/* $Id: tif_dirread.c,v 1.174 2012-02-01 02:24:47 fwarmerdam Exp $ */ /* * 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. * * Directory Read Support Routines. */ /* Suggested pending improvements: * - add a field 'ignore' to the TIFFDirEntry structure, to flag status, * eliminating current use of the IGNORE value, and therefore eliminating * current irrational behaviour on tags with tag id code 0 * - add a field 'field_info' to the TIFFDirEntry structure, and set that with * the pointer to the appropriate TIFFField structure early on in * TIFFReadDirectory, so as to eliminate current possibly repetitive lookup. */ #include "tiffiop.h" #define IGNORE 0 /* tag placeholder used below */ #define FAILED_FII ((uint32) -1) #ifdef HAVE_IEEEFP # define TIFFCvtIEEEFloatToNative(tif, n, fp) # define TIFFCvtIEEEDoubleToNative(tif, n, dp) #else extern void TIFFCvtIEEEFloatToNative(TIFF*, uint32, float*); extern void TIFFCvtIEEEDoubleToNative(TIFF*, uint32, double*); #endif enum TIFFReadDirEntryErr { TIFFReadDirEntryErrOk = 0, TIFFReadDirEntryErrCount = 1, TIFFReadDirEntryErrType = 2, TIFFReadDirEntryErrIo = 3, TIFFReadDirEntryErrRange = 4, TIFFReadDirEntryErrPsdif = 5, TIFFReadDirEntryErrSizesan = 6, TIFFReadDirEntryErrAlloc = 7, }; static enum TIFFReadDirEntryErr TIFFReadDirEntryByte(TIFF* tif, TIFFDirEntry* direntry, uint8* value); static enum TIFFReadDirEntryErr TIFFReadDirEntryShort(TIFF* tif, TIFFDirEntry* direntry, uint16* value); static enum TIFFReadDirEntryErr TIFFReadDirEntryLong(TIFF* tif, TIFFDirEntry* direntry, uint32* value); static enum TIFFReadDirEntryErr TIFFReadDirEntryLong8(TIFF* tif, TIFFDirEntry* direntry, uint64* value); static enum TIFFReadDirEntryErr TIFFReadDirEntryFloat(TIFF* tif, TIFFDirEntry* direntry, float* value); static enum TIFFReadDirEntryErr TIFFReadDirEntryDouble(TIFF* tif, TIFFDirEntry* direntry, double* value); static enum TIFFReadDirEntryErr TIFFReadDirEntryIfd8(TIFF* tif, TIFFDirEntry* direntry, uint64* value); static enum TIFFReadDirEntryErr TIFFReadDirEntryArray(TIFF* tif, TIFFDirEntry* direntry, uint32* count, uint32 desttypesize, void** value); static enum TIFFReadDirEntryErr TIFFReadDirEntryByteArray(TIFF* tif, TIFFDirEntry* direntry, uint8** value); static enum TIFFReadDirEntryErr TIFFReadDirEntrySbyteArray(TIFF* tif, TIFFDirEntry* direntry, int8** value); static enum TIFFReadDirEntryErr TIFFReadDirEntryShortArray(TIFF* tif, TIFFDirEntry* direntry, uint16** value); static enum TIFFReadDirEntryErr TIFFReadDirEntrySshortArray(TIFF* tif, TIFFDirEntry* direntry, int16** value); static enum TIFFReadDirEntryErr TIFFReadDirEntryLongArray(TIFF* tif, TIFFDirEntry* direntry, uint32** value); static enum TIFFReadDirEntryErr TIFFReadDirEntrySlongArray(TIFF* tif, TIFFDirEntry* direntry, int32** value); static enum TIFFReadDirEntryErr TIFFReadDirEntryLong8Array(TIFF* tif, TIFFDirEntry* direntry, uint64** value); static enum TIFFReadDirEntryErr TIFFReadDirEntrySlong8Array(TIFF* tif, TIFFDirEntry* direntry, int64** value); static enum TIFFReadDirEntryErr TIFFReadDirEntryFloatArray(TIFF* tif, TIFFDirEntry* direntry, float** value); static enum TIFFReadDirEntryErr TIFFReadDirEntryDoubleArray(TIFF* tif, TIFFDirEntry* direntry, double** value); static enum TIFFReadDirEntryErr TIFFReadDirEntryIfd8Array(TIFF* tif, TIFFDirEntry* direntry, uint64** value); static enum TIFFReadDirEntryErr TIFFReadDirEntryPersampleShort(TIFF* tif, TIFFDirEntry* direntry, uint16* value); #if 0 static enum TIFFReadDirEntryErr TIFFReadDirEntryPersampleDouble(TIFF* tif, TIFFDirEntry* direntry, double* value); #endif static void TIFFReadDirEntryCheckedByte(TIFF* tif, TIFFDirEntry* direntry, uint8* value); static void TIFFReadDirEntryCheckedSbyte(TIFF* tif, TIFFDirEntry* direntry, int8* value); static void TIFFReadDirEntryCheckedShort(TIFF* tif, TIFFDirEntry* direntry, uint16* value); static void TIFFReadDirEntryCheckedSshort(TIFF* tif, TIFFDirEntry* direntry, int16* value); static void TIFFReadDirEntryCheckedLong(TIFF* tif, TIFFDirEntry* direntry, uint32* value); static void TIFFReadDirEntryCheckedSlong(TIFF* tif, TIFFDirEntry* direntry, int32* value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckedLong8(TIFF* tif, TIFFDirEntry* direntry, uint64* value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckedSlong8(TIFF* tif, TIFFDirEntry* direntry, int64* value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckedRational(TIFF* tif, TIFFDirEntry* direntry, double* value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckedSrational(TIFF* tif, TIFFDirEntry* direntry, double* value); static void TIFFReadDirEntryCheckedFloat(TIFF* tif, TIFFDirEntry* direntry, float* value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckedDouble(TIFF* tif, TIFFDirEntry* direntry, double* value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeByteSbyte(int8 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeByteShort(uint16 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeByteSshort(int16 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeByteLong(uint32 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeByteSlong(int32 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeByteLong8(uint64 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeByteSlong8(int64 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSbyteByte(uint8 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSbyteShort(uint16 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSbyteSshort(int16 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSbyteLong(uint32 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSbyteSlong(int32 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSbyteLong8(uint64 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSbyteSlong8(int64 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeShortSbyte(int8 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeShortSshort(int16 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeShortLong(uint32 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeShortSlong(int32 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeShortLong8(uint64 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeShortSlong8(int64 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSshortShort(uint16 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSshortLong(uint32 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSshortSlong(int32 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSshortLong8(uint64 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSshortSlong8(int64 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeLongSbyte(int8 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeLongSshort(int16 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeLongSlong(int32 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeLongLong8(uint64 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeLongSlong8(int64 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSlongLong(uint32 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSlongLong8(uint64 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSlongSlong8(int64 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeLong8Sbyte(int8 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeLong8Sshort(int16 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeLong8Slong(int32 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeLong8Slong8(int64 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSlong8Long8(uint64 value); static enum TIFFReadDirEntryErr TIFFReadDirEntryData(TIFF* tif, uint64 offset, tmsize_t size, void* dest); static void TIFFReadDirEntryOutputErr(TIFF* tif, enum TIFFReadDirEntryErr err, const char* module, const char* tagname, int recover); static void TIFFReadDirectoryCheckOrder(TIFF* tif, TIFFDirEntry* dir, uint16 dircount); static TIFFDirEntry* TIFFReadDirectoryFindEntry(TIFF* tif, TIFFDirEntry* dir, uint16 dircount, uint16 tagid); static void TIFFReadDirectoryFindFieldInfo(TIFF* tif, uint16 tagid, uint32* fii); static int EstimateStripByteCounts(TIFF* tif, TIFFDirEntry* dir, uint16 dircount); static void MissingRequired(TIFF*, const char*); static int TIFFCheckDirOffset(TIFF* tif, uint64 diroff); static int CheckDirCount(TIFF*, TIFFDirEntry*, uint32); static uint16 TIFFFetchDirectory(TIFF* tif, uint64 diroff, TIFFDirEntry** pdir, uint64* nextdiroff); static int TIFFFetchNormalTag(TIFF*, TIFFDirEntry*, int recover); static int TIFFFetchStripThing(TIFF* tif, TIFFDirEntry* dir, uint32 nstrips, uint64** lpp); static int TIFFFetchSubjectDistance(TIFF*, TIFFDirEntry*); static void ChopUpSingleUncompressedStrip(TIFF*); static uint64 TIFFReadUInt64(const uint8 *value); typedef union _UInt64Aligned_t { double d; uint64 l; uint32 i[2]; uint16 s[4]; uint8 c[8]; } UInt64Aligned_t; /* Unaligned safe copy of a uint64 value from an octet array. */ static uint64 TIFFReadUInt64(const uint8 *value) { UInt64Aligned_t result; result.c[0]=value[0]; result.c[1]=value[1]; result.c[2]=value[2]; result.c[3]=value[3]; result.c[4]=value[4]; result.c[5]=value[5]; result.c[6]=value[6]; result.c[7]=value[7]; return result.l; } static enum TIFFReadDirEntryErr TIFFReadDirEntryByte(TIFF* tif, TIFFDirEntry* direntry, uint8* value) { enum TIFFReadDirEntryErr err; if (direntry->tdir_count!=1) return(TIFFReadDirEntryErrCount); switch (direntry->tdir_type) { case TIFF_BYTE: TIFFReadDirEntryCheckedByte(tif,direntry,value); return(TIFFReadDirEntryErrOk); case TIFF_SBYTE: { int8 m; TIFFReadDirEntryCheckedSbyte(tif,direntry,&m); err=TIFFReadDirEntryCheckRangeByteSbyte(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint8)m; return(TIFFReadDirEntryErrOk); } case TIFF_SHORT: { uint16 m; TIFFReadDirEntryCheckedShort(tif,direntry,&m); err=TIFFReadDirEntryCheckRangeByteShort(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint8)m; return(TIFFReadDirEntryErrOk); } case TIFF_SSHORT: { int16 m; TIFFReadDirEntryCheckedSshort(tif,direntry,&m); err=TIFFReadDirEntryCheckRangeByteSshort(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint8)m; return(TIFFReadDirEntryErrOk); } case TIFF_LONG: { uint32 m; TIFFReadDirEntryCheckedLong(tif,direntry,&m); err=TIFFReadDirEntryCheckRangeByteLong(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint8)m; return(TIFFReadDirEntryErrOk); } case TIFF_SLONG: { int32 m; TIFFReadDirEntryCheckedSlong(tif,direntry,&m); err=TIFFReadDirEntryCheckRangeByteSlong(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint8)m; return(TIFFReadDirEntryErrOk); } case TIFF_LONG8: { uint64 m; err=TIFFReadDirEntryCheckedLong8(tif,direntry,&m); if (err!=TIFFReadDirEntryErrOk) return(err); err=TIFFReadDirEntryCheckRangeByteLong8(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint8)m; return(TIFFReadDirEntryErrOk); } case TIFF_SLONG8: { int64 m; err=TIFFReadDirEntryCheckedSlong8(tif,direntry,&m); if (err!=TIFFReadDirEntryErrOk) return(err); err=TIFFReadDirEntryCheckRangeByteSlong8(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint8)m; return(TIFFReadDirEntryErrOk); } default: return(TIFFReadDirEntryErrType); } } static enum TIFFReadDirEntryErr TIFFReadDirEntryShort(TIFF* tif, TIFFDirEntry* direntry, uint16* value) { enum TIFFReadDirEntryErr err; if (direntry->tdir_count!=1) return(TIFFReadDirEntryErrCount); switch (direntry->tdir_type) { case TIFF_BYTE: { uint8 m; TIFFReadDirEntryCheckedByte(tif,direntry,&m); *value=(uint16)m; return(TIFFReadDirEntryErrOk); } case TIFF_SBYTE: { int8 m; TIFFReadDirEntryCheckedSbyte(tif,direntry,&m); err=TIFFReadDirEntryCheckRangeShortSbyte(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint16)m; return(TIFFReadDirEntryErrOk); } case TIFF_SHORT: TIFFReadDirEntryCheckedShort(tif,direntry,value); return(TIFFReadDirEntryErrOk); case TIFF_SSHORT: { int16 m; TIFFReadDirEntryCheckedSshort(tif,direntry,&m); err=TIFFReadDirEntryCheckRangeShortSshort(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint16)m; return(TIFFReadDirEntryErrOk); } case TIFF_LONG: { uint32 m; TIFFReadDirEntryCheckedLong(tif,direntry,&m); err=TIFFReadDirEntryCheckRangeShortLong(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint16)m; return(TIFFReadDirEntryErrOk); } case TIFF_SLONG: { int32 m; TIFFReadDirEntryCheckedSlong(tif,direntry,&m); err=TIFFReadDirEntryCheckRangeShortSlong(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint16)m; return(TIFFReadDirEntryErrOk); } case TIFF_LONG8: { uint64 m; err=TIFFReadDirEntryCheckedLong8(tif,direntry,&m); if (err!=TIFFReadDirEntryErrOk) return(err); err=TIFFReadDirEntryCheckRangeShortLong8(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint16)m; return(TIFFReadDirEntryErrOk); } case TIFF_SLONG8: { int64 m; err=TIFFReadDirEntryCheckedSlong8(tif,direntry,&m); if (err!=TIFFReadDirEntryErrOk) return(err); err=TIFFReadDirEntryCheckRangeShortSlong8(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint16)m; return(TIFFReadDirEntryErrOk); } default: return(TIFFReadDirEntryErrType); } } static enum TIFFReadDirEntryErr TIFFReadDirEntryLong(TIFF* tif, TIFFDirEntry* direntry, uint32* value) { enum TIFFReadDirEntryErr err; if (direntry->tdir_count!=1) return(TIFFReadDirEntryErrCount); switch (direntry->tdir_type) { case TIFF_BYTE: { uint8 m; TIFFReadDirEntryCheckedByte(tif,direntry,&m); *value=(uint32)m; return(TIFFReadDirEntryErrOk); } case TIFF_SBYTE: { int8 m; TIFFReadDirEntryCheckedSbyte(tif,direntry,&m); err=TIFFReadDirEntryCheckRangeLongSbyte(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint32)m; return(TIFFReadDirEntryErrOk); } case TIFF_SHORT: { uint16 m; TIFFReadDirEntryCheckedShort(tif,direntry,&m); *value=(uint32)m; return(TIFFReadDirEntryErrOk); } case TIFF_SSHORT: { int16 m; TIFFReadDirEntryCheckedSshort(tif,direntry,&m); err=TIFFReadDirEntryCheckRangeLongSshort(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint32)m; return(TIFFReadDirEntryErrOk); } case TIFF_LONG: TIFFReadDirEntryCheckedLong(tif,direntry,value); return(TIFFReadDirEntryErrOk); case TIFF_SLONG: { int32 m; TIFFReadDirEntryCheckedSlong(tif,direntry,&m); err=TIFFReadDirEntryCheckRangeLongSlong(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint32)m; return(TIFFReadDirEntryErrOk); } case TIFF_LONG8: { uint64 m; err=TIFFReadDirEntryCheckedLong8(tif,direntry,&m); if (err!=TIFFReadDirEntryErrOk) return(err); err=TIFFReadDirEntryCheckRangeLongLong8(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint32)m; return(TIFFReadDirEntryErrOk); } case TIFF_SLONG8: { int64 m; err=TIFFReadDirEntryCheckedSlong8(tif,direntry,&m); if (err!=TIFFReadDirEntryErrOk) return(err); err=TIFFReadDirEntryCheckRangeLongSlong8(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint32)m; return(TIFFReadDirEntryErrOk); } default: return(TIFFReadDirEntryErrType); } } static enum TIFFReadDirEntryErr TIFFReadDirEntryLong8(TIFF* tif, TIFFDirEntry* direntry, uint64* value) { enum TIFFReadDirEntryErr err; if (direntry->tdir_count!=1) return(TIFFReadDirEntryErrCount); switch (direntry->tdir_type) { case TIFF_BYTE: { uint8 m; TIFFReadDirEntryCheckedByte(tif,direntry,&m); *value=(uint64)m; return(TIFFReadDirEntryErrOk); } case TIFF_SBYTE: { int8 m; TIFFReadDirEntryCheckedSbyte(tif,direntry,&m); err=TIFFReadDirEntryCheckRangeLong8Sbyte(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint64)m; return(TIFFReadDirEntryErrOk); } case TIFF_SHORT: { uint16 m; TIFFReadDirEntryCheckedShort(tif,direntry,&m); *value=(uint64)m; return(TIFFReadDirEntryErrOk); } case TIFF_SSHORT: { int16 m; TIFFReadDirEntryCheckedSshort(tif,direntry,&m); err=TIFFReadDirEntryCheckRangeLong8Sshort(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint64)m; return(TIFFReadDirEntryErrOk); } case TIFF_LONG: { uint32 m; TIFFReadDirEntryCheckedLong(tif,direntry,&m); *value=(uint64)m; return(TIFFReadDirEntryErrOk); } case TIFF_SLONG: { int32 m; TIFFReadDirEntryCheckedSlong(tif,direntry,&m); err=TIFFReadDirEntryCheckRangeLong8Slong(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint64)m; return(TIFFReadDirEntryErrOk); } case TIFF_LONG8: err=TIFFReadDirEntryCheckedLong8(tif,direntry,value); return(err); case TIFF_SLONG8: { int64 m; err=TIFFReadDirEntryCheckedSlong8(tif,direntry,&m); if (err!=TIFFReadDirEntryErrOk) return(err); err=TIFFReadDirEntryCheckRangeLong8Slong8(m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(uint64)m; return(TIFFReadDirEntryErrOk); } default: return(TIFFReadDirEntryErrType); } } static enum TIFFReadDirEntryErr TIFFReadDirEntryFloat(TIFF* tif, TIFFDirEntry* direntry, float* value) { enum TIFFReadDirEntryErr err; if (direntry->tdir_count!=1) return(TIFFReadDirEntryErrCount); switch (direntry->tdir_type) { case TIFF_BYTE: { uint8 m; TIFFReadDirEntryCheckedByte(tif,direntry,&m); *value=(float)m; return(TIFFReadDirEntryErrOk); } case TIFF_SBYTE: { int8 m; TIFFReadDirEntryCheckedSbyte(tif,direntry,&m); *value=(float)m; return(TIFFReadDirEntryErrOk); } case TIFF_SHORT: { uint16 m; TIFFReadDirEntryCheckedShort(tif,direntry,&m); *value=(float)m; return(TIFFReadDirEntryErrOk); } case TIFF_SSHORT: { int16 m; TIFFReadDirEntryCheckedSshort(tif,direntry,&m); *value=(float)m; return(TIFFReadDirEntryErrOk); } case TIFF_LONG: { uint32 m; TIFFReadDirEntryCheckedLong(tif,direntry,&m); *value=(float)m; return(TIFFReadDirEntryErrOk); } case TIFF_SLONG: { int32 m; TIFFReadDirEntryCheckedSlong(tif,direntry,&m); *value=(float)m; return(TIFFReadDirEntryErrOk); } case TIFF_LONG8: { uint64 m; err=TIFFReadDirEntryCheckedLong8(tif,direntry,&m); if (err!=TIFFReadDirEntryErrOk) return(err); #if defined(__WIN32__) && (_MSC_VER < 1500) /* * XXX: MSVC 6.0 does not support conversion * of 64-bit integers into floating point * values. */ *value = _TIFFUInt64ToFloat(m); #else *value=(float)m; #endif return(TIFFReadDirEntryErrOk); } case TIFF_SLONG8: { int64 m; err=TIFFReadDirEntryCheckedSlong8(tif,direntry,&m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(float)m; return(TIFFReadDirEntryErrOk); } case TIFF_RATIONAL: { double m; err=TIFFReadDirEntryCheckedRational(tif,direntry,&m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(float)m; return(TIFFReadDirEntryErrOk); } case TIFF_SRATIONAL: { double m; err=TIFFReadDirEntryCheckedSrational(tif,direntry,&m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(float)m; return(TIFFReadDirEntryErrOk); } case TIFF_FLOAT: TIFFReadDirEntryCheckedFloat(tif,direntry,value); return(TIFFReadDirEntryErrOk); case TIFF_DOUBLE: { double m; err=TIFFReadDirEntryCheckedDouble(tif,direntry,&m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(float)m; return(TIFFReadDirEntryErrOk); } default: return(TIFFReadDirEntryErrType); } } static enum TIFFReadDirEntryErr TIFFReadDirEntryDouble(TIFF* tif, TIFFDirEntry* direntry, double* value) { enum TIFFReadDirEntryErr err; if (direntry->tdir_count!=1) return(TIFFReadDirEntryErrCount); switch (direntry->tdir_type) { case TIFF_BYTE: { uint8 m; TIFFReadDirEntryCheckedByte(tif,direntry,&m); *value=(double)m; return(TIFFReadDirEntryErrOk); } case TIFF_SBYTE: { int8 m; TIFFReadDirEntryCheckedSbyte(tif,direntry,&m); *value=(double)m; return(TIFFReadDirEntryErrOk); } case TIFF_SHORT: { uint16 m; TIFFReadDirEntryCheckedShort(tif,direntry,&m); *value=(double)m; return(TIFFReadDirEntryErrOk); } case TIFF_SSHORT: { int16 m; TIFFReadDirEntryCheckedSshort(tif,direntry,&m); *value=(double)m; return(TIFFReadDirEntryErrOk); } case TIFF_LONG: { uint32 m; TIFFReadDirEntryCheckedLong(tif,direntry,&m); *value=(double)m; return(TIFFReadDirEntryErrOk); } case TIFF_SLONG: { int32 m; TIFFReadDirEntryCheckedSlong(tif,direntry,&m); *value=(double)m; return(TIFFReadDirEntryErrOk); } case TIFF_LONG8: { uint64 m; err=TIFFReadDirEntryCheckedLong8(tif,direntry,&m); if (err!=TIFFReadDirEntryErrOk) return(err); #if defined(__WIN32__) && (_MSC_VER < 1500) /* * XXX: MSVC 6.0 does not support conversion * of 64-bit integers into floating point * values. */ *value = _TIFFUInt64ToDouble(m); #else *value = (double)m; #endif return(TIFFReadDirEntryErrOk); } case TIFF_SLONG8: { int64 m; err=TIFFReadDirEntryCheckedSlong8(tif,direntry,&m); if (err!=TIFFReadDirEntryErrOk) return(err); *value=(double)m; return(TIFFReadDirEntryErrOk); } case TIFF_RATIONAL: err=TIFFReadDirEntryCheckedRational(tif,direntry,value); return(err); case TIFF_SRATIONAL: err=TIFFReadDirEntryCheckedSrational(tif,direntry,value); return(err); case TIFF_FLOAT: { float m; TIFFReadDirEntryCheckedFloat(tif,direntry,&m); *value=(double)m; return(TIFFReadDirEntryErrOk); } case TIFF_DOUBLE: err=TIFFReadDirEntryCheckedDouble(tif,direntry,value); return(err); default: return(TIFFReadDirEntryErrType); } } static enum TIFFReadDirEntryErr TIFFReadDirEntryIfd8(TIFF* tif, TIFFDirEntry* direntry, uint64* value) { enum TIFFReadDirEntryErr err; if (direntry->tdir_count!=1) return(TIFFReadDirEntryErrCount); switch (direntry->tdir_type) { case TIFF_LONG: case TIFF_IFD: { uint32 m; TIFFReadDirEntryCheckedLong(tif,direntry,&m); *value=(uint64)m; return(TIFFReadDirEntryErrOk); } case TIFF_LONG8: case TIFF_IFD8: err=TIFFReadDirEntryCheckedLong8(tif,direntry,value); return(err); default: return(TIFFReadDirEntryErrType); } } static enum TIFFReadDirEntryErr TIFFReadDirEntryArray(TIFF* tif, TIFFDirEntry* direntry, uint32* count, uint32 desttypesize, void** value) { int typesize; uint32 datasize; void* data; typesize=TIFFDataWidth(direntry->tdir_type); if ((direntry->tdir_count==0)||(typesize==0)) { *value=0; return(TIFFReadDirEntryErrOk); } (void) desttypesize; /* * As a sanity check, make sure we have no more than a 2GB tag array * in either the current data type or the dest data type. This also * avoids problems with overflow of tmsize_t on 32bit systems. */ if ((uint64)(2147483647/typesize)tdir_count) return(TIFFReadDirEntryErrSizesan); if ((uint64)(2147483647/desttypesize)tdir_count) return(TIFFReadDirEntryErrSizesan); *count=(uint32)direntry->tdir_count; datasize=(*count)*typesize; assert((tmsize_t)datasize>0); data=_TIFFCheckMalloc(tif, *count, typesize, "ReadDirEntryArray"); if (data==0) return(TIFFReadDirEntryErrAlloc); if (!(tif->tif_flags&TIFF_BIGTIFF)) { if (datasize<=4) _TIFFmemcpy(data,&direntry->tdir_offset,datasize); else { enum TIFFReadDirEntryErr err; uint32 offset = direntry->tdir_offset.toff_long; if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong(&offset); err=TIFFReadDirEntryData(tif,(uint64)offset,(tmsize_t)datasize,data); if (err!=TIFFReadDirEntryErrOk) { _TIFFfree(data); return(err); } } } else { if (datasize<=8) _TIFFmemcpy(data,&direntry->tdir_offset,datasize); else { enum TIFFReadDirEntryErr err; uint64 offset = direntry->tdir_offset.toff_long8; if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong8(&offset); err=TIFFReadDirEntryData(tif,offset,(tmsize_t)datasize,data); if (err!=TIFFReadDirEntryErrOk) { _TIFFfree(data); return(err); } } } *value=data; return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryByteArray(TIFF* tif, TIFFDirEntry* direntry, uint8** value) { enum TIFFReadDirEntryErr err; uint32 count; void* origdata; uint8* data; switch (direntry->tdir_type) { case TIFF_ASCII: case TIFF_UNDEFINED: case TIFF_BYTE: case TIFF_SBYTE: case TIFF_SHORT: case TIFF_SSHORT: case TIFF_LONG: case TIFF_SLONG: case TIFF_LONG8: case TIFF_SLONG8: break; default: return(TIFFReadDirEntryErrType); } err=TIFFReadDirEntryArray(tif,direntry,&count,1,&origdata); if ((err!=TIFFReadDirEntryErrOk)||(origdata==0)) { *value=0; return(err); } switch (direntry->tdir_type) { case TIFF_ASCII: case TIFF_UNDEFINED: case TIFF_BYTE: *value=(uint8*)origdata; return(TIFFReadDirEntryErrOk); case TIFF_SBYTE: { int8* m; uint32 n; m=(int8*)origdata; for (n=0; ntdir_type) { case TIFF_SHORT: { uint16* ma; uint8* mb; uint32 n; ma=(uint16*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabShort(ma); err=TIFFReadDirEntryCheckRangeByteShort(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(uint8)(*ma++); } } break; case TIFF_SSHORT: { int16* ma; uint8* mb; uint32 n; ma=(int16*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabShort((uint16*)ma); err=TIFFReadDirEntryCheckRangeByteSshort(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(uint8)(*ma++); } } break; case TIFF_LONG: { uint32* ma; uint8* mb; uint32 n; ma=(uint32*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong(ma); err=TIFFReadDirEntryCheckRangeByteLong(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(uint8)(*ma++); } } break; case TIFF_SLONG: { int32* ma; uint8* mb; uint32 n; ma=(int32*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong((uint32*)ma); err=TIFFReadDirEntryCheckRangeByteSlong(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(uint8)(*ma++); } } break; case TIFF_LONG8: { uint64* ma; uint8* mb; uint32 n; ma=(uint64*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong8(ma); err=TIFFReadDirEntryCheckRangeByteLong8(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(uint8)(*ma++); } } break; case TIFF_SLONG8: { int64* ma; uint8* mb; uint32 n; ma=(int64*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong8((uint64*)ma); err=TIFFReadDirEntryCheckRangeByteSlong8(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(uint8)(*ma++); } } break; } _TIFFfree(origdata); if (err!=TIFFReadDirEntryErrOk) { _TIFFfree(data); return(err); } *value=data; return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntrySbyteArray(TIFF* tif, TIFFDirEntry* direntry, int8** value) { enum TIFFReadDirEntryErr err; uint32 count; void* origdata; int8* data; switch (direntry->tdir_type) { case TIFF_UNDEFINED: case TIFF_BYTE: case TIFF_SBYTE: case TIFF_SHORT: case TIFF_SSHORT: case TIFF_LONG: case TIFF_SLONG: case TIFF_LONG8: case TIFF_SLONG8: break; default: return(TIFFReadDirEntryErrType); } err=TIFFReadDirEntryArray(tif,direntry,&count,1,&origdata); if ((err!=TIFFReadDirEntryErrOk)||(origdata==0)) { *value=0; return(err); } switch (direntry->tdir_type) { case TIFF_UNDEFINED: case TIFF_BYTE: { uint8* m; uint32 n; m=(uint8*)origdata; for (n=0; ntdir_type) { case TIFF_SHORT: { uint16* ma; int8* mb; uint32 n; ma=(uint16*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabShort(ma); err=TIFFReadDirEntryCheckRangeSbyteShort(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(int8)(*ma++); } } break; case TIFF_SSHORT: { int16* ma; int8* mb; uint32 n; ma=(int16*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabShort((uint16*)ma); err=TIFFReadDirEntryCheckRangeSbyteSshort(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(int8)(*ma++); } } break; case TIFF_LONG: { uint32* ma; int8* mb; uint32 n; ma=(uint32*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong(ma); err=TIFFReadDirEntryCheckRangeSbyteLong(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(int8)(*ma++); } } break; case TIFF_SLONG: { int32* ma; int8* mb; uint32 n; ma=(int32*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong((uint32*)ma); err=TIFFReadDirEntryCheckRangeSbyteSlong(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(int8)(*ma++); } } break; case TIFF_LONG8: { uint64* ma; int8* mb; uint32 n; ma=(uint64*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong8(ma); err=TIFFReadDirEntryCheckRangeSbyteLong8(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(int8)(*ma++); } } break; case TIFF_SLONG8: { int64* ma; int8* mb; uint32 n; ma=(int64*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong8((uint64*)ma); err=TIFFReadDirEntryCheckRangeSbyteSlong8(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(int8)(*ma++); } } break; } _TIFFfree(origdata); if (err!=TIFFReadDirEntryErrOk) { _TIFFfree(data); return(err); } *value=data; return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryShortArray(TIFF* tif, TIFFDirEntry* direntry, uint16** value) { enum TIFFReadDirEntryErr err; uint32 count; void* origdata; uint16* data; switch (direntry->tdir_type) { case TIFF_BYTE: case TIFF_SBYTE: case TIFF_SHORT: case TIFF_SSHORT: case TIFF_LONG: case TIFF_SLONG: case TIFF_LONG8: case TIFF_SLONG8: break; default: return(TIFFReadDirEntryErrType); } err=TIFFReadDirEntryArray(tif,direntry,&count,2,&origdata); if ((err!=TIFFReadDirEntryErrOk)||(origdata==0)) { *value=0; return(err); } switch (direntry->tdir_type) { case TIFF_SHORT: *value=(uint16*)origdata; if (tif->tif_flags&TIFF_SWAB) TIFFSwabArrayOfShort(*value,count); return(TIFFReadDirEntryErrOk); case TIFF_SSHORT: { int16* m; uint32 n; m=(int16*)origdata; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabShort((uint16*)m); err=TIFFReadDirEntryCheckRangeShortSshort(*m); if (err!=TIFFReadDirEntryErrOk) { _TIFFfree(origdata); return(err); } m++; } *value=(uint16*)origdata; return(TIFFReadDirEntryErrOk); } } data=(uint16*)_TIFFmalloc(count*2); if (data==0) { _TIFFfree(origdata); return(TIFFReadDirEntryErrAlloc); } switch (direntry->tdir_type) { case TIFF_BYTE: { uint8* ma; uint16* mb; uint32 n; ma=(uint8*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong(ma); err=TIFFReadDirEntryCheckRangeShortLong(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(uint16)(*ma++); } } break; case TIFF_SLONG: { int32* ma; uint16* mb; uint32 n; ma=(int32*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong((uint32*)ma); err=TIFFReadDirEntryCheckRangeShortSlong(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(uint16)(*ma++); } } break; case TIFF_LONG8: { uint64* ma; uint16* mb; uint32 n; ma=(uint64*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong8(ma); err=TIFFReadDirEntryCheckRangeShortLong8(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(uint16)(*ma++); } } break; case TIFF_SLONG8: { int64* ma; uint16* mb; uint32 n; ma=(int64*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong8((uint64*)ma); err=TIFFReadDirEntryCheckRangeShortSlong8(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(uint16)(*ma++); } } break; } _TIFFfree(origdata); if (err!=TIFFReadDirEntryErrOk) { _TIFFfree(data); return(err); } *value=data; return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntrySshortArray(TIFF* tif, TIFFDirEntry* direntry, int16** value) { enum TIFFReadDirEntryErr err; uint32 count; void* origdata; int16* data; switch (direntry->tdir_type) { case TIFF_BYTE: case TIFF_SBYTE: case TIFF_SHORT: case TIFF_SSHORT: case TIFF_LONG: case TIFF_SLONG: case TIFF_LONG8: case TIFF_SLONG8: break; default: return(TIFFReadDirEntryErrType); } err=TIFFReadDirEntryArray(tif,direntry,&count,2,&origdata); if ((err!=TIFFReadDirEntryErrOk)||(origdata==0)) { *value=0; return(err); } switch (direntry->tdir_type) { case TIFF_SHORT: { uint16* m; uint32 n; m=(uint16*)origdata; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabShort(m); err=TIFFReadDirEntryCheckRangeSshortShort(*m); if (err!=TIFFReadDirEntryErrOk) { _TIFFfree(origdata); return(err); } m++; } *value=(int16*)origdata; return(TIFFReadDirEntryErrOk); } case TIFF_SSHORT: *value=(int16*)origdata; if (tif->tif_flags&TIFF_SWAB) TIFFSwabArrayOfShort((uint16*)(*value),count); return(TIFFReadDirEntryErrOk); } data=(int16*)_TIFFmalloc(count*2); if (data==0) { _TIFFfree(origdata); return(TIFFReadDirEntryErrAlloc); } switch (direntry->tdir_type) { case TIFF_BYTE: { uint8* ma; int16* mb; uint32 n; ma=(uint8*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong(ma); err=TIFFReadDirEntryCheckRangeSshortLong(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(int16)(*ma++); } } break; case TIFF_SLONG: { int32* ma; int16* mb; uint32 n; ma=(int32*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong((uint32*)ma); err=TIFFReadDirEntryCheckRangeSshortSlong(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(int16)(*ma++); } } break; case TIFF_LONG8: { uint64* ma; int16* mb; uint32 n; ma=(uint64*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong8(ma); err=TIFFReadDirEntryCheckRangeSshortLong8(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(int16)(*ma++); } } break; case TIFF_SLONG8: { int64* ma; int16* mb; uint32 n; ma=(int64*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong8((uint64*)ma); err=TIFFReadDirEntryCheckRangeSshortSlong8(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(int16)(*ma++); } } break; } _TIFFfree(origdata); if (err!=TIFFReadDirEntryErrOk) { _TIFFfree(data); return(err); } *value=data; return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryLongArray(TIFF* tif, TIFFDirEntry* direntry, uint32** value) { enum TIFFReadDirEntryErr err; uint32 count; void* origdata; uint32* data; switch (direntry->tdir_type) { case TIFF_BYTE: case TIFF_SBYTE: case TIFF_SHORT: case TIFF_SSHORT: case TIFF_LONG: case TIFF_SLONG: case TIFF_LONG8: case TIFF_SLONG8: break; default: return(TIFFReadDirEntryErrType); } err=TIFFReadDirEntryArray(tif,direntry,&count,4,&origdata); if ((err!=TIFFReadDirEntryErrOk)||(origdata==0)) { *value=0; return(err); } switch (direntry->tdir_type) { case TIFF_LONG: *value=(uint32*)origdata; if (tif->tif_flags&TIFF_SWAB) TIFFSwabArrayOfLong(*value,count); return(TIFFReadDirEntryErrOk); case TIFF_SLONG: { int32* m; uint32 n; m=(int32*)origdata; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong((uint32*)m); err=TIFFReadDirEntryCheckRangeLongSlong(*m); if (err!=TIFFReadDirEntryErrOk) { _TIFFfree(origdata); return(err); } m++; } *value=(uint32*)origdata; return(TIFFReadDirEntryErrOk); } } data=(uint32*)_TIFFmalloc(count*4); if (data==0) { _TIFFfree(origdata); return(TIFFReadDirEntryErrAlloc); } switch (direntry->tdir_type) { case TIFF_BYTE: { uint8* ma; uint32* mb; uint32 n; ma=(uint8*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabShort(ma); *mb++=(uint32)(*ma++); } } break; case TIFF_SSHORT: { int16* ma; uint32* mb; uint32 n; ma=(int16*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabShort((uint16*)ma); err=TIFFReadDirEntryCheckRangeLongSshort(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(uint32)(*ma++); } } break; case TIFF_LONG8: { uint64* ma; uint32* mb; uint32 n; ma=(uint64*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong8(ma); err=TIFFReadDirEntryCheckRangeLongLong8(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(uint32)(*ma++); } } break; case TIFF_SLONG8: { int64* ma; uint32* mb; uint32 n; ma=(int64*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong8((uint64*)ma); err=TIFFReadDirEntryCheckRangeLongSlong8(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(uint32)(*ma++); } } break; } _TIFFfree(origdata); if (err!=TIFFReadDirEntryErrOk) { _TIFFfree(data); return(err); } *value=data; return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntrySlongArray(TIFF* tif, TIFFDirEntry* direntry, int32** value) { enum TIFFReadDirEntryErr err; uint32 count; void* origdata; int32* data; switch (direntry->tdir_type) { case TIFF_BYTE: case TIFF_SBYTE: case TIFF_SHORT: case TIFF_SSHORT: case TIFF_LONG: case TIFF_SLONG: case TIFF_LONG8: case TIFF_SLONG8: break; default: return(TIFFReadDirEntryErrType); } err=TIFFReadDirEntryArray(tif,direntry,&count,4,&origdata); if ((err!=TIFFReadDirEntryErrOk)||(origdata==0)) { *value=0; return(err); } switch (direntry->tdir_type) { case TIFF_LONG: { uint32* m; uint32 n; m=(uint32*)origdata; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong((uint32*)m); err=TIFFReadDirEntryCheckRangeSlongLong(*m); if (err!=TIFFReadDirEntryErrOk) { _TIFFfree(origdata); return(err); } m++; } *value=(int32*)origdata; return(TIFFReadDirEntryErrOk); } case TIFF_SLONG: *value=(int32*)origdata; if (tif->tif_flags&TIFF_SWAB) TIFFSwabArrayOfLong((uint32*)(*value),count); return(TIFFReadDirEntryErrOk); } data=(int32*)_TIFFmalloc(count*4); if (data==0) { _TIFFfree(origdata); return(TIFFReadDirEntryErrAlloc); } switch (direntry->tdir_type) { case TIFF_BYTE: { uint8* ma; int32* mb; uint32 n; ma=(uint8*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabShort(ma); *mb++=(int32)(*ma++); } } break; case TIFF_SSHORT: { int16* ma; int32* mb; uint32 n; ma=(int16*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabShort((uint16*)ma); *mb++=(int32)(*ma++); } } break; case TIFF_LONG8: { uint64* ma; int32* mb; uint32 n; ma=(uint64*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong8(ma); err=TIFFReadDirEntryCheckRangeSlongLong8(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(int32)(*ma++); } } break; case TIFF_SLONG8: { int64* ma; int32* mb; uint32 n; ma=(int64*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong8((uint64*)ma); err=TIFFReadDirEntryCheckRangeSlongSlong8(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(int32)(*ma++); } } break; } _TIFFfree(origdata); if (err!=TIFFReadDirEntryErrOk) { _TIFFfree(data); return(err); } *value=data; return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryLong8Array(TIFF* tif, TIFFDirEntry* direntry, uint64** value) { enum TIFFReadDirEntryErr err; uint32 count; void* origdata; uint64* data; switch (direntry->tdir_type) { case TIFF_BYTE: case TIFF_SBYTE: case TIFF_SHORT: case TIFF_SSHORT: case TIFF_LONG: case TIFF_SLONG: case TIFF_LONG8: case TIFF_SLONG8: break; default: return(TIFFReadDirEntryErrType); } err=TIFFReadDirEntryArray(tif,direntry,&count,8,&origdata); if ((err!=TIFFReadDirEntryErrOk)||(origdata==0)) { *value=0; return(err); } switch (direntry->tdir_type) { case TIFF_LONG8: *value=(uint64*)origdata; if (tif->tif_flags&TIFF_SWAB) TIFFSwabArrayOfLong8(*value,count); return(TIFFReadDirEntryErrOk); case TIFF_SLONG8: { int64* m; uint32 n; m=(int64*)origdata; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong8((uint64*)m); err=TIFFReadDirEntryCheckRangeLong8Slong8(*m); if (err!=TIFFReadDirEntryErrOk) { _TIFFfree(origdata); return(err); } m++; } *value=(uint64*)origdata; return(TIFFReadDirEntryErrOk); } } data=(uint64*)_TIFFmalloc(count*8); if (data==0) { _TIFFfree(origdata); return(TIFFReadDirEntryErrAlloc); } switch (direntry->tdir_type) { case TIFF_BYTE: { uint8* ma; uint64* mb; uint32 n; ma=(uint8*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabShort(ma); *mb++=(uint64)(*ma++); } } break; case TIFF_SSHORT: { int16* ma; uint64* mb; uint32 n; ma=(int16*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabShort((uint16*)ma); err=TIFFReadDirEntryCheckRangeLong8Sshort(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(uint64)(*ma++); } } break; case TIFF_LONG: { uint32* ma; uint64* mb; uint32 n; ma=(uint32*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong(ma); *mb++=(uint64)(*ma++); } } break; case TIFF_SLONG: { int32* ma; uint64* mb; uint32 n; ma=(int32*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong((uint32*)ma); err=TIFFReadDirEntryCheckRangeLong8Slong(*ma); if (err!=TIFFReadDirEntryErrOk) break; *mb++=(uint64)(*ma++); } } break; } _TIFFfree(origdata); if (err!=TIFFReadDirEntryErrOk) { _TIFFfree(data); return(err); } *value=data; return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntrySlong8Array(TIFF* tif, TIFFDirEntry* direntry, int64** value) { enum TIFFReadDirEntryErr err; uint32 count; void* origdata; int64* data; switch (direntry->tdir_type) { case TIFF_BYTE: case TIFF_SBYTE: case TIFF_SHORT: case TIFF_SSHORT: case TIFF_LONG: case TIFF_SLONG: case TIFF_LONG8: case TIFF_SLONG8: break; default: return(TIFFReadDirEntryErrType); } err=TIFFReadDirEntryArray(tif,direntry,&count,8,&origdata); if ((err!=TIFFReadDirEntryErrOk)||(origdata==0)) { *value=0; return(err); } switch (direntry->tdir_type) { case TIFF_LONG8: { uint64* m; uint32 n; m=(uint64*)origdata; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong8(m); err=TIFFReadDirEntryCheckRangeSlong8Long8(*m); if (err!=TIFFReadDirEntryErrOk) { _TIFFfree(origdata); return(err); } m++; } *value=(int64*)origdata; return(TIFFReadDirEntryErrOk); } case TIFF_SLONG8: *value=(int64*)origdata; if (tif->tif_flags&TIFF_SWAB) TIFFSwabArrayOfLong8((uint64*)(*value),count); return(TIFFReadDirEntryErrOk); } data=(int64*)_TIFFmalloc(count*8); if (data==0) { _TIFFfree(origdata); return(TIFFReadDirEntryErrAlloc); } switch (direntry->tdir_type) { case TIFF_BYTE: { uint8* ma; int64* mb; uint32 n; ma=(uint8*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabShort(ma); *mb++=(int64)(*ma++); } } break; case TIFF_SSHORT: { int16* ma; int64* mb; uint32 n; ma=(int16*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabShort((uint16*)ma); *mb++=(int64)(*ma++); } } break; case TIFF_LONG: { uint32* ma; int64* mb; uint32 n; ma=(uint32*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong(ma); *mb++=(int64)(*ma++); } } break; case TIFF_SLONG: { int32* ma; int64* mb; uint32 n; ma=(int32*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong((uint32*)ma); *mb++=(int64)(*ma++); } } break; } _TIFFfree(origdata); if (err!=TIFFReadDirEntryErrOk) { _TIFFfree(data); return(err); } *value=data; return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryFloatArray(TIFF* tif, TIFFDirEntry* direntry, float** value) { enum TIFFReadDirEntryErr err; uint32 count; void* origdata; float* data; switch (direntry->tdir_type) { case TIFF_BYTE: case TIFF_SBYTE: case TIFF_SHORT: case TIFF_SSHORT: case TIFF_LONG: case TIFF_SLONG: case TIFF_LONG8: case TIFF_SLONG8: case TIFF_RATIONAL: case TIFF_SRATIONAL: case TIFF_FLOAT: case TIFF_DOUBLE: break; default: return(TIFFReadDirEntryErrType); } err=TIFFReadDirEntryArray(tif,direntry,&count,4,&origdata); if ((err!=TIFFReadDirEntryErrOk)||(origdata==0)) { *value=0; return(err); } switch (direntry->tdir_type) { case TIFF_FLOAT: if (tif->tif_flags&TIFF_SWAB) TIFFSwabArrayOfLong((uint32*)origdata,count); TIFFCvtIEEEDoubleToNative(tif,count,(float*)origdata); *value=(float*)origdata; return(TIFFReadDirEntryErrOk); } data=(float*)_TIFFmalloc(count*sizeof(float)); if (data==0) { _TIFFfree(origdata); return(TIFFReadDirEntryErrAlloc); } switch (direntry->tdir_type) { case TIFF_BYTE: { uint8* ma; float* mb; uint32 n; ma=(uint8*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabShort(ma); *mb++=(float)(*ma++); } } break; case TIFF_SSHORT: { int16* ma; float* mb; uint32 n; ma=(int16*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabShort((uint16*)ma); *mb++=(float)(*ma++); } } break; case TIFF_LONG: { uint32* ma; float* mb; uint32 n; ma=(uint32*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong(ma); *mb++=(float)(*ma++); } } break; case TIFF_SLONG: { int32* ma; float* mb; uint32 n; ma=(int32*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong((uint32*)ma); *mb++=(float)(*ma++); } } break; case TIFF_LONG8: { uint64* ma; float* mb; uint32 n; ma=(uint64*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong8(ma); #if defined(__WIN32__) && (_MSC_VER < 1500) /* * XXX: MSVC 6.0 does not support * conversion of 64-bit integers into * floating point values. */ *mb++ = _TIFFUInt64ToFloat(*ma++); #else *mb++ = (float)(*ma++); #endif } } break; case TIFF_SLONG8: { int64* ma; float* mb; uint32 n; ma=(int64*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong8((uint64*)ma); *mb++=(float)(*ma++); } } break; case TIFF_RATIONAL: { uint32* ma; uint32 maa; uint32 mab; float* mb; uint32 n; ma=(uint32*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong(ma); maa=*ma++; if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong(ma); mab=*ma++; if (mab==0) *mb++=0.0; else *mb++=(float)maa/(float)mab; } } break; case TIFF_SRATIONAL: { uint32* ma; int32 maa; uint32 mab; float* mb; uint32 n; ma=(uint32*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong(ma); maa=*(int32*)ma; ma++; if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong(ma); mab=*ma++; if (mab==0) *mb++=0.0; else *mb++=(float)maa/(float)mab; } } break; case TIFF_DOUBLE: { double* ma; float* mb; uint32 n; if (tif->tif_flags&TIFF_SWAB) TIFFSwabArrayOfLong8((uint64*)origdata,count); TIFFCvtIEEEDoubleToNative(tif,count,(double*)origdata); ma=(double*)origdata; mb=data; for (n=0; ntdir_type) { case TIFF_BYTE: case TIFF_SBYTE: case TIFF_SHORT: case TIFF_SSHORT: case TIFF_LONG: case TIFF_SLONG: case TIFF_LONG8: case TIFF_SLONG8: case TIFF_RATIONAL: case TIFF_SRATIONAL: case TIFF_FLOAT: case TIFF_DOUBLE: break; default: return(TIFFReadDirEntryErrType); } err=TIFFReadDirEntryArray(tif,direntry,&count,8,&origdata); if ((err!=TIFFReadDirEntryErrOk)||(origdata==0)) { *value=0; return(err); } switch (direntry->tdir_type) { case TIFF_DOUBLE: if (tif->tif_flags&TIFF_SWAB) TIFFSwabArrayOfLong8((uint64*)origdata,count); TIFFCvtIEEEDoubleToNative(tif,count,(double*)origdata); *value=(double*)origdata; return(TIFFReadDirEntryErrOk); } data=(double*)_TIFFmalloc(count*sizeof(double)); if (data==0) { _TIFFfree(origdata); return(TIFFReadDirEntryErrAlloc); } switch (direntry->tdir_type) { case TIFF_BYTE: { uint8* ma; double* mb; uint32 n; ma=(uint8*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabShort(ma); *mb++=(double)(*ma++); } } break; case TIFF_SSHORT: { int16* ma; double* mb; uint32 n; ma=(int16*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabShort((uint16*)ma); *mb++=(double)(*ma++); } } break; case TIFF_LONG: { uint32* ma; double* mb; uint32 n; ma=(uint32*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong(ma); *mb++=(double)(*ma++); } } break; case TIFF_SLONG: { int32* ma; double* mb; uint32 n; ma=(int32*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong((uint32*)ma); *mb++=(double)(*ma++); } } break; case TIFF_LONG8: { uint64* ma; double* mb; uint32 n; ma=(uint64*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong8(ma); #if defined(__WIN32__) && (_MSC_VER < 1500) /* * XXX: MSVC 6.0 does not support * conversion of 64-bit integers into * floating point values. */ *mb++ = _TIFFUInt64ToDouble(*ma++); #else *mb++ = (double)(*ma++); #endif } } break; case TIFF_SLONG8: { int64* ma; double* mb; uint32 n; ma=(int64*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong8((uint64*)ma); *mb++=(double)(*ma++); } } break; case TIFF_RATIONAL: { uint32* ma; uint32 maa; uint32 mab; double* mb; uint32 n; ma=(uint32*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong(ma); maa=*ma++; if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong(ma); mab=*ma++; if (mab==0) *mb++=0.0; else *mb++=(double)maa/(double)mab; } } break; case TIFF_SRATIONAL: { uint32* ma; int32 maa; uint32 mab; double* mb; uint32 n; ma=(uint32*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong(ma); maa=*(int32*)ma; ma++; if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong(ma); mab=*ma++; if (mab==0) *mb++=0.0; else *mb++=(double)maa/(double)mab; } } break; case TIFF_FLOAT: { float* ma; double* mb; uint32 n; if (tif->tif_flags&TIFF_SWAB) TIFFSwabArrayOfLong((uint32*)origdata,count); TIFFCvtIEEEFloatToNative(tif,count,(float*)origdata); ma=(float*)origdata; mb=data; for (n=0; ntdir_type) { case TIFF_LONG: case TIFF_LONG8: case TIFF_IFD: case TIFF_IFD8: break; default: return(TIFFReadDirEntryErrType); } err=TIFFReadDirEntryArray(tif,direntry,&count,8,&origdata); if ((err!=TIFFReadDirEntryErrOk)||(origdata==0)) { *value=0; return(err); } switch (direntry->tdir_type) { case TIFF_LONG8: case TIFF_IFD8: *value=(uint64*)origdata; if (tif->tif_flags&TIFF_SWAB) TIFFSwabArrayOfLong8(*value,count); return(TIFFReadDirEntryErrOk); } data=(uint64*)_TIFFmalloc(count*8); if (data==0) { _TIFFfree(origdata); return(TIFFReadDirEntryErrAlloc); } switch (direntry->tdir_type) { case TIFF_LONG: case TIFF_IFD: { uint32* ma; uint64* mb; uint32 n; ma=(uint32*)origdata; mb=data; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabLong(ma); *mb++=(uint64)(*ma++); } } break; } _TIFFfree(origdata); if (err!=TIFFReadDirEntryErrOk) { _TIFFfree(data); return(err); } *value=data; return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryPersampleShort(TIFF* tif, TIFFDirEntry* direntry, uint16* value) { enum TIFFReadDirEntryErr err; uint16* m; uint16* na; uint16 nb; if (direntry->tdir_count<(uint64)tif->tif_dir.td_samplesperpixel) return(TIFFReadDirEntryErrCount); err=TIFFReadDirEntryShortArray(tif,direntry,&m); if (err!=TIFFReadDirEntryErrOk) return(err); na=m; nb=tif->tif_dir.td_samplesperpixel; *value=*na++; nb--; while (nb>0) { if (*na++!=*value) { err=TIFFReadDirEntryErrPsdif; break; } nb--; } _TIFFfree(m); return(err); } #if 0 static enum TIFFReadDirEntryErr TIFFReadDirEntryPersampleDouble(TIFF* tif, TIFFDirEntry* direntry, double* value) { enum TIFFReadDirEntryErr err; double* m; double* na; uint16 nb; if (direntry->tdir_count<(uint64)tif->tif_dir.td_samplesperpixel) return(TIFFReadDirEntryErrCount); err=TIFFReadDirEntryDoubleArray(tif,direntry,&m); if (err!=TIFFReadDirEntryErrOk) return(err); na=m; nb=tif->tif_dir.td_samplesperpixel; *value=*na++; nb--; while (nb>0) { if (*na++!=*value) { err=TIFFReadDirEntryErrPsdif; break; } nb--; } _TIFFfree(m); return(err); } #endif static void TIFFReadDirEntryCheckedByte(TIFF* tif, TIFFDirEntry* direntry, uint8* value) { (void) tif; *value=*(uint8*)(&direntry->tdir_offset); } static void TIFFReadDirEntryCheckedSbyte(TIFF* tif, TIFFDirEntry* direntry, int8* value) { (void) tif; *value=*(int8*)(&direntry->tdir_offset); } static void TIFFReadDirEntryCheckedShort(TIFF* tif, TIFFDirEntry* direntry, uint16* value) { *value = direntry->tdir_offset.toff_short; /* *value=*(uint16*)(&direntry->tdir_offset); */ if (tif->tif_flags&TIFF_SWAB) TIFFSwabShort(value); } static void TIFFReadDirEntryCheckedSshort(TIFF* tif, TIFFDirEntry* direntry, int16* value) { *value=*(int16*)(&direntry->tdir_offset); if (tif->tif_flags&TIFF_SWAB) TIFFSwabShort((uint16*)value); } static void TIFFReadDirEntryCheckedLong(TIFF* tif, TIFFDirEntry* direntry, uint32* value) { *value=*(uint32*)(&direntry->tdir_offset); if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong(value); } static void TIFFReadDirEntryCheckedSlong(TIFF* tif, TIFFDirEntry* direntry, int32* value) { *value=*(int32*)(&direntry->tdir_offset); if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong((uint32*)value); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckedLong8(TIFF* tif, TIFFDirEntry* direntry, uint64* value) { if (!(tif->tif_flags&TIFF_BIGTIFF)) { enum TIFFReadDirEntryErr err; uint32 offset = direntry->tdir_offset.toff_long; if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong(&offset); err=TIFFReadDirEntryData(tif,offset,8,value); if (err!=TIFFReadDirEntryErrOk) return(err); } else *value = direntry->tdir_offset.toff_long8; if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong8(value); return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckedSlong8(TIFF* tif, TIFFDirEntry* direntry, int64* value) { if (!(tif->tif_flags&TIFF_BIGTIFF)) { enum TIFFReadDirEntryErr err; uint32 offset = direntry->tdir_offset.toff_long; if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong(&offset); err=TIFFReadDirEntryData(tif,offset,8,value); if (err!=TIFFReadDirEntryErrOk) return(err); } else *value=*(int64*)(&direntry->tdir_offset); if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong8((uint64*)value); return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckedRational(TIFF* tif, TIFFDirEntry* direntry, double* value) { UInt64Aligned_t m; assert(sizeof(double)==8); assert(sizeof(uint64)==8); assert(sizeof(uint32)==4); if (!(tif->tif_flags&TIFF_BIGTIFF)) { enum TIFFReadDirEntryErr err; uint32 offset = direntry->tdir_offset.toff_long; if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong(&offset); err=TIFFReadDirEntryData(tif,offset,8,m.i); if (err!=TIFFReadDirEntryErrOk) return(err); } else m.l = direntry->tdir_offset.toff_long8; if (tif->tif_flags&TIFF_SWAB) TIFFSwabArrayOfLong(m.i,2); if (m.i[0]==0) *value=0.0; else *value=(double)m.i[0]/(double)m.i[1]; return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckedSrational(TIFF* tif, TIFFDirEntry* direntry, double* value) { UInt64Aligned_t m; assert(sizeof(double)==8); assert(sizeof(uint64)==8); assert(sizeof(int32)==4); assert(sizeof(uint32)==4); if (!(tif->tif_flags&TIFF_BIGTIFF)) { enum TIFFReadDirEntryErr err; uint32 offset = direntry->tdir_offset.toff_long; if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong(&offset); err=TIFFReadDirEntryData(tif,offset,8,m.i); if (err!=TIFFReadDirEntryErrOk) return(err); } else m.l=direntry->tdir_offset.toff_long8; if (tif->tif_flags&TIFF_SWAB) TIFFSwabArrayOfLong(m.i,2); if ((int32)m.i[0]==0) *value=0.0; else *value=(double)((int32)m.i[0])/(double)m.i[1]; return(TIFFReadDirEntryErrOk); } static void TIFFReadDirEntryCheckedFloat(TIFF* tif, TIFFDirEntry* direntry, float* value) { union { float f; uint32 i; } float_union; assert(sizeof(float)==4); assert(sizeof(uint32)==4); assert(sizeof(float_union)==4); float_union.i=*(uint32*)(&direntry->tdir_offset); *value=float_union.f; if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong((uint32*)value); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckedDouble(TIFF* tif, TIFFDirEntry* direntry, double* value) { assert(sizeof(double)==8); assert(sizeof(uint64)==8); assert(sizeof(UInt64Aligned_t)==8); if (!(tif->tif_flags&TIFF_BIGTIFF)) { enum TIFFReadDirEntryErr err; uint32 offset = direntry->tdir_offset.toff_long; if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong(&offset); err=TIFFReadDirEntryData(tif,offset,8,value); if (err!=TIFFReadDirEntryErrOk) return(err); } else { UInt64Aligned_t uint64_union; uint64_union.l=direntry->tdir_offset.toff_long8; *value=uint64_union.d; } if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong8((uint64*)value); return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeByteSbyte(int8 value) { if (value<0) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeByteShort(uint16 value) { if (value>0xFF) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeByteSshort(int16 value) { if ((value<0)||(value>0xFF)) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeByteLong(uint32 value) { if (value>0xFF) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeByteSlong(int32 value) { if ((value<0)||(value>0xFF)) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeByteLong8(uint64 value) { if (value>0xFF) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeByteSlong8(int64 value) { if ((value<0)||(value>0xFF)) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSbyteByte(uint8 value) { if (value>0x7F) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSbyteShort(uint16 value) { if (value>0x7F) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSbyteSshort(int16 value) { if ((value<-0x80)||(value>0x7F)) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSbyteLong(uint32 value) { if (value>0x7F) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSbyteSlong(int32 value) { if ((value<-0x80)||(value>0x7F)) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSbyteLong8(uint64 value) { if (value>0x7F) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSbyteSlong8(int64 value) { if ((value<-0x80)||(value>0x7F)) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeShortSbyte(int8 value) { if (value<0) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeShortSshort(int16 value) { if (value<0) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeShortLong(uint32 value) { if (value>0xFFFF) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeShortSlong(int32 value) { if ((value<0)||(value>0xFFFF)) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeShortLong8(uint64 value) { if (value>0xFFFF) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeShortSlong8(int64 value) { if ((value<0)||(value>0xFFFF)) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSshortShort(uint16 value) { if (value>0x7FFF) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSshortLong(uint32 value) { if (value>0x7FFF) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSshortSlong(int32 value) { if ((value<-0x8000)||(value>0x7FFF)) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSshortLong8(uint64 value) { if (value>0x7FFF) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSshortSlong8(int64 value) { if ((value<-0x8000)||(value>0x7FFF)) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeLongSbyte(int8 value) { if (value<0) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeLongSshort(int16 value) { if (value<0) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeLongSlong(int32 value) { if (value<0) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } /* * Largest 32-bit unsigned integer value. */ #if defined(__WIN32__) && defined(_MSC_VER) # define TIFF_UINT32_MAX 0xFFFFFFFFI64 #else # define TIFF_UINT32_MAX 0xFFFFFFFFLL #endif static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeLongLong8(uint64 value) { if (value > TIFF_UINT32_MAX) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeLongSlong8(int64 value) { if ((value<0) || (value > TIFF_UINT32_MAX)) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } #undef TIFF_UINT32_MAX static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSlongLong(uint32 value) { if (value > 0x7FFFFFFFUL) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSlongLong8(uint64 value) { if (value > 0x7FFFFFFFUL) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSlongSlong8(int64 value) { if ((value < 0L-0x80000000L) || (value > 0x7FFFFFFFL)) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeLong8Sbyte(int8 value) { if (value < 0) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeLong8Sshort(int16 value) { if (value < 0) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeLong8Slong(int32 value) { if (value < 0) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeLong8Slong8(int64 value) { if (value < 0) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } /* * Largest 64-bit signed integer value. */ #if defined(__WIN32__) && defined(_MSC_VER) # define TIFF_INT64_MAX 0x7FFFFFFFFFFFFFFFI64 #else # define TIFF_INT64_MAX 0x7FFFFFFFFFFFFFFFLL #endif static enum TIFFReadDirEntryErr TIFFReadDirEntryCheckRangeSlong8Long8(uint64 value) { if (value > TIFF_INT64_MAX) return(TIFFReadDirEntryErrRange); else return(TIFFReadDirEntryErrOk); } #undef TIFF_INT64_MAX static enum TIFFReadDirEntryErr TIFFReadDirEntryData(TIFF* tif, uint64 offset, tmsize_t size, void* dest) { assert(size>0); if (!isMapped(tif)) { if (!SeekOK(tif,offset)) return(TIFFReadDirEntryErrIo); if (!ReadOK(tif,dest,size)) return(TIFFReadDirEntryErrIo); } else { tmsize_t ma,mb; ma=(tmsize_t)offset; mb=ma+size; if (((uint64)ma!=offset)||(mbtif->tif_size)) return(TIFFReadDirEntryErrIo); _TIFFmemcpy(dest,tif->tif_base+ma,size); } return(TIFFReadDirEntryErrOk); } static void TIFFReadDirEntryOutputErr(TIFF* tif, enum TIFFReadDirEntryErr err, const char* module, const char* tagname, int recover) { if (!recover) { switch (err) { case TIFFReadDirEntryErrCount: TIFFErrorExt(tif->tif_clientdata, module, "Incorrect count for \"%s\"", tagname); break; case TIFFReadDirEntryErrType: TIFFErrorExt(tif->tif_clientdata, module, "Incompatible type for \"%s\"", tagname); break; case TIFFReadDirEntryErrIo: TIFFErrorExt(tif->tif_clientdata, module, "IO error during reading of \"%s\"", tagname); break; case TIFFReadDirEntryErrRange: TIFFErrorExt(tif->tif_clientdata, module, "Incorrect value for \"%s\"", tagname); break; case TIFFReadDirEntryErrPsdif: TIFFErrorExt(tif->tif_clientdata, module, "Cannot handle different values per sample for \"%s\"", tagname); break; case TIFFReadDirEntryErrSizesan: TIFFErrorExt(tif->tif_clientdata, module, "Sanity check on size of \"%s\" value failed", tagname); break; case TIFFReadDirEntryErrAlloc: TIFFErrorExt(tif->tif_clientdata, module, "Out of memory reading of \"%s\"", tagname); break; default: assert(0); /* we should never get here */ break; } } else { switch (err) { case TIFFReadDirEntryErrCount: TIFFErrorExt(tif->tif_clientdata, module, "Incorrect count for \"%s\"; tag ignored", tagname); break; case TIFFReadDirEntryErrType: TIFFWarningExt(tif->tif_clientdata, module, "Incompatible type for \"%s\"; tag ignored", tagname); break; case TIFFReadDirEntryErrIo: TIFFWarningExt(tif->tif_clientdata, module, "IO error during reading of \"%s\"; tag ignored", tagname); break; case TIFFReadDirEntryErrRange: TIFFWarningExt(tif->tif_clientdata, module, "Incorrect value for \"%s\"; tag ignored", tagname); break; case TIFFReadDirEntryErrPsdif: TIFFWarningExt(tif->tif_clientdata, module, "Cannot handle different values per sample for \"%s\"; tag ignored", tagname); break; case TIFFReadDirEntryErrSizesan: TIFFWarningExt(tif->tif_clientdata, module, "Sanity check on size of \"%s\" value failed; tag ignored", tagname); break; case TIFFReadDirEntryErrAlloc: TIFFWarningExt(tif->tif_clientdata, module, "Out of memory reading of \"%s\"; tag ignored", tagname); break; default: assert(0); /* we should never get here */ break; } } } /* * Read the next TIFF directory from a file and convert it to the internal * format. We read directories sequentially. */ int TIFFReadDirectory(TIFF* tif) { static const char module[] = "TIFFReadDirectory"; TIFFDirEntry* dir; uint16 dircount; TIFFDirEntry* dp; uint16 di; const TIFFField* fip; uint32 fii=FAILED_FII; toff_t nextdiroff; tif->tif_diroff=tif->tif_nextdiroff; if (!TIFFCheckDirOffset(tif,tif->tif_nextdiroff)) return 0; /* last offset or bad offset (IFD looping) */ (*tif->tif_cleanup)(tif); /* cleanup any previous compression state */ tif->tif_curdir++; nextdiroff = tif->tif_nextdiroff; dircount=TIFFFetchDirectory(tif,nextdiroff,&dir,&tif->tif_nextdiroff); if (!dircount) { TIFFErrorExt(tif->tif_clientdata,module, "Failed to read directory at offset " TIFF_UINT64_FORMAT,nextdiroff); return 0; } TIFFReadDirectoryCheckOrder(tif,dir,dircount); /* * Mark duplicates of any tag to be ignored (bugzilla 1994) * to avoid certain pathological problems. */ { TIFFDirEntry* ma; uint16 mb; for (ma=dir, mb=0; mbtdir_tag==na->tdir_tag) na->tdir_tag=IGNORE; } } } tif->tif_flags &= ~TIFF_BEENWRITING; /* reset before new dir */ tif->tif_flags &= ~TIFF_BUF4WRITE; /* reset before new dir */ /* free any old stuff and reinit */ TIFFFreeDirectory(tif); TIFFDefaultDirectory(tif); /* * Electronic Arts writes gray-scale TIFF files * without a PlanarConfiguration directory entry. * Thus we setup a default value here, even though * the TIFF spec says there is no default value. */ TIFFSetField(tif,TIFFTAG_PLANARCONFIG,PLANARCONFIG_CONTIG); /* * Setup default value and then make a pass over * the fields to check type and tag information, * and to extract info required to size data * structures. A second pass is made afterwards * to read in everthing not taken in the first pass. * But we must process the Compression tag first * in order to merge in codec-private tag definitions (otherwise * we may get complaints about unknown tags). However, the * Compression tag may be dependent on the SamplesPerPixel * tag value because older TIFF specs permited Compression * to be written as a SamplesPerPixel-count tag entry. * Thus if we don't first figure out the correct SamplesPerPixel * tag value then we may end up ignoring the Compression tag * value because it has an incorrect count value (if the * true value of SamplesPerPixel is not 1). */ dp=TIFFReadDirectoryFindEntry(tif,dir,dircount,TIFFTAG_SAMPLESPERPIXEL); if (dp) { if (!TIFFFetchNormalTag(tif,dp,0)) goto bad; dp->tdir_tag=IGNORE; } dp=TIFFReadDirectoryFindEntry(tif,dir,dircount,TIFFTAG_COMPRESSION); if (dp) { /* * The 5.0 spec says the Compression tag has one value, while * earlier specs say it has one value per sample. Because of * this, we accept the tag if one value is supplied with either * count. */ uint16 value; enum TIFFReadDirEntryErr err; err=TIFFReadDirEntryShort(tif,dp,&value); if (err==TIFFReadDirEntryErrCount) err=TIFFReadDirEntryPersampleShort(tif,dp,&value); if (err!=TIFFReadDirEntryErrOk) { TIFFReadDirEntryOutputErr(tif,err,module,"Compression",0); goto bad; } if (!TIFFSetField(tif,TIFFTAG_COMPRESSION,value)) goto bad; dp->tdir_tag=IGNORE; } else { if (!TIFFSetField(tif,TIFFTAG_COMPRESSION,COMPRESSION_NONE)) goto bad; } /* * First real pass over the directory. */ for (di=0, dp=dir; ditdir_tag!=IGNORE) { TIFFReadDirectoryFindFieldInfo(tif,dp->tdir_tag,&fii); if (fii == FAILED_FII) { TIFFWarningExt(tif->tif_clientdata, module, "Unknown field with tag %d (0x%x) encountered", dp->tdir_tag,dp->tdir_tag); /* the following knowingly leaks the anonymous field structure */ if (!_TIFFMergeFields(tif, _TIFFCreateAnonField(tif, dp->tdir_tag, (TIFFDataType) dp->tdir_type), 1)) { TIFFWarningExt(tif->tif_clientdata, module, "Registering anonymous field with tag %d (0x%x) failed", dp->tdir_tag, dp->tdir_tag); dp->tdir_tag=IGNORE; } else { TIFFReadDirectoryFindFieldInfo(tif,dp->tdir_tag,&fii); assert(fii != FAILED_FII); } } } if (dp->tdir_tag!=IGNORE) { fip=tif->tif_fields[fii]; if (fip->field_bit==FIELD_IGNORE) dp->tdir_tag=IGNORE; else { switch (dp->tdir_tag) { case TIFFTAG_STRIPOFFSETS: case TIFFTAG_STRIPBYTECOUNTS: case TIFFTAG_TILEOFFSETS: case TIFFTAG_TILEBYTECOUNTS: TIFFSetFieldBit(tif,fip->field_bit); break; case TIFFTAG_IMAGEWIDTH: case TIFFTAG_IMAGELENGTH: case TIFFTAG_IMAGEDEPTH: case TIFFTAG_TILELENGTH: case TIFFTAG_TILEWIDTH: case TIFFTAG_TILEDEPTH: case TIFFTAG_PLANARCONFIG: case TIFFTAG_ROWSPERSTRIP: case TIFFTAG_EXTRASAMPLES: if (!TIFFFetchNormalTag(tif,dp,0)) goto bad; dp->tdir_tag=IGNORE; break; } } } } /* * XXX: OJPEG hack. * If a) compression is OJPEG, b) planarconfig tag says it's separate, * c) strip offsets/bytecounts tag are both present and * d) both contain exactly one value, then we consistently find * that the buggy implementation of the buggy compression scheme * matches contig planarconfig best. So we 'fix-up' the tag here */ if ((tif->tif_dir.td_compression==COMPRESSION_OJPEG)&& (tif->tif_dir.td_planarconfig==PLANARCONFIG_SEPARATE)) { if (!_TIFFFillStriles(tif)) goto bad; dp=TIFFReadDirectoryFindEntry(tif,dir,dircount,TIFFTAG_STRIPOFFSETS); if ((dp!=0)&&(dp->tdir_count==1)) { dp=TIFFReadDirectoryFindEntry(tif,dir,dircount, TIFFTAG_STRIPBYTECOUNTS); if ((dp!=0)&&(dp->tdir_count==1)) { tif->tif_dir.td_planarconfig=PLANARCONFIG_CONTIG; TIFFWarningExt(tif->tif_clientdata,module, "Planarconfig tag value assumed incorrect, " "assuming data is contig instead of chunky"); } } } /* * Allocate directory structure and setup defaults. */ if (!TIFFFieldSet(tif,FIELD_IMAGEDIMENSIONS)) { MissingRequired(tif,"ImageLength"); goto bad; } /* * Setup appropriate structures (by strip or by tile) */ if (!TIFFFieldSet(tif, FIELD_TILEDIMENSIONS)) { tif->tif_dir.td_nstrips = TIFFNumberOfStrips(tif); tif->tif_dir.td_tilewidth = tif->tif_dir.td_imagewidth; tif->tif_dir.td_tilelength = tif->tif_dir.td_rowsperstrip; tif->tif_dir.td_tiledepth = tif->tif_dir.td_imagedepth; tif->tif_flags &= ~TIFF_ISTILED; } else { tif->tif_dir.td_nstrips = TIFFNumberOfTiles(tif); tif->tif_flags |= TIFF_ISTILED; } if (!tif->tif_dir.td_nstrips) { TIFFErrorExt(tif->tif_clientdata, module, "Cannot handle zero number of %s", isTiled(tif) ? "tiles" : "strips"); goto bad; } tif->tif_dir.td_stripsperimage = tif->tif_dir.td_nstrips; if (tif->tif_dir.td_planarconfig == PLANARCONFIG_SEPARATE) tif->tif_dir.td_stripsperimage /= tif->tif_dir.td_samplesperpixel; if (!TIFFFieldSet(tif, FIELD_STRIPOFFSETS)) { if ((tif->tif_dir.td_compression==COMPRESSION_OJPEG) && (isTiled(tif)==0) && (tif->tif_dir.td_nstrips==1)) { /* * XXX: OJPEG hack. * If a) compression is OJPEG, b) it's not a tiled TIFF, * and c) the number of strips is 1, * then we tolerate the absence of stripoffsets tag, * because, presumably, all required data is in the * JpegInterchangeFormat stream. */ TIFFSetFieldBit(tif, FIELD_STRIPOFFSETS); } else { MissingRequired(tif, isTiled(tif) ? "TileOffsets" : "StripOffsets"); goto bad; } } /* * Second pass: extract other information. */ for (di=0, dp=dir; ditdir_tag) { case IGNORE: break; case TIFFTAG_MINSAMPLEVALUE: case TIFFTAG_MAXSAMPLEVALUE: case TIFFTAG_BITSPERSAMPLE: case TIFFTAG_DATATYPE: case TIFFTAG_SAMPLEFORMAT: /* * The MinSampleValue, MaxSampleValue, BitsPerSample * DataType and SampleFormat tags are supposed to be * written as one value/sample, but some vendors * incorrectly write one value only -- so we accept * that as well (yech). Other vendors write correct * value for NumberOfSamples, but incorrect one for * BitsPerSample and friends, and we will read this * too. */ { uint16 value; enum TIFFReadDirEntryErr err; err=TIFFReadDirEntryShort(tif,dp,&value); if (err==TIFFReadDirEntryErrCount) err=TIFFReadDirEntryPersampleShort(tif,dp,&value); if (err!=TIFFReadDirEntryErrOk) { fip = TIFFFieldWithTag(tif,dp->tdir_tag); TIFFReadDirEntryOutputErr(tif,err,module,fip ? fip->field_name : "unknown tagname",0); goto bad; } if (!TIFFSetField(tif,dp->tdir_tag,value)) goto bad; } break; case TIFFTAG_SMINSAMPLEVALUE: case TIFFTAG_SMAXSAMPLEVALUE: { double *data = 0; enum TIFFReadDirEntryErr err; uint32 saved_flags; int m; if (dp->tdir_count != (uint64)tif->tif_dir.td_samplesperpixel) err = TIFFReadDirEntryErrCount; else err = TIFFReadDirEntryDoubleArray(tif, dp, &data); if (err!=TIFFReadDirEntryErrOk) { fip = TIFFFieldWithTag(tif,dp->tdir_tag); TIFFReadDirEntryOutputErr(tif,err,module,fip ? fip->field_name : "unknown tagname",0); goto bad; } saved_flags = tif->tif_flags; tif->tif_flags |= TIFF_PERSAMPLE; m = TIFFSetField(tif,dp->tdir_tag,data); tif->tif_flags = saved_flags; _TIFFfree(data); if (!m) goto bad; } break; case TIFFTAG_STRIPOFFSETS: case TIFFTAG_TILEOFFSETS: #if defined(DEFER_STRILE_LOAD) _TIFFmemcpy( &(tif->tif_dir.td_stripoffset_entry), dp, sizeof(TIFFDirEntry) ); #else if (!TIFFFetchStripThing(tif,dp,tif->tif_dir.td_nstrips,&tif->tif_dir.td_stripoffset)) goto bad; #endif break; case TIFFTAG_STRIPBYTECOUNTS: case TIFFTAG_TILEBYTECOUNTS: #if defined(DEFER_STRILE_LOAD) _TIFFmemcpy( &(tif->tif_dir.td_stripbytecount_entry), dp, sizeof(TIFFDirEntry) ); #else if (!TIFFFetchStripThing(tif,dp,tif->tif_dir.td_nstrips,&tif->tif_dir.td_stripbytecount)) goto bad; #endif break; case TIFFTAG_COLORMAP: case TIFFTAG_TRANSFERFUNCTION: { enum TIFFReadDirEntryErr err; uint32 countpersample; uint32 countrequired; uint32 incrementpersample; uint16* value=NULL; countpersample=(1L<tif_dir.td_bitspersample); if ((dp->tdir_tag==TIFFTAG_TRANSFERFUNCTION)&&(dp->tdir_count==(uint64)countpersample)) { countrequired=countpersample; incrementpersample=0; } else { countrequired=3*countpersample; incrementpersample=countpersample; } if (dp->tdir_count!=(uint64)countrequired) err=TIFFReadDirEntryErrCount; else err=TIFFReadDirEntryShortArray(tif,dp,&value); if (err!=TIFFReadDirEntryErrOk) { fip = TIFFFieldWithTag(tif,dp->tdir_tag); TIFFReadDirEntryOutputErr(tif,err,module,fip ? fip->field_name : "unknown tagname",1); } else { TIFFSetField(tif,dp->tdir_tag,value,value+incrementpersample,value+2*incrementpersample); _TIFFfree(value); } } break; /* BEGIN REV 4.0 COMPATIBILITY */ case TIFFTAG_OSUBFILETYPE: { uint16 valueo; uint32 value; if (TIFFReadDirEntryShort(tif,dp,&valueo)==TIFFReadDirEntryErrOk) { switch (valueo) { case OFILETYPE_REDUCEDIMAGE: value=FILETYPE_REDUCEDIMAGE; break; case OFILETYPE_PAGE: value=FILETYPE_PAGE; break; default: value=0; break; } if (value!=0) TIFFSetField(tif,TIFFTAG_SUBFILETYPE,value); } } break; /* END REV 4.0 COMPATIBILITY */ default: (void) TIFFFetchNormalTag(tif, dp, TRUE); break; } } /* * OJPEG hack: * - If a) compression is OJPEG, and b) photometric tag is missing, * then we consistently find that photometric should be YCbCr * - If a) compression is OJPEG, and b) photometric tag says it's RGB, * then we consistently find that the buggy implementation of the * buggy compression scheme matches photometric YCbCr instead. * - If a) compression is OJPEG, and b) bitspersample tag is missing, * then we consistently find bitspersample should be 8. * - If a) compression is OJPEG, b) samplesperpixel tag is missing, * and c) photometric is RGB or YCbCr, then we consistently find * samplesperpixel should be 3 * - If a) compression is OJPEG, b) samplesperpixel tag is missing, * and c) photometric is MINISWHITE or MINISBLACK, then we consistently * find samplesperpixel should be 3 */ if (tif->tif_dir.td_compression==COMPRESSION_OJPEG) { if (!TIFFFieldSet(tif,FIELD_PHOTOMETRIC)) { TIFFWarningExt(tif->tif_clientdata, module, "Photometric tag is missing, assuming data is YCbCr"); if (!TIFFSetField(tif,TIFFTAG_PHOTOMETRIC,PHOTOMETRIC_YCBCR)) goto bad; } else if (tif->tif_dir.td_photometric==PHOTOMETRIC_RGB) { tif->tif_dir.td_photometric=PHOTOMETRIC_YCBCR; TIFFWarningExt(tif->tif_clientdata, module, "Photometric tag value assumed incorrect, " "assuming data is YCbCr instead of RGB"); } if (!TIFFFieldSet(tif,FIELD_BITSPERSAMPLE)) { TIFFWarningExt(tif->tif_clientdata,module, "BitsPerSample tag is missing, assuming 8 bits per sample"); if (!TIFFSetField(tif,TIFFTAG_BITSPERSAMPLE,8)) goto bad; } if (!TIFFFieldSet(tif,FIELD_SAMPLESPERPIXEL)) { if (tif->tif_dir.td_photometric==PHOTOMETRIC_RGB) { TIFFWarningExt(tif->tif_clientdata,module, "SamplesPerPixel tag is missing, " "assuming correct SamplesPerPixel value is 3"); if (!TIFFSetField(tif,TIFFTAG_SAMPLESPERPIXEL,3)) goto bad; } if (tif->tif_dir.td_photometric==PHOTOMETRIC_YCBCR) { TIFFWarningExt(tif->tif_clientdata,module, "SamplesPerPixel tag is missing, " "applying correct SamplesPerPixel value of 3"); if (!TIFFSetField(tif,TIFFTAG_SAMPLESPERPIXEL,3)) goto bad; } else if ((tif->tif_dir.td_photometric==PHOTOMETRIC_MINISWHITE) || (tif->tif_dir.td_photometric==PHOTOMETRIC_MINISBLACK)) { /* * SamplesPerPixel tag is missing, but is not required * by spec. Assume correct SamplesPerPixel value of 1. */ if (!TIFFSetField(tif,TIFFTAG_SAMPLESPERPIXEL,1)) goto bad; } } } /* * Verify Palette image has a Colormap. */ if (tif->tif_dir.td_photometric == PHOTOMETRIC_PALETTE && !TIFFFieldSet(tif, FIELD_COLORMAP)) { if ( tif->tif_dir.td_bitspersample>=8 && tif->tif_dir.td_samplesperpixel==3) tif->tif_dir.td_photometric = PHOTOMETRIC_RGB; else if (tif->tif_dir.td_bitspersample>=8) tif->tif_dir.td_photometric = PHOTOMETRIC_MINISBLACK; else { MissingRequired(tif, "Colormap"); goto bad; } } /* * OJPEG hack: * We do no further messing with strip/tile offsets/bytecounts in OJPEG * TIFFs */ if (tif->tif_dir.td_compression!=COMPRESSION_OJPEG) { /* * Attempt to deal with a missing StripByteCounts tag. */ if (!TIFFFieldSet(tif, FIELD_STRIPBYTECOUNTS)) { /* * Some manufacturers violate the spec by not giving * the size of the strips. In this case, assume there * is one uncompressed strip of data. */ if ((tif->tif_dir.td_planarconfig == PLANARCONFIG_CONTIG && tif->tif_dir.td_nstrips > 1) || (tif->tif_dir.td_planarconfig == PLANARCONFIG_SEPARATE && tif->tif_dir.td_nstrips != (uint32)tif->tif_dir.td_samplesperpixel)) { MissingRequired(tif, "StripByteCounts"); goto bad; } TIFFWarningExt(tif->tif_clientdata, module, "TIFF directory is missing required " "\"StripByteCounts\" field, calculating from imagelength"); if (EstimateStripByteCounts(tif, dir, dircount) < 0) goto bad; /* * Assume we have wrong StripByteCount value (in case * of single strip) in following cases: * - it is equal to zero along with StripOffset; * - it is larger than file itself (in case of uncompressed * image); * - it is smaller than the size of the bytes per row * multiplied on the number of rows. The last case should * not be checked in the case of writing new image, * because we may do not know the exact strip size * until the whole image will be written and directory * dumped out. */ #define BYTECOUNTLOOKSBAD \ ( (tif->tif_dir.td_stripbytecount[0] == 0 && tif->tif_dir.td_stripoffset[0] != 0) || \ (tif->tif_dir.td_compression == COMPRESSION_NONE && \ tif->tif_dir.td_stripbytecount[0] > TIFFGetFileSize(tif) - tif->tif_dir.td_stripoffset[0]) || \ (tif->tif_mode == O_RDONLY && \ tif->tif_dir.td_compression == COMPRESSION_NONE && \ tif->tif_dir.td_stripbytecount[0] < TIFFScanlineSize64(tif) * tif->tif_dir.td_imagelength) ) } else if (tif->tif_dir.td_nstrips == 1 && _TIFFFillStriles(tif) && tif->tif_dir.td_stripoffset[0] != 0 && BYTECOUNTLOOKSBAD) { /* * XXX: Plexus (and others) sometimes give a value of * zero for a tag when they don't know what the * correct value is! Try and handle the simple case * of estimating the size of a one strip image. */ TIFFWarningExt(tif->tif_clientdata, module, "Bogus \"StripByteCounts\" field, ignoring and calculating from imagelength"); if(EstimateStripByteCounts(tif, dir, dircount) < 0) goto bad; #if !defined(DEFER_STRILE_LOAD) } else if (tif->tif_dir.td_planarconfig == PLANARCONFIG_CONTIG && tif->tif_dir.td_nstrips > 2 && tif->tif_dir.td_compression == COMPRESSION_NONE && tif->tif_dir.td_stripbytecount[0] != tif->tif_dir.td_stripbytecount[1] && tif->tif_dir.td_stripbytecount[0] != 0 && tif->tif_dir.td_stripbytecount[1] != 0 ) { /* * XXX: Some vendors fill StripByteCount array with * absolutely wrong values (it can be equal to * StripOffset array, for example). Catch this case * here. * * We avoid this check if deferring strile loading * as it would always force us to load the strip/tile * information. */ TIFFWarningExt(tif->tif_clientdata, module, "Wrong \"StripByteCounts\" field, ignoring and calculating from imagelength"); if (EstimateStripByteCounts(tif, dir, dircount) < 0) goto bad; #endif /* !defined(DEFER_STRILE_LOAD) */ } } if (dir) { _TIFFfree(dir); dir=NULL; } if (!TIFFFieldSet(tif, FIELD_MAXSAMPLEVALUE)) { if (tif->tif_dir.td_bitspersample>=16) tif->tif_dir.td_maxsamplevalue=0xFFFF; else tif->tif_dir.td_maxsamplevalue = (uint16)((1L<tif_dir.td_bitspersample)-1); } /* * XXX: We can optimize checking for the strip bounds using the sorted * bytecounts array. See also comments for TIFFAppendToStrip() * function in tif_write.c. */ #if !defined(DEFER_STRILE_LOAD) if (tif->tif_dir.td_nstrips > 1) { uint32 strip; tif->tif_dir.td_stripbytecountsorted = 1; for (strip = 1; strip < tif->tif_dir.td_nstrips; strip++) { if (tif->tif_dir.td_stripoffset[strip - 1] > tif->tif_dir.td_stripoffset[strip]) { tif->tif_dir.td_stripbytecountsorted = 0; break; } } } #endif /* !defined(DEFER_STRILE_LOAD) */ /* * An opportunity for compression mode dependent tag fixup */ (*tif->tif_fixuptags)(tif); /* * Some manufacturers make life difficult by writing * large amounts of uncompressed data as a single strip. * This is contrary to the recommendations of the spec. * The following makes an attempt at breaking such images * into strips closer to the recommended 8k bytes. A * side effect, however, is that the RowsPerStrip tag * value may be changed. */ if ((tif->tif_dir.td_planarconfig==PLANARCONFIG_CONTIG)&& (tif->tif_dir.td_nstrips==1)&& (tif->tif_dir.td_compression==COMPRESSION_NONE)&& ((tif->tif_flags&(TIFF_STRIPCHOP|TIFF_ISTILED))==TIFF_STRIPCHOP)) { if ( !_TIFFFillStriles(tif) || !tif->tif_dir.td_stripbytecount ) return 0; ChopUpSingleUncompressedStrip(tif); } /* * Clear the dirty directory flag. */ tif->tif_flags &= ~TIFF_DIRTYDIRECT; tif->tif_flags &= ~TIFF_DIRTYSTRIP; /* * Reinitialize i/o since we are starting on a new directory. */ tif->tif_row = (uint32) -1; tif->tif_curstrip = (uint32) -1; tif->tif_col = (uint32) -1; tif->tif_curtile = (uint32) -1; tif->tif_tilesize = (tmsize_t) -1; tif->tif_scanlinesize = TIFFScanlineSize(tif); if (!tif->tif_scanlinesize) { TIFFErrorExt(tif->tif_clientdata, module, "Cannot handle zero scanline size"); return (0); } if (isTiled(tif)) { tif->tif_tilesize = TIFFTileSize(tif); if (!tif->tif_tilesize) { TIFFErrorExt(tif->tif_clientdata, module, "Cannot handle zero tile size"); return (0); } } else { if (!TIFFStripSize(tif)) { TIFFErrorExt(tif->tif_clientdata, module, "Cannot handle zero strip size"); return (0); } } return (1); bad: if (dir) _TIFFfree(dir); return (0); } static void TIFFReadDirectoryCheckOrder(TIFF* tif, TIFFDirEntry* dir, uint16 dircount) { static const char module[] = "TIFFReadDirectoryCheckOrder"; uint16 m; uint16 n; TIFFDirEntry* o; m=0; for (n=0, o=dir; ntdir_tagtif_clientdata,module, "Invalid TIFF directory; tags are not sorted in ascending order"); break; } m=o->tdir_tag+1; } } static TIFFDirEntry* TIFFReadDirectoryFindEntry(TIFF* tif, TIFFDirEntry* dir, uint16 dircount, uint16 tagid) { TIFFDirEntry* m; uint16 n; (void) tif; for (m=dir, n=0; ntdir_tag==tagid) return(m); } return(0); } static void TIFFReadDirectoryFindFieldInfo(TIFF* tif, uint16 tagid, uint32* fii) { int32 ma,mb,mc; ma=-1; mc=(int32)tif->tif_nfields; while (1) { if (ma+1==mc) { *fii = FAILED_FII; return; } mb=(ma+mc)/2; if (tif->tif_fields[mb]->field_tag==(uint32)tagid) break; if (tif->tif_fields[mb]->field_tag<(uint32)tagid) ma=mb; else mc=mb; } while (1) { if (mb==0) break; if (tif->tif_fields[mb-1]->field_tag!=(uint32)tagid) break; mb--; } *fii=mb; } /* * Read custom directory from the arbitarry offset. * The code is very similar to TIFFReadDirectory(). */ int TIFFReadCustomDirectory(TIFF* tif, toff_t diroff, const TIFFFieldArray* infoarray) { static const char module[] = "TIFFReadCustomDirectory"; TIFFDirEntry* dir; uint16 dircount; TIFFDirEntry* dp; uint16 di; const TIFFField* fip; uint32 fii; _TIFFSetupFields(tif, infoarray); dircount=TIFFFetchDirectory(tif,diroff,&dir,NULL); if (!dircount) { TIFFErrorExt(tif->tif_clientdata,module, "Failed to read custom directory at offset " TIFF_UINT64_FORMAT,diroff); return 0; } TIFFFreeDirectory(tif); _TIFFmemset(&tif->tif_dir, 0, sizeof(TIFFDirectory)); TIFFReadDirectoryCheckOrder(tif,dir,dircount); for (di=0, dp=dir; ditdir_tag,&fii); if (fii == FAILED_FII) { TIFFWarningExt(tif->tif_clientdata, module, "Unknown field with tag %d (0x%x) encountered", dp->tdir_tag, dp->tdir_tag); if (!_TIFFMergeFields(tif, _TIFFCreateAnonField(tif, dp->tdir_tag, (TIFFDataType) dp->tdir_type), 1)) { TIFFWarningExt(tif->tif_clientdata, module, "Registering anonymous field with tag %d (0x%x) failed", dp->tdir_tag, dp->tdir_tag); dp->tdir_tag=IGNORE; } else { TIFFReadDirectoryFindFieldInfo(tif,dp->tdir_tag,&fii); assert( fii != FAILED_FII ); } } if (dp->tdir_tag!=IGNORE) { fip=tif->tif_fields[fii]; if (fip->field_bit==FIELD_IGNORE) dp->tdir_tag=IGNORE; else { /* check data type */ while ((fip->field_type!=TIFF_ANY)&&(fip->field_type!=dp->tdir_type)) { fii++; if ((fii==tif->tif_nfields)|| (tif->tif_fields[fii]->field_tag!=(uint32)dp->tdir_tag)) { fii=0xFFFF; break; } fip=tif->tif_fields[fii]; } if (fii==0xFFFF) { TIFFWarningExt(tif->tif_clientdata, module, "Wrong data type %d for \"%s\"; tag ignored", dp->tdir_type,fip->field_name); dp->tdir_tag=IGNORE; } else { /* check count if known in advance */ if ((fip->field_readcount!=TIFF_VARIABLE)&& (fip->field_readcount!=TIFF_VARIABLE2)) { uint32 expected; if (fip->field_readcount==TIFF_SPP) expected=(uint32)tif->tif_dir.td_samplesperpixel; else expected=(uint32)fip->field_readcount; if (!CheckDirCount(tif,dp,expected)) dp->tdir_tag=IGNORE; } } } switch (dp->tdir_tag) { case IGNORE: break; case EXIFTAG_SUBJECTDISTANCE: (void) TIFFFetchSubjectDistance(tif,dp); break; default: (void) TIFFFetchNormalTag(tif, dp, TRUE); break; } } } if (dir) _TIFFfree(dir); return 1; } /* * EXIF is important special case of custom IFD, so we have a special * function to read it. */ int TIFFReadEXIFDirectory(TIFF* tif, toff_t diroff) { const TIFFFieldArray* exifFieldArray; exifFieldArray = _TIFFGetExifFields(); return TIFFReadCustomDirectory(tif, diroff, exifFieldArray); } static int EstimateStripByteCounts(TIFF* tif, TIFFDirEntry* dir, uint16 dircount) { static const char module[] = "EstimateStripByteCounts"; TIFFDirEntry *dp; TIFFDirectory *td = &tif->tif_dir; uint32 strip; _TIFFFillStriles( tif ); if (td->td_stripbytecount) _TIFFfree(td->td_stripbytecount); td->td_stripbytecount = (uint64*) _TIFFCheckMalloc(tif, td->td_nstrips, sizeof (uint64), "for \"StripByteCounts\" array"); if( td->td_stripbytecount == NULL ) return -1; if (td->td_compression != COMPRESSION_NONE) { uint64 space; uint64 filesize; uint16 n; filesize = TIFFGetFileSize(tif); if (!(tif->tif_flags&TIFF_BIGTIFF)) space=sizeof(TIFFHeaderClassic)+2+dircount*12+4; else space=sizeof(TIFFHeaderBig)+8+dircount*20+8; /* calculate amount of space used by indirect values */ for (dp = dir, n = dircount; n > 0; n--, dp++) { uint32 typewidth = TIFFDataWidth((TIFFDataType) dp->tdir_type); uint64 datasize; typewidth = TIFFDataWidth((TIFFDataType) dp->tdir_type); if (typewidth == 0) { TIFFErrorExt(tif->tif_clientdata, module, "Cannot determine size of unknown tag type %d", dp->tdir_type); return -1; } datasize=(uint64)typewidth*dp->tdir_count; if (!(tif->tif_flags&TIFF_BIGTIFF)) { if (datasize<=4) datasize=0; } else { if (datasize<=8) datasize=0; } space+=datasize; } space = filesize - space; if (td->td_planarconfig == PLANARCONFIG_SEPARATE) space /= td->td_samplesperpixel; for (strip = 0; strip < td->td_nstrips; strip++) td->td_stripbytecount[strip] = space; /* * This gross hack handles the case were the offset to * the last strip is past the place where we think the strip * should begin. Since a strip of data must be contiguous, * it's safe to assume that we've overestimated the amount * of data in the strip and trim this number back accordingly. */ strip--; if (td->td_stripoffset[strip]+td->td_stripbytecount[strip] > filesize) td->td_stripbytecount[strip] = filesize - td->td_stripoffset[strip]; } else if (isTiled(tif)) { uint64 bytespertile = TIFFTileSize64(tif); for (strip = 0; strip < td->td_nstrips; strip++) td->td_stripbytecount[strip] = bytespertile; } else { uint64 rowbytes = TIFFScanlineSize64(tif); uint32 rowsperstrip = td->td_imagelength/td->td_stripsperimage; for (strip = 0; strip < td->td_nstrips; strip++) td->td_stripbytecount[strip] = rowbytes * rowsperstrip; } TIFFSetFieldBit(tif, FIELD_STRIPBYTECOUNTS); if (!TIFFFieldSet(tif, FIELD_ROWSPERSTRIP)) td->td_rowsperstrip = td->td_imagelength; return 1; } static void MissingRequired(TIFF* tif, const char* tagname) { static const char module[] = "MissingRequired"; TIFFErrorExt(tif->tif_clientdata, module, "TIFF directory is missing required \"%s\" field", tagname); } /* * Check the directory offset against the list of already seen directory * offsets. This is a trick to prevent IFD looping. The one can create TIFF * file with looped directory pointers. We will maintain a list of already * seen directories and check every IFD offset against that list. */ static int TIFFCheckDirOffset(TIFF* tif, uint64 diroff) { uint16 n; if (diroff == 0) /* no more directories */ return 0; for (n = 0; n < tif->tif_dirnumber && tif->tif_dirlist; n++) { if (tif->tif_dirlist[n] == diroff) return 0; } tif->tif_dirnumber++; if (tif->tif_dirnumber > tif->tif_dirlistsize) { uint64* new_dirlist; /* * XXX: Reduce memory allocation granularity of the dirlist * array. */ new_dirlist = (uint64*)_TIFFCheckRealloc(tif, tif->tif_dirlist, tif->tif_dirnumber, 2 * sizeof(uint64), "for IFD list"); if (!new_dirlist) return 0; tif->tif_dirlistsize = 2 * tif->tif_dirnumber; tif->tif_dirlist = new_dirlist; } tif->tif_dirlist[tif->tif_dirnumber - 1] = diroff; return 1; } /* * Check the count field of a directory entry against a known value. The * caller is expected to skip/ignore the tag if there is a mismatch. */ static int CheckDirCount(TIFF* tif, TIFFDirEntry* dir, uint32 count) { if ((uint64)count > dir->tdir_count) { const TIFFField* fip = TIFFFieldWithTag(tif, dir->tdir_tag); TIFFWarningExt(tif->tif_clientdata, tif->tif_name, "incorrect count for field \"%s\" (" TIFF_UINT64_FORMAT ", expecting %u); tag ignored", fip ? fip->field_name : "unknown tagname", dir->tdir_count, count); return (0); } else if ((uint64)count < dir->tdir_count) { const TIFFField* fip = TIFFFieldWithTag(tif, dir->tdir_tag); TIFFWarningExt(tif->tif_clientdata, tif->tif_name, "incorrect count for field \"%s\" (" TIFF_UINT64_FORMAT ", expecting %u); tag trimmed", fip ? fip->field_name : "unknown tagname", dir->tdir_count, count); dir->tdir_count = count; return (1); } return (1); } /* * Read IFD structure from the specified offset. If the pointer to * nextdiroff variable has been specified, read it too. Function returns a * number of fields in the directory or 0 if failed. */ static uint16 TIFFFetchDirectory(TIFF* tif, uint64 diroff, TIFFDirEntry** pdir, uint64 *nextdiroff) { static const char module[] = "TIFFFetchDirectory"; void* origdir; uint16 dircount16; uint32 dirsize; TIFFDirEntry* dir; uint8* ma; TIFFDirEntry* mb; uint16 n; assert(pdir); tif->tif_diroff = diroff; if (nextdiroff) *nextdiroff = 0; if (!isMapped(tif)) { if (!SeekOK(tif, tif->tif_diroff)) { TIFFErrorExt(tif->tif_clientdata, module, "%s: Seek error accessing TIFF directory", tif->tif_name); return 0; } if (!(tif->tif_flags&TIFF_BIGTIFF)) { if (!ReadOK(tif, &dircount16, sizeof (uint16))) { TIFFErrorExt(tif->tif_clientdata, module, "%s: Can not read TIFF directory count", tif->tif_name); return 0; } if (tif->tif_flags & TIFF_SWAB) TIFFSwabShort(&dircount16); if (dircount16>4096) { TIFFErrorExt(tif->tif_clientdata, module, "Sanity check on directory count failed, this is probably not a valid IFD offset"); return 0; } dirsize = 12; } else { uint64 dircount64; if (!ReadOK(tif, &dircount64, sizeof (uint64))) { TIFFErrorExt(tif->tif_clientdata, module, "%s: Can not read TIFF directory count", tif->tif_name); return 0; } if (tif->tif_flags & TIFF_SWAB) TIFFSwabLong8(&dircount64); if (dircount64>4096) { TIFFErrorExt(tif->tif_clientdata, module, "Sanity check on directory count failed, this is probably not a valid IFD offset"); return 0; } dircount16 = (uint16)dircount64; dirsize = 20; } origdir = _TIFFCheckMalloc(tif, dircount16, dirsize, "to read TIFF directory"); if (origdir == NULL) return 0; if (!ReadOK(tif, origdir, (tmsize_t)(dircount16*dirsize))) { TIFFErrorExt(tif->tif_clientdata, module, "%.100s: Can not read TIFF directory", tif->tif_name); _TIFFfree(origdir); return 0; } /* * Read offset to next directory for sequential scans if * needed. */ if (nextdiroff) { if (!(tif->tif_flags&TIFF_BIGTIFF)) { uint32 nextdiroff32; if (!ReadOK(tif, &nextdiroff32, sizeof(uint32))) nextdiroff32 = 0; if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong(&nextdiroff32); *nextdiroff=nextdiroff32; } else { if (!ReadOK(tif, nextdiroff, sizeof(uint64))) *nextdiroff = 0; if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong8(nextdiroff); } } } else { tmsize_t m; tmsize_t off = (tmsize_t) tif->tif_diroff; if ((uint64)off!=tif->tif_diroff) { TIFFErrorExt(tif->tif_clientdata,module,"Can not read TIFF directory count"); return(0); } /* * Check for integer overflow when validating the dir_off, * otherwise a very high offset may cause an OOB read and * crash the client. Make two comparisons instead of * * off + sizeof(uint16) > tif->tif_size * * to avoid overflow. */ if (!(tif->tif_flags&TIFF_BIGTIFF)) { m=off+sizeof(uint16); if ((mtif->tif_size)) { TIFFErrorExt(tif->tif_clientdata, module, "Can not read TIFF directory count"); return 0; } else { _TIFFmemcpy(&dircount16, tif->tif_base + off, sizeof(uint16)); } off += sizeof (uint16); if (tif->tif_flags & TIFF_SWAB) TIFFSwabShort(&dircount16); if (dircount16>4096) { TIFFErrorExt(tif->tif_clientdata, module, "Sanity check on directory count failed, this is probably not a valid IFD offset"); return 0; } dirsize = 12; } else { tmsize_t m; uint64 dircount64; m=off+sizeof(uint64); if ((mtif->tif_size)) { TIFFErrorExt(tif->tif_clientdata, module, "Can not read TIFF directory count"); return 0; } else { _TIFFmemcpy(&dircount64, tif->tif_base + off, sizeof(uint64)); } off += sizeof (uint64); if (tif->tif_flags & TIFF_SWAB) TIFFSwabLong8(&dircount64); if (dircount64>4096) { TIFFErrorExt(tif->tif_clientdata, module, "Sanity check on directory count failed, this is probably not a valid IFD offset"); return 0; } dircount16 = (uint16)dircount64; dirsize = 20; } if (dircount16 == 0 ) { TIFFErrorExt(tif->tif_clientdata, module, "Sanity check on directory count failed, zero tag directories not supported"); return 0; } origdir = _TIFFCheckMalloc(tif, dircount16, dirsize, "to read TIFF directory"); if (origdir == NULL) return 0; m=off+dircount16*dirsize; if ((mtif->tif_size)) { TIFFErrorExt(tif->tif_clientdata, module, "Can not read TIFF directory"); _TIFFfree(origdir); return 0; } else { _TIFFmemcpy(origdir, tif->tif_base + off, dircount16 * dirsize); } if (nextdiroff) { off += dircount16 * dirsize; if (!(tif->tif_flags&TIFF_BIGTIFF)) { uint32 nextdiroff32; m=off+sizeof(uint32); if ((mtif->tif_size)) nextdiroff32 = 0; else _TIFFmemcpy(&nextdiroff32, tif->tif_base + off, sizeof (uint32)); if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong(&nextdiroff32); *nextdiroff = nextdiroff32; } else { m=off+sizeof(uint64); if ((mtif->tif_size)) *nextdiroff = 0; else _TIFFmemcpy(nextdiroff, tif->tif_base + off, sizeof (uint64)); if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong8(nextdiroff); } } } dir = (TIFFDirEntry*)_TIFFCheckMalloc(tif, dircount16, sizeof(TIFFDirEntry), "to read TIFF directory"); if (dir==0) { _TIFFfree(origdir); return 0; } ma=(uint8*)origdir; mb=dir; for (n=0; ntif_flags&TIFF_SWAB) TIFFSwabShort((uint16*)ma); mb->tdir_tag=*(uint16*)ma; ma+=sizeof(uint16); if (tif->tif_flags&TIFF_SWAB) TIFFSwabShort((uint16*)ma); mb->tdir_type=*(uint16*)ma; ma+=sizeof(uint16); if (!(tif->tif_flags&TIFF_BIGTIFF)) { if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong((uint32*)ma); mb->tdir_count=(uint64)(*(uint32*)ma); ma+=sizeof(uint32); *(uint32*)(&mb->tdir_offset)=*(uint32*)ma; ma+=sizeof(uint32); } else { if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong8((uint64*)ma); mb->tdir_count=TIFFReadUInt64(ma); ma+=sizeof(uint64); mb->tdir_offset.toff_long8=TIFFReadUInt64(ma); ma+=sizeof(uint64); } mb++; } _TIFFfree(origdir); *pdir = dir; return dircount16; } /* * Fetch a tag that is not handled by special case code. */ static int TIFFFetchNormalTag(TIFF* tif, TIFFDirEntry* dp, int recover) { static const char module[] = "TIFFFetchNormalTag"; enum TIFFReadDirEntryErr err; uint32 fii; const TIFFField* fip = NULL; TIFFReadDirectoryFindFieldInfo(tif,dp->tdir_tag,&fii); if( fii == FAILED_FII ) { TIFFErrorExt(tif->tif_clientdata, "TIFFFetchNormalTag", "No definition found for tag %d", dp->tdir_tag); return 0; } fip=tif->tif_fields[fii]; assert(fip->set_field_type!=TIFF_SETGET_OTHER); /* if so, we shouldn't arrive here but deal with this in specialized code */ assert(fip->set_field_type!=TIFF_SETGET_INT); /* if so, we shouldn't arrive here as this is only the case for pseudo-tags */ err=TIFFReadDirEntryErrOk; switch (fip->set_field_type) { case TIFF_SETGET_UNDEFINED: break; case TIFF_SETGET_ASCII: { uint8* data; assert(fip->field_passcount==0); err=TIFFReadDirEntryByteArray(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { uint8* ma; uint32 mb; int n; ma=data; mb=0; while (mb<(uint32)dp->tdir_count) { if (*ma==0) break; ma++; mb++; } if (mb+1<(uint32)dp->tdir_count) TIFFWarningExt(tif->tif_clientdata,module,"ASCII value for tag \"%s\" contains null byte in value; value incorrectly truncated during reading due to implementation limitations",fip->field_name); else if (mb+1>(uint32)dp->tdir_count) { uint8* o; TIFFWarningExt(tif->tif_clientdata,module,"ASCII value for tag \"%s\" does not end in null byte",fip->field_name); if ((uint32)dp->tdir_count+1!=dp->tdir_count+1) o=NULL; else o=_TIFFmalloc((uint32)dp->tdir_count+1); if (o==NULL) { if (data!=NULL) _TIFFfree(data); return(0); } _TIFFmemcpy(o,data,(uint32)dp->tdir_count); o[(uint32)dp->tdir_count]=0; if (data!=0) _TIFFfree(data); data=o; } n=TIFFSetField(tif,dp->tdir_tag,data); if (data!=0) _TIFFfree(data); if (!n) return(0); } } break; case TIFF_SETGET_UINT8: { uint8 data; assert(fip->field_readcount==1); assert(fip->field_passcount==0); err=TIFFReadDirEntryByte(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { if (!TIFFSetField(tif,dp->tdir_tag,data)) return(0); } } break; case TIFF_SETGET_UINT16: { uint16 data; assert(fip->field_readcount==1); assert(fip->field_passcount==0); err=TIFFReadDirEntryShort(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { if (!TIFFSetField(tif,dp->tdir_tag,data)) return(0); } } break; case TIFF_SETGET_UINT32: { uint32 data; assert(fip->field_readcount==1); assert(fip->field_passcount==0); err=TIFFReadDirEntryLong(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { if (!TIFFSetField(tif,dp->tdir_tag,data)) return(0); } } break; case TIFF_SETGET_UINT64: { uint64 data; assert(fip->field_readcount==1); assert(fip->field_passcount==0); err=TIFFReadDirEntryLong8(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { if (!TIFFSetField(tif,dp->tdir_tag,data)) return(0); } } break; case TIFF_SETGET_FLOAT: { float data; assert(fip->field_readcount==1); assert(fip->field_passcount==0); err=TIFFReadDirEntryFloat(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { if (!TIFFSetField(tif,dp->tdir_tag,data)) return(0); } } break; case TIFF_SETGET_DOUBLE: { double data; assert(fip->field_readcount==1); assert(fip->field_passcount==0); err=TIFFReadDirEntryDouble(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { if (!TIFFSetField(tif,dp->tdir_tag,data)) return(0); } } break; case TIFF_SETGET_IFD8: { uint64 data; assert(fip->field_readcount==1); assert(fip->field_passcount==0); err=TIFFReadDirEntryIfd8(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { if (!TIFFSetField(tif,dp->tdir_tag,data)) return(0); } } break; case TIFF_SETGET_UINT16_PAIR: { uint16* data; assert(fip->field_readcount==2); assert(fip->field_passcount==0); if (dp->tdir_count!=2) return(0); err=TIFFReadDirEntryShortArray(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,data[0],data[1]); _TIFFfree(data); if (!m) return(0); } } break; case TIFF_SETGET_C0_UINT8: { uint8* data; assert(fip->field_readcount>=1); assert(fip->field_passcount==0); if (dp->tdir_count!=(uint64)fip->field_readcount) /* corrupt file */; else { err=TIFFReadDirEntryByteArray(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } } break; case TIFF_SETGET_C0_UINT16: { uint16* data; assert(fip->field_readcount>=1); assert(fip->field_passcount==0); if (dp->tdir_count!=(uint64)fip->field_readcount) /* corrupt file */; else { err=TIFFReadDirEntryShortArray(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } } break; case TIFF_SETGET_C0_UINT32: { uint32* data; assert(fip->field_readcount>=1); assert(fip->field_passcount==0); if (dp->tdir_count!=(uint64)fip->field_readcount) /* corrupt file */; else { err=TIFFReadDirEntryLongArray(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } } break; case TIFF_SETGET_C0_FLOAT: { float* data; assert(fip->field_readcount>=1); assert(fip->field_passcount==0); if (dp->tdir_count!=(uint64)fip->field_readcount) /* corrupt file */; else { err=TIFFReadDirEntryFloatArray(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } } break; case TIFF_SETGET_C16_ASCII: { uint8* data; assert(fip->field_readcount==TIFF_VARIABLE); assert(fip->field_passcount==1); if (dp->tdir_count>0xFFFF) err=TIFFReadDirEntryErrCount; else { err=TIFFReadDirEntryByteArray(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,(uint16)(dp->tdir_count),data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } } break; case TIFF_SETGET_C16_UINT8: { uint8* data; assert(fip->field_readcount==TIFF_VARIABLE); assert(fip->field_passcount==1); if (dp->tdir_count>0xFFFF) err=TIFFReadDirEntryErrCount; else { err=TIFFReadDirEntryByteArray(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,(uint16)(dp->tdir_count),data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } } break; case TIFF_SETGET_C16_UINT16: { uint16* data; assert(fip->field_readcount==TIFF_VARIABLE); assert(fip->field_passcount==1); if (dp->tdir_count>0xFFFF) err=TIFFReadDirEntryErrCount; else { err=TIFFReadDirEntryShortArray(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,(uint16)(dp->tdir_count),data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } } break; case TIFF_SETGET_C16_UINT32: { uint32* data; assert(fip->field_readcount==TIFF_VARIABLE); assert(fip->field_passcount==1); if (dp->tdir_count>0xFFFF) err=TIFFReadDirEntryErrCount; else { err=TIFFReadDirEntryLongArray(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,(uint16)(dp->tdir_count),data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } } break; case TIFF_SETGET_C16_UINT64: { uint64* data; assert(fip->field_readcount==TIFF_VARIABLE); assert(fip->field_passcount==1); if (dp->tdir_count>0xFFFF) err=TIFFReadDirEntryErrCount; else { err=TIFFReadDirEntryLong8Array(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,(uint16)(dp->tdir_count),data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } } break; case TIFF_SETGET_C16_FLOAT: { float* data; assert(fip->field_readcount==TIFF_VARIABLE); assert(fip->field_passcount==1); if (dp->tdir_count>0xFFFF) err=TIFFReadDirEntryErrCount; else { err=TIFFReadDirEntryFloatArray(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,(uint16)(dp->tdir_count),data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } } break; case TIFF_SETGET_C16_DOUBLE: { double* data; assert(fip->field_readcount==TIFF_VARIABLE); assert(fip->field_passcount==1); if (dp->tdir_count>0xFFFF) err=TIFFReadDirEntryErrCount; else { err=TIFFReadDirEntryDoubleArray(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,(uint16)(dp->tdir_count),data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } } break; case TIFF_SETGET_C16_IFD8: { uint64* data; assert(fip->field_readcount==TIFF_VARIABLE); assert(fip->field_passcount==1); if (dp->tdir_count>0xFFFF) err=TIFFReadDirEntryErrCount; else { err=TIFFReadDirEntryIfd8Array(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,(uint16)(dp->tdir_count),data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } } break; case TIFF_SETGET_C32_ASCII: { uint8* data; assert(fip->field_readcount==TIFF_VARIABLE2); assert(fip->field_passcount==1); err=TIFFReadDirEntryByteArray(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,(uint32)(dp->tdir_count),data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } break; case TIFF_SETGET_C32_UINT8: { uint8* data; assert(fip->field_readcount==TIFF_VARIABLE2); assert(fip->field_passcount==1); err=TIFFReadDirEntryByteArray(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,(uint32)(dp->tdir_count),data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } break; case TIFF_SETGET_C32_SINT8: { int8* data = NULL; assert(fip->field_readcount==TIFF_VARIABLE2); assert(fip->field_passcount==1); err=TIFFReadDirEntrySbyteArray(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,(uint32)(dp->tdir_count),data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } break; case TIFF_SETGET_C32_UINT16: { uint16* data; assert(fip->field_readcount==TIFF_VARIABLE2); assert(fip->field_passcount==1); err=TIFFReadDirEntryShortArray(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,(uint32)(dp->tdir_count),data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } break; case TIFF_SETGET_C32_SINT16: { int16* data = NULL; assert(fip->field_readcount==TIFF_VARIABLE2); assert(fip->field_passcount==1); err=TIFFReadDirEntrySshortArray(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,(uint32)(dp->tdir_count),data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } break; case TIFF_SETGET_C32_UINT32: { uint32* data; assert(fip->field_readcount==TIFF_VARIABLE2); assert(fip->field_passcount==1); err=TIFFReadDirEntryLongArray(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,(uint32)(dp->tdir_count),data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } break; case TIFF_SETGET_C32_SINT32: { int32* data = NULL; assert(fip->field_readcount==TIFF_VARIABLE2); assert(fip->field_passcount==1); err=TIFFReadDirEntrySlongArray(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,(uint32)(dp->tdir_count),data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } break; case TIFF_SETGET_C32_UINT64: { uint64* data; assert(fip->field_readcount==TIFF_VARIABLE2); assert(fip->field_passcount==1); err=TIFFReadDirEntryLong8Array(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,(uint32)(dp->tdir_count),data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } break; case TIFF_SETGET_C32_SINT64: { int64* data = NULL; assert(fip->field_readcount==TIFF_VARIABLE2); assert(fip->field_passcount==1); err=TIFFReadDirEntrySlong8Array(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,(uint32)(dp->tdir_count),data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } break; case TIFF_SETGET_C32_FLOAT: { float* data; assert(fip->field_readcount==TIFF_VARIABLE2); assert(fip->field_passcount==1); err=TIFFReadDirEntryFloatArray(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,(uint32)(dp->tdir_count),data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } break; case TIFF_SETGET_C32_DOUBLE: { double* data; assert(fip->field_readcount==TIFF_VARIABLE2); assert(fip->field_passcount==1); err=TIFFReadDirEntryDoubleArray(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,(uint32)(dp->tdir_count),data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } break; case TIFF_SETGET_C32_IFD8: { uint64* data; assert(fip->field_readcount==TIFF_VARIABLE2); assert(fip->field_passcount==1); err=TIFFReadDirEntryIfd8Array(tif,dp,&data); if (err==TIFFReadDirEntryErrOk) { int m; m=TIFFSetField(tif,dp->tdir_tag,(uint32)(dp->tdir_count),data); if (data!=0) _TIFFfree(data); if (!m) return(0); } } break; default: assert(0); /* we should never get here */ break; } if (err!=TIFFReadDirEntryErrOk) { TIFFReadDirEntryOutputErr(tif,err,module,fip ? fip->field_name : "unknown tagname",recover); return(0); } return(1); } /* * Fetch a set of offsets or lengths. * While this routine says "strips", in fact it's also used for tiles. */ static int TIFFFetchStripThing(TIFF* tif, TIFFDirEntry* dir, uint32 nstrips, uint64** lpp) { static const char module[] = "TIFFFetchStripThing"; enum TIFFReadDirEntryErr err; uint64* data; err=TIFFReadDirEntryLong8Array(tif,dir,&data); if (err!=TIFFReadDirEntryErrOk) { const TIFFField* fip = TIFFFieldWithTag(tif,dir->tdir_tag); TIFFReadDirEntryOutputErr(tif,err,module,fip ? fip->field_name : "unknown tagname",0); return(0); } if (dir->tdir_count!=(uint64)nstrips) { uint64* resizeddata; resizeddata=(uint64*)_TIFFCheckMalloc(tif,nstrips,sizeof(uint64),"for strip array"); if (resizeddata==0) { _TIFFfree(data); return(0); } if (dir->tdir_count<(uint64)nstrips) { _TIFFmemcpy(resizeddata,data,(uint32)dir->tdir_count*sizeof(uint64)); _TIFFmemset(resizeddata+(uint32)dir->tdir_count,0,(nstrips-(uint32)dir->tdir_count)*sizeof(uint64)); } else _TIFFmemcpy(resizeddata,data,nstrips*sizeof(uint64)); _TIFFfree(data); data=resizeddata; } *lpp=data; return(1); } /* * Fetch and set the SubjectDistance EXIF tag. */ static int TIFFFetchSubjectDistance(TIFF* tif, TIFFDirEntry* dir) { static const char module[] = "TIFFFetchSubjectDistance"; enum TIFFReadDirEntryErr err; UInt64Aligned_t m; m.l=0; assert(sizeof(double)==8); assert(sizeof(uint64)==8); assert(sizeof(uint32)==4); if (dir->tdir_count!=1) err=TIFFReadDirEntryErrCount; else if (dir->tdir_type!=TIFF_RATIONAL) err=TIFFReadDirEntryErrType; else { if (!(tif->tif_flags&TIFF_BIGTIFF)) { uint32 offset; offset=*(uint32*)(&dir->tdir_offset); if (tif->tif_flags&TIFF_SWAB) TIFFSwabLong(&offset); err=TIFFReadDirEntryData(tif,offset,8,m.i); } else { m.l=dir->tdir_offset.toff_long8; err=TIFFReadDirEntryErrOk; } } if (err==TIFFReadDirEntryErrOk) { double n; if (tif->tif_flags&TIFF_SWAB) TIFFSwabArrayOfLong(m.i,2); if (m.i[0]==0) n=0.0; else if (m.i[0]==0xFFFFFFFF) /* * XXX: Numerator 0xFFFFFFFF means that we have infinite * distance. Indicate that with a negative floating point * SubjectDistance value. */ n=-1.0; else n=(double)m.i[0]/(double)m.i[1]; return(TIFFSetField(tif,dir->tdir_tag,n)); } else { TIFFReadDirEntryOutputErr(tif,err,module,"SubjectDistance",TRUE); return(0); } } /* * Replace a single strip (tile) of uncompressed data by multiple strips * (tiles), each approximately STRIP_SIZE_DEFAULT bytes. This is useful for * dealing with large images or for dealing with machines with a limited * amount memory. */ static void ChopUpSingleUncompressedStrip(TIFF* tif) { register TIFFDirectory *td = &tif->tif_dir; uint64 bytecount; uint64 offset; uint32 rowblock; uint64 rowblockbytes; uint64 stripbytes; uint32 strip; uint64 nstrips64; uint32 nstrips32; uint32 rowsperstrip; uint64* newcounts; uint64* newoffsets; bytecount = td->td_stripbytecount[0]; offset = td->td_stripoffset[0]; assert(td->td_planarconfig == PLANARCONFIG_CONTIG); if ((td->td_photometric == PHOTOMETRIC_YCBCR)&& (!isUpSampled(tif))) rowblock = td->td_ycbcrsubsampling[1]; else rowblock = 1; rowblockbytes = TIFFVTileSize64(tif, rowblock); /* * Make the rows hold at least one scanline, but fill specified amount * of data if possible. */ if (rowblockbytes > STRIP_SIZE_DEFAULT) { stripbytes = rowblockbytes; rowsperstrip = rowblock; } else if (rowblockbytes > 0 ) { uint32 rowblocksperstrip; rowblocksperstrip = (uint32) (STRIP_SIZE_DEFAULT / rowblockbytes); rowsperstrip = rowblocksperstrip * rowblock; stripbytes = rowblocksperstrip * rowblockbytes; } else return; /* * never increase the number of strips in an image */ if (rowsperstrip >= td->td_rowsperstrip) return; nstrips64 = TIFFhowmany_64(bytecount, stripbytes); if ((nstrips64==0)||(nstrips64>0xFFFFFFFF)) /* something is wonky, do nothing. */ return; nstrips32 = (uint32)nstrips64; newcounts = (uint64*) _TIFFCheckMalloc(tif, nstrips32, sizeof (uint64), "for chopped \"StripByteCounts\" array"); newoffsets = (uint64*) _TIFFCheckMalloc(tif, nstrips32, sizeof (uint64), "for chopped \"StripOffsets\" array"); if (newcounts == NULL || newoffsets == NULL) { /* * Unable to allocate new strip information, give up and use * the original one strip information. */ if (newcounts != NULL) _TIFFfree(newcounts); if (newoffsets != NULL) _TIFFfree(newoffsets); return; } /* * Fill the strip information arrays with new bytecounts and offsets * that reflect the broken-up format. */ for (strip = 0; strip < nstrips32; strip++) { if (stripbytes > bytecount) stripbytes = bytecount; newcounts[strip] = stripbytes; newoffsets[strip] = offset; offset += stripbytes; bytecount -= stripbytes; } /* * Replace old single strip info with multi-strip info. */ td->td_stripsperimage = td->td_nstrips = nstrips32; TIFFSetField(tif, TIFFTAG_ROWSPERSTRIP, rowsperstrip); _TIFFfree(td->td_stripbytecount); _TIFFfree(td->td_stripoffset); td->td_stripbytecount = newcounts; td->td_stripoffset = newoffsets; td->td_stripbytecountsorted = 1; } int _TIFFFillStriles( TIFF *tif ) { #if defined(DEFER_STRILE_LOAD) register TIFFDirectory *td = &tif->tif_dir; int return_value = 1; if( td->td_stripoffset != NULL ) return 1; if( td->td_stripoffset_entry.tdir_count == 0 ) return 0; if (!TIFFFetchStripThing(tif,&(td->td_stripoffset_entry), td->td_nstrips,&td->td_stripoffset)) { return_value = 0; } if (!TIFFFetchStripThing(tif,&(td->td_stripbytecount_entry), td->td_nstrips,&td->td_stripbytecount)) { return_value = 0; } _TIFFmemset( &(td->td_stripoffset_entry), 0, sizeof(TIFFDirEntry)); _TIFFmemset( &(td->td_stripbytecount_entry), 0, sizeof(TIFFDirEntry)); if (tif->tif_dir.td_nstrips > 1 && return_value == 1 ) { uint32 strip; tif->tif_dir.td_stripbytecountsorted = 1; for (strip = 1; strip < tif->tif_dir.td_nstrips; strip++) { if (tif->tif_dir.td_stripoffset[strip - 1] > tif->tif_dir.td_stripoffset[strip]) { tif->tif_dir.td_stripbytecountsorted = 0; break; } } } return return_value; #else /* !defined(DEFER_STRILE_LOAD) */ (void) tif; return 1; #endif } /* vim: set ts=8 sts=8 sw=8 noet: */ /* * Local Variables: * mode: c * c-basic-offset: 8 * fill-column: 78 * End: */