0];
obj = JS_NewObject(ctx);
if (JS_IsException(obj))
return obj;
iter = JS_GetIterator(ctx, iterable, FALSE);
if (JS_IsException(iter))
goto fail;
next_method = JS_GetProperty(ctx, iter, JS_ATOM_next);
if (JS_IsException(next_method))
goto fail;
for(;;) {
JSValue key, value, item;
item = JS_IteratorNext(ctx, iter, next_method, 0, NULL, &done);
if (JS_IsException(item))
goto fail;
if (done) {
JS_FreeValue(ctx, item);
break;
}
key = JS_UNDEFINED;
value = JS_UNDEFINED;
if (!JS_IsObject(item)) {
JS_ThrowTypeErrorNotAnObject(ctx);
goto fail1;
}
key = JS_GetPropertyUint32(ctx, item, 0);
if (JS_IsException(key))
goto fail1;
value = JS_GetPropertyUint32(ctx, item, 1);
if (JS_IsException(value)) {
JS_FreeValue(ctx, key);
goto fail1;
}
if (JS_DefinePropertyValueValue(ctx, obj, key, value,
JS_PROP_C_W_E | JS_PROP_THROW) < 0) {
fail1:
JS_FreeValue(ctx, item);
goto fail;
}
JS_FreeValue(ctx, item);
}
JS_FreeValue(ctx, next_method);
JS_FreeValue(ctx, iter);
return obj;
fail:
if (JS_IsObject(iter)) {
/* close the iterator object, preserving pending exception */
JS_IteratorClose(ctx, iter, TRUE);
}
JS_FreeValue(ctx, next_method);
JS_FreeValue(ctx, iter);
JS_FreeValue(ctx, obj);
return JS_EXCEPTION;
} | O1 | c | js_object_fromEntries:
pushq %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x58, %rsp
movq %rdi, %r15
movq (%r8), %r14
movq 0x8(%r8), %r12
movq 0x40(%rdi), %rax
movq 0x10(%rax), %rsi
movq 0x18(%rax), %rdx
movl $0x1, %ecx
callq 0x20f05
movq %rax, %r13
movq %rdx, %rbx
cmpl $0x6, %ebx
jne 0x70db3
movabsq $-0x100000000, %rax # imm = 0xFFFFFFFF00000000
movq %r13, %rcx
andq %rax, %rcx
jmp 0x70fe5
movq $0x0, 0x8(%rsp)
movq %r15, %rdi
movq %r14, %rsi
movq %r12, %rdx
xorl %ecx, %ecx
callq 0x4180b
movq %rax, %r14
movq %rdx, %r12
movl %r12d, %ebp
cmpq $0x6, %rbp
jne 0x70de9
movl $0x3, %eax
movq %rax, (%rsp)
jmp 0x70f93
movq %r15, %rdi
movq %r14, %rsi
movq %r12, %rdx
movl $0x6b, %ecx
movq %r14, %r8
movq %r12, %r9
pushq $0x0
pushq $0x0
callq 0x22fa3
addq $0x10, %rsp
movq %rax, 0x8(%rsp)
movq %rdx, (%rsp)
cmpl $0x6, %edx
je 0x70f93
movq %rbp, 0x48(%rsp)
movq %rbx, 0x10(%rsp)
movq %r13, 0x18(%rsp)
leaq 0x18(%r15), %rax
movq %rax, 0x50(%rsp)
movq %r15, %rdi
movq %r14, %rbx
movq %r14, %rsi
movq %r12, %rdx
movq 0x8(%rsp), %rcx
movq (%rsp), %r8
xorl %r9d, %r9d
leaq 0x24(%rsp), %rax
pushq %rax
pushq $0x0
callq 0x41afc
addq $0x10, %rsp
movq %rax, %rbp
movq %rdx, %r14
movl %r14d, %eax
movl $0x2, %r13d
cmpq $0x6, %rax
je 0x70f20
movl $0x3, %r13d
cmpl $0x0, 0x24(%rsp)
jne 0x70f0d
movl $0x0, 0x38(%rsp)
movq $0x3, 0x40(%rsp)
movq %r15, %rdi
cmpl $-0x1, %eax
jne 0x70ef9
movq %rbp, %rsi
movq %r14, %rdx
xorl %ecx, %ecx
callq 0x241b4
movl $0x2, %r13d
cmpl $0x6, %edx
je 0x70f0d
movq %rax, 0x28(%rsp)
movq %rdx, 0x30(%rsp)
movl $0x1, %ecx
movq %r15, %rdi
movq %rbp, %rsi
movq %r14, %rdx
callq 0x241b4
movq %rax, 0x38(%rsp)
movq %rdx, 0x40(%rsp)
cmpl $0x6, %edx
jne 0x70f2e
movq 0x18(%r15), %rdi
movq 0x28(%rsp), %rsi
movq 0x30(%rsp), %rdx
callq 0x1d8c6
jmp 0x70f0d
leaq 0x2e125(%rip), %rsi # 0x9f025
xorl %eax, %eax
callq 0x22567
movl $0x2, %r13d
movq 0x50(%rsp), %rax
movq (%rax), %rdi
movq %rbp, %rsi
movq %r14, %rdx
callq 0x1d8c6
testl %r13d, %r13d
movq %rbx, %r14
je 0x70e34
jmp 0x70f70
subq $0x10, %rsp
movups 0x48(%rsp), %xmm0
movups %xmm0, (%rsp)
movq %r15, %rdi
movq 0x28(%rsp), %rsi
movq 0x20(%rsp), %rdx
movq 0x38(%rsp), %rcx
movq 0x40(%rsp), %r8
movl $0x4007, %r9d # imm = 0x4007
callq 0x26b2d
addq $0x10, %rsp
movl %eax, %r13d
testl %eax, %eax
shrl $0x1e, %r13d
andl $-0x2, %r13d
jmp 0x70f0d
cmpl $0x1, %r13d
je 0x70ffd
cmpl $0x2, %r13d
jne 0x71004
movq 0x18(%rsp), %r13
movq 0x10(%rsp), %rbx
movq 0x48(%rsp), %rbp
cmpl $-0x1, %ebp
jne 0x70fab
movq %r15, %rdi
movq %r14, %rsi
movq %r12, %rdx
movl $0x1, %ecx
callq 0x3faa9
movq 0x18(%r15), %rdi
movq 0x8(%rsp), %rsi
movq (%rsp), %rdx
callq 0x1d8c6
movq 0x18(%r15), %rdi
movq %r14, %rsi
movq %r12, %rdx
callq 0x1d8c6
movq 0x18(%r15), %rdi
movq %r13, %rsi
movq %rbx, %rdx
callq 0x1d8c6
movl $0x6, %ebx
xorl %r13d, %r13d
xorl %ecx, %ecx
movl %r13d, %eax
orq %rcx, %rax
movq %rbx, %rdx
addq $0x58, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
xorl %r13d, %r13d
xorl %ecx, %ecx
jmp 0x70fe5
movq 0x18(%rsp), %r13
movq 0x10(%rsp), %rbx
movq 0x18(%r15), %rdi
movq 0x8(%rsp), %rsi
movq (%rsp), %rdx
callq 0x1d8c6
movq 0x18(%r15), %rdi
movq %r14, %rsi
movq %r12, %rdx
callq 0x1d8c6
jmp 0x70d9e
| js_object_fromEntries:
push rbp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 58h
mov r15, rdi
mov r14, [r8]
mov r12, [r8+8]
mov rax, [rdi+40h]
mov rsi, [rax+10h]
mov rdx, [rax+18h]
mov ecx, 1
call JS_NewObjectProtoClass
mov r13, rax
mov rbx, rdx
cmp ebx, 6
jnz short loc_70DB3
loc_70D9E:
mov rax, 0FFFFFFFF00000000h
mov rcx, r13
and rcx, rax
jmp loc_70FE5
loc_70DB3:
mov [rsp+88h+var_80], 0
mov rdi, r15
mov rsi, r14
mov rdx, r12
xor ecx, ecx
call JS_GetIterator
mov r14, rax
mov r12, rdx
mov ebp, r12d
cmp rbp, 6
jnz short loc_70DE9
mov eax, 3
mov [rsp+88h+var_88], rax
jmp loc_70F93
loc_70DE9:
mov rdi, r15
mov rsi, r14
mov rdx, r12
mov ecx, 6Bh ; 'k'
mov r8, r14
mov r9, r12
push 0
push 0
call JS_GetPropertyInternal2
add rsp, 10h
mov [rsp+88h+var_80], rax
mov [rsp+88h+var_88], rdx
cmp edx, 6
jz loc_70F93
mov [rsp+88h+var_40], rbp
mov [rsp+88h+var_78], rbx
mov [rsp+88h+var_70], r13
lea rax, [r15+18h]
mov [rsp+88h+var_38], rax
loc_70E34:
mov rdi, r15
mov rbx, r14
mov rsi, r14
mov rdx, r12
mov rcx, [rsp+88h+var_80]
mov r8, [rsp+88h+var_88]
xor r9d, r9d
lea rax, [rsp+88h+var_64]
push rax
push 0
call JS_IteratorNext
add rsp, 10h
mov rbp, rax
mov r14, rdx
mov eax, r14d
mov r13d, 2
cmp rax, 6
jz loc_70F20
mov r13d, 3
cmp [rsp+88h+var_64], 0
jnz loc_70F0D
mov dword ptr [rsp+88h+var_50], 0
mov qword ptr [rsp+88h+var_50+8], 3
mov rdi, r15
cmp eax, 0FFFFFFFFh
jnz short loc_70EF9
mov rsi, rbp
mov rdx, r14
xor ecx, ecx
call JS_GetPropertyInt64
mov r13d, 2
cmp edx, 6
jz short loc_70F0D
mov [rsp+88h+var_60], rax
mov [rsp+88h+var_58], rdx
mov ecx, 1
mov rdi, r15
mov rsi, rbp
mov rdx, r14
call JS_GetPropertyInt64
mov qword ptr [rsp+88h+var_50], rax
mov qword ptr [rsp+88h+var_50+8], rdx
cmp edx, 6
jnz short loc_70F2E
mov rdi, [r15+18h]
mov rsi, [rsp+88h+var_60]
mov rdx, [rsp+88h+var_58]
call JS_FreeValueRT
jmp short loc_70F0D
loc_70EF9:
lea rsi, aOperandPrototy+20h; "not an object"
xor eax, eax
call JS_ThrowTypeError
mov r13d, 2
loc_70F0D:
mov rax, [rsp+88h+var_38]
mov rdi, [rax]
mov rsi, rbp
mov rdx, r14
call JS_FreeValueRT
loc_70F20:
test r13d, r13d
mov r14, rbx
jz loc_70E34
jmp short loc_70F70
loc_70F2E:
sub rsp, 10h
movups xmm0, [rsp+98h+var_50]
movups [rsp+98h+var_98], xmm0
mov rdi, r15
mov rsi, [rsp+98h+var_70]
mov rdx, [rsp+98h+var_78]
mov rcx, [rsp+98h+var_60]
mov r8, [rsp+98h+var_58]
mov r9d, 4007h
call JS_DefinePropertyValueValue
add rsp, 10h
mov r13d, eax
test eax, eax
shr r13d, 1Eh
and r13d, 0FFFFFFFEh
jmp short loc_70F0D
loc_70F70:
cmp r13d, 1
jz loc_70FFD
cmp r13d, 2
jnz loc_71004
mov r13, [rsp+88h+var_70]
mov rbx, [rsp+88h+var_78]
mov rbp, [rsp+88h+var_40]
loc_70F93:
cmp ebp, 0FFFFFFFFh
jnz short loc_70FAB
mov rdi, r15
mov rsi, r14
mov rdx, r12
mov ecx, 1
call JS_IteratorClose
loc_70FAB:
mov rdi, [r15+18h]
mov rsi, [rsp+88h+var_80]
mov rdx, [rsp+88h+var_88]
call JS_FreeValueRT
mov rdi, [r15+18h]
mov rsi, r14
mov rdx, r12
call JS_FreeValueRT
mov rdi, [r15+18h]
mov rsi, r13
mov rdx, rbx
call JS_FreeValueRT
mov ebx, 6
xor r13d, r13d
xor ecx, ecx
loc_70FE5:
mov eax, r13d
or rax, rcx
mov rdx, rbx
add rsp, 58h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
loc_70FFD:
xor r13d, r13d
xor ecx, ecx
jmp short loc_70FE5
loc_71004:
mov r13, [rsp+88h+var_70]
mov rbx, [rsp+88h+var_78]
mov rdi, [r15+18h]
mov rsi, [rsp+88h+var_80]
mov rdx, [rsp+88h+var_88]
call JS_FreeValueRT
mov rdi, [r15+18h]
mov rsi, r14
mov rdx, r12
call JS_FreeValueRT
jmp loc_70D9E
| unsigned long long js_object_fromEntries(
long long a1,
__m128 a2,
__m128 a3,
__m128 a4,
__m128 a5,
double a6,
double a7,
__m128 a8,
__m128 a9,
long long a10,
long long a11,
long long a12,
long long *a13)
{
long long v13; // r14
long long v14; // r12
long long v15; // r13
double v16; // xmm4_8
double v17; // xmm5_8
long long v18; // rdx
long long v19; // rbx
unsigned long long v20; // rcx
_DWORD *Iterator; // rax
long long v22; // rdx
__m128 v23; // xmm4
__m128 v24; // xmm5
_DWORD *v25; // r14
long long v26; // r12
long long v27; // rbp
long long v28; // rdx
_DWORD *v29; // rbx
long long v30; // rdx
long long v31; // rcx
_DWORD *v32; // rbp
long long v33; // r8
long long v34; // r9
long long v35; // r14
unsigned int v36; // r13d
_DWORD *PropertyInt64; // rax
long long v38; // rdx
__m128 v39; // rax
double v40; // xmm4_8
double v41; // xmm5_8
long long v43; // [rsp+10h] [rbp-88h]
_DWORD *PropertyInternal2; // [rsp+18h] [rbp-80h]
long long v45; // [rsp+20h] [rbp-78h]
unsigned long long v46; // [rsp+28h] [rbp-70h]
int v47; // [rsp+34h] [rbp-64h] BYREF
_DWORD *v48; // [rsp+38h] [rbp-60h]
long long v49; // [rsp+40h] [rbp-58h]
__m128 v50; // [rsp+48h] [rbp-50h]
long long v51; // [rsp+58h] [rbp-40h]
long long *v52; // [rsp+60h] [rbp-38h]
v13 = *a13;
v14 = a13[1];
v15 = JS_NewObjectProtoClass(
a1,
*(_QWORD *)(*(_QWORD *)(a1 + 64) + 16LL),
*(_QWORD *)(*(_QWORD *)(a1 + 64) + 24LL),
1u);
v19 = v18;
if ( (_DWORD)v18 == 6 )
goto LABEL_2;
PropertyInternal2 = 0LL;
Iterator = JS_GetIterator(a1, v13, v14, 0, a2, a3, a4, a5, v16, v17, a8, a9);
v25 = Iterator;
v26 = v22;
v27 = (unsigned int)v22;
if ( (unsigned int)v22 == 6LL )
{
v43 = 3LL;
}
else
{
PropertyInternal2 = (_DWORD *)JS_GetPropertyInternal2(
a1,
(long long)Iterator,
v22,
0x6Bu,
(long long)Iterator,
v22,
0LL,
0);
v43 = v28;
if ( (_DWORD)v28 != 6 )
{
v51 = v27;
v45 = v19;
v46 = v15;
v52 = (long long *)(a1 + 24);
do
{
v29 = v25;
v32 = (_DWORD *)JS_IteratorNext(a1, (int)v25, v26, (int)PropertyInternal2, v43, 0, 0LL, &v47);
v35 = v30;
v36 = 2;
if ( (unsigned int)v30 != 6LL )
{
v36 = 3;
if ( !v47 )
{
v50.m128_i32[0] = 0;
v50.m128_u64[1] = 3LL;
if ( (_DWORD)v30 == -1 )
{
PropertyInt64 = (_DWORD *)JS_GetPropertyInt64(a1, (long long)v32, v30, 0LL);
v36 = 2;
if ( (_DWORD)v38 != 6 )
{
v48 = PropertyInt64;
v49 = v38;
v39.m128_u64[0] = JS_GetPropertyInt64(a1, (long long)v32, v35, 1uLL);
v50 = v39;
if ( v39.m128_i32[2] == 6 )
{
JS_FreeValueRT(*(_QWORD *)(a1 + 24), v48, v49);
}
else
{
a2 = v50;
v36 = ((unsigned int)JS_DefinePropertyValueValue(
a1,
v46,
v45,
v48,
v49,
16391,
*(double *)v50.m128_u64,
a3,
a4,
a5,
v40,
v41,
a8,
a9,
v50.m128_u64[0],
v50.m128_i64[1]) >> 30) & 0xFFFFFFFE;
}
}
}
else
{
JS_ThrowTypeError(a1, (long long)"not an object", v30, v31, v33, v34, a2, a3, a4, a5, v23, v24, a8, a9, v43);
v36 = 2;
}
}
JS_FreeValueRT(*v52, v32, v35);
}
v25 = v29;
}
while ( !v36 );
if ( v36 == 1 )
{
LODWORD(v15) = 0;
v20 = 0LL;
return v20 | (unsigned int)v15;
}
if ( v36 != 2 )
{
v15 = v46;
JS_FreeValueRT(*(_QWORD *)(a1 + 24), PropertyInternal2, v43);
JS_FreeValueRT(*(_QWORD *)(a1 + 24), v29, v26);
LABEL_2:
v20 = v15 & 0xFFFFFFFF00000000LL;
return v20 | (unsigned int)v15;
}
v15 = v46;
v19 = v45;
LODWORD(v27) = v51;
}
}
if ( (_DWORD)v27 == -1 )
JS_IteratorClose(a1, (long long)v25, v26, 1, a2, a3, a4, a5, *(double *)v23.m128_u64, *(double *)v24.m128_u64, a8, a9);
JS_FreeValueRT(*(_QWORD *)(a1 + 24), PropertyInternal2, v43);
JS_FreeValueRT(*(_QWORD *)(a1 + 24), v25, v26);
JS_FreeValueRT(*(_QWORD *)(a1 + 24), (_DWORD *)v15, v19);
LODWORD(v15) = 0;
v20 = 0LL;
return v20 | (unsigned int)v15;
}
| js_object_fromEntries:
PUSH RBP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x58
MOV R15,RDI
MOV R14,qword ptr [R8]
MOV R12,qword ptr [R8 + 0x8]
MOV RAX,qword ptr [RDI + 0x40]
MOV RSI,qword ptr [RAX + 0x10]
MOV RDX,qword ptr [RAX + 0x18]
MOV ECX,0x1
CALL 0x00120f05
MOV R13,RAX
MOV RBX,RDX
CMP EBX,0x6
JNZ 0x00170db3
LAB_00170d9e:
MOV RAX,-0x100000000
MOV RCX,R13
AND RCX,RAX
JMP 0x00170fe5
LAB_00170db3:
MOV qword ptr [RSP + 0x8],0x0
MOV RDI,R15
MOV RSI,R14
MOV RDX,R12
XOR ECX,ECX
CALL 0x0014180b
MOV R14,RAX
MOV R12,RDX
MOV EBP,R12D
CMP RBP,0x6
JNZ 0x00170de9
MOV EAX,0x3
MOV qword ptr [RSP],RAX
JMP 0x00170f93
LAB_00170de9:
MOV RDI,R15
MOV RSI,R14
MOV RDX,R12
MOV ECX,0x6b
MOV R8,R14
MOV R9,R12
PUSH 0x0
PUSH 0x0
CALL 0x00122fa3
ADD RSP,0x10
MOV qword ptr [RSP + 0x8],RAX
MOV qword ptr [RSP],RDX
CMP EDX,0x6
JZ 0x00170f93
MOV qword ptr [RSP + 0x48],RBP
MOV qword ptr [RSP + 0x10],RBX
MOV qword ptr [RSP + 0x18],R13
LEA RAX,[R15 + 0x18]
MOV qword ptr [RSP + 0x50],RAX
LAB_00170e34:
MOV RDI,R15
MOV RBX,R14
MOV RSI,R14
MOV RDX,R12
MOV RCX,qword ptr [RSP + 0x8]
MOV R8,qword ptr [RSP]
XOR R9D,R9D
LEA RAX,[RSP + 0x24]
PUSH RAX
PUSH 0x0
CALL 0x00141afc
ADD RSP,0x10
MOV RBP,RAX
MOV R14,RDX
MOV EAX,R14D
MOV R13D,0x2
CMP RAX,0x6
JZ 0x00170f20
MOV R13D,0x3
CMP dword ptr [RSP + 0x24],0x0
JNZ 0x00170f0d
MOV dword ptr [RSP + 0x38],0x0
MOV qword ptr [RSP + 0x40],0x3
MOV RDI,R15
CMP EAX,-0x1
JNZ 0x00170ef9
MOV RSI,RBP
MOV RDX,R14
XOR ECX,ECX
CALL 0x001241b4
MOV R13D,0x2
CMP EDX,0x6
JZ 0x00170f0d
MOV qword ptr [RSP + 0x28],RAX
MOV qword ptr [RSP + 0x30],RDX
MOV ECX,0x1
MOV RDI,R15
MOV RSI,RBP
MOV RDX,R14
CALL 0x001241b4
MOV qword ptr [RSP + 0x38],RAX
MOV qword ptr [RSP + 0x40],RDX
CMP EDX,0x6
JNZ 0x00170f2e
MOV RDI,qword ptr [R15 + 0x18]
MOV RSI,qword ptr [RSP + 0x28]
MOV RDX,qword ptr [RSP + 0x30]
CALL 0x0011d8c6
JMP 0x00170f0d
LAB_00170ef9:
LEA RSI,[0x19f025]
XOR EAX,EAX
CALL 0x00122567
MOV R13D,0x2
LAB_00170f0d:
MOV RAX,qword ptr [RSP + 0x50]
MOV RDI,qword ptr [RAX]
MOV RSI,RBP
MOV RDX,R14
CALL 0x0011d8c6
LAB_00170f20:
TEST R13D,R13D
MOV R14,RBX
JZ 0x00170e34
JMP 0x00170f70
LAB_00170f2e:
SUB RSP,0x10
MOVUPS XMM0,xmmword ptr [RSP + 0x48]
MOVUPS xmmword ptr [RSP],XMM0
MOV RDI,R15
MOV RSI,qword ptr [RSP + 0x28]
MOV RDX,qword ptr [RSP + 0x20]
MOV RCX,qword ptr [RSP + 0x38]
MOV R8,qword ptr [RSP + 0x40]
MOV R9D,0x4007
CALL 0x00126b2d
ADD RSP,0x10
MOV R13D,EAX
TEST EAX,EAX
SHR R13D,0x1e
AND R13D,0xfffffffe
JMP 0x00170f0d
LAB_00170f70:
CMP R13D,0x1
JZ 0x00170ffd
CMP R13D,0x2
JNZ 0x00171004
MOV R13,qword ptr [RSP + 0x18]
MOV RBX,qword ptr [RSP + 0x10]
MOV RBP,qword ptr [RSP + 0x48]
LAB_00170f93:
CMP EBP,-0x1
JNZ 0x00170fab
MOV RDI,R15
MOV RSI,R14
MOV RDX,R12
MOV ECX,0x1
CALL 0x0013faa9
LAB_00170fab:
MOV RDI,qword ptr [R15 + 0x18]
MOV RSI,qword ptr [RSP + 0x8]
MOV RDX,qword ptr [RSP]
CALL 0x0011d8c6
MOV RDI,qword ptr [R15 + 0x18]
MOV RSI,R14
MOV RDX,R12
CALL 0x0011d8c6
MOV RDI,qword ptr [R15 + 0x18]
MOV RSI,R13
MOV RDX,RBX
CALL 0x0011d8c6
MOV EBX,0x6
XOR R13D,R13D
XOR ECX,ECX
LAB_00170fe5:
MOV EAX,R13D
OR RAX,RCX
MOV RDX,RBX
ADD RSP,0x58
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
LAB_00170ffd:
XOR R13D,R13D
XOR ECX,ECX
JMP 0x00170fe5
LAB_00171004:
MOV R13,qword ptr [RSP + 0x18]
MOV RBX,qword ptr [RSP + 0x10]
MOV RDI,qword ptr [R15 + 0x18]
MOV RSI,qword ptr [RSP + 0x8]
MOV RDX,qword ptr [RSP]
CALL 0x0011d8c6
MOV RDI,qword ptr [R15 + 0x18]
MOV RSI,R14
MOV RDX,R12
CALL 0x0011d8c6
JMP 0x00170d9e
|
int1 [16] js_object_fromEntries(long param_1)
{
int8 uVar1;
uint uVar2;
ulong uVar3;
int8 uVar4;
ulong uVar5;
ulong uVar7;
int iVar8;
int8 *in_R8;
int1 auVar9 [16];
int1 auVar10 [16];
int1 auVar11 [16];
int8 local_88;
int8 local_80;
int local_64;
int1 local_60 [16];
int1 local_50 [16];
ulong local_40;
int8 *local_38;
ulong uVar6;
uVar4 = *in_R8;
uVar1 = in_R8[1];
auVar9 = JS_NewObjectProtoClass
(param_1,*(int8 *)(*(long *)(param_1 + 0x40) + 0x10),
*(int8 *)(*(long *)(param_1 + 0x40) + 0x18),1);
uVar5 = auVar9._0_8_;
if (auVar9._8_4_ == 6) {
LAB_00170d9e:
uVar5 = uVar5 & 0xffffffff00000000;
}
else {
auVar10 = JS_GetIterator(param_1,uVar4,uVar1,0);
uVar6 = auVar10._8_8_;
uVar3 = auVar10._0_8_;
iVar8 = auVar10._8_4_;
if ((uVar6 & 0xffffffff) == 6) {
auVar10 = ZEXT816(3) << 0x40;
}
else {
auVar10 = JS_GetPropertyInternal2(param_1,uVar3,uVar6,0x6b,uVar3,uVar6,0,0);
if (auVar10._8_4_ != 6) {
local_38 = (int8 *)(param_1 + 0x18);
local_40 = uVar6 & 0xffffffff;
do {
auVar11 = JS_IteratorNext(param_1,uVar3,uVar6,auVar10._0_8_,auVar10._8_8_,0,0,&local_64);
uVar7 = auVar11._8_8_;
uVar4 = auVar11._0_8_;
uVar2 = 2;
if ((uVar7 & 0xffffffff) != 6) {
uVar2 = 3;
if (local_64 == 0) {
local_50._0_8_ = local_50._0_8_ & 0xffffffff00000000;
local_50._8_8_ = 3;
if (auVar11._8_4_ == -1) {
auVar11 = JS_GetPropertyInt64(param_1,uVar4,uVar7,0);
uVar2 = 2;
if (auVar11._8_4_ != 6) {
local_60 = auVar11;
local_50 = JS_GetPropertyInt64(param_1,uVar4,uVar7,1);
if (local_50._8_4_ == 6) {
JS_FreeValueRT(*(int8 *)(param_1 + 0x18),local_60._0_8_,local_60._8_8_);
}
else {
uVar2 = JS_DefinePropertyValueValue
(param_1,uVar5,auVar9._8_8_,local_60._0_8_,local_60._8_8_,
0x4007,local_50);
uVar2 = uVar2 >> 0x1e & 0xfffffffe;
}
}
}
else {
JS_ThrowTypeError(param_1,"not an object");
uVar2 = 2;
}
}
JS_FreeValueRT(*local_38,uVar4,uVar7);
}
} while (uVar2 == 0);
if (uVar2 == 1) {
auVar9._8_8_ = 0;
auVar9._0_8_ = uVar3;
auVar9 = auVar9 << 0x40;
uVar5 = 0;
goto LAB_00170fe5;
}
if (uVar2 != 2) {
JS_FreeValueRT(*(int8 *)(param_1 + 0x18),auVar10._0_8_,auVar10._8_8_);
JS_FreeValueRT(*(int8 *)(param_1 + 0x18),uVar3,uVar6);
goto LAB_00170d9e;
}
iVar8 = (int)local_40;
}
}
local_88 = auVar10._8_8_;
local_80 = auVar10._0_8_;
if (iVar8 == -1) {
JS_IteratorClose(param_1,uVar3,uVar6,1);
}
JS_FreeValueRT(*(int8 *)(param_1 + 0x18),local_80,local_88);
JS_FreeValueRT(*(int8 *)(param_1 + 0x18),uVar3,uVar6);
JS_FreeValueRT(*(int8 *)(param_1 + 0x18),uVar5,auVar9._8_8_);
auVar9 = ZEXT816(6) << 0x40;
uVar5 = 0;
}
LAB_00170fe5:
auVar10._0_8_ = auVar9._0_8_ & 0xffffffff | uVar5;
auVar10._8_8_ = auVar9._8_8_;
return auVar10;
}
| |
34,469 | my_thread_init | eloqsql/mysys/my_thr_init.c | my_bool my_thread_init(void)
{
struct st_my_thread_var *tmp;
my_bool error=0;
if (!my_thread_global_init_done)
return 1; /* cannot proceed with uninitialized library */
#ifdef EXTRA_DEBUG_THREADS
fprintf(stderr,"my_thread_init(): pthread_self: %p\n", pthread_self());
#endif
if (my_thread_var)
{
#ifdef EXTRA_DEBUG_THREADS
fprintf(stderr,"my_thread_init() called more than once in thread 0x%lx\n",
(long) pthread_self());
#endif
goto end;
}
#ifdef _MSC_VER
install_sigabrt_handler();
#endif
if (!(tmp= (struct st_my_thread_var *) calloc(1, sizeof(*tmp))))
{
error= 1;
goto end;
}
set_mysys_var(tmp);
tmp->pthread_self= pthread_self();
my_thread_init_thr_mutex(tmp);
tmp->stack_ends_here= (char*)&tmp +
STACK_DIRECTION * (long)my_thread_stack_size;
mysql_mutex_lock(&THR_LOCK_threads);
tmp->id= tmp->dbug_id= ++thread_id;
++THR_thread_count;
mysql_mutex_unlock(&THR_LOCK_threads);
tmp->init= 1;
#ifndef DBUG_OFF
/* Generate unique name for thread */
(void) my_thread_name();
#endif
end:
return error;
} | O0 | c | my_thread_init:
pushq %rbp
movq %rsp, %rbp
subq $0x20, %rsp
movb $0x0, -0x11(%rbp)
cmpb $0x0, 0x35dfed(%rip) # 0x38ddf0
jne 0x2fe0e
movb $0x1, -0x1(%rbp)
jmp 0x2fef7
callq 0x2fcb0
cmpq $0x0, %rax
je 0x2fe1e
jmp 0x2fef1
movl $0x1, %edi
movl $0xf0, %esi
callq 0x241c0
movq %rax, -0x10(%rbp)
cmpq $0x0, %rax
jne 0x2fe40
movb $0x1, -0x11(%rbp)
jmp 0x2fef1
movq -0x10(%rbp), %rdi
callq 0x30160
callq 0x24220
movq %rax, %rcx
movq -0x10(%rbp), %rax
movq %rcx, 0xc8(%rax)
movq -0x10(%rbp), %rdi
callq 0x2fd00
leaq 0x1a5704(%rip), %rax # 0x1d5570
movq (%rax), %rax
shlq $0x0, %rax
leaq -0x10(%rbp), %rcx
addq %rax, %rcx
movq -0x10(%rbp), %rax
movq %rcx, 0xb8(%rax)
leaq 0x35de9c(%rip), %rdi # 0x38dd28
leaq 0x50664(%rip), %rsi # 0x804f7
movl $0x12e, %edx # imm = 0x12E
callq 0x30010
movq 0x35df54(%rip), %rcx # 0x38ddf8
addq $0x1, %rcx
movq %rcx, 0x35df49(%rip) # 0x38ddf8
movq -0x10(%rbp), %rax
movq %rcx, 0xd8(%rax)
movq -0x10(%rbp), %rax
movq %rcx, 0xd0(%rax)
leaq 0x35dc5c(%rip), %rax # 0x38db28
movl (%rax), %ecx
addl $0x1, %ecx
leaq 0x35dc50(%rip), %rax # 0x38db28
movl %ecx, (%rax)
leaq 0x35de47(%rip), %rdi # 0x38dd28
callq 0x30100
movq -0x10(%rbp), %rax
movb $0x1, 0xe8(%rax)
movb -0x11(%rbp), %al
movb %al, -0x1(%rbp)
movb -0x1(%rbp), %al
addq $0x20, %rsp
popq %rbp
retq
| my_thread_init:
push rbp
mov rbp, rsp
sub rsp, 20h
mov [rbp+var_11], 0
cmp cs:my_thread_global_init_done, 0
jnz short loc_2FE0E
mov [rbp+var_1], 1
jmp loc_2FEF7
loc_2FE0E:
call _my_thread_var
cmp rax, 0
jz short loc_2FE1E
jmp loc_2FEF1
loc_2FE1E:
mov edi, 1
mov esi, 0F0h
call _calloc
mov [rbp+var_10], rax
cmp rax, 0
jnz short loc_2FE40
mov [rbp+var_11], 1
jmp loc_2FEF1
loc_2FE40:
mov rdi, [rbp+var_10]
call set_mysys_var
call _pthread_self
mov rcx, rax
mov rax, [rbp+var_10]
mov [rax+0C8h], rcx
mov rdi, [rbp+var_10]
call my_thread_init_thr_mutex
lea rax, my_thread_stack_size
mov rax, [rax]
shl rax, 0
lea rcx, [rbp+var_10]
add rcx, rax
mov rax, [rbp+var_10]
mov [rax+0B8h], rcx
lea rdi, THR_LOCK_threads
lea rsi, aWorkspaceLlm4b_0; "/workspace/llm4binary/github2025/eloqsq"...
mov edx, 12Eh
call inline_mysql_mutex_lock
mov rcx, cs:thread_id
add rcx, 1
mov cs:thread_id, rcx
mov rax, [rbp+var_10]
mov [rax+0D8h], rcx
mov rax, [rbp+var_10]
mov [rax+0D0h], rcx
lea rax, THR_thread_count
mov ecx, [rax]
add ecx, 1
lea rax, THR_thread_count
mov [rax], ecx
lea rdi, THR_LOCK_threads
call inline_mysql_mutex_unlock
mov rax, [rbp+var_10]
mov byte ptr [rax+0E8h], 1
loc_2FEF1:
mov al, [rbp+var_11]
mov [rbp+var_1], al
loc_2FEF7:
mov al, [rbp+var_1]
add rsp, 20h
pop rbp
retn
| char my_thread_init()
{
long long v0; // rcx
char v2; // [rsp+Fh] [rbp-11h]
long long v3; // [rsp+10h] [rbp-10h] BYREF
v2 = 0;
if ( !my_thread_global_init_done )
return 1;
if ( !my_thread_var() )
{
v3 = calloc(1LL, 240LL);
if ( v3 )
{
set_mysys_var(v3);
*(_QWORD *)(v3 + 200) = pthread_self();
my_thread_init_thr_mutex(v3);
*(_QWORD *)(v3 + 184) = (char *)&v3 + (_QWORD)my_thread_stack_size;
inline_mysql_mutex_lock(&THR_LOCK_threads, "/workspace/llm4binary/github2025/eloqsql/mysys/my_thr_init.c", 302LL);
v0 = thread_id + 1;
thread_id = v0;
*(_QWORD *)(v3 + 216) = v0;
*(_QWORD *)(v3 + 208) = v0;
++THR_thread_count;
inline_mysql_mutex_unlock(&THR_LOCK_threads);
*(_BYTE *)(v3 + 232) = 1;
}
else
{
return 1;
}
}
return v2;
}
| my_thread_init:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x20
MOV byte ptr [RBP + -0x11],0x0
CMP byte ptr [0x0048ddf0],0x0
JNZ 0x0012fe0e
MOV byte ptr [RBP + -0x1],0x1
JMP 0x0012fef7
LAB_0012fe0e:
CALL 0x0012fcb0
CMP RAX,0x0
JZ 0x0012fe1e
JMP 0x0012fef1
LAB_0012fe1e:
MOV EDI,0x1
MOV ESI,0xf0
CALL 0x001241c0
MOV qword ptr [RBP + -0x10],RAX
CMP RAX,0x0
JNZ 0x0012fe40
MOV byte ptr [RBP + -0x11],0x1
JMP 0x0012fef1
LAB_0012fe40:
MOV RDI,qword ptr [RBP + -0x10]
CALL 0x00130160
CALL 0x00124220
MOV RCX,RAX
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX + 0xc8],RCX
MOV RDI,qword ptr [RBP + -0x10]
CALL 0x0012fd00
LEA RAX,[0x2d5570]
MOV RAX,qword ptr [RAX]
SHL RAX,0x0
LEA RCX,[RBP + -0x10]
ADD RCX,RAX
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX + 0xb8],RCX
LEA RDI,[0x48dd28]
LEA RSI,[0x1804f7]
MOV EDX,0x12e
CALL 0x00130010
MOV RCX,qword ptr [0x0048ddf8]
ADD RCX,0x1
MOV qword ptr [0x0048ddf8],RCX
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX + 0xd8],RCX
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX + 0xd0],RCX
LEA RAX,[0x48db28]
MOV ECX,dword ptr [RAX]
ADD ECX,0x1
LEA RAX,[0x48db28]
MOV dword ptr [RAX],ECX
LEA RDI,[0x48dd28]
CALL 0x00130100
MOV RAX,qword ptr [RBP + -0x10]
MOV byte ptr [RAX + 0xe8],0x1
LAB_0012fef1:
MOV AL,byte ptr [RBP + -0x11]
MOV byte ptr [RBP + -0x1],AL
LAB_0012fef7:
MOV AL,byte ptr [RBP + -0x1]
ADD RSP,0x20
POP RBP
RET
|
int1 my_thread_init(void)
{
long lVar1;
pthread_t pVar2;
int1 local_19;
void *local_18;
int1 local_9;
local_19 = 0;
if (my_thread_global_init_done == '\0') {
local_9 = 1;
}
else {
lVar1 = _my_thread_var();
if (lVar1 == 0) {
local_18 = calloc(1,0xf0);
if (local_18 == (void *)0x0) {
local_19 = 1;
}
else {
set_mysys_var(local_18);
pVar2 = pthread_self();
*(pthread_t *)((long)local_18 + 200) = pVar2;
my_thread_init_thr_mutex(local_18);
*(long *)((long)local_18 + 0xb8) = (long)&local_18 + my_thread_stack_size;
inline_mysql_mutex_lock
(THR_LOCK_threads,"/workspace/llm4binary/github2025/eloqsql/mysys/my_thr_init.c",
0x12e);
lVar1 = thread_id + 1;
thread_id = lVar1;
*(long *)((long)local_18 + 0xd8) = lVar1;
*(long *)((long)local_18 + 0xd0) = lVar1;
THR_thread_count = THR_thread_count + 1;
inline_mysql_mutex_unlock(THR_LOCK_threads);
*(int1 *)((long)local_18 + 0xe8) = 1;
}
}
local_9 = local_19;
}
return local_9;
}
| |
34,470 | my_thread_init | eloqsql/mysys/my_thr_init.c | my_bool my_thread_init(void)
{
struct st_my_thread_var *tmp;
my_bool error=0;
if (!my_thread_global_init_done)
return 1; /* cannot proceed with uninitialized library */
#ifdef EXTRA_DEBUG_THREADS
fprintf(stderr,"my_thread_init(): pthread_self: %p\n", pthread_self());
#endif
if (my_thread_var)
{
#ifdef EXTRA_DEBUG_THREADS
fprintf(stderr,"my_thread_init() called more than once in thread 0x%lx\n",
(long) pthread_self());
#endif
goto end;
}
#ifdef _MSC_VER
install_sigabrt_handler();
#endif
if (!(tmp= (struct st_my_thread_var *) calloc(1, sizeof(*tmp))))
{
error= 1;
goto end;
}
set_mysys_var(tmp);
tmp->pthread_self= pthread_self();
my_thread_init_thr_mutex(tmp);
tmp->stack_ends_here= (char*)&tmp +
STACK_DIRECTION * (long)my_thread_stack_size;
mysql_mutex_lock(&THR_LOCK_threads);
tmp->id= tmp->dbug_id= ++thread_id;
++THR_thread_count;
mysql_mutex_unlock(&THR_LOCK_threads);
tmp->init= 1;
#ifndef DBUG_OFF
/* Generate unique name for thread */
(void) my_thread_name();
#endif
end:
return error;
} | O3 | c | my_thread_init:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %rbx
pushq %rax
movb $0x1, %bl
cmpb $0x1, 0x33f330(%rip) # 0x36b240
jne 0x2bfe9
leaq 0x33f327(%rip), %r15 # 0x36b244
movl (%r15), %edi
callq 0x24500
testq %rax, %rax
jne 0x2bfe7
movl $0x1, %edi
movl $0xf0, %esi
callq 0x241d0
movq %rax, -0x20(%rbp)
testq %rax, %rax
je 0x2bfe9
movq %rax, %r14
movl (%r15), %edi
movq %rax, %rsi
callq 0x240a0
callq 0x24240
movq %rax, 0xc8(%r14)
movq %r14, %rdi
callq 0x2be07
leaq 0x2c759d(%rip), %rax # 0x2f3510
leaq -0x20(%rbp), %rcx
addq (%rax), %rcx
movq %rcx, 0xb8(%r14)
leaq 0x33f1f0(%rip), %rbx # 0x36b178
cmpq $0x0, 0x40(%rbx)
jne 0x2bff6
leaq 0x33f1e2(%rip), %rdi # 0x36b178
callq 0x24480
movq 0x33f2a6(%rip), %rax # 0x36b248
incq %rax
movq %rax, 0x33f29c(%rip) # 0x36b248
movq -0x20(%rbp), %rcx
movq %rax, 0xd8(%rcx)
movq %rax, 0xd0(%rcx)
leaq 0x33efb3(%rip), %rax # 0x36af78
incl (%rax)
movq 0x40(%rbx), %rdi
testq %rdi, %rdi
jne 0x2bffd
leaq 0x33f1a1(%rip), %rdi # 0x36b178
callq 0x241f0
movq -0x20(%rbp), %rax
movb $0x1, 0xe8(%rax)
xorl %ebx, %ebx
movl %ebx, %eax
addq $0x8, %rsp
popq %rbx
popq %r14
popq %r15
popq %rbp
retq
callq 0x2547b
jmp 0x2bf9b
leaq 0x2c7d64(%rip), %rax # 0x2f3d68
movq (%rax), %rax
callq *0x160(%rax)
jmp 0x2bfd0
| my_thread_init:
push rbp
mov rbp, rsp
push r15
push r14
push rbx
push rax
mov bl, 1
cmp cs:my_thread_global_init_done, 1
jnz loc_2BFE9
lea r15, THR_KEY_mysys
mov edi, [r15]
call _pthread_getspecific
test rax, rax
jnz loc_2BFE7
mov edi, 1
mov esi, 0F0h
call _calloc
mov [rbp+var_20], rax
test rax, rax
jz loc_2BFE9
mov r14, rax
mov edi, [r15]
mov rsi, rax
call _pthread_setspecific
call _pthread_self
mov [r14+0C8h], rax
mov rdi, r14
call my_thread_init_thr_mutex
lea rax, my_thread_stack_size
lea rcx, [rbp+var_20]
add rcx, [rax]
mov [r14+0B8h], rcx
lea rbx, THR_LOCK_threads
cmp qword ptr [rbx+40h], 0
jnz short loc_2BFF6
lea rdi, THR_LOCK_threads
call _pthread_mutex_lock
loc_2BF9B:
mov rax, cs:thread_id
inc rax
mov cs:thread_id, rax
mov rcx, [rbp+var_20]
mov [rcx+0D8h], rax
mov [rcx+0D0h], rax
lea rax, THR_thread_count
inc dword ptr [rax]
mov rdi, [rbx+40h]
test rdi, rdi
jnz short loc_2BFFD
loc_2BFD0:
lea rdi, THR_LOCK_threads
call _pthread_mutex_unlock
mov rax, [rbp+var_20]
mov byte ptr [rax+0E8h], 1
loc_2BFE7:
xor ebx, ebx
loc_2BFE9:
mov eax, ebx
add rsp, 8
pop rbx
pop r14
pop r15
pop rbp
retn
loc_2BFF6:
call my_thread_init_cold_1
jmp short loc_2BF9B
loc_2BFFD:
lea rax, PSI_server
mov rax, [rax]
call qword ptr [rax+160h]
jmp short loc_2BFD0
| long long my_thread_init()
{
long long v0; // rax
unsigned int v1; // ebx
long long v2; // rax
long long v3; // r14
long long v4; // rax
long long v5; // rcx
_QWORD v7[4]; // [rsp+0h] [rbp-20h] BYREF
v7[0] = v0;
LOBYTE(v1) = 1;
if ( my_thread_global_init_done == 1 )
{
if ( pthread_getspecific(THR_KEY_mysys) )
return 0;
v2 = calloc(1LL, 240LL);
v7[0] = v2;
if ( v2 )
{
v3 = v2;
pthread_setspecific(THR_KEY_mysys, v2);
*(_QWORD *)(v3 + 200) = pthread_self();
my_thread_init_thr_mutex(v3);
*(_QWORD *)(v3 + 184) = (char *)v7 + (_QWORD)my_thread_stack_size;
if ( THR_LOCK_threads[8] )
my_thread_init_cold_1();
else
pthread_mutex_lock(THR_LOCK_threads);
v4 = thread_id + 1;
thread_id = v4;
v5 = v7[0];
*(_QWORD *)(v7[0] + 216LL) = v4;
*(_QWORD *)(v5 + 208) = v4;
++THR_thread_count;
if ( THR_LOCK_threads[8] )
(*((void (**)(void))PSI_server[0] + 44))();
pthread_mutex_unlock(THR_LOCK_threads);
*(_BYTE *)(v7[0] + 232LL) = 1;
return 0;
}
}
return v1;
}
| my_thread_init:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH RBX
PUSH RAX
MOV BL,0x1
CMP byte ptr [0x0046b240],0x1
JNZ 0x0012bfe9
LEA R15,[0x46b244]
MOV EDI,dword ptr [R15]
CALL 0x00124500
TEST RAX,RAX
JNZ 0x0012bfe7
MOV EDI,0x1
MOV ESI,0xf0
CALL 0x001241d0
MOV qword ptr [RBP + -0x20],RAX
TEST RAX,RAX
JZ 0x0012bfe9
MOV R14,RAX
MOV EDI,dword ptr [R15]
MOV RSI,RAX
CALL 0x001240a0
CALL 0x00124240
MOV qword ptr [R14 + 0xc8],RAX
MOV RDI,R14
CALL 0x0012be07
LEA RAX,[0x3f3510]
LEA RCX,[RBP + -0x20]
ADD RCX,qword ptr [RAX]
MOV qword ptr [R14 + 0xb8],RCX
LEA RBX,[0x46b178]
CMP qword ptr [RBX + 0x40],0x0
JNZ 0x0012bff6
LEA RDI,[0x46b178]
CALL 0x00124480
LAB_0012bf9b:
MOV RAX,qword ptr [0x0046b248]
INC RAX
MOV qword ptr [0x0046b248],RAX
MOV RCX,qword ptr [RBP + -0x20]
MOV qword ptr [RCX + 0xd8],RAX
MOV qword ptr [RCX + 0xd0],RAX
LEA RAX,[0x46af78]
INC dword ptr [RAX]
MOV RDI,qword ptr [RBX + 0x40]
TEST RDI,RDI
JNZ 0x0012bffd
LAB_0012bfd0:
LEA RDI,[0x46b178]
CALL 0x001241f0
MOV RAX,qword ptr [RBP + -0x20]
MOV byte ptr [RAX + 0xe8],0x1
LAB_0012bfe7:
XOR EBX,EBX
LAB_0012bfe9:
MOV EAX,EBX
ADD RSP,0x8
POP RBX
POP R14
POP R15
POP RBP
RET
LAB_0012bff6:
CALL 0x0012547b
JMP 0x0012bf9b
LAB_0012bffd:
LEA RAX,[0x3f3d68]
MOV RAX,qword ptr [RAX]
CALL qword ptr [RAX + 0x160]
JMP 0x0012bfd0
|
ulong my_thread_init(void)
{
void *pvVar1;
pthread_t pVar2;
long lVar3;
int8 unaff_RBX;
ulong uVar4;
void *local_28;
uVar4 = CONCAT71((int7)((ulong)unaff_RBX >> 8),1);
if (my_thread_global_init_done == '\x01') {
pvVar1 = pthread_getspecific(THR_KEY_mysys);
if (pvVar1 == (void *)0x0) {
pvVar1 = calloc(1,0xf0);
if (pvVar1 == (void *)0x0) goto LAB_0012bfe9;
local_28 = pvVar1;
pthread_setspecific(THR_KEY_mysys,pvVar1);
pVar2 = pthread_self();
*(pthread_t *)((long)pvVar1 + 200) = pVar2;
my_thread_init_thr_mutex(pvVar1);
*(long *)((long)pvVar1 + 0xb8) = (long)&local_28 + my_thread_stack_size;
if (THR_LOCK_threads._64_8_ == 0) {
pthread_mutex_lock((pthread_mutex_t *)THR_LOCK_threads);
}
else {
my_thread_init_cold_1();
}
lVar3 = thread_id + 1;
thread_id = lVar3;
*(long *)((long)local_28 + 0xd8) = lVar3;
*(long *)((long)local_28 + 0xd0) = lVar3;
THR_thread_count = THR_thread_count + 1;
if (THR_LOCK_threads._64_8_ != 0) {
(**(code **)(PSI_server + 0x160))();
}
pthread_mutex_unlock((pthread_mutex_t *)THR_LOCK_threads);
*(int1 *)((long)local_28 + 0xe8) = 1;
}
uVar4 = 0;
}
LAB_0012bfe9:
return uVar4 & 0xffffffff;
}
| |
34,471 | my_coll_parser_scan_setting | eloqsql/strings/ctype-uca.c | static int
my_coll_parser_scan_setting(MY_COLL_RULE_PARSER *p)
{
MY_COLL_RULES *rules= p->rules;
MY_COLL_LEXEM *lexem= my_coll_parser_curr(p);
if (!lex_cmp(lexem, C_STRING_WITH_LEN("[version 4.0.0]")))
{
rules->version= 400;
rules->uca= &my_uca_v400;
}
else if (!lex_cmp(lexem, C_STRING_WITH_LEN("[version 5.2.0]")))
{
rules->version= 520;
rules->uca= &my_uca_v520;
}
else if (!lex_cmp(lexem, C_STRING_WITH_LEN("[shift-after-method expand]")))
{
rules->shift_after_method= my_shift_method_expand;
}
else if (!lex_cmp(lexem, C_STRING_WITH_LEN("[shift-after-method simple]")))
{
rules->shift_after_method= my_shift_method_simple;
}
else if (!lex_cmp(lexem, C_STRING_WITH_LEN("[strength 1]")))
rules->strength= 1;
else if (!lex_cmp(lexem, C_STRING_WITH_LEN("[strength 2]")))
rules->strength= 2;
else
{
return 0;
}
return my_coll_parser_scan(p);
} | O0 | c | my_coll_parser_scan_setting:
pushq %rbp
movq %rsp, %rbp
subq $0x20, %rsp
movq %rdi, -0x10(%rbp)
movq -0x10(%rbp), %rax
movq 0xf0(%rax), %rax
movq %rax, -0x18(%rbp)
movq -0x10(%rbp), %rdi
callq 0xa2080
movq %rax, -0x20(%rbp)
movq -0x20(%rbp), %rdi
leaq 0x3154a(%rip), %rsi # 0xd3c1d
movl $0xf, %edx
callq 0xa2800
cmpl $0x0, %eax
jne 0xa2700
movq -0x18(%rbp), %rax
movl $0x190, (%rax) # imm = 0x190
movq -0x18(%rbp), %rax
leaq 0x280189(%rip), %rcx # 0x322880
movq %rcx, 0x8(%rax)
jmp 0xa27ea
movq -0x20(%rbp), %rdi
leaq 0x31522(%rip), %rsi # 0xd3c2d
movl $0xf, %edx
callq 0xa2800
cmpl $0x0, %eax
jne 0xa2738
movq -0x18(%rbp), %rax
movl $0x208, (%rax) # imm = 0x208
movq -0x18(%rbp), %rax
leaq 0x2852b9(%rip), %rcx # 0x3279e8
movq %rcx, 0x8(%rax)
jmp 0xa27e8
movq -0x20(%rbp), %rdi
leaq 0x314fa(%rip), %rsi # 0xd3c3d
movl $0x1b, %edx
callq 0xa2800
cmpl $0x0, %eax
jne 0xa2762
movq -0x18(%rbp), %rax
movl $0x1, 0x30(%rax)
jmp 0xa27e6
movq -0x20(%rbp), %rdi
leaq 0x314ec(%rip), %rsi # 0xd3c59
movl $0x1b, %edx
callq 0xa2800
cmpl $0x0, %eax
jne 0xa2789
movq -0x18(%rbp), %rax
movl $0x0, 0x30(%rax)
jmp 0xa27e4
movq -0x20(%rbp), %rdi
leaq 0x314e1(%rip), %rsi # 0xd3c75
movl $0xc, %edx
callq 0xa2800
cmpl $0x0, %eax
jne 0xa27b0
movq -0x18(%rbp), %rax
movl $0x1, 0x4(%rax)
jmp 0xa27e2
movq -0x20(%rbp), %rdi
leaq 0x313bc(%rip), %rsi # 0xd3b77
movl $0xc, %edx
callq 0xa2800
cmpl $0x0, %eax
jne 0xa27d7
movq -0x18(%rbp), %rax
movl $0x2, 0x4(%rax)
jmp 0xa27e0
movl $0x0, -0x4(%rbp)
jmp 0xa27f6
jmp 0xa27e2
jmp 0xa27e4
jmp 0xa27e6
jmp 0xa27e8
jmp 0xa27ea
movq -0x10(%rbp), %rdi
callq 0xa2860
movl %eax, -0x4(%rbp)
movl -0x4(%rbp), %eax
addq $0x20, %rsp
popq %rbp
retq
nop
| my_coll_parser_scan_setting:
push rbp
mov rbp, rsp
sub rsp, 20h
mov [rbp+var_10], rdi
mov rax, [rbp+var_10]
mov rax, [rax+0F0h]
mov [rbp+var_18], rax
mov rdi, [rbp+var_10]
call my_coll_parser_curr
mov [rbp+var_20], rax
mov rdi, [rbp+var_20]
lea rsi, aVersion400; "[version 4.0.0]"
mov edx, 0Fh
call lex_cmp
cmp eax, 0
jnz short loc_A2700
mov rax, [rbp+var_18]
mov dword ptr [rax], 190h
mov rax, [rbp+var_18]
lea rcx, my_uca_v400
mov [rax+8], rcx
jmp loc_A27EA
loc_A2700:
mov rdi, [rbp+var_20]
lea rsi, aVersion520; "[version 5.2.0]"
mov edx, 0Fh
call lex_cmp
cmp eax, 0
jnz short loc_A2738
mov rax, [rbp+var_18]
mov dword ptr [rax], 208h
mov rax, [rbp+var_18]
lea rcx, my_uca_v520
mov [rax+8], rcx
jmp loc_A27E8
loc_A2738:
mov rdi, [rbp+var_20]
lea rsi, aShiftAfterMeth; "[shift-after-method expand]"
mov edx, 1Bh
call lex_cmp
cmp eax, 0
jnz short loc_A2762
mov rax, [rbp+var_18]
mov dword ptr [rax+30h], 1
jmp loc_A27E6
loc_A2762:
mov rdi, [rbp+var_20]
lea rsi, aShiftAfterMeth_0; "[shift-after-method simple]"
mov edx, 1Bh
call lex_cmp
cmp eax, 0
jnz short loc_A2789
mov rax, [rbp+var_18]
mov dword ptr [rax+30h], 0
jmp short loc_A27E4
loc_A2789:
mov rdi, [rbp+var_20]
lea rsi, aStrength1; "[strength 1]"
mov edx, 0Ch
call lex_cmp
cmp eax, 0
jnz short loc_A27B0
mov rax, [rbp+var_18]
mov dword ptr [rax+4], 1
jmp short loc_A27E2
loc_A27B0:
mov rdi, [rbp+var_20]
lea rsi, aStrength2; "[strength 2]"
mov edx, 0Ch
call lex_cmp
cmp eax, 0
jnz short loc_A27D7
mov rax, [rbp+var_18]
mov dword ptr [rax+4], 2
jmp short loc_A27E0
loc_A27D7:
mov [rbp+var_4], 0
jmp short loc_A27F6
loc_A27E0:
jmp short $+2
loc_A27E2:
jmp short $+2
loc_A27E4:
jmp short $+2
loc_A27E6:
jmp short $+2
loc_A27E8:
jmp short $+2
loc_A27EA:
mov rdi, [rbp+var_10]
call my_coll_parser_scan
mov [rbp+var_4], eax
loc_A27F6:
mov eax, [rbp+var_4]
add rsp, 20h
pop rbp
retn
| long long my_coll_parser_scan_setting(long long a1)
{
long long v2; // [rsp+0h] [rbp-20h]
long long v3; // [rsp+8h] [rbp-18h]
v3 = *(_QWORD *)(a1 + 240);
v2 = my_coll_parser_curr(a1);
if ( !(unsigned int)lex_cmp(v2, "[version 4.0.0]", 15LL) )
{
*(_DWORD *)v3 = 400;
*(_QWORD *)(v3 + 8) = &my_uca_v400;
return (unsigned int)my_coll_parser_scan(a1);
}
if ( !(unsigned int)lex_cmp(v2, "[version 5.2.0]", 15LL) )
{
*(_DWORD *)v3 = 520;
*(_QWORD *)(v3 + 8) = &my_uca_v520;
return (unsigned int)my_coll_parser_scan(a1);
}
if ( !(unsigned int)lex_cmp(v2, "[shift-after-method expand]", 27LL) )
{
*(_DWORD *)(v3 + 48) = 1;
return (unsigned int)my_coll_parser_scan(a1);
}
if ( !(unsigned int)lex_cmp(v2, "[shift-after-method simple]", 27LL) )
{
*(_DWORD *)(v3 + 48) = 0;
return (unsigned int)my_coll_parser_scan(a1);
}
if ( !(unsigned int)lex_cmp(v2, "[strength 1]", 12LL) )
{
*(_DWORD *)(v3 + 4) = 1;
return (unsigned int)my_coll_parser_scan(a1);
}
if ( !(unsigned int)lex_cmp(v2, "[strength 2]", 12LL) )
{
*(_DWORD *)(v3 + 4) = 2;
return (unsigned int)my_coll_parser_scan(a1);
}
return 0;
}
| my_coll_parser_scan_setting:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x20
MOV qword ptr [RBP + -0x10],RDI
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0xf0]
MOV qword ptr [RBP + -0x18],RAX
MOV RDI,qword ptr [RBP + -0x10]
CALL 0x001a2080
MOV qword ptr [RBP + -0x20],RAX
MOV RDI,qword ptr [RBP + -0x20]
LEA RSI,[0x1d3c1d]
MOV EDX,0xf
CALL 0x001a2800
CMP EAX,0x0
JNZ 0x001a2700
MOV RAX,qword ptr [RBP + -0x18]
MOV dword ptr [RAX],0x190
MOV RAX,qword ptr [RBP + -0x18]
LEA RCX,[0x422880]
MOV qword ptr [RAX + 0x8],RCX
JMP 0x001a27ea
LAB_001a2700:
MOV RDI,qword ptr [RBP + -0x20]
LEA RSI,[0x1d3c2d]
MOV EDX,0xf
CALL 0x001a2800
CMP EAX,0x0
JNZ 0x001a2738
MOV RAX,qword ptr [RBP + -0x18]
MOV dword ptr [RAX],0x208
MOV RAX,qword ptr [RBP + -0x18]
LEA RCX,[0x4279e8]
MOV qword ptr [RAX + 0x8],RCX
JMP 0x001a27e8
LAB_001a2738:
MOV RDI,qword ptr [RBP + -0x20]
LEA RSI,[0x1d3c3d]
MOV EDX,0x1b
CALL 0x001a2800
CMP EAX,0x0
JNZ 0x001a2762
MOV RAX,qword ptr [RBP + -0x18]
MOV dword ptr [RAX + 0x30],0x1
JMP 0x001a27e6
LAB_001a2762:
MOV RDI,qword ptr [RBP + -0x20]
LEA RSI,[0x1d3c59]
MOV EDX,0x1b
CALL 0x001a2800
CMP EAX,0x0
JNZ 0x001a2789
MOV RAX,qword ptr [RBP + -0x18]
MOV dword ptr [RAX + 0x30],0x0
JMP 0x001a27e4
LAB_001a2789:
MOV RDI,qword ptr [RBP + -0x20]
LEA RSI,[0x1d3c75]
MOV EDX,0xc
CALL 0x001a2800
CMP EAX,0x0
JNZ 0x001a27b0
MOV RAX,qword ptr [RBP + -0x18]
MOV dword ptr [RAX + 0x4],0x1
JMP 0x001a27e2
LAB_001a27b0:
MOV RDI,qword ptr [RBP + -0x20]
LEA RSI,[0x1d3b77]
MOV EDX,0xc
CALL 0x001a2800
CMP EAX,0x0
JNZ 0x001a27d7
MOV RAX,qword ptr [RBP + -0x18]
MOV dword ptr [RAX + 0x4],0x2
JMP 0x001a27e0
LAB_001a27d7:
MOV dword ptr [RBP + -0x4],0x0
JMP 0x001a27f6
LAB_001a27e0:
JMP 0x001a27e2
LAB_001a27e2:
JMP 0x001a27e4
LAB_001a27e4:
JMP 0x001a27e6
LAB_001a27e6:
JMP 0x001a27e8
LAB_001a27e8:
JMP 0x001a27ea
LAB_001a27ea:
MOV RDI,qword ptr [RBP + -0x10]
CALL 0x001a2860
MOV dword ptr [RBP + -0x4],EAX
LAB_001a27f6:
MOV EAX,dword ptr [RBP + -0x4]
ADD RSP,0x20
POP RBP
RET
|
int4 my_coll_parser_scan_setting(long param_1)
{
int4 *puVar1;
int iVar2;
int4 uVar3;
int8 uVar4;
puVar1 = *(int4 **)(param_1 + 0xf0);
uVar4 = my_coll_parser_curr(param_1);
iVar2 = lex_cmp(uVar4,"[version 4.0.0]",0xf);
if (iVar2 == 0) {
*puVar1 = 400;
*(int1 **)(puVar1 + 2) = my_uca_v400;
}
else {
iVar2 = lex_cmp(uVar4,"[version 5.2.0]",0xf);
if (iVar2 == 0) {
*puVar1 = 0x208;
*(int1 **)(puVar1 + 2) = my_uca_v520;
}
else {
iVar2 = lex_cmp(uVar4,"[shift-after-method expand]",0x1b);
if (iVar2 == 0) {
puVar1[0xc] = 1;
}
else {
iVar2 = lex_cmp(uVar4,"[shift-after-method simple]",0x1b);
if (iVar2 == 0) {
puVar1[0xc] = 0;
}
else {
iVar2 = lex_cmp(uVar4,"[strength 1]",0xc);
if (iVar2 == 0) {
puVar1[1] = 1;
}
else {
iVar2 = lex_cmp(uVar4,"[strength 2]",0xc);
if (iVar2 != 0) {
return 0;
}
puVar1[1] = 2;
}
}
}
}
}
uVar3 = my_coll_parser_scan(param_1);
return uVar3;
}
| |
34,472 | my_casedn_utf32 | eloqsql/strings/ctype-ucs2.c | static size_t
my_casedn_utf32(CHARSET_INFO *cs, const char *src, size_t srclen,
char *dst, size_t dstlen)
{
my_wc_t wc;
int res;
const char *srcend= src + srclen;
char *dstend= dst + dstlen;
MY_UNICASE_INFO *uni_plane= cs->caseinfo;
DBUG_ASSERT(srclen <= dstlen);
while ((res= my_utf32_uni(cs, &wc, (uchar*) src, (uchar*) srcend)) > 0)
{
my_tolower_utf32(uni_plane,&wc);
if (res != my_uni_utf32(cs, wc, (uchar*) dst, (uchar*) dstend))
break;
src+= res;
dst+= res;
}
return srclen;
} | O0 | c | my_casedn_utf32:
pushq %rbp
movq %rsp, %rbp
subq $0x60, %rsp
movq %rdi, -0x8(%rbp)
movq %rsi, -0x10(%rbp)
movq %rdx, -0x18(%rbp)
movq %rcx, -0x20(%rbp)
movq %r8, -0x28(%rbp)
movq -0x10(%rbp), %rax
addq -0x18(%rbp), %rax
movq %rax, -0x40(%rbp)
movq -0x20(%rbp), %rax
addq -0x28(%rbp), %rax
movq %rax, -0x48(%rbp)
movq -0x8(%rbp), %rax
movq 0x78(%rax), %rax
movq %rax, -0x50(%rbp)
jmp 0x8fec2
jmp 0x8fec4
movq -0x8(%rbp), %rdi
movq -0x10(%rbp), %rdx
movq -0x40(%rbp), %rcx
leaq -0x30(%rbp), %rsi
callq 0x8fcb0
movl %eax, -0x34(%rbp)
cmpl $0x0, %eax
jle 0x8ff38
movq -0x50(%rbp), %rdi
leaq -0x30(%rbp), %rsi
callq 0x94010
movl -0x34(%rbp), %eax
movl %eax, -0x54(%rbp)
movq -0x8(%rbp), %rdi
movq -0x30(%rbp), %rsi
movq -0x20(%rbp), %rdx
movq -0x48(%rbp), %rcx
callq 0x8fce0
movl %eax, %ecx
movl -0x54(%rbp), %eax
cmpl %ecx, %eax
je 0x8ff14
jmp 0x8ff38
movl -0x34(%rbp), %ecx
movq -0x10(%rbp), %rax
movslq %ecx, %rcx
addq %rcx, %rax
movq %rax, -0x10(%rbp)
movl -0x34(%rbp), %ecx
movq -0x20(%rbp), %rax
movslq %ecx, %rcx
addq %rcx, %rax
movq %rax, -0x20(%rbp)
jmp 0x8fec4
movq -0x18(%rbp), %rax
addq $0x60, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| my_casedn_utf32:
push rbp
mov rbp, rsp
sub rsp, 60h
mov [rbp+var_8], rdi
mov [rbp+var_10], rsi
mov [rbp+var_18], rdx
mov [rbp+var_20], rcx
mov [rbp+var_28], r8
mov rax, [rbp+var_10]
add rax, [rbp+var_18]
mov [rbp+var_40], rax
mov rax, [rbp+var_20]
add rax, [rbp+var_28]
mov [rbp+var_48], rax
mov rax, [rbp+var_8]
mov rax, [rax+78h]
mov [rbp+var_50], rax
jmp short $+2
loc_8FEC2:
jmp short $+2
loc_8FEC4:
mov rdi, [rbp+var_8]
mov rdx, [rbp+var_10]
mov rcx, [rbp+var_40]
lea rsi, [rbp+var_30]
call my_utf32_uni
mov [rbp+var_34], eax
cmp eax, 0
jle short loc_8FF38
mov rdi, [rbp+var_50]
lea rsi, [rbp+var_30]
call my_tolower_utf32
mov eax, [rbp+var_34]
mov [rbp+var_54], eax
mov rdi, [rbp+var_8]
mov rsi, [rbp+var_30]
mov rdx, [rbp+var_20]
mov rcx, [rbp+var_48]
call my_uni_utf32
mov ecx, eax
mov eax, [rbp+var_54]
cmp eax, ecx
jz short loc_8FF14
jmp short loc_8FF38
loc_8FF14:
mov ecx, [rbp+var_34]
mov rax, [rbp+var_10]
movsxd rcx, ecx
add rax, rcx
mov [rbp+var_10], rax
mov ecx, [rbp+var_34]
mov rax, [rbp+var_20]
movsxd rcx, ecx
add rax, rcx
mov [rbp+var_20], rax
jmp short loc_8FEC4
loc_8FF38:
mov rax, [rbp+var_18]
add rsp, 60h
pop rbp
retn
| long long my_casedn_utf32(long long a1, long long a2, long long a3, _BYTE *a4, long long a5, long long a6)
{
long long v7; // [rsp+10h] [rbp-50h]
unsigned long long v8; // [rsp+18h] [rbp-48h]
long long v9; // [rsp+20h] [rbp-40h]
int v10; // [rsp+2Ch] [rbp-34h]
unsigned long long v11[2]; // [rsp+30h] [rbp-30h] BYREF
_BYTE *v12; // [rsp+40h] [rbp-20h]
long long v13; // [rsp+48h] [rbp-18h]
long long v14; // [rsp+50h] [rbp-10h]
long long v15; // [rsp+58h] [rbp-8h]
v15 = a1;
v14 = a2;
v13 = a3;
v12 = a4;
v11[1] = a5;
v9 = a3 + a2;
v8 = (unsigned long long)&a4[a5];
v7 = *(_QWORD *)(a1 + 120);
while ( 1 )
{
v10 = my_utf32_uni(v15, (long long)v11, v14, v9, a5, a6);
if ( v10 <= 0 )
break;
my_tolower_utf32(v7, v11);
if ( v10 != (unsigned int)my_uni_utf32(v15, v11[0], v12, v8) )
break;
v14 += v10;
v12 += v10;
}
return v13;
}
| my_casedn_utf32:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x60
MOV qword ptr [RBP + -0x8],RDI
MOV qword ptr [RBP + -0x10],RSI
MOV qword ptr [RBP + -0x18],RDX
MOV qword ptr [RBP + -0x20],RCX
MOV qword ptr [RBP + -0x28],R8
MOV RAX,qword ptr [RBP + -0x10]
ADD RAX,qword ptr [RBP + -0x18]
MOV qword ptr [RBP + -0x40],RAX
MOV RAX,qword ptr [RBP + -0x20]
ADD RAX,qword ptr [RBP + -0x28]
MOV qword ptr [RBP + -0x48],RAX
MOV RAX,qword ptr [RBP + -0x8]
MOV RAX,qword ptr [RAX + 0x78]
MOV qword ptr [RBP + -0x50],RAX
JMP 0x0018fec2
LAB_0018fec2:
JMP 0x0018fec4
LAB_0018fec4:
MOV RDI,qword ptr [RBP + -0x8]
MOV RDX,qword ptr [RBP + -0x10]
MOV RCX,qword ptr [RBP + -0x40]
LEA RSI,[RBP + -0x30]
CALL 0x0018fcb0
MOV dword ptr [RBP + -0x34],EAX
CMP EAX,0x0
JLE 0x0018ff38
MOV RDI,qword ptr [RBP + -0x50]
LEA RSI,[RBP + -0x30]
CALL 0x00194010
MOV EAX,dword ptr [RBP + -0x34]
MOV dword ptr [RBP + -0x54],EAX
MOV RDI,qword ptr [RBP + -0x8]
MOV RSI,qword ptr [RBP + -0x30]
MOV RDX,qword ptr [RBP + -0x20]
MOV RCX,qword ptr [RBP + -0x48]
CALL 0x0018fce0
MOV ECX,EAX
MOV EAX,dword ptr [RBP + -0x54]
CMP EAX,ECX
JZ 0x0018ff14
JMP 0x0018ff38
LAB_0018ff14:
MOV ECX,dword ptr [RBP + -0x34]
MOV RAX,qword ptr [RBP + -0x10]
MOVSXD RCX,ECX
ADD RAX,RCX
MOV qword ptr [RBP + -0x10],RAX
MOV ECX,dword ptr [RBP + -0x34]
MOV RAX,qword ptr [RBP + -0x20]
MOVSXD RCX,ECX
ADD RAX,RCX
MOV qword ptr [RBP + -0x20],RAX
JMP 0x0018fec4
LAB_0018ff38:
MOV RAX,qword ptr [RBP + -0x18]
ADD RSP,0x60
POP RBP
RET
|
long my_casedn_utf32(long param_1,long param_2,long param_3,long param_4,long param_5)
{
int8 uVar1;
int iVar2;
int iVar3;
int8 local_38;
long local_30;
long local_28;
long local_20;
long local_18;
long local_10;
uVar1 = *(int8 *)(param_1 + 0x78);
local_30 = param_5;
local_28 = param_4;
local_20 = param_3;
local_18 = param_2;
local_10 = param_1;
while( true ) {
iVar2 = my_utf32_uni(local_10,&local_38,local_18,param_2 + param_3);
if (iVar2 < 1) {
return local_20;
}
my_tolower_utf32(uVar1,&local_38);
iVar3 = my_uni_utf32(local_10,local_38,local_28,param_4 + param_5);
if (iVar2 != iVar3) break;
local_18 = local_18 + iVar2;
local_28 = local_28 + iVar2;
}
return local_20;
}
| |
34,473 | mthd_stmt_read_prepare_response | eloqsql/libmariadb/libmariadb/mariadb_stmt.c | my_bool mthd_stmt_read_prepare_response(MYSQL_STMT *stmt)
{
ulong packet_length;
uchar *p;
if ((packet_length= ma_net_safe_read(stmt->mysql)) == packet_error)
return(1);
p= (uchar *)stmt->mysql->net.read_pos;
if (0xFF == p[0]) /* Error occurred */
{
return(1);
}
p++;
stmt->stmt_id= uint4korr(p);
p+= 4;
stmt->field_count= uint2korr(p);
p+= 2;
stmt->param_count= uint2korr(p);
p+= 2;
/* filler */
p++;
/* for backward compatibility we also update mysql->warning_count */
stmt->mysql->warning_count= stmt->upsert_status.warning_count= uint2korr(p);
/* metadata not supported yet */
if (stmt->param_count &&
stmt->mysql->methods->db_stmt_get_param_metadata(stmt))
{
return 1;
}
/* allocated bind buffer for parameters */
if (stmt->field_count &&
stmt->mysql->methods->db_stmt_get_result_metadata(stmt))
{
return 1;
}
if (stmt->param_count)
{
if (stmt->prebind_params)
{
if (stmt->prebind_params != stmt->param_count)
{
SET_CLIENT_STMT_ERROR(stmt, CR_INVALID_PARAMETER_NO, SQLSTATE_UNKNOWN, 0);
stmt->param_count= stmt->prebind_params;
return 1;
}
} else {
if (!(stmt->params= (MYSQL_BIND *)ma_alloc_root(&stmt->mem_root, stmt->param_count * sizeof(MYSQL_BIND))))
{
SET_CLIENT_STMT_ERROR(stmt, CR_OUT_OF_MEMORY, SQLSTATE_UNKNOWN, 0);
return 1;
}
memset(stmt->params, '\0', stmt->param_count * sizeof(MYSQL_BIND));
}
}
/* allocated bind buffer for result */
if (stmt->field_count)
{
MA_MEM_ROOT *fields_ma_alloc_root= &((MADB_STMT_EXTENSION *)stmt->extension)->fields_ma_alloc_root;
if (!(stmt->bind= (MYSQL_BIND *)ma_alloc_root(fields_ma_alloc_root, stmt->field_count * sizeof(MYSQL_BIND))))
{
SET_CLIENT_STMT_ERROR(stmt, CR_OUT_OF_MEMORY, SQLSTATE_UNKNOWN, 0);
return 1;
}
memset(stmt->bind, 0, sizeof(MYSQL_BIND) * stmt->field_count);
}
stmt->state = MYSQL_STMT_PREPARED;
return(0);
} | O0 | c | mthd_stmt_read_prepare_response:
pushq %rbp
movq %rsp, %rbp
subq $0x30, %rsp
movq %rdi, -0x10(%rbp)
movq -0x10(%rbp), %rax
movq 0x38(%rax), %rdi
callq 0x1dbb0
movq %rax, -0x18(%rbp)
movl $0xffffffff, %ecx # imm = 0xFFFFFFFF
cmpq %rcx, %rax
jne 0x32210
movb $0x1, -0x1(%rbp)
jmp 0x325d0
movq -0x10(%rbp), %rax
movq 0x38(%rax), %rax
movq 0x20(%rax), %rax
movq %rax, -0x20(%rbp)
movq -0x20(%rbp), %rax
movzbl (%rax), %ecx
movl $0xff, %eax
cmpl %ecx, %eax
jne 0x32239
movb $0x1, -0x1(%rbp)
jmp 0x325d0
movq -0x20(%rbp), %rax
addq $0x1, %rax
movq %rax, -0x20(%rbp)
movq -0x20(%rbp), %rax
movzbl (%rax), %eax
movq -0x20(%rbp), %rcx
movzbl 0x1(%rcx), %ecx
shll $0x8, %ecx
addl %ecx, %eax
movq -0x20(%rbp), %rcx
movzbl 0x2(%rcx), %ecx
shll $0x10, %ecx
addl %ecx, %eax
movq -0x20(%rbp), %rcx
movzbl 0x3(%rcx), %ecx
shll $0x18, %ecx
addl %ecx, %eax
movl %eax, %eax
movl %eax, %ecx
movq -0x10(%rbp), %rax
movq %rcx, 0x40(%rax)
movq -0x20(%rbp), %rax
addq $0x4, %rax
movq %rax, -0x20(%rbp)
movq -0x20(%rbp), %rax
movzbl (%rax), %eax
movzwl %ax, %eax
movq -0x20(%rbp), %rcx
movzbl 0x1(%rcx), %ecx
movzwl %cx, %ecx
shll $0x8, %ecx
addl %ecx, %eax
movzwl %ax, %ecx
movq -0x10(%rbp), %rax
movl %ecx, 0x60(%rax)
movq -0x20(%rbp), %rax
addq $0x2, %rax
movq %rax, -0x20(%rbp)
movq -0x20(%rbp), %rax
movzbl (%rax), %eax
movzwl %ax, %eax
movq -0x20(%rbp), %rcx
movzbl 0x1(%rcx), %ecx
movzwl %cx, %ecx
shll $0x8, %ecx
addl %ecx, %eax
movzwl %ax, %ecx
movq -0x10(%rbp), %rax
movl %ecx, 0x64(%rax)
movq -0x20(%rbp), %rax
addq $0x2, %rax
movq %rax, -0x20(%rbp)
movq -0x20(%rbp), %rax
addq $0x1, %rax
movq %rax, -0x20(%rbp)
movq -0x20(%rbp), %rax
movzbl (%rax), %eax
movzwl %ax, %eax
movq -0x20(%rbp), %rcx
movzbl 0x1(%rcx), %ecx
movzwl %cx, %ecx
shll $0x8, %ecx
addl %ecx, %eax
movzwl %ax, %ecx
movq -0x10(%rbp), %rax
movl %ecx, 0xf0(%rax)
movq -0x10(%rbp), %rax
movq 0x38(%rax), %rax
movl %ecx, 0x388(%rax)
movq -0x10(%rbp), %rax
cmpl $0x0, 0x64(%rax)
je 0x32360
movq -0x10(%rbp), %rax
movq 0x38(%rax), %rax
movq 0x4d0(%rax), %rax
movq 0x58(%rax), %rax
movq -0x10(%rbp), %rdi
callq *%rax
movsbl %al, %eax
cmpl $0x0, %eax
je 0x32360
movb $0x1, -0x1(%rbp)
jmp 0x325d0
movq -0x10(%rbp), %rax
cmpl $0x0, 0x60(%rax)
je 0x32394
movq -0x10(%rbp), %rax
movq 0x38(%rax), %rax
movq 0x4d0(%rax), %rax
movq 0x50(%rax), %rax
movq -0x10(%rbp), %rdi
callq *%rax
movsbl %al, %eax
cmpl $0x0, %eax
je 0x32394
movb $0x1, -0x1(%rbp)
jmp 0x325d0
movq -0x10(%rbp), %rax
cmpl $0x0, 0x64(%rax)
je 0x324fd
movq -0x10(%rbp), %rax
cmpl $0x0, 0x378(%rax)
je 0x32451
movq -0x10(%rbp), %rax
movl 0x378(%rax), %eax
movq -0x10(%rbp), %rcx
cmpl 0x64(%rcx), %eax
je 0x3244c
jmp 0x323cc
movq -0x10(%rbp), %rax
movl $0x7f2, 0x108(%rax) # imm = 0x7F2
movq -0x10(%rbp), %rdi
addq $0x30d, %rdi # imm = 0x30D
leaq 0x37fa4(%rip), %rax # 0x6a390
movq (%rax), %rsi
movl $0x5, %edx
callq 0x13210
movq -0x10(%rbp), %rax
movb $0x0, 0x312(%rax)
movq -0x10(%rbp), %rdi
addq $0x10c, %rdi # imm = 0x10C
leaq 0x37f8a(%rip), %rax # 0x6a3a0
movq 0x110(%rax), %rsi
movl $0x200, %edx # imm = 0x200
callq 0x13210
movq -0x10(%rbp), %rax
movb $0x0, 0x30b(%rax)
movq -0x10(%rbp), %rax
movl 0x378(%rax), %ecx
movq -0x10(%rbp), %rax
movl %ecx, 0x64(%rax)
movb $0x1, -0x1(%rbp)
jmp 0x325d0
jmp 0x324fb
movq -0x10(%rbp), %rdi
movq -0x10(%rbp), %rax
movl 0x64(%rax), %eax
imulq $0x70, %rax, %rsi
callq 0x2c8b0
movq -0x10(%rbp), %rcx
movq %rax, 0x70(%rcx)
cmpq $0x0, %rax
jne 0x324e1
jmp 0x32475
movq -0x10(%rbp), %rax
movl $0x7d8, 0x108(%rax) # imm = 0x7D8
movq -0x10(%rbp), %rdi
addq $0x30d, %rdi # imm = 0x30D
leaq 0x37efb(%rip), %rax # 0x6a390
movq (%rax), %rsi
movl $0x5, %edx
callq 0x13210
movq -0x10(%rbp), %rax
movb $0x0, 0x312(%rax)
movq -0x10(%rbp), %rdi
addq $0x10c, %rdi # imm = 0x10C
leaq 0x37ee1(%rip), %rax # 0x6a3a0
movq 0x40(%rax), %rsi
movl $0x200, %edx # imm = 0x200
callq 0x13210
movq -0x10(%rbp), %rax
movb $0x0, 0x30b(%rax)
movb $0x1, -0x1(%rbp)
jmp 0x325d0
movq -0x10(%rbp), %rax
movq 0x70(%rax), %rdi
movq -0x10(%rbp), %rax
movl 0x64(%rax), %eax
imulq $0x70, %rax, %rdx
xorl %esi, %esi
callq 0x13250
jmp 0x324fd
movq -0x10(%rbp), %rax
cmpl $0x0, 0x60(%rax)
je 0x325c1
movq -0x10(%rbp), %rax
movq 0x340(%rax), %rax
movq %rax, -0x28(%rbp)
movq -0x28(%rbp), %rdi
movq -0x10(%rbp), %rax
movl 0x60(%rax), %eax
imulq $0x70, %rax, %rsi
callq 0x2c8b0
movq -0x10(%rbp), %rcx
movq %rax, 0x78(%rcx)
cmpq $0x0, %rax
jne 0x325a7
jmp 0x3253e
movq -0x10(%rbp), %rax
movl $0x7d8, 0x108(%rax) # imm = 0x7D8
movq -0x10(%rbp), %rdi
addq $0x30d, %rdi # imm = 0x30D
leaq 0x37e32(%rip), %rax # 0x6a390
movq (%rax), %rsi
movl $0x5, %edx
callq 0x13210
movq -0x10(%rbp), %rax
movb $0x0, 0x312(%rax)
movq -0x10(%rbp), %rdi
addq $0x10c, %rdi # imm = 0x10C
leaq 0x37e18(%rip), %rax # 0x6a3a0
movq 0x40(%rax), %rsi
movl $0x200, %edx # imm = 0x200
callq 0x13210
movq -0x10(%rbp), %rax
movb $0x0, 0x30b(%rax)
movb $0x1, -0x1(%rbp)
jmp 0x325d0
movq -0x10(%rbp), %rax
movq 0x78(%rax), %rdi
movq -0x10(%rbp), %rax
movl 0x60(%rax), %eax
imulq $0x70, %rax, %rdx
xorl %esi, %esi
callq 0x13250
movq -0x10(%rbp), %rax
movl $0x1, 0x50(%rax)
movb $0x0, -0x1(%rbp)
movb -0x1(%rbp), %al
addq $0x30, %rsp
popq %rbp
retq
nopl (%rax)
| mthd_stmt_read_prepare_response:
push rbp
mov rbp, rsp
sub rsp, 30h
mov [rbp+var_10], rdi
mov rax, [rbp+var_10]
mov rdi, [rax+38h]
call ma_net_safe_read
mov [rbp+var_18], rax
mov ecx, 0FFFFFFFFh
cmp rax, rcx
jnz short loc_32210
mov [rbp+var_1], 1
jmp loc_325D0
loc_32210:
mov rax, [rbp+var_10]
mov rax, [rax+38h]
mov rax, [rax+20h]
mov [rbp+var_20], rax
mov rax, [rbp+var_20]
movzx ecx, byte ptr [rax]
mov eax, 0FFh
cmp eax, ecx
jnz short loc_32239
mov [rbp+var_1], 1
jmp loc_325D0
loc_32239:
mov rax, [rbp+var_20]
add rax, 1
mov [rbp+var_20], rax
mov rax, [rbp+var_20]
movzx eax, byte ptr [rax]
mov rcx, [rbp+var_20]
movzx ecx, byte ptr [rcx+1]
shl ecx, 8
add eax, ecx
mov rcx, [rbp+var_20]
movzx ecx, byte ptr [rcx+2]
shl ecx, 10h
add eax, ecx
mov rcx, [rbp+var_20]
movzx ecx, byte ptr [rcx+3]
shl ecx, 18h
add eax, ecx
mov eax, eax
mov ecx, eax
mov rax, [rbp+var_10]
mov [rax+40h], rcx
mov rax, [rbp+var_20]
add rax, 4
mov [rbp+var_20], rax
mov rax, [rbp+var_20]
movzx eax, byte ptr [rax]
movzx eax, ax
mov rcx, [rbp+var_20]
movzx ecx, byte ptr [rcx+1]
movzx ecx, cx
shl ecx, 8
add eax, ecx
movzx ecx, ax
mov rax, [rbp+var_10]
mov [rax+60h], ecx
mov rax, [rbp+var_20]
add rax, 2
mov [rbp+var_20], rax
mov rax, [rbp+var_20]
movzx eax, byte ptr [rax]
movzx eax, ax
mov rcx, [rbp+var_20]
movzx ecx, byte ptr [rcx+1]
movzx ecx, cx
shl ecx, 8
add eax, ecx
movzx ecx, ax
mov rax, [rbp+var_10]
mov [rax+64h], ecx
mov rax, [rbp+var_20]
add rax, 2
mov [rbp+var_20], rax
mov rax, [rbp+var_20]
add rax, 1
mov [rbp+var_20], rax
mov rax, [rbp+var_20]
movzx eax, byte ptr [rax]
movzx eax, ax
mov rcx, [rbp+var_20]
movzx ecx, byte ptr [rcx+1]
movzx ecx, cx
shl ecx, 8
add eax, ecx
movzx ecx, ax
mov rax, [rbp+var_10]
mov [rax+0F0h], ecx
mov rax, [rbp+var_10]
mov rax, [rax+38h]
mov [rax+388h], ecx
mov rax, [rbp+var_10]
cmp dword ptr [rax+64h], 0
jz short loc_32360
mov rax, [rbp+var_10]
mov rax, [rax+38h]
mov rax, [rax+4D0h]
mov rax, [rax+58h]
mov rdi, [rbp+var_10]
call rax
movsx eax, al
cmp eax, 0
jz short loc_32360
mov [rbp+var_1], 1
jmp loc_325D0
loc_32360:
mov rax, [rbp+var_10]
cmp dword ptr [rax+60h], 0
jz short loc_32394
mov rax, [rbp+var_10]
mov rax, [rax+38h]
mov rax, [rax+4D0h]
mov rax, [rax+50h]
mov rdi, [rbp+var_10]
call rax
movsx eax, al
cmp eax, 0
jz short loc_32394
mov [rbp+var_1], 1
jmp loc_325D0
loc_32394:
mov rax, [rbp+var_10]
cmp dword ptr [rax+64h], 0
jz loc_324FD
mov rax, [rbp+var_10]
cmp dword ptr [rax+378h], 0
jz loc_32451
mov rax, [rbp+var_10]
mov eax, [rax+378h]
mov rcx, [rbp+var_10]
cmp eax, [rcx+64h]
jz loc_3244C
jmp short $+2
loc_323CC:
mov rax, [rbp+var_10]
mov dword ptr [rax+108h], 7F2h
mov rdi, [rbp+var_10]
add rdi, 30Dh
lea rax, SQLSTATE_UNKNOWN
mov rsi, [rax]
mov edx, 5
call _strncpy
mov rax, [rbp+var_10]
mov byte ptr [rax+312h], 0
mov rdi, [rbp+var_10]
add rdi, 10Ch
lea rax, client_errors
mov rsi, [rax+110h]
mov edx, 200h
call _strncpy
mov rax, [rbp+var_10]
mov byte ptr [rax+30Bh], 0
mov rax, [rbp+var_10]
mov ecx, [rax+378h]
mov rax, [rbp+var_10]
mov [rax+64h], ecx
mov [rbp+var_1], 1
jmp loc_325D0
loc_3244C:
jmp loc_324FB
loc_32451:
mov rdi, [rbp+var_10]
mov rax, [rbp+var_10]
mov eax, [rax+64h]
imul rsi, rax, 70h ; 'p'
call ma_alloc_root
mov rcx, [rbp+var_10]
mov [rcx+70h], rax
cmp rax, 0
jnz short loc_324E1
jmp short $+2
loc_32475:
mov rax, [rbp+var_10]
mov dword ptr [rax+108h], 7D8h
mov rdi, [rbp+var_10]
add rdi, 30Dh
lea rax, SQLSTATE_UNKNOWN
mov rsi, [rax]
mov edx, 5
call _strncpy
mov rax, [rbp+var_10]
mov byte ptr [rax+312h], 0
mov rdi, [rbp+var_10]
add rdi, 10Ch
lea rax, client_errors
mov rsi, [rax+40h]
mov edx, 200h
call _strncpy
mov rax, [rbp+var_10]
mov byte ptr [rax+30Bh], 0
mov [rbp+var_1], 1
jmp loc_325D0
loc_324E1:
mov rax, [rbp+var_10]
mov rdi, [rax+70h]
mov rax, [rbp+var_10]
mov eax, [rax+64h]
imul rdx, rax, 70h ; 'p'
xor esi, esi
call _memset
loc_324FB:
jmp short $+2
loc_324FD:
mov rax, [rbp+var_10]
cmp dword ptr [rax+60h], 0
jz loc_325C1
mov rax, [rbp+var_10]
mov rax, [rax+340h]
mov [rbp+var_28], rax
mov rdi, [rbp+var_28]
mov rax, [rbp+var_10]
mov eax, [rax+60h]
imul rsi, rax, 70h ; 'p'
call ma_alloc_root
mov rcx, [rbp+var_10]
mov [rcx+78h], rax
cmp rax, 0
jnz short loc_325A7
jmp short $+2
loc_3253E:
mov rax, [rbp+var_10]
mov dword ptr [rax+108h], 7D8h
mov rdi, [rbp+var_10]
add rdi, 30Dh
lea rax, SQLSTATE_UNKNOWN
mov rsi, [rax]
mov edx, 5
call _strncpy
mov rax, [rbp+var_10]
mov byte ptr [rax+312h], 0
mov rdi, [rbp+var_10]
add rdi, 10Ch
lea rax, client_errors
mov rsi, [rax+40h]
mov edx, 200h
call _strncpy
mov rax, [rbp+var_10]
mov byte ptr [rax+30Bh], 0
mov [rbp+var_1], 1
jmp short loc_325D0
loc_325A7:
mov rax, [rbp+var_10]
mov rdi, [rax+78h]
mov rax, [rbp+var_10]
mov eax, [rax+60h]
imul rdx, rax, 70h ; 'p'
xor esi, esi
call _memset
loc_325C1:
mov rax, [rbp+var_10]
mov dword ptr [rax+50h], 1
mov [rbp+var_1], 0
loc_325D0:
mov al, [rbp+var_1]
add rsp, 30h
pop rbp
retn
| char mthd_stmt_read_prepare_response(long long a1, long long a2, long long a3, long long a4, int a5, int a6)
{
int v6; // ecx
char *v7; // rax
char *v8; // rax
unsigned __int8 *v10; // [rsp+10h] [rbp-20h]
unsigned __int8 *v11; // [rsp+10h] [rbp-20h]
if ( ma_net_safe_read(*(_QWORD *)(a1 + 56), a2, a3, a4, a5, a6) != 0xFFFFFFFFLL )
{
v10 = *(unsigned __int8 **)(*(_QWORD *)(a1 + 56) + 32LL);
if ( *v10 == 255 )
return 1;
v11 = v10 + 1;
*(_QWORD *)(a1 + 64) = (v11[3] << 24) + (v11[2] << 16) + (v11[1] << 8) + (unsigned int)*v11;
v11 += 4;
*(_DWORD *)(a1 + 96) = (unsigned __int16)((v11[1] << 8) + *v11);
v11 += 2;
*(_DWORD *)(a1 + 100) = (unsigned __int16)((v11[1] << 8) + *v11);
v6 = (unsigned __int16)((v11[4] << 8) + v11[3]);
*(_DWORD *)(a1 + 240) = v6;
*(_DWORD *)(*(_QWORD *)(a1 + 56) + 904LL) = v6;
if ( *(_DWORD *)(a1 + 100)
&& (*(unsigned __int8 ( **)(long long))(*(_QWORD *)(*(_QWORD *)(a1 + 56) + 1232LL) + 88LL))(a1) )
{
return 1;
}
if ( *(_DWORD *)(a1 + 96)
&& (*(unsigned __int8 ( **)(long long))(*(_QWORD *)(*(_QWORD *)(a1 + 56) + 1232LL) + 80LL))(a1) )
{
return 1;
}
if ( *(_DWORD *)(a1 + 100) )
{
if ( *(_DWORD *)(a1 + 888) )
{
if ( *(_DWORD *)(a1 + 888) != *(_DWORD *)(a1 + 100) )
{
*(_DWORD *)(a1 + 264) = 2034;
strncpy(a1 + 781, SQLSTATE_UNKNOWN, 5LL);
*(_BYTE *)(a1 + 786) = 0;
strncpy(a1 + 268, client_errors[34], 512LL);
*(_BYTE *)(a1 + 779) = 0;
*(_DWORD *)(a1 + 100) = *(_DWORD *)(a1 + 888);
return 1;
}
}
else
{
v7 = ma_alloc_root((_QWORD **)a1, 112LL * *(unsigned int *)(a1 + 100));
*(_QWORD *)(a1 + 112) = v7;
if ( !v7 )
goto LABEL_17;
memset(*(_QWORD *)(a1 + 112), 0LL, 112LL * *(unsigned int *)(a1 + 100));
}
}
if ( !*(_DWORD *)(a1 + 96) )
{
LABEL_22:
*(_DWORD *)(a1 + 80) = 1;
return 0;
}
v8 = ma_alloc_root(*(_QWORD ***)(a1 + 832), 112LL * *(unsigned int *)(a1 + 96));
*(_QWORD *)(a1 + 120) = v8;
if ( v8 )
{
memset(*(_QWORD *)(a1 + 120), 0LL, 112LL * *(unsigned int *)(a1 + 96));
goto LABEL_22;
}
LABEL_17:
*(_DWORD *)(a1 + 264) = 2008;
strncpy(a1 + 781, SQLSTATE_UNKNOWN, 5LL);
*(_BYTE *)(a1 + 786) = 0;
strncpy(a1 + 268, client_errors[8], 512LL);
*(_BYTE *)(a1 + 779) = 0;
return 1;
}
return 1;
}
| mthd_stmt_read_prepare_response:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x30
MOV qword ptr [RBP + -0x10],RDI
MOV RAX,qword ptr [RBP + -0x10]
MOV RDI,qword ptr [RAX + 0x38]
CALL 0x0011dbb0
MOV qword ptr [RBP + -0x18],RAX
MOV ECX,0xffffffff
CMP RAX,RCX
JNZ 0x00132210
MOV byte ptr [RBP + -0x1],0x1
JMP 0x001325d0
LAB_00132210:
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x38]
MOV RAX,qword ptr [RAX + 0x20]
MOV qword ptr [RBP + -0x20],RAX
MOV RAX,qword ptr [RBP + -0x20]
MOVZX ECX,byte ptr [RAX]
MOV EAX,0xff
CMP EAX,ECX
JNZ 0x00132239
MOV byte ptr [RBP + -0x1],0x1
JMP 0x001325d0
LAB_00132239:
MOV RAX,qword ptr [RBP + -0x20]
ADD RAX,0x1
MOV qword ptr [RBP + -0x20],RAX
MOV RAX,qword ptr [RBP + -0x20]
MOVZX EAX,byte ptr [RAX]
MOV RCX,qword ptr [RBP + -0x20]
MOVZX ECX,byte ptr [RCX + 0x1]
SHL ECX,0x8
ADD EAX,ECX
MOV RCX,qword ptr [RBP + -0x20]
MOVZX ECX,byte ptr [RCX + 0x2]
SHL ECX,0x10
ADD EAX,ECX
MOV RCX,qword ptr [RBP + -0x20]
MOVZX ECX,byte ptr [RCX + 0x3]
SHL ECX,0x18
ADD EAX,ECX
MOV EAX,EAX
MOV ECX,EAX
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX + 0x40],RCX
MOV RAX,qword ptr [RBP + -0x20]
ADD RAX,0x4
MOV qword ptr [RBP + -0x20],RAX
MOV RAX,qword ptr [RBP + -0x20]
MOVZX EAX,byte ptr [RAX]
MOVZX EAX,AX
MOV RCX,qword ptr [RBP + -0x20]
MOVZX ECX,byte ptr [RCX + 0x1]
MOVZX ECX,CX
SHL ECX,0x8
ADD EAX,ECX
MOVZX ECX,AX
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0x60],ECX
MOV RAX,qword ptr [RBP + -0x20]
ADD RAX,0x2
MOV qword ptr [RBP + -0x20],RAX
MOV RAX,qword ptr [RBP + -0x20]
MOVZX EAX,byte ptr [RAX]
MOVZX EAX,AX
MOV RCX,qword ptr [RBP + -0x20]
MOVZX ECX,byte ptr [RCX + 0x1]
MOVZX ECX,CX
SHL ECX,0x8
ADD EAX,ECX
MOVZX ECX,AX
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0x64],ECX
MOV RAX,qword ptr [RBP + -0x20]
ADD RAX,0x2
MOV qword ptr [RBP + -0x20],RAX
MOV RAX,qword ptr [RBP + -0x20]
ADD RAX,0x1
MOV qword ptr [RBP + -0x20],RAX
MOV RAX,qword ptr [RBP + -0x20]
MOVZX EAX,byte ptr [RAX]
MOVZX EAX,AX
MOV RCX,qword ptr [RBP + -0x20]
MOVZX ECX,byte ptr [RCX + 0x1]
MOVZX ECX,CX
SHL ECX,0x8
ADD EAX,ECX
MOVZX ECX,AX
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0xf0],ECX
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x38]
MOV dword ptr [RAX + 0x388],ECX
MOV RAX,qword ptr [RBP + -0x10]
CMP dword ptr [RAX + 0x64],0x0
JZ 0x00132360
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x38]
MOV RAX,qword ptr [RAX + 0x4d0]
MOV RAX,qword ptr [RAX + 0x58]
MOV RDI,qword ptr [RBP + -0x10]
CALL RAX
MOVSX EAX,AL
CMP EAX,0x0
JZ 0x00132360
MOV byte ptr [RBP + -0x1],0x1
JMP 0x001325d0
LAB_00132360:
MOV RAX,qword ptr [RBP + -0x10]
CMP dword ptr [RAX + 0x60],0x0
JZ 0x00132394
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x38]
MOV RAX,qword ptr [RAX + 0x4d0]
MOV RAX,qword ptr [RAX + 0x50]
MOV RDI,qword ptr [RBP + -0x10]
CALL RAX
MOVSX EAX,AL
CMP EAX,0x0
JZ 0x00132394
MOV byte ptr [RBP + -0x1],0x1
JMP 0x001325d0
LAB_00132394:
MOV RAX,qword ptr [RBP + -0x10]
CMP dword ptr [RAX + 0x64],0x0
JZ 0x001324fd
MOV RAX,qword ptr [RBP + -0x10]
CMP dword ptr [RAX + 0x378],0x0
JZ 0x00132451
MOV RAX,qword ptr [RBP + -0x10]
MOV EAX,dword ptr [RAX + 0x378]
MOV RCX,qword ptr [RBP + -0x10]
CMP EAX,dword ptr [RCX + 0x64]
JZ 0x0013244c
JMP 0x001323cc
LAB_001323cc:
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0x108],0x7f2
MOV RDI,qword ptr [RBP + -0x10]
ADD RDI,0x30d
LEA RAX,[0x16a390]
MOV RSI,qword ptr [RAX]
MOV EDX,0x5
CALL 0x00113210
MOV RAX,qword ptr [RBP + -0x10]
MOV byte ptr [RAX + 0x312],0x0
MOV RDI,qword ptr [RBP + -0x10]
ADD RDI,0x10c
LEA RAX,[0x16a3a0]
MOV RSI,qword ptr [RAX + 0x110]
MOV EDX,0x200
CALL 0x00113210
MOV RAX,qword ptr [RBP + -0x10]
MOV byte ptr [RAX + 0x30b],0x0
MOV RAX,qword ptr [RBP + -0x10]
MOV ECX,dword ptr [RAX + 0x378]
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0x64],ECX
MOV byte ptr [RBP + -0x1],0x1
JMP 0x001325d0
LAB_0013244c:
JMP 0x001324fb
LAB_00132451:
MOV RDI,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RBP + -0x10]
MOV EAX,dword ptr [RAX + 0x64]
IMUL RSI,RAX,0x70
CALL 0x0012c8b0
MOV RCX,qword ptr [RBP + -0x10]
MOV qword ptr [RCX + 0x70],RAX
CMP RAX,0x0
JNZ 0x001324e1
JMP 0x00132475
LAB_00132475:
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0x108],0x7d8
MOV RDI,qword ptr [RBP + -0x10]
ADD RDI,0x30d
LEA RAX,[0x16a390]
MOV RSI,qword ptr [RAX]
MOV EDX,0x5
CALL 0x00113210
MOV RAX,qword ptr [RBP + -0x10]
MOV byte ptr [RAX + 0x312],0x0
MOV RDI,qword ptr [RBP + -0x10]
ADD RDI,0x10c
LEA RAX,[0x16a3a0]
MOV RSI,qword ptr [RAX + 0x40]
MOV EDX,0x200
CALL 0x00113210
MOV RAX,qword ptr [RBP + -0x10]
MOV byte ptr [RAX + 0x30b],0x0
MOV byte ptr [RBP + -0x1],0x1
JMP 0x001325d0
LAB_001324e1:
MOV RAX,qword ptr [RBP + -0x10]
MOV RDI,qword ptr [RAX + 0x70]
MOV RAX,qword ptr [RBP + -0x10]
MOV EAX,dword ptr [RAX + 0x64]
IMUL RDX,RAX,0x70
XOR ESI,ESI
CALL 0x00113250
LAB_001324fb:
JMP 0x001324fd
LAB_001324fd:
MOV RAX,qword ptr [RBP + -0x10]
CMP dword ptr [RAX + 0x60],0x0
JZ 0x001325c1
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x340]
MOV qword ptr [RBP + -0x28],RAX
MOV RDI,qword ptr [RBP + -0x28]
MOV RAX,qword ptr [RBP + -0x10]
MOV EAX,dword ptr [RAX + 0x60]
IMUL RSI,RAX,0x70
CALL 0x0012c8b0
MOV RCX,qword ptr [RBP + -0x10]
MOV qword ptr [RCX + 0x78],RAX
CMP RAX,0x0
JNZ 0x001325a7
JMP 0x0013253e
LAB_0013253e:
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0x108],0x7d8
MOV RDI,qword ptr [RBP + -0x10]
ADD RDI,0x30d
LEA RAX,[0x16a390]
MOV RSI,qword ptr [RAX]
MOV EDX,0x5
CALL 0x00113210
MOV RAX,qword ptr [RBP + -0x10]
MOV byte ptr [RAX + 0x312],0x0
MOV RDI,qword ptr [RBP + -0x10]
ADD RDI,0x10c
LEA RAX,[0x16a3a0]
MOV RSI,qword ptr [RAX + 0x40]
MOV EDX,0x200
CALL 0x00113210
MOV RAX,qword ptr [RBP + -0x10]
MOV byte ptr [RAX + 0x30b],0x0
MOV byte ptr [RBP + -0x1],0x1
JMP 0x001325d0
LAB_001325a7:
MOV RAX,qword ptr [RBP + -0x10]
MOV RDI,qword ptr [RAX + 0x78]
MOV RAX,qword ptr [RBP + -0x10]
MOV EAX,dword ptr [RAX + 0x60]
IMUL RDX,RAX,0x70
XOR ESI,ESI
CALL 0x00113250
LAB_001325c1:
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0x50],0x1
MOV byte ptr [RBP + -0x1],0x0
LAB_001325d0:
MOV AL,byte ptr [RBP + -0x1]
ADD RSP,0x30
POP RBP
RET
|
int1 mthd_stmt_read_prepare_response(long param_1)
{
char *pcVar1;
char cVar2;
long lVar3;
uint uVar4;
int1 local_9;
lVar3 = ma_net_safe_read(*(int8 *)(param_1 + 0x38));
if (lVar3 == 0xffffffff) {
local_9 = 1;
}
else {
pcVar1 = *(char **)(*(long *)(param_1 + 0x38) + 0x20);
if (*pcVar1 == -1) {
local_9 = 1;
}
else {
*(ulong *)(param_1 + 0x40) =
(ulong)((uint)(byte)pcVar1[1] + (uint)(byte)pcVar1[2] * 0x100 +
(uint)(byte)pcVar1[3] * 0x10000 + (uint)(byte)pcVar1[4] * 0x1000000);
*(uint *)(param_1 + 0x60) = (uint)(byte)pcVar1[5] + (uint)(byte)pcVar1[6] * 0x100 & 0xffff;
*(uint *)(param_1 + 100) = (uint)(byte)pcVar1[7] + (uint)(byte)pcVar1[8] * 0x100 & 0xffff;
uVar4 = (uint)(byte)pcVar1[10] + (uint)(byte)pcVar1[0xb] * 0x100 & 0xffff;
*(uint *)(param_1 + 0xf0) = uVar4;
*(uint *)(*(long *)(param_1 + 0x38) + 0x388) = uVar4;
if ((*(int *)(param_1 + 100) == 0) ||
(cVar2 = (**(code **)(*(long *)(*(long *)(param_1 + 0x38) + 0x4d0) + 0x58))(param_1),
cVar2 == '\0')) {
if ((*(int *)(param_1 + 0x60) == 0) ||
(cVar2 = (**(code **)(*(long *)(*(long *)(param_1 + 0x38) + 0x4d0) + 0x50))(param_1),
cVar2 == '\0')) {
if (*(int *)(param_1 + 100) != 0) {
if (*(int *)(param_1 + 0x378) == 0) {
lVar3 = ma_alloc_root(param_1);
*(long *)(param_1 + 0x70) = lVar3;
if (lVar3 == 0) {
*(int4 *)(param_1 + 0x108) = 0x7d8;
strncpy((char *)(param_1 + 0x30d),SQLSTATE_UNKNOWN,5);
*(int1 *)(param_1 + 0x312) = 0;
strncpy((char *)(param_1 + 0x10c),PTR_s_Client_run_out_of_memory_0016a3e0,0x200);
*(int1 *)(param_1 + 0x30b) = 0;
return 1;
}
memset(*(void **)(param_1 + 0x70),0,(ulong)*(uint *)(param_1 + 100) * 0x70);
}
else if (*(int *)(param_1 + 0x378) != *(int *)(param_1 + 100)) {
*(int4 *)(param_1 + 0x108) = 0x7f2;
strncpy((char *)(param_1 + 0x30d),SQLSTATE_UNKNOWN,5);
*(int1 *)(param_1 + 0x312) = 0;
strncpy((char *)(param_1 + 0x10c),PTR_s_Invalid_parameter_number_0016a4b0,0x200);
*(int1 *)(param_1 + 0x30b) = 0;
*(int4 *)(param_1 + 100) = *(int4 *)(param_1 + 0x378);
return 1;
}
}
if (*(int *)(param_1 + 0x60) != 0) {
lVar3 = ma_alloc_root(*(int8 *)(param_1 + 0x340));
*(long *)(param_1 + 0x78) = lVar3;
if (lVar3 == 0) {
*(int4 *)(param_1 + 0x108) = 0x7d8;
strncpy((char *)(param_1 + 0x30d),SQLSTATE_UNKNOWN,5);
*(int1 *)(param_1 + 0x312) = 0;
strncpy((char *)(param_1 + 0x10c),PTR_s_Client_run_out_of_memory_0016a3e0,0x200);
*(int1 *)(param_1 + 0x30b) = 0;
return 1;
}
memset(*(void **)(param_1 + 0x78),0,(ulong)*(uint *)(param_1 + 0x60) * 0x70);
}
*(int4 *)(param_1 + 0x50) = 1;
local_9 = 0;
}
else {
local_9 = 1;
}
}
else {
local_9 = 1;
}
}
}
return local_9;
}
| |
34,474 | ggml_concat | monkey531[P]llama/ggml/src/ggml.c | struct ggml_tensor * ggml_concat(
struct ggml_context * ctx,
struct ggml_tensor * a,
struct ggml_tensor * b,
int dim) {
GGML_ASSERT(dim >= 0 && dim < GGML_MAX_DIMS);
int64_t ne[GGML_MAX_DIMS];
for (int d = 0; d < GGML_MAX_DIMS; ++d) {
if (d == dim) {
ne[d] = a->ne[d] + b->ne[d];
continue;
}
GGML_ASSERT(a->ne[d] == b->ne[d]);
ne[d] = a->ne[d];
}
struct ggml_tensor * result = ggml_new_tensor(ctx, a->type, GGML_MAX_DIMS, ne);
ggml_set_op_params_i32(result, 0, dim);
result->op = GGML_OP_CONCAT;
result->src[0] = a;
result->src[1] = b;
return result;
} | O0 | c | ggml_concat:
subq $0x58, %rsp
movq %rdi, 0x50(%rsp)
movq %rsi, 0x48(%rsp)
movq %rdx, 0x40(%rsp)
movl %ecx, 0x3c(%rsp)
cmpl $0x0, 0x3c(%rsp)
jl 0x4bee5
cmpl $0x4, 0x3c(%rsp)
jl 0x4bf06
leaq 0x686cb(%rip), %rdi # 0xb45b7
movl $0x91a, %esi # imm = 0x91A
leaq 0x68709(%rip), %rdx # 0xb4601
leaq 0x68897(%rip), %rcx # 0xb4796
movb $0x0, %al
callq 0x46770
movl $0x0, 0xc(%rsp)
cmpl $0x4, 0xc(%rsp)
jge 0x4bfb7
movl 0xc(%rsp), %eax
cmpl 0x3c(%rsp), %eax
jne 0x4bf4d
movq 0x48(%rsp), %rax
movslq 0xc(%rsp), %rcx
movq 0x10(%rax,%rcx,8), %rcx
movq 0x40(%rsp), %rax
movslq 0xc(%rsp), %rdx
addq 0x10(%rax,%rdx,8), %rcx
movslq 0xc(%rsp), %rax
movq %rcx, 0x10(%rsp,%rax,8)
jmp 0x4bfa7
movq 0x48(%rsp), %rax
movslq 0xc(%rsp), %rcx
movq 0x10(%rax,%rcx,8), %rax
movq 0x40(%rsp), %rcx
movslq 0xc(%rsp), %rdx
cmpq 0x10(%rcx,%rdx,8), %rax
je 0x4bf8e
leaq 0x68643(%rip), %rdi # 0xb45b7
movl $0x922, %esi # imm = 0x922
leaq 0x68681(%rip), %rdx # 0xb4601
leaq 0x6882f(%rip), %rcx # 0xb47b6
movb $0x0, %al
callq 0x46770
movq 0x48(%rsp), %rax
movslq 0xc(%rsp), %rcx
movq 0x10(%rax,%rcx,8), %rcx
movslq 0xc(%rsp), %rax
movq %rcx, 0x10(%rsp,%rax,8)
movl 0xc(%rsp), %eax
addl $0x1, %eax
movl %eax, 0xc(%rsp)
jmp 0x4bf0e
movq 0x50(%rsp), %rdi
movq 0x48(%rsp), %rax
movl (%rax), %esi
leaq 0x10(%rsp), %rcx
movl $0x4, %edx
callq 0x40500
movq %rax, (%rsp)
movq (%rsp), %rdi
movl 0x3c(%rsp), %edx
xorl %esi, %esi
callq 0x4c020
movq (%rsp), %rax
movl $0x14, 0x50(%rax)
movq 0x48(%rsp), %rcx
movq (%rsp), %rax
movq %rcx, 0x98(%rax)
movq 0x40(%rsp), %rcx
movq (%rsp), %rax
movq %rcx, 0xa0(%rax)
movq (%rsp), %rax
addq $0x58, %rsp
retq
nopl (%rax)
| ggml_concat:
sub rsp, 58h
mov [rsp+58h+var_8], rdi
mov [rsp+58h+var_10], rsi
mov [rsp+58h+var_18], rdx
mov [rsp+58h+var_1C], ecx
cmp [rsp+58h+var_1C], 0
jl short loc_4BEE5
cmp [rsp+58h+var_1C], 4
jl short loc_4BF06
loc_4BEE5:
lea rdi, aWorkspaceLlm4b; "/workspace/llm4binary/github/2025_star3"...
mov esi, 91Ah
lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed"
lea rcx, aDim0DimGgmlMax; "dim >= 0 && dim < GGML_MAX_DIMS"
mov al, 0
call _ggml_abort
loc_4BF06:
mov [rsp+58h+var_4C], 0
loc_4BF0E:
cmp [rsp+58h+var_4C], 4
jge loc_4BFB7
mov eax, [rsp+58h+var_4C]
cmp eax, [rsp+58h+var_1C]
jnz short loc_4BF4D
mov rax, [rsp+58h+var_10]
movsxd rcx, [rsp+58h+var_4C]
mov rcx, [rax+rcx*8+10h]
mov rax, [rsp+58h+var_18]
movsxd rdx, [rsp+58h+var_4C]
add rcx, [rax+rdx*8+10h]
movsxd rax, [rsp+58h+var_4C]
mov [rsp+rax*8+58h+var_48], rcx
jmp short loc_4BFA7
loc_4BF4D:
mov rax, [rsp+58h+var_10]
movsxd rcx, [rsp+58h+var_4C]
mov rax, [rax+rcx*8+10h]
mov rcx, [rsp+58h+var_18]
movsxd rdx, [rsp+58h+var_4C]
cmp rax, [rcx+rdx*8+10h]
jz short loc_4BF8E
lea rdi, aWorkspaceLlm4b; "/workspace/llm4binary/github/2025_star3"...
mov esi, 922h
lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed"
lea rcx, aANeDBNeD; "a->ne[d] == b->ne[d]"
mov al, 0
call _ggml_abort
loc_4BF8E:
mov rax, [rsp+58h+var_10]
movsxd rcx, [rsp+58h+var_4C]
mov rcx, [rax+rcx*8+10h]
movsxd rax, [rsp+58h+var_4C]
mov [rsp+rax*8+58h+var_48], rcx
loc_4BFA7:
mov eax, [rsp+58h+var_4C]
add eax, 1
mov [rsp+58h+var_4C], eax
jmp loc_4BF0E
loc_4BFB7:
mov rdi, [rsp+58h+var_8]
mov rax, [rsp+58h+var_10]
mov esi, [rax]
lea rcx, [rsp+58h+var_48]
mov edx, 4
call _ggml_new_tensor
mov [rsp+58h+var_58], rax
mov rdi, [rsp+58h+var_58]
mov edx, [rsp+58h+var_1C]
xor esi, esi
call ggml_set_op_params_i32
mov rax, [rsp+58h+var_58]
mov dword ptr [rax+50h], 14h
mov rcx, [rsp+58h+var_10]
mov rax, [rsp+58h+var_58]
mov [rax+98h], rcx
mov rcx, [rsp+58h+var_18]
mov rax, [rsp+58h+var_58]
mov [rax+0A0h], rcx
mov rax, [rsp+58h+var_58]
add rsp, 58h
retn
| long long ggml_concat(long long a1, unsigned int *a2, long long a3, int a4)
{
long long v5; // [rsp+0h] [rbp-58h]
int i; // [rsp+Ch] [rbp-4Ch]
_QWORD v7[5]; // [rsp+10h] [rbp-48h] BYREF
int v8; // [rsp+3Ch] [rbp-1Ch]
long long v9; // [rsp+40h] [rbp-18h]
unsigned int *v10; // [rsp+48h] [rbp-10h]
long long v11; // [rsp+50h] [rbp-8h]
v11 = a1;
v10 = a2;
v9 = a3;
v8 = a4;
if ( a4 < 0 || v8 >= 4 )
ggml_abort(
"/workspace/llm4binary/github/2025_star3/monkey531[P]llama/ggml/src/ggml.c",
2330,
(long long)"GGML_ASSERT(%s) failed",
"dim >= 0 && dim < GGML_MAX_DIMS");
for ( i = 0; i < 4; ++i )
{
if ( i == v8 )
{
v7[i] = *(_QWORD *)(v9 + 8LL * i + 16) + *(_QWORD *)&v10[2 * i + 4];
}
else
{
if ( *(_QWORD *)&v10[2 * i + 4] != *(_QWORD *)(v9 + 8LL * i + 16) )
ggml_abort(
"/workspace/llm4binary/github/2025_star3/monkey531[P]llama/ggml/src/ggml.c",
2338,
(long long)"GGML_ASSERT(%s) failed",
"a->ne[d] == b->ne[d]");
v7[i] = *(_QWORD *)&v10[2 * i + 4];
}
}
v5 = ggml_new_tensor(v11, *v10, 4u, (long long)v7);
ggml_set_op_params_i32(v5, 0LL, (unsigned int)v8);
*(_DWORD *)(v5 + 80) = 20;
*(_QWORD *)(v5 + 152) = v10;
*(_QWORD *)(v5 + 160) = v9;
return v5;
}
| ggml_concat:
SUB RSP,0x58
MOV qword ptr [RSP + 0x50],RDI
MOV qword ptr [RSP + 0x48],RSI
MOV qword ptr [RSP + 0x40],RDX
MOV dword ptr [RSP + 0x3c],ECX
CMP dword ptr [RSP + 0x3c],0x0
JL 0x0014bee5
CMP dword ptr [RSP + 0x3c],0x4
JL 0x0014bf06
LAB_0014bee5:
LEA RDI,[0x1b45b7]
MOV ESI,0x91a
LEA RDX,[0x1b4601]
LEA RCX,[0x1b4796]
MOV AL,0x0
CALL 0x00146770
LAB_0014bf06:
MOV dword ptr [RSP + 0xc],0x0
LAB_0014bf0e:
CMP dword ptr [RSP + 0xc],0x4
JGE 0x0014bfb7
MOV EAX,dword ptr [RSP + 0xc]
CMP EAX,dword ptr [RSP + 0x3c]
JNZ 0x0014bf4d
MOV RAX,qword ptr [RSP + 0x48]
MOVSXD RCX,dword ptr [RSP + 0xc]
MOV RCX,qword ptr [RAX + RCX*0x8 + 0x10]
MOV RAX,qword ptr [RSP + 0x40]
MOVSXD RDX,dword ptr [RSP + 0xc]
ADD RCX,qword ptr [RAX + RDX*0x8 + 0x10]
MOVSXD RAX,dword ptr [RSP + 0xc]
MOV qword ptr [RSP + RAX*0x8 + 0x10],RCX
JMP 0x0014bfa7
LAB_0014bf4d:
MOV RAX,qword ptr [RSP + 0x48]
MOVSXD RCX,dword ptr [RSP + 0xc]
MOV RAX,qword ptr [RAX + RCX*0x8 + 0x10]
MOV RCX,qword ptr [RSP + 0x40]
MOVSXD RDX,dword ptr [RSP + 0xc]
CMP RAX,qword ptr [RCX + RDX*0x8 + 0x10]
JZ 0x0014bf8e
LEA RDI,[0x1b45b7]
MOV ESI,0x922
LEA RDX,[0x1b4601]
LEA RCX,[0x1b47b6]
MOV AL,0x0
CALL 0x00146770
LAB_0014bf8e:
MOV RAX,qword ptr [RSP + 0x48]
MOVSXD RCX,dword ptr [RSP + 0xc]
MOV RCX,qword ptr [RAX + RCX*0x8 + 0x10]
MOVSXD RAX,dword ptr [RSP + 0xc]
MOV qword ptr [RSP + RAX*0x8 + 0x10],RCX
LAB_0014bfa7:
MOV EAX,dword ptr [RSP + 0xc]
ADD EAX,0x1
MOV dword ptr [RSP + 0xc],EAX
JMP 0x0014bf0e
LAB_0014bfb7:
MOV RDI,qword ptr [RSP + 0x50]
MOV RAX,qword ptr [RSP + 0x48]
MOV ESI,dword ptr [RAX]
LEA RCX,[RSP + 0x10]
MOV EDX,0x4
CALL 0x00140500
MOV qword ptr [RSP],RAX
MOV RDI,qword ptr [RSP]
MOV EDX,dword ptr [RSP + 0x3c]
XOR ESI,ESI
CALL 0x0014c020
MOV RAX,qword ptr [RSP]
MOV dword ptr [RAX + 0x50],0x14
MOV RCX,qword ptr [RSP + 0x48]
MOV RAX,qword ptr [RSP]
MOV qword ptr [RAX + 0x98],RCX
MOV RCX,qword ptr [RSP + 0x40]
MOV RAX,qword ptr [RSP]
MOV qword ptr [RAX + 0xa0],RCX
MOV RAX,qword ptr [RSP]
ADD RSP,0x58
RET
|
long ggml_concat(int8 param_1,int4 *param_2,long param_3,int param_4)
{
long lVar1;
int local_4c;
long local_48 [5];
int local_1c;
long local_18;
int4 *local_10;
int8 local_8;
local_1c = param_4;
local_18 = param_3;
local_10 = param_2;
local_8 = param_1;
if ((param_4 < 0) || (3 < param_4)) {
ggml_abort("/workspace/llm4binary/github/2025_star3/monkey531[P]llama/ggml/src/ggml.c",0x91a,
"GGML_ASSERT(%s) failed","dim >= 0 && dim < GGML_MAX_DIMS");
}
for (local_4c = 0; local_4c < 4; local_4c = local_4c + 1) {
if (local_4c == local_1c) {
local_48[local_4c] =
*(long *)(local_10 + (long)local_4c * 2 + 4) +
*(long *)(local_18 + 0x10 + (long)local_4c * 8);
}
else {
if (*(long *)(local_10 + (long)local_4c * 2 + 4) !=
*(long *)(local_18 + 0x10 + (long)local_4c * 8)) {
ggml_abort("/workspace/llm4binary/github/2025_star3/monkey531[P]llama/ggml/src/ggml.c",0x922
,"GGML_ASSERT(%s) failed","a->ne[d] == b->ne[d]");
}
local_48[local_4c] = *(long *)(local_10 + (long)local_4c * 2 + 4);
}
}
lVar1 = ggml_new_tensor(local_8,*local_10,4,local_48);
ggml_set_op_params_i32(lVar1,0,local_1c);
*(int4 *)(lVar1 + 0x50) = 0x14;
*(int4 **)(lVar1 + 0x98) = local_10;
*(long *)(lVar1 + 0xa0) = local_18;
return lVar1;
}
| |
34,475 | ggml_rms_norm_back | ngxson[P]ggml-easy/ggml/src/ggml.c | struct ggml_tensor * ggml_rms_norm_back(
struct ggml_context * ctx,
struct ggml_tensor * a,
struct ggml_tensor * b,
float eps) {
struct ggml_tensor * result = ggml_dup_tensor(ctx, a);
ggml_set_op_params(result, &eps, sizeof(eps));
result->op = GGML_OP_RMS_NORM_BACK;
result->src[0] = a;
result->src[1] = b;
return result;
} | O0 | c | ggml_rms_norm_back:
subq $0x28, %rsp
movq %rdi, 0x20(%rsp)
movq %rsi, 0x18(%rsp)
movq %rdx, 0x10(%rsp)
movss %xmm0, 0xc(%rsp)
movq 0x20(%rsp), %rdi
movq 0x18(%rsp), %rsi
callq 0x43c20
movq %rax, (%rsp)
movq (%rsp), %rdi
leaq 0xc(%rsp), %rsi
movl $0x4, %edx
callq 0x4c4d0
movq (%rsp), %rax
movl $0x18, 0x50(%rax)
movq 0x18(%rsp), %rcx
movq (%rsp), %rax
movq %rcx, 0x98(%rax)
movq 0x10(%rsp), %rcx
movq (%rsp), %rax
movq %rcx, 0xa0(%rax)
movq (%rsp), %rax
addq $0x28, %rsp
retq
nopw %cs:(%rax,%rax)
| ggml_rms_norm_back:
sub rsp, 28h
mov [rsp+28h+var_8], rdi
mov [rsp+28h+var_10], rsi
mov [rsp+28h+var_18], rdx
movss [rsp+28h+var_1C], xmm0
mov rdi, [rsp+28h+var_8]
mov rsi, [rsp+28h+var_10]
call _ggml_dup_tensor
mov [rsp+28h+var_28], rax
mov rdi, [rsp+28h+var_28]
lea rsi, [rsp+28h+var_1C]
mov edx, 4
call ggml_set_op_params
mov rax, [rsp+28h+var_28]
mov dword ptr [rax+50h], 18h
mov rcx, [rsp+28h+var_10]
mov rax, [rsp+28h+var_28]
mov [rax+98h], rcx
mov rcx, [rsp+28h+var_18]
mov rax, [rsp+28h+var_28]
mov [rax+0A0h], rcx
mov rax, [rsp+28h+var_28]
add rsp, 28h
retn
| long long ggml_rms_norm_back(long long a1, unsigned int *a2, long long a3, float a4)
{
long long v5; // [rsp+0h] [rbp-28h]
float v6; // [rsp+Ch] [rbp-1Ch] BYREF
long long v7; // [rsp+10h] [rbp-18h]
unsigned int *v8; // [rsp+18h] [rbp-10h]
long long v9; // [rsp+20h] [rbp-8h]
v9 = a1;
v8 = a2;
v7 = a3;
v6 = a4;
v5 = ggml_dup_tensor(a1, a2);
ggml_set_op_params(v5, (long long)&v6, 4LL);
*(_DWORD *)(v5 + 80) = 24;
*(_QWORD *)(v5 + 152) = v8;
*(_QWORD *)(v5 + 160) = v7;
return v5;
}
| ggml_rms_norm_back:
SUB RSP,0x28
MOV qword ptr [RSP + 0x20],RDI
MOV qword ptr [RSP + 0x18],RSI
MOV qword ptr [RSP + 0x10],RDX
MOVSS dword ptr [RSP + 0xc],XMM0
MOV RDI,qword ptr [RSP + 0x20]
MOV RSI,qword ptr [RSP + 0x18]
CALL 0x00143c20
MOV qword ptr [RSP],RAX
MOV RDI,qword ptr [RSP]
LEA RSI,[RSP + 0xc]
MOV EDX,0x4
CALL 0x0014c4d0
MOV RAX,qword ptr [RSP]
MOV dword ptr [RAX + 0x50],0x18
MOV RCX,qword ptr [RSP + 0x18]
MOV RAX,qword ptr [RSP]
MOV qword ptr [RAX + 0x98],RCX
MOV RCX,qword ptr [RSP + 0x10]
MOV RAX,qword ptr [RSP]
MOV qword ptr [RAX + 0xa0],RCX
MOV RAX,qword ptr [RSP]
ADD RSP,0x28
RET
|
long ggml_rms_norm_back(int4 param_1,int8 param_2,int8 param_3,int8 param_4)
{
long lVar1;
int4 local_1c;
int8 local_18;
int8 local_10;
int8 local_8;
local_1c = param_1;
local_18 = param_4;
local_10 = param_3;
local_8 = param_2;
lVar1 = ggml_dup_tensor(param_2,param_3);
ggml_set_op_params(lVar1,&local_1c,4);
*(int4 *)(lVar1 + 0x50) = 0x18;
*(int8 *)(lVar1 + 0x98) = local_10;
*(int8 *)(lVar1 + 0xa0) = local_18;
return lVar1;
}
| |
34,476 | psi_rwlock_tryrdlock | eloqsql/mysys/my_thr_init.c | ATTRIBUTE_COLD
int psi_rwlock_tryrdlock(mysql_rwlock_t *that, const char *file, uint line)
{
PSI_rwlock_locker_state state;
PSI_rwlock_locker *locker= PSI_RWLOCK_CALL(start_rwlock_rdwait)
(&state, that->m_psi, PSI_RWLOCK_TRYREADLOCK, file, line);
int result= rw_tryrdlock(&that->m_rwlock);
if (locker)
PSI_RWLOCK_CALL(end_rwlock_rdwait)(locker, result);
return result;
} | O0 | c | psi_rwlock_tryrdlock:
pushq %rbp
movq %rsp, %rbp
subq $0x60, %rsp
movq %rdi, -0x8(%rbp)
movq %rsi, -0x10(%rbp)
movl %edx, -0x14(%rbp)
leaq 0x1a7576(%rip), %rax # 0x1ce530
movq (%rax), %rax
movq 0x1a0(%rax), %rax
movq -0x8(%rbp), %rcx
movq 0x90(%rcx), %rsi
movq -0x10(%rbp), %rcx
movl -0x14(%rbp), %r8d
leaq -0x48(%rbp), %rdi
movl $0x2, %edx
callq *%rax
movq %rax, -0x50(%rbp)
movq -0x8(%rbp), %rdi
callq 0x275b0
movl %eax, -0x54(%rbp)
cmpq $0x0, -0x50(%rbp)
je 0x27013
leaq 0x1a7530(%rip), %rax # 0x1ce530
movq (%rax), %rax
movq 0x1a8(%rax), %rax
movq -0x50(%rbp), %rdi
movl -0x54(%rbp), %esi
callq *%rax
movl -0x54(%rbp), %eax
addq $0x60, %rsp
popq %rbp
retq
nopl (%rax)
| psi_rwlock_tryrdlock:
push rbp
mov rbp, rsp
sub rsp, 60h
mov [rbp+var_8], rdi
mov [rbp+var_10], rsi
mov [rbp+var_14], edx
lea rax, PSI_server
mov rax, [rax]
mov rax, [rax+1A0h]
mov rcx, [rbp+var_8]
mov rsi, [rcx+90h]
mov rcx, [rbp+var_10]
mov r8d, [rbp+var_14]
lea rdi, [rbp+var_48]
mov edx, 2
call rax
mov [rbp+var_50], rax
mov rdi, [rbp+var_8]
call my_rw_tryrdlock
mov [rbp+var_54], eax
cmp [rbp+var_50], 0
jz short loc_27013
lea rax, PSI_server
mov rax, [rax]
mov rax, [rax+1A8h]
mov rdi, [rbp+var_50]
mov esi, [rbp+var_54]
call rax
loc_27013:
mov eax, [rbp+var_54]
add rsp, 60h
pop rbp
retn
| long long psi_rwlock_tryrdlock(long long a1, long long a2, unsigned int a3)
{
unsigned int v4; // [rsp+Ch] [rbp-54h]
long long v5; // [rsp+10h] [rbp-50h]
_BYTE v6[52]; // [rsp+18h] [rbp-48h] BYREF
unsigned int v7; // [rsp+4Ch] [rbp-14h]
long long v8; // [rsp+50h] [rbp-10h]
long long v9; // [rsp+58h] [rbp-8h]
v9 = a1;
v8 = a2;
v7 = a3;
v5 = ((long long ( *)(_BYTE *, _QWORD, long long, long long, _QWORD))PSI_server[52])(
v6,
*(_QWORD *)(a1 + 144),
2LL,
a2,
a3);
v4 = my_rw_tryrdlock(v9);
if ( v5 )
((void ( *)(long long, _QWORD))PSI_server[53])(v5, v4);
return v4;
}
| psi_rwlock_tryrdlock:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x60
MOV qword ptr [RBP + -0x8],RDI
MOV qword ptr [RBP + -0x10],RSI
MOV dword ptr [RBP + -0x14],EDX
LEA RAX,[0x2ce530]
MOV RAX,qword ptr [RAX]
MOV RAX,qword ptr [RAX + 0x1a0]
MOV RCX,qword ptr [RBP + -0x8]
MOV RSI,qword ptr [RCX + 0x90]
MOV RCX,qword ptr [RBP + -0x10]
MOV R8D,dword ptr [RBP + -0x14]
LEA RDI,[RBP + -0x48]
MOV EDX,0x2
CALL RAX
MOV qword ptr [RBP + -0x50],RAX
MOV RDI,qword ptr [RBP + -0x8]
CALL 0x001275b0
MOV dword ptr [RBP + -0x54],EAX
CMP qword ptr [RBP + -0x50],0x0
JZ 0x00127013
LEA RAX,[0x2ce530]
MOV RAX,qword ptr [RAX]
MOV RAX,qword ptr [RAX + 0x1a8]
MOV RDI,qword ptr [RBP + -0x50]
MOV ESI,dword ptr [RBP + -0x54]
CALL RAX
LAB_00127013:
MOV EAX,dword ptr [RBP + -0x54]
ADD RSP,0x60
POP RBP
RET
|
int4 psi_rwlock_tryrdlock(long param_1,int8 param_2,int4 param_3)
{
int4 uVar1;
long lVar2;
int1 local_50 [52];
int4 local_1c;
int8 local_18;
long local_10;
local_1c = param_3;
local_18 = param_2;
local_10 = param_1;
lVar2 = (**(code **)(PSI_server + 0x1a0))
(local_50,*(int8 *)(param_1 + 0x90),2,param_2,param_3);
uVar1 = my_rw_tryrdlock(local_10);
if (lVar2 != 0) {
(**(code **)(PSI_server + 0x1a8))(lVar2,uVar1);
}
return uVar1;
}
| |
34,477 | get_model_or_exit(int, char**) | monkey531[P]llama/tests/get-model.cpp | char * get_model_or_exit(int argc, char *argv[]) {
char * model_path;
if (argc > 1) {
model_path = argv[1];
} else {
model_path = getenv("LLAMACPP_TEST_MODELFILE");
if (!model_path || strlen(model_path) == 0) {
fprintf(stderr, "\033[33mWARNING: No model file provided. Skipping this test. Set LLAMACPP_TEST_MODELFILE=<gguf_model_path> to silence this warning and run this test.\n\033[0m");
exit(EXIT_SUCCESS);
}
}
return model_path;
} | O2 | cpp | get_model_or_exit(int, char**):
pushq %rax
cmpl $0x2, %edi
jl 0x2f460
movq 0x8(%rsi), %rax
jmp 0x2f476
leaq 0x3721(%rip), %rdi # 0x32b88
callq 0xf760
testq %rax, %rax
je 0x2f478
cmpb $0x0, (%rax)
je 0x2f478
popq %rcx
retq
movq 0x11b41(%rip), %rax # 0x40fc0
movq (%rax), %rcx
leaq 0x3717(%rip), %rdi # 0x32ba0
pushq $0x1
popq %rdx
movl $0x97, %esi
callq 0xfc70
xorl %edi, %edi
callq 0xf750
| _Z17get_model_or_exitiPPc:
push rax
cmp edi, 2
jl short loc_2F460
mov rax, [rsi+8]
jmp short loc_2F476
loc_2F460:
lea rdi, aLlamacppTestMo; "LLAMACPP_TEST_MODELFILE"
call _getenv
test rax, rax
jz short loc_2F478
cmp byte ptr [rax], 0
jz short loc_2F478
loc_2F476:
pop rcx
retn
loc_2F478:
mov rax, cs:stderr_ptr
mov rcx, [rax]
lea rdi, a33mwarningNoMo; "\x1B[33mWARNING: No model file provided"...
push 1
pop rdx
mov esi, 97h
call _fwrite
xor edi, edi
call _exit
| char * get_model_or_exit(int a1, char **a2)
{
char *result; // rax
if ( a1 >= 2 )
return a2[1];
result = (char *)getenv("LLAMACPP_TEST_MODELFILE", a2);
if ( !result || !*result )
{
fwrite(
"\x1B[33mWARNING: No model file provided. Skipping this test. Set LLAMACPP_TEST_MODELFILE=<gguf_model_path> to sile"
"nce this warning and run this test.\n"
"\x1B[0m",
151LL,
1LL,
stderr);
exit(0LL);
}
return result;
}
| get_model_or_exit:
PUSH RAX
CMP EDI,0x2
JL 0x0012f460
MOV RAX,qword ptr [RSI + 0x8]
JMP 0x0012f476
LAB_0012f460:
LEA RDI,[0x132b88]
CALL 0x0010f760
TEST RAX,RAX
JZ 0x0012f478
CMP byte ptr [RAX],0x0
JZ 0x0012f478
LAB_0012f476:
POP RCX
RET
LAB_0012f478:
MOV RAX,qword ptr [0x00140fc0]
MOV RCX,qword ptr [RAX]
LEA RDI,[0x132ba0]
PUSH 0x1
POP RDX
MOV ESI,0x97
CALL 0x0010fc70
XOR EDI,EDI
CALL 0x0010f750
|
/* get_model_or_exit(int, char**) */
char * get_model_or_exit(int param_1,char **param_2)
{
char *pcVar1;
if (param_1 < 2) {
pcVar1 = getenv("LLAMACPP_TEST_MODELFILE");
if ((pcVar1 == (char *)0x0) || (*pcVar1 == '\0')) {
fwrite(&DAT_00132ba0,0x97,1,*(FILE **)PTR_stderr_00140fc0);
/* WARNING: Subroutine does not return */
exit(0);
}
}
else {
pcVar1 = param_2[1];
}
return pcVar1;
}
| |
34,478 | linenoiseHistoryAdd | ericcurtin[P]linenoise/linenoise.cpp | int linenoiseHistoryAdd(const char * line) {
char * linecopy;
if (history_max_len == 0) {
return 0;
}
/* Initialization on first call. */
if (history == NULL) {
history = (char **) malloc(sizeof(char *) * history_max_len);
if (history == NULL) {
return 0;
}
memset(history, 0, (sizeof(char *) * history_max_len));
}
/* Don't add duplicated lines. */
if (history_len && !strcmp(history[history_len - 1], line)) {
return 0;
}
/* Add an heap allocated copy of the line in the history.
* If we reached the max length, remove the older line. */
linecopy = strdup(line);
if (!linecopy) {
return 0;
}
if (history_len == history_max_len) {
free(history[0]);
memmove(history, history + 1, sizeof(char *) * (history_max_len - 1));
history_len--;
}
history[history_len] = linecopy;
history_len++;
return 1;
} | O0 | cpp | linenoiseHistoryAdd:
pushq %rbp
movq %rsp, %rbp
subq $0x20, %rsp
movq %rdi, -0x10(%rbp)
cmpl $0x0, 0xc3a5(%rip) # 0x10278
jne 0x3ee1
movl $0x0, -0x4(%rbp)
jmp 0x4007
cmpq $0x0, 0xc3d7(%rip) # 0x102c0
jne 0x3f31
movslq 0xc386(%rip), %rdi # 0x10278
shlq $0x3, %rdi
callq 0x22e0
movq %rax, 0xc3be(%rip) # 0x102c0
cmpq $0x0, 0xc3b6(%rip) # 0x102c0
jne 0x3f18
movl $0x0, -0x4(%rbp)
jmp 0x4007
movq 0xc3a1(%rip), %rdi # 0x102c0
movslq 0xc352(%rip), %rdx # 0x10278
shlq $0x3, %rdx
xorl %esi, %esi
callq 0x2110
cmpl $0x0, 0xc390(%rip) # 0x102c8
je 0x3f6b
movq 0xc37f(%rip), %rax # 0x102c0
movl 0xc381(%rip), %ecx # 0x102c8
subl $0x1, %ecx
movslq %ecx, %rcx
movq (%rax,%rcx,8), %rdi
movq -0x10(%rbp), %rsi
callq 0x2300
cmpl $0x0, %eax
jne 0x3f6b
movl $0x0, -0x4(%rbp)
jmp 0x4007
movq -0x10(%rbp), %rdi
callq 0x2430
movq %rax, -0x18(%rbp)
cmpq $0x0, -0x18(%rbp)
jne 0x3f88
movl $0x0, -0x4(%rbp)
jmp 0x4007
movl 0xc33a(%rip), %eax # 0x102c8
cmpl 0xc2e4(%rip), %eax # 0x10278
jne 0x3fdb
movq 0xc323(%rip), %rax # 0x102c0
movq (%rax), %rdi
callq 0x2478
movq 0xc314(%rip), %rdi # 0x102c0
movq 0xc30d(%rip), %rsi # 0x102c0
addq $0x8, %rsi
movl 0xc2bb(%rip), %eax # 0x10278
subl $0x1, %eax
movslq %eax, %rdx
shlq $0x3, %rdx
callq 0x2390
movl 0xc2f6(%rip), %eax # 0x102c8
addl $-0x1, %eax
movl %eax, 0xc2ed(%rip) # 0x102c8
movq -0x18(%rbp), %rdx
movq 0xc2da(%rip), %rax # 0x102c0
movslq 0xc2db(%rip), %rcx # 0x102c8
movq %rdx, (%rax,%rcx,8)
movl 0xc2d1(%rip), %eax # 0x102c8
addl $0x1, %eax
movl %eax, 0xc2c8(%rip) # 0x102c8
movl $0x1, -0x4(%rbp)
movl -0x4(%rbp), %eax
addq $0x20, %rsp
popq %rbp
retq
| linenoiseHistoryAdd:
push rbp
mov rbp, rsp
sub rsp, 20h
mov [rbp+var_10], rdi
cmp cs:_ZL15history_max_len, 0; history_max_len
jnz short loc_3EE1
mov [rbp+var_4], 0
jmp loc_4007
loc_3EE1:
cmp cs:_ZL7history, 0; history
jnz short loc_3F31
movsxd rdi, cs:_ZL15history_max_len; history_max_len
shl rdi, 3
call _malloc
mov cs:_ZL7history, rax; history
cmp cs:_ZL7history, 0; history
jnz short loc_3F18
mov [rbp+var_4], 0
jmp loc_4007
loc_3F18:
mov rdi, cs:_ZL7history; history
movsxd rdx, cs:_ZL15history_max_len; history_max_len
shl rdx, 3
xor esi, esi
call _memset
loc_3F31:
cmp cs:_ZL11history_len, 0; history_len
jz short loc_3F6B
mov rax, cs:_ZL7history; history
mov ecx, cs:_ZL11history_len; history_len
sub ecx, 1
movsxd rcx, ecx
mov rdi, [rax+rcx*8]
mov rsi, [rbp+var_10]
call _strcmp
cmp eax, 0
jnz short loc_3F6B
mov [rbp+var_4], 0
jmp loc_4007
loc_3F6B:
mov rdi, [rbp+var_10]
call _strdup
mov [rbp+var_18], rax
cmp [rbp+var_18], 0
jnz short loc_3F88
mov [rbp+var_4], 0
jmp short loc_4007
loc_3F88:
mov eax, cs:_ZL11history_len; history_len
cmp eax, cs:_ZL15history_max_len; history_max_len
jnz short loc_3FDB
mov rax, cs:_ZL7history; history
mov rdi, [rax]
call free
mov rdi, cs:_ZL7history; history
mov rsi, cs:_ZL7history; history
add rsi, 8
mov eax, cs:_ZL15history_max_len; history_max_len
sub eax, 1
movsxd rdx, eax
shl rdx, 3
call _memmove
mov eax, cs:_ZL11history_len; history_len
add eax, 0FFFFFFFFh
mov cs:_ZL11history_len, eax; history_len
loc_3FDB:
mov rdx, [rbp+var_18]
mov rax, cs:_ZL7history; history
movsxd rcx, cs:_ZL11history_len; history_len
mov [rax+rcx*8], rdx
mov eax, cs:_ZL11history_len; history_len
add eax, 1
mov cs:_ZL11history_len, eax; history_len
mov [rbp+var_4], 1
loc_4007:
mov eax, [rbp+var_4]
add rsp, 20h
pop rbp
retn
| long long linenoiseHistoryAdd(long long a1)
{
long long v2; // [rsp+8h] [rbp-18h]
if ( history_max_len )
{
if ( !history )
{
history = malloc(8LL * history_max_len);
if ( !history )
return 0;
memset(history, 0LL, 8LL * history_max_len);
}
if ( history_len && !(unsigned int)strcmp(*(_QWORD *)(history + 8LL * (history_len - 1)), a1) )
{
return 0;
}
else
{
v2 = strdup(a1);
if ( v2 )
{
if ( history_len == history_max_len )
{
free(*(_QWORD *)history);
memmove(history, history + 8, 8LL * (history_max_len - 1));
--history_len;
}
*(_QWORD *)(history + 8LL * history_len++) = v2;
return 1;
}
else
{
return 0;
}
}
}
else
{
return 0;
}
}
| linenoiseHistoryAdd:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x20
MOV qword ptr [RBP + -0x10],RDI
CMP dword ptr [0x00110278],0x0
JNZ 0x00103ee1
MOV dword ptr [RBP + -0x4],0x0
JMP 0x00104007
LAB_00103ee1:
CMP qword ptr [0x001102c0],0x0
JNZ 0x00103f31
MOVSXD RDI,dword ptr [0x00110278]
SHL RDI,0x3
CALL 0x001022e0
MOV qword ptr [0x001102c0],RAX
CMP qword ptr [0x001102c0],0x0
JNZ 0x00103f18
MOV dword ptr [RBP + -0x4],0x0
JMP 0x00104007
LAB_00103f18:
MOV RDI,qword ptr [0x001102c0]
MOVSXD RDX,dword ptr [0x00110278]
SHL RDX,0x3
XOR ESI,ESI
CALL 0x00102110
LAB_00103f31:
CMP dword ptr [0x001102c8],0x0
JZ 0x00103f6b
MOV RAX,qword ptr [0x001102c0]
MOV ECX,dword ptr [0x001102c8]
SUB ECX,0x1
MOVSXD RCX,ECX
MOV RDI,qword ptr [RAX + RCX*0x8]
MOV RSI,qword ptr [RBP + -0x10]
CALL 0x00102300
CMP EAX,0x0
JNZ 0x00103f6b
MOV dword ptr [RBP + -0x4],0x0
JMP 0x00104007
LAB_00103f6b:
MOV RDI,qword ptr [RBP + -0x10]
CALL 0x00102430
MOV qword ptr [RBP + -0x18],RAX
CMP qword ptr [RBP + -0x18],0x0
JNZ 0x00103f88
MOV dword ptr [RBP + -0x4],0x0
JMP 0x00104007
LAB_00103f88:
MOV EAX,dword ptr [0x001102c8]
CMP EAX,dword ptr [0x00110278]
JNZ 0x00103fdb
MOV RAX,qword ptr [0x001102c0]
MOV RDI,qword ptr [RAX]
CALL 0x00102478
MOV RDI,qword ptr [0x001102c0]
MOV RSI,qword ptr [0x001102c0]
ADD RSI,0x8
MOV EAX,dword ptr [0x00110278]
SUB EAX,0x1
MOVSXD RDX,EAX
SHL RDX,0x3
CALL 0x00102390
MOV EAX,dword ptr [0x001102c8]
ADD EAX,-0x1
MOV dword ptr [0x001102c8],EAX
LAB_00103fdb:
MOV RDX,qword ptr [RBP + -0x18]
MOV RAX,qword ptr [0x001102c0]
MOVSXD RCX,dword ptr [0x001102c8]
MOV qword ptr [RAX + RCX*0x8],RDX
MOV EAX,dword ptr [0x001102c8]
ADD EAX,0x1
MOV dword ptr [0x001102c8],EAX
MOV dword ptr [RBP + -0x4],0x1
LAB_00104007:
MOV EAX,dword ptr [RBP + -0x4]
ADD RSP,0x20
POP RBP
RET
|
int4 linenoiseHistoryAdd(char *param_1)
{
int iVar1;
char *pcVar2;
int4 local_c;
if (history_max_len == 0) {
local_c = 0;
}
else {
if (history == (int8 *)0x0) {
history = (int8 *)malloc((long)history_max_len << 3);
if (history == (int8 *)0x0) {
return 0;
}
memset(history,0,(long)history_max_len << 3);
}
if ((history_len != 0) &&
(iVar1 = strcmp((char *)history[history_len + -1],param_1), iVar1 == 0)) {
return 0;
}
pcVar2 = strdup(param_1);
if (pcVar2 == (char *)0x0) {
local_c = 0;
}
else {
if (history_len == history_max_len) {
free((void *)*history);
memmove(history,history + 1,(long)(history_max_len + -1) << 3);
history_len = history_len + -1;
}
history[history_len] = pcVar2;
history_len = history_len + 1;
local_c = 1;
}
}
return local_c;
}
| |
34,479 | parse_time | eloqsql/libmariadb/libmariadb/ma_stmt_codec.c | static int parse_time(const char *str, size_t length, const char **end_ptr, MYSQL_TIME *tm)
{
int err= 0;
const char *p = str;
const char *end = str + length;
size_t frac_len;
int ret=1;
tm->hour = my_strtoui(p, end-p, &p, &err);
if (err || tm->hour > 838 || p == end || *p != ':' )
goto end;
p++;
tm->minute = my_strtoui(p, end-p, &p, &err);
if (err || tm->minute > 59 || p == end || *p != ':')
goto end;
p++;
tm->second = my_strtoui(p, end-p, &p, &err);
if (err || tm->second > 59)
goto end;
ret = 0;
tm->second_part = 0;
if (p == end)
goto end;
/* Check for fractional part*/
if (*p != '.')
goto end;
p++;
frac_len = MIN(6,end-p);
tm->second_part = my_strtoui(p, frac_len, &p, &err);
if (err)
goto end;
if (frac_len < 6)
tm->second_part *= frac_mul[frac_len];
ret = 0;
/* Consume whole fractional part, even after 6 digits.*/
p += frac_len;
while(p < *end_ptr)
{
if (*p < '0' || *p > '9')
break;
p++;
}
end:
*end_ptr = p;
return ret;
} | O0 | c | parse_time:
pushq %rbp
movq %rsp, %rbp
subq $0x50, %rsp
movq %rdi, -0x8(%rbp)
movq %rsi, -0x10(%rbp)
movq %rdx, -0x18(%rbp)
movq %rcx, -0x20(%rbp)
movl $0x0, -0x24(%rbp)
movq -0x8(%rbp), %rax
movq %rax, -0x30(%rbp)
movq -0x8(%rbp), %rax
addq -0x10(%rbp), %rax
movq %rax, -0x38(%rbp)
movl $0x1, -0x44(%rbp)
movq -0x30(%rbp), %rdi
movq -0x38(%rbp), %rsi
movq -0x30(%rbp), %rax
subq %rax, %rsi
leaq -0x30(%rbp), %rdx
leaq -0x24(%rbp), %rcx
callq 0x612e0
movl %eax, %ecx
movq -0x20(%rbp), %rax
movl %ecx, 0xc(%rax)
cmpl $0x0, -0x24(%rbp)
jne 0x5ff48
movq -0x20(%rbp), %rax
cmpl $0x346, 0xc(%rax) # imm = 0x346
ja 0x5ff48
movq -0x30(%rbp), %rax
cmpq -0x38(%rbp), %rax
je 0x5ff48
movq -0x30(%rbp), %rax
movsbl (%rax), %eax
cmpl $0x3a, %eax
je 0x5ff4d
jmp 0x600fc
movq -0x30(%rbp), %rax
addq $0x1, %rax
movq %rax, -0x30(%rbp)
movq -0x30(%rbp), %rdi
movq -0x38(%rbp), %rsi
movq -0x30(%rbp), %rax
subq %rax, %rsi
leaq -0x30(%rbp), %rdx
leaq -0x24(%rbp), %rcx
callq 0x612e0
movl %eax, %ecx
movq -0x20(%rbp), %rax
movl %ecx, 0x10(%rax)
cmpl $0x0, -0x24(%rbp)
jne 0x5ffa4
movq -0x20(%rbp), %rax
cmpl $0x3b, 0x10(%rax)
ja 0x5ffa4
movq -0x30(%rbp), %rax
cmpq -0x38(%rbp), %rax
je 0x5ffa4
movq -0x30(%rbp), %rax
movsbl (%rax), %eax
cmpl $0x3a, %eax
je 0x5ffa9
jmp 0x600fc
movq -0x30(%rbp), %rax
addq $0x1, %rax
movq %rax, -0x30(%rbp)
movq -0x30(%rbp), %rdi
movq -0x38(%rbp), %rsi
movq -0x30(%rbp), %rax
subq %rax, %rsi
leaq -0x30(%rbp), %rdx
leaq -0x24(%rbp), %rcx
callq 0x612e0
movl %eax, %ecx
movq -0x20(%rbp), %rax
movl %ecx, 0x14(%rax)
cmpl $0x0, -0x24(%rbp)
jne 0x5ffea
movq -0x20(%rbp), %rax
cmpl $0x3b, 0x14(%rax)
jbe 0x5ffef
jmp 0x600fc
movl $0x0, -0x44(%rbp)
movq -0x20(%rbp), %rax
movq $0x0, 0x18(%rax)
movq -0x30(%rbp), %rax
cmpq -0x38(%rbp), %rax
jne 0x60011
jmp 0x600fc
movq -0x30(%rbp), %rax
movsbl (%rax), %eax
cmpl $0x2e, %eax
je 0x60022
jmp 0x600fc
movq -0x30(%rbp), %rax
addq $0x1, %rax
movq %rax, -0x30(%rbp)
movq -0x38(%rbp), %rcx
movq -0x30(%rbp), %rax
subq %rax, %rcx
movl $0x6, %eax
cmpq %rcx, %rax
jge 0x6004e
movl $0x6, %eax
movq %rax, -0x50(%rbp)
jmp 0x6005d
movq -0x38(%rbp), %rax
movq -0x30(%rbp), %rcx
subq %rcx, %rax
movq %rax, -0x50(%rbp)
movq -0x50(%rbp), %rax
movq %rax, -0x40(%rbp)
movq -0x30(%rbp), %rdi
movq -0x40(%rbp), %rsi
leaq -0x30(%rbp), %rdx
leaq -0x24(%rbp), %rcx
callq 0x612e0
movl %eax, %eax
movl %eax, %ecx
movq -0x20(%rbp), %rax
movq %rcx, 0x18(%rax)
cmpl $0x0, -0x24(%rbp)
je 0x6008e
jmp 0x600fc
cmpq $0x6, -0x40(%rbp)
jae 0x600b2
movq -0x40(%rbp), %rcx
leaq 0x86800(%rip), %rax # 0xe68a0
movl (%rax,%rcx,4), %eax
movl %eax, %ecx
movq -0x20(%rbp), %rax
imulq 0x18(%rax), %rcx
movq %rcx, 0x18(%rax)
movl $0x0, -0x44(%rbp)
movq -0x40(%rbp), %rax
addq -0x30(%rbp), %rax
movq %rax, -0x30(%rbp)
movq -0x30(%rbp), %rax
movq -0x18(%rbp), %rcx
cmpq (%rcx), %rax
jae 0x600fa
movq -0x30(%rbp), %rax
movsbl (%rax), %eax
cmpl $0x30, %eax
jl 0x600ea
movq -0x30(%rbp), %rax
movsbl (%rax), %eax
cmpl $0x39, %eax
jle 0x600ec
jmp 0x600fa
movq -0x30(%rbp), %rax
addq $0x1, %rax
movq %rax, -0x30(%rbp)
jmp 0x600c5
jmp 0x600fc
movq -0x30(%rbp), %rcx
movq -0x18(%rbp), %rax
movq %rcx, (%rax)
movl -0x44(%rbp), %eax
addq $0x50, %rsp
popq %rbp
retq
| parse_time:
push rbp
mov rbp, rsp
sub rsp, 50h
mov [rbp+var_8], rdi
mov [rbp+var_10], rsi
mov [rbp+var_18], rdx
mov [rbp+var_20], rcx
mov [rbp+var_24], 0
mov rax, [rbp+var_8]
mov [rbp+var_30], rax
mov rax, [rbp+var_8]
add rax, [rbp+var_10]
mov [rbp+var_38], rax
mov [rbp+var_44], 1
mov rdi, [rbp+var_30]
mov rsi, [rbp+var_38]
mov rax, [rbp+var_30]
sub rsi, rax
lea rdx, [rbp+var_30]
lea rcx, [rbp+var_24]
call my_strtoui
mov ecx, eax
mov rax, [rbp+var_20]
mov [rax+0Ch], ecx
cmp [rbp+var_24], 0
jnz short loc_5FF48
mov rax, [rbp+var_20]
cmp dword ptr [rax+0Ch], 346h
ja short loc_5FF48
mov rax, [rbp+var_30]
cmp rax, [rbp+var_38]
jz short loc_5FF48
mov rax, [rbp+var_30]
movsx eax, byte ptr [rax]
cmp eax, 3Ah ; ':'
jz short loc_5FF4D
loc_5FF48:
jmp loc_600FC
loc_5FF4D:
mov rax, [rbp+var_30]
add rax, 1
mov [rbp+var_30], rax
mov rdi, [rbp+var_30]
mov rsi, [rbp+var_38]
mov rax, [rbp+var_30]
sub rsi, rax
lea rdx, [rbp+var_30]
lea rcx, [rbp+var_24]
call my_strtoui
mov ecx, eax
mov rax, [rbp+var_20]
mov [rax+10h], ecx
cmp [rbp+var_24], 0
jnz short loc_5FFA4
mov rax, [rbp+var_20]
cmp dword ptr [rax+10h], 3Bh ; ';'
ja short loc_5FFA4
mov rax, [rbp+var_30]
cmp rax, [rbp+var_38]
jz short loc_5FFA4
mov rax, [rbp+var_30]
movsx eax, byte ptr [rax]
cmp eax, 3Ah ; ':'
jz short loc_5FFA9
loc_5FFA4:
jmp loc_600FC
loc_5FFA9:
mov rax, [rbp+var_30]
add rax, 1
mov [rbp+var_30], rax
mov rdi, [rbp+var_30]
mov rsi, [rbp+var_38]
mov rax, [rbp+var_30]
sub rsi, rax
lea rdx, [rbp+var_30]
lea rcx, [rbp+var_24]
call my_strtoui
mov ecx, eax
mov rax, [rbp+var_20]
mov [rax+14h], ecx
cmp [rbp+var_24], 0
jnz short loc_5FFEA
mov rax, [rbp+var_20]
cmp dword ptr [rax+14h], 3Bh ; ';'
jbe short loc_5FFEF
loc_5FFEA:
jmp loc_600FC
loc_5FFEF:
mov [rbp+var_44], 0
mov rax, [rbp+var_20]
mov qword ptr [rax+18h], 0
mov rax, [rbp+var_30]
cmp rax, [rbp+var_38]
jnz short loc_60011
jmp loc_600FC
loc_60011:
mov rax, [rbp+var_30]
movsx eax, byte ptr [rax]
cmp eax, 2Eh ; '.'
jz short loc_60022
jmp loc_600FC
loc_60022:
mov rax, [rbp+var_30]
add rax, 1
mov [rbp+var_30], rax
mov rcx, [rbp+var_38]
mov rax, [rbp+var_30]
sub rcx, rax
mov eax, 6
cmp rax, rcx
jge short loc_6004E
mov eax, 6
mov [rbp+var_50], rax
jmp short loc_6005D
loc_6004E:
mov rax, [rbp+var_38]
mov rcx, [rbp+var_30]
sub rax, rcx
mov [rbp+var_50], rax
loc_6005D:
mov rax, [rbp+var_50]
mov [rbp+var_40], rax
mov rdi, [rbp+var_30]
mov rsi, [rbp+var_40]
lea rdx, [rbp+var_30]
lea rcx, [rbp+var_24]
call my_strtoui
mov eax, eax
mov ecx, eax
mov rax, [rbp+var_20]
mov [rax+18h], rcx
cmp [rbp+var_24], 0
jz short loc_6008E
jmp short loc_600FC
loc_6008E:
cmp [rbp+var_40], 6
jnb short loc_600B2
mov rcx, [rbp+var_40]
lea rax, frac_mul
mov eax, [rax+rcx*4]
mov ecx, eax
mov rax, [rbp+var_20]
imul rcx, [rax+18h]
mov [rax+18h], rcx
loc_600B2:
mov [rbp+var_44], 0
mov rax, [rbp+var_40]
add rax, [rbp+var_30]
mov [rbp+var_30], rax
loc_600C5:
mov rax, [rbp+var_30]
mov rcx, [rbp+var_18]
cmp rax, [rcx]
jnb short loc_600FA
mov rax, [rbp+var_30]
movsx eax, byte ptr [rax]
cmp eax, 30h ; '0'
jl short loc_600EA
mov rax, [rbp+var_30]
movsx eax, byte ptr [rax]
cmp eax, 39h ; '9'
jle short loc_600EC
loc_600EA:
jmp short loc_600FA
loc_600EC:
mov rax, [rbp+var_30]
add rax, 1
mov [rbp+var_30], rax
jmp short loc_600C5
loc_600FA:
jmp short $+2
loc_600FC:
mov rcx, [rbp+var_30]
mov rax, [rbp+var_18]
mov [rax], rcx
mov eax, [rbp+var_44]
add rsp, 50h
pop rbp
retn
| long long parse_time(_BYTE *a1, long long a2, _QWORD *a3, long long a4)
{
int v4; // eax
int v5; // eax
int v6; // eax
unsigned int v7; // eax
unsigned long long v9; // [rsp+0h] [rbp-50h]
unsigned int v10; // [rsp+Ch] [rbp-44h]
_BYTE *v11; // [rsp+18h] [rbp-38h]
_BYTE *v12; // [rsp+20h] [rbp-30h] BYREF
int v13; // [rsp+2Ch] [rbp-24h] BYREF
long long v14; // [rsp+30h] [rbp-20h]
_QWORD *v15; // [rsp+38h] [rbp-18h]
long long v16; // [rsp+40h] [rbp-10h]
_BYTE *v17; // [rsp+48h] [rbp-8h]
v17 = a1;
v16 = a2;
v15 = a3;
v14 = a4;
v13 = 0;
v12 = a1;
v11 = &a1[a2];
v10 = 1;
v4 = my_strtoui(a1, a2, &v12, &v13);
*(_DWORD *)(v14 + 12) = v4;
if ( !v13 && *(_DWORD *)(v14 + 12) <= 0x346u && v12 != v11 && *v12 == 58 )
{
++v12;
v5 = my_strtoui(v12, v11 - v12, &v12, &v13);
*(_DWORD *)(v14 + 16) = v5;
if ( !v13 && *(_DWORD *)(v14 + 16) <= 0x3Bu && v12 != v11 && *v12 == 58 )
{
++v12;
v6 = my_strtoui(v12, v11 - v12, &v12, &v13);
*(_DWORD *)(v14 + 20) = v6;
if ( !v13 && *(_DWORD *)(v14 + 20) <= 0x3Bu )
{
v10 = 0;
*(_QWORD *)(v14 + 24) = 0LL;
if ( v12 != v11 && *v12 == 46 )
{
++v12;
v9 = v11 - v12 <= 6 ? v11 - v12 : 6LL;
v7 = my_strtoui(v12, v9, &v12, &v13);
*(_QWORD *)(v14 + 24) = v7;
if ( !v13 )
{
if ( v9 < 6 )
*(_QWORD *)(v14 + 24) *= frac_mul[v9];
v10 = 0;
for ( v12 += v9; (unsigned long long)v12 < *v15 && (char)*v12 >= 48 && (char)*v12 <= 57; ++v12 )
;
}
}
}
}
}
*v15 = v12;
return v10;
}
| parse_time:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x50
MOV qword ptr [RBP + -0x8],RDI
MOV qword ptr [RBP + -0x10],RSI
MOV qword ptr [RBP + -0x18],RDX
MOV qword ptr [RBP + -0x20],RCX
MOV dword ptr [RBP + -0x24],0x0
MOV RAX,qword ptr [RBP + -0x8]
MOV qword ptr [RBP + -0x30],RAX
MOV RAX,qword ptr [RBP + -0x8]
ADD RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RBP + -0x38],RAX
MOV dword ptr [RBP + -0x44],0x1
MOV RDI,qword ptr [RBP + -0x30]
MOV RSI,qword ptr [RBP + -0x38]
MOV RAX,qword ptr [RBP + -0x30]
SUB RSI,RAX
LEA RDX,[RBP + -0x30]
LEA RCX,[RBP + -0x24]
CALL 0x001612e0
MOV ECX,EAX
MOV RAX,qword ptr [RBP + -0x20]
MOV dword ptr [RAX + 0xc],ECX
CMP dword ptr [RBP + -0x24],0x0
JNZ 0x0015ff48
MOV RAX,qword ptr [RBP + -0x20]
CMP dword ptr [RAX + 0xc],0x346
JA 0x0015ff48
MOV RAX,qword ptr [RBP + -0x30]
CMP RAX,qword ptr [RBP + -0x38]
JZ 0x0015ff48
MOV RAX,qword ptr [RBP + -0x30]
MOVSX EAX,byte ptr [RAX]
CMP EAX,0x3a
JZ 0x0015ff4d
LAB_0015ff48:
JMP 0x001600fc
LAB_0015ff4d:
MOV RAX,qword ptr [RBP + -0x30]
ADD RAX,0x1
MOV qword ptr [RBP + -0x30],RAX
MOV RDI,qword ptr [RBP + -0x30]
MOV RSI,qword ptr [RBP + -0x38]
MOV RAX,qword ptr [RBP + -0x30]
SUB RSI,RAX
LEA RDX,[RBP + -0x30]
LEA RCX,[RBP + -0x24]
CALL 0x001612e0
MOV ECX,EAX
MOV RAX,qword ptr [RBP + -0x20]
MOV dword ptr [RAX + 0x10],ECX
CMP dword ptr [RBP + -0x24],0x0
JNZ 0x0015ffa4
MOV RAX,qword ptr [RBP + -0x20]
CMP dword ptr [RAX + 0x10],0x3b
JA 0x0015ffa4
MOV RAX,qword ptr [RBP + -0x30]
CMP RAX,qword ptr [RBP + -0x38]
JZ 0x0015ffa4
MOV RAX,qword ptr [RBP + -0x30]
MOVSX EAX,byte ptr [RAX]
CMP EAX,0x3a
JZ 0x0015ffa9
LAB_0015ffa4:
JMP 0x001600fc
LAB_0015ffa9:
MOV RAX,qword ptr [RBP + -0x30]
ADD RAX,0x1
MOV qword ptr [RBP + -0x30],RAX
MOV RDI,qword ptr [RBP + -0x30]
MOV RSI,qword ptr [RBP + -0x38]
MOV RAX,qword ptr [RBP + -0x30]
SUB RSI,RAX
LEA RDX,[RBP + -0x30]
LEA RCX,[RBP + -0x24]
CALL 0x001612e0
MOV ECX,EAX
MOV RAX,qword ptr [RBP + -0x20]
MOV dword ptr [RAX + 0x14],ECX
CMP dword ptr [RBP + -0x24],0x0
JNZ 0x0015ffea
MOV RAX,qword ptr [RBP + -0x20]
CMP dword ptr [RAX + 0x14],0x3b
JBE 0x0015ffef
LAB_0015ffea:
JMP 0x001600fc
LAB_0015ffef:
MOV dword ptr [RBP + -0x44],0x0
MOV RAX,qword ptr [RBP + -0x20]
MOV qword ptr [RAX + 0x18],0x0
MOV RAX,qword ptr [RBP + -0x30]
CMP RAX,qword ptr [RBP + -0x38]
JNZ 0x00160011
JMP 0x001600fc
LAB_00160011:
MOV RAX,qword ptr [RBP + -0x30]
MOVSX EAX,byte ptr [RAX]
CMP EAX,0x2e
JZ 0x00160022
JMP 0x001600fc
LAB_00160022:
MOV RAX,qword ptr [RBP + -0x30]
ADD RAX,0x1
MOV qword ptr [RBP + -0x30],RAX
MOV RCX,qword ptr [RBP + -0x38]
MOV RAX,qword ptr [RBP + -0x30]
SUB RCX,RAX
MOV EAX,0x6
CMP RAX,RCX
JGE 0x0016004e
MOV EAX,0x6
MOV qword ptr [RBP + -0x50],RAX
JMP 0x0016005d
LAB_0016004e:
MOV RAX,qword ptr [RBP + -0x38]
MOV RCX,qword ptr [RBP + -0x30]
SUB RAX,RCX
MOV qword ptr [RBP + -0x50],RAX
LAB_0016005d:
MOV RAX,qword ptr [RBP + -0x50]
MOV qword ptr [RBP + -0x40],RAX
MOV RDI,qword ptr [RBP + -0x30]
MOV RSI,qword ptr [RBP + -0x40]
LEA RDX,[RBP + -0x30]
LEA RCX,[RBP + -0x24]
CALL 0x001612e0
MOV EAX,EAX
MOV ECX,EAX
MOV RAX,qword ptr [RBP + -0x20]
MOV qword ptr [RAX + 0x18],RCX
CMP dword ptr [RBP + -0x24],0x0
JZ 0x0016008e
JMP 0x001600fc
LAB_0016008e:
CMP qword ptr [RBP + -0x40],0x6
JNC 0x001600b2
MOV RCX,qword ptr [RBP + -0x40]
LEA RAX,[0x1e68a0]
MOV EAX,dword ptr [RAX + RCX*0x4]
MOV ECX,EAX
MOV RAX,qword ptr [RBP + -0x20]
IMUL RCX,qword ptr [RAX + 0x18]
MOV qword ptr [RAX + 0x18],RCX
LAB_001600b2:
MOV dword ptr [RBP + -0x44],0x0
MOV RAX,qword ptr [RBP + -0x40]
ADD RAX,qword ptr [RBP + -0x30]
MOV qword ptr [RBP + -0x30],RAX
LAB_001600c5:
MOV RAX,qword ptr [RBP + -0x30]
MOV RCX,qword ptr [RBP + -0x18]
CMP RAX,qword ptr [RCX]
JNC 0x001600fa
MOV RAX,qword ptr [RBP + -0x30]
MOVSX EAX,byte ptr [RAX]
CMP EAX,0x30
JL 0x001600ea
MOV RAX,qword ptr [RBP + -0x30]
MOVSX EAX,byte ptr [RAX]
CMP EAX,0x39
JLE 0x001600ec
LAB_001600ea:
JMP 0x001600fa
LAB_001600ec:
MOV RAX,qword ptr [RBP + -0x30]
ADD RAX,0x1
MOV qword ptr [RBP + -0x30],RAX
JMP 0x001600c5
LAB_001600fa:
JMP 0x001600fc
LAB_001600fc:
MOV RCX,qword ptr [RBP + -0x30]
MOV RAX,qword ptr [RBP + -0x18]
MOV qword ptr [RAX],RCX
MOV EAX,dword ptr [RBP + -0x44]
ADD RSP,0x50
POP RBP
RET
|
int4 parse_time(char *param_1,long param_2,int8 *param_3,long param_4)
{
int4 uVar1;
uint uVar2;
char *pcVar3;
ulong local_58;
int4 local_4c;
char *local_38;
int local_2c;
long local_28;
int8 *local_20;
long local_18;
char *local_10;
local_2c = 0;
pcVar3 = param_1 + param_2;
local_4c = 1;
local_38 = param_1;
local_28 = param_4;
local_20 = param_3;
local_18 = param_2;
local_10 = param_1;
uVar1 = my_strtoui(param_1,(long)pcVar3 - (long)param_1,&local_38,&local_2c);
*(int4 *)(local_28 + 0xc) = uVar1;
if ((((local_2c == 0) && (*(uint *)(local_28 + 0xc) < 0x347)) && (local_38 != pcVar3)) &&
(*local_38 == ':')) {
local_38 = local_38 + 1;
uVar1 = my_strtoui(local_38,(long)pcVar3 - (long)local_38,&local_38,&local_2c);
*(int4 *)(local_28 + 0x10) = uVar1;
if (((local_2c == 0) && (*(uint *)(local_28 + 0x10) < 0x3c)) &&
((local_38 != pcVar3 && (*local_38 == ':')))) {
local_38 = local_38 + 1;
uVar1 = my_strtoui(local_38,(long)pcVar3 - (long)local_38,&local_38,&local_2c);
*(int4 *)(local_28 + 0x14) = uVar1;
if ((local_2c == 0) && (*(uint *)(local_28 + 0x14) < 0x3c)) {
local_4c = 0;
*(int8 *)(local_28 + 0x18) = 0;
if ((local_38 != pcVar3) && (*local_38 == '.')) {
local_38 = local_38 + 1;
if ((long)pcVar3 - (long)local_38 < 7) {
local_58 = (long)pcVar3 - (long)local_38;
}
else {
local_58 = 6;
}
uVar2 = my_strtoui(local_38,local_58,&local_38,&local_2c);
*(ulong *)(local_28 + 0x18) = (ulong)uVar2;
if (local_2c == 0) {
if (local_58 < 6) {
*(ulong *)(local_28 + 0x18) =
(ulong)*(uint *)(frac_mul + local_58 * 4) * *(long *)(local_28 + 0x18);
}
local_4c = 0;
for (local_38 = local_38 + local_58;
((local_38 < (char *)*local_20 && ('/' < *local_38)) && (*local_38 < ':'));
local_38 = local_38 + 1) {
}
}
}
}
}
}
*local_20 = local_38;
return local_4c;
}
| |
34,480 | ma_tls_read | eloqsql/libmariadb/libmariadb/secure/openssl.c | ssize_t ma_tls_read(MARIADB_TLS *ctls, const uchar* buffer, size_t length)
{
int rc;
MARIADB_PVIO *pvio= ctls->pvio;
while ((rc= SSL_read((SSL *)ctls->ssl, (void *)buffer, (int)length)) <= 0)
{
int error= SSL_get_error((SSL *)ctls->ssl, rc);
if (error != SSL_ERROR_WANT_READ)
break;
if (pvio->methods->wait_io_or_timeout(pvio, TRUE, pvio->mysql->options.read_timeout) < 1)
break;
}
if (rc <= 0)
{
MYSQL *mysql= SSL_get_app_data(ctls->ssl);
ma_tls_set_error(mysql);
}
return rc;
} | O3 | c | ma_tls_read:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
pushq %rax
movq %rdx, %rbx
movq %rsi, %r12
movq %rdi, %r15
movq 0x8(%rdi), %r13
movq 0x10(%r15), %rdi
movq %r12, %rsi
movl %ebx, %edx
callq 0x13070
movl %eax, %r14d
testl %eax, %eax
jg 0x29020
movq 0x10(%r15), %rdi
movl %r14d, %esi
callq 0x13050
cmpl $0x2, %eax
jne 0x2900d
movq 0x40(%r13), %rax
movq 0x48(%r13), %rcx
movl 0x394(%rax), %edx
movq %r13, %rdi
movl $0x1, %esi
callq *0x30(%rcx)
testl %eax, %eax
jg 0x28fca
movq 0x10(%r15), %rdi
xorl %esi, %esi
callq 0x13160
movq %rax, %rdi
callq 0x28da0
movslq %r14d, %rax
addq $0x8, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| ma_tls_read:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
push rax
mov rbx, rdx
mov r12, rsi
mov r15, rdi
mov r13, [rdi+8]
loc_28FCA:
mov rdi, [r15+10h]
mov rsi, r12
mov edx, ebx
call _SSL_read
mov r14d, eax
test eax, eax
jg short loc_29020
mov rdi, [r15+10h]
mov esi, r14d
call _SSL_get_error
cmp eax, 2
jnz short loc_2900D
mov rax, [r13+40h]
mov rcx, [r13+48h]
mov edx, [rax+394h]
mov rdi, r13
mov esi, 1
call qword ptr [rcx+30h]
test eax, eax
jg short loc_28FCA
loc_2900D:
mov rdi, [r15+10h]
xor esi, esi
call _SSL_get_ex_data
mov rdi, rax
call ma_tls_set_error
loc_29020:
movsxd rax, r14d
add rsp, 8
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| long long ma_tls_read(long long a1, long long a2, unsigned int a3)
{
long long v4; // r13
int v5; // eax
int v6; // r14d
long long *v7; // rax
v4 = *(_QWORD *)(a1 + 8);
while ( 1 )
{
v5 = SSL_read(*(_QWORD *)(a1 + 16), a2, a3);
v6 = v5;
if ( v5 > 0 )
break;
if ( (unsigned int)SSL_get_error(*(_QWORD *)(a1 + 16), (unsigned int)v5) != 2
|| (*(int ( **)(long long, long long, _QWORD))(*(_QWORD *)(v4 + 72) + 48LL))(
v4,
1LL,
*(unsigned int *)(*(_QWORD *)(v4 + 64) + 916LL)) <= 0 )
{
v7 = (long long *)SSL_get_ex_data(*(_QWORD *)(a1 + 16), 0LL);
ma_tls_set_error(v7);
return v6;
}
}
return v6;
}
| ma_tls_read:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
PUSH RAX
MOV RBX,RDX
MOV R12,RSI
MOV R15,RDI
MOV R13,qword ptr [RDI + 0x8]
LAB_00128fca:
MOV RDI,qword ptr [R15 + 0x10]
MOV RSI,R12
MOV EDX,EBX
CALL 0x00113070
MOV R14D,EAX
TEST EAX,EAX
JG 0x00129020
MOV RDI,qword ptr [R15 + 0x10]
MOV ESI,R14D
CALL 0x00113050
CMP EAX,0x2
JNZ 0x0012900d
MOV RAX,qword ptr [R13 + 0x40]
MOV RCX,qword ptr [R13 + 0x48]
MOV EDX,dword ptr [RAX + 0x394]
MOV RDI,R13
MOV ESI,0x1
CALL qword ptr [RCX + 0x30]
TEST EAX,EAX
JG 0x00128fca
LAB_0012900d:
MOV RDI,qword ptr [R15 + 0x10]
XOR ESI,ESI
CALL 0x00113160
MOV RDI,RAX
CALL 0x00128da0
LAB_00129020:
MOVSXD RAX,R14D
ADD RSP,0x8
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
long ma_tls_read(long param_1,void *param_2,int param_3)
{
long lVar1;
int ret_code;
int iVar2;
void *pvVar3;
lVar1 = *(long *)(param_1 + 8);
do {
ret_code = SSL_read(*(SSL **)(param_1 + 0x10),param_2,param_3);
if (0 < ret_code) goto LAB_00129020;
iVar2 = SSL_get_error(*(SSL **)(param_1 + 0x10),ret_code);
if (iVar2 != 2) break;
iVar2 = (**(code **)(*(long *)(lVar1 + 0x48) + 0x30))
(lVar1,1,*(int4 *)(*(long *)(lVar1 + 0x40) + 0x394));
} while (0 < iVar2);
pvVar3 = SSL_get_ex_data(*(SSL **)(param_1 + 0x10),0);
ma_tls_set_error(pvVar3);
LAB_00129020:
return (long)ret_code;
}
| |
34,481 | httplib::Response::set_chunked_content_provider(std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>> const&, std::function<bool (unsigned long, httplib::DataSink&)>, std::function<void (bool)>) | llama.cpp/examples/server/httplib.h | inline void Response::set_chunked_content_provider(
const std::string &content_type, ContentProviderWithoutLength provider,
ContentProviderResourceReleaser resource_releaser) {
set_header("Content-Type", content_type);
content_length_ = 0;
content_provider_ = detail::ContentProviderAdapter(std::move(provider));
content_provider_resource_releaser_ = std::move(resource_releaser);
is_chunked_content_provider_ = true;
} | O3 | c | httplib::Response::set_chunked_content_provider(std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>> const&, std::function<bool (unsigned long, httplib::DataSink&)>, std::function<void (bool)>):
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x20, %rsp
movq %rcx, %r14
movq %rdx, %r15
movq %rsi, %r12
movq %rdi, %rbx
leaq 0x10(%rsp), %r13
movq %r13, -0x10(%r13)
leaq 0xe63ba(%rip), %rsi # 0x173f4d
leaq 0xe63bf(%rip), %rdx # 0x173f59
movq %rsp, %rdi
callq 0x52736
movq %rsp, %rsi
movq %rbx, %rdi
movq %r12, %rdx
callq 0x68de4
movq (%rsp), %rdi
cmpq %r13, %rdi
je 0x8dbc6
movq 0x10(%rsp), %rsi
incq %rsi
callq 0x251b0
movq $0x0, 0xc0(%rbx)
movq %rsp, %r12
movq %r12, %rdi
movq %r15, %rsi
callq 0x9050c
leaq 0xc8(%rbx), %rdi
movq %r12, %rsi
callq 0x90456
movq 0x10(%rsp), %rax
testq %rax, %rax
je 0x8dc05
movq %rsp, %rdi
movq %rdi, %rsi
movl $0x3, %edx
callq *%rax
leaq 0xe8(%rbx), %rdi
movq %r14, %rsi
callq 0x793e8
movb $0x1, 0x108(%rbx)
addq $0x20, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
retq
jmp 0x8dc47
movq %rax, %rbx
movq 0x10(%rsp), %rax
testq %rax, %rax
je 0x8dc6d
movq %rsp, %rdi
movq %rdi, %rsi
movl $0x3, %edx
callq *%rax
jmp 0x8dc6d
movq %rax, %rdi
callq 0x46453
movq %rax, %rbx
movq (%rsp), %rdi
cmpq %r13, %rdi
je 0x8dc6d
movq 0x10(%rsp), %rsi
incq %rsi
callq 0x251b0
jmp 0x8dc6d
movq %rax, %rbx
movq %rbx, %rdi
callq 0x25ca0
nop
| _ZN7httplib8Response28set_chunked_content_providerERKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEESt8functionIFbmRNS_8DataSinkEEES9_IFvbEE:
push r15
push r14
push r13
push r12
push rbx
sub rsp, 20h
mov r14, rcx
mov r15, rdx
mov r12, rsi
mov rbx, rdi
lea r13, [rsp+48h+var_38]
mov [r13-10h], r13
lea rsi, aContentType; "Content-Type"
lea rdx, aContentType+0Ch; ""
mov rdi, rsp
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE12_M_constructIPKcEEvT_S8_St20forward_iterator_tag; std::string::_M_construct<char const*>(char const*,char const*,std::forward_iterator_tag)
mov rsi, rsp
mov rdi, rbx
mov rdx, r12
call _ZN7httplib8Response10set_headerERKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEES8_; httplib::Response::set_header(std::string const&,std::string const&)
mov rdi, [rsp+48h+var_48]; void *
cmp rdi, r13
jz short loc_8DBC6
mov rsi, [rsp+48h+var_38]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_8DBC6:
mov qword ptr [rbx+0C0h], 0
mov r12, rsp
mov rdi, r12
mov rsi, r15
call _ZNSt8functionIFbmRN7httplib8DataSinkEEEC2ERKS4_; std::function<bool ()(ulong,httplib::DataSink &)>::function(std::function<bool ()(ulong,httplib::DataSink &)> const&)
lea rdi, [rbx+0C8h]
mov rsi, r12
call _ZNSt8functionIFbmmRN7httplib8DataSinkEEEaSINS0_6detail22ContentProviderAdapterEEENSt9enable_ifIXsrNS4_9_CallableIT_NS8_IXntsr7is_sameINSt9remove_cvINSt16remove_referenceISA_E4typeEE4typeES4_EE5valueESt5decayISA_EE4type4typeESt15__invoke_resultIRSL_JmmS2_EEEE5valueERS4_E4typeEOSA_
mov rax, [rsp+48h+var_38]
test rax, rax
jz short loc_8DC05
mov rdi, rsp
mov rsi, rdi
mov edx, 3
call rax
loc_8DC05:
lea rdi, [rbx+0E8h]
mov rsi, r14
call _ZNSt8functionIFvbEEaSEOS1_; std::function<void ()(bool)>::operator=(std::function<void ()(bool)>&&)
mov byte ptr [rbx+108h], 1
add rsp, 20h
pop rbx
pop r12
pop r13
pop r14
pop r15
retn
jmp short loc_8DC47
mov rbx, rax
mov rax, [rsp+48h+var_38]
test rax, rax
jz short loc_8DC6D
mov rdi, rsp
mov rsi, rdi
mov edx, 3
call rax
jmp short loc_8DC6D
loc_8DC47:
mov rdi, rax
call __clang_call_terminate
mov rbx, rax
mov rdi, [rsp+48h+var_48]; void *
cmp rdi, r13
jz short loc_8DC6D
mov rsi, [rsp+48h+var_38]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
jmp short loc_8DC6D
mov rbx, rax
loc_8DC6D:
mov rdi, rbx
call __Unwind_Resume
| __int128 * httplib::Response::set_chunked_content_provider(long long a1, _QWORD *a2, long long a3, __int128 *a4)
{
__int128 *result; // rax
void *v7[2]; // [rsp+0h] [rbp-48h] BYREF
_QWORD v8[7]; // [rsp+10h] [rbp-38h] BYREF
v7[0] = v8;
std::string::_M_construct<char const*>((long long)v7, "Content-Type", (long long)"");
httplib::Response::set_header(a1, (long long *)v7, a2);
if ( v7[0] != v8 )
operator delete(v7[0], v8[0] + 1LL);
*(_QWORD *)(a1 + 192) = 0LL;
std::function<bool ()(unsigned long,httplib::DataSink &)>::function(v7, a3);
std::function<bool ()(unsigned long,unsigned long,httplib::DataSink &)>::operator=<httplib::detail::ContentProviderAdapter>(
a1 + 200,
v7);
if ( v8[0] )
((void ( *)(void **, void **, long long))v8[0])(v7, v7, 3LL);
result = std::function<void ()(bool)>::operator=((__int128 *)(a1 + 232), a4);
*(_BYTE *)(a1 + 264) = 1;
return result;
}
| set_chunked_content_provider:
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x20
MOV R14,RCX
MOV R15,RDX
MOV R12,RSI
MOV RBX,RDI
LEA R13,[RSP + 0x10]
MOV qword ptr [R13 + -0x10],R13
LAB_0018db8c:
LEA RSI,[0x273f4d]
LEA RDX,[0x273f59]
MOV RDI,RSP
CALL 0x00152736
LAB_0018dba2:
MOV RSI,RSP
MOV RDI,RBX
MOV RDX,R12
CALL 0x00168de4
LAB_0018dbb0:
MOV RDI,qword ptr [RSP]
CMP RDI,R13
JZ 0x0018dbc6
MOV RSI,qword ptr [RSP + 0x10]
INC RSI
CALL 0x001251b0
LAB_0018dbc6:
MOV qword ptr [RBX + 0xc0],0x0
MOV R12,RSP
MOV RDI,R12
MOV RSI,R15
CALL 0x0019050c
LEA RDI,[RBX + 0xc8]
LAB_0018dbe6:
MOV RSI,R12
CALL 0x00190456
MOV RAX,qword ptr [RSP + 0x10]
TEST RAX,RAX
JZ 0x0018dc05
LAB_0018dbf8:
MOV RDI,RSP
MOV RSI,RDI
MOV EDX,0x3
CALL RAX
LAB_0018dc05:
LEA RDI,[RBX + 0xe8]
MOV RSI,R14
CALL 0x001793e8
MOV byte ptr [RBX + 0x108],0x1
ADD RSP,0x20
POP RBX
POP R12
POP R13
POP R14
POP R15
RET
|
/* httplib::Response::set_chunked_content_provider(std::__cxx11::string const&, std::function<bool
(unsigned long, httplib::DataSink&)>, std::function<void (bool)>) */
void __thiscall
httplib::Response::set_chunked_content_provider
(Response *this,string *param_1,function *param_3,function *param_4)
{
code **local_48 [2];
code *local_38 [2];
local_48[0] = local_38;
/* try { // try from 0018db8c to 0018dba1 has its CatchHandler @ 0018dc6a */
std::__cxx11::string::_M_construct<char_const*>(local_48,"Content-Type","");
/* try { // try from 0018dba2 to 0018dbaf has its CatchHandler @ 0018dc4f */
set_header(this,(string *)local_48,param_1);
if (local_48[0] != local_38) {
operator_delete(local_48[0],(ulong)(local_38[0] + 1));
}
*(int8 *)(this + 0xc0) = 0;
std::function<bool(unsigned_long,httplib::DataSink&)>::function
((function<bool(unsigned_long,httplib::DataSink&)> *)local_48,param_3);
/* try { // try from 0018dbe6 to 0018dbed has its CatchHandler @ 0018dc2b */
std::function<bool(unsigned_long,unsigned_long,httplib::DataSink&)>::operator=
((function<bool(unsigned_long,unsigned_long,httplib::DataSink&)> *)(this + 200),
(ContentProviderAdapter *)local_48);
if (local_38[0] != (code *)0x0) {
/* try { // try from 0018dbf8 to 0018dc04 has its CatchHandler @ 0018dc29 */
(*local_38[0])(local_48,local_48,3);
}
std::function<void(bool)>::operator=((function<void(bool)> *)(this + 0xe8),param_4);
this[0x108] = (Response)0x1;
return;
}
| |
34,482 | POINTonE1_from_Jacobian | corpus-core[P]colibri-stateless/build_O3/_deps/blst-src/src/e1.c | static void POINTonE1_from_Jacobian(POINTonE1 *out, const POINTonE1 *in)
{
vec384 Z, ZZ;
limb_t inf = vec_is_zero(in->Z, sizeof(in->Z));
reciprocal_fp(Z, in->Z); /* 1/Z */
sqr_fp(ZZ, Z);
mul_fp(out->X, in->X, ZZ); /* X = X/Z^2 */
mul_fp(ZZ, ZZ, Z);
mul_fp(out->Y, in->Y, ZZ); /* Y = Y/Z^3 */
vec_select(out->Z, in->Z, BLS12_381_G1.Z,
sizeof(BLS12_381_G1.Z), inf); /* Z = inf ? 0 : 1 */
} | O3 | c | POINTonE1_from_Jacobian:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x68, %rsp
movq %rsi, %r12
movq %rdi, %r14
leaq 0x60(%rsi), %rbx
movq %rbx, -0x30(%rbp)
movl $0x30, %esi
movq %rbx, %rdi
callq 0x70940
movq %rax, %r15
leaq -0x60(%rbp), %rdi
movq %rbx, %rsi
callq 0x62590
leaq 0x3383c(%rip), %rbx # 0x8cca0
leaq -0x90(%rbp), %r13
movabsq $-0x760c000300030003, %rcx # imm = 0x89F3FFFCFFFCFFFD
movq %r13, %rdi
leaq -0x60(%rbp), %rsi
movq %rbx, %rdx
callq 0x74720
movq %r14, %rdi
movq %r12, %rsi
movq %r13, %rdx
movq %rbx, %rcx
movabsq $-0x760c000300030003, %r8 # imm = 0x89F3FFFCFFFCFFFD
callq 0x74ea0
movq %r13, %rdi
movq %r13, %rsi
leaq -0x60(%rbp), %rdx
movq %rbx, %rcx
movabsq $-0x760c000300030003, %r8 # imm = 0x89F3FFFCFFFCFFFD
callq 0x74ea0
leaq 0x30(%r14), %rdi
addq $0x30, %r12
movq %r12, %rsi
movq %r13, %rdx
movq %rbx, %rcx
movabsq $-0x760c000300030003, %r8 # imm = 0x89F3FFFCFFFCFFFD
callq 0x74ea0
addq $0x60, %r14
leaq 0x3349a(%rip), %rdx # 0x8c980
movq %r14, %rdi
movq -0x30(%rbp), %rsi
movq %r15, %rcx
callq 0x702a0
addq $0x68, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| POINTonE1_from_Jacobian:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 68h
mov r12, rsi
mov r14, rdi
lea rbx, [rsi+60h]
mov [rbp+var_30], rbx
mov esi, 30h ; '0'
mov rdi, rbx
call vec_is_zero_16x
mov r15, rax
lea rdi, [rbp+var_60]
mov rsi, rbx
call reciprocal_fp
lea rbx, BLS12_381_P
lea r13, [rbp+var_90]
mov rcx, 89F3FFFCFFFCFFFDh
mov rdi, r13
lea rsi, [rbp+var_60]
mov rdx, rbx
call sqr_mont_384
mov rdi, r14
mov rsi, r12
mov rdx, r13
mov rcx, rbx
mov r8, 89F3FFFCFFFCFFFDh
call mul_mont_384
mov rdi, r13
mov rsi, r13
lea rdx, [rbp+var_60]
mov rcx, rbx
mov r8, 89F3FFFCFFFCFFFDh
call mul_mont_384
lea rdi, [r14+30h]
add r12, 30h ; '0'
mov rsi, r12
mov rdx, r13
mov rcx, rbx
mov r8, 89F3FFFCFFFCFFFDh
call mul_mont_384
add r14, 60h ; '`'
lea rdx, unk_8C980
mov rdi, r14
mov rsi, [rbp+var_30]
mov rcx, r15
call vec_select_48
add rsp, 68h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| long long POINTonE1_from_Jacobian(long long a1, long long a2)
{
long long is_zero_16x; // r15
_BYTE v4[48]; // [rsp+0h] [rbp-90h] BYREF
_BYTE v5[48]; // [rsp+30h] [rbp-60h] BYREF
long long v6; // [rsp+60h] [rbp-30h]
v6 = a2 + 96;
is_zero_16x = vec_is_zero_16x(a2 + 96, 48LL);
reciprocal_fp(v5, a2 + 96);
sqr_mont_384(v4, v5, &BLS12_381_P, 0x89F3FFFCFFFCFFFDLL);
mul_mont_384(a1, a2, v4, &BLS12_381_P, 0x89F3FFFCFFFCFFFDLL);
mul_mont_384(v4, v4, v5, &BLS12_381_P, 0x89F3FFFCFFFCFFFDLL);
mul_mont_384(a1 + 48, a2 + 48, v4, &BLS12_381_P, 0x89F3FFFCFFFCFFFDLL);
return vec_select_48(a1 + 96, v6, &unk_8C980, is_zero_16x);
}
| POINTonE1_from_Jacobian:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x68
MOV R12,RSI
MOV R14,RDI
LEA RBX,[RSI + 0x60]
MOV qword ptr [RBP + -0x30],RBX
MOV ESI,0x30
MOV RDI,RBX
CALL 0x00170940
MOV R15,RAX
LEA RDI,[RBP + -0x60]
MOV RSI,RBX
CALL 0x00162590
LEA RBX,[0x18cca0]
LEA R13,[RBP + -0x90]
MOV RCX,-0x760c000300030003
MOV RDI,R13
LEA RSI,[RBP + -0x60]
MOV RDX,RBX
CALL 0x00174720
MOV RDI,R14
MOV RSI,R12
MOV RDX,R13
MOV RCX,RBX
MOV R8,-0x760c000300030003
CALL 0x00174ea0
MOV RDI,R13
MOV RSI,R13
LEA RDX,[RBP + -0x60]
MOV RCX,RBX
MOV R8,-0x760c000300030003
CALL 0x00174ea0
LEA RDI,[R14 + 0x30]
ADD R12,0x30
MOV RSI,R12
MOV RDX,R13
MOV RCX,RBX
MOV R8,-0x760c000300030003
CALL 0x00174ea0
ADD R14,0x60
LEA RDX,[0x18c980]
MOV RDI,R14
MOV RSI,qword ptr [RBP + -0x30]
MOV RCX,R15
CALL 0x001702a0
ADD RSP,0x68
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
void POINTonE1_from_Jacobian(long param_1,long param_2)
{
long lVar1;
int8 uVar2;
int1 local_98 [48];
int1 local_68 [48];
long local_38;
lVar1 = param_2 + 0x60;
local_38 = lVar1;
uVar2 = vec_is_zero_16x(lVar1,0x30);
reciprocal_fp(local_68,lVar1);
sqr_mont_384(local_98,local_68,BLS12_381_P,0x89f3fffcfffcfffd);
mul_mont_384(param_1,param_2,local_98,BLS12_381_P,0x89f3fffcfffcfffd);
mul_mont_384(local_98,local_98,local_68,BLS12_381_P,0x89f3fffcfffcfffd);
mul_mont_384(param_1 + 0x30,param_2 + 0x30,local_98,BLS12_381_P,0x89f3fffcfffcfffd);
vec_select_48(param_1 + 0x60,local_38,0x18c980,uVar2);
return;
}
| |
34,483 | translog_record_read_next_chunk | eloqsql/storage/maria/ma_loghandler.c | static my_bool translog_record_read_next_chunk(TRANSLOG_READER_DATA *data)
{
translog_size_t new_current_offset= data->current_offset + data->chunk_size;
uint16 chunk_header_len, chunk_len;
uint8 type;
DBUG_ENTER("translog_record_read_next_chunk");
if (data->eor)
{
DBUG_PRINT("info", ("end of the record flag set"));
DBUG_RETURN(1);
}
if (data->header.groups_no &&
data->header.groups_no - 1 != data->current_group &&
data->header.groups[data->current_group].num == data->current_chunk)
{
/* Goto next group */
data->current_group++;
data->current_chunk= 0;
DBUG_PRINT("info", ("skip to group: #%u", data->current_group));
translog_destroy_scanner(&data->scanner);
translog_scanner_init(data->header.groups[data->current_group].addr,
1, &data->scanner, 1);
}
else
{
data->current_chunk++;
if (translog_get_next_chunk(&data->scanner))
DBUG_RETURN(1);
if (data->scanner.page == END_OF_LOG)
{
/*
Actually it should not happened, but we want to quit nicely in case
of a truncated log
*/
DBUG_RETURN(1);
}
}
type= data->scanner.page[data->scanner.page_offset] & TRANSLOG_CHUNK_TYPE;
if (type == TRANSLOG_CHUNK_LSN && data->header.groups_no)
{
DBUG_PRINT("info",
("Last chunk: data len: %u offset: %u group: %u of %u",
data->header.chunk0_data_len, data->scanner.page_offset,
data->current_group, data->header.groups_no - 1));
DBUG_ASSERT(data->header.groups_no - 1 == data->current_group);
DBUG_ASSERT(data->header.lsn ==
data->scanner.page_addr + data->scanner.page_offset);
translog_destroy_scanner(&data->scanner);
translog_scanner_init(data->header.chunk0_data_addr, 1, &data->scanner, 1);
data->chunk_size= data->header.chunk0_data_len;
data->body_offset= data->scanner.page_offset;
data->current_offset= new_current_offset;
data->eor= 1;
DBUG_RETURN(0);
}
if (type == TRANSLOG_CHUNK_LSN || type == TRANSLOG_CHUNK_FIXED)
{
data->eor= 1;
DBUG_RETURN(1); /* End of record */
}
chunk_header_len=
translog_get_chunk_header_length(data->scanner.page +
data->scanner.page_offset);
chunk_len= translog_get_total_chunk_length(data->scanner.page,
data->scanner.page_offset);
data->chunk_size= chunk_len - chunk_header_len;
data->body_offset= data->scanner.page_offset + chunk_header_len;
data->current_offset= new_current_offset;
DBUG_PRINT("info", ("grp: %u chunk: %u body_offset: %u chunk_size: %u "
"current_offset: %lu",
(uint) data->current_group,
(uint) data->current_chunk,
(uint) data->body_offset,
(uint) data->chunk_size, (ulong) data->current_offset));
DBUG_RETURN(0);
} | O0 | c | translog_record_read_next_chunk:
pushq %rbp
movq %rsp, %rbp
subq $0x20, %rsp
movq %rdi, -0x10(%rbp)
movq -0x10(%rbp), %rax
movl 0x246c(%rax), %eax
movq -0x10(%rbp), %rcx
movzwl 0x2472(%rcx), %ecx
addl %ecx, %eax
movl %eax, -0x14(%rbp)
movq -0x10(%rbp), %rax
cmpb $0x0, 0x247c(%rax)
je 0x55bd2
jmp 0x55bc5
jmp 0x55bc7
jmp 0x55bc9
movb $0x1, -0x1(%rbp)
jmp 0x55e5b
movq -0x10(%rbp), %rax
cmpl $0x0, 0x418(%rax)
je 0x55c91
movq -0x10(%rbp), %rax
movl 0x418(%rax), %eax
subl $0x1, %eax
movq -0x10(%rbp), %rcx
cmpl 0x2474(%rcx), %eax
je 0x55c91
movq -0x10(%rbp), %rax
movq 0x8(%rax), %rax
movq -0x10(%rbp), %rcx
movl 0x2474(%rcx), %ecx
shlq $0x4, %rcx
addq %rcx, %rax
movzbl 0x8(%rax), %eax
movq -0x10(%rbp), %rcx
cmpl 0x2478(%rcx), %eax
jne 0x55c91
movq -0x10(%rbp), %rax
movl 0x2474(%rax), %ecx
addl $0x1, %ecx
movl %ecx, 0x2474(%rax)
movq -0x10(%rbp), %rax
movl $0x0, 0x2478(%rax)
jmp 0x55c4c
movq -0x10(%rbp), %rdi
addq $0x438, %rdi # imm = 0x438
callq 0x53010
movq -0x10(%rbp), %rax
movq 0x8(%rax), %rax
movq -0x10(%rbp), %rcx
movl 0x2474(%rcx), %ecx
shlq $0x4, %rcx
addq %rcx, %rax
movq (%rax), %rdi
movq -0x10(%rbp), %rdx
addq $0x438, %rdx # imm = 0x438
movl $0x1, %ecx
movl %ecx, %esi
callq 0x52ce0
jmp 0x55ce4
movq -0x10(%rbp), %rax
movl 0x2478(%rax), %ecx
addl $0x1, %ecx
movl %ecx, 0x2478(%rax)
movq -0x10(%rbp), %rdi
addq $0x438, %rdi # imm = 0x438
callq 0x52e30
cmpb $0x0, %al
je 0x55cc3
jmp 0x55cba
movb $0x1, -0x1(%rbp)
jmp 0x55e5b
movq -0x10(%rbp), %rax
leaq 0xc24612(%rip), %rcx # 0xc7a2e0
cmpq %rcx, 0x2450(%rax)
jne 0x55ce2
jmp 0x55cd9
movb $0x1, -0x1(%rbp)
jmp 0x55e5b
jmp 0x55ce4
movq -0x10(%rbp), %rax
movq 0x2450(%rax), %rax
movq -0x10(%rbp), %rcx
movl 0x2460(%rcx), %ecx
movzbl (%rax,%rcx), %eax
andl $0xc0, %eax
movb %al, -0x19(%rbp)
movzbl -0x19(%rbp), %eax
cmpl $0x0, %eax
jne 0x55dac
movq -0x10(%rbp), %rax
cmpl $0x0, 0x418(%rax)
je 0x55dac
jmp 0x55d25
jmp 0x55d27
jmp 0x55d29
jmp 0x55d2b
jmp 0x55d2d
jmp 0x55d2f
movq -0x10(%rbp), %rdi
addq $0x438, %rdi # imm = 0x438
callq 0x53010
movq -0x10(%rbp), %rax
movq 0x428(%rax), %rdi
movq -0x10(%rbp), %rdx
addq $0x438, %rdx # imm = 0x438
movl $0x1, %ecx
movl %ecx, %esi
callq 0x52ce0
movq -0x10(%rbp), %rax
movw 0x436(%rax), %cx
movq -0x10(%rbp), %rax
movw %cx, 0x2472(%rax)
movq -0x10(%rbp), %rax
movl 0x2460(%rax), %ecx
movq -0x10(%rbp), %rax
movl %ecx, 0x2468(%rax)
movl -0x14(%rbp), %ecx
movq -0x10(%rbp), %rax
movl %ecx, 0x246c(%rax)
movq -0x10(%rbp), %rax
movb $0x1, 0x247c(%rax)
movb $0x0, -0x1(%rbp)
jmp 0x55e5b
movzbl -0x19(%rbp), %eax
cmpl $0x0, %eax
je 0x55dbe
movzbl -0x19(%rbp), %eax
cmpl $0x40, %eax
jne 0x55dd2
movq -0x10(%rbp), %rax
movb $0x1, 0x247c(%rax)
movb $0x1, -0x1(%rbp)
jmp 0x55e5b
movq -0x10(%rbp), %rax
movq 0x2450(%rax), %rdi
movq -0x10(%rbp), %rax
movl 0x2460(%rax), %eax
addq %rax, %rdi
callq 0x5c720
movw %ax, -0x16(%rbp)
movq -0x10(%rbp), %rax
movq 0x2450(%rax), %rdi
movq -0x10(%rbp), %rax
movl 0x2460(%rax), %eax
movzwl %ax, %esi
callq 0x52720
movw %ax, -0x18(%rbp)
movzwl -0x18(%rbp), %eax
movzwl -0x16(%rbp), %ecx
subl %ecx, %eax
movw %ax, %cx
movq -0x10(%rbp), %rax
movw %cx, 0x2472(%rax)
movq -0x10(%rbp), %rax
movl 0x2460(%rax), %ecx
movzwl -0x16(%rbp), %eax
addl %eax, %ecx
movq -0x10(%rbp), %rax
movl %ecx, 0x2468(%rax)
movl -0x14(%rbp), %ecx
movq -0x10(%rbp), %rax
movl %ecx, 0x246c(%rax)
jmp 0x55e55
jmp 0x55e57
movb $0x0, -0x1(%rbp)
movb -0x1(%rbp), %al
addq $0x20, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| translog_record_read_next_chunk:
push rbp
mov rbp, rsp
sub rsp, 20h
mov [rbp+var_10], rdi
mov rax, [rbp+var_10]
mov eax, [rax+246Ch]
mov rcx, [rbp+var_10]
movzx ecx, word ptr [rcx+2472h]
add eax, ecx
mov [rbp+var_14], eax
mov rax, [rbp+var_10]
cmp byte ptr [rax+247Ch], 0
jz short loc_55BD2
jmp short $+2
loc_55BC5:
jmp short $+2
loc_55BC7:
jmp short $+2
loc_55BC9:
mov [rbp+var_1], 1
jmp loc_55E5B
loc_55BD2:
mov rax, [rbp+var_10]
cmp dword ptr [rax+418h], 0
jz loc_55C91
mov rax, [rbp+var_10]
mov eax, [rax+418h]
sub eax, 1
mov rcx, [rbp+var_10]
cmp eax, [rcx+2474h]
jz loc_55C91
mov rax, [rbp+var_10]
mov rax, [rax+8]
mov rcx, [rbp+var_10]
mov ecx, [rcx+2474h]
shl rcx, 4
add rax, rcx
movzx eax, byte ptr [rax+8]
mov rcx, [rbp+var_10]
cmp eax, [rcx+2478h]
jnz short loc_55C91
mov rax, [rbp+var_10]
mov ecx, [rax+2474h]
add ecx, 1
mov [rax+2474h], ecx
mov rax, [rbp+var_10]
mov dword ptr [rax+2478h], 0
jmp short $+2
loc_55C4C:
mov rdi, [rbp+var_10]
add rdi, 438h
call translog_destroy_scanner
mov rax, [rbp+var_10]
mov rax, [rax+8]
mov rcx, [rbp+var_10]
mov ecx, [rcx+2474h]
shl rcx, 4
add rax, rcx
mov rdi, [rax]
mov rdx, [rbp+var_10]
add rdx, 438h
mov ecx, 1
mov esi, ecx
call translog_scanner_init
jmp short loc_55CE4
loc_55C91:
mov rax, [rbp+var_10]
mov ecx, [rax+2478h]
add ecx, 1
mov [rax+2478h], ecx
mov rdi, [rbp+var_10]
add rdi, 438h
call translog_get_next_chunk
cmp al, 0
jz short loc_55CC3
jmp short $+2
loc_55CBA:
mov [rbp+var_1], 1
jmp loc_55E5B
loc_55CC3:
mov rax, [rbp+var_10]
lea rcx, end_of_log
cmp [rax+2450h], rcx
jnz short loc_55CE2
jmp short $+2
loc_55CD9:
mov [rbp+var_1], 1
jmp loc_55E5B
loc_55CE2:
jmp short $+2
loc_55CE4:
mov rax, [rbp+var_10]
mov rax, [rax+2450h]
mov rcx, [rbp+var_10]
mov ecx, [rcx+2460h]
movzx eax, byte ptr [rax+rcx]
and eax, 0C0h
mov [rbp+var_19], al
movzx eax, [rbp+var_19]
cmp eax, 0
jnz loc_55DAC
mov rax, [rbp+var_10]
cmp dword ptr [rax+418h], 0
jz loc_55DAC
jmp short $+2
loc_55D25:
jmp short $+2
loc_55D27:
jmp short $+2
loc_55D29:
jmp short $+2
loc_55D2B:
jmp short $+2
loc_55D2D:
jmp short $+2
loc_55D2F:
mov rdi, [rbp+var_10]
add rdi, 438h
call translog_destroy_scanner
mov rax, [rbp+var_10]
mov rdi, [rax+428h]
mov rdx, [rbp+var_10]
add rdx, 438h
mov ecx, 1
mov esi, ecx
call translog_scanner_init
mov rax, [rbp+var_10]
mov cx, [rax+436h]
mov rax, [rbp+var_10]
mov [rax+2472h], cx
mov rax, [rbp+var_10]
mov ecx, [rax+2460h]
mov rax, [rbp+var_10]
mov [rax+2468h], ecx
mov ecx, [rbp+var_14]
mov rax, [rbp+var_10]
mov [rax+246Ch], ecx
mov rax, [rbp+var_10]
mov byte ptr [rax+247Ch], 1
mov [rbp+var_1], 0
jmp loc_55E5B
loc_55DAC:
movzx eax, [rbp+var_19]
cmp eax, 0
jz short loc_55DBE
movzx eax, [rbp+var_19]
cmp eax, 40h ; '@'
jnz short loc_55DD2
loc_55DBE:
mov rax, [rbp+var_10]
mov byte ptr [rax+247Ch], 1
mov [rbp+var_1], 1
jmp loc_55E5B
loc_55DD2:
mov rax, [rbp+var_10]
mov rdi, [rax+2450h]
mov rax, [rbp+var_10]
mov eax, [rax+2460h]
add rdi, rax
call translog_get_chunk_header_length
mov [rbp+var_16], ax
mov rax, [rbp+var_10]
mov rdi, [rax+2450h]
mov rax, [rbp+var_10]
mov eax, [rax+2460h]
movzx esi, ax
call translog_get_total_chunk_length
mov [rbp+var_18], ax
movzx eax, [rbp+var_18]
movzx ecx, [rbp+var_16]
sub eax, ecx
mov cx, ax
mov rax, [rbp+var_10]
mov [rax+2472h], cx
mov rax, [rbp+var_10]
mov ecx, [rax+2460h]
movzx eax, [rbp+var_16]
add ecx, eax
mov rax, [rbp+var_10]
mov [rax+2468h], ecx
mov ecx, [rbp+var_14]
mov rax, [rbp+var_10]
mov [rax+246Ch], ecx
jmp short $+2
loc_55E55:
jmp short $+2
loc_55E57:
mov [rbp+var_1], 0
loc_55E5B:
mov al, [rbp+var_1]
add rsp, 20h
pop rbp
retn
| char translog_record_read_next_chunk(long long a1)
{
char v2; // [rsp+7h] [rbp-19h]
unsigned __int16 chunk_header_length; // [rsp+Ah] [rbp-16h]
int v4; // [rsp+Ch] [rbp-14h]
v4 = *(unsigned __int16 *)(a1 + 9330) + *(_DWORD *)(a1 + 9324);
if ( *(_BYTE *)(a1 + 9340) )
return 1;
if ( *(_DWORD *)(a1 + 1048)
&& *(_DWORD *)(a1 + 1048) - 1 != *(_DWORD *)(a1 + 9332)
&& *(unsigned __int8 *)(16LL * *(unsigned int *)(a1 + 9332) + *(_QWORD *)(a1 + 8) + 8) == *(_DWORD *)(a1 + 9336) )
{
++*(_DWORD *)(a1 + 9332);
*(_DWORD *)(a1 + 9336) = 0;
translog_destroy_scanner(a1 + 1080);
translog_scanner_init(*(_QWORD *)(16LL * *(unsigned int *)(a1 + 9332) + *(_QWORD *)(a1 + 8)), 1, a1 + 1080, 1);
}
else
{
++*(_DWORD *)(a1 + 9336);
if ( translog_get_next_chunk(a1 + 1080) )
return 1;
if ( *(_UNKNOWN **)(a1 + 9296) == &end_of_log )
return 1;
}
v2 = *(_BYTE *)(*(_QWORD *)(a1 + 9296) + *(unsigned int *)(a1 + 9312)) & 0xC0;
if ( v2 || !*(_DWORD *)(a1 + 1048) )
{
if ( v2 && v2 != 64 )
{
chunk_header_length = translog_get_chunk_header_length(*(unsigned int *)(a1 + 9312) + *(_QWORD *)(a1 + 9296));
*(_WORD *)(a1 + 9330) = translog_get_total_chunk_length(*(_QWORD *)(a1 + 9296), *(_DWORD *)(a1 + 9312))
- chunk_header_length;
*(_DWORD *)(a1 + 9320) = chunk_header_length + *(_DWORD *)(a1 + 9312);
*(_DWORD *)(a1 + 9324) = v4;
return 0;
}
else
{
*(_BYTE *)(a1 + 9340) = 1;
return 1;
}
}
else
{
translog_destroy_scanner(a1 + 1080);
translog_scanner_init(*(_QWORD *)(a1 + 1064), 1, a1 + 1080, 1);
*(_WORD *)(a1 + 9330) = *(_WORD *)(a1 + 1078);
*(_DWORD *)(a1 + 9320) = *(_DWORD *)(a1 + 9312);
*(_DWORD *)(a1 + 9324) = v4;
*(_BYTE *)(a1 + 9340) = 1;
return 0;
}
}
| translog_record_read_next_chunk:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x20
MOV qword ptr [RBP + -0x10],RDI
MOV RAX,qword ptr [RBP + -0x10]
MOV EAX,dword ptr [RAX + 0x246c]
MOV RCX,qword ptr [RBP + -0x10]
MOVZX ECX,word ptr [RCX + 0x2472]
ADD EAX,ECX
MOV dword ptr [RBP + -0x14],EAX
MOV RAX,qword ptr [RBP + -0x10]
CMP byte ptr [RAX + 0x247c],0x0
JZ 0x00155bd2
JMP 0x00155bc5
LAB_00155bc5:
JMP 0x00155bc7
LAB_00155bc7:
JMP 0x00155bc9
LAB_00155bc9:
MOV byte ptr [RBP + -0x1],0x1
JMP 0x00155e5b
LAB_00155bd2:
MOV RAX,qword ptr [RBP + -0x10]
CMP dword ptr [RAX + 0x418],0x0
JZ 0x00155c91
MOV RAX,qword ptr [RBP + -0x10]
MOV EAX,dword ptr [RAX + 0x418]
SUB EAX,0x1
MOV RCX,qword ptr [RBP + -0x10]
CMP EAX,dword ptr [RCX + 0x2474]
JZ 0x00155c91
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x8]
MOV RCX,qword ptr [RBP + -0x10]
MOV ECX,dword ptr [RCX + 0x2474]
SHL RCX,0x4
ADD RAX,RCX
MOVZX EAX,byte ptr [RAX + 0x8]
MOV RCX,qword ptr [RBP + -0x10]
CMP EAX,dword ptr [RCX + 0x2478]
JNZ 0x00155c91
MOV RAX,qword ptr [RBP + -0x10]
MOV ECX,dword ptr [RAX + 0x2474]
ADD ECX,0x1
MOV dword ptr [RAX + 0x2474],ECX
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0x2478],0x0
JMP 0x00155c4c
LAB_00155c4c:
MOV RDI,qword ptr [RBP + -0x10]
ADD RDI,0x438
CALL 0x00153010
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x8]
MOV RCX,qword ptr [RBP + -0x10]
MOV ECX,dword ptr [RCX + 0x2474]
SHL RCX,0x4
ADD RAX,RCX
MOV RDI,qword ptr [RAX]
MOV RDX,qword ptr [RBP + -0x10]
ADD RDX,0x438
MOV ECX,0x1
MOV ESI,ECX
CALL 0x00152ce0
JMP 0x00155ce4
LAB_00155c91:
MOV RAX,qword ptr [RBP + -0x10]
MOV ECX,dword ptr [RAX + 0x2478]
ADD ECX,0x1
MOV dword ptr [RAX + 0x2478],ECX
MOV RDI,qword ptr [RBP + -0x10]
ADD RDI,0x438
CALL 0x00152e30
CMP AL,0x0
JZ 0x00155cc3
JMP 0x00155cba
LAB_00155cba:
MOV byte ptr [RBP + -0x1],0x1
JMP 0x00155e5b
LAB_00155cc3:
MOV RAX,qword ptr [RBP + -0x10]
LEA RCX,[0xd7a2e0]
CMP qword ptr [RAX + 0x2450],RCX
JNZ 0x00155ce2
JMP 0x00155cd9
LAB_00155cd9:
MOV byte ptr [RBP + -0x1],0x1
JMP 0x00155e5b
LAB_00155ce2:
JMP 0x00155ce4
LAB_00155ce4:
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x2450]
MOV RCX,qword ptr [RBP + -0x10]
MOV ECX,dword ptr [RCX + 0x2460]
MOVZX EAX,byte ptr [RAX + RCX*0x1]
AND EAX,0xc0
MOV byte ptr [RBP + -0x19],AL
MOVZX EAX,byte ptr [RBP + -0x19]
CMP EAX,0x0
JNZ 0x00155dac
MOV RAX,qword ptr [RBP + -0x10]
CMP dword ptr [RAX + 0x418],0x0
JZ 0x00155dac
JMP 0x00155d25
LAB_00155d25:
JMP 0x00155d27
LAB_00155d27:
JMP 0x00155d29
LAB_00155d29:
JMP 0x00155d2b
LAB_00155d2b:
JMP 0x00155d2d
LAB_00155d2d:
JMP 0x00155d2f
LAB_00155d2f:
MOV RDI,qword ptr [RBP + -0x10]
ADD RDI,0x438
CALL 0x00153010
MOV RAX,qword ptr [RBP + -0x10]
MOV RDI,qword ptr [RAX + 0x428]
MOV RDX,qword ptr [RBP + -0x10]
ADD RDX,0x438
MOV ECX,0x1
MOV ESI,ECX
CALL 0x00152ce0
MOV RAX,qword ptr [RBP + -0x10]
MOV CX,word ptr [RAX + 0x436]
MOV RAX,qword ptr [RBP + -0x10]
MOV word ptr [RAX + 0x2472],CX
MOV RAX,qword ptr [RBP + -0x10]
MOV ECX,dword ptr [RAX + 0x2460]
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0x2468],ECX
MOV ECX,dword ptr [RBP + -0x14]
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0x246c],ECX
MOV RAX,qword ptr [RBP + -0x10]
MOV byte ptr [RAX + 0x247c],0x1
MOV byte ptr [RBP + -0x1],0x0
JMP 0x00155e5b
LAB_00155dac:
MOVZX EAX,byte ptr [RBP + -0x19]
CMP EAX,0x0
JZ 0x00155dbe
MOVZX EAX,byte ptr [RBP + -0x19]
CMP EAX,0x40
JNZ 0x00155dd2
LAB_00155dbe:
MOV RAX,qword ptr [RBP + -0x10]
MOV byte ptr [RAX + 0x247c],0x1
MOV byte ptr [RBP + -0x1],0x1
JMP 0x00155e5b
LAB_00155dd2:
MOV RAX,qword ptr [RBP + -0x10]
MOV RDI,qword ptr [RAX + 0x2450]
MOV RAX,qword ptr [RBP + -0x10]
MOV EAX,dword ptr [RAX + 0x2460]
ADD RDI,RAX
CALL 0x0015c720
MOV word ptr [RBP + -0x16],AX
MOV RAX,qword ptr [RBP + -0x10]
MOV RDI,qword ptr [RAX + 0x2450]
MOV RAX,qword ptr [RBP + -0x10]
MOV EAX,dword ptr [RAX + 0x2460]
MOVZX ESI,AX
CALL 0x00152720
MOV word ptr [RBP + -0x18],AX
MOVZX EAX,word ptr [RBP + -0x18]
MOVZX ECX,word ptr [RBP + -0x16]
SUB EAX,ECX
MOV CX,AX
MOV RAX,qword ptr [RBP + -0x10]
MOV word ptr [RAX + 0x2472],CX
MOV RAX,qword ptr [RBP + -0x10]
MOV ECX,dword ptr [RAX + 0x2460]
MOVZX EAX,word ptr [RBP + -0x16]
ADD ECX,EAX
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0x2468],ECX
MOV ECX,dword ptr [RBP + -0x14]
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0x246c],ECX
JMP 0x00155e55
LAB_00155e55:
JMP 0x00155e57
LAB_00155e57:
MOV byte ptr [RBP + -0x1],0x0
LAB_00155e5b:
MOV AL,byte ptr [RBP + -0x1]
ADD RSP,0x20
POP RBP
RET
|
int1 translog_record_read_next_chunk(long param_1)
{
char cVar1;
byte bVar2;
ushort uVar3;
short sVar4;
int iVar5;
int1 local_9;
iVar5 = *(int *)(param_1 + 0x246c) + (uint)*(ushort *)(param_1 + 0x2472);
if (*(char *)(param_1 + 0x247c) != '\0') {
return 1;
}
if (((*(int *)(param_1 + 0x418) == 0) ||
(*(int *)(param_1 + 0x418) + -1 == *(int *)(param_1 + 0x2474))) ||
((uint)*(byte *)(*(long *)(param_1 + 8) + (ulong)*(uint *)(param_1 + 0x2474) * 0x10 + 8) !=
*(uint *)(param_1 + 0x2478))) {
*(int *)(param_1 + 0x2478) = *(int *)(param_1 + 0x2478) + 1;
cVar1 = translog_get_next_chunk(param_1 + 0x438);
if (cVar1 != '\0') {
return 1;
}
if (*(int1 **)(param_1 + 0x2450) == &end_of_log) {
return 1;
}
}
else {
*(int *)(param_1 + 0x2474) = *(int *)(param_1 + 0x2474) + 1;
*(int4 *)(param_1 + 0x2478) = 0;
translog_destroy_scanner(param_1 + 0x438);
translog_scanner_init
(*(int8 *)(*(long *)(param_1 + 8) + (ulong)*(uint *)(param_1 + 0x2474) * 0x10),1
,param_1 + 0x438);
}
bVar2 = *(byte *)(*(long *)(param_1 + 0x2450) + (ulong)*(uint *)(param_1 + 0x2460)) & 0xc0;
if ((bVar2 == 0) && (*(int *)(param_1 + 0x418) != 0)) {
translog_destroy_scanner(param_1 + 0x438);
translog_scanner_init(*(int8 *)(param_1 + 0x428),1,param_1 + 0x438);
*(int2 *)(param_1 + 0x2472) = *(int2 *)(param_1 + 0x436);
*(int4 *)(param_1 + 0x2468) = *(int4 *)(param_1 + 0x2460);
*(int *)(param_1 + 0x246c) = iVar5;
*(int1 *)(param_1 + 0x247c) = 1;
local_9 = 0;
}
else if ((bVar2 == 0) || (bVar2 == 0x40)) {
*(int1 *)(param_1 + 0x247c) = 1;
local_9 = 1;
}
else {
uVar3 = translog_get_chunk_header_length
(*(long *)(param_1 + 0x2450) + (ulong)*(uint *)(param_1 + 0x2460));
sVar4 = translog_get_total_chunk_length
(*(int8 *)(param_1 + 0x2450),*(uint *)(param_1 + 0x2460) & 0xffff);
*(ushort *)(param_1 + 0x2472) = sVar4 - uVar3;
*(uint *)(param_1 + 0x2468) = *(int *)(param_1 + 0x2460) + (uint)uVar3;
*(int *)(param_1 + 0x246c) = iVar5;
local_9 = 0;
}
return local_9;
}
| |
34,484 | get_block_count | corpus-core[P]colibri-stateless/src/chains/eth/proofer/proof_logs.c | static inline uint32_t get_block_count(proof_logs_block_t* blocks) {
uint32_t count = 0;
while (blocks) {
count++;
blocks = blocks->next;
}
return count;
} | O0 | c | get_block_count:
pushq %rbp
movq %rsp, %rbp
movq %rdi, -0x8(%rbp)
movl $0x0, -0xc(%rbp)
cmpq $0x0, -0x8(%rbp)
je 0x93bd
movl -0xc(%rbp), %eax
addl $0x1, %eax
movl %eax, -0xc(%rbp)
movq -0x8(%rbp), %rax
movq 0x28(%rax), %rax
movq %rax, -0x8(%rbp)
jmp 0x939f
movl -0xc(%rbp), %eax
popq %rbp
retq
nopw %cs:(%rax,%rax)
| get_block_count:
push rbp
mov rbp, rsp
mov [rbp+var_8], rdi
mov [rbp+var_C], 0
loc_939F:
cmp [rbp+var_8], 0
jz short loc_93BD
mov eax, [rbp+var_C]
add eax, 1
mov [rbp+var_C], eax
mov rax, [rbp+var_8]
mov rax, [rax+28h]
mov [rbp+var_8], rax
jmp short loc_939F
loc_93BD:
mov eax, [rbp+var_C]
pop rbp
retn
| long long get_block_count(long long a1)
{
unsigned int v2; // [rsp+0h] [rbp-Ch]
v2 = 0;
while ( a1 )
{
++v2;
a1 = *(_QWORD *)(a1 + 40);
}
return v2;
}
| get_block_count:
PUSH RBP
MOV RBP,RSP
MOV qword ptr [RBP + -0x8],RDI
MOV dword ptr [RBP + -0xc],0x0
LAB_0010939f:
CMP qword ptr [RBP + -0x8],0x0
JZ 0x001093bd
MOV EAX,dword ptr [RBP + -0xc]
ADD EAX,0x1
MOV dword ptr [RBP + -0xc],EAX
MOV RAX,qword ptr [RBP + -0x8]
MOV RAX,qword ptr [RAX + 0x28]
MOV qword ptr [RBP + -0x8],RAX
JMP 0x0010939f
LAB_001093bd:
MOV EAX,dword ptr [RBP + -0xc]
POP RBP
RET
|
int get_block_count(long param_1)
{
int4 local_14;
int8 local_10;
local_14 = 0;
for (local_10 = param_1; local_10 != 0; local_10 = *(long *)(local_10 + 0x28)) {
local_14 = local_14 + 1;
}
return local_14;
}
| |
34,485 | stbi_is_hdr_from_memory | monkey531[P]llama/examples/llava/../../common/stb_image.h | STBIDEF int stbi_is_hdr_from_memory(stbi_uc const *buffer, int len)
{
#ifndef STBI_NO_HDR
stbi__context s;
stbi__start_mem(&s,buffer,len);
return stbi__hdr_test(&s);
#else
STBI_NOTUSED(buffer);
STBI_NOTUSED(len);
return 0;
#endif
} | O1 | c | stbi_is_hdr_from_memory:
subq $0xe8, %rsp
leaq 0x8(%rsp), %rax
movq $0x0, 0x10(%rax)
xorl %ecx, %ecx
movl %ecx, 0x30(%rax)
movl %ecx, 0xb8(%rax)
movq %rdi, 0xd0(%rax)
movq %rdi, 0xc0(%rax)
movslq %esi, %rcx
addq %rdi, %rcx
movq %rcx, 0xd8(%rax)
movq %rcx, 0xc8(%rax)
movq %rax, %rdi
callq 0x1fcc2
addq $0xe8, %rsp
retq
| stbi_is_hdr_from_memory:
sub rsp, 0E8h
lea rax, [rsp+0E8h+var_E0]
mov qword ptr [rax+10h], 0
xor ecx, ecx
mov [rax+30h], ecx
mov [rax+0B8h], ecx
mov [rax+0D0h], rdi
mov [rax+0C0h], rdi
movsxd rcx, esi
add rcx, rdi
mov [rax+0D8h], rcx
mov [rax+0C8h], rcx
mov rdi, rax
call _ZL14stbi__hdr_testP13stbi__context; stbi__hdr_test(stbi__context *)
add rsp, 0E8h
retn
| long long stbi_is_hdr_from_memory(long long a1, int a2)
{
_BYTE v3[16]; // [rsp+8h] [rbp-E0h] BYREF
long long v4; // [rsp+18h] [rbp-D0h]
int v5; // [rsp+38h] [rbp-B0h]
int v6; // [rsp+C0h] [rbp-28h]
long long v7; // [rsp+C8h] [rbp-20h]
long long v8; // [rsp+D0h] [rbp-18h]
long long v9; // [rsp+D8h] [rbp-10h]
long long v10; // [rsp+E0h] [rbp-8h]
v4 = 0LL;
v5 = 0;
v6 = 0;
v9 = a1;
v7 = a1;
v10 = a1 + a2;
v8 = v10;
return stbi__hdr_test(v3);
}
| stbi_is_hdr_from_memory:
SUB RSP,0xe8
LEA RAX,[RSP + 0x8]
MOV qword ptr [RAX + 0x10],0x0
XOR ECX,ECX
MOV dword ptr [RAX + 0x30],ECX
MOV dword ptr [RAX + 0xb8],ECX
MOV qword ptr [RAX + 0xd0],RDI
MOV qword ptr [RAX + 0xc0],RDI
MOVSXD RCX,ESI
ADD RCX,RDI
MOV qword ptr [RAX + 0xd8],RCX
MOV qword ptr [RAX + 0xc8],RCX
MOV RDI,RAX
CALL 0x0011fcc2
ADD RSP,0xe8
RET
|
void stbi_is_hdr_from_memory(long param_1,int param_2)
{
stbi__context local_e0 [16];
int8 local_d0;
int4 local_b0;
int4 local_28;
long local_20;
long local_18;
long local_10;
long local_8;
local_d0 = 0;
local_b0 = 0;
local_28 = 0;
local_18 = param_2 + param_1;
local_20 = param_1;
local_10 = param_1;
local_8 = local_18;
stbi__hdr_test(local_e0);
return;
}
| |
34,486 | ma_ll2str | eloqsql/libmariadb/libmariadb/ma_ll2str.c | char *ma_ll2str(long long val,char *dst,int radix)
{
char buffer[65];
register char *p;
long long_val;
if (radix < 0)
{
if (radix < -36 || radix > -2) return (char*) 0;
if (val < 0) {
*dst++ = '-';
val = 0ULL - val;
}
radix = -radix;
}
else
{
if (radix > 36 || radix < 2) return (char*) 0;
}
if (val == 0)
{
*dst++='0';
*dst='\0';
return dst;
}
p = &buffer[sizeof(buffer)-1];
*p = '\0';
while ((ulonglong) val > (ulonglong) LONG_MAX)
{
ulonglong quo=(ulonglong) val/(uint) radix;
uint rem= (uint) (val- quo* (uint) radix);
*--p = _dig_vec[rem];
val= quo;
}
long_val= (long) val;
while (long_val != 0)
{
long quo= long_val/radix;
*--p = _dig_vec[(uchar) (long_val - quo*radix)];
long_val= quo;
}
while ((*dst++ = *p++) != 0) ;
return dst-1;
} | O3 | c | ma_ll2str:
pushq %rbp
movq %rsp, %rbp
subq $0x50, %rsp
movq %rdi, %rax
movq %fs:0x28, %rcx
movq %rcx, -0x8(%rbp)
testl %edx, %edx
js 0x329ae
leal -0x25(%rdx), %ecx
cmpl $-0x23, %ecx
jb 0x329b6
jmp 0x329cd
leal 0x1(%rdx), %ecx
cmpl $-0x23, %ecx
jae 0x329bd
xorl %esi, %esi
jmp 0x32a3f
testq %rax, %rax
jns 0x329cb
movb $0x2d, (%rsi)
incq %rsi
negq %rax
negl %edx
testq %rax, %rax
je 0x32a37
leaq -0x10(%rbp), %rcx
movb $0x0, (%rcx)
movl %edx, %edi
jns 0x329f8
leaq 0x559c(%rip), %r8 # 0x37f80
xorl %edx, %edx
divq %rdi
movb (%rdx,%r8), %dl
movb %dl, -0x1(%rcx)
decq %rcx
testq %rax, %rax
js 0x329e4
incq %rcx
leaq 0x557e(%rip), %r8 # 0x37f80
cqto
idivq %rdi
movzbl %dl, %edx
movb (%rdx,%r8), %r9b
movb %r9b, -0x2(%rcx)
decq %rcx
testq %rax, %rax
jne 0x32a02
movb %r9b, (%rsi)
cmpl $0x24, %edx
je 0x32a3f
xorl %eax, %eax
movb (%rcx,%rax), %dl
movb %dl, 0x1(%rsi,%rax)
incq %rax
testb %dl, %dl
jne 0x32a24
addq %rax, %rsi
jmp 0x32a3f
movw $0x30, (%rsi)
incq %rsi
movq %fs:0x28, %rax
cmpq -0x8(%rbp), %rax
jne 0x32a57
movq %rsi, %rax
addq $0x50, %rsp
popq %rbp
retq
callq 0x13500
| ma_ll2str:
push rbp
mov rbp, rsp
sub rsp, 50h
mov rax, rdi
mov rcx, fs:28h
mov [rbp+var_8], rcx
test edx, edx
js short loc_329AE
lea ecx, [rdx-25h]
cmp ecx, 0FFFFFFDDh
jb short loc_329B6
jmp short loc_329CD
loc_329AE:
lea ecx, [rdx+1]
cmp ecx, 0FFFFFFDDh
jnb short loc_329BD
loc_329B6:
xor esi, esi
jmp loc_32A3F
loc_329BD:
test rax, rax
jns short loc_329CB
mov byte ptr [rsi], 2Dh ; '-'
inc rsi
neg rax
loc_329CB:
neg edx
loc_329CD:
test rax, rax
jz short loc_32A37
lea rcx, [rbp+var_10]
mov byte ptr [rcx], 0
mov edi, edx
jns short loc_329F8
lea r8, _dig_vec; "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ"
loc_329E4:
xor edx, edx
div rdi
mov dl, [rdx+r8]
mov [rcx-1], dl
dec rcx
test rax, rax
js short loc_329E4
loc_329F8:
inc rcx
lea r8, _dig_vec; "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ"
loc_32A02:
cqo
idiv rdi
movzx edx, dl
mov r9b, [rdx+r8]
mov [rcx-2], r9b
dec rcx
test rax, rax
jnz short loc_32A02
mov [rsi], r9b
cmp edx, 24h ; '$'
jz short loc_32A3F
xor eax, eax
loc_32A24:
mov dl, [rcx+rax]
mov [rsi+rax+1], dl
inc rax
test dl, dl
jnz short loc_32A24
add rsi, rax
jmp short loc_32A3F
loc_32A37:
mov word ptr [rsi], 30h ; '0'
inc rsi
loc_32A3F:
mov rax, fs:28h
cmp rax, [rbp+var_8]
jnz short loc_32A57
mov rax, rsi
add rsp, 50h
pop rbp
retn
loc_32A57:
call ___stack_chk_fail
| char * ma_ll2str(long long a1, char *a2, unsigned int a3)
{
long long v3; // rax
char *v4; // rcx
long long i; // rdi
unsigned long long v6; // rtt
_BYTE *v7; // rcx
long long v8; // rt2
int v9; // edx
char v10; // r9
long long v11; // rax
char v12; // dl
char v14; // [rsp+40h] [rbp-10h] BYREF
unsigned long long v15; // [rsp+48h] [rbp-8h]
v3 = a1;
v15 = __readfsqword(0x28u);
if ( (a3 & 0x80000000) != 0 )
{
if ( a3 + 1 >= 0xFFFFFFDD )
{
if ( a1 < 0 )
{
*a2++ = 45;
v3 = -a1;
}
a3 = -a3;
goto LABEL_9;
}
return 0LL;
}
if ( a3 - 37 < 0xFFFFFFDD )
return 0LL;
LABEL_9:
if ( v3 )
{
v4 = &v14;
v14 = 0;
for ( i = a3; v3 < 0; --v4 )
{
v6 = v3;
v3 /= (unsigned long long)a3;
*(v4 - 1) = dig_vec[v6 % a3];
}
v7 = v4 + 1;
do
{
v8 = v3 % i;
v3 /= i;
v9 = (unsigned __int8)v8;
v10 = dig_vec[(unsigned __int8)v8];
*(v7 - 2) = v10;
--v7;
}
while ( v3 );
*a2 = v10;
if ( v9 != 36 )
{
v11 = 0LL;
do
{
v12 = v7[v11];
a2[++v11] = v12;
}
while ( v12 );
a2 += v11;
}
}
else
{
*(_WORD *)a2++ = 48;
}
return a2;
}
| ma_ll2str:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x50
MOV RAX,RDI
MOV RCX,qword ptr FS:[0x28]
MOV qword ptr [RBP + -0x8],RCX
TEST EDX,EDX
JS 0x001329ae
LEA ECX,[RDX + -0x25]
CMP ECX,-0x23
JC 0x001329b6
JMP 0x001329cd
LAB_001329ae:
LEA ECX,[RDX + 0x1]
CMP ECX,-0x23
JNC 0x001329bd
LAB_001329b6:
XOR ESI,ESI
JMP 0x00132a3f
LAB_001329bd:
TEST RAX,RAX
JNS 0x001329cb
MOV byte ptr [RSI],0x2d
INC RSI
NEG RAX
LAB_001329cb:
NEG EDX
LAB_001329cd:
TEST RAX,RAX
JZ 0x00132a37
LEA RCX,[RBP + -0x10]
MOV byte ptr [RCX],0x0
MOV EDI,EDX
JNS 0x001329f8
LEA R8,[0x137f80]
LAB_001329e4:
XOR EDX,EDX
DIV RDI
MOV DL,byte ptr [RDX + R8*0x1]
MOV byte ptr [RCX + -0x1],DL
DEC RCX
TEST RAX,RAX
JS 0x001329e4
LAB_001329f8:
INC RCX
LEA R8,[0x137f80]
LAB_00132a02:
CQO
IDIV RDI
MOVZX EDX,DL
MOV R9B,byte ptr [RDX + R8*0x1]
MOV byte ptr [RCX + -0x2],R9B
DEC RCX
TEST RAX,RAX
JNZ 0x00132a02
MOV byte ptr [RSI],R9B
CMP EDX,0x24
JZ 0x00132a3f
XOR EAX,EAX
LAB_00132a24:
MOV DL,byte ptr [RCX + RAX*0x1]
MOV byte ptr [RSI + RAX*0x1 + 0x1],DL
INC RAX
TEST DL,DL
JNZ 0x00132a24
ADD RSI,RAX
JMP 0x00132a3f
LAB_00132a37:
MOV word ptr [RSI],0x30
INC RSI
LAB_00132a3f:
MOV RAX,qword ptr FS:[0x28]
CMP RAX,qword ptr [RBP + -0x8]
JNZ 0x00132a57
MOV RAX,RSI
ADD RSP,0x50
POP RBP
RET
LAB_00132a57:
CALL 0x00113500
|
char * ma_ll2str(ulong param_1,char *param_2,uint param_3)
{
char cVar1;
ulong uVar2;
long lVar3;
char *pcVar4;
ulong uVar5;
ulong uVar6;
long in_FS_OFFSET;
char local_19 [9];
long local_10;
local_10 = *(long *)(in_FS_OFFSET + 0x28);
if ((int)param_3 < 0) {
if (param_3 + 1 < 0xffffffdd) goto LAB_001329b6;
if ((long)param_1 < 0) {
*param_2 = '-';
param_2 = param_2 + 1;
param_1 = -param_1;
}
param_3 = -param_3;
}
else if (param_3 - 0x25 < 0xffffffdd) {
LAB_001329b6:
param_2 = (char *)0x0;
goto LAB_00132a3f;
}
if (param_1 == 0) {
param_2[0] = '0';
param_2[1] = '\0';
param_2 = param_2 + 1;
}
else {
pcVar4 = local_19 + 1;
local_19[1] = 0;
uVar6 = (ulong)param_3;
for (; (long)param_1 < 0; param_1 = param_1 / uVar6) {
pcVar4[-1] = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ"[param_1 % uVar6];
pcVar4 = pcVar4 + -1;
}
pcVar4 = pcVar4 + 1;
do {
uVar2 = (long)param_1 / (long)uVar6;
uVar5 = (long)param_1 % (long)uVar6 & 0xff;
cVar1 = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ"[uVar5];
pcVar4[-2] = cVar1;
pcVar4 = pcVar4 + -1;
param_1 = uVar2;
} while (uVar2 != 0);
*param_2 = cVar1;
if ((int)uVar5 != 0x24) {
lVar3 = 0;
do {
cVar1 = pcVar4[lVar3];
param_2[lVar3 + 1] = cVar1;
lVar3 = lVar3 + 1;
} while (cVar1 != '\0');
param_2 = param_2 + lVar3;
}
}
LAB_00132a3f:
if (*(long *)(in_FS_OFFSET + 0x28) == local_10) {
return param_2;
}
/* WARNING: Subroutine does not return */
__stack_chk_fail();
}
| |
34,487 | mariadb_compression_algorithm_str | eloqsql/libmariadb/libmariadb/ma_compress.c | const char *_mariadb_compression_algorithm_str(enum enum_ma_compression_algorithm algorithm)
{
switch(algorithm) {
case COMPRESSION_NONE:
case COMPRESSION_ZLIB:
case COMPRESSION_ZSTD:
return compression_algorithms[algorithm] ;
default:
return compression_algorithms[COMPRESSION_UNKNOWN];
}
} | O3 | c | mariadb_compression_algorithm_str:
pushq %rbp
movq %rsp, %rbp
movl %edi, %eax
shlq $0x3, %rax
cmpl $0x3, %edi
leaq 0x2c084(%rip), %rcx # 0x4ce80
movl $0x18, %edx
cmovbq %rax, %rdx
movq (%rcx,%rdx), %rax
popq %rbp
retq
| _mariadb_compression_algorithm_str:
push rbp
mov rbp, rsp
mov eax, edi
shl rax, 3
cmp edi, 3
lea rcx, compression_algorithms
mov edx, 18h
cmovb rdx, rax
mov rax, [rcx+rdx]
pop rbp
retn
| char * mariadb_compression_algorithm_str(unsigned int a1)
{
long long v1; // rdx
v1 = 3LL;
if ( a1 < 3 )
v1 = a1;
return compression_algorithms[v1];
}
| _mariadb_compression_algorithm_str:
PUSH RBP
MOV RBP,RSP
MOV EAX,EDI
SHL RAX,0x3
CMP EDI,0x3
LEA RCX,[0x14ce80]
MOV EDX,0x18
CMOVC RDX,RAX
MOV RAX,qword ptr [RCX + RDX*0x1]
POP RBP
RET
|
int8 _mariadb_compression_algorithm_str(uint param_1)
{
long lVar1;
lVar1 = 0x18;
if (param_1 < 3) {
lVar1 = (ulong)param_1 << 3;
}
return *(int8 *)(compression_algorithms + lVar1);
}
| |
34,488 | my_uni_utf16le | eloqsql/strings/ctype-ucs2.c | static int
my_uni_utf16le(CHARSET_INFO *cs __attribute__((unused)),
my_wc_t wc, uchar *s, uchar *e)
{
uint32 first, second, total;
if (wc < MY_UTF16_SURROGATE_HIGH_FIRST ||
(wc > MY_UTF16_SURROGATE_LOW_LAST &&
wc <= 0xFFFF))
{
if (s + 2 > e)
return MY_CS_TOOSMALL2;
int2store(s, wc);
return 2; /* [0000-D7FF,E000-FFFF] */
}
if (wc < 0xFFFF || wc > 0x10FFFF)
return MY_CS_ILUNI; /* [D800-DFFF,10FFFF+] */
if (s + 4 > e)
return MY_CS_TOOSMALL4;
wc-= 0x10000;
first= (0xD800 | ((wc >> 10) & 0x3FF));
second= (0xDC00 | (wc & 0x3FF));
total= first | (second << 16);
int4store(s, total);
return 4; /* [010000-10FFFF] */
} | O3 | c | my_uni_utf16le:
pushq %rbp
movq %rsp, %rbp
cmpq $0xd800, %rsi # imm = 0xD800
setae %al
movq %rsi, %rdi
andq $-0x2000, %rdi # imm = 0xE000
cmpq $0xe000, %rdi # imm = 0xE000
setne %dil
testb %dil, %al
jne 0xc6a9b
leaq 0x2(%rdx), %rdi
movl $0xffffff9a, %eax # imm = 0xFFFFFF9A
cmpq %rcx, %rdi
ja 0xc6ae0
movw %si, (%rdx)
movl $0x2, %eax
jmp 0xc6ae0
leaq -0x110000(%rsi), %rdi
xorl %eax, %eax
cmpq $-0x100001, %rdi # imm = 0xFFEFFFFF
jb 0xc6ae0
leaq 0x4(%rdx), %rdi
movl $0xffffff98, %eax # imm = 0xFFFFFF98
cmpq %rcx, %rdi
ja 0xc6ae0
leal 0xf0000(%rsi), %eax
shrl $0xa, %eax
andl $0x3ff, %eax # imm = 0x3FF
shll $0x10, %esi
andl $0x3ff0000, %esi # imm = 0x3FF0000
addl %esi, %eax
addl $0xdc00d800, %eax # imm = 0xDC00D800
movl %eax, (%rdx)
movl $0x4, %eax
popq %rbp
retq
| my_uni_utf16le:
push rbp
mov rbp, rsp
cmp rsi, 0D800h
setnb al
mov rdi, rsi
and rdi, 0FFFFFFFFFFFFE000h
cmp rdi, 0E000h
setnz dil
test al, dil
jnz short loc_C6A9B
lea rdi, [rdx+2]
mov eax, 0FFFFFF9Ah
cmp rdi, rcx
ja short loc_C6AE0
mov [rdx], si
mov eax, 2
jmp short loc_C6AE0
loc_C6A9B:
lea rdi, [rsi-110000h]
xor eax, eax
cmp rdi, 0FFFFFFFFFFEFFFFFh
jb short loc_C6AE0
lea rdi, [rdx+4]
mov eax, 0FFFFFF98h
cmp rdi, rcx
ja short loc_C6AE0
lea eax, unk_F0000[rsi]
shr eax, 0Ah
and eax, 3FFh
shl esi, 10h
and esi, 3FF0000h
add eax, esi
add eax, 0DC00D800h
mov [rdx], eax
mov eax, 4
loc_C6AE0:
pop rbp
retn
| long long my_uni_utf16le(long long a1, unsigned long long a2, _DWORD *a3, unsigned long long a4)
{
long long result; // rax
if ( (a2 & 0xFFFFFFFFFFFFE000LL) != 57344 && a2 >= 0xD800 )
{
result = 0LL;
if ( a2 - 1114112 >= 0xFFFFFFFFFFEFFFFFLL )
{
result = 4294967192LL;
if ( (unsigned long long)(a3 + 1) <= a4 )
{
*a3 = (((_DWORD)a2 << 16) & 0x3FF0000)
+ (((unsigned int)((unsigned int)&unk_F0000 + a2) >> 10) & 0x3FF)
- 603924480;
return 4LL;
}
}
}
else
{
result = 4294967194LL;
if ( (unsigned long long)a3 + 2 <= a4 )
{
*(_WORD *)a3 = a2;
return 2LL;
}
}
return result;
}
| my_uni_utf16le:
PUSH RBP
MOV RBP,RSP
CMP RSI,0xd800
SETNC AL
MOV RDI,RSI
AND RDI,-0x2000
CMP RDI,0xe000
SETNZ DIL
TEST AL,DIL
JNZ 0x001c6a9b
LEA RDI,[RDX + 0x2]
MOV EAX,0xffffff9a
CMP RDI,RCX
JA 0x001c6ae0
MOV word ptr [RDX],SI
MOV EAX,0x2
JMP 0x001c6ae0
LAB_001c6a9b:
LEA RDI,[RSI + -0x110000]
XOR EAX,EAX
CMP RDI,-0x100001
JC 0x001c6ae0
LEA RDI,[RDX + 0x4]
MOV EAX,0xffffff98
CMP RDI,RCX
JA 0x001c6ae0
LEA EAX,[RSI + 0xf0000]
SHR EAX,0xa
AND EAX,0x3ff
SHL ESI,0x10
AND ESI,0x3ff0000
ADD EAX,ESI
ADD EAX,0xdc00d800
MOV dword ptr [RDX],EAX
MOV EAX,0x4
LAB_001c6ae0:
POP RBP
RET
|
int8 my_uni_utf16le(int8 param_1,ulong param_2,int *param_3,int *param_4)
{
int8 uVar1;
if (param_2 < 0xd800 || (param_2 & 0xffffffffffffe000) == 0xe000) {
uVar1 = 0xffffff9a;
if ((int *)((long)param_3 + 2U) <= param_4) {
*(short *)param_3 = (short)param_2;
uVar1 = 2;
}
}
else {
uVar1 = 0;
if ((0xffffffffffeffffe < param_2 - 0x110000) && (uVar1 = 0xffffff98, param_3 + 1 <= param_4)) {
*param_3 = ((uint)param_2 + 0xf0000 >> 10 & 0x3ff) + ((uint)param_2 & 0x3ff) * 0x10000 +
-0x23ff2800;
uVar1 = 4;
}
}
return uVar1;
}
| |
34,489 | my_charpos_mb | eloqsql/strings/ctype-mb.c | size_t my_charpos_mb(CHARSET_INFO *cs __attribute__((unused)),
const char *pos, const char *end, size_t length)
{
const char *start= pos;
while (length && pos < end)
{
uint mb_len;
pos+= (mb_len= my_ismbchar(cs, pos, end)) ? mb_len : 1;
length--;
}
return (size_t) (length ? end+2-start : pos-start);
} | O0 | c | my_charpos_mb:
pushq %rbp
movq %rsp, %rbp
subq $0x40, %rsp
movq %rdi, -0x8(%rbp)
movq %rsi, -0x10(%rbp)
movq %rdx, -0x18(%rbp)
movq %rcx, -0x20(%rbp)
movq -0x10(%rbp), %rax
movq %rax, -0x28(%rbp)
xorl %eax, %eax
cmpq $0x0, -0x20(%rbp)
movb %al, -0x2d(%rbp)
je 0xbf95a
movq -0x10(%rbp), %rax
cmpq -0x18(%rbp), %rax
setb %al
movb %al, -0x2d(%rbp)
movb -0x2d(%rbp), %al
testb $0x1, %al
jne 0xbf963
jmp 0xbf9ac
movq -0x8(%rbp), %rdi
movq -0x10(%rbp), %rsi
movq -0x18(%rbp), %rdx
callq 0xbedd0
movl %eax, -0x2c(%rbp)
cmpl $0x0, %eax
je 0xbf984
movl -0x2c(%rbp), %eax
movl %eax, -0x34(%rbp)
jmp 0xbf98e
movl $0x1, %eax
movl %eax, -0x34(%rbp)
jmp 0xbf98e
movl -0x34(%rbp), %ecx
movq -0x10(%rbp), %rax
movl %ecx, %ecx
addq %rcx, %rax
movq %rax, -0x10(%rbp)
movq -0x20(%rbp), %rax
addq $-0x1, %rax
movq %rax, -0x20(%rbp)
jmp 0xbf940
cmpq $0x0, -0x20(%rbp)
je 0xbf9c8
movq -0x18(%rbp), %rax
addq $0x2, %rax
movq -0x28(%rbp), %rcx
subq %rcx, %rax
movq %rax, -0x40(%rbp)
jmp 0xbf9d7
movq -0x10(%rbp), %rax
movq -0x28(%rbp), %rcx
subq %rcx, %rax
movq %rax, -0x40(%rbp)
movq -0x40(%rbp), %rax
addq $0x40, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| my_charpos_mb:
push rbp
mov rbp, rsp
sub rsp, 40h
mov [rbp+var_8], rdi
mov [rbp+var_10], rsi
mov [rbp+var_18], rdx
mov [rbp+var_20], rcx
mov rax, [rbp+var_10]
mov [rbp+var_28], rax
loc_BF940:
xor eax, eax
cmp [rbp+var_20], 0
mov [rbp+var_2D], al
jz short loc_BF95A
mov rax, [rbp+var_10]
cmp rax, [rbp+var_18]
setb al
mov [rbp+var_2D], al
loc_BF95A:
mov al, [rbp+var_2D]
test al, 1
jnz short loc_BF963
jmp short loc_BF9AC
loc_BF963:
mov rdi, [rbp+var_8]
mov rsi, [rbp+var_10]
mov rdx, [rbp+var_18]
call my_ismbchar_0
mov [rbp+var_2C], eax
cmp eax, 0
jz short loc_BF984
mov eax, [rbp+var_2C]
mov [rbp+var_34], eax
jmp short loc_BF98E
loc_BF984:
mov eax, 1
mov [rbp+var_34], eax
jmp short $+2
loc_BF98E:
mov ecx, [rbp+var_34]
mov rax, [rbp+var_10]
mov ecx, ecx
add rax, rcx
mov [rbp+var_10], rax
mov rax, [rbp+var_20]
add rax, 0FFFFFFFFFFFFFFFFh
mov [rbp+var_20], rax
jmp short loc_BF940
loc_BF9AC:
cmp [rbp+var_20], 0
jz short loc_BF9C8
mov rax, [rbp+var_18]
add rax, 2
mov rcx, [rbp+var_28]
sub rax, rcx
mov [rbp+var_40], rax
jmp short loc_BF9D7
loc_BF9C8:
mov rax, [rbp+var_10]
mov rcx, [rbp+var_28]
sub rax, rcx
mov [rbp+var_40], rax
loc_BF9D7:
mov rax, [rbp+var_40]
add rsp, 40h
pop rbp
retn
| unsigned long long my_charpos_mb(long long a1, unsigned long long a2, unsigned long long a3, long long a4)
{
unsigned int v6; // [rsp+Ch] [rbp-34h]
bool v7; // [rsp+13h] [rbp-2Dh]
unsigned int v8; // [rsp+14h] [rbp-2Ch]
unsigned long long v11; // [rsp+30h] [rbp-10h]
v11 = a2;
while ( 1 )
{
v7 = 0;
if ( a4 )
v7 = v11 < a3;
if ( !v7 )
break;
v8 = my_ismbchar_0(a1, v11, a3);
if ( v8 )
v6 = v8;
else
v6 = 1;
v11 += v6;
--a4;
}
if ( a4 )
return a3 + 2 - a2;
else
return v11 - a2;
}
| my_charpos_mb:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x40
MOV qword ptr [RBP + -0x8],RDI
MOV qword ptr [RBP + -0x10],RSI
MOV qword ptr [RBP + -0x18],RDX
MOV qword ptr [RBP + -0x20],RCX
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RBP + -0x28],RAX
LAB_001bf940:
XOR EAX,EAX
CMP qword ptr [RBP + -0x20],0x0
MOV byte ptr [RBP + -0x2d],AL
JZ 0x001bf95a
MOV RAX,qword ptr [RBP + -0x10]
CMP RAX,qword ptr [RBP + -0x18]
SETC AL
MOV byte ptr [RBP + -0x2d],AL
LAB_001bf95a:
MOV AL,byte ptr [RBP + -0x2d]
TEST AL,0x1
JNZ 0x001bf963
JMP 0x001bf9ac
LAB_001bf963:
MOV RDI,qword ptr [RBP + -0x8]
MOV RSI,qword ptr [RBP + -0x10]
MOV RDX,qword ptr [RBP + -0x18]
CALL 0x001bedd0
MOV dword ptr [RBP + -0x2c],EAX
CMP EAX,0x0
JZ 0x001bf984
MOV EAX,dword ptr [RBP + -0x2c]
MOV dword ptr [RBP + -0x34],EAX
JMP 0x001bf98e
LAB_001bf984:
MOV EAX,0x1
MOV dword ptr [RBP + -0x34],EAX
JMP 0x001bf98e
LAB_001bf98e:
MOV ECX,dword ptr [RBP + -0x34]
MOV RAX,qword ptr [RBP + -0x10]
MOV ECX,ECX
ADD RAX,RCX
MOV qword ptr [RBP + -0x10],RAX
MOV RAX,qword ptr [RBP + -0x20]
ADD RAX,-0x1
MOV qword ptr [RBP + -0x20],RAX
JMP 0x001bf940
LAB_001bf9ac:
CMP qword ptr [RBP + -0x20],0x0
JZ 0x001bf9c8
MOV RAX,qword ptr [RBP + -0x18]
ADD RAX,0x2
MOV RCX,qword ptr [RBP + -0x28]
SUB RAX,RCX
MOV qword ptr [RBP + -0x40],RAX
JMP 0x001bf9d7
LAB_001bf9c8:
MOV RAX,qword ptr [RBP + -0x10]
MOV RCX,qword ptr [RBP + -0x28]
SUB RAX,RCX
MOV qword ptr [RBP + -0x40],RAX
LAB_001bf9d7:
MOV RAX,qword ptr [RBP + -0x40]
ADD RSP,0x40
POP RBP
RET
|
long my_charpos_mb(int8 param_1,ulong param_2,ulong param_3,long param_4)
{
long local_48;
uint local_3c;
long local_28;
ulong local_18;
local_18 = param_2;
for (local_28 = param_4; local_28 != 0 && local_18 < param_3; local_28 = local_28 + -1) {
local_3c = my_ismbchar(param_1,local_18,param_3);
if (local_3c == 0) {
local_3c = 1;
}
local_18 = local_18 + local_3c;
}
if (local_28 == 0) {
local_48 = local_18 - param_2;
}
else {
local_48 = (param_3 + 2) - param_2;
}
return local_48;
}
| |
34,490 | my_charpos_mb | eloqsql/strings/ctype-mb.c | size_t my_charpos_mb(CHARSET_INFO *cs __attribute__((unused)),
const char *pos, const char *end, size_t length)
{
const char *start= pos;
while (length && pos < end)
{
uint mb_len;
pos+= (mb_len= my_ismbchar(cs, pos, end)) ? mb_len : 1;
length--;
}
return (size_t) (length ? end+2-start : pos-start);
} | O3 | c | my_charpos_mb:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
pushq %rax
movq %rcx, %r15
movq %rdx, %rbx
testq %rcx, %rcx
setne %cl
sete %al
cmpq %rdx, %rsi
setae %dl
orb %al, %dl
movq %rsi, -0x30(%rbp)
movq %rsi, %rax
jne 0x8204e
movq %rdi, %r12
decq %r15
movl $0x1, %r14d
movq -0x30(%rbp), %rax
movq %rax, %r13
movq 0xb8(%r12), %rax
movq %r12, %rdi
movq %r13, %rsi
movq %rbx, %rdx
callq *0xc0(%rax)
cmpl $0x2, %eax
cmovbl %r14d, %eax
cmovll %r14d, %eax
addq %r13, %rax
addq $-0x1, %r15
setb %cl
jae 0x8204e
cmpq %rbx, %rax
jb 0x82018
addq $0x2, %rbx
testb %cl, %cl
cmoveq %rax, %rbx
subq -0x30(%rbp), %rbx
movq %rbx, %rax
addq $0x8, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| my_charpos_mb:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
push rax
mov r15, rcx
mov rbx, rdx
test rcx, rcx
setnz cl
setz al
cmp rsi, rdx
setnb dl
or dl, al
mov [rbp+var_30], rsi
mov rax, rsi
jnz short loc_8204E
mov r12, rdi
dec r15
mov r14d, 1
mov rax, [rbp+var_30]
loc_82018:
mov r13, rax
mov rax, [r12+0B8h]
mov rdi, r12
mov rsi, r13
mov rdx, rbx
call qword ptr [rax+0C0h]
cmp eax, 2
cmovb eax, r14d
cmovl eax, r14d
add rax, r13
add r15, 0FFFFFFFFFFFFFFFFh
setb cl
jnb short loc_8204E
cmp rax, rbx
jb short loc_82018
loc_8204E:
add rbx, 2
test cl, cl
cmovz rbx, rax
sub rbx, [rbp+var_30]
mov rax, rbx
add rsp, 8
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| unsigned long long my_charpos_mb(long long a1, unsigned long long a2, unsigned long long a3, long long a4)
{
long long v4; // r15
bool v6; // zf
unsigned long long v7; // rax
long long v8; // r15
unsigned long long v9; // r13
long long v10; // rax
bool v11; // cc
bool v12; // cf
unsigned long long v13; // rbx
v4 = a4;
v6 = a4 == 0;
LOBYTE(a4) = a4 != 0;
v7 = a2;
if ( !v6 && a2 < a3 )
{
v8 = v4 - 1;
v7 = a2;
do
{
v9 = v7;
v10 = (*(long long ( **)(long long, unsigned long long, unsigned long long, long long))(*(_QWORD *)(a1 + 184)
+ 192LL))(
a1,
v7,
a3,
a4);
v11 = (int)v10 < 2;
if ( (unsigned int)v10 < 2 )
v10 = 1LL;
if ( v11 )
v10 = 1LL;
v7 = v9 + v10;
v12 = v8-- != 0;
LOBYTE(a4) = v12;
}
while ( v12 && v7 < a3 );
}
v13 = a3 + 2;
if ( !(_BYTE)a4 )
v13 = v7;
return v13 - a2;
}
| my_charpos_mb:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
PUSH RAX
MOV R15,RCX
MOV RBX,RDX
TEST RCX,RCX
SETNZ CL
SETZ AL
CMP RSI,RDX
SETNC DL
OR DL,AL
MOV qword ptr [RBP + -0x30],RSI
MOV RAX,RSI
JNZ 0x0018204e
MOV R12,RDI
DEC R15
MOV R14D,0x1
MOV RAX,qword ptr [RBP + -0x30]
LAB_00182018:
MOV R13,RAX
MOV RAX,qword ptr [R12 + 0xb8]
MOV RDI,R12
MOV RSI,R13
MOV RDX,RBX
CALL qword ptr [RAX + 0xc0]
CMP EAX,0x2
CMOVC EAX,R14D
CMOVL EAX,R14D
ADD RAX,R13
ADD R15,-0x1
SETC CL
JNC 0x0018204e
CMP RAX,RBX
JC 0x00182018
LAB_0018204e:
ADD RBX,0x2
TEST CL,CL
CMOVZ RBX,RAX
SUB RBX,qword ptr [RBP + -0x30]
MOV RAX,RBX
ADD RSP,0x8
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
long my_charpos_mb(long param_1,ulong param_2,ulong param_3,long param_4)
{
uint uVar1;
ulong uVar2;
ulong uVar3;
bool bVar4;
bVar4 = param_4 != 0;
uVar3 = param_2;
if (param_2 < param_3 && bVar4) {
do {
param_4 = param_4 + -1;
uVar1 = (**(code **)(*(long *)(param_1 + 0xb8) + 0xc0))(param_1,uVar3,param_3);
uVar2 = (ulong)uVar1;
if (uVar1 < 2) {
uVar2 = 1;
}
if ((int)uVar1 < 2) {
uVar2 = 1;
}
uVar3 = uVar2 + uVar3;
bVar4 = param_4 != 0;
} while ((bVar4) && (uVar3 < param_3));
}
uVar2 = param_3 + 2;
if (!bVar4) {
uVar2 = uVar3;
}
return uVar2 - param_2;
}
| |
34,491 | testing::AssertionResult testing::internal::CmpHelperEQFailure<void*, std::nullptr_t>(char const*, char const*, void* const&, std::nullptr_t const&) | seiftnesse[P]memoryallocator/build_O1/_deps/googletest-src/googletest/include/gtest/gtest.h | AssertionResult CmpHelperEQFailure(const char* lhs_expression,
const char* rhs_expression, const T1& lhs,
const T2& rhs) {
return EqFailure(lhs_expression, rhs_expression,
FormatForComparisonFailureMessage(lhs, rhs),
FormatForComparisonFailureMessage(rhs, lhs), false);
} | O1 | c | testing::AssertionResult testing::internal::CmpHelperEQFailure<void*, std::nullptr_t>(char const*, char const*, void* const&, std::nullptr_t const&):
pushq %r15
pushq %r14
pushq %r12
pushq %rbx
subq $0x48, %rsp
movq %r8, %r12
movq %rdx, %r14
movq %rsi, %r15
movq %rdi, %rbx
leaq 0x28(%rsp), %rdi
movq %rcx, %rsi
callq 0x10441
leaq 0x8(%rsp), %rdi
movq %r12, %rsi
callq 0x104ee
leaq 0x28(%rsp), %rcx
leaq 0x8(%rsp), %r8
movq %rbx, %rdi
movq %r15, %rsi
movq %r14, %rdx
xorl %r9d, %r9d
callq 0x21c84
leaq 0x18(%rsp), %rax
movq -0x10(%rax), %rdi
cmpq %rax, %rdi
je 0x10970
movq 0x18(%rsp), %rsi
incq %rsi
callq 0x94c0
leaq 0x38(%rsp), %rax
movq -0x10(%rax), %rdi
cmpq %rax, %rdi
je 0x1098b
movq 0x38(%rsp), %rsi
incq %rsi
callq 0x94c0
movq %rbx, %rax
addq $0x48, %rsp
popq %rbx
popq %r12
popq %r14
popq %r15
retq
movq %rax, %rbx
leaq 0x18(%rsp), %rax
movq -0x10(%rax), %rdi
cmpq %rax, %rdi
je 0x109bd
movq 0x18(%rsp), %rsi
incq %rsi
callq 0x94c0
jmp 0x109bd
movq %rax, %rbx
leaq 0x38(%rsp), %rax
movq -0x10(%rax), %rdi
cmpq %rax, %rdi
je 0x109d8
movq 0x38(%rsp), %rsi
incq %rsi
callq 0x94c0
movq %rbx, %rdi
callq 0x99a0
| _ZN7testing8internal18CmpHelperEQFailureIPvDnEENS_15AssertionResultEPKcS5_RKT_RKT0_:
push r15
push r14
push r12
push rbx
sub rsp, 48h
mov r12, r8
mov r14, rdx
mov r15, rsi
mov rbx, rdi
lea rdi, [rsp+68h+var_40]
mov rsi, rcx
call _ZN7testing13PrintToStringIPvEENSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEERKT_; testing::PrintToString<void *>(void * const&)
lea rdi, [rsp+68h+var_60]
mov rsi, r12
call _ZN7testing13PrintToStringIDnEENSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEERKT_; testing::PrintToString<decltype(nullptr)>(decltype(nullptr) const&)
lea rcx, [rsp+68h+var_40]
lea r8, [rsp+68h+var_60]
mov rdi, rbx
mov rsi, r15
mov rdx, r14
xor r9d, r9d
call _ZN7testing8internal9EqFailureEPKcS2_RKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEESA_b; testing::internal::EqFailure(char const*,char const*,std::string const&,std::string const&,bool)
lea rax, [rsp+68h+var_50]
mov rdi, [rax-10h]; void *
cmp rdi, rax
jz short loc_10970
mov rsi, [rsp+68h+var_50]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_10970:
lea rax, [rsp+68h+var_30]
mov rdi, [rax-10h]; void *
cmp rdi, rax
jz short loc_1098B
mov rsi, [rsp+68h+var_30]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_1098B:
mov rax, rbx
add rsp, 48h
pop rbx
pop r12
pop r14
pop r15
retn
mov rbx, rax
lea rax, [rsp+arg_10]
mov rdi, [rax-10h]; void *
cmp rdi, rax
jz short loc_109BD
mov rsi, [rsp+arg_10]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
jmp short loc_109BD
mov rbx, rax
loc_109BD:
lea rax, [rsp+arg_30]
mov rdi, [rax-10h]; void *
cmp rdi, rax
jz short loc_109D8
mov rsi, [rsp+arg_30]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_109D8:
mov rdi, rbx
call __Unwind_Resume
| long long testing::internal::CmpHelperEQFailure<void *,decltype(nullptr)>(
long long a1,
long long a2,
long long a3,
_QWORD *a4)
{
void *v6[2]; // [rsp+8h] [rbp-60h] BYREF
long long v7; // [rsp+18h] [rbp-50h] BYREF
void *v8[2]; // [rsp+28h] [rbp-40h] BYREF
long long v9; // [rsp+38h] [rbp-30h] BYREF
testing::PrintToString<void *>((long long)v8, a4);
testing::PrintToString<decltype(nullptr)>((long long)v6);
testing::internal::EqFailure(a1, a2, a3, v8, v6, 0LL);
if ( v6[0] != &v7 )
operator delete(v6[0], v7 + 1);
if ( v8[0] != &v9 )
operator delete(v8[0], v9 + 1);
return a1;
}
| CmpHelperEQFailure<void*,decltype(nullptr)>:
PUSH R15
PUSH R14
PUSH R12
PUSH RBX
SUB RSP,0x48
MOV R12,R8
MOV R14,RDX
MOV R15,RSI
MOV RBX,RDI
LEA RDI,[RSP + 0x28]
MOV RSI,RCX
CALL 0x00110441
LAB_0011092d:
LEA RDI,[RSP + 0x8]
MOV RSI,R12
CALL 0x001104ee
LAB_0011093a:
LEA RCX,[RSP + 0x28]
LEA R8,[RSP + 0x8]
MOV RDI,RBX
MOV RSI,R15
MOV RDX,R14
XOR R9D,R9D
CALL 0x00121c84
LAB_00110955:
LEA RAX,[RSP + 0x18]
MOV RDI,qword ptr [RAX + -0x10]
CMP RDI,RAX
JZ 0x00110970
MOV RSI,qword ptr [RSP + 0x18]
INC RSI
CALL 0x001094c0
LAB_00110970:
LEA RAX,[RSP + 0x38]
MOV RDI,qword ptr [RAX + -0x10]
CMP RDI,RAX
JZ 0x0011098b
MOV RSI,qword ptr [RSP + 0x38]
INC RSI
CALL 0x001094c0
LAB_0011098b:
MOV RAX,RBX
ADD RSP,0x48
POP RBX
POP R12
POP R14
POP R15
RET
|
/* testing::AssertionResult testing::internal::CmpHelperEQFailure<void*, decltype(nullptr)>(char
const*, char const*, void* const&, decltype(nullptr) const&) */
char * testing::internal::CmpHelperEQFailure<void*,decltype(nullptr)>
(char *param_1,char *param_2,void **param_3,_func_decltype_nullptr **param_4)
{
_func_decltype_nullptr *local_60 [2];
long local_50 [2];
long *local_40 [2];
long local_30 [2];
PrintToString<void*>((testing *)local_40,param_4);
/* try { // try from 0011092d to 00110939 has its CatchHandler @ 001109ba */
PrintToString<decltype(nullptr)>(local_60);
/* try { // try from 0011093a to 00110954 has its CatchHandler @ 0011099a */
EqFailure((internal *)param_1,param_2,(char *)param_3,(string *)local_40,(string *)local_60,false)
;
if (local_60[0] != (_func_decltype_nullptr *)local_50) {
operator_delete(local_60[0],local_50[0] + 1);
}
if (local_40[0] != local_30) {
operator_delete(local_40[0],local_30[0] + 1);
}
return param_1;
}
| |
34,492 | ggml_opt_default_params | llama.cpp/ggml/src/ggml-opt.cpp | struct ggml_opt_params ggml_opt_default_params(
ggml_backend_sched_t backend_sched,
struct ggml_context * ctx_compute,
struct ggml_tensor * inputs,
struct ggml_tensor * outputs,
enum ggml_opt_loss_type loss_type) {
return {
/*backend_sched =*/ backend_sched,
/*ctx_compute =*/ ctx_compute,
/*inputs =*/ inputs,
/*logits =*/ outputs,
/*loss_type =*/ loss_type,
/*build_type =*/ GGML_OPT_BUILD_TYPE_OPT,
/*opt_period =*/ 1,
/*get_opt_pars =*/ ggml_opt_get_default_optimizer_params,
/*get_opt_pars_ud =*/ nullptr,
};
} | O3 | cpp | ggml_opt_default_params:
movq %rdi, %rax
movq %rsi, (%rdi)
movq %rdx, 0x8(%rdi)
movq %rcx, 0x10(%rdi)
movq %r8, 0x18(%rdi)
movl %r9d, 0x20(%rdi)
movabsq $0x100000002, %rcx # imm = 0x100000002
movq %rcx, 0x24(%rdi)
movq 0x40dbc(%rip), %rcx # 0x69fb8
movq %rcx, 0x30(%rdi)
movq $0x0, 0x38(%rdi)
retq
| ggml_opt_default_params:
mov rax, rdi
mov [rdi], rsi
mov [rdi+8], rdx
mov [rdi+10h], rcx
mov [rdi+18h], r8
mov [rdi+20h], r9d
mov rcx, 100000002h
mov [rdi+24h], rcx
mov rcx, cs:ggml_opt_get_default_optimizer_params_ptr
mov [rdi+30h], rcx
mov qword ptr [rdi+38h], 0
retn
| long long ggml_opt_default_params(long long a1, long long a2, long long a3, long long a4, long long a5, int a6)
{
long long result; // rax
result = a1;
*(_QWORD *)a1 = a2;
*(_QWORD *)(a1 + 8) = a3;
*(_QWORD *)(a1 + 16) = a4;
*(_QWORD *)(a1 + 24) = a5;
*(_DWORD *)(a1 + 32) = a6;
*(_QWORD *)(a1 + 36) = 0x100000002LL;
*(_QWORD *)(a1 + 48) = ggml_opt_get_default_optimizer_params;
*(_QWORD *)(a1 + 56) = 0LL;
return result;
}
| ggml_opt_default_params:
MOV RAX,RDI
MOV qword ptr [RDI],RSI
MOV qword ptr [RDI + 0x8],RDX
MOV qword ptr [RDI + 0x10],RCX
MOV qword ptr [RDI + 0x18],R8
MOV dword ptr [RDI + 0x20],R9D
MOV RCX,0x100000002
MOV qword ptr [RDI + 0x24],RCX
MOV RCX,qword ptr [0x00169fb8]
MOV qword ptr [RDI + 0x30],RCX
MOV qword ptr [RDI + 0x38],0x0
RET
|
int8 *
ggml_opt_default_params
(int8 *param_1,int8 param_2,int8 param_3,int8 param_4,
int8 param_5,int4 param_6)
{
*param_1 = param_2;
param_1[1] = param_3;
param_1[2] = param_4;
param_1[3] = param_5;
*(int4 *)(param_1 + 4) = param_6;
*(int8 *)((long)param_1 + 0x24) = 0x100000002;
param_1[6] = PTR_ggml_opt_get_default_optimizer_params_00169fb8;
param_1[7] = 0;
return param_1;
}
| |
34,493 | ma_ck_write_btree | eloqsql/storage/maria/ma_write.c | static my_bool _ma_ck_write_btree(MARIA_HA *info, MARIA_KEY *key)
{
my_bool error;
MARIA_KEYDEF *keyinfo= key->keyinfo;
my_off_t *root= &info->s->state.key_root[keyinfo->key_nr];
DBUG_ENTER("_ma_ck_write_btree");
error= _ma_ck_write_btree_with_log(info, key, root,
keyinfo->write_comp_flag | key->flag);
if (info->ft1_to_ft2)
{
if (!error)
error= _ma_ft_convert_to_ft2(info, key);
delete_dynamic(info->ft1_to_ft2);
my_free(info->ft1_to_ft2);
info->ft1_to_ft2=0;
}
DBUG_RETURN(error);
} | O0 | c | ma_ck_write_btree:
pushq %rbp
movq %rsp, %rbp
subq $0x30, %rsp
movq %rdi, -0x8(%rbp)
movq %rsi, -0x10(%rbp)
movq -0x10(%rbp), %rax
movq 0x8(%rax), %rax
movq %rax, -0x20(%rbp)
movq -0x8(%rbp), %rax
movq (%rax), %rax
movq 0x118(%rax), %rax
movq -0x20(%rbp), %rcx
movzbl 0xa5(%rcx), %ecx
shlq $0x3, %rcx
addq %rcx, %rax
movq %rax, -0x28(%rbp)
movq -0x8(%rbp), %rdi
movq -0x10(%rbp), %rsi
movq -0x28(%rbp), %rdx
movq -0x20(%rbp), %rax
movl 0xb4(%rax), %ecx
movq -0x10(%rbp), %rax
orl 0x18(%rax), %ecx
callq 0x85ed0
movb %al, -0x11(%rbp)
movq -0x8(%rbp), %rax
cmpq $0x0, 0x320(%rax)
je 0x81d88
cmpb $0x0, -0x11(%rbp)
jne 0x81d59
movq -0x8(%rbp), %rdi
movq -0x10(%rbp), %rsi
callq 0x8c5d0
movb %al, -0x11(%rbp)
movq -0x8(%rbp), %rax
movq 0x320(%rax), %rdi
callq 0xda3d0
movq -0x8(%rbp), %rax
movq 0x320(%rax), %rdi
callq 0xf31b0
movq -0x8(%rbp), %rax
movq $0x0, 0x320(%rax)
jmp 0x81d8a
movb -0x11(%rbp), %al
movb %al, -0x29(%rbp)
movb -0x29(%rbp), %al
addq $0x30, %rsp
popq %rbp
retq
nopl (%rax)
| _ma_ck_write_btree:
push rbp
mov rbp, rsp
sub rsp, 30h
mov [rbp+var_8], rdi
mov [rbp+var_10], rsi
mov rax, [rbp+var_10]
mov rax, [rax+8]
mov [rbp+var_20], rax
mov rax, [rbp+var_8]
mov rax, [rax]
mov rax, [rax+118h]
mov rcx, [rbp+var_20]
movzx ecx, byte ptr [rcx+0A5h]
shl rcx, 3
add rax, rcx
mov [rbp+var_28], rax
mov rdi, [rbp+var_8]
mov rsi, [rbp+var_10]
mov rdx, [rbp+var_28]
mov rax, [rbp+var_20]
mov ecx, [rax+0B4h]
mov rax, [rbp+var_10]
or ecx, [rax+18h]
call _ma_ck_write_btree_with_log
mov [rbp+var_11], al
mov rax, [rbp+var_8]
cmp qword ptr [rax+320h], 0
jz short loc_81D88
cmp [rbp+var_11], 0
jnz short loc_81D59
mov rdi, [rbp+var_8]
mov rsi, [rbp+var_10]
call _ma_ft_convert_to_ft2
mov [rbp+var_11], al
loc_81D59:
mov rax, [rbp+var_8]
mov rdi, [rax+320h]
call delete_dynamic
mov rax, [rbp+var_8]
mov rdi, [rax+320h]
call my_free
mov rax, [rbp+var_8]
mov qword ptr [rax+320h], 0
loc_81D88:
jmp short $+2
loc_81D8A:
mov al, [rbp+var_11]
mov [rbp+var_29], al
mov al, [rbp+var_29]
add rsp, 30h
pop rbp
retn
| char ma_ck_write_btree(_QWORD *a1, long long a2)
{
double v2; // xmm0_8
char v4; // [rsp+1Fh] [rbp-11h]
v4 = ma_ck_write_btree_with_log(
a1,
a2,
8LL * *(unsigned __int8 *)(*(_QWORD *)(a2 + 8) + 165LL) + *(_QWORD *)(*a1 + 280LL),
(unsigned int)(*(_DWORD *)(a2 + 24) | *(_DWORD *)(*(_QWORD *)(a2 + 8) + 180LL)));
if ( a1[100] )
{
if ( !v4 )
v4 = ma_ft_convert_to_ft2(a1, a2);
v2 = delete_dynamic(a1[100]);
my_free(a1[100], v2);
a1[100] = 0LL;
}
return v4;
}
| _ma_ck_write_btree:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x30
MOV qword ptr [RBP + -0x8],RDI
MOV qword ptr [RBP + -0x10],RSI
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x8]
MOV qword ptr [RBP + -0x20],RAX
MOV RAX,qword ptr [RBP + -0x8]
MOV RAX,qword ptr [RAX]
MOV RAX,qword ptr [RAX + 0x118]
MOV RCX,qword ptr [RBP + -0x20]
MOVZX ECX,byte ptr [RCX + 0xa5]
SHL RCX,0x3
ADD RAX,RCX
MOV qword ptr [RBP + -0x28],RAX
MOV RDI,qword ptr [RBP + -0x8]
MOV RSI,qword ptr [RBP + -0x10]
MOV RDX,qword ptr [RBP + -0x28]
MOV RAX,qword ptr [RBP + -0x20]
MOV ECX,dword ptr [RAX + 0xb4]
MOV RAX,qword ptr [RBP + -0x10]
OR ECX,dword ptr [RAX + 0x18]
CALL 0x00185ed0
MOV byte ptr [RBP + -0x11],AL
MOV RAX,qword ptr [RBP + -0x8]
CMP qword ptr [RAX + 0x320],0x0
JZ 0x00181d88
CMP byte ptr [RBP + -0x11],0x0
JNZ 0x00181d59
MOV RDI,qword ptr [RBP + -0x8]
MOV RSI,qword ptr [RBP + -0x10]
CALL 0x0018c5d0
MOV byte ptr [RBP + -0x11],AL
LAB_00181d59:
MOV RAX,qword ptr [RBP + -0x8]
MOV RDI,qword ptr [RAX + 0x320]
CALL 0x001da3d0
MOV RAX,qword ptr [RBP + -0x8]
MOV RDI,qword ptr [RAX + 0x320]
CALL 0x001f31b0
MOV RAX,qword ptr [RBP + -0x8]
MOV qword ptr [RAX + 0x320],0x0
LAB_00181d88:
JMP 0x00181d8a
LAB_00181d8a:
MOV AL,byte ptr [RBP + -0x11]
MOV byte ptr [RBP + -0x29],AL
MOV AL,byte ptr [RBP + -0x29]
ADD RSP,0x30
POP RBP
RET
|
char _ma_ck_write_btree(long *param_1,long param_2)
{
char local_19;
local_19 = _ma_ck_write_btree_with_log
(param_1,param_2,
*(long *)(*param_1 + 0x118) +
(ulong)*(byte *)(*(long *)(param_2 + 8) + 0xa5) * 8,
*(uint *)(*(long *)(param_2 + 8) + 0xb4) | *(uint *)(param_2 + 0x18));
if (param_1[100] != 0) {
if (local_19 == '\0') {
local_19 = _ma_ft_convert_to_ft2(param_1,param_2);
}
delete_dynamic(param_1[100]);
my_free(param_1[100]);
param_1[100] = 0;
}
return local_19;
}
| |
34,494 | stbi__info_main(stbi__context*, int*, int*, int*) | llama.cpp/examples/llava/../../common/stb_image.h | static int stbi__info_main(stbi__context *s, int *x, int *y, int *comp)
{
#ifndef STBI_NO_JPEG
if (stbi__jpeg_info(s, x, y, comp)) return 1;
#endif
#ifndef STBI_NO_PNG
if (stbi__png_info(s, x, y, comp)) return 1;
#endif
#ifndef STBI_NO_GIF
if (stbi__gif_info(s, x, y, comp)) return 1;
#endif
#ifndef STBI_NO_BMP
if (stbi__bmp_info(s, x, y, comp)) return 1;
#endif
#ifndef STBI_NO_PSD
if (stbi__psd_info(s, x, y, comp)) return 1;
#endif
#ifndef STBI_NO_PIC
if (stbi__pic_info(s, x, y, comp)) return 1;
#endif
#ifndef STBI_NO_PNM
if (stbi__pnm_info(s, x, y, comp)) return 1;
#endif
#ifndef STBI_NO_HDR
if (stbi__hdr_info(s, x, y, comp)) return 1;
#endif
// test tga last because it's a crappy test!
#ifndef STBI_NO_TGA
if (stbi__tga_info(s, x, y, comp))
return 1;
#endif
return stbi__err("unknown image type", "Image not of any known type, or corrupt");
} | O3 | c | stbi__info_main(stbi__context*, int*, int*, int*):
pushq %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x28, %rsp
movq %rcx, %rbx
movq %rdx, %r14
movq %rsi, %r15
movq %rdi, %r12
movl $0x1, %edi
movl $0x4888, %esi # imm = 0x4888
callq 0x1cd20
testq %rax, %rax
je 0x22ef1
movq %rax, %r13
movq %r12, (%rax)
movq %rax, %rdi
movl $0x2, %esi
callq 0x329ca
testl %eax, %eax
je 0x22f0d
testq %r15, %r15
je 0x22eb8
movq (%r13), %rax
movl (%rax), %eax
movl %eax, (%r15)
testq %r14, %r14
je 0x22ec7
movq (%r13), %rax
movl 0x4(%rax), %eax
movl %eax, (%r14)
testq %rbx, %rbx
je 0x22ee2
movq (%r13), %rax
xorl %ecx, %ecx
cmpl $0x3, 0x8(%rax)
setge %cl
leal 0x1(,%rcx,2), %eax
movl %eax, (%rbx)
movq %r13, %rdi
callq 0x1d840
movl $0x1, %ebp
jmp 0x22f44
leaq 0x3ae48(%rip), %rdi # 0x5dd40
callq 0x1e400
leaq 0x2c585(%rip), %rcx # 0x4f489
movq %rcx, (%rax)
jmp 0x22f27
movq (%r13), %rax
movups 0xd0(%rax), %xmm0
movups %xmm0, 0xc0(%rax)
movq %r13, %rdi
callq 0x1d840
movq %rsp, %rdi
movq %r12, (%rdi)
movq %r15, %rsi
movq %r14, %rdx
movq %rbx, %rcx
callq 0x36b00
movl $0x1, %ebp
testl %eax, %eax
je 0x22f55
movl %ebp, %eax
addq $0x28, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
movl $0x8870, %edi # imm = 0x8870
callq 0x1dae0
testq %rax, %rax
je 0x22f9f
movq %rax, %r13
movq %r12, %rdi
movq %rax, %rsi
movq %rbx, %rdx
movl $0x1, %ecx
callq 0x32255
testl %eax, %eax
je 0x22fbb
testq %r15, %r15
je 0x22f8a
movl (%r13), %eax
movl %eax, (%r15)
testq %r14, %r14
je 0x22ee2
movl 0x4(%r13), %eax
movl %eax, (%r14)
jmp 0x22ee2
leaq 0x3ad9a(%rip), %rdi # 0x5dd40
callq 0x1e400
leaq 0x2c4d7(%rip), %rcx # 0x4f489
movq %rcx, (%rax)
jmp 0x22fd5
movq %r13, %rdi
callq 0x1d840
movups 0xd0(%r12), %xmm0
movups %xmm0, 0xc0(%r12)
movq %rsp, %rsi
movl $0xff, 0x1c(%rsi)
movq %r12, %rdi
callq 0x31471
testq %rax, %rax
je 0x2303d
testq %r15, %r15
je 0x22ff8
movl (%r12), %eax
movl %eax, (%r15)
testq %r14, %r14
je 0x23005
movl 0x4(%r12), %eax
movl %eax, (%r14)
testq %rbx, %rbx
je 0x22f44
movl (%rsp), %eax
movl 0x18(%rsp), %ecx
xorl $0x18, %eax
movl %ecx, %edx
xorl $0xff000000, %edx # imm = 0xFF000000
orl %eax, %edx
sete %al
testl %ecx, %ecx
sete %cl
orb %al, %cl
movzbl %cl, %eax
movl $0x4, %ecx
subl %eax, %ecx
movl %ecx, (%rbx)
jmp 0x22f44
movups 0xd0(%r12), %xmm0
movups %xmm0, 0xc0(%r12)
movq %r12, %rdi
movq %r15, %rsi
movq %r14, %rdx
movq %rbx, %rcx
callq 0x3621d
testl %eax, %eax
jne 0x22f44
movq %r12, %rdi
movq %r15, %rsi
movq %r14, %rdx
movq %rbx, %rcx
callq 0x3633f
testl %eax, %eax
jne 0x22f44
movq %r12, %rdi
movq %r15, %rsi
movq %r14, %rdx
movq %rbx, %rcx
callq 0x35420
testl %eax, %eax
jne 0x22f44
movq %r12, %rdi
movq %r15, %rsi
movq %r14, %rdx
movq %rbx, %rcx
callq 0x365fe
testl %eax, %eax
jne 0x22f44
movq %r12, %rdi
movq %r15, %rsi
movq %r14, %rdx
movq %rbx, %rcx
callq 0x3675b
testl %eax, %eax
jne 0x22f44
leaq 0x3ac6d(%rip), %rdi # 0x5dd40
callq 0x1e400
leaq 0x2c26f(%rip), %rcx # 0x4f34e
movq %rcx, (%rax)
xorl %ebp, %ebp
jmp 0x22f44
| _ZL15stbi__info_mainP13stbi__contextPiS1_S1_:
push rbp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 28h
mov rbx, rcx
mov r14, rdx
mov r15, rsi
mov r12, rdi
mov edi, 1
mov esi, 4888h
call _calloc
test rax, rax
jz short loc_22EF1
mov r13, rax
mov [rax], r12
mov rdi, rax
mov esi, 2
call _ZL24stbi__decode_jpeg_headerP10stbi__jpegi; stbi__decode_jpeg_header(stbi__jpeg *,int)
test eax, eax
jz short loc_22F0D
test r15, r15
jz short loc_22EB8
mov rax, [r13+0]
mov eax, [rax]
mov [r15], eax
loc_22EB8:
test r14, r14
jz short loc_22EC7
mov rax, [r13+0]
mov eax, [rax+4]
mov [r14], eax
loc_22EC7:
test rbx, rbx
jz short loc_22EE2
mov rax, [r13+0]
xor ecx, ecx
cmp dword ptr [rax+8], 3
setnl cl
lea eax, ds:1[rcx*2]
mov [rbx], eax
loc_22EE2:
mov rdi, r13
call _free
mov ebp, 1
jmp short loc_22F44
loc_22EF1:
lea rdi, _ZL22stbi__g_failure_reason_tlsind
call ___tls_get_addr
lea rcx, aOutofmem; "outofmem"
mov [rax+0], rcx
jmp short loc_22F27
loc_22F0D:
mov rax, [r13+0]
movups xmm0, xmmword ptr [rax+0D0h]
movups xmmword ptr [rax+0C0h], xmm0
mov rdi, r13
call _free
loc_22F27:
mov rdi, rsp
mov [rdi], r12
mov rsi, r15
mov rdx, r14
mov rcx, rbx
call _ZL18stbi__png_info_rawP9stbi__pngPiS1_S1_; stbi__png_info_raw(stbi__png *,int *,int *,int *)
mov ebp, 1
test eax, eax
jz short loc_22F55
loc_22F44:
mov eax, ebp
add rsp, 28h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
loc_22F55:
mov edi, 8870h
call _malloc
test rax, rax
jz short loc_22F9F
mov r13, rax
mov rdi, r12
mov rsi, rax
mov rdx, rbx
mov ecx, 1
call _ZL16stbi__gif_headerP13stbi__contextP9stbi__gifPii; stbi__gif_header(stbi__context *,stbi__gif *,int *,int)
test eax, eax
jz short loc_22FBB
test r15, r15
jz short loc_22F8A
mov eax, [r13+0]
mov [r15], eax
loc_22F8A:
test r14, r14
jz loc_22EE2
mov eax, [r13+4]
mov [r14], eax
jmp loc_22EE2
loc_22F9F:
lea rdi, _ZL22stbi__g_failure_reason_tlsind
call ___tls_get_addr
lea rcx, aOutofmem; "outofmem"
mov [rax+0], rcx
jmp short loc_22FD5
loc_22FBB:
mov rdi, r13
call _free
movups xmm0, xmmword ptr [r12+0D0h]
movups xmmword ptr [r12+0C0h], xmm0
loc_22FD5:
mov rsi, rsp
mov dword ptr [rsi+1Ch], 0FFh
mov rdi, r12
call _ZL22stbi__bmp_parse_headerP13stbi__contextP14stbi__bmp_data; stbi__bmp_parse_header(stbi__context *,stbi__bmp_data *)
test rax, rax
jz short loc_2303D
test r15, r15
jz short loc_22FF8
mov eax, [r12]
mov [r15], eax
loc_22FF8:
test r14, r14
jz short loc_23005
mov eax, [r12+4]
mov [r14], eax
loc_23005:
test rbx, rbx
jz loc_22F44
mov eax, [rsp+58h+var_58]
mov ecx, [rsp+58h+var_40]
xor eax, 18h
mov edx, ecx
xor edx, 0FF000000h
or edx, eax
setz al
test ecx, ecx
setz cl
or cl, al
movzx eax, cl
mov ecx, 4
sub ecx, eax
mov [rbx], ecx
jmp loc_22F44
loc_2303D:
movups xmm0, xmmword ptr [r12+0D0h]
movups xmmword ptr [r12+0C0h], xmm0
mov rdi, r12
mov rsi, r15
mov rdx, r14
mov rcx, rbx
call _ZL14stbi__psd_infoP13stbi__contextPiS1_S1_; stbi__psd_info(stbi__context *,int *,int *,int *)
test eax, eax
jnz loc_22F44
mov rdi, r12
mov rsi, r15
mov rdx, r14
mov rcx, rbx
call _ZL14stbi__pic_infoP13stbi__contextPiS1_S1_; stbi__pic_info(stbi__context *,int *,int *,int *)
test eax, eax
jnz loc_22F44
mov rdi, r12
mov rsi, r15
mov rdx, r14
mov rcx, rbx
call _ZL14stbi__pnm_infoP13stbi__contextPiS1_S1_; stbi__pnm_info(stbi__context *,int *,int *,int *)
test eax, eax
jnz loc_22F44
mov rdi, r12
mov rsi, r15
mov rdx, r14
mov rcx, rbx
call _ZL14stbi__hdr_infoP13stbi__contextPiS1_S1_; stbi__hdr_info(stbi__context *,int *,int *,int *)
test eax, eax
jnz loc_22F44
mov rdi, r12
mov rsi, r15
mov rdx, r14
mov rcx, rbx
call _ZL14stbi__tga_infoP13stbi__contextPiS1_S1_; stbi__tga_info(stbi__context *,int *,int *,int *)
test eax, eax
jnz loc_22F44
lea rdi, _ZL22stbi__g_failure_reason_tlsind
call ___tls_get_addr
lea rcx, aUnknownImageTy; "unknown image type"
mov [rax+0], rcx
xor ebp, ebp
jmp loc_22F44
| long long stbi__info_main(long long a1, _DWORD *a2, _DWORD *a3, _DWORD *a4)
{
_QWORD *v6; // rax
_QWORD *v7; // r13
unsigned int v8; // ebp
long long v10; // rax
_QWORD v11[3]; // [rsp+0h] [rbp-58h] BYREF
int v12; // [rsp+18h] [rbp-40h]
int v13; // [rsp+1Ch] [rbp-3Ch]
v6 = (_QWORD *)calloc(1LL, 18568LL);
if ( v6 )
{
v7 = v6;
*v6 = a1;
if ( (unsigned int)stbi__decode_jpeg_header(v6, 2LL) )
{
if ( a2 )
*a2 = *(_DWORD *)*v7;
if ( a3 )
*a3 = *(_DWORD *)(*v7 + 4LL);
if ( a4 )
*a4 = 2 * (*(_DWORD *)(*v7 + 8LL) >= 3) + 1;
LABEL_9:
free(v7);
return 1;
}
*(_OWORD *)(*v7 + 192LL) = *(_OWORD *)(*v7 + 208LL);
free(v7);
}
else
{
*(_QWORD *)__tls_get_addr(&ZL22stbi__g_failure_reason_tlsind) = "outofmem";
}
v11[0] = a1;
v8 = 1;
if ( (unsigned int)stbi__png_info_raw(v11, a2, a3, a4) )
return v8;
v10 = malloc("ggml_backend_sched_alloc_graph");
if ( v10 )
{
v7 = (_QWORD *)v10;
if ( (unsigned int)stbi__gif_header(a1, v10, a4, 1LL) )
{
if ( a2 )
*a2 = *(_DWORD *)v7;
if ( a3 )
*a3 = *((_DWORD *)v7 + 1);
goto LABEL_9;
}
free(v7);
*(_OWORD *)(a1 + 192) = *(_OWORD *)(a1 + 208);
}
else
{
*(_QWORD *)__tls_get_addr(&ZL22stbi__g_failure_reason_tlsind) = "outofmem";
}
v13 = 255;
if ( stbi__bmp_parse_header(a1) )
{
if ( a2 )
*a2 = *(_DWORD *)a1;
if ( a3 )
*a3 = *(_DWORD *)(a1 + 4);
if ( a4 )
*a4 = 4 - ((LODWORD(v11[0]) ^ 0x18 | v12 ^ 0xFF000000) == 0 || v12 == 0);
}
else
{
*(_OWORD *)(a1 + 192) = *(_OWORD *)(a1 + 208);
if ( !(unsigned int)stbi__psd_info(a1, a2, a3, a4)
&& !(unsigned int)stbi__pic_info(a1, a2, a3, a4)
&& !(unsigned int)stbi__pnm_info(a1, a2, a3, a4)
&& !(unsigned int)stbi__hdr_info(a1, a2, a3, a4)
&& !(unsigned int)stbi__tga_info(a1, a2, a3, a4) )
{
*(_QWORD *)__tls_get_addr(&ZL22stbi__g_failure_reason_tlsind) = "unknown image type";
return 0;
}
}
return v8;
}
| stbi__info_main:
PUSH RBP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x28
MOV RBX,RCX
MOV R14,RDX
MOV R15,RSI
MOV R12,RDI
MOV EDI,0x1
MOV ESI,0x4888
CALL 0x0011cd20
TEST RAX,RAX
JZ 0x00122ef1
MOV R13,RAX
MOV qword ptr [RAX],R12
MOV RDI,RAX
MOV ESI,0x2
CALL 0x001329ca
TEST EAX,EAX
JZ 0x00122f0d
TEST R15,R15
JZ 0x00122eb8
MOV RAX,qword ptr [R13]
MOV EAX,dword ptr [RAX]
MOV dword ptr [R15],EAX
LAB_00122eb8:
TEST R14,R14
JZ 0x00122ec7
MOV RAX,qword ptr [R13]
MOV EAX,dword ptr [RAX + 0x4]
MOV dword ptr [R14],EAX
LAB_00122ec7:
TEST RBX,RBX
JZ 0x00122ee2
MOV RAX,qword ptr [R13]
XOR ECX,ECX
CMP dword ptr [RAX + 0x8],0x3
SETGE CL
LEA EAX,[0x1 + RCX*0x2]
MOV dword ptr [RBX],EAX
LAB_00122ee2:
MOV RDI,R13
CALL 0x0011d840
MOV EBP,0x1
JMP 0x00122f44
LAB_00122ef1:
LEA RDI,[0x15dd40]
CALL 0x0011e400
LEA RCX,[0x14f489]
MOV qword ptr [RAX],RCX
JMP 0x00122f27
LAB_00122f0d:
MOV RAX,qword ptr [R13]
MOVUPS XMM0,xmmword ptr [RAX + 0xd0]
MOVUPS xmmword ptr [RAX + 0xc0],XMM0
MOV RDI,R13
CALL 0x0011d840
LAB_00122f27:
MOV RDI,RSP
MOV qword ptr [RDI],R12
MOV RSI,R15
MOV RDX,R14
MOV RCX,RBX
CALL 0x00136b00
MOV EBP,0x1
TEST EAX,EAX
JZ 0x00122f55
LAB_00122f44:
MOV EAX,EBP
ADD RSP,0x28
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
LAB_00122f55:
MOV EDI,0x8870
CALL 0x0011dae0
TEST RAX,RAX
JZ 0x00122f9f
MOV R13,RAX
MOV RDI,R12
MOV RSI,RAX
MOV RDX,RBX
MOV ECX,0x1
CALL 0x00132255
TEST EAX,EAX
JZ 0x00122fbb
TEST R15,R15
JZ 0x00122f8a
MOV EAX,dword ptr [R13]
MOV dword ptr [R15],EAX
LAB_00122f8a:
TEST R14,R14
JZ 0x00122ee2
MOV EAX,dword ptr [R13 + 0x4]
MOV dword ptr [R14],EAX
JMP 0x00122ee2
LAB_00122f9f:
LEA RDI,[0x15dd40]
CALL 0x0011e400
LEA RCX,[0x14f489]
MOV qword ptr [RAX],RCX
JMP 0x00122fd5
LAB_00122fbb:
MOV RDI,R13
CALL 0x0011d840
MOVUPS XMM0,xmmword ptr [R12 + 0xd0]
MOVUPS xmmword ptr [R12 + 0xc0],XMM0
LAB_00122fd5:
MOV RSI,RSP
MOV dword ptr [RSI + 0x1c],0xff
MOV RDI,R12
CALL 0x00131471
TEST RAX,RAX
JZ 0x0012303d
TEST R15,R15
JZ 0x00122ff8
MOV EAX,dword ptr [R12]
MOV dword ptr [R15],EAX
LAB_00122ff8:
TEST R14,R14
JZ 0x00123005
MOV EAX,dword ptr [R12 + 0x4]
MOV dword ptr [R14],EAX
LAB_00123005:
TEST RBX,RBX
JZ 0x00122f44
MOV EAX,dword ptr [RSP]
MOV ECX,dword ptr [RSP + 0x18]
XOR EAX,0x18
MOV EDX,ECX
XOR EDX,0xff000000
OR EDX,EAX
SETZ AL
TEST ECX,ECX
SETZ CL
OR CL,AL
MOVZX EAX,CL
MOV ECX,0x4
SUB ECX,EAX
MOV dword ptr [RBX],ECX
JMP 0x00122f44
LAB_0012303d:
MOVUPS XMM0,xmmword ptr [R12 + 0xd0]
MOVUPS xmmword ptr [R12 + 0xc0],XMM0
MOV RDI,R12
MOV RSI,R15
MOV RDX,R14
MOV RCX,RBX
CALL 0x0013621d
TEST EAX,EAX
JNZ 0x00122f44
MOV RDI,R12
MOV RSI,R15
MOV RDX,R14
MOV RCX,RBX
CALL 0x0013633f
TEST EAX,EAX
JNZ 0x00122f44
MOV RDI,R12
MOV RSI,R15
MOV RDX,R14
MOV RCX,RBX
CALL 0x00135420
TEST EAX,EAX
JNZ 0x00122f44
MOV RDI,R12
MOV RSI,R15
MOV RDX,R14
MOV RCX,RBX
CALL 0x001365fe
TEST EAX,EAX
JNZ 0x00122f44
MOV RDI,R12
MOV RSI,R15
MOV RDX,R14
MOV RCX,RBX
CALL 0x0013675b
TEST EAX,EAX
JNZ 0x00122f44
LEA RDI,[0x15dd40]
CALL 0x0011e400
LEA RCX,[0x14f34e]
MOV qword ptr [RAX],RCX
XOR EBP,EBP
JMP 0x00122f44
|
/* stbi__info_main(stbi__context*, int*, int*, int*) */
int8 stbi__info_main(stbi__context *param_1,int *param_2,int *param_3,int *param_4)
{
int iVar1;
stbi__jpeg *__ptr;
long lVar2;
int8 *puVar3;
int8 uVar4;
stbi__context *local_58 [3];
int local_40;
int4 local_3c;
__ptr = (stbi__jpeg *)calloc(1,0x4888);
if (__ptr == (stbi__jpeg *)0x0) {
puVar3 = (int8 *)__tls_get_addr(&PTR_0015dd40);
*puVar3 = "outofmem";
LAB_00122f27:
local_58[0] = param_1;
iVar1 = stbi__png_info_raw((stbi__png *)local_58,param_2,param_3,param_4);
uVar4 = 1;
if (iVar1 != 0) {
return 1;
}
__ptr = (stbi__jpeg *)malloc(0x8870);
if (__ptr == (stbi__jpeg *)0x0) {
puVar3 = (int8 *)__tls_get_addr(&PTR_0015dd40);
*puVar3 = "outofmem";
}
else {
iVar1 = stbi__gif_header(param_1,(stbi__gif *)__ptr,param_4,1);
if (iVar1 != 0) {
if (param_2 != (int *)0x0) {
*param_2 = *(int *)__ptr;
}
if (param_3 != (int *)0x0) {
*param_3 = *(int *)((stbi__gif *)__ptr + 4);
}
goto LAB_00122ee2;
}
free(__ptr);
*(int8 *)(param_1 + 0xc0) = *(int8 *)(param_1 + 0xd0);
*(int8 *)(param_1 + 200) = *(int8 *)(param_1 + 0xd8);
}
local_3c = 0xff;
lVar2 = stbi__bmp_parse_header(param_1,(stbi__bmp_data *)local_58);
if (lVar2 == 0) {
*(int8 *)(param_1 + 0xc0) = *(int8 *)(param_1 + 0xd0);
*(int8 *)(param_1 + 200) = *(int8 *)(param_1 + 0xd8);
iVar1 = stbi__psd_info(param_1,param_2,param_3,param_4);
if ((((iVar1 == 0) && (iVar1 = stbi__pic_info(param_1,param_2,param_3,param_4), iVar1 == 0))
&& (iVar1 = stbi__pnm_info(param_1,param_2,param_3,param_4), iVar1 == 0)) &&
((iVar1 = stbi__hdr_info(param_1,param_2,param_3,param_4), iVar1 == 0 &&
(iVar1 = stbi__tga_info(param_1,param_2,param_3,param_4), iVar1 == 0)))) {
puVar3 = (int8 *)__tls_get_addr(&PTR_0015dd40);
*puVar3 = "unknown image type";
uVar4 = 0;
}
}
else {
if (param_2 != (int *)0x0) {
*param_2 = *(int *)param_1;
}
if (param_3 != (int *)0x0) {
*param_3 = *(int *)(param_1 + 4);
}
if (param_4 != (int *)0x0) {
*param_4 = 4 - (uint)(local_40 == 0 || local_40 == -0x1000000 && (int)local_58[0] == 0x18);
}
}
}
else {
*(stbi__context **)__ptr = param_1;
iVar1 = stbi__decode_jpeg_header(__ptr,2);
if (iVar1 == 0) {
lVar2 = *(long *)__ptr;
*(int8 *)(lVar2 + 0xc0) = *(int8 *)(lVar2 + 0xd0);
*(int8 *)(lVar2 + 200) = *(int8 *)(lVar2 + 0xd8);
free(__ptr);
goto LAB_00122f27;
}
if (param_2 != (int *)0x0) {
*param_2 = **(int **)__ptr;
}
if (param_3 != (int *)0x0) {
*param_3 = *(int *)(*(long *)__ptr + 4);
}
if (param_4 != (int *)0x0) {
*param_4 = (uint)(2 < *(int *)(*(long *)__ptr + 8)) * 2 + 1;
}
LAB_00122ee2:
free(__ptr);
uVar4 = 1;
}
return uVar4;
}
| |
34,495 | OpenSubdiv::v3_6_0::Bfr::qsub::getCenterFacets(int, int, OpenSubdiv::v3_6_0::Bfr::(anonymous namespace)::FacetArray) | NVIDIA-RTX[P]OSD-Lite/opensubdiv/bfr/tessellation.cpp | int
qsub::getCenterFacets(int N, int coord0, FacetArray facets) {
return (N == 3) ? appendTri(facets, coord0, coord0+1, coord0+2)
: appendTriFan(facets, N, coord0);
} | O1 | cpp | OpenSubdiv::v3_6_0::Bfr::qsub::getCenterFacets(int, int, OpenSubdiv::v3_6_0::Bfr::(anonymous namespace)::FacetArray):
movq (%rdx), %rcx
cmpl $0x3, %edi
jne 0xa1490
movslq 0x8(%rdx), %rax
leal 0x1(%rsi), %edx
movl $0xffffffff, -0x4(%rcx,%rax,4) # imm = 0xFFFFFFFF
movl %esi, (%rcx)
addl $0x2, %esi
movl %edx, 0x4(%rcx)
movl %esi, 0x8(%rcx)
movl $0x1, %eax
retq
movl %edi, %eax
testl %edi, %edi
jle 0xa148f
pushq %rbp
pushq %r14
pushq %rbx
movslq 0xc(%rdx), %rdi
movslq 0x8(%rdx), %rdx
leal (%rsi,%rax), %r8d
movl %eax, %r9d
movq %r9, %r10
negq %r10
movl %esi, %r11d
shlq $0x2, %rdi
movl $0x1, %ebx
cmpq %r9, %rbx
movl $0x0, %ebp
cmovbl %ebx, %ebp
addl %esi, %ebp
movl $0xffffffff, -0x4(%rcx,%rdx,4) # imm = 0xFFFFFFFF
leal (%r11,%rbx), %r14d
decl %r14d
movl %r14d, (%rcx)
movl %ebp, 0x4(%rcx)
movl %r8d, 0x8(%rcx)
leaq (%r10,%rbx), %r14
incq %r14
incq %rbx
addq %rdi, %rcx
cmpq $0x1, %r14
jne 0xa14bb
popq %rbx
popq %r14
popq %rbp
retq
nop
| _ZN10OpenSubdiv6v3_6_03Bfr4qsub15getCenterFacetsEiiNS1_12_GLOBAL__N_110FacetArrayE:
mov rcx, [rdx]
cmp edi, 3
jnz short loc_A1490
movsxd rax, dword ptr [rdx+8]
lea edx, [rsi+1]
mov dword ptr [rcx+rax*4-4], 0FFFFFFFFh
mov [rcx], esi
add esi, 2
mov [rcx+4], edx
mov [rcx+8], esi
mov eax, 1
locret_A148F:
retn
loc_A1490:
mov eax, edi
test edi, edi
jle short locret_A148F
push rbp
push r14
push rbx
movsxd rdi, dword ptr [rdx+0Ch]
movsxd rdx, dword ptr [rdx+8]
lea r8d, [rsi+rax]
mov r9d, eax
mov r10, r9
neg r10
mov r11d, esi
shl rdi, 2
mov ebx, 1
loc_A14BB:
cmp rbx, r9
mov ebp, 0
cmovb ebp, ebx
add ebp, esi
mov dword ptr [rcx+rdx*4-4], 0FFFFFFFFh
lea r14d, [r11+rbx]
dec r14d
mov [rcx], r14d
mov [rcx+4], ebp
mov [rcx+8], r8d
lea r14, [r10+rbx]
inc r14
inc rbx
add rcx, rdi
cmp r14, 1
jnz short loc_A14BB
pop rbx
pop r14
pop rbp
retn
| long long OpenSubdiv::v3_6_0::Bfr::qsub::getCenterFacets(int a1, int a2, long long a3)
{
_DWORD *v3; // rcx
long long result; // rax
long long v5; // rdi
long long v6; // rdx
long long v7; // rdi
unsigned long long v8; // rbx
int v9; // ebp
long long v10; // r14
v3 = *(_DWORD **)a3;
if ( a1 == 3 )
{
v3[*(int *)(a3 + 8) - 1] = -1;
*v3 = a2;
v3[1] = a2 + 1;
v3[2] = a2 + 2;
return 1LL;
}
else
{
result = (unsigned int)a1;
if ( a1 > 0 )
{
v5 = *(int *)(a3 + 12);
v6 = *(int *)(a3 + 8);
v7 = 4 * v5;
v8 = 1LL;
do
{
v9 = 0;
if ( v8 < (unsigned int)result )
v9 = v8;
v3[v6 - 1] = -1;
*v3 = a2 + v8 - 1;
v3[1] = a2 + v9;
v3[2] = a2 + result;
v10 = v8 - (unsigned int)result + 1;
++v8;
v3 = (_DWORD *)((char *)v3 + v7);
}
while ( v10 != 1 );
}
}
return result;
}
| getCenterFacets:
MOV RCX,qword ptr [RDX]
CMP EDI,0x3
JNZ 0x001a1490
MOVSXD RAX,dword ptr [RDX + 0x8]
LEA EDX,[RSI + 0x1]
MOV dword ptr [RCX + RAX*0x4 + -0x4],0xffffffff
MOV dword ptr [RCX],ESI
ADD ESI,0x2
MOV dword ptr [RCX + 0x4],EDX
MOV dword ptr [RCX + 0x8],ESI
MOV EAX,0x1
LAB_001a148f:
RET
LAB_001a1490:
MOV EAX,EDI
TEST EDI,EDI
JLE 0x001a148f
PUSH RBP
PUSH R14
PUSH RBX
MOVSXD RDI,dword ptr [RDX + 0xc]
MOVSXD RDX,dword ptr [RDX + 0x8]
LEA R8D,[RSI + RAX*0x1]
MOV R9D,EAX
MOV R10,R9
NEG R10
MOV R11D,ESI
SHL RDI,0x2
MOV EBX,0x1
LAB_001a14bb:
CMP RBX,R9
MOV EBP,0x0
CMOVC EBP,EBX
ADD EBP,ESI
MOV dword ptr [RCX + RDX*0x4 + -0x4],0xffffffff
LEA R14D,[R11 + RBX*0x1]
DEC R14D
MOV dword ptr [RCX],R14D
MOV dword ptr [RCX + 0x4],EBP
MOV dword ptr [RCX + 0x8],R8D
LEA R14,[R10 + RBX*0x1]
INC R14
INC RBX
ADD RCX,RDI
CMP R14,0x1
JNZ 0x001a14bb
POP RBX
POP R14
POP RBP
RET
|
/* OpenSubdiv::v3_6_0::Bfr::qsub::getCenterFacets(int, int, OpenSubdiv::v3_6_0::Bfr::(anonymous
namespace)::FacetArray) */
uint OpenSubdiv::v3_6_0::Bfr::qsub::getCenterFacets(uint param_1,int param_2,long *param_3)
{
int iVar1;
long lVar2;
int *piVar3;
ulong uVar4;
int iVar5;
bool bVar6;
piVar3 = (int *)*param_3;
if (param_1 == 3) {
piVar3[(long)(int)param_3[1] + -1] = -1;
*piVar3 = param_2;
piVar3[1] = param_2 + 1;
piVar3[2] = param_2 + 2;
param_1 = 1;
}
else if (0 < (int)param_1) {
iVar1 = *(int *)((long)param_3 + 0xc);
lVar2 = param_3[1];
uVar4 = 1;
do {
iVar5 = 0;
if (uVar4 < param_1) {
iVar5 = (int)uVar4;
}
piVar3[(long)(int)lVar2 + -1] = -1;
*piVar3 = param_2 + (int)uVar4 + -1;
piVar3[1] = iVar5 + param_2;
piVar3[2] = param_2 + param_1;
piVar3 = piVar3 + iVar1;
bVar6 = uVar4 != param_1;
uVar4 = uVar4 + 1;
} while (bVar6);
return param_1;
}
return param_1;
}
| |
34,496 | OpenSubdiv::v3_6_0::Bfr::qsub::getCenterFacets(int, int, OpenSubdiv::v3_6_0::Bfr::(anonymous namespace)::FacetArray) | NVIDIA-RTX[P]OSD-Lite/opensubdiv/bfr/tessellation.cpp | int
qsub::getCenterFacets(int N, int coord0, FacetArray facets) {
return (N == 3) ? appendTri(facets, coord0, coord0+1, coord0+2)
: appendTriFan(facets, N, coord0);
} | O2 | cpp | OpenSubdiv::v3_6_0::Bfr::qsub::getCenterFacets(int, int, OpenSubdiv::v3_6_0::Bfr::(anonymous namespace)::FacetArray):
pushq %rbx
subq $0x10, %rsp
movl %esi, %eax
cmpl $0x3, %edi
jne 0xace03
movq (%rdx), %rcx
movslq 0x8(%rdx), %rdx
leal 0x1(%rax), %esi
orl $-0x1, -0x4(%rcx,%rdx,4)
movl %eax, (%rcx)
addl $0x2, %eax
movl %esi, 0x4(%rcx)
movl %eax, 0x8(%rcx)
pushq $0x1
popq %rbx
jmp 0xace17
movl %edi, %ebx
movups (%rdx), %xmm0
movq %rsp, %rdi
movaps %xmm0, (%rdi)
movl %ebx, %esi
movl %eax, %edx
callq 0xabef9
movl %ebx, %eax
addq $0x10, %rsp
popq %rbx
retq
nop
| _ZN10OpenSubdiv6v3_6_03Bfr4qsub15getCenterFacetsEiiNS1_12_GLOBAL__N_110FacetArrayE:
push rbx
sub rsp, 10h
mov eax, esi
cmp edi, 3
jnz short loc_ACE03
mov rcx, [rdx]
movsxd rdx, dword ptr [rdx+8]
lea esi, [rax+1]
or dword ptr [rcx+rdx*4-4], 0FFFFFFFFh
mov [rcx], eax
add eax, 2
mov [rcx+4], esi
mov [rcx+8], eax
push 1
pop rbx
jmp short loc_ACE17
loc_ACE03:
mov ebx, edi
movups xmm0, xmmword ptr [rdx]
mov rdi, rsp
movaps xmmword ptr [rdi], xmm0
mov esi, ebx
mov edx, eax
call _ZN10OpenSubdiv6v3_6_03Bfr12_GLOBAL__N_112appendTriFanENS2_10FacetArrayEii; OpenSubdiv::v3_6_0::Bfr::`anonymous namespace'::appendTriFan(OpenSubdiv::v3_6_0::Bfr::`anonymous namespace'::FacetArray,int,int)
loc_ACE17:
mov eax, ebx
add rsp, 10h
pop rbx
retn
| long long OpenSubdiv::v3_6_0::Bfr::qsub::getCenterFacets(unsigned int a1, int a2, __int128 *a3)
{
int *v3; // rcx
unsigned int v4; // ebx
__int128 v6; // [rsp+0h] [rbp-18h] BYREF
if ( a1 == 3 )
{
v3 = *(int **)a3;
v3[*((int *)a3 + 2) - 1] = -1;
*v3 = a2;
v3[1] = a2 + 1;
v3[2] = a2 + 2;
return 1;
}
else
{
v4 = a1;
v6 = *a3;
OpenSubdiv::v3_6_0::Bfr::`anonymous namespace'::appendTriFan((long long)&v6, a1, a2);
}
return v4;
}
| getCenterFacets:
PUSH RBX
SUB RSP,0x10
MOV EAX,ESI
CMP EDI,0x3
JNZ 0x001ace03
MOV RCX,qword ptr [RDX]
MOVSXD RDX,dword ptr [RDX + 0x8]
LEA ESI,[RAX + 0x1]
OR dword ptr [RCX + RDX*0x4 + -0x4],0xffffffff
MOV dword ptr [RCX],EAX
ADD EAX,0x2
MOV dword ptr [RCX + 0x4],ESI
MOV dword ptr [RCX + 0x8],EAX
PUSH 0x1
POP RBX
JMP 0x001ace17
LAB_001ace03:
MOV EBX,EDI
MOVUPS XMM0,xmmword ptr [RDX]
MOV RDI,RSP
MOVAPS xmmword ptr [RDI],XMM0
MOV ESI,EBX
MOV EDX,EAX
CALL 0x001abef9
LAB_001ace17:
MOV EAX,EBX
ADD RSP,0x10
POP RBX
RET
|
/* OpenSubdiv::v3_6_0::Bfr::qsub::getCenterFacets(int, int, OpenSubdiv::v3_6_0::Bfr::(anonymous
namespace)::FacetArray) */
int OpenSubdiv::v3_6_0::Bfr::qsub::getCenterFacets(int param_1,int param_2,long *param_3)
{
int *piVar1;
int4 local_18;
int4 uStack_14;
int4 uStack_10;
int4 uStack_c;
if (param_1 == 3) {
piVar1 = (int *)*param_3;
piVar1[(long)(int)param_3[1] + -1] = -1;
*piVar1 = param_2;
piVar1[1] = param_2 + 1;
piVar1[2] = param_2 + 2;
param_1 = 1;
}
else {
local_18 = (int4)*param_3;
uStack_14 = *(int4 *)((long)param_3 + 4);
uStack_10 = (int4)param_3[1];
uStack_c = *(int4 *)((long)param_3 + 0xc);
(anonymous_namespace)::appendTriFan(&local_18,param_1,param_2);
}
return param_1;
}
| |
34,497 | OpenSubdiv::v3_6_0::Bfr::qsub::getCenterFacets(int, int, OpenSubdiv::v3_6_0::Bfr::(anonymous namespace)::FacetArray) | NVIDIA-RTX[P]OSD-Lite/opensubdiv/bfr/tessellation.cpp | int
qsub::getCenterFacets(int N, int coord0, FacetArray facets) {
return (N == 3) ? appendTri(facets, coord0, coord0+1, coord0+2)
: appendTriFan(facets, N, coord0);
} | O3 | cpp | OpenSubdiv::v3_6_0::Bfr::qsub::getCenterFacets(int, int, OpenSubdiv::v3_6_0::Bfr::(anonymous namespace)::FacetArray):
movq (%rdx), %rcx
cmpl $0x3, %edi
jne 0xa3ec4
movslq 0x8(%rdx), %rax
leal 0x1(%rsi), %edx
movl $0xffffffff, -0x4(%rcx,%rax,4) # imm = 0xFFFFFFFF
movl %esi, (%rcx)
addl $0x2, %esi
movl %edx, 0x4(%rcx)
movl %esi, 0x8(%rcx)
movl $0x1, %eax
retq
movl %edi, %eax
testl %edi, %edi
jle 0xa3ec3
pushq %rbp
pushq %r14
pushq %rbx
movslq 0xc(%rdx), %rdi
movslq 0x8(%rdx), %rdx
leal (%rsi,%rax), %r8d
movl %eax, %r9d
movq %r9, %r10
negq %r10
movl %esi, %r11d
shlq $0x2, %rdi
movl $0x1, %ebx
cmpq %r9, %rbx
movl $0x0, %ebp
cmovbl %ebx, %ebp
addl %esi, %ebp
movl $0xffffffff, -0x4(%rcx,%rdx,4) # imm = 0xFFFFFFFF
leal (%r11,%rbx), %r14d
decl %r14d
movl %r14d, (%rcx)
movl %ebp, 0x4(%rcx)
movl %r8d, 0x8(%rcx)
leaq (%r10,%rbx), %r14
incq %r14
incq %rbx
addq %rdi, %rcx
cmpq $0x1, %r14
jne 0xa3eef
popq %rbx
popq %r14
popq %rbp
retq
nop
| _ZN10OpenSubdiv6v3_6_03Bfr4qsub15getCenterFacetsEiiNS1_12_GLOBAL__N_110FacetArrayE:
mov rcx, [rdx]
cmp edi, 3
jnz short loc_A3EC4
movsxd rax, dword ptr [rdx+8]
lea edx, [rsi+1]
mov dword ptr [rcx+rax*4-4], 0FFFFFFFFh
mov [rcx], esi
add esi, 2
mov [rcx+4], edx
mov [rcx+8], esi
mov eax, 1
locret_A3EC3:
retn
loc_A3EC4:
mov eax, edi
test edi, edi
jle short locret_A3EC3
push rbp
push r14
push rbx
movsxd rdi, dword ptr [rdx+0Ch]
movsxd rdx, dword ptr [rdx+8]
lea r8d, [rsi+rax]
mov r9d, eax
mov r10, r9
neg r10
mov r11d, esi
shl rdi, 2
mov ebx, 1
loc_A3EEF:
cmp rbx, r9
mov ebp, 0
cmovb ebp, ebx
add ebp, esi
mov dword ptr [rcx+rdx*4-4], 0FFFFFFFFh
lea r14d, [r11+rbx]
dec r14d
mov [rcx], r14d
mov [rcx+4], ebp
mov [rcx+8], r8d
lea r14, [r10+rbx]
inc r14
inc rbx
add rcx, rdi
cmp r14, 1
jnz short loc_A3EEF
pop rbx
pop r14
pop rbp
retn
| long long OpenSubdiv::v3_6_0::Bfr::qsub::getCenterFacets(int a1, int a2, long long a3)
{
_DWORD *v3; // rcx
long long result; // rax
long long v5; // rdi
long long v6; // rdx
long long v7; // rdi
unsigned long long v8; // rbx
int v9; // ebp
long long v10; // r14
v3 = *(_DWORD **)a3;
if ( a1 == 3 )
{
v3[*(int *)(a3 + 8) - 1] = -1;
*v3 = a2;
v3[1] = a2 + 1;
v3[2] = a2 + 2;
return 1LL;
}
else
{
result = (unsigned int)a1;
if ( a1 > 0 )
{
v5 = *(int *)(a3 + 12);
v6 = *(int *)(a3 + 8);
v7 = 4 * v5;
v8 = 1LL;
do
{
v9 = 0;
if ( v8 < (unsigned int)result )
v9 = v8;
v3[v6 - 1] = -1;
*v3 = a2 + v8 - 1;
v3[1] = a2 + v9;
v3[2] = a2 + result;
v10 = v8 - (unsigned int)result + 1;
++v8;
v3 = (_DWORD *)((char *)v3 + v7);
}
while ( v10 != 1 );
}
}
return result;
}
| getCenterFacets:
MOV RCX,qword ptr [RDX]
CMP EDI,0x3
JNZ 0x001a3ec4
MOVSXD RAX,dword ptr [RDX + 0x8]
LEA EDX,[RSI + 0x1]
MOV dword ptr [RCX + RAX*0x4 + -0x4],0xffffffff
MOV dword ptr [RCX],ESI
ADD ESI,0x2
MOV dword ptr [RCX + 0x4],EDX
MOV dword ptr [RCX + 0x8],ESI
MOV EAX,0x1
LAB_001a3ec3:
RET
LAB_001a3ec4:
MOV EAX,EDI
TEST EDI,EDI
JLE 0x001a3ec3
PUSH RBP
PUSH R14
PUSH RBX
MOVSXD RDI,dword ptr [RDX + 0xc]
MOVSXD RDX,dword ptr [RDX + 0x8]
LEA R8D,[RSI + RAX*0x1]
MOV R9D,EAX
MOV R10,R9
NEG R10
MOV R11D,ESI
SHL RDI,0x2
MOV EBX,0x1
LAB_001a3eef:
CMP RBX,R9
MOV EBP,0x0
CMOVC EBP,EBX
ADD EBP,ESI
MOV dword ptr [RCX + RDX*0x4 + -0x4],0xffffffff
LEA R14D,[R11 + RBX*0x1]
DEC R14D
MOV dword ptr [RCX],R14D
MOV dword ptr [RCX + 0x4],EBP
MOV dword ptr [RCX + 0x8],R8D
LEA R14,[R10 + RBX*0x1]
INC R14
INC RBX
ADD RCX,RDI
CMP R14,0x1
JNZ 0x001a3eef
POP RBX
POP R14
POP RBP
RET
|
/* OpenSubdiv::v3_6_0::Bfr::qsub::getCenterFacets(int, int, OpenSubdiv::v3_6_0::Bfr::(anonymous
namespace)::FacetArray) */
uint OpenSubdiv::v3_6_0::Bfr::qsub::getCenterFacets(uint param_1,int param_2,long *param_3)
{
int iVar1;
long lVar2;
int *piVar3;
ulong uVar4;
int iVar5;
bool bVar6;
piVar3 = (int *)*param_3;
if (param_1 == 3) {
piVar3[(long)(int)param_3[1] + -1] = -1;
*piVar3 = param_2;
piVar3[1] = param_2 + 1;
piVar3[2] = param_2 + 2;
param_1 = 1;
}
else if (0 < (int)param_1) {
iVar1 = *(int *)((long)param_3 + 0xc);
lVar2 = param_3[1];
uVar4 = 1;
do {
iVar5 = 0;
if (uVar4 < param_1) {
iVar5 = (int)uVar4;
}
piVar3[(long)(int)lVar2 + -1] = -1;
*piVar3 = param_2 + (int)uVar4 + -1;
piVar3[1] = iVar5 + param_2;
piVar3[2] = param_2 + param_1;
piVar3 = piVar3 + iVar1;
bVar6 = uVar4 != param_1;
uVar4 = uVar4 + 1;
} while (bVar6);
return param_1;
}
return param_1;
}
| |
34,498 | CheckStackTrace1(int) | ng-log[P]ng-log/src/stacktrace_unittest.cc | static void ATTRIBUTE_NOINLINE CheckStackTrace1(int i) {
ADJUST_ADDRESS_RANGE_FROM_RA(&expected_range[5]);
INIT_ADDRESS_RANGE(CheckStackTrace1, start, end, &expected_range[4]);
DECLARE_ADDRESS_LABEL(start);
for (int j = i; j >= 0; j--) {
CheckStackTrace2(j);
}
DECLARE_ADDRESS_LABEL(end);
} | O1 | cpp | CheckStackTrace1(int):
pushq %rbx
subq $0x90, %rsp
movl %edi, %ebx
movq 0x98(%rsp), %rax
movq %rax, 0x10(%rsp)
cmpq %rax, 0x28b8e(%rip) # 0x319f0
jae 0x8f05
movq $0x0, 0x8(%rsp)
cmpq $0x0, 0x8(%rsp)
jne 0x8f48
movq 0x10(%rsp), %r8
movq 0x28b6f(%rip), %rdx # 0x319f8
cmpq %rdx, %r8
jbe 0x8eb2
movq 0x28b5b(%rip), %rcx # 0x319f0
leaq 0x1a214(%rip), %rdi # 0x230b0
movq %rcx, %rsi
xorl %eax, %eax
callq 0x7060
movq 0x10(%rsp), %rax
movq %rax, 0x28b46(%rip) # 0x319f8
leaq 0x2f(%rip), %rax # 0x8ee8
movq %rax, 0x28b20(%rip) # 0x319e0
leaq 0x35(%rip), %rcx # 0x8efc
movq %rcx, 0x28b1a(%rip) # 0x319e8
cmpq %rcx, %rax
jae 0x8f27
movq $0x0, 0x10(%rsp)
cmpq $0x0, 0x10(%rsp)
jne 0x8f8e
testl %ebx, %ebx
js 0x8efc
movl %ebx, %edi
callq 0x90d6
leal -0x1(%rbx), %eax
testl %ebx, %ebx
movl %eax, %ebx
jg 0x8eec
addq $0x90, %rsp
popq %rbx
retq
leaq 0x28ae4(%rip), %rsi # 0x319f0
leaq 0x1a17c(%rip), %rcx # 0x2308f
leaq 0x8(%rsp), %rdi
leaq 0x10(%rsp), %rdx
callq 0xa13b
jmp 0x8e71
leaq 0x28ab2(%rip), %rsi # 0x319e0
leaq 0x28ab3(%rip), %rdx # 0x319e8
leaq 0x1a19b(%rip), %rcx # 0x230d7
leaq 0x10(%rsp), %rdi
callq 0xa2c3
jmp 0x8edc
movq 0x8(%rsp), %rax
xorl %edx, %edx
movq %rdx, 0x8(%rsp)
leaq 0x28(%rsp), %rcx
movq %rax, (%rcx)
movq %rdx, 0x20(%rsp)
leaq 0x1a0d4(%rip), %rsi # 0x2303c
leaq 0x30(%rsp), %rdi
movl $0xc5, %edx
callq 0xed5e
leaq 0x30(%rsp), %rbx
movq %rbx, %rdi
callq 0xb492
leaq 0x30(%rsp), %rdi
callq 0xed64
movq 0x10(%rsp), %rax
xorl %edx, %edx
movq %rdx, 0x10(%rsp)
leaq 0x8(%rsp), %rcx
movq %rax, (%rcx)
movq %rdx, 0x18(%rsp)
leaq 0x1a08e(%rip), %rsi # 0x2303c
leaq 0x30(%rsp), %rdi
movl $0xc6, %edx
callq 0xed5e
leaq 0x30(%rsp), %rbx
movq %rbx, %rdi
callq 0xb492
leaq 0x30(%rsp), %rdi
callq 0xed64
jmp 0x8fd6
movq %rbx, %rdi
callq 0xed64
movq %rax, %rdi
callq 0x9fcd
movq %rax, %rbx
movq 0x8(%rsp), %rsi
testq %rsi, %rsi
je 0x8ffd
leaq 0x8(%rsp), %rdi
callq 0xa294
movq $0x0, 0x8(%rsp)
movq 0x18(%rsp), %rsi
testq %rsi, %rsi
je 0x901a
leaq 0x18(%rsp), %rdi
callq 0xa294
movq $0x0, 0x18(%rsp)
movq 0x10(%rsp), %rsi
testq %rsi, %rsi
je 0x9085
leaq 0x10(%rsp), %rdi
jmp 0x9080
movq %rax, %rbx
movq 0x28(%rsp), %rsi
testq %rsi, %rsi
je 0x904b
leaq 0x28(%rsp), %rdi
callq 0xa294
movq $0x0, 0x28(%rsp)
movq 0x20(%rsp), %rsi
testq %rsi, %rsi
je 0x9068
leaq 0x20(%rsp), %rdi
callq 0xa294
movq $0x0, 0x20(%rsp)
movq 0x8(%rsp), %rsi
testq %rsi, %rsi
je 0x9085
leaq 0x8(%rsp), %rdi
callq 0xa294
movq %rbx, %rdi
callq 0x7990
| _ZL16CheckStackTrace1i:
push rbx
sub rsp, 90h
mov ebx, edi
mov rax, [rsp+98h]
mov [rsp+98h+var_88], rax
cmp cs:qword_319F0, rax
jnb loc_8F05
mov [rsp+98h+var_90], 0
loc_8E71:
cmp [rsp+98h+var_90], 0
jnz loc_8F48
mov r8, [rsp+98h+var_88]
mov rdx, cs:qword_319F8
cmp r8, rdx
jbe short loc_8EB2
mov rcx, cs:qword_319F0
lea rdi, aAdjustingRange; "Adjusting range from %p..%p to %p..%p\n"
mov rsi, rcx
xor eax, eax
call _printf
mov rax, [rsp+98h+var_88]
mov cs:qword_319F8, rax
loc_8EB2:
lea rax, loc_8EE8
mov cs:qword_319E0, rax
lea rcx, loc_8EFC
mov cs:qword_319E8, rcx
cmp rax, rcx
jnb short loc_8F27
mov [rsp+98h+var_88], 0
loc_8EDC:
cmp [rsp+98h+var_88], 0
jnz loc_8F8E
loc_8EE8:
test ebx, ebx
js short loc_8EFC
loc_8EEC:
mov edi, ebx; int
call _ZL16CheckStackTrace2i; CheckStackTrace2(int)
lea eax, [rbx-1]
test ebx, ebx
mov ebx, eax
jg short loc_8EEC
loc_8EFC:
add rsp, 90h
pop rbx
retn
loc_8F05:
lea rsi, qword_319F0
lea rcx, aExpectedRange5_0; "(&expected_range[5])->start < ra"
lea rdi, [rsp+98h+var_90]
lea rdx, [rsp+98h+var_88]
call _ZN5nglog8internal17MakeCheckOpStringIPKvPvEESt10unique_ptrINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEESt14default_deleteISB_EERKT_RKT0_PKc; nglog::internal::MakeCheckOpString<void const*,void *>(void const* const&,void * const&,char const*)
jmp loc_8E71
loc_8F27:
lea rsi, qword_319E0
lea rdx, qword_319E8
lea rcx, aExpectedRange4; "(&expected_range[4])->start < (&expecte"...
lea rdi, [rsp+98h+var_88]
call _ZN5nglog8internal17MakeCheckOpStringIPKvS3_EESt10unique_ptrINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEESt14default_deleteISA_EERKT_RKT0_PKc; nglog::internal::MakeCheckOpString<void const*,void const*>(void const* const&,void const* const&,char const*)
jmp short loc_8EDC
loc_8F48:
mov rax, [rsp+98h+var_90]
xor edx, edx
mov [rsp+98h+var_90], rdx
lea rcx, [rsp+98h+var_70]
mov [rcx], rax
mov [rsp+98h+var_78], rdx
lea rsi, aWorkspaceLlm4b_0; "/workspace/llm4binary/github/2025_star3"...
lea rdi, [rsp+98h+var_68]
mov edx, 0C5h
call _ZN5nglog15LogMessageFatalC2EPKciRKNS_8internal13CheckOpStringE; nglog::LogMessageFatal::LogMessageFatal(char const*,int,nglog::internal::CheckOpString const&)
lea rbx, [rsp+98h+var_68]
mov rdi, rbx; this
call _ZN5nglog10LogMessage6streamEv; nglog::LogMessage::stream(void)
lea rdi, [rsp+98h+var_68]; this
call _ZN5nglog15LogMessageFatalD2Ev; nglog::LogMessageFatal::~LogMessageFatal()
loc_8F8E:
mov rax, [rsp+98h+var_88]
xor edx, edx
mov [rsp+98h+var_88], rdx
lea rcx, [rsp+98h+var_90]
mov [rcx], rax
mov [rsp+98h+var_80], rdx
lea rsi, aWorkspaceLlm4b_0; "/workspace/llm4binary/github/2025_star3"...
lea rdi, [rsp+98h+var_68]
mov edx, 0C6h
call _ZN5nglog15LogMessageFatalC2EPKciRKNS_8internal13CheckOpStringE; nglog::LogMessageFatal::LogMessageFatal(char const*,int,nglog::internal::CheckOpString const&)
lea rbx, [rsp+98h+var_68]
mov rdi, rbx; this
call _ZN5nglog10LogMessage6streamEv; nglog::LogMessage::stream(void)
lea rdi, [rsp+98h+var_68]; this
call _ZN5nglog15LogMessageFatalD2Ev; nglog::LogMessageFatal::~LogMessageFatal()
jmp short $+2
loc_8FD6:
mov rdi, rbx; this
call _ZN5nglog15LogMessageFatalD2Ev; nglog::LogMessageFatal::~LogMessageFatal()
mov rdi, rax
call __clang_call_terminate
mov rbx, rax
mov rsi, [rsp+98h+var_90]
test rsi, rsi
jz short loc_8FFD
lea rdi, [rsp+98h+var_90]
call _ZNKSt14default_deleteINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEEclEPS5_; std::default_delete<std::string>::operator()(std::string*)
loc_8FFD:
mov [rsp+98h+var_90], 0
mov rsi, [rsp+98h+var_80]
test rsi, rsi
jz short loc_901A
lea rdi, [rsp+98h+var_80]
call _ZNKSt14default_deleteINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEEclEPS5_; std::default_delete<std::string>::operator()(std::string*)
loc_901A:
mov [rsp+98h+var_80], 0
mov rsi, [rsp+98h+var_88]
test rsi, rsi
jz short loc_9085
lea rdi, [rsp+98h+var_88]
jmp short loc_9080
mov rbx, rax
mov rsi, [rsp+98h+var_70]
test rsi, rsi
jz short loc_904B
lea rdi, [rsp+98h+var_70]
call _ZNKSt14default_deleteINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEEclEPS5_; std::default_delete<std::string>::operator()(std::string*)
loc_904B:
mov [rsp+98h+var_70], 0
mov rsi, [rsp+98h+var_78]
test rsi, rsi
jz short loc_9068
lea rdi, [rsp+98h+var_78]
call _ZNKSt14default_deleteINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEEclEPS5_; std::default_delete<std::string>::operator()(std::string*)
loc_9068:
mov [rsp+98h+var_78], 0
mov rsi, [rsp+98h+var_90]
test rsi, rsi
jz short loc_9085
lea rdi, [rsp+98h+var_90]
loc_9080:
call _ZNKSt14default_deleteINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEEclEPS5_; std::default_delete<std::string>::operator()(std::string*)
loc_9085:
mov rdi, rbx
call __Unwind_Resume
| long long CheckStackTrace1(int a1)
{
int v1; // ebx
long long result; // rax
long long v4; // rax
long long v5; // rax
long long v6; // [rsp+8h] [rbp-90h] BYREF
_QWORD v7[4]; // [rsp+10h] [rbp-88h] BYREF
_BYTE v8[104]; // [rsp+30h] [rbp-68h] BYREF
unsigned long long retaddr; // [rsp+98h] [rbp+0h]
v1 = a1;
v7[0] = retaddr;
if ( qword_319F0 >= retaddr )
nglog::internal::MakeCheckOpString<void const*,void *>(&v6, &qword_319F0, v7, "(&expected_range[5])->start < ra");
else
v6 = 0LL;
if ( v6 )
{
v4 = v6;
v6 = 0LL;
v7[3] = v4;
v7[2] = 0LL;
nglog::LogMessageFatal::LogMessageFatal(
v8,
"/workspace/llm4binary/github/2025_star3/ng-log[P]ng-log/src/stacktrace_unittest.cc",
197LL);
nglog::LogMessage::stream((nglog::LogMessage *)v8);
nglog::LogMessageFatal::~LogMessageFatal((nglog::LogMessageFatal *)v8);
}
if ( v7[0] > (unsigned long long)qword_319F8 )
{
printf("Adjusting range from %p..%p to %p..%p\n", qword_319F0);
qword_319F8 = v7[0];
}
result = (long long)&loc_8EE8;
qword_319E0 = (long long)&loc_8EE8;
qword_319E8 = (long long)&loc_8EFC;
if ( &loc_8EE8 >= &loc_8EFC )
result = nglog::internal::MakeCheckOpString<void const*,void const*>(
v7,
&qword_319E0,
&qword_319E8,
"(&expected_range[4])->start < (&expected_range[4])->end");
else
v7[0] = 0LL;
if ( v7[0] )
{
v5 = v7[0];
v7[0] = 0LL;
v6 = v5;
v7[1] = 0LL;
nglog::LogMessageFatal::LogMessageFatal(
v8,
"/workspace/llm4binary/github/2025_star3/ng-log[P]ng-log/src/stacktrace_unittest.cc",
198LL);
nglog::LogMessage::stream((nglog::LogMessage *)v8);
nglog::LogMessageFatal::~LogMessageFatal((nglog::LogMessageFatal *)v8);
}
if ( a1 >= 0 )
{
do
{
CheckStackTrace2(v1);
result = (unsigned int)(v1 - 1);
}
while ( v1-- > 0 );
}
return result;
}
| CheckStackTrace1:
PUSH RBX
SUB RSP,0x90
MOV EBX,EDI
MOV RAX,qword ptr [RSP + 0x98]
MOV qword ptr [RSP + 0x10],RAX
CMP qword ptr [0x001319f0],RAX
JNC 0x00108f05
MOV qword ptr [RSP + 0x8],0x0
LAB_00108e71:
CMP qword ptr [RSP + 0x8],0x0
JNZ 0x00108f48
MOV R8,qword ptr [RSP + 0x10]
MOV RDX,qword ptr [0x001319f8]
CMP R8,RDX
JBE 0x00108eb2
MOV RCX,qword ptr [0x001319f0]
LEA RDI,[0x1230b0]
MOV RSI,RCX
XOR EAX,EAX
CALL 0x00107060
MOV RAX,qword ptr [RSP + 0x10]
MOV qword ptr [0x001319f8],RAX
LAB_00108eb2:
LEA RAX,[0x108ee8]
MOV qword ptr [0x001319e0],RAX
LEA RCX,[0x108efc]
MOV qword ptr [0x001319e8],RCX
CMP RAX,RCX
JNC 0x00108f27
MOV qword ptr [RSP + 0x10],0x0
LAB_00108edc:
CMP qword ptr [RSP + 0x10],0x0
JNZ 0x00108f8e
LAB_00108ee8:
TEST EBX,EBX
JS 0x00108efc
LAB_00108eec:
MOV EDI,EBX
CALL 0x001090d6
LEA EAX,[RBX + -0x1]
TEST EBX,EBX
MOV EBX,EAX
JG 0x00108eec
LAB_00108efc:
ADD RSP,0x90
POP RBX
RET
LAB_00108f05:
LEA RSI,[0x1319f0]
LEA RCX,[0x12308f]
LEA RDI,[RSP + 0x8]
LEA RDX,[RSP + 0x10]
CALL 0x0010a13b
JMP 0x00108e71
LAB_00108f27:
LEA RSI,[0x1319e0]
LEA RDX,[0x1319e8]
LEA RCX,[0x1230d7]
LEA RDI,[RSP + 0x10]
CALL 0x0010a2c3
JMP 0x00108edc
LAB_00108f48:
MOV RAX,qword ptr [RSP + 0x8]
XOR EDX,EDX
MOV qword ptr [RSP + 0x8],RDX
LEA RCX,[RSP + 0x28]
MOV qword ptr [RCX],RAX
MOV qword ptr [RSP + 0x20],RDX
LAB_00108f61:
LEA RSI,[0x12303c]
LEA RDI,[RSP + 0x30]
MOV EDX,0xc5
CALL 0x0010ed5e
LAB_00108f77:
LEA RBX,[RSP + 0x30]
MOV RDI,RBX
CALL 0x0010b492
LAB_00108f84:
LEA RDI,[RSP + 0x30]
CALL 0x0010ed64
LAB_00108f8e:
MOV RAX,qword ptr [RSP + 0x10]
XOR EDX,EDX
MOV qword ptr [RSP + 0x10],RDX
LEA RCX,[RSP + 0x8]
MOV qword ptr [RCX],RAX
MOV qword ptr [RSP + 0x18],RDX
LAB_00108fa7:
LEA RSI,[0x12303c]
LEA RDI,[RSP + 0x30]
MOV EDX,0xc6
CALL 0x0010ed5e
LAB_00108fbd:
LEA RBX,[RSP + 0x30]
MOV RDI,RBX
CALL 0x0010b492
LAB_00108fca:
LEA RDI,[RSP + 0x30]
CALL 0x0010ed64
LAB_00108fd4:
JMP 0x00108fd6
LAB_00108fd6:
MOV RDI,RBX
CALL 0x0010ed64
LAB_00108fde:
MOV RDI,RAX
CALL 0x00109fcd
|
/* WARNING: Removing unreachable block (ram,0x00108f27) */
/* WARNING: Globals starting with '_' overlap smaller symbols at the same address */
/* CheckStackTrace1(int) */
void CheckStackTrace1(int param_1)
{
bool bVar1;
int8 uVar2;
void *unaff_retaddr;
void *local_90;
void *local_88;
int8 local_80;
int8 local_78;
long local_70;
LogMessageFatal local_68 [96];
local_88 = unaff_retaddr;
if (_DAT_001319f0 < unaff_retaddr) {
local_90 = (void *)0x0;
}
else {
nglog::internal::MakeCheckOpString<void_const*,void*>
((internal *)&local_90,(void **)&DAT_001319f0,&local_88,
"(&expected_range[5])->start < ra");
}
local_70 = (long)local_90;
if (local_90 == (void *)0x0) {
if (_DAT_001319f8 < local_88) {
printf("Adjusting range from %p..%p to %p..%p\n",_DAT_001319f0);
_DAT_001319f8 = local_88;
}
_DAT_001319e0 = 0x108ee8;
_DAT_001319e8 = 0x108efc;
local_88 = (void *)0x0;
if (-1 < param_1) {
do {
CheckStackTrace2(param_1);
bVar1 = 0 < param_1;
param_1 = param_1 + -1;
} while (bVar1);
}
return;
}
local_90 = (void *)0x0;
local_78 = 0;
/* try { // try from 00108f61 to 00108f76 has its CatchHandler @ 00109034 */
nglog::LogMessageFatal::LogMessageFatal
(local_68,
"/workspace/llm4binary/github/2025_star3/ng-log[P]ng-log/src/stacktrace_unittest.cc",
0xc5,(CheckOpString *)&local_70);
/* try { // try from 00108f77 to 00108f83 has its CatchHandler @ 00108fd6 */
nglog::LogMessage::stream((LogMessage *)local_68);
/* try { // try from 00108f84 to 00108f8d has its CatchHandler @ 00109034 */
nglog::LogMessageFatal::~LogMessageFatal(local_68);
local_90 = local_88;
local_88 = (void *)0x0;
local_80 = 0;
/* try { // try from 00108fa7 to 00108fbc has its CatchHandler @ 00108fe6 */
nglog::LogMessageFatal::LogMessageFatal
(local_68,
"/workspace/llm4binary/github/2025_star3/ng-log[P]ng-log/src/stacktrace_unittest.cc",
0xc6,(CheckOpString *)&local_90);
/* try { // try from 00108fbd to 00108fc9 has its CatchHandler @ 00108fd4 */
nglog::LogMessage::stream((LogMessage *)local_68);
/* try { // try from 00108fca to 00108fd3 has its CatchHandler @ 00108fe6 */
nglog::LogMessageFatal::~LogMessageFatal(local_68);
/* catch(type#1 @ 00000000) { ... } // from try @ 00108fbd with catch @ 00108fd4
*/
/* catch(type#1 @ 00000000) { ... } // from try @ 00108f77 with catch @ 00108fd6
try { // try from 00108fd6 to 00108fdd has its CatchHandler @ 00108fde */
uVar2 = nglog::LogMessageFatal::~LogMessageFatal(local_68);
/* catch(type#1 @ 00000000) { ... } // from try @ 00108fd6 with catch @ 00108fde
*/
/* WARNING: Subroutine does not return */
__clang_call_terminate(uVar2);
}
| |
34,499 | CheckStackTrace1(int) | ng-log[P]ng-log/src/stacktrace_unittest.cc | static void ATTRIBUTE_NOINLINE CheckStackTrace1(int i) {
ADJUST_ADDRESS_RANGE_FROM_RA(&expected_range[5]);
INIT_ADDRESS_RANGE(CheckStackTrace1, start, end, &expected_range[4]);
DECLARE_ADDRESS_LABEL(start);
for (int j = i; j >= 0; j--) {
CheckStackTrace2(j);
}
DECLARE_ADDRESS_LABEL(end);
} | O3 | cpp | CheckStackTrace1(int):
pushq %r14
pushq %rbx
subq $0x78, %rsp
movl %edi, %ebx
movq 0x88(%rsp), %r8
movq %r8, (%rsp)
cmpq %r8, 0x27cfc(%rip) # 0x309f0
jae 0x8d5e
movq 0x27cfb(%rip), %rdx # 0x309f8
cmpq %rdx, %r8
jbe 0x8d25
movq 0x27ce7(%rip), %rcx # 0x309f0
leaq 0x1a3a0(%rip), %rdi # 0x230b0
movq %rcx, %rsi
xorl %eax, %eax
callq 0x7060
movq (%rsp), %rax
movq %rax, 0x27cd3(%rip) # 0x309f8
leaq 0x1a(%rip), %rax # 0x8d46
movq %rax, 0x27cad(%rip) # 0x309e0
leaq 0x1c(%rip), %rcx # 0x8d56
movq %rcx, 0x27ca7(%rip) # 0x309e8
cmpq %rcx, %rax
jae 0x8d8d
testl %ebx, %ebx
js 0x8d56
movl %ebx, %edi
callq 0x8ee3
addl $-0x1, %ebx
jb 0x8d4a
addq $0x78, %rsp
popq %rbx
popq %r14
retq
leaq 0x27c8b(%rip), %rsi # 0x309f0
leaq 0x1a323(%rip), %rcx # 0x2308f
leaq 0x8(%rsp), %r14
movq %rsp, %rdx
movq %r14, %rdi
callq 0x9c71
movq (%r14), %rax
testq %rax, %rax
jne 0x8df2
movq (%rsp), %r8
jmp 0x8cf6
leaq 0x27c4c(%rip), %rsi # 0x309e0
leaq 0x27c4d(%rip), %rdx # 0x309e8
leaq 0x1a335(%rip), %rcx # 0x230d7
movq %rsp, %r14
movq %r14, %rdi
callq 0x9df8
movq (%r14), %rax
testq %rax, %rax
je 0x8d46
movq $0x0, (%rsp)
leaq 0x8(%rsp), %rcx
movq %rax, (%rcx)
leaq 0x1a270(%rip), %rsi # 0x2303c
leaq 0x18(%rsp), %rdi
movl $0xc6, %edx
callq 0xe830
leaq 0x18(%rsp), %rbx
movq %rbx, %rdi
callq 0xaf6a
leaq 0x18(%rsp), %rdi
callq 0xe836
movq $0x0, 0x8(%rsp)
leaq 0x10(%rsp), %rcx
movq %rax, (%rcx)
leaq 0x1a232(%rip), %rsi # 0x2303c
leaq 0x18(%rsp), %rdi
movl $0xc5, %edx
callq 0xe830
leaq 0x18(%rsp), %rbx
movq %rbx, %rdi
callq 0xaf6a
leaq 0x18(%rsp), %rdi
callq 0xe836
jmp 0x8e32
movq %rbx, %rdi
callq 0xe836
movq %rax, %rdi
callq 0x9b03
movq %rax, %rbx
movq 0x10(%rsp), %rsi
testq %rsi, %rsi
je 0x8e59
leaq 0x10(%rsp), %rdi
callq 0x9dca
movq 0x8(%rsp), %rsi
testq %rsi, %rsi
je 0x8e92
leaq 0x8(%rsp), %rdi
jmp 0x8e8d
movq %rax, %rbx
movq 0x8(%rsp), %rsi
testq %rsi, %rsi
je 0x8e81
leaq 0x8(%rsp), %rdi
callq 0x9dca
movq (%rsp), %rsi
testq %rsi, %rsi
je 0x8e92
movq %rsp, %rdi
callq 0x9dca
movq %rbx, %rdi
callq 0x7990
| _ZL16CheckStackTrace1i:
push r14
push rbx
sub rsp, 78h
mov ebx, edi
mov r8, [rsp+88h]
mov [rsp+88h+var_88], r8
cmp cs:qword_309F0, r8
jnb short loc_8D5E
loc_8CF6:
mov rdx, cs:qword_309F8
cmp r8, rdx
jbe short loc_8D25
mov rcx, cs:qword_309F0
lea rdi, aAdjustingRange; "Adjusting range from %p..%p to %p..%p\n"
mov rsi, rcx
xor eax, eax
call _printf
mov rax, [rsp+88h+var_88]
mov cs:qword_309F8, rax
loc_8D25:
lea rax, loc_8D46
mov cs:qword_309E0, rax
lea rcx, loc_8D56
mov cs:qword_309E8, rcx
cmp rax, rcx
jnb short loc_8D8D
loc_8D46:
test ebx, ebx
js short loc_8D56
loc_8D4A:
mov edi, ebx; int
call _ZL16CheckStackTrace2i; CheckStackTrace2(int)
add ebx, 0FFFFFFFFh
jb short loc_8D4A
loc_8D56:
add rsp, 78h
pop rbx
pop r14
retn
loc_8D5E:
lea rsi, qword_309F0
lea rcx, aExpectedRange5_0; "(&expected_range[5])->start < ra"
lea r14, [rsp+88h+var_80]
mov rdx, rsp
mov rdi, r14
call _ZN5nglog8internal17MakeCheckOpStringIPKvPvEESt10unique_ptrINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEESt14default_deleteISB_EERKT_RKT0_PKc; nglog::internal::MakeCheckOpString<void const*,void *>(void const* const&,void * const&,char const*)
mov rax, [r14]
test rax, rax
jnz short loc_8DF2
mov r8, [rsp+88h+var_88]
jmp loc_8CF6
loc_8D8D:
lea rsi, qword_309E0
lea rdx, qword_309E8
lea rcx, aExpectedRange4; "(&expected_range[4])->start < (&expecte"...
mov r14, rsp
mov rdi, r14
call _ZN5nglog8internal17MakeCheckOpStringIPKvS3_EESt10unique_ptrINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEESt14default_deleteISA_EERKT_RKT0_PKc; nglog::internal::MakeCheckOpString<void const*,void const*>(void const* const&,void const* const&,char const*)
mov rax, [r14]
test rax, rax
jz short loc_8D46
mov [rsp+88h+var_88], 0
lea rcx, [rsp+88h+var_80]
mov [rcx], rax
lea rsi, aWorkspaceLlm4b; "/workspace/llm4binary/github/2025_star3"...
lea rdi, [rsp+88h+var_70]
mov edx, 0C6h
call _ZN5nglog15LogMessageFatalC2EPKciRKNS_8internal13CheckOpStringE; nglog::LogMessageFatal::LogMessageFatal(char const*,int,nglog::internal::CheckOpString const&)
lea rbx, [rsp+88h+var_70]
mov rdi, rbx; this
call _ZN5nglog10LogMessage6streamEv; nglog::LogMessage::stream(void)
lea rdi, [rsp+88h+var_70]; this
call _ZN5nglog15LogMessageFatalD2Ev; nglog::LogMessageFatal::~LogMessageFatal()
loc_8DF2:
mov [rsp+88h+var_80], 0
lea rcx, [rsp+88h+var_78]
mov [rcx], rax
lea rsi, aWorkspaceLlm4b; "/workspace/llm4binary/github/2025_star3"...
lea rdi, [rsp+88h+var_70]
mov edx, 0C5h
call _ZN5nglog15LogMessageFatalC2EPKciRKNS_8internal13CheckOpStringE; nglog::LogMessageFatal::LogMessageFatal(char const*,int,nglog::internal::CheckOpString const&)
lea rbx, [rsp+88h+var_70]
mov rdi, rbx; this
call _ZN5nglog10LogMessage6streamEv; nglog::LogMessage::stream(void)
lea rdi, [rsp+88h+var_70]; this
call _ZN5nglog15LogMessageFatalD2Ev; nglog::LogMessageFatal::~LogMessageFatal()
jmp short $+2
loc_8E32:
mov rdi, rbx; this
call _ZN5nglog15LogMessageFatalD2Ev; nglog::LogMessageFatal::~LogMessageFatal()
mov rdi, rax
call __clang_call_terminate
mov rbx, rax
mov rsi, [rsp+88h+var_78]
test rsi, rsi
jz short loc_8E59
lea rdi, [rsp+88h+var_78]
call _ZNKSt14default_deleteINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEEclEPS5_; std::default_delete<std::string>::operator()(std::string*)
loc_8E59:
mov rsi, [rsp+88h+var_80]
test rsi, rsi
jz short loc_8E92
lea rdi, [rsp+88h+var_80]
jmp short loc_8E8D
mov rbx, rax
mov rsi, [rsp+88h+var_80]
test rsi, rsi
jz short loc_8E81
lea rdi, [rsp+88h+var_80]
call _ZNKSt14default_deleteINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEEclEPS5_; std::default_delete<std::string>::operator()(std::string*)
loc_8E81:
mov rsi, [rsp+88h+var_88]
test rsi, rsi
jz short loc_8E92
mov rdi, rsp
loc_8E8D:
call _ZNKSt14default_deleteINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEEclEPS5_; std::default_delete<std::string>::operator()(std::string*)
loc_8E92:
mov rdi, rbx
call __Unwind_Resume
| void * CheckStackTrace1(int a1)
{
int v1; // ebx
unsigned long long v2; // r8
void *result; // rax
long long v5; // rax
void *v6; // [rsp+0h] [rbp-88h] BYREF
_QWORD v7[2]; // [rsp+8h] [rbp-80h] BYREF
_BYTE v8[112]; // [rsp+18h] [rbp-70h] BYREF
unsigned long long retaddr; // [rsp+88h] [rbp+0h]
v1 = a1;
v2 = retaddr;
v6 = (void *)retaddr;
if ( qword_309F0 >= retaddr )
{
nglog::internal::MakeCheckOpString<void const*,void *>(v7, &qword_309F0, &v6, "(&expected_range[5])->start < ra");
v5 = v7[0];
if ( v7[0] )
{
v7[0] = 0LL;
v7[1] = v5;
nglog::LogMessageFatal::LogMessageFatal(
v8,
"/workspace/llm4binary/github/2025_star3/ng-log[P]ng-log/src/stacktrace_unittest.cc",
197LL);
nglog::LogMessage::stream((nglog::LogMessage *)v8);
nglog::LogMessageFatal::~LogMessageFatal((nglog::LogMessageFatal *)v8);
}
v2 = (unsigned long long)v6;
}
if ( v2 > qword_309F8 )
{
printf("Adjusting range from %p..%p to %p..%p\n", qword_309F0);
qword_309F8 = (long long)v6;
}
result = &loc_8D46;
qword_309E0 = (long long)&loc_8D46;
qword_309E8 = (long long)&loc_8D56;
if ( &loc_8D46 >= &loc_8D56 )
{
nglog::internal::MakeCheckOpString<void const*,void const*>(
&v6,
&qword_309E0,
&qword_309E8,
"(&expected_range[4])->start < (&expected_range[4])->end");
result = v6;
if ( v6 )
{
v6 = 0LL;
v7[0] = result;
nglog::LogMessageFatal::LogMessageFatal(
v8,
"/workspace/llm4binary/github/2025_star3/ng-log[P]ng-log/src/stacktrace_unittest.cc",
198LL);
nglog::LogMessage::stream((nglog::LogMessage *)v8);
nglog::LogMessageFatal::~LogMessageFatal((nglog::LogMessageFatal *)v8);
}
}
if ( a1 >= 0 )
{
do
result = (void *)CheckStackTrace2(v1);
while ( v1-- != 0 );
}
return result;
}
| CheckStackTrace1:
PUSH R14
PUSH RBX
SUB RSP,0x78
MOV EBX,EDI
MOV R8,qword ptr [RSP + 0x88]
MOV qword ptr [RSP],R8
CMP qword ptr [0x001309f0],R8
JNC 0x00108d5e
LAB_00108cf6:
MOV RDX,qword ptr [0x001309f8]
CMP R8,RDX
JBE 0x00108d25
MOV RCX,qword ptr [0x001309f0]
LEA RDI,[0x1230b0]
MOV RSI,RCX
XOR EAX,EAX
CALL 0x00107060
MOV RAX,qword ptr [RSP]
MOV qword ptr [0x001309f8],RAX
LAB_00108d25:
LEA RAX,[0x108d46]
MOV qword ptr [0x001309e0],RAX
LEA RCX,[0x108d56]
MOV qword ptr [0x001309e8],RCX
CMP RAX,RCX
JNC 0x00108d8d
LAB_00108d46:
TEST EBX,EBX
JS 0x00108d56
LAB_00108d4a:
MOV EDI,EBX
CALL 0x00108ee3
ADD EBX,-0x1
JC 0x00108d4a
LAB_00108d56:
ADD RSP,0x78
POP RBX
POP R14
RET
LAB_00108d5e:
LEA RSI,[0x1309f0]
LEA RCX,[0x12308f]
LEA R14,[RSP + 0x8]
MOV RDX,RSP
MOV RDI,R14
CALL 0x00109c71
MOV RAX,qword ptr [R14]
TEST RAX,RAX
JNZ 0x00108df2
MOV R8,qword ptr [RSP]
JMP 0x00108cf6
LAB_00108d8d:
LEA RSI,[0x1309e0]
LEA RDX,[0x1309e8]
LEA RCX,[0x1230d7]
MOV R14,RSP
MOV RDI,R14
CALL 0x00109df8
MOV RAX,qword ptr [R14]
TEST RAX,RAX
JZ 0x00108d46
MOV qword ptr [RSP],0x0
LEA RCX,[RSP + 0x8]
MOV qword ptr [RCX],RAX
LAB_00108dc5:
LEA RSI,[0x12303c]
LEA RDI,[RSP + 0x18]
MOV EDX,0xc6
CALL 0x0010e830
LAB_00108ddb:
LEA RBX,[RSP + 0x18]
MOV RDI,RBX
CALL 0x0010af6a
LAB_00108de8:
LEA RDI,[RSP + 0x18]
CALL 0x0010e836
LAB_00108df2:
MOV qword ptr [RSP + 0x8],0x0
LEA RCX,[RSP + 0x10]
MOV qword ptr [RCX],RAX
LAB_00108e03:
LEA RSI,[0x12303c]
LEA RDI,[RSP + 0x18]
MOV EDX,0xc5
CALL 0x0010e830
LAB_00108e19:
LEA RBX,[RSP + 0x18]
MOV RDI,RBX
CALL 0x0010af6a
LAB_00108e26:
LEA RDI,[RSP + 0x18]
CALL 0x0010e836
LAB_00108e30:
JMP 0x00108e32
LAB_00108e32:
MOV RDI,RBX
CALL 0x0010e836
LAB_00108e3a:
MOV RDI,RAX
CALL 0x00109b03
|
/* WARNING: Removing unreachable block (ram,0x00108d8d) */
/* WARNING: Removing unreachable block (ram,0x00108db5) */
/* CheckStackTrace1(int) */
void CheckStackTrace1(int param_1)
{
int8 uVar1;
bool bVar2;
void *unaff_retaddr;
void *local_88;
long local_80;
CheckOpString local_78 [8];
LogMessageFatal local_70 [96];
local_88 = unaff_retaddr;
if ((unaff_retaddr <= DAT_001309f0) &&
(nglog::internal::MakeCheckOpString<void_const*,void*>
((internal *)&local_80,&DAT_001309f0,&local_88,"(&expected_range[5])->start < ra"),
local_80 != 0)) {
local_80 = 0;
/* try { // try from 00108e03 to 00108e18 has its CatchHandler @ 00108e42 */
nglog::LogMessageFatal::LogMessageFatal
(local_70,
"/workspace/llm4binary/github/2025_star3/ng-log[P]ng-log/src/stacktrace_unittest.cc",
0xc5,local_78);
/* try { // try from 00108e19 to 00108e25 has its CatchHandler @ 00108e30 */
nglog::LogMessage::stream((LogMessage *)local_70);
/* try { // try from 00108e26 to 00108e2f has its CatchHandler @ 00108e42 */
nglog::LogMessageFatal::~LogMessageFatal(local_70);
/* catch(type#1 @ 00000000) { ... } // from try @ 00108e19 with catch @ 00108e30
*/
/* catch(type#1 @ 00000000) { ... } // from try @ 00108ddb with catch @ 00108e32
try { // try from 00108e32 to 00108e39 has its CatchHandler @ 00108e3a */
uVar1 = nglog::LogMessageFatal::~LogMessageFatal(local_70);
/* catch(type#1 @ 00000000) { ... } // from try @ 00108e32 with catch @ 00108e3a
*/
/* WARNING: Subroutine does not return */
__clang_call_terminate(uVar1);
}
if (DAT_001309f8 < local_88) {
printf("Adjusting range from %p..%p to %p..%p\n",DAT_001309f0);
DAT_001309f8 = local_88;
}
DAT_001309e0 = 0x108d46;
DAT_001309e8 = 0x108d56;
if (-1 < param_1) {
do {
CheckStackTrace2(param_1);
bVar2 = param_1 != 0;
param_1 = param_1 + -1;
} while (bVar2);
}
return;
}
|
Subsets and Splits
C++ Functions With Standard Library Dependencies
Identifies C++ functions that depend on standard library components, revealing patterns in how developers utilize STL libraries and potentially highlighting common coding practices or dependencies in the dataset.
C++ Standard Library Function Analysis
Filters C++ code examples that use standard library containers and types, providing useful insights into common programming patterns and data structures in the dataset.
Random Training Function Samples
Performs basic filtering and random sampling of assembly code data without revealing meaningful patterns or relationships.
Random Training Function Samples
Retrieves a random sample of 1000 records from the training dataset, providing basic data exploration but offering limited analytical value beyond seeing raw entries.