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reactos/sdk/lib/ucrt/stdio/setvbuf.cpp

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//
// setvbuf.cpp
//
// Copyright (c) Microsoft Corporation. All rights reserved.
//
// Defines setvbuf(), which is used to set buffering mode for a stream.
//
#include <corecrt_internal_stdio.h>
#include <corecrt_internal_ptd_propagation.h>
// Helper for setvbuf() that sets various buffer properties and return zero.
static int __cdecl set_buffer(
__crt_stdio_stream const stream,
_In_reads_opt_(buffer_size_in_bytes) char* const buffer,
size_t const buffer_size_in_bytes,
int const new_flag_bits
) throw()
{
stream.set_flags(new_flag_bits);
stream->_bufsiz = static_cast<int>(buffer_size_in_bytes);
stream->_ptr = buffer;
stream->_base = buffer;
stream->_cnt = 0;
return 0;
}
// Controls buffering and buffer size for the specified stream. The array
// pointed to by 'buffer' is used as a buffer for the stream. If 'buffer' is
// null, the CRT allocates a buffer of the requested size. The 'type' specifies
// the type of buffering, which must be one of _IONBF (no buffering) or _IOLBF
// or _IOFBF (both of which mean full buffering).
//
// Returns zero on success; nonzero on failure.
static int __cdecl _setvbuf_internal(
FILE* const public_stream,
char* const buffer,
int const type,
size_t const buffer_size_in_bytes,
__crt_cached_ptd_host& ptd
)
{
__crt_stdio_stream const stream(public_stream);
_UCRT_VALIDATE_RETURN(ptd, stream.valid(), EINVAL, -1);
// Make sure 'type' is one of the three allowed values, and if we are
// buffering, make sure the size is between 2 and INT_MAX:
_UCRT_VALIDATE_RETURN(ptd, type == _IONBF || type == _IOFBF || type == _IOLBF, EINVAL, -1);
if (type == _IOFBF || type == _IOLBF)
{
_UCRT_VALIDATE_RETURN(ptd, 2 <= buffer_size_in_bytes && buffer_size_in_bytes <= INT_MAX, EINVAL, -1);
}
return __acrt_lock_stream_and_call(stream.public_stream(), [&]
{
// Force the buffer size to be even by masking the low order bit:
size_t const usable_buffer_size = buffer_size_in_bytes & ~static_cast<size_t>(1);
// Flush the current buffer and free it, if it is ours:
__acrt_stdio_flush_nolock(stream.public_stream(), ptd);
__acrt_stdio_free_buffer_nolock(stream.public_stream());
// Clear the stream state bits related to buffering. Most of these
// should never be set when setvbuf() is called, but it doesn't cost
// anything to be safe.
stream.unset_flags(_IOBUFFER_CRT | _IOBUFFER_USER | _IOBUFFER_NONE |
_IOBUFFER_SETVBUF | _IOBUFFER_STBUF | _IOCTRLZ);
// Case 1: No buffering:
if (type & _IONBF)
{
return set_buffer(stream, reinterpret_cast<char*>(&stream->_charbuf), 2, _IOBUFFER_NONE);
}
// Cases 2 and 3 (below) cover the _IOFBF and _IOLBF types of buffering.
// Line buffering is treated the same as full buffering, so the _IOLBF
// bit in the flag is never set. Finally, since _IOFBF is defined to
// be zero, full buffering is simply assumed whenever _IONBF is not set.
// Case 2: Default buffering, CRT-allocated buffer:
if (buffer == nullptr)
{
char* const crt_buffer = _calloc_crt_t(char, usable_buffer_size).detach();
if (!crt_buffer)
{
#ifndef CRTDLL
// Force library pre-termination procedure (this is placed here
// because the code path should almost never be hit):
++_cflush;
#endif
return -1;
}
return set_buffer(stream, crt_buffer, usable_buffer_size, _IOBUFFER_CRT | _IOBUFFER_SETVBUF);
}
// Case 3: Default buffering, user-provided buffer:
return set_buffer(stream, buffer, usable_buffer_size, _IOBUFFER_USER | _IOBUFFER_SETVBUF);
});
}
extern "C" int __cdecl setvbuf(
FILE* const public_stream,
char* const buffer,
int const type,
size_t const buffer_size_in_bytes
)
{
__crt_cached_ptd_host ptd;
return _setvbuf_internal(public_stream, buffer, type, buffer_size_in_bytes, ptd);
}
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