compat-exiv2-026/exiv2-CVE-2018-8976.patch
2023-02-27 12:30:00 -05:00

467 lines
23 KiB
Diff

diff --git a/src/jpgimage.cpp b/src/jpgimage.cpp
index 9afcb58..ca83f14 100644
--- a/src/jpgimage.cpp
+++ b/src/jpgimage.cpp
@@ -34,6 +34,7 @@ EXIV2_RCSID("@(#) $Id$")
#include "image_int.hpp"
#include "error.hpp"
#include "futils.hpp"
+#include "enforce.hpp"
#ifdef WIN32
#include <windows.h>
@@ -328,12 +329,14 @@ namespace Exiv2 {
int c = -1;
// Skips potential padding between markers
while ((c=io_->getb()) != 0xff) {
- if (c == EOF) return -1;
+ if (c == EOF)
+ return -1;
}
// Markers can start with any number of 0xff
while ((c=io_->getb()) == 0xff) {
- if (c == EOF) return -2;
+ if (c == EOF)
+ return -2;
}
return c;
}
@@ -564,85 +567,88 @@ namespace Exiv2 {
out << Internal::stringFormat("%8ld | 0xff%02x %-5s", \
io_->tell()-2,marker,nm[marker].c_str())
- void JpegBase::printStructure(std::ostream& out, PrintStructureOption option,int depth)
+ void JpegBase::printStructure(std::ostream& out, PrintStructureOption option, int depth)
{
- if (io_->open() != 0) throw Error(9, io_->path(), strError());
+ if (io_->open() != 0)
+ throw Error(9, io_->path(), strError());
// Ensure that this is the correct image type
if (!isThisType(*io_, false)) {
- if (io_->error() || io_->eof()) throw Error(14);
+ if (io_->error() || io_->eof())
+ throw Error(14);
throw Error(15);
}
- bool bPrint = option==kpsBasic || option==kpsRecursive;
+ bool bPrint = option == kpsBasic || option == kpsRecursive;
Exiv2::Uint32Vector iptcDataSegs;
- if ( bPrint || option == kpsXMP || option == kpsIccProfile || option == kpsIptcErase ) {
+ if (bPrint || option == kpsXMP || option == kpsIccProfile || option == kpsIptcErase) {
// nmonic for markers
- std::string nm[256] ;
- nm[0xd8]="SOI" ;
- nm[0xd9]="EOI" ;
- nm[0xda]="SOS" ;
- nm[0xdb]="DQT" ;
- nm[0xdd]="DRI" ;
- nm[0xfe]="COM" ;
+ std::string nm[256];
+ nm[0xd8] = "SOI";
+ nm[0xd9] = "EOI";
+ nm[0xda] = "SOS";
+ nm[0xdb] = "DQT";
+ nm[0xdd] = "DRI";
+ nm[0xfe] = "COM";
// 0xe0 .. 0xef are APPn
// 0xc0 .. 0xcf are SOFn (except 4)
- nm[0xc4]="DHT" ;
- for ( int i = 0 ; i <= 15 ; i++ ) {
+ nm[0xc4] = "DHT";
+ for (int i = 0; i <= 15; i++) {
char MN[10];
- sprintf(MN,"APP%d",i);
- nm[0xe0+i] = MN;
- if ( i != 4 ) {
- sprintf(MN,"SOF%d",i);
- nm[0xc0+i] = MN;
+ sprintf(MN, "APP%d", i);
+ nm[0xe0 + i] = MN;
+ if (i != 4) {
+ sprintf(MN, "SOF%d", i);
+ nm[0xc0 + i] = MN;
}
}
// which markers have a length field?
bool mHasLength[256];
- for ( int i = 0 ; i < 256 ; i ++ )
- mHasLength[i]
- = ( i >= sof0_ && i <= sof15_)
- || ( i >= app0_ && i <= (app0_ | 0x0F))
- || ( i == dht_ || i == dqt_ || i == dri_ || i == com_ || i == sos_ )
- ;
+ for (int i = 0; i < 256; i++)
+ mHasLength[i] = (i >= sof0_ && i <= sof15_) || (i >= app0_ && i <= (app0_ | 0x0F)) ||
+ (i == dht_ || i == dqt_ || i == dri_ || i == com_ || i == sos_);
// Container for the signature
- bool bExtXMP = false;
- long bufRead = 0;
- const long bufMinSize = 36;
- DataBuf buf(bufMinSize);
+ bool bExtXMP = false;
+ long bufRead = 0;
+ const long bufMinSize = 36;
+ DataBuf buf(bufMinSize);
// Read section marker
int marker = advanceToMarker();
- if (marker < 0) throw Error(15);
+ if (marker < 0)
+ throw Error(15);
- bool done = false;
- bool first= true;
+ bool done = false;
+ bool first = true;
while (!done) {
// print marker bytes
- if ( first && bPrint ) {
+ if (first && bPrint) {
out << "STRUCTURE OF JPEG FILE: " << io_->path() << std::endl;
- out << " address | marker | length | data" << std::endl ;
+ out << " address | marker | length | data" << std::endl;
REPORT_MARKER;
}
- first = false;
+ first = false;
bool bLF = bPrint;
// Read size and signature
std::memset(buf.pData_, 0x0, buf.size_);
bufRead = io_->read(buf.pData_, bufMinSize);
- if (io_->error()) throw Error(14);
- if (bufRead < 2) throw Error(15);
- uint16_t size = mHasLength[marker] ? getUShort(buf.pData_, bigEndian) : 0 ;
- if ( bPrint && mHasLength[marker] ) out << Internal::stringFormat(" | %7d ", size);
+ if (io_->error())
+ throw Error(14);
+ if (bufRead < 2)
+ throw Error(15);
+ uint16_t size = mHasLength[marker] ? getUShort(buf.pData_, bigEndian) : 0;
+ if (bPrint && mHasLength[marker])
+ out << Internal::stringFormat(" | %7d ", size);
// print signature for APPn
if (marker >= app0_ && marker <= (app0_ | 0x0F)) {
// http://www.adobe.com/content/dam/Adobe/en/devnet/xmp/pdfs/XMPSpecificationPart3.pdf p75
- const char* signature = (const char*) buf.pData_+2;
+ const char* signature = (const char*)buf.pData_ + 2;
// 728 rmills@rmillsmbp:~/gnu/exiv2/ttt $ exiv2 -pS test/data/exiv2-bug922.jpg
// STRUCTURE OF JPEG FILE: test/data/exiv2-bug922.jpg
@@ -651,13 +657,13 @@ namespace Exiv2 {
// 2 | 0xe1 APP1 | 911 | Exif..MM.*.......%.........#....
// 915 | 0xe1 APP1 | 870 | http://ns.adobe.com/xap/1.0/.<x:
// 1787 | 0xe1 APP1 | 65460 | http://ns.adobe.com/xmp/extensio
- if ( option == kpsXMP && std::string(signature).find("http://ns.adobe.com/x")== 0 ) {
+ if (option == kpsXMP && std::string(signature).find("http://ns.adobe.com/x") == 0) {
// extract XMP
- if ( size > 0 ) {
- io_->seek(-bufRead , BasicIo::cur);
- byte* xmp = new byte[size+1];
- io_->read(xmp,size);
- int start = 0 ;
+ if (size > 0) {
+ io_->seek(-bufRead, BasicIo::cur);
+ byte* xmp = new byte[size + 1];
+ io_->read(xmp, size);
+ int start = 0;
// http://wwwimages.adobe.com/content/dam/Adobe/en/devnet/xmp/pdfs/XMPSpecificationPart3.pdf
// if we find HasExtendedXMP, set the flag and ignore this block
@@ -666,79 +672,80 @@ namespace Exiv2 {
// we could implement out of sequence with a dictionary of sequence/offset
// and dumping the XMP in a post read operation similar to kpsIptcErase
// for the moment, dumping 'on the fly' is working fine
- if ( ! bExtXMP ) {
- while (xmp[start]) start++;
+ if (!bExtXMP) {
+ while (xmp[start])
+ start++;
start++;
- if ( ::strstr((char*)xmp+start,"HasExtendedXMP") ) {
- start = size ; // ignore this packet, we'll get on the next time around
+ if (::strstr((char*)xmp + start, "HasExtendedXMP")) {
+ start = size; // ignore this packet, we'll get on the next time around
bExtXMP = true;
}
} else {
- start = 2+35+32+4+4; // Adobe Spec, p19
+ start = 2 + 35 + 32 + 4 + 4; // Adobe Spec, p19
}
- out.write((const char*)(xmp+start),size-start);
- delete [] xmp;
+ out.write((const char*)(xmp + start), size - start);
+ delete[] xmp;
bufRead = size;
done = !bExtXMP;
}
- } else if ( option == kpsIccProfile && std::strcmp(signature,iccId_) == 0 ) {
+ } else if (option == kpsIccProfile && std::strcmp(signature, iccId_) == 0) {
// extract ICCProfile
- if ( size > 0 ) {
- io_->seek(-bufRead, BasicIo::cur); // back to buffer (after marker)
- io_->seek( 14+2, BasicIo::cur); // step over header
- DataBuf icc(size-(14+2));
- io_->read( icc.pData_,icc.size_);
- out.write((const char*)icc.pData_,icc.size_);
+ if (size > 0) {
+ io_->seek(-bufRead, BasicIo::cur); // back to buffer (after marker)
+ io_->seek(14 + 2, BasicIo::cur); // step over header
+ DataBuf icc(size - (14 + 2));
+ io_->read(icc.pData_, icc.size_);
+ out.write((const char*)icc.pData_, icc.size_);
#ifdef DEBUG
std::cout << "iccProfile size = " << icc.size_ << std::endl;
#endif
bufRead = size;
}
- } else if ( option == kpsIptcErase && std::strcmp(signature,"Photoshop 3.0") == 0 ) {
+ } else if (option == kpsIptcErase && std::strcmp(signature, "Photoshop 3.0") == 0) {
// delete IPTC data segment from JPEG
- if ( size > 0 ) {
- io_->seek(-bufRead , BasicIo::cur);
+ if (size > 0) {
+ io_->seek(-bufRead, BasicIo::cur);
iptcDataSegs.push_back(io_->tell());
iptcDataSegs.push_back(size);
}
- } else if ( bPrint ) {
- out << "| " << Internal::binaryToString(buf,size>32?32:size,size>0?2:0);
- if ( std::strcmp(signature,iccId_) == 0 ) {
- int chunk = (int) signature[12];
- int chunks = (int) signature[13];
- out << Internal::stringFormat(" chunk %d/%d",chunk,chunks);
+ } else if (bPrint) {
+ out << "| " << Internal::binaryToString(buf, size > 32 ? 32 : size, size > 0 ? 2 : 0);
+ if (std::strcmp(signature, iccId_) == 0) {
+ int chunk = (int)signature[12];
+ int chunks = (int)signature[13];
+ out << Internal::stringFormat(" chunk %d/%d", chunk, chunks);
}
}
// for MPF: http://www.sno.phy.queensu.ca/~phil/exiftool/TagNames/MPF.html
// for FLIR: http://owl.phy.queensu.ca/~phil/exiftool/TagNames/FLIR.html
- bool bFlir = option == kpsRecursive && marker == (app0_+1) && std::strcmp(signature,"FLIR")==0;
- bool bExif = option == kpsRecursive && marker == (app0_+1) && std::strcmp(signature,"Exif")==0;
- bool bMPF = option == kpsRecursive && marker == (app0_+2) && std::strcmp(signature,"MPF")==0;
- bool bPS = option == kpsRecursive && std::strcmp(signature,"Photoshop 3.0")==0;
- if( bFlir || bExif || bMPF || bPS ) {
+ bool bFlir = option == kpsRecursive && marker == (app0_ + 1) && std::strcmp(signature, "FLIR") == 0;
+ bool bExif = option == kpsRecursive && marker == (app0_ + 1) && std::strcmp(signature, "Exif") == 0;
+ bool bMPF = option == kpsRecursive && marker == (app0_ + 2) && std::strcmp(signature, "MPF") == 0;
+ bool bPS = option == kpsRecursive && std::strcmp(signature, "Photoshop 3.0") == 0;
+ if (bFlir || bExif || bMPF || bPS) {
// extract Exif data block which is tiff formatted
- if ( size > 0 ) {
+ if (size > 0) {
out << std::endl;
// allocate storage and current file position
- byte* exif = new byte[size];
- uint32_t restore = io_->tell();
+ byte* exif = new byte[size];
+ uint32_t restore = io_->tell();
// copy the data to memory
- io_->seek(-bufRead , BasicIo::cur);
- io_->read(exif,size);
- uint32_t start = std::strcmp(signature,"Exif")==0 ? 8 : 6;
- uint32_t max = (uint32_t) size -1;
+ io_->seek(-bufRead, BasicIo::cur);
+ io_->read(exif, size);
+ uint32_t start = std::strcmp(signature, "Exif") == 0 ? 8 : 6;
+ uint32_t max = (uint32_t)size - 1;
// is this an fff block?
- if ( bFlir ) {
- start = 0 ;
+ if (bFlir) {
+ start = 0;
bFlir = false;
- while ( start < max ) {
- if ( std::strcmp((const char*)(exif+start),"FFF")==0 ) {
- bFlir = true ;
+ while (start < max) {
+ if (std::strcmp((const char*)(exif + start), "FFF") == 0) {
+ bFlir = true;
break;
}
start++;
@@ -747,78 +754,90 @@ namespace Exiv2 {
// there is a header in FLIR, followed by a tiff block
// Hunt down the tiff using brute force
- if ( bFlir ) {
+ if (bFlir) {
// FLIRFILEHEAD* pFFF = (FLIRFILEHEAD*) (exif+start) ;
- while ( start < max ) {
- if ( exif[start] == 'I' && exif[start+1] == 'I' ) break;
- if ( exif[start] == 'M' && exif[start+1] == 'M' ) break;
+ while (start < max) {
+ if (exif[start] == 'I' && exif[start + 1] == 'I')
+ break;
+ if (exif[start] == 'M' && exif[start + 1] == 'M')
+ break;
start++;
}
- if ( start < max ) std::cout << " FFF start = " << start << std::endl ;
+ if ( start < max )
+ std::cout << " FFF start = " << start << std::endl;
// << " index = " << pFFF->dwIndexOff << std::endl;
}
- if ( bPS ) {
- IptcData::printStructure(out,exif,size,depth);
+ if (bPS) {
+ IptcData::printStructure(out, exif, size, depth);
} else {
// create a copy on write memio object with the data, then print the structure
- BasicIo::AutoPtr p = BasicIo::AutoPtr(new MemIo(exif+start,size-start));
- if ( start < max ) printTiffStructure(*p,out,option,depth);
+ BasicIo::AutoPtr p = BasicIo::AutoPtr(new MemIo(exif + start, size - start));
+ if (start < max)
+ printTiffStructure(*p, out, option, depth);
}
// restore and clean up
- io_->seek(restore,Exiv2::BasicIo::beg);
- delete [] exif;
- bLF = false;
+ io_->seek(restore, Exiv2::BasicIo::beg);
+ delete[] exif;
+ bLF = false;
}
}
}
// print COM marker
- if ( bPrint && marker == com_ ) {
- int n = (size-2)>32?32:size-2; // size includes 2 for the two bytes for size!
- out << "| " << Internal::binaryToString(buf,n,2); // start after the two bytes
+ if (bPrint && marker == com_) {
+ int n = (size - 2) > 32 ? 32 : size - 2; // size includes 2 for the two bytes for size!
+ out << "| " << Internal::binaryToString(buf, n, 2); // start after the two bytes
}
// Skip the segment if the size is known
- if (io_->seek(size - bufRead, BasicIo::cur)) throw Error(14);
+ if (io_->seek(size - bufRead, BasicIo::cur))
+ throw Error(14);
- if ( bLF ) out << std::endl;
+ if (bLF)
+ out << std::endl;
if (marker != sos_) {
// Read the beginning of the next segment
marker = advanceToMarker();
+ enforce(marker>=0, kerNoImageInInputData);
REPORT_MARKER;
}
done |= marker == eoi_ || marker == sos_;
- if ( done && bPrint ) out << std::endl;
+ if (done && bPrint)
+ out << std::endl;
}
}
- if ( option == kpsIptcErase && iptcDataSegs.size() ) {
+ if (option == kpsIptcErase && iptcDataSegs.size()) {
#ifdef DEBUG
std::cout << "iptc data blocks: " << iptcDataSegs.size() << std::endl;
- uint32_t toggle = 0 ;
- for ( Uint32Vector_i i = iptcDataSegs.begin(); i != iptcDataSegs.end() ; i++ ) {
- std::cout << *i ;
- if ( toggle++ % 2 ) std::cout << std::endl; else std::cout << ' ' ;
+ uint32_t toggle = 0;
+ for (Uint32Vector_i i = iptcDataSegs.begin(); i != iptcDataSegs.end(); i++) {
+ std::cout << *i;
+ if (toggle++ % 2)
+ std::cout << std::endl;
+ else
+ std::cout << ' ';
}
#endif
- uint32_t count = (uint32_t) iptcDataSegs.size();
+ uint32_t count = (uint32_t)iptcDataSegs.size();
// figure out which blocks to copy
- uint64_t* pos = new uint64_t[count+2];
- pos[0] = 0 ;
+ uint64_t* pos = new uint64_t[count + 2];
+ pos[0] = 0;
// copy the data that is not iptc
Uint32Vector_i it = iptcDataSegs.begin();
- for ( uint64_t i = 0 ; i < count ; i++ ) {
- bool bOdd = (i%2)!=0;
- bool bEven = !bOdd;
- pos[i+1] = bEven ? *it : pos[i] + *it;
+ for (uint64_t i = 0; i < count; i++) {
+ bool bOdd = (i % 2) != 0;
+ bool bEven = !bOdd;
+ pos[i + 1] = bEven ? *it : pos[i] + *it;
it++;
}
- pos[count+1] = io_->size() - pos[count];
+ pos[count + 1] = io_->size() - pos[count];
#ifdef DEBUG
- for ( uint64_t i = 0 ; i < count+2 ; i++ ) std::cout << pos[i] << " " ;
+ for (uint64_t i = 0; i < count + 2; i++)
+ std::cout << pos[i] << " ";
std::cout << std::endl;
#endif
// $ dd bs=1 skip=$((0)) count=$((13164)) if=ETH0138028.jpg of=E1.jpg
@@ -829,29 +848,30 @@ namespace Exiv2 {
// binary copy io_ to a temporary file
BasicIo::AutoPtr tempIo(new MemIo);
- assert (tempIo.get() != 0);
- for ( uint64_t i = 0 ; i < (count/2)+1 ; i++ ) {
- uint64_t start = pos[2*i]+2 ; // step JPG 2 byte marker
- if ( start == 2 ) start = 0 ; // read the file 2 byte SOI
- long length = (long) (pos[2*i+1] - start) ;
- if ( length ) {
+ assert(tempIo.get() != 0);
+ for (uint64_t i = 0; i < (count / 2) + 1; i++) {
+ uint64_t start = pos[2 * i] + 2; // step JPG 2 byte marker
+ if (start == 2)
+ start = 0; // read the file 2 byte SOI
+ long length = (long)(pos[2 * i + 1] - start);
+ if (length) {
#ifdef DEBUG
- std::cout << start <<":"<< length << std::endl;
+ std::cout << start << ":" << length << std::endl;
#endif
- io_->seek(start,BasicIo::beg);
+ io_->seek(start, BasicIo::beg);
DataBuf buf(length);
- io_->read(buf.pData_,buf.size_);
- tempIo->write(buf.pData_,buf.size_);
+ io_->read(buf.pData_, buf.size_);
+ tempIo->write(buf.pData_, buf.size_);
}
}
- delete [] pos;
+ delete[] pos;
io_->seek(0, BasicIo::beg);
- io_->transfer(*tempIo); // may throw
+ io_->transfer(*tempIo); // may throw
io_->seek(0, BasicIo::beg);
readMetadata();
}
- } // JpegBase::printStructure
+ } // JpegBase::printStructure
void JpegBase::writeMetadata()
{