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| #include <corecrt_internal_stdio.h>
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| #ifdef _DEBUG
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| #define _BUFFER_FILL_PATTERN _SECURECRT_FILL_BUFFER_PATTERN
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| #else
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| #define _BUFFER_FILL_PATTERN 0
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| #endif
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| extern "C" size_t __cdecl fread_s(
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| void* const buffer,
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| size_t const buffer_size,
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| size_t const element_size,
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| size_t const element_count,
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| FILE* const stream
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| )
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| {
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| if (element_size == 0 || element_count == 0)
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| return 0;
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| if (stream == nullptr)
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| {
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| if (buffer_size != _CRT_UNBOUNDED_BUFFER_SIZE)
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| memset(buffer, _BUFFER_FILL_PATTERN, buffer_size);
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| _VALIDATE_RETURN(stream != nullptr, EINVAL, 0);
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| }
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| size_t return_value = 0;
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| _lock_file(stream);
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| __try
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| {
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| return_value = _fread_nolock_s(buffer, buffer_size, element_size, element_count, stream);
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| }
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| __finally
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| {
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| _unlock_file(stream);
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| }
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| return return_value;
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| }
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| extern "C" size_t __cdecl _fread_nolock_s(
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| void* const buffer,
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| size_t const buffer_size,
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| size_t const element_size,
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| size_t const element_count,
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| FILE* const public_stream
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| )
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| {
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| __crt_stdio_stream const stream(public_stream);
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| if (element_size == 0 || element_count == 0)
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| return 0;
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| _VALIDATE_RETURN(buffer != nullptr, EINVAL, 0);
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| if (!stream.valid() || element_count > (SIZE_MAX / element_size))
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| {
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| if (buffer_size != _CRT_UNBOUNDED_BUFFER_SIZE)
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| memset(buffer, _BUFFER_FILL_PATTERN, buffer_size);
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| _VALIDATE_RETURN(stream.valid(), EINVAL, 0);
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| _VALIDATE_RETURN(element_count <= (SIZE_MAX / element_size), EINVAL, 0);
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| }
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| unsigned stream_buffer_size = stream.has_any_buffer()
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| ? stream->_bufsiz
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| : _INTERNAL_BUFSIZ;
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| size_t const total_bytes = element_size * element_count;
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| char* data = static_cast<char*>(buffer);
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| size_t remaining_bytes = total_bytes;
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| size_t remaining_buffer = buffer_size;
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| while (remaining_bytes != 0)
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| {
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| if (stream.has_any_buffer() && stream->_cnt != 0)
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| {
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| if(stream->_cnt < 0)
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| {
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| _ASSERTE(("Inconsistent Stream Count. Flush between consecutive read and write", stream->_cnt >= 0));
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| stream.set_flags(_IOERROR);
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| return (total_bytes - remaining_bytes) / element_size;
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| }
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| unsigned const bytes_to_read = remaining_bytes < static_cast<size_t>(stream->_cnt)
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| ? static_cast<unsigned>(remaining_bytes)
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| : static_cast<unsigned>(stream->_cnt);
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| if (bytes_to_read > remaining_buffer)
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| {
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| if (buffer_size != _CRT_UNBOUNDED_BUFFER_SIZE)
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| memset(buffer, _BUFFER_FILL_PATTERN, buffer_size);
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| _VALIDATE_RETURN(("buffer too small", 0), ERANGE, 0)
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| }
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| memcpy_s(data, remaining_buffer, stream->_ptr, bytes_to_read);
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| remaining_bytes -= bytes_to_read;
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| stream->_cnt -= bytes_to_read;
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| stream->_ptr += bytes_to_read;
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| data += bytes_to_read;
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| remaining_buffer -= bytes_to_read;
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| }
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| else if (remaining_bytes >= stream_buffer_size)
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| {
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| unsigned const maximum_bytes_to_read = remaining_bytes > INT_MAX
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| ? static_cast<unsigned>(INT_MAX)
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| : static_cast<unsigned>(remaining_bytes);
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| unsigned const bytes_to_read = stream_buffer_size != 0
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| ? static_cast<unsigned>(maximum_bytes_to_read - maximum_bytes_to_read % stream_buffer_size)
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| : maximum_bytes_to_read;
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| if (bytes_to_read > remaining_buffer)
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| {
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| if (buffer_size != _CRT_UNBOUNDED_BUFFER_SIZE)
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| memset(buffer, _BUFFER_FILL_PATTERN, buffer_size);
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| _VALIDATE_RETURN(("buffer too small", 0), ERANGE, 0)
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| }
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| __acrt_stdio_reset_buffer(stream);
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| int const bytes_read = _read_nolock(_fileno(stream.public_stream()), data, bytes_to_read);
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| if (bytes_read == 0)
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| {
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| stream.set_flags(_IOEOF);
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| return (total_bytes - remaining_bytes) / element_size;
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| }
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| else if (bytes_read < 0)
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| {
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| stream.set_flags(_IOERROR);
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| return (total_bytes - remaining_bytes) / element_size;
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| }
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| remaining_bytes -= bytes_read;
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| data += bytes_read;
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| remaining_buffer -= bytes_read;
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| }
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| else
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| {
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| int const c = __acrt_stdio_refill_and_read_narrow_nolock(stream.public_stream());
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| if (c == EOF)
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| return (total_bytes - remaining_bytes) / element_size;
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| if (remaining_buffer == 0)
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| {
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| if (buffer_size != _CRT_UNBOUNDED_BUFFER_SIZE)
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| memset(buffer, _BUFFER_FILL_PATTERN, buffer_size);
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| _VALIDATE_RETURN(("buffer too small", 0), ERANGE, 0)
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| }
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| *data++ = static_cast<char>(c);
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| --remaining_bytes;
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| --remaining_buffer;
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| stream_buffer_size = stream->_bufsiz;
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| }
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| }
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| return element_count;
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| }
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| extern "C" size_t __cdecl fread(
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| void* const buffer,
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| size_t const element_size,
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| size_t const element_count,
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| FILE* const stream
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| )
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| {
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| #pragma warning(suppress:__WARNING_POTENTIAL_BUFFER_OVERFLOW_HIGH_PRIORITY)
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| return fread_s(buffer, _CRT_UNBOUNDED_BUFFER_SIZE, element_size, element_count, stream);
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| }
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| extern "C" size_t __cdecl _fread_nolock(
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| void* const buffer,
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| size_t const element_size,
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| size_t const element_count,
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| FILE* const stream
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| )
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| {
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| #pragma warning(suppress:__WARNING_POTENTIAL_BUFFER_OVERFLOW_HIGH_PRIORITY)
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| return _fread_nolock_s(buffer, _CRT_UNBOUNDED_BUFFER_SIZE, element_size, element_count, stream);
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| }
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