/* * Copyright (c) 1988-1997 Sam Leffler * Copyright (c) 1991-1997 Silicon Graphics, Inc. * * Permission to use, copy, modify, distribute, and sell this software and * its documentation for any purpose is hereby granted without fee, provided * that (i) the above copyright notices and this permission notice appear in * all copies of the software and related documentation, and (ii) the names of * Sam Leffler and Silicon Graphics may not be used in any advertising or * publicity relating to the software without the specific, prior written * permission of Sam Leffler and Silicon Graphics. * * THE SOFTWARE IS PROVIDED "AS-IS" AND WITHOUT WARRANTY OF ANY KIND, * EXPRESS, IMPLIED OR OTHERWISE, INCLUDING WITHOUT LIMITATION, ANY * WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. * * IN NO EVENT SHALL SAM LEFFLER OR SILICON GRAPHICS BE LIABLE FOR * ANY SPECIAL, INCIDENTAL, INDIRECT OR CONSEQUENTIAL DAMAGES OF ANY KIND, * OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, * WHETHER OR NOT ADVISED OF THE POSSIBILITY OF DAMAGE, AND ON ANY THEORY OF * LIABILITY, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE * OF THIS SOFTWARE. */ /* * TIFF Library. */ #ifdef TIFF_DO_NOT_USE_NON_EXT_ALLOC_FUNCTIONS #undef TIFF_DO_NOT_USE_NON_EXT_ALLOC_FUNCTIONS #endif #include "tiffiop.h" #include #include /* * Dummy functions to fill the omitted client procedures. */ int _tiffDummyMapProc(thandle_t fd, void **pbase, toff_t *psize) { (void)fd; (void)pbase; (void)psize; return (0); } void _tiffDummyUnmapProc(thandle_t fd, void *base, toff_t size) { (void)fd; (void)base; (void)size; } int _TIFFgetMode(TIFFOpenOptions *opts, thandle_t clientdata, const char *mode, const char *module) { int m = -1; switch (mode[0]) { case 'r': m = O_RDONLY; if (mode[1] == '+') m = O_RDWR; break; case 'w': case 'a': m = O_RDWR | O_CREAT; if (mode[0] == 'w') m |= O_TRUNC; break; default: _TIFFErrorEarly(opts, clientdata, module, "\"%s\": Bad mode", mode); break; } return (m); } TIFFOpenOptions *TIFFOpenOptionsAlloc() { TIFFOpenOptions *opts = (TIFFOpenOptions *)_TIFFcalloc(1, sizeof(TIFFOpenOptions)); return opts; } void TIFFOpenOptionsFree(TIFFOpenOptions *opts) { _TIFFfree(opts); } /** Define a limit in bytes for a single memory allocation done by libtiff. * If max_single_mem_alloc is set to 0, which is the default, no other limit * that the underlying _TIFFmalloc() or * TIFFOpenOptionsSetMaxCumulatedMemAlloc() will be applied. */ void TIFFOpenOptionsSetMaxSingleMemAlloc(TIFFOpenOptions *opts, tmsize_t max_single_mem_alloc) { opts->max_single_mem_alloc = max_single_mem_alloc; } /** Define a limit in bytes for the cumulated memory allocations done by libtiff * on a given TIFF handle. * If max_cumulated_mem_alloc is set to 0, which is the default, no other limit * that the underlying _TIFFmalloc() or * TIFFOpenOptionsSetMaxSingleMemAlloc() will be applied. */ void TIFFOpenOptionsSetMaxCumulatedMemAlloc(TIFFOpenOptions *opts, tmsize_t max_cumulated_mem_alloc) { opts->max_cumulated_mem_alloc = max_cumulated_mem_alloc; } /** Whether a warning should be emitted when encountering a unknown tag. * Default is FALSE since libtiff 4.7.1 */ void TIFFOpenOptionsSetWarnAboutUnknownTags(TIFFOpenOptions *opts, int warn_about_unknown_tags) { opts->warn_about_unknown_tags = warn_about_unknown_tags; } void TIFFOpenOptionsSetErrorHandlerExtR(TIFFOpenOptions *opts, TIFFErrorHandlerExtR handler, void *errorhandler_user_data) { opts->errorhandler = handler; opts->errorhandler_user_data = errorhandler_user_data; } void TIFFOpenOptionsSetWarningHandlerExtR(TIFFOpenOptions *opts, TIFFErrorHandlerExtR handler, void *warnhandler_user_data) { opts->warnhandler = handler; opts->warnhandler_user_data = warnhandler_user_data; } static void _TIFFEmitErrorAboveMaxSingleMemAlloc(TIFF *tif, const char *pszFunction, tmsize_t s) { TIFFErrorExtR(tif, pszFunction, "Memory allocation of %" PRIu64 " bytes is beyond the %" PRIu64 " byte limit defined in open options", (uint64_t)s, (uint64_t)tif->tif_max_single_mem_alloc); } static void _TIFFEmitErrorAboveMaxCumulatedMemAlloc(TIFF *tif, const char *pszFunction, tmsize_t s) { TIFFErrorExtR(tif, pszFunction, "Cumulated memory allocation of %" PRIu64 " + %" PRIu64 " bytes is beyond the %" PRIu64 " cumulated byte limit defined in open options", (uint64_t)tif->tif_cur_cumulated_mem_alloc, (uint64_t)s, (uint64_t)tif->tif_max_cumulated_mem_alloc); } /* When allocating memory, we write at the beginning of the buffer it size. * This allows us to keep track of the total memory allocated when we * malloc/calloc/realloc and free. In theory we need just SIZEOF_SIZE_T bytes * for that, but on x86_64, allocations of more than 16 bytes are aligned on * 16 bytes. Hence using 2 * SIZEOF_SIZE_T. * It is critical that _TIFFmallocExt/_TIFFcallocExt/_TIFFreallocExt are * paired with _TIFFfreeExt. * CMakeLists.txt defines TIFF_DO_NOT_USE_NON_EXT_ALLOC_FUNCTIONS, which in * turn disables the definition of the non Ext version in tiffio.h */ #define LEADING_AREA_TO_STORE_ALLOC_SIZE (2 * SIZEOF_SIZE_T) /** malloc() version that takes into account memory-specific open options */ void *_TIFFmallocExt(TIFF *tif, tmsize_t s) { if (tif != NULL && tif->tif_max_single_mem_alloc > 0 && s > tif->tif_max_single_mem_alloc) { _TIFFEmitErrorAboveMaxSingleMemAlloc(tif, "_TIFFmallocExt", s); return NULL; } if (tif != NULL && tif->tif_max_cumulated_mem_alloc > 0) { if (s > tif->tif_max_cumulated_mem_alloc - tif->tif_cur_cumulated_mem_alloc || s > TIFF_TMSIZE_T_MAX - LEADING_AREA_TO_STORE_ALLOC_SIZE) { _TIFFEmitErrorAboveMaxCumulatedMemAlloc(tif, "_TIFFmallocExt", s); return NULL; } void *ptr = _TIFFmalloc(LEADING_AREA_TO_STORE_ALLOC_SIZE + s); if (!ptr) return NULL; tif->tif_cur_cumulated_mem_alloc += s; memcpy(ptr, &s, sizeof(s)); return (char *)ptr + LEADING_AREA_TO_STORE_ALLOC_SIZE; } return _TIFFmalloc(s); } /** calloc() version that takes into account memory-specific open options */ void *_TIFFcallocExt(TIFF *tif, tmsize_t nmemb, tmsize_t siz) { if (nmemb <= 0 || siz <= 0 || nmemb > TIFF_TMSIZE_T_MAX / siz) return NULL; if (tif != NULL && tif->tif_max_single_mem_alloc > 0) { if (nmemb * siz > tif->tif_max_single_mem_alloc) { _TIFFEmitErrorAboveMaxSingleMemAlloc(tif, "_TIFFcallocExt", nmemb * siz); return NULL; } } if (tif != NULL && tif->tif_max_cumulated_mem_alloc > 0) { const tmsize_t s = nmemb * siz; if (s > tif->tif_max_cumulated_mem_alloc - tif->tif_cur_cumulated_mem_alloc || s > TIFF_TMSIZE_T_MAX - LEADING_AREA_TO_STORE_ALLOC_SIZE) { _TIFFEmitErrorAboveMaxCumulatedMemAlloc(tif, "_TIFFcallocExt", s); return NULL; } void *ptr = _TIFFcalloc(LEADING_AREA_TO_STORE_ALLOC_SIZE + s, 1); if (!ptr) return NULL; tif->tif_cur_cumulated_mem_alloc += s; memcpy(ptr, &s, sizeof(s)); return (char *)ptr + LEADING_AREA_TO_STORE_ALLOC_SIZE; } return _TIFFcalloc(nmemb, siz); } /** realloc() version that takes into account memory-specific open options */ void *_TIFFreallocExt(TIFF *tif, void *p, tmsize_t s) { if (tif != NULL && tif->tif_max_single_mem_alloc > 0 && s > tif->tif_max_single_mem_alloc) { _TIFFEmitErrorAboveMaxSingleMemAlloc(tif, "_TIFFreallocExt", s); return NULL; } if (tif != NULL && tif->tif_max_cumulated_mem_alloc > 0) { void *oldPtr = p; tmsize_t oldSize = 0; if (p) { oldPtr = (char *)p - LEADING_AREA_TO_STORE_ALLOC_SIZE; memcpy(&oldSize, oldPtr, sizeof(oldSize)); assert(oldSize <= tif->tif_cur_cumulated_mem_alloc); } if (s > oldSize && (s > tif->tif_max_cumulated_mem_alloc - (tif->tif_cur_cumulated_mem_alloc - oldSize) || s > TIFF_TMSIZE_T_MAX - LEADING_AREA_TO_STORE_ALLOC_SIZE)) { _TIFFEmitErrorAboveMaxCumulatedMemAlloc(tif, "_TIFFreallocExt", s - oldSize); return NULL; } void *newPtr = _TIFFrealloc(oldPtr, LEADING_AREA_TO_STORE_ALLOC_SIZE + s); if (newPtr == NULL) return NULL; tif->tif_cur_cumulated_mem_alloc -= oldSize; tif->tif_cur_cumulated_mem_alloc += s; memcpy(newPtr, &s, sizeof(s)); return (char *)newPtr + LEADING_AREA_TO_STORE_ALLOC_SIZE; } return _TIFFrealloc(p, s); } /** free() version that takes into account memory-specific open options */ void _TIFFfreeExt(TIFF *tif, void *p) { if (p != NULL && tif != NULL && tif->tif_max_cumulated_mem_alloc > 0) { void *oldPtr = (char *)p - LEADING_AREA_TO_STORE_ALLOC_SIZE; tmsize_t oldSize; memcpy(&oldSize, oldPtr, sizeof(oldSize)); assert(oldSize <= tif->tif_cur_cumulated_mem_alloc); tif->tif_cur_cumulated_mem_alloc -= oldSize; p = oldPtr; } _TIFFfree(p); } TIFF *TIFFClientOpen(const char *name, const char *mode, thandle_t clientdata, TIFFReadWriteProc readproc, TIFFReadWriteProc writeproc, TIFFSeekProc seekproc, TIFFCloseProc closeproc, TIFFSizeProc sizeproc, TIFFMapFileProc mapproc, TIFFUnmapFileProc unmapproc) { return TIFFClientOpenExt(name, mode, clientdata, readproc, writeproc, seekproc, closeproc, sizeproc, mapproc, unmapproc, NULL); } TIFF *TIFFClientOpenExt(const char *name, const char *mode, thandle_t clientdata, TIFFReadWriteProc readproc, TIFFReadWriteProc writeproc, TIFFSeekProc seekproc, TIFFCloseProc closeproc, TIFFSizeProc sizeproc, TIFFMapFileProc mapproc, TIFFUnmapFileProc unmapproc, TIFFOpenOptions *opts) { static const char module[] = "TIFFClientOpenExt"; TIFF *tif; int m; const char *cp; /* The following are configuration checks. They should be redundant, but * should not compile to any actual code in an optimised release build * anyway. If any of them fail, (makefile-based or other) configuration is * not correct */ assert(sizeof(uint8_t) == 1); assert(sizeof(int8_t) == 1); assert(sizeof(uint16_t) == 2); assert(sizeof(int16_t) == 2); assert(sizeof(uint32_t) == 4); assert(sizeof(int32_t) == 4); assert(sizeof(uint64_t) == 8); assert(sizeof(int64_t) == 8); { union { uint8_t a8[2]; uint16_t a16; } n; n.a8[0] = 1; n.a8[1] = 0; (void)n; #ifdef WORDS_BIGENDIAN assert(n.a16 == 256); #else assert(n.a16 == 1); #endif } m = _TIFFgetMode(opts, clientdata, mode, module); if (m == -1) goto bad2; tmsize_t size_to_alloc = (tmsize_t)(sizeof(TIFF) + strlen(name) + 1); if (opts && opts->max_single_mem_alloc > 0 && size_to_alloc > opts->max_single_mem_alloc) { _TIFFErrorEarly(opts, clientdata, module, "%s: Memory allocation of %" PRIu64 " bytes is beyond the %" PRIu64 " byte limit defined in open options", name, (uint64_t)size_to_alloc, (uint64_t)opts->max_single_mem_alloc); goto bad2; } if (opts && opts->max_cumulated_mem_alloc > 0 && size_to_alloc > opts->max_cumulated_mem_alloc) { _TIFFErrorEarly(opts, clientdata, module, "%s: Memory allocation of %" PRIu64 " bytes is beyond the %" PRIu64 " cumulated byte limit defined in open options", name, (uint64_t)size_to_alloc, (uint64_t)opts->max_cumulated_mem_alloc); goto bad2; } tif = (TIFF *)_TIFFmallocExt(NULL, size_to_alloc); if (tif == NULL) { _TIFFErrorEarly(opts, clientdata, module, "%s: Out of memory (TIFF structure)", name); goto bad2; } _TIFFmemset(tif, 0, sizeof(*tif)); tif->tif_name = (char *)tif + sizeof(TIFF); strcpy(tif->tif_name, name); tif->tif_mode = m & ~(O_CREAT | O_TRUNC); tif->tif_curdir = TIFF_NON_EXISTENT_DIR_NUMBER; /* non-existent directory */ tif->tif_curdircount = TIFF_NON_EXISTENT_DIR_NUMBER; tif->tif_curoff = 0; tif->tif_curstrip = (uint32_t)-1; /* invalid strip */ tif->tif_row = (uint32_t)-1; /* read/write pre-increment */ tif->tif_clientdata = clientdata; tif->tif_readproc = readproc; tif->tif_writeproc = writeproc; tif->tif_seekproc = seekproc; tif->tif_closeproc = closeproc; tif->tif_sizeproc = sizeproc; tif->tif_mapproc = mapproc ? mapproc : _tiffDummyMapProc; tif->tif_unmapproc = unmapproc ? unmapproc : _tiffDummyUnmapProc; if (opts) { tif->tif_errorhandler = opts->errorhandler; tif->tif_errorhandler_user_data = opts->errorhandler_user_data; tif->tif_warnhandler = opts->warnhandler; tif->tif_warnhandler_user_data = opts->warnhandler_user_data; tif->tif_max_single_mem_alloc = opts->max_single_mem_alloc; tif->tif_max_cumulated_mem_alloc = opts->max_cumulated_mem_alloc; tif->tif_warn_about_unknown_tags = opts->warn_about_unknown_tags; } if (!readproc || !writeproc || !seekproc || !closeproc || !sizeproc) { TIFFErrorExtR(tif, module, "One of the client procedures is NULL pointer."); _TIFFfreeExt(NULL, tif); goto bad2; } _TIFFSetDefaultCompressionState(tif); /* setup default state */ /* * Default is to return data MSB2LSB and enable the * use of memory-mapped files and strip chopping when * a file is opened read-only. */ tif->tif_flags = FILLORDER_MSB2LSB; if (m == O_RDONLY) tif->tif_flags |= TIFF_MAPPED; #ifdef STRIPCHOP_DEFAULT if (m == O_RDONLY || m == O_RDWR) tif->tif_flags |= STRIPCHOP_DEFAULT; #endif /* * Process library-specific flags in the open mode string. * The following flags may be used to control intrinsic library * behavior that may or may not be desirable (usually for * compatibility with some application that claims to support * TIFF but only supports some brain dead idea of what the * vendor thinks TIFF is): * * 'l' use little-endian byte order for creating a file * 'b' use big-endian byte order for creating a file * 'L' read/write information using LSB2MSB bit order * 'B' read/write information using MSB2LSB bit order * 'H' read/write information using host bit order * 'M' enable use of memory-mapped files when supported * 'm' disable use of memory-mapped files * 'C' enable strip chopping support when reading * 'c' disable strip chopping support * 'h' read TIFF header only, do not load the first IFD * '4' ClassicTIFF for creating a file (default) * '8' BigTIFF for creating a file * 'D' enable use of deferred strip/tile offset/bytecount array loading. * 'O' on-demand loading of values instead of whole array loading (implies * D) * * The use of the 'l' and 'b' flags is strongly discouraged. * These flags are provided solely because numerous vendors, * typically on the PC, do not correctly support TIFF; they * only support the Intel little-endian byte order. This * support is not configured by default because it supports * the violation of the TIFF spec that says that readers *MUST* * support both byte orders. It is strongly recommended that * you not use this feature except to deal with busted apps * that write invalid TIFF. And even in those cases you should * bang on the vendors to fix their software. * * The 'L', 'B', and 'H' flags are intended for applications * that can optimize operations on data by using a particular * bit order. By default the library returns data in MSB2LSB * bit order for compatibility with older versions of this * library. Returning data in the bit order of the native CPU * makes the most sense but also requires applications to check * the value of the FillOrder tag; something they probably do * not do right now. * * The 'M' and 'm' flags are provided because some virtual memory * systems exhibit poor behavior when large images are mapped. * These options permit clients to control the use of memory-mapped * files on a per-file basis. * * The 'C' and 'c' flags are provided because the library support * for chopping up large strips into multiple smaller strips is not * application-transparent and as such can cause problems. The 'c' * option permits applications that only want to look at the tags, * for example, to get the unadulterated TIFF tag information. */ for (cp = mode; *cp; cp++) switch (*cp) { case 'b': #ifndef WORDS_BIGENDIAN if (m & O_CREAT) tif->tif_flags |= TIFF_SWAB; #endif break; case 'l': #ifdef WORDS_BIGENDIAN if ((m & O_CREAT)) tif->tif_flags |= TIFF_SWAB; #endif break; case 'B': tif->tif_flags = (tif->tif_flags & ~TIFF_FILLORDER) | FILLORDER_MSB2LSB; break; case 'L': tif->tif_flags = (tif->tif_flags & ~TIFF_FILLORDER) | FILLORDER_LSB2MSB; break; case 'H': TIFFWarningExtR(tif, name, "H(ost) mode is deprecated. Since " "libtiff 4.5.1, it is an alias of 'B' / " "FILLORDER_MSB2LSB."); tif->tif_flags = (tif->tif_flags & ~TIFF_FILLORDER) | FILLORDER_MSB2LSB; break; case 'M': if (m == O_RDONLY) tif->tif_flags |= TIFF_MAPPED; break; case 'm': if (m == O_RDONLY) tif->tif_flags &= ~TIFF_MAPPED; break; case 'C': if (m == O_RDONLY) tif->tif_flags |= TIFF_STRIPCHOP; break; case 'c': if (m == O_RDONLY) tif->tif_flags &= ~TIFF_STRIPCHOP; break; case 'h': tif->tif_flags |= TIFF_HEADERONLY; break; case '8': if (m & O_CREAT) tif->tif_flags |= TIFF_BIGTIFF; break; case 'D': tif->tif_flags |= TIFF_DEFERSTRILELOAD; break; case 'O': if (m == O_RDONLY) tif->tif_flags |= (TIFF_LAZYSTRILELOAD | TIFF_DEFERSTRILELOAD); break; } #ifdef DEFER_STRILE_LOAD /* Compatibility with old DEFER_STRILE_LOAD compilation flag */ /* Probably unneeded, since to the best of my knowledge (E. Rouault) */ /* GDAL was the only user of this, and will now use the new 'D' flag */ tif->tif_flags |= TIFF_DEFERSTRILELOAD; #endif /* * Read in TIFF header. */ if ((m & O_TRUNC) || !ReadOK(tif, &tif->tif_header, sizeof(TIFFHeaderClassic))) { if (tif->tif_mode == O_RDONLY) { TIFFErrorExtR(tif, name, "Cannot read TIFF header"); goto bad; } /* * Setup header and write. */ #ifdef WORDS_BIGENDIAN tif->tif_header.common.tiff_magic = (tif->tif_flags & TIFF_SWAB) ? TIFF_LITTLEENDIAN : TIFF_BIGENDIAN; #else tif->tif_header.common.tiff_magic = (tif->tif_flags & TIFF_SWAB) ? TIFF_BIGENDIAN : TIFF_LITTLEENDIAN; #endif TIFFHeaderUnion tif_header_swapped; if (!(tif->tif_flags & TIFF_BIGTIFF)) { tif->tif_header.common.tiff_version = TIFF_VERSION_CLASSIC; tif->tif_header.classic.tiff_diroff = 0; tif->tif_header_size = sizeof(TIFFHeaderClassic); /* Swapped copy for writing */ _TIFFmemcpy(&tif_header_swapped, &tif->tif_header, sizeof(TIFFHeaderUnion)); if (tif->tif_flags & TIFF_SWAB) TIFFSwabShort(&tif_header_swapped.common.tiff_version); } else { tif->tif_header.common.tiff_version = TIFF_VERSION_BIG; tif->tif_header.big.tiff_offsetsize = 8; tif->tif_header.big.tiff_unused = 0; tif->tif_header.big.tiff_diroff = 0; tif->tif_header_size = sizeof(TIFFHeaderBig); /* Swapped copy for writing */ _TIFFmemcpy(&tif_header_swapped, &tif->tif_header, sizeof(TIFFHeaderUnion)); if (tif->tif_flags & TIFF_SWAB) { TIFFSwabShort(&tif_header_swapped.common.tiff_version); TIFFSwabShort(&tif_header_swapped.big.tiff_offsetsize); } } /* * The doc for "fopen" for some STD_C_LIBs says that if you * open a file for modify ("+"), then you must fseek (or * fflush?) between any freads and fwrites. This is not * necessary on most systems, but has been shown to be needed * on Solaris. */ TIFFSeekFile(tif, 0, SEEK_SET); if (!WriteOK(tif, &tif_header_swapped, (tmsize_t)(tif->tif_header_size))) { TIFFErrorExtR(tif, name, "Error writing TIFF header"); goto bad; } /* * Setup default directory. */ if (!TIFFDefaultDirectory(tif)) goto bad; tif->tif_diroff = 0; tif->tif_lastdiroff = 0; tif->tif_setdirectory_force_absolute = FALSE; /* tif_curdircount = 0 means 'empty file opened for writing, but no IFD * written yet' */ tif->tif_curdircount = 0; return (tif); } /* * Setup the byte order handling according to the opened file for reading. */ if (tif->tif_header.common.tiff_magic != TIFF_BIGENDIAN && tif->tif_header.common.tiff_magic != TIFF_LITTLEENDIAN #if MDI_SUPPORT && #if HOST_BIGENDIAN tif->tif_header.common.tiff_magic != MDI_BIGENDIAN #else tif->tif_header.common.tiff_magic != MDI_LITTLEENDIAN #endif ) { TIFFErrorExtR(tif, name, "Not a TIFF or MDI file, bad magic number %" PRIu16 " (0x%" PRIx16 ")", #else ) { TIFFErrorExtR(tif, name, "Not a TIFF file, bad magic number %" PRIu16 " (0x%" PRIx16 ")", #endif tif->tif_header.common.tiff_magic, tif->tif_header.common.tiff_magic); goto bad; } if (tif->tif_header.common.tiff_magic == TIFF_BIGENDIAN) { #ifndef WORDS_BIGENDIAN tif->tif_flags |= TIFF_SWAB; #endif } else { #ifdef WORDS_BIGENDIAN tif->tif_flags |= TIFF_SWAB; #endif } if (tif->tif_flags & TIFF_SWAB) TIFFSwabShort(&tif->tif_header.common.tiff_version); if ((tif->tif_header.common.tiff_version != TIFF_VERSION_CLASSIC) && (tif->tif_header.common.tiff_version != TIFF_VERSION_BIG)) { TIFFErrorExtR(tif, name, "Not a TIFF file, bad version number %" PRIu16 " (0x%" PRIx16 ")", tif->tif_header.common.tiff_version, tif->tif_header.common.tiff_version); goto bad; } if (tif->tif_header.common.tiff_version == TIFF_VERSION_CLASSIC) { if (tif->tif_flags & TIFF_SWAB) TIFFSwabLong(&tif->tif_header.classic.tiff_diroff); tif->tif_header_size = sizeof(TIFFHeaderClassic); } else { if (!ReadOK(tif, ((uint8_t *)(&tif->tif_header) + sizeof(TIFFHeaderClassic)), (sizeof(TIFFHeaderBig) - sizeof(TIFFHeaderClassic)))) { TIFFErrorExtR(tif, name, "Cannot read TIFF header"); goto bad; } if (tif->tif_flags & TIFF_SWAB) { TIFFSwabShort(&tif->tif_header.big.tiff_offsetsize); TIFFSwabLong8(&tif->tif_header.big.tiff_diroff); } if (tif->tif_header.big.tiff_offsetsize != 8) { TIFFErrorExtR(tif, name, "Not a TIFF file, bad BigTIFF offsetsize %" PRIu16 " (0x%" PRIx16 ")", tif->tif_header.big.tiff_offsetsize, tif->tif_header.big.tiff_offsetsize); goto bad; } if (tif->tif_header.big.tiff_unused != 0) { TIFFErrorExtR(tif, name, "Not a TIFF file, bad BigTIFF unused %" PRIu16 " (0x%" PRIx16 ")", tif->tif_header.big.tiff_unused, tif->tif_header.big.tiff_unused); goto bad; } tif->tif_header_size = sizeof(TIFFHeaderBig); tif->tif_flags |= TIFF_BIGTIFF; } tif->tif_flags |= TIFF_MYBUFFER; tif->tif_rawcp = tif->tif_rawdata = 0; tif->tif_rawdatasize = 0; tif->tif_rawdataoff = 0; tif->tif_rawdataloaded = 0; switch (mode[0]) { case 'r': if (!(tif->tif_flags & TIFF_BIGTIFF)) tif->tif_nextdiroff = tif->tif_header.classic.tiff_diroff; else tif->tif_nextdiroff = tif->tif_header.big.tiff_diroff; /* * Try to use a memory-mapped file if the client * has not explicitly suppressed usage with the * 'm' flag in the open mode (see above). */ if (tif->tif_flags & TIFF_MAPPED) { toff_t n; if (TIFFMapFileContents(tif, (void **)(&tif->tif_base), &n)) { tif->tif_size = (tmsize_t)n; assert((toff_t)tif->tif_size == n); } else tif->tif_flags &= ~TIFF_MAPPED; } /* * Sometimes we do not want to read the first directory (for * example, it may be broken) and want to proceed to other * directories. I this case we use the TIFF_HEADERONLY flag to open * file and return immediately after reading TIFF header. * However, the pointer to TIFFSetField() and TIFFGetField() * (i.e. tif->tif_tagmethods.vsetfield and * tif->tif_tagmethods.vgetfield) need to be initialized, which is * done in TIFFDefaultDirectory(). */ if (tif->tif_flags & TIFF_HEADERONLY) { if (!TIFFDefaultDirectory(tif)) goto bad; return (tif); } /* * Setup initial directory. */ if (TIFFReadDirectory(tif)) { return (tif); } break; case 'a': /* * New directories are automatically append * to the end of the directory chain when they * are written out (see TIFFWriteDirectory). */ if (!TIFFDefaultDirectory(tif)) goto bad; return (tif); } bad: tif->tif_mode = O_RDONLY; /* XXX avoid flush */ TIFFCleanup(tif); bad2: return ((TIFF *)0); } /* * Query functions to access private data. */ /* * Return open file's name. */ const char *TIFFFileName(TIFF *tif) { return (tif->tif_name); } /* * Set the file name. */ const char *TIFFSetFileName(TIFF *tif, const char *name) { const char *old_name = tif->tif_name; tif->tif_name = (char *)name; return (old_name); } /* * Return open file's I/O descriptor. */ int TIFFFileno(TIFF *tif) { return (tif->tif_fd); } /* * Set open file's I/O descriptor, and return previous value. */ int TIFFSetFileno(TIFF *tif, int fd) { int old_fd = tif->tif_fd; tif->tif_fd = fd; return old_fd; } /* * Return open file's clientdata. */ thandle_t TIFFClientdata(TIFF *tif) { return (tif->tif_clientdata); } /* * Set open file's clientdata, and return previous value. */ thandle_t TIFFSetClientdata(TIFF *tif, thandle_t newvalue) { thandle_t m = tif->tif_clientdata; tif->tif_clientdata = newvalue; return m; } /* * Return read/write mode. */ int TIFFGetMode(TIFF *tif) { return (tif->tif_mode); } /* * Return read/write mode. */ int TIFFSetMode(TIFF *tif, int mode) { int old_mode = tif->tif_mode; tif->tif_mode = mode; return (old_mode); } /* * Return nonzero if file is organized in * tiles; zero if organized as strips. */ int TIFFIsTiled(TIFF *tif) { return (isTiled(tif)); } /* * Return current row being read/written. */ uint32_t TIFFCurrentRow(TIFF *tif) { return (tif->tif_row); } /* * Return index of the current directory. */ tdir_t TIFFCurrentDirectory(TIFF *tif) { return (tif->tif_curdir); } /* * Return current strip. */ uint32_t TIFFCurrentStrip(TIFF *tif) { return (tif->tif_curstrip); } /* * Return current tile. */ uint32_t TIFFCurrentTile(TIFF *tif) { return (tif->tif_curtile); } /* * Return nonzero if the file has byte-swapped data. */ int TIFFIsByteSwapped(TIFF *tif) { return ((tif->tif_flags & TIFF_SWAB) != 0); } /* * Return nonzero if the data is returned up-sampled. */ int TIFFIsUpSampled(TIFF *tif) { return (isUpSampled(tif)); } /* * Return nonzero if the data is returned in MSB-to-LSB bit order. */ int TIFFIsMSB2LSB(TIFF *tif) { return (isFillOrder(tif, FILLORDER_MSB2LSB)); } /* * Return nonzero if given file was written in big-endian order. */ int TIFFIsBigEndian(TIFF *tif) { return (tif->tif_header.common.tiff_magic == TIFF_BIGENDIAN); } /* * Return nonzero if given file is BigTIFF style. */ int TIFFIsBigTIFF(TIFF *tif) { return ((tif->tif_flags & TIFF_BIGTIFF) != 0); } /* * Return pointer to file read method. */ TIFFReadWriteProc TIFFGetReadProc(TIFF *tif) { return (tif->tif_readproc); } /* * Return pointer to file write method. */ TIFFReadWriteProc TIFFGetWriteProc(TIFF *tif) { return (tif->tif_writeproc); } /* * Return pointer to file seek method. */ TIFFSeekProc TIFFGetSeekProc(TIFF *tif) { return (tif->tif_seekproc); } /* * Return pointer to file close method. */ TIFFCloseProc TIFFGetCloseProc(TIFF *tif) { return (tif->tif_closeproc); } /* * Return pointer to file size requesting method. */ TIFFSizeProc TIFFGetSizeProc(TIFF *tif) { return (tif->tif_sizeproc); } /* * Return pointer to memory mapping method. */ TIFFMapFileProc TIFFGetMapFileProc(TIFF *tif) { return (tif->tif_mapproc); } /* * Return pointer to memory unmapping method. */ TIFFUnmapFileProc TIFFGetUnmapFileProc(TIFF *tif) { return (tif->tif_unmapproc); }