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|
/*
* Copyright (c) 1988-1997 Sam Leffler
* Copyright (c) 1991-1997 Silicon Graphics, Inc.
*
* Permission to use, copy, modify, distribute, and sell this software and
* its documentation for any purpose is hereby granted without fee, provided
* that (i) the above copyright notices and this permission notice appear in
* all copies of the software and related documentation, and (ii) the names of
* Sam Leffler and Silicon Graphics may not be used in any advertising or
* publicity relating to the software without the specific, prior written
* permission of Sam Leffler and Silicon Graphics.
*
* THE SOFTWARE IS PROVIDED "AS-IS" AND WITHOUT WARRANTY OF ANY KIND,
* EXPRESS, IMPLIED OR OTHERWISE, INCLUDING WITHOUT LIMITATION, ANY
* WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.
*
* IN NO EVENT SHALL SAM LEFFLER OR SILICON GRAPHICS BE LIABLE FOR
* ANY SPECIAL, INCIDENTAL, INDIRECT OR CONSEQUENTIAL DAMAGES OF ANY KIND,
* OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
* WHETHER OR NOT ADVISED OF THE POSSIBILITY OF DAMAGE, AND ON ANY THEORY OF
* LIABILITY, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE
* OF THIS SOFTWARE.
*/
/*
* TIFF Library.
* Scanline-oriented Read Support
*/
#include "tiffiop.h"
#include <stdio.h>
int TIFFFillStrip(TIFF *tif, uint32_t strip);
int TIFFFillTile(TIFF *tif, uint32_t tile);
static int TIFFStartStrip(TIFF *tif, uint32_t strip);
static int TIFFStartTile(TIFF *tif, uint32_t tile);
static int TIFFCheckRead(TIFF *, int);
static tmsize_t TIFFReadRawStrip1(TIFF *tif, uint32_t strip, void *buf,
tmsize_t size, const char *module);
static tmsize_t TIFFReadRawTile1(TIFF *tif, uint32_t tile, void *buf,
tmsize_t size, const char *module);
#define NOSTRIP ((uint32_t)(-1)) /* undefined state */
#define NOTILE ((uint32_t)(-1)) /* undefined state */
#define INITIAL_THRESHOLD (1024 * 1024)
#define THRESHOLD_MULTIPLIER 10
#define MAX_THRESHOLD \
(THRESHOLD_MULTIPLIER * THRESHOLD_MULTIPLIER * THRESHOLD_MULTIPLIER * \
INITIAL_THRESHOLD)
#define TIFF_INT64_MAX ((((int64_t)0x7FFFFFFF) << 32) | 0xFFFFFFFF)
/* Read 'size' bytes in tif_rawdata buffer starting at offset 'rawdata_offset'
* Returns 1 in case of success, 0 otherwise. */
static int TIFFReadAndRealloc(TIFF *tif, tmsize_t size, tmsize_t rawdata_offset,
int is_strip, uint32_t strip_or_tile,
const char *module)
{
#if SIZEOF_SIZE_T == 8
tmsize_t threshold = INITIAL_THRESHOLD;
#endif
tmsize_t already_read = 0;
#if SIZEOF_SIZE_T != 8
/* On 32 bit processes, if the request is large enough, check against */
/* file size */
if (size > 1000 * 1000 * 1000)
{
uint64_t filesize = TIFFGetFileSize(tif);
if ((uint64_t)size >= filesize)
{
TIFFErrorExtR(tif, module,
"Chunk size requested is larger than file size.");
return 0;
}
}
#endif
/* On 64 bit processes, read first a maximum of 1 MB, then 10 MB, etc */
/* so as to avoid allocating too much memory in case the file is too */
/* short. We could ask for the file size, but this might be */
/* expensive with some I/O layers (think of reading a gzipped file) */
/* Restrict to 64 bit processes, so as to avoid reallocs() */
/* on 32 bit processes where virtual memory is scarce. */
while (already_read < size)
{
tmsize_t bytes_read;
tmsize_t to_read = size - already_read;
#if SIZEOF_SIZE_T == 8
if (to_read >= threshold && threshold < MAX_THRESHOLD &&
already_read + to_read + rawdata_offset > tif->tif_rawdatasize)
{
to_read = threshold;
threshold *= THRESHOLD_MULTIPLIER;
}
#endif
if (already_read + to_read + rawdata_offset > tif->tif_rawdatasize)
{
uint8_t *new_rawdata;
assert((tif->tif_flags & TIFF_MYBUFFER) != 0);
tif->tif_rawdatasize = (tmsize_t)TIFFroundup_64(
(uint64_t)already_read + to_read + rawdata_offset, 1024);
if (tif->tif_rawdatasize == 0)
{
TIFFErrorExtR(tif, module, "Invalid buffer size");
return 0;
}
new_rawdata =
(uint8_t *)_TIFFrealloc(tif->tif_rawdata, tif->tif_rawdatasize);
if (new_rawdata == 0)
{
TIFFErrorExtR(tif, module,
"No space for data buffer at scanline %" PRIu32,
tif->tif_row);
_TIFFfreeExt(tif, tif->tif_rawdata);
tif->tif_rawdata = 0;
tif->tif_rawdatasize = 0;
return 0;
}
tif->tif_rawdata = new_rawdata;
}
if (tif->tif_rawdata == NULL)
{
/* should not happen in practice but helps CoverityScan */
return 0;
}
bytes_read = TIFFReadFile(
tif, tif->tif_rawdata + rawdata_offset + already_read, to_read);
already_read += bytes_read;
if (bytes_read != to_read)
{
memset(tif->tif_rawdata + rawdata_offset + already_read, 0,
tif->tif_rawdatasize - rawdata_offset - already_read);
if (is_strip)
{
TIFFErrorExtR(tif, module,
"Read error at scanline %" PRIu32
"; got %" TIFF_SSIZE_FORMAT " bytes, "
"expected %" TIFF_SSIZE_FORMAT,
tif->tif_row, already_read, size);
}
else
{
TIFFErrorExtR(tif, module,
"Read error at row %" PRIu32 ", col %" PRIu32
", tile %" PRIu32 "; "
"got %" TIFF_SSIZE_FORMAT
" bytes, expected %" TIFF_SSIZE_FORMAT "",
tif->tif_row, tif->tif_col, strip_or_tile,
already_read, size);
}
return 0;
}
}
return 1;
}
static int TIFFFillStripPartial(TIFF *tif, int strip, tmsize_t read_ahead,
int restart)
{
static const char module[] = "TIFFFillStripPartial";
register TIFFDirectory *td = &tif->tif_dir;
tmsize_t unused_data;
uint64_t read_offset;
tmsize_t to_read;
tmsize_t read_ahead_mod;
/* tmsize_t bytecountm; */
/*
* Expand raw data buffer, if needed, to hold data
* strip coming from file (perhaps should set upper
* bound on the size of a buffer we'll use?).
*/
/* bytecountm=(tmsize_t) TIFFGetStrileByteCount(tif, strip); */
/* Not completely sure where the * 2 comes from, but probably for */
/* an exponentional growth strategy of tif_rawdatasize */
if (read_ahead < TIFF_TMSIZE_T_MAX / 2)
read_ahead_mod = read_ahead * 2;
else
read_ahead_mod = read_ahead;
if (read_ahead_mod > tif->tif_rawdatasize)
{
assert(restart);
tif->tif_curstrip = NOSTRIP;
if ((tif->tif_flags & TIFF_MYBUFFER) == 0)
{
TIFFErrorExtR(tif, module,
"Data buffer too small to hold part of strip %d",
strip);
return (0);
}
}
if (restart)
{
tif->tif_rawdataloaded = 0;
tif->tif_rawdataoff = 0;
}
/*
** If we are reading more data, move any unused data to the
** start of the buffer.
*/
if (tif->tif_rawdataloaded > 0)
unused_data =
tif->tif_rawdataloaded - (tif->tif_rawcp - tif->tif_rawdata);
else
unused_data = 0;
if (unused_data > 0)
{
assert((tif->tif_flags & TIFF_BUFFERMMAP) == 0);
memmove(tif->tif_rawdata, tif->tif_rawcp, unused_data);
}
/*
** Seek to the point in the file where more data should be read.
*/
read_offset = TIFFGetStrileOffset(tif, strip) + tif->tif_rawdataoff +
tif->tif_rawdataloaded;
if (!SeekOK(tif, read_offset))
{
TIFFErrorExtR(tif, module,
"Seek error at scanline %" PRIu32 ", strip %d",
tif->tif_row, strip);
return 0;
}
/*
** How much do we want to read?
*/
if (read_ahead_mod > tif->tif_rawdatasize)
to_read = read_ahead_mod - unused_data;
else
to_read = tif->tif_rawdatasize - unused_data;
if ((uint64_t)to_read > TIFFGetStrileByteCount(tif, strip) -
tif->tif_rawdataoff - tif->tif_rawdataloaded)
{
to_read = (tmsize_t)TIFFGetStrileByteCount(tif, strip) -
tif->tif_rawdataoff - tif->tif_rawdataloaded;
}
assert((tif->tif_flags & TIFF_BUFFERMMAP) == 0);
if (!TIFFReadAndRealloc(tif, to_read, unused_data, 1, /* is_strip */
0, /* strip_or_tile */
module))
{
return 0;
}
tif->tif_rawdataoff =
tif->tif_rawdataoff + tif->tif_rawdataloaded - unused_data;
tif->tif_rawdataloaded = unused_data + to_read;
tif->tif_rawcc = tif->tif_rawdataloaded;
tif->tif_rawcp = tif->tif_rawdata;
if (!isFillOrder(tif, td->td_fillorder) &&
(tif->tif_flags & TIFF_NOBITREV) == 0)
{
assert((tif->tif_flags & TIFF_BUFFERMMAP) == 0);
TIFFReverseBits(tif->tif_rawdata + unused_data, to_read);
}
/*
** When starting a strip from the beginning we need to
** restart the decoder.
*/
if (restart)
{
#ifdef JPEG_SUPPORT
/* A bit messy since breaks the codec abstraction. Ultimately */
/* there should be a function pointer for that, but it seems */
/* only JPEG is affected. */
/* For JPEG, if there are multiple scans (can generally be known */
/* with the read_ahead used), we need to read the whole strip */
if (tif->tif_dir.td_compression == COMPRESSION_JPEG &&
(uint64_t)tif->tif_rawcc < TIFFGetStrileByteCount(tif, strip))
{
if (TIFFJPEGIsFullStripRequired(tif))
{
return TIFFFillStrip(tif, strip);
}
}
#endif
return TIFFStartStrip(tif, strip);
}
else
{
return 1;
}
}
/*
* Seek to a random row+sample in a file.
*
* Only used by TIFFReadScanline, and is only used on
* strip organized files. We do some tricky stuff to try
* and avoid reading the whole compressed raw data for big
* strips.
*/
static int TIFFSeek(TIFF *tif, uint32_t row, uint16_t sample)
{
register TIFFDirectory *td = &tif->tif_dir;
uint32_t strip;
int whole_strip;
tmsize_t read_ahead = 0;
/*
** Establish what strip we are working from.
*/
if (row >= td->td_imagelength)
{ /* out of range */
TIFFErrorExtR(tif, tif->tif_name,
"%" PRIu32 ": Row out of range, max %" PRIu32 "", row,
td->td_imagelength);
return (0);
}
if (td->td_planarconfig == PLANARCONFIG_SEPARATE)
{
if (sample >= td->td_samplesperpixel)
{
TIFFErrorExtR(tif, tif->tif_name,
"%" PRIu16 ": Sample out of range, max %" PRIu16 "",
sample, td->td_samplesperpixel);
return (0);
}
strip = (uint32_t)sample * td->td_stripsperimage +
row / td->td_rowsperstrip;
}
else
strip = row / td->td_rowsperstrip;
/*
* Do we want to treat this strip as one whole chunk or
* read it a few lines at a time?
*/
#if defined(CHUNKY_STRIP_READ_SUPPORT)
whole_strip = TIFFGetStrileByteCount(tif, strip) < 10 || isMapped(tif);
if (td->td_compression == COMPRESSION_LERC ||
td->td_compression == COMPRESSION_JBIG)
{
/* Ideally plugins should have a way to declare they don't support
* chunk strip */
whole_strip = 1;
}
#else
whole_strip = 1;
#endif
if (!whole_strip)
{
/* 16 is for YCbCr mode where we may need to read 16 */
/* lines at a time to get a decompressed line, and 5000 */
/* is some constant value, for example for JPEG tables */
if (tif->tif_scanlinesize < TIFF_TMSIZE_T_MAX / 16 &&
tif->tif_scanlinesize * 16 < TIFF_TMSIZE_T_MAX - 5000)
{
read_ahead = tif->tif_scanlinesize * 16 + 5000;
}
else
{
read_ahead = tif->tif_scanlinesize;
}
}
/*
* If we haven't loaded this strip, do so now, possibly
* only reading the first part.
*/
if (strip != tif->tif_curstrip)
{ /* different strip, refill */
if (whole_strip)
{
if (!TIFFFillStrip(tif, strip))
return (0);
}
else
{
if (!TIFFFillStripPartial(tif, strip, read_ahead, 1))
return 0;
}
}
/*
** If we already have some data loaded, do we need to read some more?
*/
else if (!whole_strip)
{
if (((tif->tif_rawdata + tif->tif_rawdataloaded) - tif->tif_rawcp) <
read_ahead &&
(uint64_t)tif->tif_rawdataoff + tif->tif_rawdataloaded <
TIFFGetStrileByteCount(tif, strip))
{
if (!TIFFFillStripPartial(tif, strip, read_ahead, 0))
return 0;
}
}
if (row < tif->tif_row)
{
/*
* Moving backwards within the same strip: backup
* to the start and then decode forward (below).
*
* NB: If you're planning on lots of random access within a
* strip, it's better to just read and decode the entire
* strip, and then access the decoded data in a random fashion.
*/
if (tif->tif_rawdataoff != 0)
{
if (!TIFFFillStripPartial(tif, strip, read_ahead, 1))
return 0;
}
else
{
if (!TIFFStartStrip(tif, strip))
return (0);
}
}
if (row != tif->tif_row)
{
/*
* Seek forward to the desired row.
*/
/* TODO: Will this really work with partial buffers? */
if (!(*tif->tif_seek)(tif, row - tif->tif_row))
return (0);
tif->tif_row = row;
}
return (1);
}
int TIFFReadScanline(TIFF *tif, void *buf, uint32_t row, uint16_t sample)
{
int e;
if (!TIFFCheckRead(tif, 0))
return (-1);
if ((e = TIFFSeek(tif, row, sample)) != 0)
{
/*
* Decompress desired row into user buffer.
*/
e = (*tif->tif_decoderow)(tif, (uint8_t *)buf, tif->tif_scanlinesize,
sample);
/* we are now poised at the beginning of the next row */
tif->tif_row = row + 1;
if (e)
(*tif->tif_postdecode)(tif, (uint8_t *)buf, tif->tif_scanlinesize);
}
return (e > 0 ? 1 : -1);
}
/*
* Calculate the strip size according to the number of
* rows in the strip (check for truncated last strip on any
* of the separations).
*/
static tmsize_t TIFFReadEncodedStripGetStripSize(TIFF *tif, uint32_t strip,
uint16_t *pplane)
{
static const char module[] = "TIFFReadEncodedStrip";
TIFFDirectory *td = &tif->tif_dir;
uint32_t rowsperstrip;
uint32_t stripsperplane;
uint32_t stripinplane;
uint32_t rows;
tmsize_t stripsize;
if (!TIFFCheckRead(tif, 0))
return ((tmsize_t)(-1));
if (strip >= td->td_nstrips)
{
TIFFErrorExtR(tif, module,
"%" PRIu32 ": Strip out of range, max %" PRIu32, strip,
td->td_nstrips);
return ((tmsize_t)(-1));
}
rowsperstrip = td->td_rowsperstrip;
if (rowsperstrip > td->td_imagelength)
rowsperstrip = td->td_imagelength;
stripsperplane =
TIFFhowmany_32_maxuint_compat(td->td_imagelength, rowsperstrip);
stripinplane = (strip % stripsperplane);
if (pplane)
*pplane = (uint16_t)(strip / stripsperplane);
rows = td->td_imagelength - stripinplane * rowsperstrip;
if (rows > rowsperstrip)
rows = rowsperstrip;
stripsize = TIFFVStripSize(tif, rows);
if (stripsize == 0)
return ((tmsize_t)(-1));
return stripsize;
}
/*
* Read a strip of data and decompress the specified
* amount into the user-supplied buffer.
*/
tmsize_t TIFFReadEncodedStrip(TIFF *tif, uint32_t strip, void *buf,
tmsize_t size)
{
static const char module[] = "TIFFReadEncodedStrip";
TIFFDirectory *td = &tif->tif_dir;
tmsize_t stripsize;
uint16_t plane;
stripsize = TIFFReadEncodedStripGetStripSize(tif, strip, &plane);
if (stripsize == ((tmsize_t)(-1)))
return ((tmsize_t)(-1));
/* shortcut to avoid an extra memcpy() */
if (td->td_compression == COMPRESSION_NONE && size != (tmsize_t)(-1) &&
size >= stripsize && !isMapped(tif) &&
((tif->tif_flags & TIFF_NOREADRAW) == 0))
{
if (TIFFReadRawStrip1(tif, strip, buf, stripsize, module) != stripsize)
return ((tmsize_t)(-1));
if (!isFillOrder(tif, td->td_fillorder) &&
(tif->tif_flags & TIFF_NOBITREV) == 0)
TIFFReverseBits(buf, stripsize);
(*tif->tif_postdecode)(tif, buf, stripsize);
return (stripsize);
}
if ((size != (tmsize_t)(-1)) && (size < stripsize))
stripsize = size;
if (!TIFFFillStrip(tif, strip))
return ((tmsize_t)(-1));
if ((*tif->tif_decodestrip)(tif, buf, stripsize, plane) <= 0)
return ((tmsize_t)(-1));
(*tif->tif_postdecode)(tif, buf, stripsize);
return (stripsize);
}
/* Variant of TIFFReadEncodedStrip() that does
* * if *buf == NULL, *buf = _TIFFmallocExt(tif, bufsizetoalloc) only after
* TIFFFillStrip() has succeeded. This avoid excessive memory allocation in case
* of truncated file.
* * calls regular TIFFReadEncodedStrip() if *buf != NULL
*/
tmsize_t _TIFFReadEncodedStripAndAllocBuffer(TIFF *tif, uint32_t strip,
void **buf,
tmsize_t bufsizetoalloc,
tmsize_t size_to_read)
{
tmsize_t this_stripsize;
uint16_t plane;
if (*buf != NULL)
{
return TIFFReadEncodedStrip(tif, strip, *buf, size_to_read);
}
this_stripsize = TIFFReadEncodedStripGetStripSize(tif, strip, &plane);
if (this_stripsize == ((tmsize_t)(-1)))
return ((tmsize_t)(-1));
if ((size_to_read != (tmsize_t)(-1)) && (size_to_read < this_stripsize))
this_stripsize = size_to_read;
if (!TIFFFillStrip(tif, strip))
return ((tmsize_t)(-1));
*buf = _TIFFmallocExt(tif, bufsizetoalloc);
if (*buf == NULL)
{
TIFFErrorExtR(tif, TIFFFileName(tif), "No space for strip buffer");
return ((tmsize_t)(-1));
}
_TIFFmemset(*buf, 0, bufsizetoalloc);
if ((*tif->tif_decodestrip)(tif, *buf, this_stripsize, plane) <= 0)
return ((tmsize_t)(-1));
(*tif->tif_postdecode)(tif, *buf, this_stripsize);
return (this_stripsize);
}
static tmsize_t TIFFReadRawStrip1(TIFF *tif, uint32_t strip, void *buf,
tmsize_t size, const char *module)
{
assert((tif->tif_flags & TIFF_NOREADRAW) == 0);
if (!isMapped(tif))
{
tmsize_t cc;
if (!SeekOK(tif, TIFFGetStrileOffset(tif, strip)))
{
TIFFErrorExtR(tif, module,
"Seek error at scanline %" PRIu32 ", strip %" PRIu32,
tif->tif_row, strip);
return ((tmsize_t)(-1));
}
cc = TIFFReadFile(tif, buf, size);
if (cc != size)
{
TIFFErrorExtR(tif, module,
"Read error at scanline %" PRIu32
"; got %" TIFF_SSIZE_FORMAT
" bytes, expected %" TIFF_SSIZE_FORMAT,
tif->tif_row, cc, size);
return ((tmsize_t)(-1));
}
}
else
{
tmsize_t ma = 0;
tmsize_t n;
if ((TIFFGetStrileOffset(tif, strip) > (uint64_t)TIFF_TMSIZE_T_MAX) ||
((ma = (tmsize_t)TIFFGetStrileOffset(tif, strip)) > tif->tif_size))
{
n = 0;
}
else if (ma > TIFF_TMSIZE_T_MAX - size)
{
n = 0;
}
else
{
tmsize_t mb = ma + size;
if (mb > tif->tif_size)
n = tif->tif_size - ma;
else
n = size;
}
if (n != size)
{
TIFFErrorExtR(tif, module,
"Read error at scanline %" PRIu32 ", strip %" PRIu32
"; got %" TIFF_SSIZE_FORMAT
" bytes, expected %" TIFF_SSIZE_FORMAT,
tif->tif_row, strip, n, size);
return ((tmsize_t)(-1));
}
_TIFFmemcpy(buf, tif->tif_base + ma, size);
}
return (size);
}
static tmsize_t TIFFReadRawStripOrTile2(TIFF *tif, uint32_t strip_or_tile,
int is_strip, tmsize_t size,
const char *module)
{
assert(!isMapped(tif));
assert((tif->tif_flags & TIFF_NOREADRAW) == 0);
if (!SeekOK(tif, TIFFGetStrileOffset(tif, strip_or_tile)))
{
if (is_strip)
{
TIFFErrorExtR(tif, module,
"Seek error at scanline %" PRIu32 ", strip %" PRIu32,
tif->tif_row, strip_or_tile);
}
else
{
TIFFErrorExtR(tif, module,
"Seek error at row %" PRIu32 ", col %" PRIu32
", tile %" PRIu32,
tif->tif_row, tif->tif_col, strip_or_tile);
}
return ((tmsize_t)(-1));
}
if (!TIFFReadAndRealloc(tif, size, 0, is_strip, strip_or_tile, module))
{
return ((tmsize_t)(-1));
}
return (size);
}
/*
* Read a strip of data from the file.
*/
tmsize_t TIFFReadRawStrip(TIFF *tif, uint32_t strip, void *buf, tmsize_t size)
{
static const char module[] = "TIFFReadRawStrip";
TIFFDirectory *td = &tif->tif_dir;
uint64_t bytecount64;
tmsize_t bytecountm;
if (!TIFFCheckRead(tif, 0))
return ((tmsize_t)(-1));
if (strip >= td->td_nstrips)
{
TIFFErrorExtR(tif, module,
"%" PRIu32 ": Strip out of range, max %" PRIu32, strip,
td->td_nstrips);
return ((tmsize_t)(-1));
}
if (tif->tif_flags & TIFF_NOREADRAW)
{
TIFFErrorExtR(tif, module,
"Compression scheme does not support access to raw "
"uncompressed data");
return ((tmsize_t)(-1));
}
bytecount64 = TIFFGetStrileByteCount(tif, strip);
if (size != (tmsize_t)(-1) && (uint64_t)size <= bytecount64)
bytecountm = size;
else
bytecountm = _TIFFCastUInt64ToSSize(tif, bytecount64, module);
if (bytecountm == 0)
{
return ((tmsize_t)(-1));
}
return (TIFFReadRawStrip1(tif, strip, buf, bytecountm, module));
}
TIFF_NOSANITIZE_UNSIGNED_INT_OVERFLOW
static uint64_t NoSanitizeSubUInt64(uint64_t a, uint64_t b) { return a - b; }
/*
* Read the specified strip and setup for decoding. The data buffer is
* expanded, as necessary, to hold the strip's data.
*/
int TIFFFillStrip(TIFF *tif, uint32_t strip)
{
static const char module[] = "TIFFFillStrip";
TIFFDirectory *td = &tif->tif_dir;
if ((tif->tif_flags & TIFF_NOREADRAW) == 0)
{
uint64_t bytecount = TIFFGetStrileByteCount(tif, strip);
if (bytecount == 0 || bytecount > (uint64_t)TIFF_INT64_MAX)
{
TIFFErrorExtR(tif, module,
"Invalid strip byte count %" PRIu64
", strip %" PRIu32,
bytecount, strip);
return (0);
}
/* To avoid excessive memory allocations: */
/* Byte count should normally not be larger than a number of */
/* times the uncompressed size plus some margin */
if (bytecount > 1024 * 1024)
{
/* 10 and 4096 are just values that could be adjusted. */
/* Hopefully they are safe enough for all codecs */
tmsize_t stripsize = TIFFStripSize(tif);
if (stripsize != 0 && (bytecount - 4096) / 10 > (uint64_t)stripsize)
{
uint64_t newbytecount = (uint64_t)stripsize * 10 + 4096;
TIFFErrorExtR(tif, module,
"Too large strip byte count %" PRIu64
", strip %" PRIu32 ". Limiting to %" PRIu64,
bytecount, strip, newbytecount);
bytecount = newbytecount;
}
}
if (isMapped(tif))
{
/*
* We must check for overflow, potentially causing
* an OOB read. Instead of simple
*
* TIFFGetStrileOffset(tif, strip)+bytecount > tif->tif_size
*
* comparison (which can overflow) we do the following
* two comparisons:
*/
if (bytecount > (uint64_t)tif->tif_size ||
TIFFGetStrileOffset(tif, strip) >
(uint64_t)tif->tif_size - bytecount)
{
/*
* This error message might seem strange, but
* it's what would happen if a read were done
* instead.
*/
TIFFErrorExtR(
tif, module,
"Read error on strip %" PRIu32 "; "
"got %" PRIu64 " bytes, expected %" PRIu64,
strip,
NoSanitizeSubUInt64(tif->tif_size,
TIFFGetStrileOffset(tif, strip)),
bytecount);
tif->tif_curstrip = NOSTRIP;
return (0);
}
}
if (isMapped(tif) && (isFillOrder(tif, td->td_fillorder) ||
(tif->tif_flags & TIFF_NOBITREV)))
{
/*
* The image is mapped into memory and we either don't
* need to flip bits or the compression routine is
* going to handle this operation itself. In this
* case, avoid copying the raw data and instead just
* reference the data from the memory mapped file
* image. This assumes that the decompression
* routines do not modify the contents of the raw data
* buffer (if they try to, the application will get a
* fault since the file is mapped read-only).
*/
if ((tif->tif_flags & TIFF_MYBUFFER) && tif->tif_rawdata)
{
_TIFFfreeExt(tif, tif->tif_rawdata);
tif->tif_rawdata = NULL;
tif->tif_rawdatasize = 0;
}
tif->tif_flags &= ~TIFF_MYBUFFER;
tif->tif_rawdatasize = (tmsize_t)bytecount;
tif->tif_rawdata =
tif->tif_base + (tmsize_t)TIFFGetStrileOffset(tif, strip);
tif->tif_rawdataoff = 0;
tif->tif_rawdataloaded = (tmsize_t)bytecount;
/*
* When we have tif_rawdata reference directly into the memory
* mapped file we need to be pretty careful about how we use the
* rawdata. It is not a general purpose working buffer as it
* normally otherwise is. So we keep track of this fact to avoid
* using it improperly.
*/
tif->tif_flags |= TIFF_BUFFERMMAP;
}
else
{
/*
* Expand raw data buffer, if needed, to hold data
* strip coming from file (perhaps should set upper
* bound on the size of a buffer we'll use?).
*/
tmsize_t bytecountm;
bytecountm = (tmsize_t)bytecount;
if ((uint64_t)bytecountm != bytecount)
{
TIFFErrorExtR(tif, module, "Integer overflow");
return (0);
}
if (bytecountm > tif->tif_rawdatasize)
{
tif->tif_curstrip = NOSTRIP;
if ((tif->tif_flags & TIFF_MYBUFFER) == 0)
{
TIFFErrorExtR(
tif, module,
"Data buffer too small to hold strip %" PRIu32, strip);
return (0);
}
}
if (tif->tif_flags & TIFF_BUFFERMMAP)
{
tif->tif_curstrip = NOSTRIP;
tif->tif_rawdata = NULL;
tif->tif_rawdatasize = 0;
tif->tif_flags &= ~TIFF_BUFFERMMAP;
}
if (isMapped(tif))
{
if (bytecountm > tif->tif_rawdatasize &&
!TIFFReadBufferSetup(tif, 0, bytecountm))
{
return (0);
}
if (TIFFReadRawStrip1(tif, strip, tif->tif_rawdata, bytecountm,
module) != bytecountm)
{
return (0);
}
}
else
{
if (TIFFReadRawStripOrTile2(tif, strip, 1, bytecountm,
module) != bytecountm)
{
return (0);
}
}
tif->tif_rawdataoff = 0;
tif->tif_rawdataloaded = bytecountm;
if (!isFillOrder(tif, td->td_fillorder) &&
(tif->tif_flags & TIFF_NOBITREV) == 0)
TIFFReverseBits(tif->tif_rawdata, bytecountm);
}
}
return (TIFFStartStrip(tif, strip));
}
/*
* Tile-oriented Read Support
* Contributed by Nancy Cam (Silicon Graphics).
*/
/*
* Read and decompress a tile of data. The
* tile is selected by the (x,y,z,s) coordinates.
*/
tmsize_t TIFFReadTile(TIFF *tif, void *buf, uint32_t x, uint32_t y, uint32_t z,
uint16_t s)
{
if (!TIFFCheckRead(tif, 1) || !TIFFCheckTile(tif, x, y, z, s))
return ((tmsize_t)(-1));
return (TIFFReadEncodedTile(tif, TIFFComputeTile(tif, x, y, z, s), buf,
(tmsize_t)(-1)));
}
/*
* Read a tile of data and decompress the specified
* amount into the user-supplied buffer.
*/
tmsize_t TIFFReadEncodedTile(TIFF *tif, uint32_t tile, void *buf, tmsize_t size)
{
static const char module[] = "TIFFReadEncodedTile";
TIFFDirectory *td = &tif->tif_dir;
tmsize_t tilesize = tif->tif_tilesize;
if (!TIFFCheckRead(tif, 1))
return ((tmsize_t)(-1));
if (tile >= td->td_nstrips)
{
TIFFErrorExtR(tif, module,
"%" PRIu32 ": Tile out of range, max %" PRIu32, tile,
td->td_nstrips);
return ((tmsize_t)(-1));
}
/* shortcut to avoid an extra memcpy() */
if (td->td_compression == COMPRESSION_NONE && size != (tmsize_t)(-1) &&
size >= tilesize && !isMapped(tif) &&
((tif->tif_flags & TIFF_NOREADRAW) == 0))
{
if (TIFFReadRawTile1(tif, tile, buf, tilesize, module) != tilesize)
return ((tmsize_t)(-1));
if (!isFillOrder(tif, td->td_fillorder) &&
(tif->tif_flags & TIFF_NOBITREV) == 0)
TIFFReverseBits(buf, tilesize);
(*tif->tif_postdecode)(tif, buf, tilesize);
return (tilesize);
}
if (size == (tmsize_t)(-1))
size = tilesize;
else if (size > tilesize)
size = tilesize;
if (TIFFFillTile(tif, tile) &&
(*tif->tif_decodetile)(tif, (uint8_t *)buf, size,
(uint16_t)(tile / td->td_stripsperimage)))
{
(*tif->tif_postdecode)(tif, (uint8_t *)buf, size);
return (size);
}
else
return ((tmsize_t)(-1));
}
/* Variant of TIFFReadTile() that does
* * if *buf == NULL, *buf = _TIFFmallocExt(tif, bufsizetoalloc) only after
* TIFFFillTile() has succeeded. This avoid excessive memory allocation in case
* of truncated file.
* * calls regular TIFFReadEncodedTile() if *buf != NULL
*/
tmsize_t _TIFFReadTileAndAllocBuffer(TIFF *tif, void **buf,
tmsize_t bufsizetoalloc, uint32_t x,
uint32_t y, uint32_t z, uint16_t s)
{
if (!TIFFCheckRead(tif, 1) || !TIFFCheckTile(tif, x, y, z, s))
return ((tmsize_t)(-1));
return (_TIFFReadEncodedTileAndAllocBuffer(
tif, TIFFComputeTile(tif, x, y, z, s), buf, bufsizetoalloc,
(tmsize_t)(-1)));
}
/* Variant of TIFFReadEncodedTile() that does
* * if *buf == NULL, *buf = _TIFFmallocExt(tif, bufsizetoalloc) only after
* TIFFFillTile() has succeeded. This avoid excessive memory allocation in case
* of truncated file.
* * calls regular TIFFReadEncodedTile() if *buf != NULL
*/
tmsize_t _TIFFReadEncodedTileAndAllocBuffer(TIFF *tif, uint32_t tile,
void **buf, tmsize_t bufsizetoalloc,
tmsize_t size_to_read)
{
static const char module[] = "_TIFFReadEncodedTileAndAllocBuffer";
TIFFDirectory *td = &tif->tif_dir;
tmsize_t tilesize = tif->tif_tilesize;
if (*buf != NULL)
{
return TIFFReadEncodedTile(tif, tile, *buf, size_to_read);
}
if (!TIFFCheckRead(tif, 1))
return ((tmsize_t)(-1));
if (tile >= td->td_nstrips)
{
TIFFErrorExtR(tif, module,
"%" PRIu32 ": Tile out of range, max %" PRIu32, tile,
td->td_nstrips);
return ((tmsize_t)(-1));
}
if (!TIFFFillTile(tif, tile))
return ((tmsize_t)(-1));
/* Sanity checks to avoid excessive memory allocation */
/* Cf https://gitlab.com/libtiff/libtiff/-/issues/479 */
if (td->td_compression == COMPRESSION_NONE)
{
if (tif->tif_rawdatasize != tilesize)
{
TIFFErrorExtR(tif, TIFFFileName(tif),
"Invalid tile byte count for tile %u. "
"Expected %" PRIu64 ", got %" PRIu64,
tile, (uint64_t)tilesize,
(uint64_t)tif->tif_rawdatasize);
return ((tmsize_t)(-1));
}
}
else
{
/* Max compression ratio experimentally determined. Might be fragile...
* Only apply this heuristics to situations where the memory allocation
* would be big, to avoid breaking nominal use cases.
*/
const int maxCompressionRatio =
td->td_compression == COMPRESSION_ZSTD ? 33000
: td->td_compression == COMPRESSION_JXL
?
/* Evaluated on a 8000x8000 tile */
25000 * (td->td_planarconfig == PLANARCONFIG_CONTIG
? td->td_samplesperpixel
: 1)
: td->td_compression == COMPRESSION_LZMA ? 7000 : 1000;
if (bufsizetoalloc > 100 * 1000 * 1000 &&
tif->tif_rawdatasize < tilesize / maxCompressionRatio)
{
TIFFErrorExtR(tif, TIFFFileName(tif),
"Likely invalid tile byte count for tile %u. "
"Uncompressed tile size is %" PRIu64 ", "
"compressed one is %" PRIu64,
tile, (uint64_t)tilesize,
(uint64_t)tif->tif_rawdatasize);
return ((tmsize_t)(-1));
}
}
*buf = _TIFFmallocExt(tif, bufsizetoalloc);
if (*buf == NULL)
{
TIFFErrorExtR(tif, TIFFFileName(tif), "No space for tile buffer");
return ((tmsize_t)(-1));
}
_TIFFmemset(*buf, 0, bufsizetoalloc);
if (size_to_read == (tmsize_t)(-1))
size_to_read = tilesize;
else if (size_to_read > tilesize)
size_to_read = tilesize;
if ((*tif->tif_decodetile)(tif, (uint8_t *)*buf, size_to_read,
(uint16_t)(tile / td->td_stripsperimage)))
{
(*tif->tif_postdecode)(tif, (uint8_t *)*buf, size_to_read);
return (size_to_read);
}
else
return ((tmsize_t)(-1));
}
static tmsize_t TIFFReadRawTile1(TIFF *tif, uint32_t tile, void *buf,
tmsize_t size, const char *module)
{
assert((tif->tif_flags & TIFF_NOREADRAW) == 0);
if (!isMapped(tif))
{
tmsize_t cc;
if (!SeekOK(tif, TIFFGetStrileOffset(tif, tile)))
{
TIFFErrorExtR(tif, module,
"Seek error at row %" PRIu32 ", col %" PRIu32
", tile %" PRIu32,
tif->tif_row, tif->tif_col, tile);
return ((tmsize_t)(-1));
}
cc = TIFFReadFile(tif, buf, size);
if (cc != size)
{
TIFFErrorExtR(tif, module,
"Read error at row %" PRIu32 ", col %" PRIu32
"; got %" TIFF_SSIZE_FORMAT
" bytes, expected %" TIFF_SSIZE_FORMAT,
tif->tif_row, tif->tif_col, cc, size);
return ((tmsize_t)(-1));
}
}
else
{
tmsize_t ma, mb;
tmsize_t n;
ma = (tmsize_t)TIFFGetStrileOffset(tif, tile);
mb = ma + size;
if ((TIFFGetStrileOffset(tif, tile) > (uint64_t)TIFF_TMSIZE_T_MAX) ||
(ma > tif->tif_size))
n = 0;
else if ((mb < ma) || (mb < size) || (mb > tif->tif_size))
n = tif->tif_size - ma;
else
n = size;
if (n != size)
{
TIFFErrorExtR(tif, module,
"Read error at row %" PRIu32 ", col %" PRIu32
", tile %" PRIu32 "; got %" TIFF_SSIZE_FORMAT
" bytes, expected %" TIFF_SSIZE_FORMAT,
tif->tif_row, tif->tif_col, tile, n, size);
return ((tmsize_t)(-1));
}
_TIFFmemcpy(buf, tif->tif_base + ma, size);
}
return (size);
}
/*
* Read a tile of data from the file.
*/
tmsize_t TIFFReadRawTile(TIFF *tif, uint32_t tile, void *buf, tmsize_t size)
{
static const char module[] = "TIFFReadRawTile";
TIFFDirectory *td = &tif->tif_dir;
uint64_t bytecount64;
tmsize_t bytecountm;
if (!TIFFCheckRead(tif, 1))
return ((tmsize_t)(-1));
if (tile >= td->td_nstrips)
{
TIFFErrorExtR(tif, module,
"%" PRIu32 ": Tile out of range, max %" PRIu32, tile,
td->td_nstrips);
return ((tmsize_t)(-1));
}
if (tif->tif_flags & TIFF_NOREADRAW)
{
TIFFErrorExtR(tif, module,
"Compression scheme does not support access to raw "
"uncompressed data");
return ((tmsize_t)(-1));
}
bytecount64 = TIFFGetStrileByteCount(tif, tile);
if (size != (tmsize_t)(-1) && (uint64_t)size <= bytecount64)
bytecountm = size;
else
bytecountm = _TIFFCastUInt64ToSSize(tif, bytecount64, module);
if (bytecountm == 0)
{
return ((tmsize_t)(-1));
}
return (TIFFReadRawTile1(tif, tile, buf, bytecountm, module));
}
/*
* Read the specified tile and setup for decoding. The data buffer is
* expanded, as necessary, to hold the tile's data.
*/
int TIFFFillTile(TIFF *tif, uint32_t tile)
{
static const char module[] = "TIFFFillTile";
TIFFDirectory *td = &tif->tif_dir;
if ((tif->tif_flags & TIFF_NOREADRAW) == 0)
{
uint64_t bytecount = TIFFGetStrileByteCount(tif, tile);
if (bytecount == 0 || bytecount > (uint64_t)TIFF_INT64_MAX)
{
TIFFErrorExtR(tif, module,
"%" PRIu64 ": Invalid tile byte count, tile %" PRIu32,
bytecount, tile);
return (0);
}
/* To avoid excessive memory allocations: */
/* Byte count should normally not be larger than a number of */
/* times the uncompressed size plus some margin */
if (bytecount > 1024 * 1024)
{
/* 10 and 4096 are just values that could be adjusted. */
/* Hopefully they are safe enough for all codecs */
tmsize_t stripsize = TIFFTileSize(tif);
if (stripsize != 0 && (bytecount - 4096) / 10 > (uint64_t)stripsize)
{
uint64_t newbytecount = (uint64_t)stripsize * 10 + 4096;
TIFFErrorExtR(tif, module,
"Too large tile byte count %" PRIu64
", tile %" PRIu32 ". Limiting to %" PRIu64,
bytecount, tile, newbytecount);
bytecount = newbytecount;
}
}
if (isMapped(tif))
{
/*
* We must check for overflow, potentially causing
* an OOB read. Instead of simple
*
* TIFFGetStrileOffset(tif, tile)+bytecount > tif->tif_size
*
* comparison (which can overflow) we do the following
* two comparisons:
*/
if (bytecount > (uint64_t)tif->tif_size ||
TIFFGetStrileOffset(tif, tile) >
(uint64_t)tif->tif_size - bytecount)
{
tif->tif_curtile = NOTILE;
return (0);
}
}
if (isMapped(tif) && (isFillOrder(tif, td->td_fillorder) ||
(tif->tif_flags & TIFF_NOBITREV)))
{
/*
* The image is mapped into memory and we either don't
* need to flip bits or the compression routine is
* going to handle this operation itself. In this
* case, avoid copying the raw data and instead just
* reference the data from the memory mapped file
* image. This assumes that the decompression
* routines do not modify the contents of the raw data
* buffer (if they try to, the application will get a
* fault since the file is mapped read-only).
*/
if ((tif->tif_flags & TIFF_MYBUFFER) && tif->tif_rawdata)
{
_TIFFfreeExt(tif, tif->tif_rawdata);
tif->tif_rawdata = NULL;
tif->tif_rawdatasize = 0;
}
tif->tif_flags &= ~TIFF_MYBUFFER;
tif->tif_rawdatasize = (tmsize_t)bytecount;
tif->tif_rawdata =
tif->tif_base + (tmsize_t)TIFFGetStrileOffset(tif, tile);
tif->tif_rawdataoff = 0;
tif->tif_rawdataloaded = (tmsize_t)bytecount;
tif->tif_flags |= TIFF_BUFFERMMAP;
}
else
{
/*
* Expand raw data buffer, if needed, to hold data
* tile coming from file (perhaps should set upper
* bound on the size of a buffer we'll use?).
*/
tmsize_t bytecountm;
bytecountm = (tmsize_t)bytecount;
if ((uint64_t)bytecountm != bytecount)
{
TIFFErrorExtR(tif, module, "Integer overflow");
return (0);
}
if (bytecountm > tif->tif_rawdatasize)
{
tif->tif_curtile = NOTILE;
if ((tif->tif_flags & TIFF_MYBUFFER) == 0)
{
TIFFErrorExtR(tif, module,
"Data buffer too small to hold tile %" PRIu32,
tile);
return (0);
}
}
if (tif->tif_flags & TIFF_BUFFERMMAP)
{
tif->tif_curtile = NOTILE;
tif->tif_rawdata = NULL;
tif->tif_rawdatasize = 0;
tif->tif_flags &= ~TIFF_BUFFERMMAP;
}
if (isMapped(tif))
{
if (bytecountm > tif->tif_rawdatasize &&
!TIFFReadBufferSetup(tif, 0, bytecountm))
{
return (0);
}
if (TIFFReadRawTile1(tif, tile, tif->tif_rawdata, bytecountm,
module) != bytecountm)
{
return (0);
}
}
else
{
if (TIFFReadRawStripOrTile2(tif, tile, 0, bytecountm, module) !=
bytecountm)
{
return (0);
}
}
tif->tif_rawdataoff = 0;
tif->tif_rawdataloaded = bytecountm;
if (tif->tif_rawdata != NULL &&
!isFillOrder(tif, td->td_fillorder) &&
(tif->tif_flags & TIFF_NOBITREV) == 0)
TIFFReverseBits(tif->tif_rawdata, tif->tif_rawdataloaded);
}
}
return (TIFFStartTile(tif, tile));
}
/*
* Setup the raw data buffer in preparation for
* reading a strip of raw data. If the buffer
* is specified as zero, then a buffer of appropriate
* size is allocated by the library. Otherwise,
* the client must guarantee that the buffer is
* large enough to hold any individual strip of
* raw data.
*/
int TIFFReadBufferSetup(TIFF *tif, void *bp, tmsize_t size)
{
static const char module[] = "TIFFReadBufferSetup";
assert((tif->tif_flags & TIFF_NOREADRAW) == 0);
tif->tif_flags &= ~TIFF_BUFFERMMAP;
if (tif->tif_rawdata)
{
if (tif->tif_flags & TIFF_MYBUFFER)
_TIFFfreeExt(tif, tif->tif_rawdata);
tif->tif_rawdata = NULL;
tif->tif_rawdatasize = 0;
}
if (bp)
{
tif->tif_rawdatasize = size;
tif->tif_rawdata = (uint8_t *)bp;
tif->tif_flags &= ~TIFF_MYBUFFER;
}
else
{
tif->tif_rawdatasize = (tmsize_t)TIFFroundup_64((uint64_t)size, 1024);
if (tif->tif_rawdatasize == 0)
{
TIFFErrorExtR(tif, module, "Invalid buffer size");
return (0);
}
/* Initialize to zero to avoid uninitialized buffers in case of */
/* short reads (http://bugzilla.maptools.org/show_bug.cgi?id=2651) */
tif->tif_rawdata =
(uint8_t *)_TIFFcallocExt(tif, 1, tif->tif_rawdatasize);
tif->tif_flags |= TIFF_MYBUFFER;
}
if (tif->tif_rawdata == NULL)
{
TIFFErrorExtR(tif, module,
"No space for data buffer at scanline %" PRIu32,
tif->tif_row);
tif->tif_rawdatasize = 0;
return (0);
}
return (1);
}
/*
* Set state to appear as if a
* strip has just been read in.
*/
static int TIFFStartStrip(TIFF *tif, uint32_t strip)
{
TIFFDirectory *td = &tif->tif_dir;
if ((tif->tif_flags & TIFF_CODERSETUP) == 0)
{
if (!(*tif->tif_setupdecode)(tif))
return (0);
tif->tif_flags |= TIFF_CODERSETUP;
}
tif->tif_curstrip = strip;
tif->tif_row = (strip % td->td_stripsperimage) * td->td_rowsperstrip;
tif->tif_flags &= ~TIFF_BUF4WRITE;
if (tif->tif_flags & TIFF_NOREADRAW)
{
tif->tif_rawcp = NULL;
tif->tif_rawcc = 0;
}
else
{
tif->tif_rawcp = tif->tif_rawdata;
if (tif->tif_rawdataloaded > 0)
tif->tif_rawcc = tif->tif_rawdataloaded;
else
tif->tif_rawcc = (tmsize_t)TIFFGetStrileByteCount(tif, strip);
}
if ((*tif->tif_predecode)(tif, (uint16_t)(strip / td->td_stripsperimage)) ==
0)
{
/* Needed for example for scanline access, if tif_predecode */
/* fails, and we try to read the same strip again. Without invalidating
*/
/* tif_curstrip, we'd call tif_decoderow() on a possibly invalid */
/* codec state. */
tif->tif_curstrip = NOSTRIP;
return 0;
}
return 1;
}
/*
* Set state to appear as if a
* tile has just been read in.
*/
static int TIFFStartTile(TIFF *tif, uint32_t tile)
{
static const char module[] = "TIFFStartTile";
TIFFDirectory *td = &tif->tif_dir;
uint32_t howmany32;
if ((tif->tif_flags & TIFF_CODERSETUP) == 0)
{
if (!(*tif->tif_setupdecode)(tif))
return (0);
tif->tif_flags |= TIFF_CODERSETUP;
}
tif->tif_curtile = tile;
howmany32 = TIFFhowmany_32(td->td_imagewidth, td->td_tilewidth);
if (howmany32 == 0)
{
TIFFErrorExtR(tif, module, "Zero tiles");
return 0;
}
tif->tif_row = (tile % howmany32) * td->td_tilelength;
howmany32 = TIFFhowmany_32(td->td_imagelength, td->td_tilelength);
if (howmany32 == 0)
{
TIFFErrorExtR(tif, module, "Zero tiles");
return 0;
}
tif->tif_col = (tile % howmany32) * td->td_tilewidth;
tif->tif_flags &= ~TIFF_BUF4WRITE;
if (tif->tif_flags & TIFF_NOREADRAW)
{
tif->tif_rawcp = NULL;
tif->tif_rawcc = 0;
}
else
{
tif->tif_rawcp = tif->tif_rawdata;
if (tif->tif_rawdataloaded > 0)
tif->tif_rawcc = tif->tif_rawdataloaded;
else
tif->tif_rawcc = (tmsize_t)TIFFGetStrileByteCount(tif, tile);
}
return (
(*tif->tif_predecode)(tif, (uint16_t)(tile / td->td_stripsperimage)));
}
static int TIFFCheckRead(TIFF *tif, int tiles)
{
if (tif->tif_mode == O_WRONLY)
{
TIFFErrorExtR(tif, tif->tif_name, "File not open for reading");
return (0);
}
if (tiles ^ isTiled(tif))
{
TIFFErrorExtR(tif, tif->tif_name,
tiles ? "Can not read tiles from a striped image"
: "Can not read scanlines from a tiled image");
return (0);
}
return (1);
}
/* Use the provided input buffer (inbuf, insize) and decompress it into
* (outbuf, outsize).
* This function replaces the use of
* TIFFReadEncodedStrip()/TIFFReadEncodedTile() when the user can provide the
* buffer for the input data, for example when he wants to avoid libtiff to read
* the strile offset/count values from the [Strip|Tile][Offsets/ByteCounts]
* array. inbuf content must be writable (if bit reversal is needed) Returns 1
* in case of success, 0 otherwise.
*/
int TIFFReadFromUserBuffer(TIFF *tif, uint32_t strile, void *inbuf,
tmsize_t insize, void *outbuf, tmsize_t outsize)
{
static const char module[] = "TIFFReadFromUserBuffer";
TIFFDirectory *td = &tif->tif_dir;
int ret = 1;
uint32_t old_tif_flags = tif->tif_flags;
tmsize_t old_rawdatasize = tif->tif_rawdatasize;
void *old_rawdata = tif->tif_rawdata;
if (tif->tif_mode == O_WRONLY)
{
TIFFErrorExtR(tif, tif->tif_name, "File not open for reading");
return 0;
}
if (tif->tif_flags & TIFF_NOREADRAW)
{
TIFFErrorExtR(tif, module,
"Compression scheme does not support access to raw "
"uncompressed data");
return 0;
}
tif->tif_flags &= ~TIFF_MYBUFFER;
tif->tif_flags |= TIFF_BUFFERMMAP;
tif->tif_rawdatasize = insize;
tif->tif_rawdata = inbuf;
tif->tif_rawdataoff = 0;
tif->tif_rawdataloaded = insize;
if (!isFillOrder(tif, td->td_fillorder) &&
(tif->tif_flags & TIFF_NOBITREV) == 0)
{
TIFFReverseBits(inbuf, insize);
}
if (TIFFIsTiled(tif))
{
if (!TIFFStartTile(tif, strile) ||
!(*tif->tif_decodetile)(tif, (uint8_t *)outbuf, outsize,
(uint16_t)(strile / td->td_stripsperimage)))
{
ret = 0;
}
}
else
{
uint32_t rowsperstrip = td->td_rowsperstrip;
uint32_t stripsperplane;
if (rowsperstrip > td->td_imagelength)
rowsperstrip = td->td_imagelength;
stripsperplane =
TIFFhowmany_32_maxuint_compat(td->td_imagelength, rowsperstrip);
if (!TIFFStartStrip(tif, strile) ||
!(*tif->tif_decodestrip)(tif, (uint8_t *)outbuf, outsize,
(uint16_t)(strile / stripsperplane)))
{
ret = 0;
}
}
if (ret)
{
(*tif->tif_postdecode)(tif, (uint8_t *)outbuf, outsize);
}
if (!isFillOrder(tif, td->td_fillorder) &&
(tif->tif_flags & TIFF_NOBITREV) == 0)
{
TIFFReverseBits(inbuf, insize);
}
tif->tif_flags = (old_tif_flags & (TIFF_MYBUFFER | TIFF_BUFFERMMAP)) |
(tif->tif_flags & ~(TIFF_MYBUFFER | TIFF_BUFFERMMAP));
tif->tif_rawdatasize = old_rawdatasize;
tif->tif_rawdata = old_rawdata;
tif->tif_rawdataoff = 0;
tif->tif_rawdataloaded = 0;
return ret;
}
void _TIFFNoPostDecode(TIFF *tif, uint8_t *buf, tmsize_t cc)
{
(void)tif;
(void)buf;
(void)cc;
}
void _TIFFSwab16BitData(TIFF *tif, uint8_t *buf, tmsize_t cc)
{
(void)tif;
assert((cc & 1) == 0);
TIFFSwabArrayOfShort((uint16_t *)buf, cc / 2);
}
void _TIFFSwab24BitData(TIFF *tif, uint8_t *buf, tmsize_t cc)
{
(void)tif;
assert((cc % 3) == 0);
TIFFSwabArrayOfTriples((uint8_t *)buf, cc / 3);
}
void _TIFFSwab32BitData(TIFF *tif, uint8_t *buf, tmsize_t cc)
{
(void)tif;
assert((cc & 3) == 0);
TIFFSwabArrayOfLong((uint32_t *)buf, cc / 4);
}
void _TIFFSwab64BitData(TIFF *tif, uint8_t *buf, tmsize_t cc)
{
(void)tif;
assert((cc & 7) == 0);
TIFFSwabArrayOfDouble((double *)buf, cc / 8);
}
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