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--- dyld/dyld-551.4/dyld3/shared-cache/DyldSharedCache.cpp
+++ dyld/dyld-750.5/dyld3/shared-cache/DyldSharedCache.cpp
@@ -34,71 +34,100 @@
#include <assert.h>
#include <unistd.h>
#include <dlfcn.h>
-#include <CommonCrypto/CommonDigest.h>
-#include <CommonCrypto/CommonDigestSPI.h>
-
-#if !DYLD_IN_PROCESS
+
+#if BUILDING_CACHE_BUILDER
#include <set>
#include <string>
#include <vector>
#include <unordered_map>
#include <unordered_set>
+#include "SharedCacheBuilder.h"
+#include "FileUtils.h"
#endif
#define NO_ULEB
-#include "MachOParser.h"
-#include "CacheBuilder.h"
+#include "MachOLoaded.h"
+#include "ClosureFileSystemPhysical.h"
#include "DyldSharedCache.h"
-#include "LaunchCache.h"
#include "Trie.hpp"
#include "StringUtils.h"
-
-
-#if !DYLD_IN_PROCESS
-DyldSharedCache::CreateResults DyldSharedCache::create(const CreateOptions& options,
- const std::vector<MappedMachO>& dylibsToCache,
- const std::vector<MappedMachO>& otherOsDylibs,
- const std::vector<MappedMachO>& osExecutables)
-{
- CreateResults results;
- CacheBuilder cache(options);
-
- cache.build(dylibsToCache, otherOsDylibs, osExecutables);
+#include "objc-shared-cache.h"
+
+#if !(BUILDING_LIBDYLD || BUILDING_DYLD)
+#include "JSONWriter.h"
+#include <sstream>
+#endif
+
+
+#if BUILDING_CACHE_BUILDER
+DyldSharedCache::CreateResults DyldSharedCache::create(const CreateOptions& options,
+ const dyld3::closure::FileSystem& fileSystem,
+ const std::vector<MappedMachO>& dylibsToCache,
+ const std::vector<MappedMachO>& otherOsDylibs,
+ const std::vector<MappedMachO>& osExecutables)
+{
+ CreateResults results;
+ SharedCacheBuilder cache(options, fileSystem);
+ if (!cache.errorMessage().empty()) {
+ results.errorMessage = cache.errorMessage();
+ return results;
+ }
+
+ std::vector<FileAlias> aliases;
+ switch ( options.platform ) {
+ case dyld3::Platform::iOS:
+ case dyld3::Platform::watchOS:
+ case dyld3::Platform::tvOS:
+ // FIXME: embedded cache builds should be getting aliases from manifest
+ aliases.push_back({"/System/Library/Frameworks/IOKit.framework/Versions/A/IOKit", "/System/Library/Frameworks/IOKit.framework/IOKit"});
+ aliases.push_back({"/usr/lib/libstdc++.6.dylib", "/usr/lib/libstdc++.dylib"});
+ aliases.push_back({"/usr/lib/libstdc++.6.dylib", "/usr/lib/libstdc++.6.0.9.dylib"});
+ aliases.push_back({"/usr/lib/libz.1.dylib", "/usr/lib/libz.dylib"});
+ aliases.push_back({"/usr/lib/libSystem.B.dylib", "/usr/lib/libSystem.dylib"});
+ aliases.push_back({"/System/Library/Frameworks/Foundation.framework/Foundation", "/usr/lib/libextension.dylib"}); // <rdar://44315703>
+ break;
+ default:
+ break;
+ }
+
+ cache.build(dylibsToCache, otherOsDylibs, osExecutables, aliases);
results.agileSignature = cache.agileSignature();
- results.cdHashFirst = cache.cdHashFirst();
- results.cdHashSecond = cache.cdHashSecond();
- results.warnings = cache.warnings();
- results.evictions = cache.evictions();
-
+ results.cdHashFirst = cache.cdHashFirst();
+ results.cdHashSecond = cache.cdHashSecond();
+ results.warnings = cache.warnings();
+ results.evictions = cache.evictions();
if ( cache.errorMessage().empty() ) {
- results.cacheContent = cache.buffer();
- results.cacheLength = cache.bufferSize();
- }
- else {
- cache.deleteBuffer();
- results.cacheContent = nullptr;
- results.cacheLength = 0;
- results.errorMessage = cache.errorMessage();
- }
+ if ( !options.outputFilePath.empty() ) {
+ // write cache file, if path non-empty
+ cache.writeFile(options.outputFilePath);
+ }
+ if ( !options.outputMapFilePath.empty() ) {
+ // write map file, if path non-empty
+ cache.writeMapFile(options.outputMapFilePath);
+ }
+ }
+ results.errorMessage = cache.errorMessage();
+ cache.deleteBuffer();
return results;
}
-bool DyldSharedCache::verifySelfContained(std::vector<MappedMachO>& dylibsToCache, MappedMachO (^loader)(const std::string& runtimePath), std::vector<std::pair<DyldSharedCache::MappedMachO, std::set<std::string>>>& rejected)
-{
-
+bool DyldSharedCache::verifySelfContained(std::vector<MappedMachO>& dylibsToCache,
+ std::unordered_set<std::string>& badZippered,
+ MappedMachO (^loader)(const std::string& runtimePath),
+ std::vector<std::pair<DyldSharedCache::MappedMachO, std::set<std::string>>>& rejected)
+{
// build map of dylibs
__block std::map<std::string, std::set<std::string>> badDylibs;
__block std::set<std::string> knownDylibs;
for (const DyldSharedCache::MappedMachO& dylib : dylibsToCache) {
std::set<std::string> reasons;
- dyld3::MachOParser parser(dylib.mh);
- if (parser.canBePlacedInDyldCache(dylib.runtimePath, reasons)) {
+ if ( dylib.mh->canBePlacedInDyldCache(dylib.runtimePath.c_str(), ^(const char* msg) { badDylibs[dylib.runtimePath].insert(msg);}) ) {
knownDylibs.insert(dylib.runtimePath);
- knownDylibs.insert(parser.installName());
+ knownDylibs.insert(dylib.mh->installName());
} else {
- badDylibs[dylib.runtimePath] = reasons;
+ badDylibs[dylib.runtimePath].insert("");
}
}
@@ -111,41 +140,43 @@
for (const DyldSharedCache::MappedMachO& dylib : dylibsToCache) {
if ( badDylibs.count(dylib.runtimePath) != 0 )
continue;
- dyld3::MachOParser parser(dylib.mh);
- parser.forEachDependentDylib(^(const char* loadPath, bool isWeak, bool isReExport, bool isUpward, uint32_t compatVersion, uint32_t curVersion, bool& stop) {
+ dylib.mh->forEachDependentDylib(^(const char* loadPath, bool isWeak, bool isReExport, bool isUpward, uint32_t compatVersion, uint32_t curVersion, bool& stop) {
if ( knownDylibs.count(loadPath) == 0 ) {
doAgain = true;
+ if ( badZippered.count(loadPath) != 0 ) {
+ badDylibs[dylib.runtimePath].insert("");
+ knownDylibs.erase(dylib.runtimePath);
+ knownDylibs.erase(dylib.mh->installName());
+ badZippered.insert(dylib.runtimePath);
+ badZippered.insert(dylib.mh->installName());
+ return;
+ }
MappedMachO foundMapping;
if ( badDylibs.count(loadPath) == 0 )
foundMapping = loader(loadPath);
if ( foundMapping.length == 0 ) {
- std::string reason = std::string("Could not find dependency '") + loadPath +"'";
- auto i = badDylibs.find(dylib.runtimePath);
- if (i == badDylibs.end()) {
- std::set<std::string> reasons;
- reasons.insert(reason);
- badDylibs[dylib.runtimePath] = reasons;
- } else {
- i->second.insert(reason);
- }
+ badDylibs[dylib.runtimePath].insert(std::string("Could not find dependency '") + loadPath +"'");
knownDylibs.erase(dylib.runtimePath);
- dyld3::MachOParser parserBad(dylib.mh);
- knownDylibs.erase(parserBad.installName());
+ knownDylibs.erase(dylib.mh->installName());
}
else {
- dyld3::MachOParser foundParser(foundMapping.mh);
std::set<std::string> reasons;
- if (foundParser.canBePlacedInDyldCache(foundParser.installName(), reasons)) {
- foundMappings.push_back(foundMapping);
+ if ( foundMapping.mh->canBePlacedInDyldCache(foundMapping.runtimePath.c_str(), ^(const char* msg) { badDylibs[foundMapping.runtimePath].insert(msg);})) {
+ // see if existing mapping was returned
+ bool alreadyInVector = false;
+ for (const MappedMachO& existing : dylibsToCache) {
+ if ( existing.mh == foundMapping.mh ) {
+ alreadyInVector = true;
+ break;
+ }
+ }
+ if ( !alreadyInVector )
+ foundMappings.push_back(foundMapping);
+ knownDylibs.insert(loadPath);
knownDylibs.insert(foundMapping.runtimePath);
- knownDylibs.insert(foundParser.installName());
+ knownDylibs.insert(foundMapping.mh->installName());
} else {
- auto i = badDylibs.find(dylib.runtimePath);
- if (i == badDylibs.end()) {
- badDylibs[dylib.runtimePath] = reasons;
- } else {
- i->second.insert(reasons.begin(), reasons.end());
- }
+ badDylibs[dylib.runtimePath].insert("");
}
}
}
@@ -157,7 +188,9 @@
dylibsToCache.erase(std::remove_if(dylibsToCache.begin(), dylibsToCache.end(), [&](const DyldSharedCache::MappedMachO& dylib) {
auto i = badDylibsCopy.find(dylib.runtimePath);
if ( i != badDylibsCopy.end()) {
- rejected.push_back(std::make_pair(dylib, i->second));
+ // Only add the warning if we are not a bad zippered dylib
+ if ( badZippered.count(dylib.runtimePath) == 0 )
+ rejected.push_back(std::make_pair(dylib, i->second));
return true;
}
else {
@@ -170,13 +203,53 @@
}
#endif
+template<typename T>
+const T DyldSharedCache::getAddrField(uint64_t addr) const {
+ uint64_t slide = (uint64_t)this - unslidLoadAddress();
+ return (const T)(addr + slide);
+}
+
void DyldSharedCache::forEachRegion(void (^handler)(const void* content, uint64_t vmAddr, uint64_t size, uint32_t permissions)) const
{
+ // <rdar://problem/49875993> sanity check cache header
+ if ( strncmp(header.magic, "dyld_v1", 7) != 0 )
+ return;
+ if ( header.mappingOffset > 1024 )
+ return;
+ if ( header.mappingCount > 20 )
+ return;
const dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)((char*)this + header.mappingOffset);
const dyld_cache_mapping_info* mappingsEnd = &mappings[header.mappingCount];
for (const dyld_cache_mapping_info* m=mappings; m < mappingsEnd; ++m) {
handler((char*)this + m->fileOffset, m->address, m->size, m->initProt);
}
+}
+
+bool DyldSharedCache::inCache(const void* addr, size_t length, bool& readOnly) const
+{
+ // quick out if before start of cache
+ if ( addr < this )
+ return false;
+
+ const dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)((char*)this + header.mappingOffset);
+ uintptr_t slide = (uintptr_t)this - (uintptr_t)(mappings[0].address);
+ uintptr_t unslidStart = (uintptr_t)addr - slide;
+
+ // quick out if after end of cache
+ if ( unslidStart > (mappings[2].address + mappings[2].size) )
+ return false;
+
+ // walk cache regions
+ const dyld_cache_mapping_info* mappingsEnd = &mappings[header.mappingCount];
+ uintptr_t unslidEnd = unslidStart + length;
+ for (const dyld_cache_mapping_info* m=mappings; m < mappingsEnd; ++m) {
+ if ( (unslidStart >= m->address) && (unslidEnd < (m->address+m->size)) ) {
+ readOnly = ((m->initProt & VM_PROT_WRITE) == 0);
+ return true;
+ }
+ }
+
+ return false;
}
void DyldSharedCache::forEachImage(void (^handler)(const mach_header* mh, const char* installName)) const
@@ -220,36 +293,63 @@
}
}
-void DyldSharedCache::forEachImageTextSegment(void (^handler)(uint64_t loadAddressUnslid, uint64_t textSegmentSize, const uuid_t dylibUUID, const char* installName)) const
+const mach_header* DyldSharedCache::getIndexedImageEntry(uint32_t index, uint64_t& mTime, uint64_t& inode) const
+{
+ const dyld_cache_image_info* dylibs = (dyld_cache_image_info*)((char*)this + header.imagesOffset);
+ const dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)((char*)this + header.mappingOffset);
+ mTime = dylibs[index].modTime;
+ inode = dylibs[index].inode;
+ return (mach_header*)((uint8_t*)this + dylibs[index].address - mappings[0].address);
+}
+
+void DyldSharedCache::forEachImageTextSegment(void (^handler)(uint64_t loadAddressUnslid, uint64_t textSegmentSize, const uuid_t dylibUUID, const char* installName, bool& stop)) const
{
// check for old cache without imagesText array
if ( header.mappingOffset < 123 )
return;
+ // walk imageText table and call callback for each entry
+ const dyld_cache_image_text_info* imagesText = (dyld_cache_image_text_info*)((char*)this + header.imagesTextOffset);
+ const dyld_cache_image_text_info* imagesTextEnd = &imagesText[header.imagesTextCount];
+ bool stop = false;
+ for (const dyld_cache_image_text_info* p=imagesText; p < imagesTextEnd && !stop; ++p) {
+ handler(p->loadAddress, p->textSegmentSize, p->uuid, (char*)this + p->pathOffset, stop);
+ }
+}
+
+bool DyldSharedCache::addressInText(uint32_t cacheOffset, uint32_t* imageIndex) const
+{
+ const dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)((char*)this + header.mappingOffset);
+ if ( cacheOffset > mappings[0].size )
+ return false;
+ uint64_t targetAddr = mappings[0].address + cacheOffset;
// walk imageText table and call callback for each entry
const dyld_cache_image_text_info* imagesText = (dyld_cache_image_text_info*)((char*)this + header.imagesTextOffset);
const dyld_cache_image_text_info* imagesTextEnd = &imagesText[header.imagesTextCount];
for (const dyld_cache_image_text_info* p=imagesText; p < imagesTextEnd; ++p) {
- handler(p->loadAddress, p->textSegmentSize, p->uuid, (char*)this + p->pathOffset);
- }
-}
-
-
-std::string DyldSharedCache::archName() const
-{
- const char* archSubString = ((char*)this) + 8;
+ if ( (p->loadAddress <= targetAddr) && (targetAddr < p->loadAddress+p->textSegmentSize) ) {
+ *imageIndex = (uint32_t)(p-imagesText);
+ return true;
+ }
+ }
+ return false;
+}
+
+const char* DyldSharedCache::archName() const
+{
+ const char* archSubString = ((char*)this) + 7;
while (*archSubString == ' ')
++archSubString;
return archSubString;
}
-uint32_t DyldSharedCache::platform() const
-{
- return header.platform;
-}
-
-#if !DYLD_IN_PROCESS
+dyld3::Platform DyldSharedCache::platform() const
+{
+ return (dyld3::Platform)header.platform;
+}
+
+#if BUILDING_CACHE_BUILDER
std::string DyldSharedCache::mapFile() const
{
__block std::string result;
@@ -280,10 +380,10 @@
forEachImage(^(const mach_header* mh, const char* installName) {
result += std::string(installName) + "\n";
- dyld3::MachOParser parser(mh);
- parser.forEachSegment(^(const char* segName, uint32_t fileOffset, uint32_t fileSize, uint64_t vmAddr, uint64_t vmSize, uint8_t protections, bool& stop) {
+ const dyld3::MachOFile* mf = (dyld3::MachOFile*)mh;
+ mf->forEachSegment(^(const dyld3::MachOFile::SegmentInfo& info, bool& stop) {
char lineBuffer[256];
- sprintf(lineBuffer, "\t%16s 0x%08llX -> 0x%08llX\n", segName, vmAddr, vmAddr+vmSize);
+ sprintf(lineBuffer, "\t%16s 0x%08llX -> 0x%08llX\n", info.segName, info.vmAddr, info.vmAddr+info.vmSize);
result += lineBuffer;
});
result += "\n";
@@ -319,12 +419,480 @@
return (endAddr - startAddr);
}
-
-
-
-
-
-
-
-
-
+bool DyldSharedCache::findMachHeaderImageIndex(const mach_header* mh, uint32_t& imageIndex) const
+{
+ const dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)((char*)this + header.mappingOffset);
+ uintptr_t slide = (uintptr_t)this - (uintptr_t)(mappings[0].address);
+ uint64_t unslidMh = (uintptr_t)mh - slide;
+ const dyld_cache_image_info* dylibs = (dyld_cache_image_info*)((char*)this + header.imagesOffset);
+ for (uint32_t i=0; i < header.imagesCount; ++i) {
+ if ( dylibs[i].address == unslidMh ) {
+ imageIndex = i;
+ return true;
+ }
+ }
+ return false;
+}
+
+bool DyldSharedCache::hasImagePath(const char* dylibPath, uint32_t& imageIndex) const
+{
+ const dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)((char*)this + header.mappingOffset);
+ if ( mappings[0].fileOffset != 0 )
+ return false;
+ if ( header.mappingOffset >= 0x118 ) {
+ uintptr_t slide = (uintptr_t)this - (uintptr_t)(mappings[0].address);
+ const uint8_t* dylibTrieStart = (uint8_t*)(this->header.dylibsTrieAddr + slide);
+ const uint8_t* dylibTrieEnd = dylibTrieStart + this->header.dylibsTrieSize;
+
+ Diagnostics diag;
+ const uint8_t* imageNode = dyld3::MachOLoaded::trieWalk(diag, dylibTrieStart, dylibTrieEnd, dylibPath);
+ if ( imageNode != NULL ) {
+ imageIndex = (uint32_t)dyld3::MachOFile::read_uleb128(diag, imageNode, dylibTrieEnd);
+ return true;
+ }
+ }
+ else {
+ const dyld_cache_image_info* dylibs = (dyld_cache_image_info*)((char*)this + header.imagesOffset);
+ uint64_t firstImageOffset = 0;
+ uint64_t firstRegionAddress = mappings[0].address;
+ for (uint32_t i=0; i < header.imagesCount; ++i) {
+ const char* aPath = (char*)this + dylibs[i].pathFileOffset;
+ if ( strcmp(aPath, dylibPath) == 0 ) {
+ imageIndex = i;
+ return true;
+ }
+ uint64_t offset = dylibs[i].address - firstRegionAddress;
+ if ( firstImageOffset == 0 )
+ firstImageOffset = offset;
+ // skip over aliases
+ if ( dylibs[i].pathFileOffset < firstImageOffset)
+ continue;
+ }
+ }
+
+ return false;
+}
+
+bool DyldSharedCache::hasNonOverridablePath(const char* dylibPath) const
+{
+ // all dylibs in customer dyld cache cannot be overridden except libdispatch.dylib
+ bool pathIsInDyldCacheWhichCannotBeOverridden = false;
+ if ( header.cacheType == kDyldSharedCacheTypeProduction ) {
+ uint32_t imageIndex;
+ pathIsInDyldCacheWhichCannotBeOverridden = this->hasImagePath(dylibPath, imageIndex);
+ if ( pathIsInDyldCacheWhichCannotBeOverridden && (strcmp(dylibPath, "/usr/lib/system/libdispatch.dylib") == 0) )
+ pathIsInDyldCacheWhichCannotBeOverridden = false;
+ }
+ return pathIsInDyldCacheWhichCannotBeOverridden;
+}
+
+const dyld3::closure::Image* DyldSharedCache::findDlopenOtherImage(const char* path) const
+{
+ const dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)((char*)this + header.mappingOffset);
+ if ( mappings[0].fileOffset != 0 )
+ return nullptr;
+ if ( header.mappingOffset < sizeof(dyld_cache_header) )
+ return nullptr;
+ if ( header.otherImageArrayAddr == 0 )
+ return nullptr;
+ uintptr_t slide = (uintptr_t)this - (uintptr_t)(mappings[0].address);
+ const uint8_t* dylibTrieStart = (uint8_t*)(this->header.otherTrieAddr + slide);
+ const uint8_t* dylibTrieEnd = dylibTrieStart + this->header.otherTrieSize;
+
+ Diagnostics diag;
+ const uint8_t* imageNode = dyld3::MachOLoaded::trieWalk(diag, dylibTrieStart, dylibTrieEnd, path);
+ if ( imageNode != NULL ) {
+ dyld3::closure::ImageNum imageNum = (uint32_t)dyld3::MachOFile::read_uleb128(diag, imageNode, dylibTrieEnd);
+ uint64_t arrayAddrOffset = header.otherImageArrayAddr - mappings[0].address;
+ const dyld3::closure::ImageArray* otherImageArray = (dyld3::closure::ImageArray*)((char*)this + arrayAddrOffset);
+ return otherImageArray->imageForNum(imageNum);
+ }
+
+ return nullptr;
+}
+
+
+
+
+const dyld3::closure::LaunchClosure* DyldSharedCache::findClosure(const char* executablePath) const
+{
+ const dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)((char*)this + header.mappingOffset);
+ uintptr_t slide = (uintptr_t)this - (uintptr_t)(mappings[0].address);
+ const uint8_t* executableTrieStart = (uint8_t*)(this->header.progClosuresTrieAddr + slide);
+ const uint8_t* executableTrieEnd = executableTrieStart + this->header.progClosuresTrieSize;
+ const uint8_t* closuresStart = (uint8_t*)(this->header.progClosuresAddr + slide);
+
+ Diagnostics diag;
+ const uint8_t* imageNode = dyld3::MachOLoaded::trieWalk(diag, executableTrieStart, executableTrieEnd, executablePath);
+ if ( (imageNode == NULL) && (strncmp(executablePath, "/System/", 8) == 0) ) {
+ // anything in /System/ should have a closure. Perhaps it was launched via symlink path
+ char realPath[PATH_MAX];
+ if ( realpath(executablePath, realPath) != NULL )
+ imageNode = dyld3::MachOLoaded::trieWalk(diag, executableTrieStart, executableTrieEnd, realPath);
+ }
+ if ( imageNode != NULL ) {
+ uint32_t closureOffset = (uint32_t)dyld3::MachOFile::read_uleb128(diag, imageNode, executableTrieEnd);
+ if ( closureOffset < this->header.progClosuresSize )
+ return (dyld3::closure::LaunchClosure*)((uint8_t*)closuresStart + closureOffset);
+ }
+
+ return nullptr;
+}
+
+#if !BUILDING_LIBDYLD && !BUILDING_DYLD
+void DyldSharedCache::forEachLaunchClosure(void (^handler)(const char* executableRuntimePath, const dyld3::closure::LaunchClosure* closure)) const
+{
+ const dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)((char*)this + header.mappingOffset);
+ uintptr_t slide = (uintptr_t)this - (uintptr_t)(mappings[0].address);
+ const uint8_t* executableTrieStart = (uint8_t*)(this->header.progClosuresTrieAddr + slide);
+ const uint8_t* executableTrieEnd = executableTrieStart + this->header.progClosuresTrieSize;
+ const uint8_t* closuresStart = (uint8_t*)(this->header.progClosuresAddr + slide);
+
+ std::vector<DylibIndexTrie::Entry> closureEntries;
+ if ( Trie<DylibIndex>::parseTrie(executableTrieStart, executableTrieEnd, closureEntries) ) {
+ for (DylibIndexTrie::Entry& entry : closureEntries ) {
+ uint32_t offset = entry.info.index;
+ if ( offset < this->header.progClosuresSize )
+ handler(entry.name.c_str(), (const dyld3::closure::LaunchClosure*)(closuresStart+offset));
+ }
+ }
+}
+
+void DyldSharedCache::forEachDlopenImage(void (^handler)(const char* runtimePath, const dyld3::closure::Image* image)) const
+{
+ const dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)((char*)this + header.mappingOffset);
+ uintptr_t slide = (uintptr_t)this - (uintptr_t)(mappings[0].address);
+ const uint8_t* otherTrieStart = (uint8_t*)(this->header.otherTrieAddr + slide);
+ const uint8_t* otherTrieEnd = otherTrieStart + this->header.otherTrieSize;
+
+ std::vector<DylibIndexTrie::Entry> otherEntries;
+ if ( Trie<DylibIndex>::parseTrie(otherTrieStart, otherTrieEnd, otherEntries) ) {
+ for (const DylibIndexTrie::Entry& entry : otherEntries ) {
+ dyld3::closure::ImageNum imageNum = entry.info.index;
+ uint64_t arrayAddrOffset = header.otherImageArrayAddr - mappings[0].address;
+ const dyld3::closure::ImageArray* otherImageArray = (dyld3::closure::ImageArray*)((char*)this + arrayAddrOffset);
+ handler(entry.name.c_str(), otherImageArray->imageForNum(imageNum));
+ }
+ }
+}
+#endif
+
+const dyld3::closure::ImageArray* DyldSharedCache::cachedDylibsImageArray() const
+{
+ // check for old cache without imagesArray
+ if ( header.mappingOffset < 0x100 )
+ return nullptr;
+
+ if ( header.dylibsImageArrayAddr == 0 )
+ return nullptr;
+
+ const dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)((char*)this + header.mappingOffset);
+ uint64_t arrayAddrOffset = header.dylibsImageArrayAddr - mappings[0].address;
+ return (dyld3::closure::ImageArray*)((char*)this + arrayAddrOffset);
+}
+
+const dyld3::closure::ImageArray* DyldSharedCache::otherOSImageArray() const
+{
+ // check for old cache without imagesArray
+ if ( header.mappingOffset < sizeof(dyld_cache_header) )
+ return nullptr;
+
+ if ( header.otherImageArrayAddr == 0 )
+ return nullptr;
+
+ const dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)((char*)this + header.mappingOffset);
+ uint64_t arrayAddrOffset = header.otherImageArrayAddr - mappings[0].address;
+ return (dyld3::closure::ImageArray*)((char*)this + arrayAddrOffset);
+}
+
+
+uint32_t DyldSharedCache::patchableExportCount(uint32_t imageIndex) const {
+ if ( header.patchInfoAddr == 0 )
+ return 0;
+
+ const dyld_cache_patch_info* patchInfo = getAddrField<dyld_cache_patch_info*>(header.patchInfoAddr);
+ const dyld_cache_image_patches* patchArray = getAddrField<dyld_cache_image_patches*>(patchInfo->patchTableArrayAddr);
+ if (imageIndex > patchInfo->patchTableArrayCount)
+ return 0;
+ return patchArray[imageIndex].patchExportsCount;
+}
+
+void DyldSharedCache::forEachPatchableExport(uint32_t imageIndex, void (^handler)(uint32_t cacheOffsetOfImpl, const char* exportName)) const {
+ if ( header.patchInfoAddr == 0 )
+ return;
+
+ const dyld_cache_patch_info* patchInfo = getAddrField<dyld_cache_patch_info*>(header.patchInfoAddr);
+ const dyld_cache_image_patches* patchArray = getAddrField<dyld_cache_image_patches*>(patchInfo->patchTableArrayAddr);
+ if (imageIndex > patchInfo->patchTableArrayCount)
+ return;
+ const dyld_cache_image_patches& patch = patchArray[imageIndex];
+ if ( (patch.patchExportsStartIndex + patch.patchExportsCount) > patchInfo->patchExportArrayCount )
+ return;
+ const dyld_cache_patchable_export* patchExports = getAddrField<dyld_cache_patchable_export*>(patchInfo->patchExportArrayAddr);
+ const char* exportNames = getAddrField<char*>(patchInfo->patchExportNamesAddr);
+ for (uint64_t exportIndex = 0; exportIndex != patch.patchExportsCount; ++exportIndex) {
+ const dyld_cache_patchable_export& patchExport = patchExports[patch.patchExportsStartIndex + exportIndex];
+ const char* exportName = ( patchExport.exportNameOffset < patchInfo->patchExportNamesSize ) ? &exportNames[patchExport.exportNameOffset] : "";
+ handler(patchExport.cacheOffsetOfImpl, exportName);
+ }
+}
+
+void DyldSharedCache::forEachPatchableUseOfExport(uint32_t imageIndex, uint32_t cacheOffsetOfImpl,
+ void (^handler)(dyld_cache_patchable_location patchLocation)) const {
+ if ( header.patchInfoAddr == 0 )
+ return;
+
+ // Loading a new cache so get the data from the cache header
+ const dyld_cache_patch_info* patchInfo = getAddrField<dyld_cache_patch_info*>(header.patchInfoAddr);
+ const dyld_cache_image_patches* patchArray = getAddrField<dyld_cache_image_patches*>(patchInfo->patchTableArrayAddr);
+ if (imageIndex > patchInfo->patchTableArrayCount)
+ return;
+ const dyld_cache_image_patches& patch = patchArray[imageIndex];
+ if ( (patch.patchExportsStartIndex + patch.patchExportsCount) > patchInfo->patchExportArrayCount )
+ return;
+ const dyld_cache_patchable_export* patchExports = getAddrField<dyld_cache_patchable_export*>(patchInfo->patchExportArrayAddr);
+ const dyld_cache_patchable_location* patchLocations = getAddrField<dyld_cache_patchable_location*>(patchInfo->patchLocationArrayAddr);
+ for (uint64_t exportIndex = 0; exportIndex != patch.patchExportsCount; ++exportIndex) {
+ const dyld_cache_patchable_export& patchExport = patchExports[patch.patchExportsStartIndex + exportIndex];
+ if ( patchExport.cacheOffsetOfImpl != cacheOffsetOfImpl )
+ continue;
+ if ( (patchExport.patchLocationsStartIndex + patchExport.patchLocationsCount) > patchInfo->patchLocationArrayCount )
+ return;
+ for (uint64_t locationIndex = 0; locationIndex != patchExport.patchLocationsCount; ++locationIndex) {
+ const dyld_cache_patchable_location& patchLocation = patchLocations[patchExport.patchLocationsStartIndex + locationIndex];
+ handler(patchLocation);
+ }
+ }
+}
+
+#if !(BUILDING_LIBDYLD || BUILDING_DYLD)
+// MRM map file generator
+std::string DyldSharedCache::generateJSONMap(const char* disposition) const {
+ dyld3::json::Node cacheNode;
+
+ cacheNode.map["version"].value = "1";
+ cacheNode.map["disposition"].value = disposition;
+ cacheNode.map["base-address"].value = dyld3::json::hex(unslidLoadAddress());
+ uuid_t cache_uuid;
+ getUUID(cache_uuid);
+ uuid_string_t cache_uuidStr;
+ uuid_unparse(cache_uuid, cache_uuidStr);
+ cacheNode.map["uuid"].value = cache_uuidStr;
+
+ __block dyld3::json::Node imagesNode;
+ forEachImage(^(const mach_header *mh, const char *installName) {
+ dyld3::json::Node imageNode;
+ imageNode.map["path"].value = installName;
+ dyld3::MachOAnalyzer* ma = (dyld3::MachOAnalyzer*)mh;
+ uuid_t uuid;
+ if (ma->getUuid(uuid)) {
+ uuid_string_t uuidStr;
+ uuid_unparse(uuid, uuidStr);
+ imageNode.map["uuid"].value = uuidStr;
+ }
+
+ __block dyld3::json::Node segmentsNode;
+ ma->forEachSegment(^(const dyld3::MachOAnalyzer::SegmentInfo &info, bool &stop) {
+ dyld3::json::Node segmentNode;
+ segmentNode.map["name"].value = info.segName;
+ segmentNode.map["start-vmaddr"].value = dyld3::json::hex(info.vmAddr);
+ segmentNode.map["end-vmaddr"].value = dyld3::json::hex(info.vmAddr + info.vmSize);
+ segmentsNode.array.push_back(segmentNode);
+ });
+ imageNode.map["segments"] = segmentsNode;
+ imagesNode.array.push_back(imageNode);
+ });
+
+ cacheNode.map["images"] = imagesNode;
+
+ std::stringstream stream;
+ printJSON(cacheNode, 0, stream);
+
+ return stream.str();
+}
+
+std::string DyldSharedCache::generateJSONDependents() const {
+ std::unordered_map<std::string, std::set<std::string>> dependents;
+ computeTransitiveDependents(dependents);
+
+ std::stringstream stream;
+
+ stream << "{";
+ bool first = true;
+ for (auto p : dependents) {
+ if (!first) stream << "," << std::endl;
+ first = false;
+
+ stream << "\"" << p.first << "\" : [" << std::endl;
+ bool firstDependent = true;
+ for (const std::string & dependent : p.second) {
+ if (!firstDependent) stream << "," << std::endl;
+ firstDependent = false;
+ stream << " \"" << dependent << "\"";
+ }
+ stream << "]" << std::endl;
+ }
+ stream << "}" << std::endl;
+ return stream.str();
+}
+
+#endif
+
+
+
+const dyld_cache_slide_info* DyldSharedCache::slideInfo() const
+{
+ const dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)((char*)this + header.mappingOffset);
+ uintptr_t slide = (uintptr_t)this - (uintptr_t)(mappings[0].address);
+
+ uint64_t offsetInLinkEditRegion = (header.slideInfoOffset - mappings[2].fileOffset);
+ return (dyld_cache_slide_info*)((uint8_t*)(mappings[2].address) + slide + offsetInLinkEditRegion);
+}
+
+const uint8_t* DyldSharedCache::dataRegionStart() const
+{
+ const dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)((char*)this + header.mappingOffset);
+ uintptr_t slide = (uintptr_t)this - (uintptr_t)(mappings[0].address);
+
+ return (uint8_t*)(mappings[1].address) + slide;
+}
+
+const objc_opt::objc_opt_t* DyldSharedCache::objcOpt() const {
+ // Find the objc image
+ const dyld3::MachOAnalyzer* objcMA = nullptr;
+
+ uint32_t imageIndex;
+ if ( hasImagePath("/usr/lib/libobjc.A.dylib", imageIndex) ) {
+ const dyld3::closure::ImageArray* images = cachedDylibsImageArray();
+ const dyld3::closure::Image* image = images->imageForNum(imageIndex+1);
+ objcMA = (const dyld3::MachOAnalyzer*)((uintptr_t)this + image->cacheOffset());
+ } else {
+ return nullptr;
+ }
+
+ // If we found the objc image, then try to find the read-only data inside.
+ __block const uint8_t* objcROContent = nullptr;
+ int64_t slide = objcMA->getSlide();
+ objcMA->forEachSection(^(const dyld3::MachOAnalyzer::SectionInfo& info, bool malformedSectionRange, bool& stop) {
+ if (strcmp(info.segInfo.segName, "__TEXT") != 0)
+ return;
+ if (strcmp(info.sectName, "__objc_opt_ro") != 0)
+ return;
+ if ( malformedSectionRange ) {
+ stop = true;
+ return;
+ }
+ objcROContent = (uint8_t*)(info.sectAddr + slide);
+ });
+
+ if (objcROContent == nullptr)
+ return nullptr;
+
+ const objc_opt::objc_opt_t* optObjCHeader = (const objc_opt::objc_opt_t*)objcROContent;
+ return optObjCHeader->version == objc_opt::VERSION ? optObjCHeader : nullptr;
+}
+
+const void* DyldSharedCache::objcOptPtrs() const {
+ // Find the objc image
+ const dyld3::MachOAnalyzer* objcMA = nullptr;
+
+ uint32_t imageIndex;
+ if ( hasImagePath("/usr/lib/libobjc.A.dylib", imageIndex) ) {
+ const dyld3::closure::ImageArray* images = cachedDylibsImageArray();
+ const dyld3::closure::Image* image = images->imageForNum(imageIndex+1);
+ objcMA = (const dyld3::MachOAnalyzer*)((uintptr_t)this + image->cacheOffset());
+ } else {
+ return nullptr;
+ }
+
+ // If we found the objc image, then try to find the read-only data inside.
+ __block const void* objcPointersContent = nullptr;
+ int64_t slide = objcMA->getSlide();
+ uint32_t pointerSize = objcMA->pointerSize();
+ objcMA->forEachSection(^(const dyld3::MachOAnalyzer::SectionInfo& info, bool malformedSectionRange, bool& stop) {
+ if ( strncmp(info.segInfo.segName, "__DATA", 6) != 0 )
+ return;
+ if (strcmp(info.sectName, "__objc_opt_ptrs") != 0)
+ return;
+ if ( info.sectSize != pointerSize ) {
+ stop = true;
+ return;
+ }
+ if ( malformedSectionRange ) {
+ stop = true;
+ return;
+ }
+ objcPointersContent = (uint8_t*)(info.sectAddr + slide);
+ });
+
+ return objcPointersContent;
+}
+
+#if !(BUILDING_LIBDYLD || BUILDING_DYLD)
+void DyldSharedCache::fillMachOAnalyzersMap(std::unordered_map<std::string,dyld3::MachOAnalyzer*> & dylibAnalyzers) const {
+ forEachImage(^(const mach_header *mh, const char *iteratedInstallName) {
+ dylibAnalyzers[std::string(iteratedInstallName)] = (dyld3::MachOAnalyzer*)mh;
+ });
+}
+
+void DyldSharedCache::computeReverseDependencyMapForDylib(std::unordered_map<std::string, std::set<std::string>> &reverseDependencyMap, const std::unordered_map<std::string,dyld3::MachOAnalyzer*> & dylibAnalyzers, const std::string &loadPath) const {
+ dyld3::MachOAnalyzer *ma = dylibAnalyzers.at(loadPath);
+ if (reverseDependencyMap.find(loadPath) != reverseDependencyMap.end()) return;
+ reverseDependencyMap[loadPath] = std::set<std::string>();
+
+ ma->forEachDependentDylib(^(const char *dependencyLoadPath, bool isWeak, bool isReExport, bool isUpward, uint32_t compatVersion, uint32_t curVersion, bool &stop) {
+ if (isUpward) return;
+ std::string dependencyLoadPathString = std::string(dependencyLoadPath);
+ computeReverseDependencyMapForDylib(reverseDependencyMap, dylibAnalyzers, dependencyLoadPathString);
+ reverseDependencyMap[dependencyLoadPathString].insert(loadPath);
+ });
+}
+
+// Walks the shared cache and construct the reverse dependency graph (if dylib A depends on B,
+// constructs the graph with B -> A edges)
+void DyldSharedCache::computeReverseDependencyMap(std::unordered_map<std::string, std::set<std::string>> &reverseDependencyMap) const {
+ std::unordered_map<std::string,dyld3::MachOAnalyzer*> dylibAnalyzers;
+
+ fillMachOAnalyzersMap(dylibAnalyzers);
+ forEachImage(^(const mach_header *mh, const char *installName) {
+ computeReverseDependencyMapForDylib(reverseDependencyMap, dylibAnalyzers, std::string(installName));
+ });
+}
+
+// uses the reverse dependency graph constructed above to find the recursive set of dependents for each dylib
+void DyldSharedCache::findDependentsRecursively(std::unordered_map<std::string, std::set<std::string>> &transitiveDependents, const std::unordered_map<std::string, std::set<std::string>> &reverseDependencyMap, std::set<std::string> & visited, const std::string &loadPath) const {
+
+ if (transitiveDependents.find(loadPath) != transitiveDependents.end()) {
+ return;
+ }
+
+ if (visited.find(loadPath) != visited.end()) {
+ return;
+ }
+
+ visited.insert(loadPath);
+
+ std::set<std::string> dependents;
+
+ for (const std::string & dependent : reverseDependencyMap.at(loadPath)) {
+ findDependentsRecursively(transitiveDependents, reverseDependencyMap, visited, dependent);
+ if (transitiveDependents.find(dependent) != transitiveDependents.end()) {
+ std::set<std::string> & theseTransitiveDependents = transitiveDependents.at(dependent);
+ dependents.insert(theseTransitiveDependents.begin(), theseTransitiveDependents.end());
+ }
+ dependents.insert(dependent);
+ }
+
+ transitiveDependents[loadPath] = dependents;
+}
+
+// Fills a map from each install name N to the set of install names depending on N
+void DyldSharedCache::computeTransitiveDependents(std::unordered_map<std::string, std::set<std::string>> & transitiveDependents) const {
+ std::unordered_map<std::string, std::set<std::string>> reverseDependencyMap;
+ computeReverseDependencyMap(reverseDependencyMap);
+ forEachImage(^(const mach_header *mh, const char *installName) {
+ std::set<std::string> visited;
+ findDependentsRecursively(transitiveDependents, reverseDependencyMap, visited, std::string(installName));
+ });
+}
+#endif