binary_name string | function_name string | assembly_code sequence | pseudocode string |
|---|---|---|---|
binary_sample_1 | init_config | [
"push rbp",
"mov rbp, rsp",
"mov [rdi], 0",
"mov [rdi+4], 1",
"pop rbp",
"ret"
] | void init_config(Config* cfg) {
cfg->a = 0;
cfg->b = 1;
} |
binary_sample_2 | main | [
"push rbp",
"mov rbp, rsp",
"call printf",
"mov eax, 0",
"pop rbp",
"ret"
] | int main() {
printf("Hello, world!");
return 0;
} |
binary_sample_3 | main | [
"push rbp",
"mov rbp, rsp",
"call printf",
"mov eax, 0",
"pop rbp",
"ret"
] | int main() {
printf("Hello, world!");
return 0;
} |
binary_sample_4 | decrypt_payload | [
"push rbp",
"mov rbp, rsp",
"mov eax, [rdi]",
"xor eax, 0x55",
"mov [rdi], eax",
"pop rbp",
"ret"
] | void decrypt_payload(char* data) {
*data ^= 0x55;
} |
binary_sample_5 | decrypt_payload | [
"push rbp",
"mov rbp, rsp",
"mov eax, [rdi]",
"xor eax, 0x55",
"mov [rdi], eax",
"pop rbp",
"ret"
] | void decrypt_payload(char* data) {
*data ^= 0x55;
} |
binary_sample_6 | check_key | [
"mov eax, [rdi]",
"cmp eax, 0xdeadbeef",
"jne fail",
"mov eax, 1",
"ret",
"fail:",
"xor eax, eax",
"ret"
] | int check_key(int input) {
if (input != 0xdeadbeef) return 0;
return 1;
} |
binary_sample_7 | check_key | [
"mov eax, [rdi]",
"cmp eax, 0xdeadbeef",
"jne fail",
"mov eax, 1",
"ret",
"fail:",
"xor eax, eax",
"ret"
] | int check_key(int input) {
if (input != 0xdeadbeef) return 0;
return 1;
} |
binary_sample_8 | check_key | [
"mov eax, [rdi]",
"cmp eax, 0xdeadbeef",
"jne fail",
"mov eax, 1",
"ret",
"fail:",
"xor eax, eax",
"ret"
] | int check_key(int input) {
if (input != 0xdeadbeef) return 0;
return 1;
} |
binary_sample_9 | decrypt_payload | [
"push rbp",
"mov rbp, rsp",
"mov eax, [rdi]",
"xor eax, 0x55",
"mov [rdi], eax",
"pop rbp",
"ret"
] | void decrypt_payload(char* data) {
*data ^= 0x55;
} |
binary_sample_10 | check_key | [
"mov eax, [rdi]",
"cmp eax, 0xdeadbeef",
"jne fail",
"mov eax, 1",
"ret",
"fail:",
"xor eax, eax",
"ret"
] | int check_key(int input) {
if (input != 0xdeadbeef) return 0;
return 1;
} |
binary_sample_11 | main | [
"push rbp",
"mov rbp, rsp",
"call printf",
"mov eax, 0",
"pop rbp",
"ret"
] | int main() {
printf("Hello, world!");
return 0;
} |
binary_sample_12 | decrypt_payload | [
"push rbp",
"mov rbp, rsp",
"mov eax, [rdi]",
"xor eax, 0x55",
"mov [rdi], eax",
"pop rbp",
"ret"
] | void decrypt_payload(char* data) {
*data ^= 0x55;
} |
binary_sample_13 | check_key | [
"mov eax, [rdi]",
"cmp eax, 0xdeadbeef",
"jne fail",
"mov eax, 1",
"ret",
"fail:",
"xor eax, eax",
"ret"
] | int check_key(int input) {
if (input != 0xdeadbeef) return 0;
return 1;
} |
binary_sample_14 | main | [
"push rbp",
"mov rbp, rsp",
"call printf",
"mov eax, 0",
"pop rbp",
"ret"
] | int main() {
printf("Hello, world!");
return 0;
} |
binary_sample_15 | check_key | [
"mov eax, [rdi]",
"cmp eax, 0xdeadbeef",
"jne fail",
"mov eax, 1",
"ret",
"fail:",
"xor eax, eax",
"ret"
] | int check_key(int input) {
if (input != 0xdeadbeef) return 0;
return 1;
} |
binary_sample_16 | connect_back | [
"push rbp",
"mov rbp, rsp",
"call socket",
"call connect",
"pop rbp",
"ret"
] | void connect_back() {
int sock = socket();
connect(sock);
} |
binary_sample_17 | check_key | [
"mov eax, [rdi]",
"cmp eax, 0xdeadbeef",
"jne fail",
"mov eax, 1",
"ret",
"fail:",
"xor eax, eax",
"ret"
] | int check_key(int input) {
if (input != 0xdeadbeef) return 0;
return 1;
} |
binary_sample_18 | connect_back | [
"push rbp",
"mov rbp, rsp",
"call socket",
"call connect",
"pop rbp",
"ret"
] | void connect_back() {
int sock = socket();
connect(sock);
} |
binary_sample_19 | check_key | [
"mov eax, [rdi]",
"cmp eax, 0xdeadbeef",
"jne fail",
"mov eax, 1",
"ret",
"fail:",
"xor eax, eax",
"ret"
] | int check_key(int input) {
if (input != 0xdeadbeef) return 0;
return 1;
} |
binary_sample_20 | init_config | [
"push rbp",
"mov rbp, rsp",
"mov [rdi], 0",
"mov [rdi+4], 1",
"pop rbp",
"ret"
] | void init_config(Config* cfg) {
cfg->a = 0;
cfg->b = 1;
} |
binary_sample_21 | check_key | [
"mov eax, [rdi]",
"cmp eax, 0xdeadbeef",
"jne fail",
"mov eax, 1",
"ret",
"fail:",
"xor eax, eax",
"ret"
] | int check_key(int input) {
if (input != 0xdeadbeef) return 0;
return 1;
} |
binary_sample_22 | decrypt_payload | [
"push rbp",
"mov rbp, rsp",
"mov eax, [rdi]",
"xor eax, 0x55",
"mov [rdi], eax",
"pop rbp",
"ret"
] | void decrypt_payload(char* data) {
*data ^= 0x55;
} |
binary_sample_23 | decrypt_payload | [
"push rbp",
"mov rbp, rsp",
"mov eax, [rdi]",
"xor eax, 0x55",
"mov [rdi], eax",
"pop rbp",
"ret"
] | void decrypt_payload(char* data) {
*data ^= 0x55;
} |
binary_sample_24 | connect_back | [
"push rbp",
"mov rbp, rsp",
"call socket",
"call connect",
"pop rbp",
"ret"
] | void connect_back() {
int sock = socket();
connect(sock);
} |
binary_sample_25 | decrypt_payload | [
"push rbp",
"mov rbp, rsp",
"mov eax, [rdi]",
"xor eax, 0x55",
"mov [rdi], eax",
"pop rbp",
"ret"
] | void decrypt_payload(char* data) {
*data ^= 0x55;
} |
binary_sample_26 | main | [
"push rbp",
"mov rbp, rsp",
"call printf",
"mov eax, 0",
"pop rbp",
"ret"
] | int main() {
printf("Hello, world!");
return 0;
} |
binary_sample_27 | init_config | [
"push rbp",
"mov rbp, rsp",
"mov [rdi], 0",
"mov [rdi+4], 1",
"pop rbp",
"ret"
] | void init_config(Config* cfg) {
cfg->a = 0;
cfg->b = 1;
} |
binary_sample_28 | init_config | [
"push rbp",
"mov rbp, rsp",
"mov [rdi], 0",
"mov [rdi+4], 1",
"pop rbp",
"ret"
] | void init_config(Config* cfg) {
cfg->a = 0;
cfg->b = 1;
} |
binary_sample_29 | main | [
"push rbp",
"mov rbp, rsp",
"call printf",
"mov eax, 0",
"pop rbp",
"ret"
] | int main() {
printf("Hello, world!");
return 0;
} |
binary_sample_30 | connect_back | [
"push rbp",
"mov rbp, rsp",
"call socket",
"call connect",
"pop rbp",
"ret"
] | void connect_back() {
int sock = socket();
connect(sock);
} |
binary_sample_31 | main | [
"push rbp",
"mov rbp, rsp",
"call printf",
"mov eax, 0",
"pop rbp",
"ret"
] | int main() {
printf("Hello, world!");
return 0;
} |
binary_sample_32 | main | [
"push rbp",
"mov rbp, rsp",
"call printf",
"mov eax, 0",
"pop rbp",
"ret"
] | int main() {
printf("Hello, world!");
return 0;
} |
binary_sample_33 | init_config | [
"push rbp",
"mov rbp, rsp",
"mov [rdi], 0",
"mov [rdi+4], 1",
"pop rbp",
"ret"
] | void init_config(Config* cfg) {
cfg->a = 0;
cfg->b = 1;
} |
binary_sample_34 | check_key | [
"mov eax, [rdi]",
"cmp eax, 0xdeadbeef",
"jne fail",
"mov eax, 1",
"ret",
"fail:",
"xor eax, eax",
"ret"
] | int check_key(int input) {
if (input != 0xdeadbeef) return 0;
return 1;
} |
binary_sample_35 | init_config | [
"push rbp",
"mov rbp, rsp",
"mov [rdi], 0",
"mov [rdi+4], 1",
"pop rbp",
"ret"
] | void init_config(Config* cfg) {
cfg->a = 0;
cfg->b = 1;
} |
binary_sample_36 | init_config | [
"push rbp",
"mov rbp, rsp",
"mov [rdi], 0",
"mov [rdi+4], 1",
"pop rbp",
"ret"
] | void init_config(Config* cfg) {
cfg->a = 0;
cfg->b = 1;
} |
binary_sample_37 | decrypt_payload | [
"push rbp",
"mov rbp, rsp",
"mov eax, [rdi]",
"xor eax, 0x55",
"mov [rdi], eax",
"pop rbp",
"ret"
] | void decrypt_payload(char* data) {
*data ^= 0x55;
} |
binary_sample_38 | main | [
"push rbp",
"mov rbp, rsp",
"call printf",
"mov eax, 0",
"pop rbp",
"ret"
] | int main() {
printf("Hello, world!");
return 0;
} |
binary_sample_39 | init_config | [
"push rbp",
"mov rbp, rsp",
"mov [rdi], 0",
"mov [rdi+4], 1",
"pop rbp",
"ret"
] | void init_config(Config* cfg) {
cfg->a = 0;
cfg->b = 1;
} |
binary_sample_40 | main | [
"push rbp",
"mov rbp, rsp",
"call printf",
"mov eax, 0",
"pop rbp",
"ret"
] | int main() {
printf("Hello, world!");
return 0;
} |
binary_sample_41 | decrypt_payload | [
"push rbp",
"mov rbp, rsp",
"mov eax, [rdi]",
"xor eax, 0x55",
"mov [rdi], eax",
"pop rbp",
"ret"
] | void decrypt_payload(char* data) {
*data ^= 0x55;
} |
binary_sample_42 | main | [
"push rbp",
"mov rbp, rsp",
"call printf",
"mov eax, 0",
"pop rbp",
"ret"
] | int main() {
printf("Hello, world!");
return 0;
} |
binary_sample_43 | init_config | [
"push rbp",
"mov rbp, rsp",
"mov [rdi], 0",
"mov [rdi+4], 1",
"pop rbp",
"ret"
] | void init_config(Config* cfg) {
cfg->a = 0;
cfg->b = 1;
} |
binary_sample_44 | main | [
"push rbp",
"mov rbp, rsp",
"call printf",
"mov eax, 0",
"pop rbp",
"ret"
] | int main() {
printf("Hello, world!");
return 0;
} |
binary_sample_45 | decrypt_payload | [
"push rbp",
"mov rbp, rsp",
"mov eax, [rdi]",
"xor eax, 0x55",
"mov [rdi], eax",
"pop rbp",
"ret"
] | void decrypt_payload(char* data) {
*data ^= 0x55;
} |
binary_sample_46 | check_key | [
"mov eax, [rdi]",
"cmp eax, 0xdeadbeef",
"jne fail",
"mov eax, 1",
"ret",
"fail:",
"xor eax, eax",
"ret"
] | int check_key(int input) {
if (input != 0xdeadbeef) return 0;
return 1;
} |
binary_sample_47 | main | [
"push rbp",
"mov rbp, rsp",
"call printf",
"mov eax, 0",
"pop rbp",
"ret"
] | int main() {
printf("Hello, world!");
return 0;
} |
binary_sample_48 | init_config | [
"push rbp",
"mov rbp, rsp",
"mov [rdi], 0",
"mov [rdi+4], 1",
"pop rbp",
"ret"
] | void init_config(Config* cfg) {
cfg->a = 0;
cfg->b = 1;
} |
binary_sample_49 | decrypt_payload | [
"push rbp",
"mov rbp, rsp",
"mov eax, [rdi]",
"xor eax, 0x55",
"mov [rdi], eax",
"pop rbp",
"ret"
] | void decrypt_payload(char* data) {
*data ^= 0x55;
} |
binary_sample_50 | init_config | [
"push rbp",
"mov rbp, rsp",
"mov [rdi], 0",
"mov [rdi+4], 1",
"pop rbp",
"ret"
] | void init_config(Config* cfg) {
cfg->a = 0;
cfg->b = 1;
} |
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