libpng/pngrutil.c

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/* pngrutil.c - utilities to read a PNG file
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*
* Copyright (c) 2018 Cosmin Truta
* Copyright (c) 1998-2002,2004,2006-2018 Glenn Randers-Pehrson
* Copyright (c) 1996-1997 Andreas Dilger
* Copyright (c) 1995-1996 Guy Eric Schalnat, Group 42, Inc.
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*
* This code is released under the libpng license.
* For conditions of distribution and use, see the disclaimer
* and license in png.h
*
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* This file contains routines that are only called from within
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* libpng itself during the course of reading an image.
*/
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#include "pngpriv.h"
#ifdef PNG_READ_SUPPORTED
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png_uint_32 PNGAPI
png_get_uint_31(png_const_structrp png_ptr, png_const_bytep buf)
{
png_uint_32 uval = png_get_uint_32(buf);
if (uval > PNG_UINT_31_MAX)
png_error(png_ptr, "PNG unsigned integer out of range");
return (uval);
}
#if defined(PNG_READ_gAMA_SUPPORTED) || defined(PNG_READ_cHRM_SUPPORTED)
/* The following is a variation on the above for use with the fixed
* point values used for gAMA and cHRM. Instead of png_error it
* issues a warning and returns (-1) - an invalid value because both
* gAMA and cHRM use *unsigned* integers for fixed point values.
*/
#define PNG_FIXED_ERROR (-1)
static png_fixed_point /* PRIVATE */
png_get_fixed_point(png_structrp png_ptr, png_const_bytep buf)
{
png_uint_32 uval = png_get_uint_32(buf);
if (uval <= PNG_UINT_31_MAX)
return (png_fixed_point)uval; /* known to be in range */
/* The caller can turn off the warning by passing NULL. */
if (png_ptr != NULL)
png_warning(png_ptr, "PNG fixed point integer out of range");
return PNG_FIXED_ERROR;
}
#endif
#ifdef PNG_READ_INT_FUNCTIONS_SUPPORTED
/* NOTE: the read macros will obscure these definitions, so that if
* PNG_USE_READ_MACROS is set the library will not use them internally,
* but the APIs will still be available externally.
*
* The parentheses around "PNGAPI function_name" in the following three
* functions are necessary because they allow the macros to co-exist with
* these (unused but exported) functions.
*/
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/* Grab an unsigned 32-bit integer from a buffer in big-endian format. */
png_uint_32 (PNGAPI
png_get_uint_32)(png_const_bytep buf)
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{
png_uint_32 uval =
((png_uint_32)(*(buf )) << 24) +
((png_uint_32)(*(buf + 1)) << 16) +
((png_uint_32)(*(buf + 2)) << 8) +
((png_uint_32)(*(buf + 3)) ) ;
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return uval;
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}
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/* Grab a signed 32-bit integer from a buffer in big-endian format. The
* data is stored in the PNG file in two's complement format and there
* is no guarantee that a 'png_int_32' is exactly 32 bits, therefore
* the following code does a two's complement to native conversion.
*/
png_int_32 (PNGAPI
png_get_int_32)(png_const_bytep buf)
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{
png_uint_32 uval = png_get_uint_32(buf);
if ((uval & 0x80000000) == 0) /* non-negative */
return (png_int_32)uval;
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uval = (uval ^ 0xffffffff) + 1; /* 2's complement: -x = ~x+1 */
if ((uval & 0x80000000) == 0) /* no overflow */
return -(png_int_32)uval;
/* The following has to be safe; this function only gets called on PNG data
* and if we get here that data is invalid. 0 is the most safe value and
* if not then an attacker would surely just generate a PNG with 0 instead.
*/
return 0;
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}
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/* Grab an unsigned 16-bit integer from a buffer in big-endian format. */
png_uint_16 (PNGAPI
png_get_uint_16)(png_const_bytep buf)
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{
/* ANSI-C requires an int value to accommodate at least 16 bits so this
* works and allows the compiler not to worry about possible narrowing
* on 32-bit systems. (Pre-ANSI systems did not make integers smaller
* than 16 bits either.)
*/
unsigned int val =
((unsigned int)(*buf) << 8) +
((unsigned int)(*(buf + 1)));
return (png_uint_16)val;
}
#endif /* READ_INT_FUNCTIONS */
/* Read and check the PNG file signature */
void /* PRIVATE */
png_read_sig(png_structrp png_ptr, png_inforp info_ptr)
{
size_t num_checked, num_to_check;
/* Exit if the user application does not expect a signature. */
if (png_ptr->sig_bytes >= 8)
return;
num_checked = png_ptr->sig_bytes;
num_to_check = 8 - num_checked;
#ifdef PNG_IO_STATE_SUPPORTED
png_ptr->io_state = PNG_IO_READING | PNG_IO_SIGNATURE;
#endif
/* The signature must be serialized in a single I/O call. */
png_read_data(png_ptr, &(info_ptr->signature[num_checked]), num_to_check);
png_ptr->sig_bytes = 8;
if (png_sig_cmp(info_ptr->signature, num_checked, num_to_check) != 0)
{
if (num_checked < 4 &&
png_sig_cmp(info_ptr->signature, num_checked, num_to_check - 4))
png_error(png_ptr, "Not a PNG file");
else
png_error(png_ptr, "PNG file corrupted by ASCII conversion");
}
if (num_checked < 3)
png_ptr->mode |= PNG_HAVE_PNG_SIGNATURE;
}
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/* Read the chunk header (length + type name).
* Put the type name into png_ptr->chunk_name, and return the length.
*/
png_uint_32 /* PRIVATE */
png_read_chunk_header(png_structrp png_ptr)
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{
png_byte buf[8];
png_uint_32 length;
#ifdef PNG_IO_STATE_SUPPORTED
png_ptr->io_state = PNG_IO_READING | PNG_IO_CHUNK_HDR;
#endif
/* Read the length and the chunk name.
* This must be performed in a single I/O call.
*/
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png_read_data(png_ptr, buf, 8);
length = png_get_uint_31(png_ptr, buf);
/* Put the chunk name into png_ptr->chunk_name. */
png_ptr->chunk_name = PNG_CHUNK_FROM_STRING(buf+4);
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png_debug2(0, "Reading %lx chunk, length = %lu",
(unsigned long)png_ptr->chunk_name, (unsigned long)length);
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/* Reset the crc and run it over the chunk name. */
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png_reset_crc(png_ptr);
png_calculate_crc(png_ptr, buf + 4, 4);
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/* Check to see if chunk name is valid. */
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png_check_chunk_name(png_ptr, png_ptr->chunk_name);
/* Check for too-large chunk length */
png_check_chunk_length(png_ptr, length);
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#ifdef PNG_IO_STATE_SUPPORTED
png_ptr->io_state = PNG_IO_READING | PNG_IO_CHUNK_DATA;
#endif
return length;
}
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/* Read data, and (optionally) run it through the CRC. */
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void /* PRIVATE */
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png_crc_read(png_structrp png_ptr, png_bytep buf, png_uint_32 length)
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{
if (png_ptr == NULL)
return;
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png_read_data(png_ptr, buf, length);
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png_calculate_crc(png_ptr, buf, length);
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}
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/* Optionally skip data and then check the CRC. Depending on whether we
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* are reading an ancillary or critical chunk, and how the program has set
* things up, we may calculate the CRC on the data and print a message.
* Returns '1' if there was a CRC error, '0' otherwise.
*/
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int /* PRIVATE */
png_crc_finish(png_structrp png_ptr, png_uint_32 skip)
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{
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/* The size of the local buffer for inflate is a good guess as to a
* reasonable size to use for buffering reads from the application.
*/
while (skip > 0)
{
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png_uint_32 len;
png_byte tmpbuf[PNG_INFLATE_BUF_SIZE];
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len = (sizeof tmpbuf);
if (len > skip)
len = skip;
skip -= len;
png_crc_read(png_ptr, tmpbuf, len);
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}
if (png_crc_error(png_ptr) != 0)
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{
if (PNG_CHUNK_ANCILLARY(png_ptr->chunk_name) != 0 ?
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(png_ptr->flags & PNG_FLAG_CRC_ANCILLARY_NOWARN) == 0 :
(png_ptr->flags & PNG_FLAG_CRC_CRITICAL_USE) != 0)
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{
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png_chunk_warning(png_ptr, "CRC error");
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}
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else
png_chunk_error(png_ptr, "CRC error");
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return (1);
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}
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return (0);
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}
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/* Compare the CRC stored in the PNG file with that calculated by libpng from
* the data it has read thus far.
*/
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int /* PRIVATE */
png_crc_error(png_structrp png_ptr)
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{
png_byte crc_bytes[4];
png_uint_32 crc;
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int need_crc = 1;
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if (PNG_CHUNK_ANCILLARY(png_ptr->chunk_name) != 0)
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{
if ((png_ptr->flags & PNG_FLAG_CRC_ANCILLARY_MASK) ==
(PNG_FLAG_CRC_ANCILLARY_USE | PNG_FLAG_CRC_ANCILLARY_NOWARN))
need_crc = 0;
}
else /* critical */
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{
if ((png_ptr->flags & PNG_FLAG_CRC_CRITICAL_IGNORE) != 0)
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need_crc = 0;
}
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#ifdef PNG_IO_STATE_SUPPORTED
png_ptr->io_state = PNG_IO_READING | PNG_IO_CHUNK_CRC;
#endif
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/* The chunk CRC must be serialized in a single I/O call. */
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png_read_data(png_ptr, crc_bytes, 4);
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if (need_crc != 0)
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{
crc = png_get_uint_32(crc_bytes);
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return ((int)(crc != png_ptr->crc));
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}
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else
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return (0);
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}
#if defined(PNG_READ_iCCP_SUPPORTED) || defined(PNG_READ_iTXt_SUPPORTED) ||\
defined(PNG_READ_pCAL_SUPPORTED) || defined(PNG_READ_sCAL_SUPPORTED) ||\
defined(PNG_READ_sPLT_SUPPORTED) || defined(PNG_READ_tEXt_SUPPORTED) ||\
defined(PNG_READ_zTXt_SUPPORTED) || defined(PNG_SEQUENTIAL_READ_SUPPORTED)
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/* Manage the read buffer; this simply reallocates the buffer if it is not small
* enough (or if it is not allocated). The routine returns a pointer to the
* buffer; if an error occurs and 'warn' is set the routine returns NULL, else
* it will call png_error (via png_malloc) on failure. (warn == 2 means
* 'silent').
*/
static png_bytep
png_read_buffer(png_structrp png_ptr, png_alloc_size_t new_size, int warn)
{
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png_bytep buffer = png_ptr->read_buffer;
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if (buffer != NULL && new_size > png_ptr->read_buffer_size)
{
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png_ptr->read_buffer = NULL;
png_ptr->read_buffer = NULL;
png_ptr->read_buffer_size = 0;
png_free(png_ptr, buffer);
buffer = NULL;
}
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if (buffer == NULL)
{
buffer = png_voidcast(png_bytep, png_malloc_base(png_ptr, new_size));
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if (buffer != NULL)
{
memset(buffer, 0, new_size); /* just in case */
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png_ptr->read_buffer = buffer;
png_ptr->read_buffer_size = new_size;
}
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else if (warn < 2) /* else silent */
{
if (warn != 0)
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png_chunk_warning(png_ptr, "insufficient memory to read chunk");
else
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png_chunk_error(png_ptr, "insufficient memory to read chunk");
}
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}
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return buffer;
}
#endif /* READ_iCCP|iTXt|pCAL|sCAL|sPLT|tEXt|zTXt|SEQUENTIAL_READ */
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/* png_inflate_claim: claim the zstream for some nefarious purpose that involves
* decompression. Returns Z_OK on success, else a zlib error code. It checks
* the owner but, in final release builds, just issues a warning if some other
* chunk apparently owns the stream. Prior to release it does a png_error.
*/
static int
png_inflate_claim(png_structrp png_ptr, png_uint_32 owner)
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{
if (png_ptr->zowner != 0)
{
char msg[64];
PNG_STRING_FROM_CHUNK(msg, png_ptr->zowner);
/* So the message that results is "<chunk> using zstream"; this is an
* internal error, but is very useful for debugging. i18n requirements
* are minimal.
*/
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(void)png_safecat(msg, (sizeof msg), 4, " using zstream");
#if PNG_RELEASE_BUILD
png_chunk_warning(png_ptr, msg);
png_ptr->zowner = 0;
#else
png_chunk_error(png_ptr, msg);
#endif
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}
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/* Implementation note: unlike 'png_deflate_claim' this internal function
* does not take the size of the data as an argument. Some efficiency could
* be gained by using this when it is known *if* the zlib stream itself does
* not record the number; however, this is an illusion: the original writer
* of the PNG may have selected a lower window size, and we really must
* follow that because, for systems with with limited capabilities, we
* would otherwise reject the application's attempts to use a smaller window
* size (zlib doesn't have an interface to say "this or lower"!).
*
* inflateReset2 was added to zlib 1.2.4; before this the window could not be
* reset, therefore it is necessary to always allocate the maximum window
* size with earlier zlibs just in case later compressed chunks need it.
*/
{
int ret; /* zlib return code */
#if ZLIB_VERNUM >= 0x1240
int window_bits = 0;
# if defined(PNG_SET_OPTION_SUPPORTED) && defined(PNG_MAXIMUM_INFLATE_WINDOW)
if (((png_ptr->options >> PNG_MAXIMUM_INFLATE_WINDOW) & 3) ==
PNG_OPTION_ON)
{
window_bits = 15;
png_ptr->zstream_start = 0; /* fixed window size */
}
else
{
png_ptr->zstream_start = 1;
}
# endif
#endif /* ZLIB_VERNUM >= 0x1240 */
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/* Set this for safety, just in case the previous owner left pointers to
* memory allocations.
*/
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png_ptr->zstream.next_in = NULL;
png_ptr->zstream.avail_in = 0;
png_ptr->zstream.next_out = NULL;
png_ptr->zstream.avail_out = 0;
if ((png_ptr->flags & PNG_FLAG_ZSTREAM_INITIALIZED) != 0)
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{
#if ZLIB_VERNUM >= 0x1240
ret = inflateReset2(&png_ptr->zstream, window_bits);
#else
ret = inflateReset(&png_ptr->zstream);
#endif
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}
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else
{
#if ZLIB_VERNUM >= 0x1240
ret = inflateInit2(&png_ptr->zstream, window_bits);
#else
ret = inflateInit(&png_ptr->zstream);
#endif
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if (ret == Z_OK)
png_ptr->flags |= PNG_FLAG_ZSTREAM_INITIALIZED;
}
#if ZLIB_VERNUM >= 0x1290 && \
defined(PNG_SET_OPTION_SUPPORTED) && defined(PNG_IGNORE_ADLER32) && \
!(defined(MAC_OS_X_VERSION_MIN_REQUIRED) && MAC_OS_X_VERSION_MIN_REQUIRED < 101300)
if (((png_ptr->options >> PNG_IGNORE_ADLER32) & 3) == PNG_OPTION_ON)
/* Turn off validation of the ADLER32 checksum in IDAT chunks */
ret = inflateValidate(&png_ptr->zstream, 0);
#endif
if (ret == Z_OK)
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png_ptr->zowner = owner;
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else
png_zstream_error(png_ptr, ret);
return ret;
}
#ifdef window_bits
# undef window_bits
#endif
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}
#if ZLIB_VERNUM >= 0x1240
/* Handle the start of the inflate stream if we called inflateInit2(strm,0);
* in this case some zlib versions skip validation of the CINFO field and, in
* certain circumstances, libpng may end up displaying an invalid image, in
* contrast to implementations that call zlib in the normal way (e.g. libpng
* 1.5).
*/
int /* PRIVATE */
png_zlib_inflate(png_structrp png_ptr, int flush)
{
if (png_ptr->zstream_start && png_ptr->zstream.avail_in > 0)
{
if ((*png_ptr->zstream.next_in >> 4) > 7)
{
png_ptr->zstream.msg = "invalid window size (libpng)";
return Z_DATA_ERROR;
}
png_ptr->zstream_start = 0;
}
return inflate(&png_ptr->zstream, flush);
}
#endif /* Zlib >= 1.2.4 */
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#ifdef PNG_READ_COMPRESSED_TEXT_SUPPORTED
#if defined(PNG_READ_zTXt_SUPPORTED) || defined (PNG_READ_iTXt_SUPPORTED)
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/* png_inflate now returns zlib error codes including Z_OK and Z_STREAM_END to
* allow the caller to do multiple calls if required. If the 'finish' flag is
* set Z_FINISH will be passed to the final inflate() call and Z_STREAM_END must
* be returned or there has been a problem, otherwise Z_SYNC_FLUSH is used and
* Z_OK or Z_STREAM_END will be returned on success.
*
* The input and output sizes are updated to the actual amounts of data consumed
* or written, not the amount available (as in a z_stream). The data pointers
* are not changed, so the next input is (data+input_size) and the next
* available output is (output+output_size).
*/
static int
png_inflate(png_structrp png_ptr, png_uint_32 owner, int finish,
/* INPUT: */ png_const_bytep input, png_uint_32p input_size_ptr,
/* OUTPUT: */ png_bytep output, png_alloc_size_t *output_size_ptr)
{
if (png_ptr->zowner == owner) /* Else not claimed */
{
int ret;
png_alloc_size_t avail_out = *output_size_ptr;
png_uint_32 avail_in = *input_size_ptr;
/* zlib can't necessarily handle more than 65535 bytes at once (i.e. it
* can't even necessarily handle 65536 bytes) because the type uInt is
* "16 bits or more". Consequently it is necessary to chunk the input to
* zlib. This code uses ZLIB_IO_MAX, from pngpriv.h, as the maximum (the
* maximum value that can be stored in a uInt.) It is possible to set
* ZLIB_IO_MAX to a lower value in pngpriv.h and this may sometimes have
* a performance advantage, because it reduces the amount of data accessed
* at each step and that may give the OS more time to page it in.
*/
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png_ptr->zstream.next_in = PNGZ_INPUT_CAST(input);
/* avail_in and avail_out are set below from 'size' */
png_ptr->zstream.avail_in = 0;
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png_ptr->zstream.avail_out = 0;
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/* Read directly into the output if it is available (this is set to
* a local buffer below if output is NULL).
*/
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if (output != NULL)
png_ptr->zstream.next_out = output;
do
{
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uInt avail;
Byte local_buffer[PNG_INFLATE_BUF_SIZE];
/* zlib INPUT BUFFER */
/* The setting of 'avail_in' used to be outside the loop; by setting it
* inside it is possible to chunk the input to zlib and simply rely on
* zlib to advance the 'next_in' pointer. This allows arbitrary
* amounts of data to be passed through zlib at the unavoidable cost of
* requiring a window save (memcpy of up to 32768 output bytes)
* every ZLIB_IO_MAX input bytes.
*/
avail_in += png_ptr->zstream.avail_in; /* not consumed last time */
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avail = ZLIB_IO_MAX;
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if (avail_in < avail)
avail = (uInt)avail_in; /* safe: < than ZLIB_IO_MAX */
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avail_in -= avail;
png_ptr->zstream.avail_in = avail;
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/* zlib OUTPUT BUFFER */
avail_out += png_ptr->zstream.avail_out; /* not written last time */
avail = ZLIB_IO_MAX; /* maximum zlib can process */
if (output == NULL)
{
/* Reset the output buffer each time round if output is NULL and
* make available the full buffer, up to 'remaining_space'
*/
png_ptr->zstream.next_out = local_buffer;
if ((sizeof local_buffer) < avail)
avail = (sizeof local_buffer);
}
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if (avail_out < avail)
avail = (uInt)avail_out; /* safe: < ZLIB_IO_MAX */
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png_ptr->zstream.avail_out = avail;
avail_out -= avail;
/* zlib inflate call */
/* In fact 'avail_out' may be 0 at this point, that happens at the end
* of the read when the final LZ end code was not passed at the end of
* the previous chunk of input data. Tell zlib if we have reached the
* end of the output buffer.
*/
ret = PNG_INFLATE(png_ptr, avail_out > 0 ? Z_NO_FLUSH :
(finish ? Z_FINISH : Z_SYNC_FLUSH));
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} while (ret == Z_OK);
/* For safety kill the local buffer pointer now */
if (output == NULL)
png_ptr->zstream.next_out = NULL;
/* Claw back the 'size' and 'remaining_space' byte counts. */
avail_in += png_ptr->zstream.avail_in;
avail_out += png_ptr->zstream.avail_out;
/* Update the input and output sizes; the updated values are the amount
* consumed or written, effectively the inverse of what zlib uses.
*/
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if (avail_out > 0)
*output_size_ptr -= avail_out;
if (avail_in > 0)
*input_size_ptr -= avail_in;
/* Ensure png_ptr->zstream.msg is set (even in the success case!) */
png_zstream_error(png_ptr, ret);
return ret;
}
else
{
/* This is a bad internal error. The recovery assigns to the zstream msg
* pointer, which is not owned by the caller, but this is safe; it's only
* used on errors!
*/
png_ptr->zstream.msg = PNGZ_MSG_CAST("zstream unclaimed");
return Z_STREAM_ERROR;
}
}
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/*
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* Decompress trailing data in a chunk. The assumption is that read_buffer
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* points at an allocated area holding the contents of a chunk with a
* trailing compressed part. What we get back is an allocated area
* holding the original prefix part and an uncompressed version of the
* trailing part (the malloc area passed in is freed).
*/
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static int
png_decompress_chunk(png_structrp png_ptr,
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png_uint_32 chunklength, png_uint_32 prefix_size,
png_alloc_size_t *newlength /* must be initialized to the maximum! */,
int terminate /*add a '\0' to the end of the uncompressed data*/)
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{
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/* TODO: implement different limits for different types of chunk.
*
* The caller supplies *newlength set to the maximum length of the
* uncompressed data, but this routine allocates space for the prefix and
* maybe a '\0' terminator too. We have to assume that 'prefix_size' is
* limited only by the maximum chunk size.
*/
png_alloc_size_t limit = PNG_SIZE_MAX;
# ifdef PNG_SET_USER_LIMITS_SUPPORTED
if (png_ptr->user_chunk_malloc_max > 0 &&
png_ptr->user_chunk_malloc_max < limit)
limit = png_ptr->user_chunk_malloc_max;
# elif PNG_USER_CHUNK_MALLOC_MAX > 0
if (PNG_USER_CHUNK_MALLOC_MAX < limit)
limit = PNG_USER_CHUNK_MALLOC_MAX;
# endif
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if (limit >= prefix_size + (terminate != 0))
{
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int ret;
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limit -= prefix_size + (terminate != 0);
if (limit < *newlength)
*newlength = limit;
/* Now try to claim the stream. */
ret = png_inflate_claim(png_ptr, png_ptr->chunk_name);
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if (ret == Z_OK)
{
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png_uint_32 lzsize = chunklength - prefix_size;
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ret = png_inflate(png_ptr, png_ptr->chunk_name, 1/*finish*/,
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/* input: */ png_ptr->read_buffer + prefix_size, &lzsize,
/* output: */ NULL, newlength);
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if (ret == Z_STREAM_END)
{
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/* Use 'inflateReset' here, not 'inflateReset2' because this
* preserves the previously decided window size (otherwise it would
* be necessary to store the previous window size.) In practice
* this doesn't matter anyway, because png_inflate will call inflate
* with Z_FINISH in almost all cases, so the window will not be
* maintained.
*/
if (inflateReset(&png_ptr->zstream) == Z_OK)
{
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/* Because of the limit checks above we know that the new,
* expanded, size will fit in a size_t (let alone an
* png_alloc_size_t). Use png_malloc_base here to avoid an
* extra OOM message.
*/
png_alloc_size_t new_size = *newlength;
png_alloc_size_t buffer_size = prefix_size + new_size +
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(terminate != 0);
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png_bytep text = png_voidcast(png_bytep, png_malloc_base(png_ptr,
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buffer_size));
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if (text != NULL)
{
memset(text, 0, buffer_size);
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ret = png_inflate(png_ptr, png_ptr->chunk_name, 1/*finish*/,
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png_ptr->read_buffer + prefix_size, &lzsize,
text + prefix_size, newlength);
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if (ret == Z_STREAM_END)
{
if (new_size == *newlength)
{
if (terminate != 0)
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text[prefix_size + *newlength] = 0;
if (prefix_size > 0)
memcpy(text, png_ptr->read_buffer, prefix_size);
{
png_bytep old_ptr = png_ptr->read_buffer;
png_ptr->read_buffer = text;
png_ptr->read_buffer_size = buffer_size;
text = old_ptr; /* freed below */
}
}
else
{
/* The size changed on the second read, there can be no
* guarantee that anything is correct at this point.
* The 'msg' pointer has been set to "unexpected end of
* LZ stream", which is fine, but return an error code
* that the caller won't accept.
*/
ret = PNG_UNEXPECTED_ZLIB_RETURN;
}
}
else if (ret == Z_OK)
ret = PNG_UNEXPECTED_ZLIB_RETURN; /* for safety */
/* Free the text pointer (this is the old read_buffer on
* success)
*/
png_free(png_ptr, text);
/* This really is very benign, but it's still an error because
* the extra space may otherwise be used as a Trojan Horse.
*/
if (ret == Z_STREAM_END &&
chunklength - prefix_size != lzsize)
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png_chunk_benign_error(png_ptr, "extra compressed data");
}
else
{
/* Out of memory allocating the buffer */
ret = Z_MEM_ERROR;
png_zstream_error(png_ptr, Z_MEM_ERROR);
}
}
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else
{
/* inflateReset failed, store the error message */
png_zstream_error(png_ptr, ret);
ret = PNG_UNEXPECTED_ZLIB_RETURN;
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}
}
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else if (ret == Z_OK)
ret = PNG_UNEXPECTED_ZLIB_RETURN;
/* Release the claimed stream */
png_ptr->zowner = 0;
}
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else /* the claim failed */ if (ret == Z_STREAM_END) /* impossible! */
ret = PNG_UNEXPECTED_ZLIB_RETURN;
return ret;
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}
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else
{
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/* Application/configuration limits exceeded */
png_zstream_error(png_ptr, Z_MEM_ERROR);
return Z_MEM_ERROR;
}
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}
#endif /* READ_zTXt || READ_iTXt */
#endif /* READ_COMPRESSED_TEXT */
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#ifdef PNG_READ_iCCP_SUPPORTED
/* Perform a partial read and decompress, producing 'avail_out' bytes and
* reading from the current chunk as required.
*/
static int
png_inflate_read(png_structrp png_ptr, png_bytep read_buffer, uInt read_size,
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png_uint_32p chunk_bytes, png_bytep next_out, png_alloc_size_t *out_size,
int finish)
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{
if (png_ptr->zowner == png_ptr->chunk_name)
{
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int ret;
/* next_in and avail_in must have been initialized by the caller. */
png_ptr->zstream.next_out = next_out;
png_ptr->zstream.avail_out = 0; /* set in the loop */
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do
{
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if (png_ptr->zstream.avail_in == 0)
{
if (read_size > *chunk_bytes)
read_size = (uInt)*chunk_bytes;
*chunk_bytes -= read_size;
if (read_size > 0)
png_crc_read(png_ptr, read_buffer, read_size);
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png_ptr->zstream.next_in = read_buffer;
png_ptr->zstream.avail_in = read_size;
}
if (png_ptr->zstream.avail_out == 0)
{
uInt avail = ZLIB_IO_MAX;
if (avail > *out_size)
avail = (uInt)*out_size;
*out_size -= avail;
png_ptr->zstream.avail_out = avail;
}
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/* Use Z_SYNC_FLUSH when there is no more chunk data to ensure that all
* the available output is produced; this allows reading of truncated
* streams.
*/
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ret = PNG_INFLATE(png_ptr, *chunk_bytes > 0 ?
Z_NO_FLUSH : (finish ? Z_FINISH : Z_SYNC_FLUSH));
}
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while (ret == Z_OK && (*out_size > 0 || png_ptr->zstream.avail_out > 0));
*out_size += png_ptr->zstream.avail_out;
png_ptr->zstream.avail_out = 0; /* Should not be required, but is safe */
/* Ensure the error message pointer is always set: */
png_zstream_error(png_ptr, ret);
return ret;
}
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else
{
png_ptr->zstream.msg = PNGZ_MSG_CAST("zstream unclaimed");
return Z_STREAM_ERROR;
}
}
#endif /* READ_iCCP */
/* Read and check the IDHR chunk */
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void /* PRIVATE */
png_handle_IHDR(png_structrp png_ptr, png_inforp info_ptr, png_uint_32 length)
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{
png_byte buf[13];
png_uint_32 width, height;
int bit_depth, color_type, compression_type, filter_type;
int interlace_type;
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png_debug(1, "in png_handle_IHDR");
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if ((png_ptr->mode & PNG_HAVE_IHDR) != 0)
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png_chunk_error(png_ptr, "out of place");
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/* Check the length */
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if (length != 13)
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png_chunk_error(png_ptr, "invalid");
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png_ptr->mode |= PNG_HAVE_IHDR;
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png_crc_read(png_ptr, buf, 13);
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png_crc_finish(png_ptr, 0);
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2004-07-28 09:20:44 -04:00
width = png_get_uint_31(png_ptr, buf);
height = png_get_uint_31(png_ptr, buf + 4);
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bit_depth = buf[8];
color_type = buf[9];
compression_type = buf[10];
filter_type = buf[11];
interlace_type = buf[12];
/* Set internal variables */
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png_ptr->width = width;
png_ptr->height = height;
png_ptr->bit_depth = (png_byte)bit_depth;
png_ptr->interlaced = (png_byte)interlace_type;
png_ptr->color_type = (png_byte)color_type;
#ifdef PNG_MNG_FEATURES_SUPPORTED
png_ptr->filter_type = (png_byte)filter_type;
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#endif
png_ptr->compression_type = (png_byte)compression_type;
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/* Find number of channels */
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switch (png_ptr->color_type)
{
default: /* invalid, png_set_IHDR calls png_error */
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case PNG_COLOR_TYPE_GRAY:
case PNG_COLOR_TYPE_PALETTE:
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png_ptr->channels = 1;
break;
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case PNG_COLOR_TYPE_RGB:
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png_ptr->channels = 3;
break;
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case PNG_COLOR_TYPE_GRAY_ALPHA:
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png_ptr->channels = 2;
break;
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case PNG_COLOR_TYPE_RGB_ALPHA:
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png_ptr->channels = 4;
break;
}
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/* Set up other useful info */
png_ptr->pixel_depth = (png_byte)(png_ptr->bit_depth * png_ptr->channels);
png_ptr->rowbytes = PNG_ROWBYTES(png_ptr->pixel_depth, png_ptr->width);
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png_debug1(3, "bit_depth = %d", png_ptr->bit_depth);
png_debug1(3, "channels = %d", png_ptr->channels);
png_debug1(3, "rowbytes = %lu", (unsigned long)png_ptr->rowbytes);
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png_set_IHDR(png_ptr, info_ptr, width, height, bit_depth,
color_type, interlace_type, compression_type, filter_type);
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}
/* Read and check the palette */
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void /* PRIVATE */
png_handle_PLTE(png_structrp png_ptr, png_inforp info_ptr, png_uint_32 length)
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{
png_color palette[PNG_MAX_PALETTE_LENGTH];
int max_palette_length, num, i;
#ifdef PNG_POINTER_INDEXING_SUPPORTED
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png_colorp pal_ptr;
#endif
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2008-08-05 08:44:42 -04:00
png_debug(1, "in png_handle_PLTE");
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if ((png_ptr->mode & PNG_HAVE_IHDR) == 0)
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png_chunk_error(png_ptr, "missing IHDR");
/* Moved to before the 'after IDAT' check below because otherwise duplicate
* PLTE chunks are potentially ignored (the spec says there shall not be more
* than one PLTE, the error is not treated as benign, so this check trumps
* the requirement that PLTE appears before IDAT.)
*/
else if ((png_ptr->mode & PNG_HAVE_PLTE) != 0)
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png_chunk_error(png_ptr, "duplicate");
else if ((png_ptr->mode & PNG_HAVE_IDAT) != 0)
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{
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/* This is benign because the non-benign error happened before, when an
* IDAT was encountered in a color-mapped image with no PLTE.
*/
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png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "out of place");
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return;
}
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png_ptr->mode |= PNG_HAVE_PLTE;
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if ((png_ptr->color_type & PNG_COLOR_MASK_COLOR) == 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "ignored in grayscale PNG");
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return;
}
#ifndef PNG_READ_OPT_PLTE_SUPPORTED
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if (png_ptr->color_type != PNG_COLOR_TYPE_PALETTE)
{
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png_crc_finish(png_ptr, length);
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return;
}
#endif
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if (length > 3*PNG_MAX_PALETTE_LENGTH || length % 3)
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{
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png_crc_finish(png_ptr, length);
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if (png_ptr->color_type != PNG_COLOR_TYPE_PALETTE)
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png_chunk_benign_error(png_ptr, "invalid");
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else
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png_chunk_error(png_ptr, "invalid");
return;
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}
1995-07-20 03:43:20 -04:00
2013-03-02 15:58:22 -05:00
/* The cast is safe because 'length' is less than 3*PNG_MAX_PALETTE_LENGTH */
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num = (int)length / 3;
2000-04-09 20:06:13 -04:00
/* If the palette has 256 or fewer entries but is too large for the bit
* depth, we don't issue an error, to preserve the behavior of previous
* libpng versions. We silently truncate the unused extra palette entries
* here.
*/
if (png_ptr->color_type == PNG_COLOR_TYPE_PALETTE)
max_palette_length = (1 << png_ptr->bit_depth);
else
max_palette_length = PNG_MAX_PALETTE_LENGTH;
if (num > max_palette_length)
num = max_palette_length;
#ifdef PNG_POINTER_INDEXING_SUPPORTED
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for (i = 0, pal_ptr = palette; i < num; i++, pal_ptr++)
{
png_byte buf[3];
png_crc_read(png_ptr, buf, 3);
pal_ptr->red = buf[0];
pal_ptr->green = buf[1];
pal_ptr->blue = buf[2];
}
#else
1996-01-26 02:38:47 -05:00
for (i = 0; i < num; i++)
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{
png_byte buf[3];
png_crc_read(png_ptr, buf, 3);
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/* Don't depend upon png_color being any order */
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palette[i].red = buf[0];
palette[i].green = buf[1];
palette[i].blue = buf[2];
}
2000-06-04 15:29:29 -04:00
#endif
1997-01-17 02:34:35 -05:00
/* If we actually need the PLTE chunk (ie for a paletted image), we do
* whatever the normal CRC configuration tells us. However, if we
* have an RGB image, the PLTE can be considered ancillary, so
* we will act as though it is.
*/
#ifndef PNG_READ_OPT_PLTE_SUPPORTED
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if (png_ptr->color_type == PNG_COLOR_TYPE_PALETTE)
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#endif
1997-01-17 02:34:35 -05:00
{
png_crc_finish(png_ptr, (png_uint_32) (length - (unsigned int)num * 3));
1997-01-17 02:34:35 -05:00
}
#ifndef PNG_READ_OPT_PLTE_SUPPORTED
else if (png_crc_error(png_ptr) != 0) /* Only if we have a CRC error */
1997-01-17 02:34:35 -05:00
{
/* If we don't want to use the data from an ancillary chunk,
* we have two options: an error abort, or a warning and we
* ignore the data in this chunk (which should be OK, since
* it's considered ancillary for a RGB or RGBA image).
2013-03-02 15:58:22 -05:00
*
* IMPLEMENTATION NOTE: this is only here because png_crc_finish uses the
* chunk type to determine whether to check the ancillary or the critical
* flags.
*/
if ((png_ptr->flags & PNG_FLAG_CRC_ANCILLARY_USE) == 0)
1997-01-17 02:34:35 -05:00
{
if ((png_ptr->flags & PNG_FLAG_CRC_ANCILLARY_NOWARN) != 0)
return;
1997-01-17 02:34:35 -05:00
else
png_chunk_error(png_ptr, "CRC error");
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}
1997-05-16 03:46:07 -04:00
/* Otherwise, we (optionally) emit a warning and use the chunk. */
else if ((png_ptr->flags & PNG_FLAG_CRC_ANCILLARY_NOWARN) == 0)
1998-01-03 23:40:55 -05:00
png_chunk_warning(png_ptr, "CRC error");
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}
1998-01-30 22:45:12 -05:00
#endif
2000-04-09 20:06:13 -04:00
2013-03-02 15:58:22 -05:00
/* TODO: png_set_PLTE has the side effect of setting png_ptr->palette to its
* own copy of the palette. This has the side effect that when png_start_row
* is called (this happens after any call to png_read_update_info) the
* info_ptr palette gets changed. This is extremely unexpected and
* confusing.
*
* Fix this by not sharing the palette in this way.
*/
1997-05-16 03:46:07 -04:00
png_set_PLTE(png_ptr, info_ptr, palette, num);
1998-04-21 16:03:57 -04:00
2013-03-02 15:58:22 -05:00
/* The three chunks, bKGD, hIST and tRNS *must* appear after PLTE and before
* IDAT. Prior to 1.6.0 this was not checked; instead the code merely
* checked the apparent validity of a tRNS chunk inserted before PLTE on a
* palette PNG. 1.6.0 attempts to rigorously follow the standard and
* therefore does a benign error if the erroneous condition is detected *and*
* cancels the tRNS if the benign error returns. The alternative is to
* amend the standard since it would be rather hypocritical of the standards
* maintainers to ignore it.
*/
#ifdef PNG_READ_tRNS_SUPPORTED
2013-03-02 15:58:22 -05:00
if (png_ptr->num_trans > 0 ||
(info_ptr != NULL && (info_ptr->valid & PNG_INFO_tRNS) != 0))
1998-04-21 16:03:57 -04:00
{
2013-03-02 15:58:22 -05:00
/* Cancel this because otherwise it would be used if the transforms
* require it. Don't cancel the 'valid' flag because this would prevent
* detection of duplicate chunks.
*/
png_ptr->num_trans = 0;
2013-03-02 15:58:22 -05:00
if (info_ptr != NULL)
info_ptr->num_trans = 0;
png_chunk_benign_error(png_ptr, "tRNS must be after");
1998-04-21 16:03:57 -04:00
}
#endif
2013-03-02 15:58:22 -05:00
#ifdef PNG_READ_hIST_SUPPORTED
if (info_ptr != NULL && (info_ptr->valid & PNG_INFO_hIST) != 0)
png_chunk_benign_error(png_ptr, "hIST must be after");
#endif
#ifdef PNG_READ_bKGD_SUPPORTED
if (info_ptr != NULL && (info_ptr->valid & PNG_INFO_bKGD) != 0)
png_chunk_benign_error(png_ptr, "bKGD must be after");
#endif
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}
1996-06-05 16:50:50 -04:00
2000-05-06 15:09:57 -04:00
void /* PRIVATE */
png_handle_IEND(png_structrp png_ptr, png_inforp info_ptr, png_uint_32 length)
1997-01-17 02:34:35 -05:00
{
2008-08-05 08:44:42 -04:00
png_debug(1, "in png_handle_IEND");
1997-05-16 03:46:07 -04:00
if ((png_ptr->mode & PNG_HAVE_IHDR) == 0 ||
(png_ptr->mode & PNG_HAVE_IDAT) == 0)
2013-03-02 15:58:22 -05:00
png_chunk_error(png_ptr, "out of place");
1997-01-17 02:34:35 -05:00
2000-02-05 00:40:16 -05:00
png_ptr->mode |= (PNG_AFTER_IDAT | PNG_HAVE_IEND);
1997-01-17 02:34:35 -05:00
png_crc_finish(png_ptr, length);
2013-03-02 15:58:22 -05:00
if (length != 0)
png_chunk_benign_error(png_ptr, "invalid");
PNG_UNUSED(info_ptr)
1995-07-20 03:43:20 -04:00
}
#ifdef PNG_READ_gAMA_SUPPORTED
2000-05-06 15:09:57 -04:00
void /* PRIVATE */
png_handle_gAMA(png_structrp png_ptr, png_inforp info_ptr, png_uint_32 length)
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{
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png_fixed_point igamma;
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png_byte buf[4];
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png_debug(1, "in png_handle_gAMA");
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if ((png_ptr->mode & PNG_HAVE_IHDR) == 0)
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png_chunk_error(png_ptr, "missing IHDR");
else if ((png_ptr->mode & (PNG_HAVE_IDAT|PNG_HAVE_PLTE)) != 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "out of place");
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return;
}
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if (length != 4)
{
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png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "invalid");
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return;
}
png_crc_read(png_ptr, buf, 4);
if (png_crc_finish(png_ptr, 0) != 0)
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return;
igamma = png_get_fixed_point(NULL, buf);
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png_colorspace_set_gamma(png_ptr, &png_ptr->colorspace, igamma);
png_colorspace_sync(png_ptr, info_ptr);
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}
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#endif
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#ifdef PNG_READ_sBIT_SUPPORTED
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void /* PRIVATE */
png_handle_sBIT(png_structrp png_ptr, png_inforp info_ptr, png_uint_32 length)
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{
unsigned int truelen, i;
png_byte sample_depth;
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png_byte buf[4];
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png_debug(1, "in png_handle_sBIT");
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if ((png_ptr->mode & PNG_HAVE_IHDR) == 0)
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png_chunk_error(png_ptr, "missing IHDR");
else if ((png_ptr->mode & (PNG_HAVE_IDAT|PNG_HAVE_PLTE)) != 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "out of place");
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return;
}
if (info_ptr != NULL && (info_ptr->valid & PNG_INFO_sBIT) != 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "duplicate");
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return;
}
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if (png_ptr->color_type == PNG_COLOR_TYPE_PALETTE)
{
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truelen = 3;
sample_depth = 8;
}
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else
{
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truelen = png_ptr->channels;
sample_depth = png_ptr->bit_depth;
}
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if (length != truelen || length > 4)
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{
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png_chunk_benign_error(png_ptr, "invalid");
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png_crc_finish(png_ptr, length);
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return;
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}
buf[0] = buf[1] = buf[2] = buf[3] = sample_depth;
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png_crc_read(png_ptr, buf, truelen);
if (png_crc_finish(png_ptr, 0) != 0)
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return;
for (i=0; i<truelen; ++i)
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{
if (buf[i] == 0 || buf[i] > sample_depth)
{
png_chunk_benign_error(png_ptr, "invalid");
return;
}
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}
if ((png_ptr->color_type & PNG_COLOR_MASK_COLOR) != 0)
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{
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png_ptr->sig_bit.red = buf[0];
png_ptr->sig_bit.green = buf[1];
png_ptr->sig_bit.blue = buf[2];
png_ptr->sig_bit.alpha = buf[3];
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}
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else
{
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png_ptr->sig_bit.gray = buf[0];
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png_ptr->sig_bit.red = buf[0];
png_ptr->sig_bit.green = buf[0];
png_ptr->sig_bit.blue = buf[0];
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png_ptr->sig_bit.alpha = buf[1];
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}
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png_set_sBIT(png_ptr, info_ptr, &(png_ptr->sig_bit));
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}
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#endif
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#ifdef PNG_READ_cHRM_SUPPORTED
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void /* PRIVATE */
png_handle_cHRM(png_structrp png_ptr, png_inforp info_ptr, png_uint_32 length)
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{
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png_byte buf[32];
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png_xy xy;
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png_debug(1, "in png_handle_cHRM");
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if ((png_ptr->mode & PNG_HAVE_IHDR) == 0)
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png_chunk_error(png_ptr, "missing IHDR");
else if ((png_ptr->mode & (PNG_HAVE_IDAT|PNG_HAVE_PLTE)) != 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "out of place");
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return;
}
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if (length != 32)
{
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png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "invalid");
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return;
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}
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png_crc_read(png_ptr, buf, 32);
if (png_crc_finish(png_ptr, 0) != 0)
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return;
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xy.whitex = png_get_fixed_point(NULL, buf);
xy.whitey = png_get_fixed_point(NULL, buf + 4);
xy.redx = png_get_fixed_point(NULL, buf + 8);
xy.redy = png_get_fixed_point(NULL, buf + 12);
xy.greenx = png_get_fixed_point(NULL, buf + 16);
xy.greeny = png_get_fixed_point(NULL, buf + 20);
xy.bluex = png_get_fixed_point(NULL, buf + 24);
xy.bluey = png_get_fixed_point(NULL, buf + 28);
if (xy.whitex == PNG_FIXED_ERROR ||
xy.whitey == PNG_FIXED_ERROR ||
xy.redx == PNG_FIXED_ERROR ||
xy.redy == PNG_FIXED_ERROR ||
xy.greenx == PNG_FIXED_ERROR ||
xy.greeny == PNG_FIXED_ERROR ||
xy.bluex == PNG_FIXED_ERROR ||
xy.bluey == PNG_FIXED_ERROR)
{
png_chunk_benign_error(png_ptr, "invalid values");
return;
}
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/* If a colorspace error has already been output skip this chunk */
if ((png_ptr->colorspace.flags & PNG_COLORSPACE_INVALID) != 0)
return;
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if ((png_ptr->colorspace.flags & PNG_COLORSPACE_FROM_cHRM) != 0)
{
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png_ptr->colorspace.flags |= PNG_COLORSPACE_INVALID;
png_colorspace_sync(png_ptr, info_ptr);
png_chunk_benign_error(png_ptr, "duplicate");
return;
}
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png_ptr->colorspace.flags |= PNG_COLORSPACE_FROM_cHRM;
(void)png_colorspace_set_chromaticities(png_ptr, &png_ptr->colorspace, &xy,
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1/*prefer cHRM values*/);
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png_colorspace_sync(png_ptr, info_ptr);
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}
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#endif
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#ifdef PNG_READ_sRGB_SUPPORTED
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void /* PRIVATE */
png_handle_sRGB(png_structrp png_ptr, png_inforp info_ptr, png_uint_32 length)
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{
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png_byte intent;
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png_debug(1, "in png_handle_sRGB");
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if ((png_ptr->mode & PNG_HAVE_IHDR) == 0)
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png_chunk_error(png_ptr, "missing IHDR");
else if ((png_ptr->mode & (PNG_HAVE_IDAT|PNG_HAVE_PLTE)) != 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "out of place");
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return;
}
if (length != 1)
{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "invalid");
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return;
}
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png_crc_read(png_ptr, &intent, 1);
if (png_crc_finish(png_ptr, 0) != 0)
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return;
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/* If a colorspace error has already been output skip this chunk */
if ((png_ptr->colorspace.flags & PNG_COLORSPACE_INVALID) != 0)
return;
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/* Only one sRGB or iCCP chunk is allowed, use the HAVE_INTENT flag to detect
* this.
*/
if ((png_ptr->colorspace.flags & PNG_COLORSPACE_HAVE_INTENT) != 0)
{
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png_ptr->colorspace.flags |= PNG_COLORSPACE_INVALID;
png_colorspace_sync(png_ptr, info_ptr);
png_chunk_benign_error(png_ptr, "too many profiles");
return;
}
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(void)png_colorspace_set_sRGB(png_ptr, &png_ptr->colorspace, intent);
png_colorspace_sync(png_ptr, info_ptr);
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}
#endif /* READ_sRGB */
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#ifdef PNG_READ_iCCP_SUPPORTED
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void /* PRIVATE */
png_handle_iCCP(png_structrp png_ptr, png_inforp info_ptr, png_uint_32 length)
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/* Note: this does not properly handle profiles that are > 64K under DOS */
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{
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png_const_charp errmsg = NULL; /* error message output, or no error */
int finished = 0; /* crc checked */
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2008-08-05 08:44:42 -04:00
png_debug(1, "in png_handle_iCCP");
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if ((png_ptr->mode & PNG_HAVE_IHDR) == 0)
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png_chunk_error(png_ptr, "missing IHDR");
else if ((png_ptr->mode & (PNG_HAVE_IDAT|PNG_HAVE_PLTE)) != 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "out of place");
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return;
}
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/* Consistent with all the above colorspace handling an obviously *invalid*
* chunk is just ignored, so does not invalidate the color space. An
* alternative is to set the 'invalid' flags at the start of this routine
* and only clear them in they were not set before and all the tests pass.
*/
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/* The keyword must be at least one character and there is a
* terminator (0) byte and the compression method byte, and the
* 'zlib' datastream is at least 11 bytes.
*/
if (length < 14)
{
png_crc_finish(png_ptr, length);
png_chunk_benign_error(png_ptr, "too short");
return;
}
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/* If a colorspace error has already been output skip this chunk */
if ((png_ptr->colorspace.flags & PNG_COLORSPACE_INVALID) != 0)
{
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png_crc_finish(png_ptr, length);
return;
}
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/* Only one sRGB or iCCP chunk is allowed, use the HAVE_INTENT flag to detect
* this.
*/
if ((png_ptr->colorspace.flags & PNG_COLORSPACE_HAVE_INTENT) == 0)
{
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uInt read_length, keyword_length;
char keyword[81];
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2013-03-02 15:58:22 -05:00
/* Find the keyword; the keyword plus separator and compression method
* bytes can be at most 81 characters long.
*/
read_length = 81; /* maximum */
if (read_length > length)
read_length = (uInt)length;
1999-12-10 10:43:02 -05:00
2013-03-02 15:58:22 -05:00
png_crc_read(png_ptr, (png_bytep)keyword, read_length);
length -= read_length;
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/* The minimum 'zlib' stream is assumed to be just the 2 byte header,
* 5 bytes minimum 'deflate' stream, and the 4 byte checksum.
*/
if (length < 11)
{
png_crc_finish(png_ptr, length);
png_chunk_benign_error(png_ptr, "too short");
return;
}
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keyword_length = 0;
while (keyword_length < 80 && keyword_length < read_length &&
keyword[keyword_length] != 0)
++keyword_length;
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/* TODO: make the keyword checking common */
if (keyword_length >= 1 && keyword_length <= 79)
{
/* We only understand '0' compression - deflate - so if we get a
* different value we can't safely decode the chunk.
*/
if (keyword_length+1 < read_length &&
keyword[keyword_length+1] == PNG_COMPRESSION_TYPE_BASE)
{
read_length -= keyword_length+2;
if (png_inflate_claim(png_ptr, png_iCCP) == Z_OK)
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{
Byte profile_header[132]={0};
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Byte local_buffer[PNG_INFLATE_BUF_SIZE];
png_alloc_size_t size = (sizeof profile_header);
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png_ptr->zstream.next_in = (Bytef*)keyword + (keyword_length+2);
png_ptr->zstream.avail_in = read_length;
(void)png_inflate_read(png_ptr, local_buffer,
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(sizeof local_buffer), &length, profile_header, &size,
0/*finish: don't, because the output is too small*/);
2000-11-10 13:26:19 -05:00
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if (size == 0)
{
/* We have the ICC profile header; do the basic header checks.
*/
png_uint_32 profile_length = png_get_uint_32(profile_header);
2000-11-10 13:26:19 -05:00
2013-03-02 15:58:22 -05:00
if (png_icc_check_length(png_ptr, &png_ptr->colorspace,
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keyword, profile_length) != 0)
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{
/* The length is apparently ok, so we can check the 132
* byte header.
*/
if (png_icc_check_header(png_ptr, &png_ptr->colorspace,
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keyword, profile_length, profile_header,
png_ptr->color_type) != 0)
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{
/* Now read the tag table; a variable size buffer is
* needed at this point, allocate one for the whole
* profile. The header check has already validated
* that none of this stuff will overflow.
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*/
png_uint_32 tag_count =
png_get_uint_32(profile_header + 128);
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png_bytep profile = png_read_buffer(png_ptr,
profile_length, 2/*silent*/);
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if (profile != NULL)
{
memcpy(profile, profile_header,
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(sizeof profile_header));
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size = 12 * tag_count;
(void)png_inflate_read(png_ptr, local_buffer,
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(sizeof local_buffer), &length,
profile + (sizeof profile_header), &size, 0);
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/* Still expect a buffer error because we expect
2013-03-02 15:58:22 -05:00
* there to be some tag data!
*/
if (size == 0)
{
if (png_icc_check_tag_table(png_ptr,
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&png_ptr->colorspace, keyword, profile_length,
profile) != 0)
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{
/* The profile has been validated for basic
* security issues, so read the whole thing in.
*/
size = profile_length - (sizeof profile_header)
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- 12 * tag_count;
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(void)png_inflate_read(png_ptr, local_buffer,
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(sizeof local_buffer), &length,
profile + (sizeof profile_header) +
12 * tag_count, &size, 1/*finish*/);
2013-03-02 15:58:22 -05:00
if (length > 0 && !(png_ptr->flags &
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PNG_FLAG_BENIGN_ERRORS_WARN))
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errmsg = "extra compressed data";
/* But otherwise allow extra data: */
else if (size == 0)
{
if (length > 0)
{
/* This can be handled completely, so
* keep going.
*/
png_chunk_warning(png_ptr,
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"extra compressed data");
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}
png_crc_finish(png_ptr, length);
finished = 1;
# if defined(PNG_sRGB_SUPPORTED) && PNG_sRGB_PROFILE_CHECKS >= 0
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/* Check for a match against sRGB */
png_icc_set_sRGB(png_ptr,
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&png_ptr->colorspace, profile,
png_ptr->zstream.adler);
# endif
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/* Steal the profile for info_ptr. */
if (info_ptr != NULL)
{
png_free_data(png_ptr, info_ptr,
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PNG_FREE_ICCP, 0);
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info_ptr->iccp_name = png_voidcast(char*,
png_malloc_base(png_ptr,
keyword_length+1));
2013-03-02 15:58:22 -05:00
if (info_ptr->iccp_name != NULL)
{
memcpy(info_ptr->iccp_name, keyword,
2016-07-15 12:20:46 -04:00
keyword_length+1);
2013-03-02 15:58:22 -05:00
info_ptr->iccp_proflen =
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profile_length;
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info_ptr->iccp_profile = profile;
png_ptr->read_buffer = NULL; /*steal*/
info_ptr->free_me |= PNG_FREE_ICCP;
info_ptr->valid |= PNG_INFO_iCCP;
}
else
{
png_ptr->colorspace.flags |=
PNG_COLORSPACE_INVALID;
errmsg = "out of memory";
}
}
/* else the profile remains in the read
* buffer which gets reused for subsequent
* chunks.
*/
if (info_ptr != NULL)
png_colorspace_sync(png_ptr, info_ptr);
if (errmsg == NULL)
{
png_ptr->zowner = 0;
return;
}
}
if (errmsg == NULL)
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errmsg = png_ptr->zstream.msg;
}
/* else png_icc_check_tag_table output an error */
}
else /* profile truncated */
errmsg = png_ptr->zstream.msg;
}
2013-03-02 15:58:22 -05:00
else
errmsg = "out of memory";
}
2013-03-02 15:58:22 -05:00
/* else png_icc_check_header output an error */
}
2013-03-02 15:58:22 -05:00
/* else png_icc_check_length output an error */
}
2013-03-02 15:58:22 -05:00
else /* profile truncated */
errmsg = png_ptr->zstream.msg;
2013-03-02 15:58:22 -05:00
/* Release the stream */
png_ptr->zowner = 0;
}
2000-11-10 13:26:19 -05:00
2013-03-02 15:58:22 -05:00
else /* png_inflate_claim failed */
errmsg = png_ptr->zstream.msg;
}
else
errmsg = "bad compression method"; /* or missing */
}
else
errmsg = "bad keyword";
}
2012-08-10 20:22:53 -04:00
2013-03-02 15:58:22 -05:00
else
errmsg = "too many profiles";
/* Failure: the reason is in 'errmsg' */
if (finished == 0)
2013-03-02 15:58:22 -05:00
png_crc_finish(png_ptr, length);
png_ptr->colorspace.flags |= PNG_COLORSPACE_INVALID;
png_colorspace_sync(png_ptr, info_ptr);
if (errmsg != NULL) /* else already output */
png_chunk_benign_error(png_ptr, errmsg);
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}
#endif /* READ_iCCP */
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#ifdef PNG_READ_sPLT_SUPPORTED
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void /* PRIVATE */
png_handle_sPLT(png_structrp png_ptr, png_inforp info_ptr, png_uint_32 length)
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/* Note: this does not properly handle chunks that are > 64K under DOS */
{
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png_bytep entry_start, buffer;
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png_sPLT_t new_palette;
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png_sPLT_entryp pp;
png_uint_32 data_length;
int entry_size, i;
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png_uint_32 skip = 0;
png_uint_32 dl;
size_t max_dl;
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png_debug(1, "in png_handle_sPLT");
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#ifdef PNG_USER_LIMITS_SUPPORTED
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if (png_ptr->user_chunk_cache_max != 0)
{
if (png_ptr->user_chunk_cache_max == 1)
{
png_crc_finish(png_ptr, length);
return;
}
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if (--png_ptr->user_chunk_cache_max == 1)
{
png_warning(png_ptr, "No space in chunk cache for sPLT");
png_crc_finish(png_ptr, length);
return;
}
}
#endif
if ((png_ptr->mode & PNG_HAVE_IHDR) == 0)
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png_chunk_error(png_ptr, "missing IHDR");
else if ((png_ptr->mode & PNG_HAVE_IDAT) != 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "out of place");
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return;
}
#ifdef PNG_MAX_MALLOC_64K
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if (length > 65535U)
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{
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png_crc_finish(png_ptr, length);
png_chunk_benign_error(png_ptr, "too large to fit in memory");
return;
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}
#endif
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buffer = png_read_buffer(png_ptr, length+1, 2/*silent*/);
if (buffer == NULL)
{
png_crc_finish(png_ptr, length);
png_chunk_benign_error(png_ptr, "out of memory");
return;
}
/* WARNING: this may break if size_t is less than 32 bits; it is assumed
* that the PNG_MAX_MALLOC_64K test is enabled in this case, but this is a
* potential breakage point if the types in pngconf.h aren't exactly right.
*/
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png_crc_read(png_ptr, buffer, length);
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if (png_crc_finish(png_ptr, skip) != 0)
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return;
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buffer[length] = 0;
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for (entry_start = buffer; *entry_start; entry_start++)
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/* Empty loop to find end of name */ ;
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++entry_start;
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/* A sample depth should follow the separator, and we should be on it */
if (length < 2U || entry_start > buffer + (length - 2U))
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{
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png_warning(png_ptr, "malformed sPLT chunk");
return;
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}
new_palette.depth = *entry_start++;
entry_size = (new_palette.depth == 8 ? 6 : 10);
/* This must fit in a png_uint_32 because it is derived from the original
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* chunk data length.
*/
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data_length = length - (png_uint_32)(entry_start - buffer);
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/* Integrity-check the data length */
if ((data_length % (unsigned int)entry_size) != 0)
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{
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png_warning(png_ptr, "sPLT chunk has bad length");
return;
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}
dl = (png_uint_32)(data_length / (unsigned int)entry_size);
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max_dl = PNG_SIZE_MAX / (sizeof (png_sPLT_entry));
if (dl > max_dl)
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{
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png_warning(png_ptr, "sPLT chunk too long");
return;
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}
new_palette.nentries = (png_int_32)(data_length / (unsigned int)entry_size);
new_palette.entries = (png_sPLT_entryp)png_malloc_warn(png_ptr,
(png_alloc_size_t) new_palette.nentries * (sizeof (png_sPLT_entry)));
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if (new_palette.entries == NULL)
{
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png_warning(png_ptr, "sPLT chunk requires too much memory");
return;
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}
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#ifdef PNG_POINTER_INDEXING_SUPPORTED
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for (i = 0; i < new_palette.nentries; i++)
{
pp = new_palette.entries + i;
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if (new_palette.depth == 8)
{
pp->red = *entry_start++;
pp->green = *entry_start++;
pp->blue = *entry_start++;
pp->alpha = *entry_start++;
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}
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else
{
pp->red = png_get_uint_16(entry_start); entry_start += 2;
pp->green = png_get_uint_16(entry_start); entry_start += 2;
pp->blue = png_get_uint_16(entry_start); entry_start += 2;
pp->alpha = png_get_uint_16(entry_start); entry_start += 2;
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}
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pp->frequency = png_get_uint_16(entry_start); entry_start += 2;
}
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#else
pp = new_palette.entries;
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for (i = 0; i < new_palette.nentries; i++)
{
if (new_palette.depth == 8)
{
pp[i].red = *entry_start++;
pp[i].green = *entry_start++;
pp[i].blue = *entry_start++;
pp[i].alpha = *entry_start++;
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}
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else
{
pp[i].red = png_get_uint_16(entry_start); entry_start += 2;
pp[i].green = png_get_uint_16(entry_start); entry_start += 2;
pp[i].blue = png_get_uint_16(entry_start); entry_start += 2;
pp[i].alpha = png_get_uint_16(entry_start); entry_start += 2;
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}
pp[i].frequency = png_get_uint_16(entry_start); entry_start += 2;
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}
#endif
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/* Discard all chunk data except the name and stash that */
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new_palette.name = (png_charp)buffer;
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png_set_sPLT(png_ptr, info_ptr, &new_palette, 1);
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png_free(png_ptr, new_palette.entries);
}
#endif /* READ_sPLT */
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#ifdef PNG_READ_tRNS_SUPPORTED
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void /* PRIVATE */
png_handle_tRNS(png_structrp png_ptr, png_inforp info_ptr, png_uint_32 length)
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{
png_byte readbuf[PNG_MAX_PALETTE_LENGTH];
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png_debug(1, "in png_handle_tRNS");
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if ((png_ptr->mode & PNG_HAVE_IHDR) == 0)
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png_chunk_error(png_ptr, "missing IHDR");
else if ((png_ptr->mode & PNG_HAVE_IDAT) != 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "out of place");
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return;
}
else if (info_ptr != NULL && (info_ptr->valid & PNG_INFO_tRNS) != 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "duplicate");
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return;
}
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if (png_ptr->color_type == PNG_COLOR_TYPE_GRAY)
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{
png_byte buf[2];
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if (length != 2)
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{
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png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "invalid");
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return;
}
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png_crc_read(png_ptr, buf, 2);
png_ptr->num_trans = 1;
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png_ptr->trans_color.gray = png_get_uint_16(buf);
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}
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else if (png_ptr->color_type == PNG_COLOR_TYPE_RGB)
{
png_byte buf[6];
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if (length != 6)
{
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png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "invalid");
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return;
}
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png_crc_read(png_ptr, buf, length);
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png_ptr->num_trans = 1;
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png_ptr->trans_color.red = png_get_uint_16(buf);
png_ptr->trans_color.green = png_get_uint_16(buf + 2);
png_ptr->trans_color.blue = png_get_uint_16(buf + 4);
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}
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else if (png_ptr->color_type == PNG_COLOR_TYPE_PALETTE)
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{
if ((png_ptr->mode & PNG_HAVE_PLTE) == 0)
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{
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/* TODO: is this actually an error in the ISO spec? */
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png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "out of place");
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return;
}
if (length > (unsigned int) png_ptr->num_palette ||
length > (unsigned int) PNG_MAX_PALETTE_LENGTH ||
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length == 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "invalid");
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return;
}
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png_crc_read(png_ptr, readbuf, length);
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png_ptr->num_trans = (png_uint_16)length;
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}
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else
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{
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png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "invalid with alpha channel");
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return;
}
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if (png_crc_finish(png_ptr, 0) != 0)
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{
png_ptr->num_trans = 0;
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return;
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}
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/* TODO: this is a horrible side effect in the palette case because the
* png_struct ends up with a pointer to the tRNS buffer owned by the
* png_info. Fix this.
*/
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png_set_tRNS(png_ptr, info_ptr, readbuf, png_ptr->num_trans,
&(png_ptr->trans_color));
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}
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#endif
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#ifdef PNG_READ_bKGD_SUPPORTED
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void /* PRIVATE */
png_handle_bKGD(png_structrp png_ptr, png_inforp info_ptr, png_uint_32 length)
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{
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unsigned int truelen;
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png_byte buf[6];
png_color_16 background;
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png_debug(1, "in png_handle_bKGD");
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if ((png_ptr->mode & PNG_HAVE_IHDR) == 0)
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png_chunk_error(png_ptr, "missing IHDR");
else if ((png_ptr->mode & PNG_HAVE_IDAT) != 0 ||
(png_ptr->color_type == PNG_COLOR_TYPE_PALETTE &&
(png_ptr->mode & PNG_HAVE_PLTE) == 0))
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{
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png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "out of place");
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return;
}
else if (info_ptr != NULL && (info_ptr->valid & PNG_INFO_bKGD) != 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "duplicate");
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return;
}
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if (png_ptr->color_type == PNG_COLOR_TYPE_PALETTE)
truelen = 1;
else if ((png_ptr->color_type & PNG_COLOR_MASK_COLOR) != 0)
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truelen = 6;
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else
truelen = 2;
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if (length != truelen)
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{
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png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "invalid");
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return;
}
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png_crc_read(png_ptr, buf, truelen);
if (png_crc_finish(png_ptr, 0) != 0)
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return;
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/* We convert the index value into RGB components so that we can allow
* arbitrary RGB values for background when we have transparency, and
* so it is easy to determine the RGB values of the background color
* from the info_ptr struct.
*/
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if (png_ptr->color_type == PNG_COLOR_TYPE_PALETTE)
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{
background.index = buf[0];
if (info_ptr != NULL && info_ptr->num_palette != 0)
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{
if (buf[0] >= info_ptr->num_palette)
{
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png_chunk_benign_error(png_ptr, "invalid index");
return;
}
background.red = (png_uint_16)png_ptr->palette[buf[0]].red;
background.green = (png_uint_16)png_ptr->palette[buf[0]].green;
background.blue = (png_uint_16)png_ptr->palette[buf[0]].blue;
}
else
background.red = background.green = background.blue = 0;
background.gray = 0;
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}
else if ((png_ptr->color_type & PNG_COLOR_MASK_COLOR) == 0) /* GRAY */
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{
if (png_ptr->bit_depth <= 8)
{
if (buf[0] != 0 || buf[1] >= (unsigned int)(1 << png_ptr->bit_depth))
{
png_chunk_benign_error(png_ptr, "invalid gray level");
return;
}
}
background.index = 0;
background.red =
background.green =
background.blue =
background.gray = png_get_uint_16(buf);
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}
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else
{
if (png_ptr->bit_depth <= 8)
{
if (buf[0] != 0 || buf[2] != 0 || buf[4] != 0)
{
png_chunk_benign_error(png_ptr, "invalid color");
return;
}
}
background.index = 0;
background.red = png_get_uint_16(buf);
background.green = png_get_uint_16(buf + 2);
background.blue = png_get_uint_16(buf + 4);
background.gray = 0;
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}
png_set_bKGD(png_ptr, info_ptr, &background);
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}
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#endif
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#ifdef PNG_READ_eXIf_SUPPORTED
void /* PRIVATE */
png_handle_eXIf(png_structrp png_ptr, png_inforp info_ptr, png_uint_32 length)
{
unsigned int i;
png_debug(1, "in png_handle_eXIf");
if ((png_ptr->mode & PNG_HAVE_IHDR) == 0)
png_chunk_error(png_ptr, "missing IHDR");
if (length < 2)
{
png_crc_finish(png_ptr, length);
png_chunk_benign_error(png_ptr, "too short");
return;
}
else if (info_ptr == NULL || (info_ptr->valid & PNG_INFO_eXIf) != 0)
{
png_crc_finish(png_ptr, length);
png_chunk_benign_error(png_ptr, "duplicate");
return;
}
info_ptr->free_me |= PNG_FREE_EXIF;
info_ptr->eXIf_buf = png_voidcast(png_bytep,
png_malloc_warn(png_ptr, length));
if (info_ptr->eXIf_buf == NULL)
{
png_crc_finish(png_ptr, length);
png_chunk_benign_error(png_ptr, "out of memory");
return;
}
for (i = 0; i < length; i++)
{
png_byte buf[1];
png_crc_read(png_ptr, buf, 1);
info_ptr->eXIf_buf[i] = buf[0];
if (i == 1 && buf[0] != 'M' && buf[0] != 'I'
&& info_ptr->eXIf_buf[0] != buf[0])
{
png_crc_finish(png_ptr, length);
png_chunk_benign_error(png_ptr, "incorrect byte-order specifier");
png_free(png_ptr, info_ptr->eXIf_buf);
info_ptr->eXIf_buf = NULL;
return;
}
}
if (png_crc_finish(png_ptr, 0) != 0)
return;
png_set_eXIf_1(png_ptr, info_ptr, length, info_ptr->eXIf_buf);
png_free(png_ptr, info_ptr->eXIf_buf);
info_ptr->eXIf_buf = NULL;
}
#endif
#ifdef PNG_READ_hIST_SUPPORTED
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void /* PRIVATE */
png_handle_hIST(png_structrp png_ptr, png_inforp info_ptr, png_uint_32 length)
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{
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unsigned int num, i;
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png_uint_16 readbuf[PNG_MAX_PALETTE_LENGTH];
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png_debug(1, "in png_handle_hIST");
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if ((png_ptr->mode & PNG_HAVE_IHDR) == 0)
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png_chunk_error(png_ptr, "missing IHDR");
else if ((png_ptr->mode & PNG_HAVE_IDAT) != 0 ||
(png_ptr->mode & PNG_HAVE_PLTE) == 0)
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{
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png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "out of place");
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return;
}
else if (info_ptr != NULL && (info_ptr->valid & PNG_INFO_hIST) != 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "duplicate");
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return;
}
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num = length / 2 ;
if (num != (unsigned int) png_ptr->num_palette ||
num > (unsigned int) PNG_MAX_PALETTE_LENGTH)
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{
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png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "invalid");
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return;
}
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for (i = 0; i < num; i++)
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{
png_byte buf[2];
png_crc_read(png_ptr, buf, 2);
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readbuf[i] = png_get_uint_16(buf);
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}
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if (png_crc_finish(png_ptr, 0) != 0)
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return;
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png_set_hIST(png_ptr, info_ptr, readbuf);
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}
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#endif
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#ifdef PNG_READ_pHYs_SUPPORTED
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void /* PRIVATE */
png_handle_pHYs(png_structrp png_ptr, png_inforp info_ptr, png_uint_32 length)
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{
png_byte buf[9];
png_uint_32 res_x, res_y;
int unit_type;
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png_debug(1, "in png_handle_pHYs");
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if ((png_ptr->mode & PNG_HAVE_IHDR) == 0)
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png_chunk_error(png_ptr, "missing IHDR");
else if ((png_ptr->mode & PNG_HAVE_IDAT) != 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "out of place");
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return;
}
else if (info_ptr != NULL && (info_ptr->valid & PNG_INFO_pHYs) != 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "duplicate");
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return;
}
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if (length != 9)
{
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png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "invalid");
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return;
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}
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png_crc_read(png_ptr, buf, 9);
if (png_crc_finish(png_ptr, 0) != 0)
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return;
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res_x = png_get_uint_32(buf);
res_y = png_get_uint_32(buf + 4);
unit_type = buf[8];
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png_set_pHYs(png_ptr, info_ptr, res_x, res_y, unit_type);
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}
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#endif
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#ifdef PNG_READ_oFFs_SUPPORTED
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void /* PRIVATE */
png_handle_oFFs(png_structrp png_ptr, png_inforp info_ptr, png_uint_32 length)
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{
png_byte buf[9];
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png_int_32 offset_x, offset_y;
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int unit_type;
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png_debug(1, "in png_handle_oFFs");
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if ((png_ptr->mode & PNG_HAVE_IHDR) == 0)
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png_chunk_error(png_ptr, "missing IHDR");
else if ((png_ptr->mode & PNG_HAVE_IDAT) != 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "out of place");
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return;
}
else if (info_ptr != NULL && (info_ptr->valid & PNG_INFO_oFFs) != 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "duplicate");
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return;
}
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if (length != 9)
{
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png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "invalid");
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return;
}
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png_crc_read(png_ptr, buf, 9);
if (png_crc_finish(png_ptr, 0) != 0)
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return;
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offset_x = png_get_int_32(buf);
offset_y = png_get_int_32(buf + 4);
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unit_type = buf[8];
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png_set_oFFs(png_ptr, info_ptr, offset_x, offset_y, unit_type);
}
#endif
#ifdef PNG_READ_pCAL_SUPPORTED
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/* Read the pCAL chunk (described in the PNG Extensions document) */
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void /* PRIVATE */
png_handle_pCAL(png_structrp png_ptr, png_inforp info_ptr, png_uint_32 length)
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{
png_int_32 X0, X1;
png_byte type, nparams;
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png_bytep buffer, buf, units, endptr;
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png_charpp params;
int i;
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png_debug(1, "in png_handle_pCAL");
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if ((png_ptr->mode & PNG_HAVE_IHDR) == 0)
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png_chunk_error(png_ptr, "missing IHDR");
else if ((png_ptr->mode & PNG_HAVE_IDAT) != 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "out of place");
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return;
}
else if (info_ptr != NULL && (info_ptr->valid & PNG_INFO_pCAL) != 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "duplicate");
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return;
}
png_debug1(2, "Allocating and reading pCAL chunk data (%u bytes)",
length + 1);
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buffer = png_read_buffer(png_ptr, length+1, 2/*silent*/);
if (buffer == NULL)
{
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png_crc_finish(png_ptr, length);
png_chunk_benign_error(png_ptr, "out of memory");
return;
}
2013-03-02 15:58:22 -05:00
png_crc_read(png_ptr, buffer, length);
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if (png_crc_finish(png_ptr, 0) != 0)
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return;
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buffer[length] = 0; /* Null terminate the last string */
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png_debug(3, "Finding end of pCAL purpose string");
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for (buf = buffer; *buf; buf++)
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/* Empty loop */ ;
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endptr = buffer + length;
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/* We need to have at least 12 bytes after the purpose string
* in order to get the parameter information.
*/
if (endptr - buf <= 12)
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{
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png_chunk_benign_error(png_ptr, "invalid");
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return;
}
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png_debug(3, "Reading pCAL X0, X1, type, nparams, and units");
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X0 = png_get_int_32((png_bytep)buf+1);
X1 = png_get_int_32((png_bytep)buf+5);
type = buf[9];
nparams = buf[10];
units = buf + 11;
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png_debug(3, "Checking pCAL equation type and number of parameters");
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/* Check that we have the right number of parameters for known
* equation types.
*/
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if ((type == PNG_EQUATION_LINEAR && nparams != 2) ||
(type == PNG_EQUATION_BASE_E && nparams != 3) ||
(type == PNG_EQUATION_ARBITRARY && nparams != 3) ||
(type == PNG_EQUATION_HYPERBOLIC && nparams != 4))
{
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png_chunk_benign_error(png_ptr, "invalid parameter count");
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return;
}
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else if (type >= PNG_EQUATION_LAST)
{
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png_chunk_benign_error(png_ptr, "unrecognized equation type");
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}
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for (buf = units; *buf; buf++)
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/* Empty loop to move past the units string. */ ;
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png_debug(3, "Allocating pCAL parameters array");
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params = png_voidcast(png_charpp, png_malloc_warn(png_ptr,
nparams * (sizeof (png_charp))));
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if (params == NULL)
{
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png_chunk_benign_error(png_ptr, "out of memory");
return;
}
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/* Get pointers to the start of each parameter string. */
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for (i = 0; i < nparams; i++)
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{
buf++; /* Skip the null string terminator from previous parameter. */
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png_debug1(3, "Reading pCAL parameter %d", i);
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for (params[i] = (png_charp)buf; buf <= endptr && *buf != 0; buf++)
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/* Empty loop to move past each parameter string */ ;
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/* Make sure we haven't run out of data yet */
if (buf > endptr)
{
png_free(png_ptr, params);
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png_chunk_benign_error(png_ptr, "invalid data");
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return;
}
}
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png_set_pCAL(png_ptr, info_ptr, (png_charp)buffer, X0, X1, type, nparams,
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(png_charp)units, params);
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png_free(png_ptr, params);
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}
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#endif
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#ifdef PNG_READ_sCAL_SUPPORTED
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/* Read the sCAL chunk */
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void /* PRIVATE */
png_handle_sCAL(png_structrp png_ptr, png_inforp info_ptr, png_uint_32 length)
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{
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png_bytep buffer;
size_t i;
int state;
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png_debug(1, "in png_handle_sCAL");
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if ((png_ptr->mode & PNG_HAVE_IHDR) == 0)
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png_chunk_error(png_ptr, "missing IHDR");
else if ((png_ptr->mode & PNG_HAVE_IDAT) != 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "out of place");
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return;
}
else if (info_ptr != NULL && (info_ptr->valid & PNG_INFO_sCAL) != 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "duplicate");
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return;
}
/* Need unit type, width, \0, height: minimum 4 bytes */
else if (length < 4)
{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "invalid");
return;
}
png_debug1(2, "Allocating and reading sCAL chunk data (%u bytes)",
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length + 1);
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buffer = png_read_buffer(png_ptr, length+1, 2/*silent*/);
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if (buffer == NULL)
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{
2013-03-02 15:58:22 -05:00
png_chunk_benign_error(png_ptr, "out of memory");
png_crc_finish(png_ptr, length);
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return;
}
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png_crc_read(png_ptr, buffer, length);
buffer[length] = 0; /* Null terminate the last string */
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if (png_crc_finish(png_ptr, 0) != 0)
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return;
/* Validate the unit. */
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if (buffer[0] != 1 && buffer[0] != 2)
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{
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png_chunk_benign_error(png_ptr, "invalid unit");
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return;
}
/* Validate the ASCII numbers, need two ASCII numbers separated by
* a '\0' and they need to fit exactly in the chunk data.
*/
i = 1;
state = 0;
if (png_check_fp_number((png_const_charp)buffer, length, &state, &i) == 0 ||
2013-03-02 15:58:22 -05:00
i >= length || buffer[i++] != 0)
png_chunk_benign_error(png_ptr, "bad width format");
else if (PNG_FP_IS_POSITIVE(state) == 0)
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png_chunk_benign_error(png_ptr, "non-positive width");
else
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{
size_t heighti = i;
state = 0;
if (png_check_fp_number((png_const_charp)buffer, length,
&state, &i) == 0 || i != length)
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png_chunk_benign_error(png_ptr, "bad height format");
else if (PNG_FP_IS_POSITIVE(state) == 0)
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png_chunk_benign_error(png_ptr, "non-positive height");
else
/* This is the (only) success case. */
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png_set_sCAL_s(png_ptr, info_ptr, buffer[0],
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(png_charp)buffer+1, (png_charp)buffer+heighti);
}
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}
#endif
#ifdef PNG_READ_tIME_SUPPORTED
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void /* PRIVATE */
png_handle_tIME(png_structrp png_ptr, png_inforp info_ptr, png_uint_32 length)
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{
png_byte buf[7];
png_time mod_time;
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png_debug(1, "in png_handle_tIME");
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if ((png_ptr->mode & PNG_HAVE_IHDR) == 0)
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png_chunk_error(png_ptr, "missing IHDR");
else if (info_ptr != NULL && (info_ptr->valid & PNG_INFO_tIME) != 0)
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{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "duplicate");
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return;
}
if ((png_ptr->mode & PNG_HAVE_IDAT) != 0)
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png_ptr->mode |= PNG_AFTER_IDAT;
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if (length != 7)
{
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png_crc_finish(png_ptr, length);
2013-03-02 15:58:22 -05:00
png_chunk_benign_error(png_ptr, "invalid");
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return;
}
png_crc_read(png_ptr, buf, 7);
if (png_crc_finish(png_ptr, 0) != 0)
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return;
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mod_time.second = buf[6];
mod_time.minute = buf[5];
mod_time.hour = buf[4];
mod_time.day = buf[3];
mod_time.month = buf[2];
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mod_time.year = png_get_uint_16(buf);
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1997-05-16 03:46:07 -04:00
png_set_tIME(png_ptr, info_ptr, &mod_time);
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}
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#endif
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#ifdef PNG_READ_tEXt_SUPPORTED
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/* Note: this does not properly handle chunks that are > 64K under DOS */
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void /* PRIVATE */
png_handle_tEXt(png_structrp png_ptr, png_inforp info_ptr, png_uint_32 length)
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{
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png_text text_info;
png_bytep buffer;
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png_charp key;
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png_charp text;
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png_uint_32 skip = 0;
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png_debug(1, "in png_handle_tEXt");
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#ifdef PNG_USER_LIMITS_SUPPORTED
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if (png_ptr->user_chunk_cache_max != 0)
{
if (png_ptr->user_chunk_cache_max == 1)
{
png_crc_finish(png_ptr, length);
return;
}
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if (--png_ptr->user_chunk_cache_max == 1)
{
png_crc_finish(png_ptr, length);
2013-03-02 15:58:22 -05:00
png_chunk_benign_error(png_ptr, "no space in chunk cache");
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return;
}
}
#endif
if ((png_ptr->mode & PNG_HAVE_IHDR) == 0)
2013-03-02 15:58:22 -05:00
png_chunk_error(png_ptr, "missing IHDR");
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if ((png_ptr->mode & PNG_HAVE_IDAT) != 0)
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png_ptr->mode |= PNG_AFTER_IDAT;
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#ifdef PNG_MAX_MALLOC_64K
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if (length > 65535U)
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{
2013-03-02 15:58:22 -05:00
png_crc_finish(png_ptr, length);
png_chunk_benign_error(png_ptr, "too large to fit in memory");
return;
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}
#endif
2013-03-02 15:58:22 -05:00
buffer = png_read_buffer(png_ptr, length+1, 1/*warn*/);
2008-10-25 21:03:28 -04:00
2013-03-02 15:58:22 -05:00
if (buffer == NULL)
2002-05-25 12:12:10 -04:00
{
png_chunk_benign_error(png_ptr, "out of memory");
return;
2002-05-25 12:12:10 -04:00
}
2013-03-02 15:58:22 -05:00
png_crc_read(png_ptr, buffer, length);
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if (png_crc_finish(png_ptr, skip) != 0)
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return;
2008-10-25 21:03:28 -04:00
2013-03-02 15:58:22 -05:00
key = (png_charp)buffer;
key[length] = 0;
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for (text = key; *text; text++)
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/* Empty loop to find end of key */ ;
1995-07-20 03:43:20 -04:00
2013-03-02 15:58:22 -05:00
if (text != key + length)
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text++;
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text_info.compression = PNG_TEXT_COMPRESSION_NONE;
text_info.key = key;
text_info.lang = NULL;
text_info.lang_key = NULL;
text_info.itxt_length = 0;
text_info.text = text;
text_info.text_length = strlen(text);
if (png_set_text_2(png_ptr, info_ptr, &text_info, 1) != 0)
png_warning(png_ptr, "Insufficient memory to process text chunk");
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}
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#endif
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#ifdef PNG_READ_zTXt_SUPPORTED
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/* Note: this does not correctly handle chunks that are > 64K under DOS */
2000-05-06 15:09:57 -04:00
void /* PRIVATE */
png_handle_zTXt(png_structrp png_ptr, png_inforp info_ptr, png_uint_32 length)
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{
2013-03-02 15:58:22 -05:00
png_const_charp errmsg = NULL;
png_bytep buffer;
png_uint_32 keyword_length;
1997-05-16 03:46:07 -04:00
2008-08-05 08:44:42 -04:00
png_debug(1, "in png_handle_zTXt");
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#ifdef PNG_USER_LIMITS_SUPPORTED
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if (png_ptr->user_chunk_cache_max != 0)
{
if (png_ptr->user_chunk_cache_max == 1)
{
png_crc_finish(png_ptr, length);
return;
}
2008-08-20 18:25:21 -04:00
if (--png_ptr->user_chunk_cache_max == 1)
{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "no space in chunk cache");
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return;
}
}
#endif
if ((png_ptr->mode & PNG_HAVE_IHDR) == 0)
2013-03-02 15:58:22 -05:00
png_chunk_error(png_ptr, "missing IHDR");
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if ((png_ptr->mode & PNG_HAVE_IDAT) != 0)
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png_ptr->mode |= PNG_AFTER_IDAT;
/* Note, "length" is sufficient here; we won't be adding
* a null terminator later.
*/
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buffer = png_read_buffer(png_ptr, length, 2/*silent*/);
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if (buffer == NULL)
{
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png_crc_finish(png_ptr, length);
png_chunk_benign_error(png_ptr, "out of memory");
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return;
}
1997-01-17 02:34:35 -05:00
2013-03-02 15:58:22 -05:00
png_crc_read(png_ptr, buffer, length);
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if (png_crc_finish(png_ptr, 0) != 0)
return;
1995-07-20 03:43:20 -04:00
2013-03-02 15:58:22 -05:00
/* TODO: also check that the keyword contents match the spec! */
for (keyword_length = 0;
keyword_length < length && buffer[keyword_length] != 0;
++keyword_length)
/* Empty loop to find end of name */ ;
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if (keyword_length > 79 || keyword_length < 1)
errmsg = "bad keyword";
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/* zTXt must have some LZ data after the keyword, although it may expand to
* zero bytes; we need a '\0' at the end of the keyword, the compression type
* then the LZ data:
*/
else if (keyword_length + 3 > length)
errmsg = "truncated";
else if (buffer[keyword_length+1] != PNG_COMPRESSION_TYPE_BASE)
errmsg = "unknown compression type";
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else
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{
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png_alloc_size_t uncompressed_length = PNG_SIZE_MAX;
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/* TODO: at present png_decompress_chunk imposes a single application
* level memory limit, this should be split to different values for iCCP
* and text chunks.
*/
if (png_decompress_chunk(png_ptr, length, keyword_length+2,
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&uncompressed_length, 1/*terminate*/) == Z_STREAM_END)
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{
png_text text;
if (png_ptr->read_buffer == NULL)
errmsg="Read failure in png_handle_zTXt";
else
{
/* It worked; png_ptr->read_buffer now looks like a tEXt chunk
* except for the extra compression type byte and the fact that
* it isn't necessarily '\0' terminated.
*/
buffer = png_ptr->read_buffer;
buffer[uncompressed_length+(keyword_length+2)] = 0;
text.compression = PNG_TEXT_COMPRESSION_zTXt;
text.key = (png_charp)buffer;
text.text = (png_charp)(buffer + keyword_length+2);
text.text_length = uncompressed_length;
text.itxt_length = 0;
text.lang = NULL;
text.lang_key = NULL;
if (png_set_text_2(png_ptr, info_ptr, &text, 1) != 0)
errmsg = "insufficient memory";
}
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}
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else
errmsg = png_ptr->zstream.msg;
}
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if (errmsg != NULL)
png_chunk_benign_error(png_ptr, errmsg);
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}
#endif
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#ifdef PNG_READ_iTXt_SUPPORTED
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/* Note: this does not correctly handle chunks that are > 64K under DOS */
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void /* PRIVATE */
png_handle_iTXt(png_structrp png_ptr, png_inforp info_ptr, png_uint_32 length)
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{
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png_const_charp errmsg = NULL;
png_bytep buffer;
png_uint_32 prefix_length;
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2008-08-05 08:44:42 -04:00
png_debug(1, "in png_handle_iTXt");
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#ifdef PNG_USER_LIMITS_SUPPORTED
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if (png_ptr->user_chunk_cache_max != 0)
{
if (png_ptr->user_chunk_cache_max == 1)
{
png_crc_finish(png_ptr, length);
return;
}
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if (--png_ptr->user_chunk_cache_max == 1)
{
png_crc_finish(png_ptr, length);
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png_chunk_benign_error(png_ptr, "no space in chunk cache");
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return;
}
}
#endif
if ((png_ptr->mode & PNG_HAVE_IHDR) == 0)
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png_chunk_error(png_ptr, "missing IHDR");
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if ((png_ptr->mode & PNG_HAVE_IDAT) != 0)
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png_ptr->mode |= PNG_AFTER_IDAT;
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2013-03-02 15:58:22 -05:00
buffer = png_read_buffer(png_ptr, length+1, 1/*warn*/);
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if (buffer == NULL)
{
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png_crc_finish(png_ptr, length);
png_chunk_benign_error(png_ptr, "out of memory");
return;
}
2013-03-02 15:58:22 -05:00
png_crc_read(png_ptr, buffer, length);
if (png_crc_finish(png_ptr, 0) != 0)
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return;
1997-05-16 03:46:07 -04:00
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/* First the keyword. */
for (prefix_length=0;
prefix_length < length && buffer[prefix_length] != 0;
++prefix_length)
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/* Empty loop */ ;
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/* Perform a basic check on the keyword length here. */
if (prefix_length > 79 || prefix_length < 1)
errmsg = "bad keyword";
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2013-03-02 15:58:22 -05:00
/* Expect keyword, compression flag, compression type, language, translated
* keyword (both may be empty but are 0 terminated) then the text, which may
* be empty.
2009-05-20 13:45:29 -04:00
*/
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else if (prefix_length + 5 > length)
errmsg = "truncated";
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else if (buffer[prefix_length+1] == 0 ||
(buffer[prefix_length+1] == 1 &&
buffer[prefix_length+2] == PNG_COMPRESSION_TYPE_BASE))
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{
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int compressed = buffer[prefix_length+1] != 0;
png_uint_32 language_offset, translated_keyword_offset;
png_alloc_size_t uncompressed_length = 0;
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/* Now the language tag */
prefix_length += 3;
language_offset = prefix_length;
1999-12-10 10:43:02 -05:00
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for (; prefix_length < length && buffer[prefix_length] != 0;
++prefix_length)
/* Empty loop */ ;
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/* WARNING: the length may be invalid here, this is checked below. */
translated_keyword_offset = ++prefix_length;
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for (; prefix_length < length && buffer[prefix_length] != 0;
++prefix_length)
/* Empty loop */ ;
2000-02-05 00:40:16 -05:00
2013-03-02 15:58:22 -05:00
/* prefix_length should now be at the trailing '\0' of the translated
* keyword, but it may already be over the end. None of this arithmetic
* can overflow because chunks are at most 2^31 bytes long, but on 16-bit
* systems the available allocation may overflow.
2013-03-02 15:58:22 -05:00
*/
++prefix_length;
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if (compressed == 0 && prefix_length <= length)
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uncompressed_length = length - prefix_length;
else if (compressed != 0 && prefix_length < length)
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{
uncompressed_length = PNG_SIZE_MAX;
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/* TODO: at present png_decompress_chunk imposes a single application
* level memory limit, this should be split to different values for
* iCCP and text chunks.
*/
if (png_decompress_chunk(png_ptr, length, prefix_length,
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&uncompressed_length, 1/*terminate*/) == Z_STREAM_END)
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buffer = png_ptr->read_buffer;
2013-03-02 15:58:22 -05:00
else
errmsg = png_ptr->zstream.msg;
}
1999-12-10 10:43:02 -05:00
2013-03-02 15:58:22 -05:00
else
errmsg = "truncated";
1999-12-10 10:43:02 -05:00
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if (errmsg == NULL)
{
png_text text;
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buffer[uncompressed_length+prefix_length] = 0;
if (compressed == 0)
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text.compression = PNG_ITXT_COMPRESSION_NONE;
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else
text.compression = PNG_ITXT_COMPRESSION_zTXt;
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text.key = (png_charp)buffer;
text.lang = (png_charp)buffer + language_offset;
text.lang_key = (png_charp)buffer + translated_keyword_offset;
text.text = (png_charp)buffer + prefix_length;
text.text_length = 0;
text.itxt_length = uncompressed_length;
if (png_set_text_2(png_ptr, info_ptr, &text, 1) != 0)
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errmsg = "insufficient memory";
}
}
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2013-03-02 15:58:22 -05:00
else
errmsg = "bad compression info";
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if (errmsg != NULL)
png_chunk_benign_error(png_ptr, errmsg);
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}
#endif
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#ifdef PNG_READ_UNKNOWN_CHUNKS_SUPPORTED
/* Utility function for png_handle_unknown; set up png_ptr::unknown_chunk */
static int
png_cache_unknown_chunk(png_structrp png_ptr, png_uint_32 length)
{
png_alloc_size_t limit = PNG_SIZE_MAX;
if (png_ptr->unknown_chunk.data != NULL)
{
png_free(png_ptr, png_ptr->unknown_chunk.data);
png_ptr->unknown_chunk.data = NULL;
}
# ifdef PNG_SET_USER_LIMITS_SUPPORTED
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if (png_ptr->user_chunk_malloc_max > 0 &&
png_ptr->user_chunk_malloc_max < limit)
limit = png_ptr->user_chunk_malloc_max;
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# elif PNG_USER_CHUNK_MALLOC_MAX > 0
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if (PNG_USER_CHUNK_MALLOC_MAX < limit)
limit = PNG_USER_CHUNK_MALLOC_MAX;
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# endif
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if (length <= limit)
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{
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PNG_CSTRING_FROM_CHUNK(png_ptr->unknown_chunk.name, png_ptr->chunk_name);
/* The following is safe because of the PNG_SIZE_MAX init above */
png_ptr->unknown_chunk.size = (size_t)length/*SAFE*/;
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/* 'mode' is a flag array, only the bottom four bits matter here */
png_ptr->unknown_chunk.location = (png_byte)png_ptr->mode/*SAFE*/;
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if (length == 0)
png_ptr->unknown_chunk.data = NULL;
else
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{
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/* Do a 'warn' here - it is handled below. */
png_ptr->unknown_chunk.data = png_voidcast(png_bytep,
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png_malloc_warn(png_ptr, length));
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}
}
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if (png_ptr->unknown_chunk.data == NULL && length > 0)
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{
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/* This is benign because we clean up correctly */
png_crc_finish(png_ptr, length);
png_chunk_benign_error(png_ptr, "unknown chunk exceeds memory limits");
return 0;
2000-02-05 00:40:16 -05:00
}
1999-12-10 10:43:02 -05:00
2013-03-02 15:58:22 -05:00
else
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{
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if (length > 0)
png_crc_read(png_ptr, png_ptr->unknown_chunk.data, length);
png_crc_finish(png_ptr, 0);
return 1;
1997-01-17 02:34:35 -05:00
}
2013-03-02 15:58:22 -05:00
}
#endif /* READ_UNKNOWN_CHUNKS */
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/* Handle an unknown, or known but disabled, chunk */
void /* PRIVATE */
png_handle_unknown(png_structrp png_ptr, png_inforp info_ptr,
2016-07-15 12:20:46 -04:00
png_uint_32 length, int keep)
2013-03-02 15:58:22 -05:00
{
int handled = 0; /* the chunk was handled */
png_debug(1, "in png_handle_unknown");
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#ifdef PNG_READ_UNKNOWN_CHUNKS_SUPPORTED
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/* NOTE: this code is based on the code in libpng-1.4.12 except for fixing
* the bug which meant that setting a non-default behavior for a specific
* chunk would be ignored (the default was always used unless a user
* callback was installed).
*
* 'keep' is the value from the png_chunk_unknown_handling, the setting for
* this specific chunk_name, if PNG_HANDLE_AS_UNKNOWN_SUPPORTED, if not it
* will always be PNG_HANDLE_CHUNK_AS_DEFAULT and it needs to be set here.
* This is just an optimization to avoid multiple calls to the lookup
* function.
*/
# ifndef PNG_HANDLE_AS_UNKNOWN_SUPPORTED
# ifdef PNG_SET_UNKNOWN_CHUNKS_SUPPORTED
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keep = png_chunk_unknown_handling(png_ptr, png_ptr->chunk_name);
# endif
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# endif
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/* One of the following methods will read the chunk or skip it (at least one
* of these is always defined because this is the only way to switch on
* PNG_READ_UNKNOWN_CHUNKS_SUPPORTED)
*/
# ifdef PNG_READ_USER_CHUNKS_SUPPORTED
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/* The user callback takes precedence over the chunk keep value, but the
* keep value is still required to validate a save of a critical chunk.
*/
if (png_ptr->read_user_chunk_fn != NULL)
{
if (png_cache_unknown_chunk(png_ptr, length) != 0)
2013-03-02 15:58:22 -05:00
{
2015-06-11 23:00:14 -04:00
/* Callback to user unknown chunk handler */
int ret = (*(png_ptr->read_user_chunk_fn))(png_ptr,
2016-07-15 12:20:46 -04:00
&png_ptr->unknown_chunk);
2015-06-11 23:00:14 -04:00
/* ret is:
* negative: An error occurred; png_chunk_error will be called.
* zero: The chunk was not handled, the chunk will be discarded
* unless png_set_keep_unknown_chunks has been used to set
* a 'keep' behavior for this particular chunk, in which
* case that will be used. A critical chunk will cause an
* error at this point unless it is to be saved.
* positive: The chunk was handled, libpng will ignore/discard it.
*/
if (ret < 0)
png_chunk_error(png_ptr, "error in user chunk");
else if (ret == 0)
2013-03-02 15:58:22 -05:00
{
2015-06-11 23:00:14 -04:00
/* If the keep value is 'default' or 'never' override it, but
* still error out on critical chunks unless the keep value is
* 'always' While this is weird it is the behavior in 1.4.12.
* A possible improvement would be to obey the value set for the
* chunk, but this would be an API change that would probably
* damage some applications.
*
* The png_app_warning below catches the case that matters, where
* the application has not set specific save or ignore for this
* chunk or global save or ignore.
2013-03-02 15:58:22 -05:00
*/
2015-06-11 23:00:14 -04:00
if (keep < PNG_HANDLE_CHUNK_IF_SAFE)
2013-03-02 15:58:22 -05:00
{
2015-06-11 23:00:14 -04:00
# ifdef PNG_SET_UNKNOWN_CHUNKS_SUPPORTED
if (png_ptr->unknown_default < PNG_HANDLE_CHUNK_IF_SAFE)
2013-03-02 15:58:22 -05:00
{
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png_chunk_warning(png_ptr, "Saving unknown chunk:");
png_app_warning(png_ptr,
2016-07-15 12:20:46 -04:00
"forcing save of an unhandled chunk;"
" please call png_set_keep_unknown_chunks");
/* with keep = PNG_HANDLE_CHUNK_IF_SAFE */
2013-03-02 15:58:22 -05:00
}
2015-06-11 23:00:14 -04:00
# endif
keep = PNG_HANDLE_CHUNK_IF_SAFE;
2013-03-02 15:58:22 -05:00
}
}
2015-06-11 23:00:14 -04:00
else /* chunk was handled */
{
handled = 1;
/* Critical chunks can be safely discarded at this point. */
keep = PNG_HANDLE_CHUNK_NEVER;
}
2013-03-02 15:58:22 -05:00
}
else
2015-06-11 23:00:14 -04:00
keep = PNG_HANDLE_CHUNK_NEVER; /* insufficient memory */
}
else
/* Use the SAVE_UNKNOWN_CHUNKS code or skip the chunk */
# endif /* READ_USER_CHUNKS */
2013-03-02 15:58:22 -05:00
# ifdef PNG_SAVE_UNKNOWN_CHUNKS_SUPPORTED
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{
/* keep is currently just the per-chunk setting, if there was no
* setting change it to the global default now (not that this may
* still be AS_DEFAULT) then obtain the cache of the chunk if required,
* if not simply skip the chunk.
*/
if (keep == PNG_HANDLE_CHUNK_AS_DEFAULT)
keep = png_ptr->unknown_default;
2013-03-02 15:58:22 -05:00
2015-06-11 23:00:14 -04:00
if (keep == PNG_HANDLE_CHUNK_ALWAYS ||
(keep == PNG_HANDLE_CHUNK_IF_SAFE &&
PNG_CHUNK_ANCILLARY(png_ptr->chunk_name)))
{
if (png_cache_unknown_chunk(png_ptr, length) == 0)
keep = PNG_HANDLE_CHUNK_NEVER;
}
2015-06-11 23:00:14 -04:00
else
png_crc_finish(png_ptr, length);
}
2013-03-02 15:58:22 -05:00
# else
# ifndef PNG_READ_USER_CHUNKS_SUPPORTED
# error no method to support READ_UNKNOWN_CHUNKS
# endif
2015-06-11 23:00:14 -04:00
{
/* If here there is no read callback pointer set and no support is
* compiled in to just save the unknown chunks, so simply skip this
* chunk. If 'keep' is something other than AS_DEFAULT or NEVER then
* the app has erroneously asked for unknown chunk saving when there
* is no support.
*/
if (keep > PNG_HANDLE_CHUNK_NEVER)
png_app_error(png_ptr, "no unknown chunk support available");
2015-06-11 23:00:14 -04:00
png_crc_finish(png_ptr, length);
}
# endif
2013-03-02 15:58:22 -05:00
# ifdef PNG_STORE_UNKNOWN_CHUNKS_SUPPORTED
2015-06-11 23:00:14 -04:00
/* Now store the chunk in the chunk list if appropriate, and if the limits
* permit it.
*/
if (keep == PNG_HANDLE_CHUNK_ALWAYS ||
(keep == PNG_HANDLE_CHUNK_IF_SAFE &&
PNG_CHUNK_ANCILLARY(png_ptr->chunk_name)))
{
2013-03-02 15:58:22 -05:00
# ifdef PNG_USER_LIMITS_SUPPORTED
2015-06-11 23:00:14 -04:00
switch (png_ptr->user_chunk_cache_max)
{
case 2:
png_ptr->user_chunk_cache_max = 1;
png_chunk_benign_error(png_ptr, "no space in chunk cache");
/* FALLTHROUGH */
2015-06-11 23:00:14 -04:00
case 1:
/* NOTE: prior to 1.6.0 this case resulted in an unknown critical
* chunk being skipped, now there will be a hard error below.
*/
break;
default: /* not at limit */
--(png_ptr->user_chunk_cache_max);
/* FALLTHROUGH */
2015-06-11 23:00:14 -04:00
case 0: /* no limit */
# endif /* USER_LIMITS */
/* Here when the limit isn't reached or when limits are compiled
* out; store the chunk.
*/
png_set_unknown_chunks(png_ptr, info_ptr,
2016-07-15 12:20:46 -04:00
&png_ptr->unknown_chunk, 1);
2015-06-11 23:00:14 -04:00
handled = 1;
# ifdef PNG_USER_LIMITS_SUPPORTED
break;
}
2015-06-11 23:00:14 -04:00
# endif
}
# else /* no store support: the chunk must be handled by the user callback */
2015-06-11 23:00:14 -04:00
PNG_UNUSED(info_ptr)
2013-03-02 15:58:22 -05:00
# endif
2013-03-02 15:58:22 -05:00
/* Regardless of the error handling below the cached data (if any) can be
* freed now. Notice that the data is not freed if there is a png_error, but
* it will be freed by destroy_read_struct.
*/
if (png_ptr->unknown_chunk.data != NULL)
png_free(png_ptr, png_ptr->unknown_chunk.data);
2013-03-02 15:58:22 -05:00
png_ptr->unknown_chunk.data = NULL;
2000-02-05 00:40:16 -05:00
2013-03-02 15:58:22 -05:00
#else /* !PNG_READ_UNKNOWN_CHUNKS_SUPPORTED */
/* There is no support to read an unknown chunk, so just skip it. */
png_crc_finish(png_ptr, length);
PNG_UNUSED(info_ptr)
PNG_UNUSED(keep)
#endif /* !READ_UNKNOWN_CHUNKS */
2013-03-02 15:58:22 -05:00
/* Check for unhandled critical chunks */
if (handled == 0 && PNG_CHUNK_CRITICAL(png_ptr->chunk_name))
2013-03-02 15:58:22 -05:00
png_chunk_error(png_ptr, "unhandled critical chunk");
1997-01-17 02:34:35 -05:00
}
/* This function is called to verify that a chunk name is valid.
* This function can't have the "critical chunk check" incorporated
* into it, since in the future we will need to be able to call user
* functions to handle unknown critical chunks after we check that
* the chunk name itself is valid.
*/
1997-05-16 03:46:07 -04:00
/* Bit hacking: the test for an invalid byte in the 4 byte chunk name is:
*
* ((c) < 65 || (c) > 122 || ((c) > 90 && (c) < 97))
*/
1997-05-16 03:46:07 -04:00
2000-05-06 15:09:57 -04:00
void /* PRIVATE */
png_check_chunk_name(png_const_structrp png_ptr, png_uint_32 chunk_name)
1997-01-17 02:34:35 -05:00
{
int i;
png_uint_32 cn=chunk_name;
2008-08-05 08:44:42 -04:00
png_debug(1, "in png_check_chunk_name");
for (i=1; i<=4; ++i)
1997-01-17 02:34:35 -05:00
{
int c = cn & 0xff;
if (c < 65 || c > 122 || (c > 90 && c < 97))
png_chunk_error(png_ptr, "invalid chunk type");
cn >>= 8;
1997-01-17 02:34:35 -05:00
}
}
void /* PRIVATE */
png_check_chunk_length(png_const_structrp png_ptr, png_uint_32 length)
{
png_alloc_size_t limit = PNG_UINT_31_MAX;
# ifdef PNG_SET_USER_LIMITS_SUPPORTED
if (png_ptr->user_chunk_malloc_max > 0 &&
png_ptr->user_chunk_malloc_max < limit)
limit = png_ptr->user_chunk_malloc_max;
# elif PNG_USER_CHUNK_MALLOC_MAX > 0
if (PNG_USER_CHUNK_MALLOC_MAX < limit)
limit = PNG_USER_CHUNK_MALLOC_MAX;
# endif
if (png_ptr->chunk_name == png_IDAT)
{
png_alloc_size_t idat_limit = PNG_UINT_31_MAX;
size_t row_factor =
(size_t)png_ptr->width
* (size_t)png_ptr->channels
* (png_ptr->bit_depth > 8? 2: 1)
+ 1
+ (png_ptr->interlaced? 6: 0);
if (png_ptr->height > PNG_UINT_32_MAX/row_factor)
idat_limit = PNG_UINT_31_MAX;
else
idat_limit = png_ptr->height * row_factor;
row_factor = row_factor > 32566? 32566 : row_factor;
idat_limit += 6 + 5*(idat_limit/row_factor+1); /* zlib+deflate overhead */
idat_limit=idat_limit < PNG_UINT_31_MAX? idat_limit : PNG_UINT_31_MAX;
limit = limit < idat_limit? idat_limit : limit;
}
if (length > limit)
{
png_debug2(0," length = %lu, limit = %lu",
(unsigned long)length,(unsigned long)limit);
png_chunk_error(png_ptr, "chunk data is too large");
}
}
/* Combines the row recently read in with the existing pixels in the row. This
* routine takes care of alpha and transparency if requested. This routine also
* handles the two methods of progressive display of interlaced images,
* depending on the 'display' value; if 'display' is true then the whole row
* (dp) is filled from the start by replicating the available pixels. If
* 'display' is false only those pixels present in the pass are filled in.
*/
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void /* PRIVATE */
png_combine_row(png_const_structrp png_ptr, png_bytep dp, int display)
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{
unsigned int pixel_depth = png_ptr->transformed_pixel_depth;
png_const_bytep sp = png_ptr->row_buf + 1;
png_alloc_size_t row_width = png_ptr->width;
unsigned int pass = png_ptr->pass;
png_bytep end_ptr = 0;
png_byte end_byte = 0;
unsigned int end_mask;
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png_debug(1, "in png_combine_row");
/* Added in 1.5.6: it should not be possible to enter this routine until at
* least one row has been read from the PNG data and transformed.
*/
if (pixel_depth == 0)
png_error(png_ptr, "internal row logic error");
/* Added in 1.5.4: the pixel depth should match the information returned by
* any call to png_read_update_info at this point. Do not continue if we got
* this wrong.
*/
if (png_ptr->info_rowbytes != 0 && png_ptr->info_rowbytes !=
PNG_ROWBYTES(pixel_depth, row_width))
png_error(png_ptr, "internal row size calculation error");
/* Don't expect this to ever happen: */
if (row_width == 0)
png_error(png_ptr, "internal row width error");
/* Preserve the last byte in cases where only part of it will be overwritten,
* the multiply below may overflow, we don't care because ANSI-C guarantees
* we get the low bits.
*/
end_mask = (pixel_depth * row_width) & 7;
if (end_mask != 0)
{
/* end_ptr == NULL is a flag to say do nothing */
end_ptr = dp + PNG_ROWBYTES(pixel_depth, row_width) - 1;
end_byte = *end_ptr;
# ifdef PNG_READ_PACKSWAP_SUPPORTED
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if ((png_ptr->transformations & PNG_PACKSWAP) != 0)
/* little-endian byte */
end_mask = (unsigned int)(0xff << end_mask);
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else /* big-endian byte */
# endif
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end_mask = 0xff >> end_mask;
/* end_mask is now the bits to *keep* from the destination row */
}
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/* For non-interlaced images this reduces to a memcpy(). A memcpy()
* will also happen if interlacing isn't supported or if the application
* does not call png_set_interlace_handling(). In the latter cases the
* caller just gets a sequence of the unexpanded rows from each interlace
* pass.
*/
#ifdef PNG_READ_INTERLACING_SUPPORTED
if (png_ptr->interlaced != 0 &&
(png_ptr->transformations & PNG_INTERLACE) != 0 &&
pass < 6 && (display == 0 ||
/* The following copies everything for 'display' on passes 0, 2 and 4. */
(display == 1 && (pass & 1) != 0)))
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{
/* Narrow images may have no bits in a pass; the caller should handle
* this, but this test is cheap:
*/
if (row_width <= PNG_PASS_START_COL(pass))
return;
if (pixel_depth < 8)
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{
/* For pixel depths up to 4 bpp the 8-pixel mask can be expanded to fit
* into 32 bits, then a single loop over the bytes using the four byte
* values in the 32-bit mask can be used. For the 'display' option the
* expanded mask may also not require any masking within a byte. To
* make this work the PACKSWAP option must be taken into account - it
* simply requires the pixels to be reversed in each byte.
*
* The 'regular' case requires a mask for each of the first 6 passes,
* the 'display' case does a copy for the even passes in the range
* 0..6. This has already been handled in the test above.
*
* The masks are arranged as four bytes with the first byte to use in
* the lowest bits (little-endian) regardless of the order (PACKSWAP or
* not) of the pixels in each byte.
*
* NOTE: the whole of this logic depends on the caller of this function
* only calling it on rows appropriate to the pass. This function only
* understands the 'x' logic; the 'y' logic is handled by the caller.
*
* The following defines allow generation of compile time constant bit
* masks for each pixel depth and each possibility of swapped or not
* swapped bytes. Pass 'p' is in the range 0..6; 'x', a pixel index,
* is in the range 0..7; and the result is 1 if the pixel is to be
* copied in the pass, 0 if not. 'S' is for the sparkle method, 'B'
* for the block method.
*
* With some compilers a compile time expression of the general form:
*
* (shift >= 32) ? (a >> (shift-32)) : (b >> shift)
*
* Produces warnings with values of 'shift' in the range 33 to 63
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* because the right hand side of the ?: expression is evaluated by
* the compiler even though it isn't used. Microsoft Visual C (various
* versions) and the Intel C compiler are known to do this. To avoid
* this the following macros are used in 1.5.6. This is a temporary
* solution to avoid destabilizing the code during the release process.
*/
# if PNG_USE_COMPILE_TIME_MASKS
# define PNG_LSR(x,s) ((x)>>((s) & 0x1f))
# define PNG_LSL(x,s) ((x)<<((s) & 0x1f))
# else
# define PNG_LSR(x,s) ((x)>>(s))
# define PNG_LSL(x,s) ((x)<<(s))
# endif
# define S_COPY(p,x) (((p)<4 ? PNG_LSR(0x80088822,(3-(p))*8+(7-(x))) :\
PNG_LSR(0xaa55ff00,(7-(p))*8+(7-(x)))) & 1)
# define B_COPY(p,x) (((p)<4 ? PNG_LSR(0xff0fff33,(3-(p))*8+(7-(x))) :\
PNG_LSR(0xff55ff00,(7-(p))*8+(7-(x)))) & 1)
/* Return a mask for pass 'p' pixel 'x' at depth 'd'. The mask is
* little endian - the first pixel is at bit 0 - however the extra
* parameter 's' can be set to cause the mask position to be swapped
* within each byte, to match the PNG format. This is done by XOR of
* the shift with 7, 6 or 4 for bit depths 1, 2 and 4.
*/
# define PIXEL_MASK(p,x,d,s) \
(PNG_LSL(((PNG_LSL(1U,(d)))-1),(((x)*(d))^((s)?8-(d):0))))
/* Hence generate the appropriate 'block' or 'sparkle' pixel copy mask.
*/
# define S_MASKx(p,x,d,s) (S_COPY(p,x)?PIXEL_MASK(p,x,d,s):0)
# define B_MASKx(p,x,d,s) (B_COPY(p,x)?PIXEL_MASK(p,x,d,s):0)
/* Combine 8 of these to get the full mask. For the 1-bpp and 2-bpp
* cases the result needs replicating, for the 4-bpp case the above
* generates a full 32 bits.
*/
# define MASK_EXPAND(m,d) ((m)*((d)==1?0x01010101:((d)==2?0x00010001:1)))
# define S_MASK(p,d,s) MASK_EXPAND(S_MASKx(p,0,d,s) + S_MASKx(p,1,d,s) +\
S_MASKx(p,2,d,s) + S_MASKx(p,3,d,s) + S_MASKx(p,4,d,s) +\
S_MASKx(p,5,d,s) + S_MASKx(p,6,d,s) + S_MASKx(p,7,d,s), d)
# define B_MASK(p,d,s) MASK_EXPAND(B_MASKx(p,0,d,s) + B_MASKx(p,1,d,s) +\
B_MASKx(p,2,d,s) + B_MASKx(p,3,d,s) + B_MASKx(p,4,d,s) +\
B_MASKx(p,5,d,s) + B_MASKx(p,6,d,s) + B_MASKx(p,7,d,s), d)
#if PNG_USE_COMPILE_TIME_MASKS
/* Utility macros to construct all the masks for a depth/swap
* combination. The 's' parameter says whether the format is PNG
* (big endian bytes) or not. Only the three odd-numbered passes are
* required for the display/block algorithm.
*/
# define S_MASKS(d,s) { S_MASK(0,d,s), S_MASK(1,d,s), S_MASK(2,d,s),\
S_MASK(3,d,s), S_MASK(4,d,s), S_MASK(5,d,s) }
# define B_MASKS(d,s) { B_MASK(1,d,s), B_MASK(3,d,s), B_MASK(5,d,s) }
# define DEPTH_INDEX(d) ((d)==1?0:((d)==2?1:2))
/* Hence the pre-compiled masks indexed by PACKSWAP (or not), depth and
* then pass:
*/
static const png_uint_32 row_mask[2/*PACKSWAP*/][3/*depth*/][6] =
{
/* Little-endian byte masks for PACKSWAP */
{ S_MASKS(1,0), S_MASKS(2,0), S_MASKS(4,0) },
/* Normal (big-endian byte) masks - PNG format */
{ S_MASKS(1,1), S_MASKS(2,1), S_MASKS(4,1) }
};
/* display_mask has only three entries for the odd passes, so index by
* pass>>1.
*/
static const png_uint_32 display_mask[2][3][3] =
{
/* Little-endian byte masks for PACKSWAP */
{ B_MASKS(1,0), B_MASKS(2,0), B_MASKS(4,0) },
/* Normal (big-endian byte) masks - PNG format */
{ B_MASKS(1,1), B_MASKS(2,1), B_MASKS(4,1) }
};
# define MASK(pass,depth,display,png)\
((display)?display_mask[png][DEPTH_INDEX(depth)][pass>>1]:\
row_mask[png][DEPTH_INDEX(depth)][pass])
#else /* !PNG_USE_COMPILE_TIME_MASKS */
/* This is the runtime alternative: it seems unlikely that this will
* ever be either smaller or faster than the compile time approach.
*/
# define MASK(pass,depth,display,png)\
((display)?B_MASK(pass,depth,png):S_MASK(pass,depth,png))
#endif /* !USE_COMPILE_TIME_MASKS */
/* Use the appropriate mask to copy the required bits. In some cases
* the byte mask will be 0 or 0xff; optimize these cases. row_width is
* the number of pixels, but the code copies bytes, so it is necessary
* to special case the end.
*/
png_uint_32 pixels_per_byte = 8 / pixel_depth;
png_uint_32 mask;
# ifdef PNG_READ_PACKSWAP_SUPPORTED
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if ((png_ptr->transformations & PNG_PACKSWAP) != 0)
mask = MASK(pass, pixel_depth, display, 0);
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else
# endif
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mask = MASK(pass, pixel_depth, display, 1);
for (;;)
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{
png_uint_32 m;
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/* It doesn't matter in the following if png_uint_32 has more than
* 32 bits because the high bits always match those in m<<24; it is,
* however, essential to use OR here, not +, because of this.
*/
m = mask;
mask = (m >> 8) | (m << 24); /* rotate right to good compilers */
m &= 0xff;
if (m != 0) /* something to copy */
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{
if (m != 0xff)
*dp = (png_byte)((*dp & ~m) | (*sp & m));
else
*dp = *sp;
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}
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/* NOTE: this may overwrite the last byte with garbage if the image
* is not an exact number of bytes wide; libpng has always done
* this.
*/
if (row_width <= pixels_per_byte)
break; /* May need to restore part of the last byte */
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row_width -= pixels_per_byte;
++dp;
++sp;
}
}
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else /* pixel_depth >= 8 */
{
unsigned int bytes_to_copy, bytes_to_jump;
/* Validate the depth - it must be a multiple of 8 */
if (pixel_depth & 7)
png_error(png_ptr, "invalid user transform pixel depth");
pixel_depth >>= 3; /* now in bytes */
row_width *= pixel_depth;
/* Regardless of pass number the Adam 7 interlace always results in a
* fixed number of pixels to copy then to skip. There may be a
* different number of pixels to skip at the start though.
*/
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{
unsigned int offset = PNG_PASS_START_COL(pass) * pixel_depth;
row_width -= offset;
dp += offset;
sp += offset;
}
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/* Work out the bytes to copy. */
if (display != 0)
{
/* When doing the 'block' algorithm the pixel in the pass gets
* replicated to adjacent pixels. This is why the even (0,2,4,6)
* passes are skipped above - the entire expanded row is copied.
*/
bytes_to_copy = (1<<((6-pass)>>1)) * pixel_depth;
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/* But don't allow this number to exceed the actual row width. */
if (bytes_to_copy > row_width)
bytes_to_copy = (unsigned int)/*SAFE*/row_width;
}
else /* normal row; Adam7 only ever gives us one pixel to copy. */
bytes_to_copy = pixel_depth;
/* In Adam7 there is a constant offset between where the pixels go. */
bytes_to_jump = PNG_PASS_COL_OFFSET(pass) * pixel_depth;
/* And simply copy these bytes. Some optimization is possible here,
* depending on the value of 'bytes_to_copy'. Special case the low
* byte counts, which we know to be frequent.
*
* Notice that these cases all 'return' rather than 'break' - this
* avoids an unnecessary test on whether to restore the last byte
* below.
*/
switch (bytes_to_copy)
{
case 1:
for (;;)
{
*dp = *sp;
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if (row_width <= bytes_to_jump)
return;
dp += bytes_to_jump;
sp += bytes_to_jump;
row_width -= bytes_to_jump;
}
case 2:
/* There is a possibility of a partial copy at the end here; this
* slows the code down somewhat.
*/
do
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{
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dp[0] = sp[0]; dp[1] = sp[1];
if (row_width <= bytes_to_jump)
return;
sp += bytes_to_jump;
dp += bytes_to_jump;
row_width -= bytes_to_jump;
}
while (row_width > 1);
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/* And there can only be one byte left at this point: */
*dp = *sp;
return;
case 3:
/* This can only be the RGB case, so each copy is exactly one
* pixel and it is not necessary to check for a partial copy.
*/
for (;;)
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{
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dp[0] = sp[0]; dp[1] = sp[1]; dp[2] = sp[2];
if (row_width <= bytes_to_jump)
return;
sp += bytes_to_jump;
dp += bytes_to_jump;
row_width -= bytes_to_jump;
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}
default:
#if PNG_ALIGN_TYPE != PNG_ALIGN_NONE
/* Check for double byte alignment and, if possible, use a
* 16-bit copy. Don't attempt this for narrow images - ones that
* are less than an interlace panel wide. Don't attempt it for
2013-03-02 15:58:22 -05:00
* wide bytes_to_copy either - use the memcpy there.
*/
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if (bytes_to_copy < 16 /*else use memcpy*/ &&
png_isaligned(dp, png_uint_16) &&
png_isaligned(sp, png_uint_16) &&
bytes_to_copy % (sizeof (png_uint_16)) == 0 &&
bytes_to_jump % (sizeof (png_uint_16)) == 0)
{
/* Everything is aligned for png_uint_16 copies, but try for
* png_uint_32 first.
*/
if (png_isaligned(dp, png_uint_32) &&
png_isaligned(sp, png_uint_32) &&
bytes_to_copy % (sizeof (png_uint_32)) == 0 &&
bytes_to_jump % (sizeof (png_uint_32)) == 0)
{
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png_uint_32p dp32 = png_aligncast(png_uint_32p,dp);
png_const_uint_32p sp32 = png_aligncastconst(
png_const_uint_32p, sp);
size_t skip = (bytes_to_jump-bytes_to_copy) /
(sizeof (png_uint_32));
do
{
size_t c = bytes_to_copy;
do
{
*dp32++ = *sp32++;
2013-03-02 15:58:22 -05:00
c -= (sizeof (png_uint_32));
}
while (c > 0);
if (row_width <= bytes_to_jump)
return;
dp32 += skip;
sp32 += skip;
row_width -= bytes_to_jump;
}
while (bytes_to_copy <= row_width);
/* Get to here when the row_width truncates the final copy.
* There will be 1-3 bytes left to copy, so don't try the
* 16-bit loop below.
*/
dp = (png_bytep)dp32;
sp = (png_const_bytep)sp32;
do
*dp++ = *sp++;
while (--row_width > 0);
return;
}
/* Else do it in 16-bit quantities, but only if the size is
* not too large.
*/
else
{
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png_uint_16p dp16 = png_aligncast(png_uint_16p, dp);
png_const_uint_16p sp16 = png_aligncastconst(
png_const_uint_16p, sp);
size_t skip = (bytes_to_jump-bytes_to_copy) /
2013-03-02 15:58:22 -05:00
(sizeof (png_uint_16));
do
{
size_t c = bytes_to_copy;
do
{
*dp16++ = *sp16++;
2013-03-02 15:58:22 -05:00
c -= (sizeof (png_uint_16));
}
while (c > 0);
if (row_width <= bytes_to_jump)
return;
dp16 += skip;
sp16 += skip;
row_width -= bytes_to_jump;
}
while (bytes_to_copy <= row_width);
/* End of row - 1 byte left, bytes_to_copy > row_width: */
dp = (png_bytep)dp16;
sp = (png_const_bytep)sp16;
do
*dp++ = *sp++;
while (--row_width > 0);
return;
}
}
#endif /* ALIGN_TYPE code */
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2013-03-02 15:58:22 -05:00
/* The true default - use a memcpy: */
for (;;)
{
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memcpy(dp, sp, bytes_to_copy);
if (row_width <= bytes_to_jump)
return;
sp += bytes_to_jump;
dp += bytes_to_jump;
row_width -= bytes_to_jump;
if (bytes_to_copy > row_width)
bytes_to_copy = (unsigned int)/*SAFE*/row_width;
}
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}
/* NOT REACHED*/
} /* pixel_depth >= 8 */
/* Here if pixel_depth < 8 to check 'end_ptr' below. */
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}
else
#endif /* READ_INTERLACING */
2013-03-02 15:58:22 -05:00
/* If here then the switch above wasn't used so just memcpy the whole row
* from the temporary row buffer (notice that this overwrites the end of the
* destination row if it is a partial byte.)
*/
2013-03-02 15:58:22 -05:00
memcpy(dp, sp, PNG_ROWBYTES(pixel_depth, row_width));
/* Restore the overwritten bits from the last byte if necessary. */
if (end_ptr != NULL)
*end_ptr = (png_byte)((end_byte & end_mask) | (*end_ptr & ~end_mask));
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}
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#ifdef PNG_READ_INTERLACING_SUPPORTED
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void /* PRIVATE */
png_do_read_interlace(png_row_infop row_info, png_bytep row, int pass,
2016-07-15 12:20:46 -04:00
png_uint_32 transformations /* Because these may affect the byte layout */)
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{
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/* Arrays to facilitate easy interlacing - use pass (0 - 6) as index */
/* Offset to next interlace block */
static const unsigned int png_pass_inc[7] = {8, 8, 4, 4, 2, 2, 1};
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2008-08-05 08:44:42 -04:00
png_debug(1, "in png_do_read_interlace");
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if (row != NULL && row_info != NULL)
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{
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png_uint_32 final_width;
final_width = row_info->width * png_pass_inc[pass];
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switch (row_info->pixel_depth)
{
case 1:
{
png_bytep sp = row + (size_t)((row_info->width - 1) >> 3);
png_bytep dp = row + (size_t)((final_width - 1) >> 3);
unsigned int sshift, dshift;
unsigned int s_start, s_end;
int s_inc;
int jstop = (int)png_pass_inc[pass];
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png_byte v;
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png_uint_32 i;
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int j;
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#ifdef PNG_READ_PACKSWAP_SUPPORTED
if ((transformations & PNG_PACKSWAP) != 0)
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{
sshift = ((row_info->width + 7) & 0x07);
dshift = ((final_width + 7) & 0x07);
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s_start = 7;
s_end = 0;
s_inc = -1;
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}
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else
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#endif
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{
sshift = 7 - ((row_info->width + 7) & 0x07);
dshift = 7 - ((final_width + 7) & 0x07);
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s_start = 0;
s_end = 7;
s_inc = 1;
}
2004-11-24 08:50:16 -05:00
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for (i = 0; i < row_info->width; i++)
{
v = (png_byte)((*sp >> sshift) & 0x01);
for (j = 0; j < jstop; j++)
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{
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unsigned int tmp = *dp & (0x7f7f >> (7 - dshift));
tmp |= (unsigned int)(v << dshift);
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*dp = (png_byte)(tmp & 0xff);
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if (dshift == s_end)
{
dshift = s_start;
dp--;
}
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else
dshift = (unsigned int)((int)dshift + s_inc);
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}
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if (sshift == s_end)
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{
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sshift = s_start;
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sp--;
}
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else
sshift = (unsigned int)((int)sshift + s_inc);
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}
break;
}
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case 2:
{
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png_bytep sp = row + (png_uint_32)((row_info->width - 1) >> 2);
png_bytep dp = row + (png_uint_32)((final_width - 1) >> 2);
unsigned int sshift, dshift;
unsigned int s_start, s_end;
int s_inc;
int jstop = (int)png_pass_inc[pass];
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png_uint_32 i;
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#ifdef PNG_READ_PACKSWAP_SUPPORTED
if ((transformations & PNG_PACKSWAP) != 0)
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{
sshift = (((row_info->width + 3) & 0x03) << 1);
dshift = (((final_width + 3) & 0x03) << 1);
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s_start = 6;
s_end = 0;
s_inc = -2;
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}
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else
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#endif
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{
sshift = ((3 - ((row_info->width + 3) & 0x03)) << 1);
dshift = ((3 - ((final_width + 3) & 0x03)) << 1);
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s_start = 0;
s_end = 6;
s_inc = 2;
}
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for (i = 0; i < row_info->width; i++)
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{
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png_byte v;
int j;
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v = (png_byte)((*sp >> sshift) & 0x03);
for (j = 0; j < jstop; j++)
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{
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unsigned int tmp = *dp & (0x3f3f >> (6 - dshift));
tmp |= (unsigned int)(v << dshift);
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*dp = (png_byte)(tmp & 0xff);
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if (dshift == s_end)
{
dshift = s_start;
dp--;
}
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else
dshift = (unsigned int)((int)dshift + s_inc);
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}
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if (sshift == s_end)
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{
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sshift = s_start;
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sp--;
}
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else
sshift = (unsigned int)((int)sshift + s_inc);
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}
break;
}
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case 4:
{
png_bytep sp = row + (size_t)((row_info->width - 1) >> 1);
png_bytep dp = row + (size_t)((final_width - 1) >> 1);
unsigned int sshift, dshift;
unsigned int s_start, s_end;
int s_inc;
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png_uint_32 i;
int jstop = (int)png_pass_inc[pass];
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#ifdef PNG_READ_PACKSWAP_SUPPORTED
if ((transformations & PNG_PACKSWAP) != 0)
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{
sshift = (((row_info->width + 1) & 0x01) << 2);
dshift = (((final_width + 1) & 0x01) << 2);
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s_start = 4;
s_end = 0;
s_inc = -4;
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}
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else
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#endif
{
sshift = ((1 - ((row_info->width + 1) & 0x01)) << 2);
dshift = ((1 - ((final_width + 1) & 0x01)) << 2);
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s_start = 0;
s_end = 4;
s_inc = 4;
}
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for (i = 0; i < row_info->width; i++)
{
png_byte v = (png_byte)((*sp >> sshift) & 0x0f);
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int j;
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for (j = 0; j < jstop; j++)
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{
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unsigned int tmp = *dp & (0xf0f >> (4 - dshift));
tmp |= (unsigned int)(v << dshift);
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*dp = (png_byte)(tmp & 0xff);
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if (dshift == s_end)
{
dshift = s_start;
dp--;
}
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else
dshift = (unsigned int)((int)dshift + s_inc);
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}
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if (sshift == s_end)
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{
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sshift = s_start;
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sp--;
}
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else
sshift = (unsigned int)((int)sshift + s_inc);
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}
break;
}
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default:
{
size_t pixel_bytes = (row_info->pixel_depth >> 3);
png_bytep sp = row + (size_t)(row_info->width - 1)
* pixel_bytes;
png_bytep dp = row + (size_t)(final_width - 1) * pixel_bytes;
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int jstop = (int)png_pass_inc[pass];
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png_uint_32 i;
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for (i = 0; i < row_info->width; i++)
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{
png_byte v[8]; /* SAFE; pixel_depth does not exceed 64 */
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int j;
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memcpy(v, sp, pixel_bytes);
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for (j = 0; j < jstop; j++)
{
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memcpy(dp, v, pixel_bytes);
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dp -= pixel_bytes;
}
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sp -= pixel_bytes;
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}
break;
}
}
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row_info->width = final_width;
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row_info->rowbytes = PNG_ROWBYTES(row_info->pixel_depth, final_width);
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}
#ifndef PNG_READ_PACKSWAP_SUPPORTED
PNG_UNUSED(transformations) /* Silence compiler warning */
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#endif
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}
#endif /* READ_INTERLACING */
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static void
png_read_filter_row_sub(png_row_infop row_info, png_bytep row,
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png_const_bytep prev_row)
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{
size_t i;
size_t istop = row_info->rowbytes;
unsigned int bpp = (row_info->pixel_depth + 7) >> 3;
png_bytep rp = row + bpp;
PNG_UNUSED(prev_row)
for (i = bpp; i < istop; i++)
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{
*rp = (png_byte)(((int)(*rp) + (int)(*(rp-bpp))) & 0xff);
rp++;
}
}
static void
png_read_filter_row_up(png_row_infop row_info, png_bytep row,
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png_const_bytep prev_row)
{
size_t i;
size_t istop = row_info->rowbytes;
png_bytep rp = row;
png_const_bytep pp = prev_row;
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for (i = 0; i < istop; i++)
{
*rp = (png_byte)(((int)(*rp) + (int)(*pp++)) & 0xff);
rp++;
}
}
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static void
png_read_filter_row_avg(png_row_infop row_info, png_bytep row,
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png_const_bytep prev_row)
{
size_t i;
png_bytep rp = row;
png_const_bytep pp = prev_row;
unsigned int bpp = (row_info->pixel_depth + 7) >> 3;
size_t istop = row_info->rowbytes - bpp;
for (i = 0; i < bpp; i++)
{
*rp = (png_byte)(((int)(*rp) +
((int)(*pp++) / 2 )) & 0xff);
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rp++;
}
for (i = 0; i < istop; i++)
{
*rp = (png_byte)(((int)(*rp) +
(int)(*pp++ + *(rp-bpp)) / 2 ) & 0xff);
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rp++;
}
}
static void
png_read_filter_row_paeth_1byte_pixel(png_row_infop row_info, png_bytep row,
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png_const_bytep prev_row)
{
png_bytep rp_end = row + row_info->rowbytes;
int a, c;
/* First pixel/byte */
c = *prev_row++;
a = *row + c;
*row++ = (png_byte)a;
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/* Remainder */
while (row < rp_end)
{
int b, pa, pb, pc, p;
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a &= 0xff; /* From previous iteration or start */
b = *prev_row++;
p = b - c;
pc = a - c;
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#ifdef PNG_USE_ABS
pa = abs(p);
pb = abs(pc);
pc = abs(p + pc);
#else
pa = p < 0 ? -p : p;
pb = pc < 0 ? -pc : pc;
pc = (p + pc) < 0 ? -(p + pc) : p + pc;
#endif
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/* Find the best predictor, the least of pa, pb, pc favoring the earlier
* ones in the case of a tie.
*/
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if (pb < pa)
{
pa = pb; a = b;
}
if (pc < pa) a = c;
/* Calculate the current pixel in a, and move the previous row pixel to c
* for the next time round the loop
*/
c = b;
a += *row;
*row++ = (png_byte)a;
}
}
static void
png_read_filter_row_paeth_multibyte_pixel(png_row_infop row_info, png_bytep row,
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png_const_bytep prev_row)
{
unsigned int bpp = (row_info->pixel_depth + 7) >> 3;
png_bytep rp_end = row + bpp;
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/* Process the first pixel in the row completely (this is the same as 'up'
* because there is only one candidate predictor for the first row).
*/
while (row < rp_end)
{
int a = *row + *prev_row++;
*row++ = (png_byte)a;
}
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/* Remainder */
rp_end = rp_end + (row_info->rowbytes - bpp);
while (row < rp_end)
{
int a, b, c, pa, pb, pc, p;
c = *(prev_row - bpp);
a = *(row - bpp);
b = *prev_row++;
p = b - c;
pc = a - c;
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#ifdef PNG_USE_ABS
pa = abs(p);
pb = abs(pc);
pc = abs(p + pc);
#else
pa = p < 0 ? -p : p;
pb = pc < 0 ? -pc : pc;
pc = (p + pc) < 0 ? -(p + pc) : p + pc;
#endif
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if (pb < pa)
{
pa = pb; a = b;
}
if (pc < pa) a = c;
a += *row;
*row++ = (png_byte)a;
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}
}
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static void
png_init_filter_functions(png_structrp pp)
/* This function is called once for every PNG image (except for PNG images
* that only use PNG_FILTER_VALUE_NONE for all rows) to set the
2013-03-02 15:58:22 -05:00
* implementations required to reverse the filtering of PNG rows. Reversing
* the filter is the first transformation performed on the row data. It is
* performed in place, therefore an implementation can be selected based on
* the image pixel format. If the implementation depends on image width then
* take care to ensure that it works correctly if the image is interlaced -
2013-03-02 15:58:22 -05:00
* interlacing causes the actual row width to vary.
*/
{
unsigned int bpp = (pp->pixel_depth + 7) >> 3;
pp->read_filter[PNG_FILTER_VALUE_SUB-1] = png_read_filter_row_sub;
pp->read_filter[PNG_FILTER_VALUE_UP-1] = png_read_filter_row_up;
pp->read_filter[PNG_FILTER_VALUE_AVG-1] = png_read_filter_row_avg;
if (bpp == 1)
pp->read_filter[PNG_FILTER_VALUE_PAETH-1] =
png_read_filter_row_paeth_1byte_pixel;
else
pp->read_filter[PNG_FILTER_VALUE_PAETH-1] =
png_read_filter_row_paeth_multibyte_pixel;
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#ifdef PNG_FILTER_OPTIMIZATIONS
/* To use this define PNG_FILTER_OPTIMIZATIONS as the name of a function to
* call to install hardware optimizations for the above functions; simply
* replace whatever elements of the pp->read_filter[] array with a hardware
* specific (or, for that matter, generic) optimization.
*
* To see an example of this examine what configure.ac does when
* --enable-arm-neon is specified on the command line.
*/
PNG_FILTER_OPTIMIZATIONS(pp, bpp);
#endif
}
void /* PRIVATE */
png_read_filter_row(png_structrp pp, png_row_infop row_info, png_bytep row,
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png_const_bytep prev_row, int filter)
{
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/* OPTIMIZATION: DO NOT MODIFY THIS FUNCTION, instead #define
* PNG_FILTER_OPTIMIZATIONS to a function that overrides the generic
* implementations. See png_init_filter_functions above.
*/
if (filter > PNG_FILTER_VALUE_NONE && filter < PNG_FILTER_VALUE_LAST)
{
if (pp->read_filter[0] == NULL)
png_init_filter_functions(pp);
pp->read_filter[filter-1](row_info, row, prev_row);
}
}
#ifdef PNG_SEQUENTIAL_READ_SUPPORTED
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void /* PRIVATE */
png_read_IDAT_data(png_structrp png_ptr, png_bytep output,
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png_alloc_size_t avail_out)
2013-03-02 15:58:22 -05:00
{
/* Loop reading IDATs and decompressing the result into output[avail_out] */
png_ptr->zstream.next_out = output;
png_ptr->zstream.avail_out = 0; /* safety: set below */
if (output == NULL)
avail_out = 0;
do
{
int ret;
png_byte tmpbuf[PNG_INFLATE_BUF_SIZE];
if (png_ptr->zstream.avail_in == 0)
{
uInt avail_in;
png_bytep buffer;
while (png_ptr->idat_size == 0)
{
png_crc_finish(png_ptr, 0);
png_ptr->idat_size = png_read_chunk_header(png_ptr);
/* This is an error even in the 'check' case because the code just
* consumed a non-IDAT header.
*/
if (png_ptr->chunk_name != png_IDAT)
png_error(png_ptr, "Not enough image data");
}
avail_in = png_ptr->IDAT_read_size;
if (avail_in > png_ptr->idat_size)
avail_in = (uInt)png_ptr->idat_size;
/* A PNG with a gradually increasing IDAT size will defeat this attempt
* to minimize memory usage by causing lots of re-allocs, but
* realistically doing IDAT_read_size re-allocs is not likely to be a
* big problem.
*/
buffer = png_read_buffer(png_ptr, avail_in, 0/*error*/);
png_crc_read(png_ptr, buffer, avail_in);
png_ptr->idat_size -= avail_in;
png_ptr->zstream.next_in = buffer;
png_ptr->zstream.avail_in = avail_in;
}
/* And set up the output side. */
if (output != NULL) /* standard read */
{
uInt out = ZLIB_IO_MAX;
if (out > avail_out)
out = (uInt)avail_out;
avail_out -= out;
png_ptr->zstream.avail_out = out;
}
else /* after last row, checking for end */
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{
png_ptr->zstream.next_out = tmpbuf;
png_ptr->zstream.avail_out = (sizeof tmpbuf);
}
/* Use NO_FLUSH; this gives zlib the maximum opportunity to optimize the
* process. If the LZ stream is truncated the sequential reader will
* terminally damage the stream, above, by reading the chunk header of the
* following chunk (it then exits with png_error).
*
* TODO: deal more elegantly with truncated IDAT lists.
*/
ret = PNG_INFLATE(png_ptr, Z_NO_FLUSH);
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/* Take the unconsumed output back. */
if (output != NULL)
avail_out += png_ptr->zstream.avail_out;
else /* avail_out counts the extra bytes */
avail_out += (sizeof tmpbuf) - png_ptr->zstream.avail_out;
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png_ptr->zstream.avail_out = 0;
if (ret == Z_STREAM_END)
{
/* Do this for safety; we won't read any more into this row. */
png_ptr->zstream.next_out = NULL;
png_ptr->mode |= PNG_AFTER_IDAT;
png_ptr->flags |= PNG_FLAG_ZSTREAM_ENDED;
if (png_ptr->zstream.avail_in > 0 || png_ptr->idat_size > 0)
png_chunk_benign_error(png_ptr, "Extra compressed data");
break;
}
if (ret != Z_OK)
{
png_zstream_error(png_ptr, ret);
if (output != NULL)
png_chunk_error(png_ptr, png_ptr->zstream.msg);
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else /* checking */
{
png_chunk_benign_error(png_ptr, png_ptr->zstream.msg);
return;
}
}
} while (avail_out > 0);
if (avail_out > 0)
{
/* The stream ended before the image; this is the same as too few IDATs so
* should be handled the same way.
*/
if (output != NULL)
png_error(png_ptr, "Not enough image data");
else /* the deflate stream contained extra data */
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png_chunk_benign_error(png_ptr, "Too much image data");
}
}
void /* PRIVATE */
png_read_finish_IDAT(png_structrp png_ptr)
{
/* We don't need any more data and the stream should have ended, however the
* LZ end code may actually not have been processed. In this case we must
* read it otherwise stray unread IDAT data or, more likely, an IDAT chunk
* may still remain to be consumed.
*/
if ((png_ptr->flags & PNG_FLAG_ZSTREAM_ENDED) == 0)
2013-03-02 15:58:22 -05:00
{
/* The NULL causes png_read_IDAT_data to swallow any remaining bytes in
* the compressed stream, but the stream may be damaged too, so even after
* this call we may need to terminate the zstream ownership.
*/
png_read_IDAT_data(png_ptr, NULL, 0);
png_ptr->zstream.next_out = NULL; /* safety */
/* Now clear everything out for safety; the following may not have been
* done.
*/
if ((png_ptr->flags & PNG_FLAG_ZSTREAM_ENDED) == 0)
2013-03-02 15:58:22 -05:00
{
png_ptr->mode |= PNG_AFTER_IDAT;
png_ptr->flags |= PNG_FLAG_ZSTREAM_ENDED;
}
}
/* If the zstream has not been released do it now *and* terminate the reading
* of the final IDAT chunk.
*/
if (png_ptr->zowner == png_IDAT)
{
/* Always do this; the pointers otherwise point into the read buffer. */
png_ptr->zstream.next_in = NULL;
png_ptr->zstream.avail_in = 0;
/* Now we no longer own the zstream. */
png_ptr->zowner = 0;
/* The slightly weird semantics of the sequential IDAT reading is that we
* are always in or at the end of an IDAT chunk, so we always need to do a
* crc_finish here. If idat_size is non-zero we also need to read the
* spurious bytes at the end of the chunk now.
*/
(void)png_crc_finish(png_ptr, png_ptr->idat_size);
}
}
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void /* PRIVATE */
png_read_finish_row(png_structrp png_ptr)
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{
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/* Arrays to facilitate easy interlacing - use pass (0 - 6) as index */
1999-12-10 10:43:02 -05:00
2009-05-20 13:45:29 -04:00
/* Start of interlace block */
static const png_byte png_pass_start[7] = {0, 4, 0, 2, 0, 1, 0};
1999-12-10 10:43:02 -05:00
2009-05-20 13:45:29 -04:00
/* Offset to next interlace block */
static const png_byte png_pass_inc[7] = {8, 8, 4, 4, 2, 2, 1};
1999-12-10 10:43:02 -05:00
2009-05-20 13:45:29 -04:00
/* Start of interlace block in the y direction */
static const png_byte png_pass_ystart[7] = {0, 0, 4, 0, 2, 0, 1};
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2009-05-20 13:45:29 -04:00
/* Offset to next interlace block in the y direction */
static const png_byte png_pass_yinc[7] = {8, 8, 8, 4, 4, 2, 2};
1999-12-10 10:43:02 -05:00
2008-08-05 08:44:42 -04:00
png_debug(1, "in png_read_finish_row");
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png_ptr->row_number++;
if (png_ptr->row_number < png_ptr->num_rows)
return;
if (png_ptr->interlaced != 0)
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{
png_ptr->row_number = 0;
/* TO DO: don't do this if prev_row isn't needed (requires
* read-ahead of the next row's filter byte.
*/
2013-03-02 15:58:22 -05:00
memset(png_ptr->prev_row, 0, png_ptr->rowbytes + 1);
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do
{
png_ptr->pass++;
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if (png_ptr->pass >= 7)
break;
1995-07-20 03:43:20 -04:00
png_ptr->iwidth = (png_ptr->width +
png_pass_inc[png_ptr->pass] - 1 -
png_pass_start[png_ptr->pass]) /
png_pass_inc[png_ptr->pass];
2004-08-04 07:34:52 -04:00
if ((png_ptr->transformations & PNG_INTERLACE) == 0)
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{
png_ptr->num_rows = (png_ptr->height +
png_pass_yinc[png_ptr->pass] - 1 -
png_pass_ystart[png_ptr->pass]) /
png_pass_yinc[png_ptr->pass];
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}
1998-06-14 15:43:31 -04:00
else /* if (png_ptr->transformations & PNG_INTERLACE) */
break; /* libpng deinterlacing sees every row */
} while (png_ptr->num_rows == 0 || png_ptr->iwidth == 0);
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if (png_ptr->pass < 7)
return;
}
2013-03-02 15:58:22 -05:00
/* Here after at the end of the last row of the last pass. */
png_read_finish_IDAT(png_ptr);
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}
#endif /* SEQUENTIAL_READ */
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void /* PRIVATE */
png_read_start_row(png_structrp png_ptr)
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{
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/* Arrays to facilitate easy interlacing - use pass (0 - 6) as index */
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/* Start of interlace block */
static const png_byte png_pass_start[7] = {0, 4, 0, 2, 0, 1, 0};
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/* Offset to next interlace block */
static const png_byte png_pass_inc[7] = {8, 8, 4, 4, 2, 2, 1};
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/* Start of interlace block in the y direction */
static const png_byte png_pass_ystart[7] = {0, 0, 4, 0, 2, 0, 1};
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/* Offset to next interlace block in the y direction */
static const png_byte png_pass_yinc[7] = {8, 8, 8, 4, 4, 2, 2};
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unsigned int max_pixel_depth;
size_t row_bytes;
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png_debug(1, "in png_read_start_row");
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#ifdef PNG_READ_TRANSFORMS_SUPPORTED
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png_init_read_transformations(png_ptr);
#endif
if (png_ptr->interlaced != 0)
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{
if ((png_ptr->transformations & PNG_INTERLACE) == 0)
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png_ptr->num_rows = (png_ptr->height + png_pass_yinc[0] - 1 -
png_pass_ystart[0]) / png_pass_yinc[0];
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else
png_ptr->num_rows = png_ptr->height;
png_ptr->iwidth = (png_ptr->width +
png_pass_inc[png_ptr->pass] - 1 -
png_pass_start[png_ptr->pass]) /
png_pass_inc[png_ptr->pass];
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}
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else
{
png_ptr->num_rows = png_ptr->height;
png_ptr->iwidth = png_ptr->width;
}
max_pixel_depth = (unsigned int)png_ptr->pixel_depth;
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/* WARNING: * png_read_transform_info (pngrtran.c) performs a simpler set of
* calculations to calculate the final pixel depth, then
* png_do_read_transforms actually does the transforms. This means that the
* code which effectively calculates this value is actually repeated in three
* separate places. They must all match. Innocent changes to the order of
* transformations can and will break libpng in a way that causes memory
* overwrites.
*
* TODO: fix this.
*/
#ifdef PNG_READ_PACK_SUPPORTED
if ((png_ptr->transformations & PNG_PACK) != 0 && png_ptr->bit_depth < 8)
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max_pixel_depth = 8;
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#endif
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#ifdef PNG_READ_EXPAND_SUPPORTED
if ((png_ptr->transformations & PNG_EXPAND) != 0)
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{
if (png_ptr->color_type == PNG_COLOR_TYPE_PALETTE)
{
if (png_ptr->num_trans != 0)
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max_pixel_depth = 32;
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else
max_pixel_depth = 24;
}
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else if (png_ptr->color_type == PNG_COLOR_TYPE_GRAY)
{
if (max_pixel_depth < 8)
max_pixel_depth = 8;
if (png_ptr->num_trans != 0)
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max_pixel_depth *= 2;
}
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else if (png_ptr->color_type == PNG_COLOR_TYPE_RGB)
{
if (png_ptr->num_trans != 0)
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{
max_pixel_depth *= 4;
max_pixel_depth /= 3;
}
}
}
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#endif
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#ifdef PNG_READ_EXPAND_16_SUPPORTED
if ((png_ptr->transformations & PNG_EXPAND_16) != 0)
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{
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# ifdef PNG_READ_EXPAND_SUPPORTED
/* In fact it is an error if it isn't supported, but checking is
* the safe way.
*/
if ((png_ptr->transformations & PNG_EXPAND) != 0)
{
if (png_ptr->bit_depth < 16)
max_pixel_depth *= 2;
}
else
# endif
png_ptr->transformations &= ~PNG_EXPAND_16;
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}
#endif
#ifdef PNG_READ_FILLER_SUPPORTED
if ((png_ptr->transformations & (PNG_FILLER)) != 0)
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{
if (png_ptr->color_type == PNG_COLOR_TYPE_GRAY)
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{
if (max_pixel_depth <= 8)
max_pixel_depth = 16;
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else
max_pixel_depth = 32;
}
else if (png_ptr->color_type == PNG_COLOR_TYPE_RGB ||
png_ptr->color_type == PNG_COLOR_TYPE_PALETTE)
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{
if (max_pixel_depth <= 32)
max_pixel_depth = 32;
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else
max_pixel_depth = 64;
}
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}
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#endif
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#ifdef PNG_READ_GRAY_TO_RGB_SUPPORTED
if ((png_ptr->transformations & PNG_GRAY_TO_RGB) != 0)
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{
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if (
#ifdef PNG_READ_EXPAND_SUPPORTED
(png_ptr->num_trans != 0 &&
(png_ptr->transformations & PNG_EXPAND) != 0) ||
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#endif
#ifdef PNG_READ_FILLER_SUPPORTED
(png_ptr->transformations & (PNG_FILLER)) != 0 ||
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#endif
png_ptr->color_type == PNG_COLOR_TYPE_GRAY_ALPHA)
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{
if (max_pixel_depth <= 16)
max_pixel_depth = 32;
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else
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max_pixel_depth = 64;
}
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else
{
if (max_pixel_depth <= 8)
{
if (png_ptr->color_type == PNG_COLOR_TYPE_RGB_ALPHA)
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max_pixel_depth = 32;
else
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max_pixel_depth = 24;
}
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else if (png_ptr->color_type == PNG_COLOR_TYPE_RGB_ALPHA)
max_pixel_depth = 64;
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else
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max_pixel_depth = 48;
}
}
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#endif
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#if defined(PNG_READ_USER_TRANSFORM_SUPPORTED) && \
defined(PNG_USER_TRANSFORM_PTR_SUPPORTED)
if ((png_ptr->transformations & PNG_USER_TRANSFORM) != 0)
{
unsigned int user_pixel_depth = png_ptr->user_transform_depth *
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png_ptr->user_transform_channels;
if (user_pixel_depth > max_pixel_depth)
max_pixel_depth = user_pixel_depth;
}
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#endif
/* This value is stored in png_struct and double checked in the row read
* code.
*/
png_ptr->maximum_pixel_depth = (png_byte)max_pixel_depth;
png_ptr->transformed_pixel_depth = 0; /* calculated on demand */
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/* Align the width on the next larger 8 pixels. Mainly used
* for interlacing
*/
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row_bytes = ((png_ptr->width + 7) & ~((png_uint_32)7));
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/* Calculate the maximum bytes needed, adding a byte and a pixel
* for safety's sake
*/
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row_bytes = PNG_ROWBYTES(max_pixel_depth, row_bytes) +
1 + ((max_pixel_depth + 7) >> 3U);
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#ifdef PNG_MAX_MALLOC_64K
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if (row_bytes > (png_uint_32)65536L)
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png_error(png_ptr, "This image requires a row greater than 64KB");
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#endif
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if (row_bytes + 48 > png_ptr->old_big_row_buf_size)
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{
png_free(png_ptr, png_ptr->big_row_buf);
png_free(png_ptr, png_ptr->big_prev_row);
if (png_ptr->interlaced != 0)
png_ptr->big_row_buf = (png_bytep)png_calloc(png_ptr,
row_bytes + 48);
else
png_ptr->big_row_buf = (png_bytep)png_malloc(png_ptr, row_bytes + 48);
png_ptr->big_prev_row = (png_bytep)png_malloc(png_ptr, row_bytes + 48);
#ifdef PNG_ALIGNED_MEMORY_SUPPORTED
/* Use 16-byte aligned memory for row_buf with at least 16 bytes
* of padding before and after row_buf; treat prev_row similarly.
* NOTE: the alignment is to the start of the pixels, one beyond the start
* of the buffer, because of the filter byte. Prior to libpng 1.5.6 this
* was incorrect; the filter byte was aligned, which had the exact
* opposite effect of that intended.
*/
{
png_bytep temp = png_ptr->big_row_buf + 32;
int extra = (int)((temp - (png_bytep)0) & 0x0f);
png_ptr->row_buf = temp - extra - 1/*filter byte*/;
temp = png_ptr->big_prev_row + 32;
extra = (int)((temp - (png_bytep)0) & 0x0f);
png_ptr->prev_row = temp - extra - 1/*filter byte*/;
}
#else
/* Use 31 bytes of padding before and 17 bytes after row_buf. */
png_ptr->row_buf = png_ptr->big_row_buf + 31;
png_ptr->prev_row = png_ptr->big_prev_row + 31;
#endif
png_ptr->old_big_row_buf_size = row_bytes + 48;
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}
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#ifdef PNG_MAX_MALLOC_64K
if (png_ptr->rowbytes > 65535)
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png_error(png_ptr, "This image requires a row greater than 64KB");
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#endif
if (png_ptr->rowbytes > (PNG_SIZE_MAX - 1))
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png_error(png_ptr, "Row has too many bytes to allocate in memory");
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memset(png_ptr->prev_row, 0, png_ptr->rowbytes + 1);
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png_debug1(3, "width = %u,", png_ptr->width);
png_debug1(3, "height = %u,", png_ptr->height);
png_debug1(3, "iwidth = %u,", png_ptr->iwidth);
png_debug1(3, "num_rows = %u,", png_ptr->num_rows);
png_debug1(3, "rowbytes = %lu,", (unsigned long)png_ptr->rowbytes);
png_debug1(3, "irowbytes = %lu",
(unsigned long)PNG_ROWBYTES(png_ptr->pixel_depth, png_ptr->iwidth) + 1);
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/* The sequential reader needs a buffer for IDAT, but the progressive reader
* does not, so free the read buffer now regardless; the sequential reader
* reallocates it on demand.
*/
if (png_ptr->read_buffer != NULL)
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{
png_bytep buffer = png_ptr->read_buffer;
png_ptr->read_buffer_size = 0;
png_ptr->read_buffer = NULL;
png_free(png_ptr, buffer);
}
/* Finally claim the zstream for the inflate of the IDAT data, use the bits
* value from the stream (note that this will result in a fatal error if the
* IDAT stream has a bogus deflate header window_bits value, but this should
* not be happening any longer!)
*/
if (png_inflate_claim(png_ptr, png_IDAT) != Z_OK)
png_error(png_ptr, png_ptr->zstream.msg);
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png_ptr->flags |= PNG_FLAG_ROW_INIT;
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}
#endif /* READ */