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--- dyld/dyld-655.1/dyld3/shared-cache/CacheBuilder.cpp
+++ dyld/dyld-519.2.2/dyld3/shared-cache/CacheBuilder.cpp
@@ -28,11 +28,8 @@
#include <sys/errno.h>
#include <sys/fcntl.h>
#include <sys/param.h>
-#include <sys/types.h>
-#include <sys/stat.h>
#include <mach/mach.h>
#include <mach/mach_time.h>
-#include <mach/mach_vm.h>
#include <mach-o/loader.h>
#include <mach-o/fat.h>
#include <mach/shared_region.h>
@@ -47,46 +44,34 @@
#include <unordered_map>
#include <unordered_set>
-#include "MachOFileAbstraction.hpp"
+#include "MachOParser.h"
#include "CodeSigningTypes.h"
#include "DyldSharedCache.h"
#include "CacheBuilder.h"
#include "FileAbstraction.hpp"
+#include "LaunchCacheWriter.h"
#include "Trie.hpp"
-#include "FileUtils.h"
#include "Diagnostics.h"
-#include "ClosureBuilder.h"
-#include "Closure.h"
-#include "StringUtils.h"
+#include "ImageProxy.h"
#if __has_include("dyld_cache_config.h")
#include "dyld_cache_config.h"
#else
- #define ARM_SHARED_REGION_START 0x1A000000ULL
- #define ARM_SHARED_REGION_SIZE 0x26000000ULL
- #define ARM64_SHARED_REGION_START 0x180000000ULL
- #define ARM64_SHARED_REGION_SIZE 0x40000000ULL
+ #define ARM_SHARED_REGION_START 0x1A000000ULL
+ #define ARM_SHARED_REGION_SIZE 0x26000000ULL
+ #define ARM64_SHARED_REGION_START 0x180000000ULL
+ #define ARM64_SHARED_REGION_SIZE 0x40000000ULL
#endif
-#ifndef ARM64_32_SHARED_REGION_START
- #define ARM64_32_SHARED_REGION_START 0x1A000000ULL
- #define ARM64_32_SHARED_REGION_SIZE 0x26000000ULL
-#endif
-
const CacheBuilder::ArchLayout CacheBuilder::_s_archLayout[] = {
- { 0x7FFF20000000ULL, 0xEFE00000ULL, 0x40000000, 0xFFFF000000000000, "x86_64", 0, 0, 0, 12, 2, true, true },
- { 0x7FFF20000000ULL, 0xEFE00000ULL, 0x40000000, 0xFFFF000000000000, "x86_64h", 0, 0, 0, 12, 2, true, true },
- { SHARED_REGION_BASE_I386, SHARED_REGION_SIZE_I386, 0x00200000, 0x0, "i386", 0, 0, 0, 12, 0, false, false },
- { ARM64_SHARED_REGION_START, ARM64_SHARED_REGION_SIZE, 0x02000000, 0x00FFFF0000000000, "arm64", 0x0000C000, 0x00100000, 0x07F00000, 14, 2, false, true },
-#if SUPPORT_ARCH_arm64e
- { ARM64_SHARED_REGION_START, ARM64_SHARED_REGION_SIZE, 0x02000000, 0x00FFFF0000000000, "arm64e", 0x0000C000, 0x00100000, 0x07F00000, 14, 2, false, true },
-#endif
-#if SUPPORT_ARCH_arm64_32
- { ARM64_32_SHARED_REGION_START, ARM64_32_SHARED_REGION_SIZE,0x02000000, 0xC0000000, "arm64_32",0x0000C000, 0x00100000, 0x07F00000, 14, 6, false, false },
-#endif
- { ARM_SHARED_REGION_START, ARM_SHARED_REGION_SIZE, 0x02000000, 0xE0000000, "armv7s", 0, 0, 0, 14, 4, false, false },
- { ARM_SHARED_REGION_START, ARM_SHARED_REGION_SIZE, 0x00400000, 0xE0000000, "armv7k", 0, 0, 0, 14, 4, false, false },
- { 0x40000000, 0x40000000, 0x02000000, 0x0, "sim-x86", 0, 0, 0, 14, 0, false, false }
+ { 0x7FFF20000000ULL, 0xEFE00000ULL, 0x40000000, 0xFFFF000000000000, "x86_64", 0, 0, 0, 12, true, true },
+ { 0x7FFF20000000ULL, 0xEFE00000ULL, 0x40000000, 0xFFFF000000000000, "x86_64h", 0, 0, 0, 12, true, true },
+ { SHARED_REGION_BASE_I386, SHARED_REGION_SIZE_I386, 0x00200000, 0x0, "i386", 0, 0, 0, 12, false, false },
+ { ARM64_SHARED_REGION_START, ARM64_SHARED_REGION_SIZE, 0x02000000, 0x00FFFF0000000000, "arm64", 0x0000C000, 0x00100000, 0x07F00000, 14, false, true },
+ { ARM64_SHARED_REGION_START, ARM64_SHARED_REGION_SIZE, 0x02000000, 0x00FFFF0000000000, "arm64e", 0x0000C000, 0x00100000, 0x07F00000, 14, false, true },
+ { ARM_SHARED_REGION_START, ARM_SHARED_REGION_SIZE, 0x02000000, 0xE0000000, "armv7s", 0, 0, 0, 14, false, false },
+ { ARM_SHARED_REGION_START, ARM_SHARED_REGION_SIZE, 0x00400000, 0xE0000000, "armv7k", 0, 0, 0, 14, false, false },
+ { 0x40000000, 0x40000000, 0x02000000, 0x0, "sim-x86", 0, 0, 0, 14, false, false }
};
@@ -97,16 +82,17 @@
};
-CacheBuilder::CacheBuilder(const DyldSharedCache::CreateOptions& options, const dyld3::closure::FileSystem& fileSystem)
+CacheBuilder::CacheBuilder(const DyldSharedCache::CreateOptions& options)
: _options(options)
- , _fileSystem(fileSystem)
- , _fullAllocatedBuffer(0)
+ , _buffer(nullptr)
, _diagnostics(options.loggingPrefix, options.verbose)
, _archLayout(nullptr)
, _aliasCount(0)
, _slideInfoFileOffset(0)
, _slideInfoBufferSizeAllocated(0)
, _allocatedBufferSize(0)
+ , _currentFileSize(0)
+ , _vmSize(0)
, _branchPoolsLinkEditStartAddr(0)
{
@@ -120,10 +106,6 @@
break;
}
}
-
- if (!_archLayout) {
- _diagnostics.error("Tool was built without support for: '%s'", targetArch.c_str());
- }
}
@@ -137,28 +119,21 @@
return _diagnostics.warnings();
}
-const std::set<const dyld3::MachOAnalyzer*> CacheBuilder::evictions()
-{
- return _evictions;
-}
-
void CacheBuilder::deleteBuffer()
{
- vm_deallocate(mach_task_self(), _fullAllocatedBuffer, _archLayout->sharedMemorySize);
- _fullAllocatedBuffer = 0;
+ vm_deallocate(mach_task_self(), (vm_address_t)_buffer, _allocatedBufferSize);
+ _buffer = nullptr;
_allocatedBufferSize = 0;
}
-
-void CacheBuilder::makeSortedDylibs(const std::vector<LoadedMachO>& dylibs, const std::unordered_map<std::string, unsigned> sortOrder)
-{
- for (const LoadedMachO& dylib : dylibs) {
- _sortedDylibs.push_back({ &dylib, dylib.mappedFile.runtimePath, {} });
- }
-
- std::sort(_sortedDylibs.begin(), _sortedDylibs.end(), [&](const DylibInfo& a, const DylibInfo& b) {
- const auto& orderA = sortOrder.find(a.input->mappedFile.runtimePath);
- const auto& orderB = sortOrder.find(b.input->mappedFile.runtimePath);
+std::vector<DyldSharedCache::MappedMachO>
+CacheBuilder::makeSortedDylibs(const std::vector<DyldSharedCache::MappedMachO>& dylibs, const std::unordered_map<std::string, unsigned> sortOrder)
+{
+ std::vector<DyldSharedCache::MappedMachO> sortedDylibs = dylibs;
+
+ std::sort(sortedDylibs.begin(), sortedDylibs.end(), [&](const DyldSharedCache::MappedMachO& a, const DyldSharedCache::MappedMachO& b) {
+ const auto& orderA = sortOrder.find(a.runtimePath);
+ const auto& orderB = sortOrder.find(b.runtimePath);
bool foundA = (orderA != sortOrder.end());
bool foundB = (orderB != sortOrder.end());
@@ -172,8 +147,10 @@
else if ( foundB )
return false;
else
- return a.input->mappedFile.runtimePath < b.input->mappedFile.runtimePath;
+ return a.runtimePath < b.runtimePath;
});
+
+ return sortedDylibs;
}
@@ -184,740 +161,333 @@
struct DylibAndSize
{
- const CacheBuilder::LoadedMachO* input;
- const char* installName;
- uint64_t size;
+ const char* installName;
+ uint64_t size;
};
-uint64_t CacheBuilder::cacheOverflowAmount()
+bool CacheBuilder::cacheOverflow(const dyld_cache_mapping_info regions[3])
{
if ( _archLayout->sharedRegionsAreDiscontiguous ) {
// for macOS x86_64 cache, need to check each region for overflow
- if ( _readExecuteRegion.sizeInUse > 0x60000000 )
- return (_readExecuteRegion.sizeInUse - 0x60000000);
-
- if ( _readWriteRegion.sizeInUse > 0x40000000 )
- return (_readWriteRegion.sizeInUse - 0x40000000);
-
- if ( _readOnlyRegion.sizeInUse > 0x3FE00000 )
- return (_readOnlyRegion.sizeInUse - 0x3FE00000);
+ return ( (regions[0].size > 0x60000000) || (regions[1].size > 0x40000000) || (regions[2].size > 0x3FE00000) );
}
else {
- bool alreadyOptimized = (_readOnlyRegion.sizeInUse != _readOnlyRegion.bufferSize);
- uint64_t vmSize = _readOnlyRegion.unslidLoadAddress - _readExecuteRegion.unslidLoadAddress;
- if ( alreadyOptimized )
- vmSize += _readOnlyRegion.sizeInUse;
- else if ( _options.excludeLocalSymbols )
- vmSize += (_readOnlyRegion.sizeInUse * 37/100); // assume locals removal and LINKEDIT optimzation reduces LINKEDITs %25 of original size
- else
- vmSize += (_readOnlyRegion.sizeInUse * 80/100); // assume LINKEDIT optimzation reduces LINKEDITs to %80 of original size
- if ( vmSize > _archLayout->sharedMemorySize )
- return vmSize - _archLayout->sharedMemorySize;
- }
- // fits in shared region
- return 0;
-}
-
-size_t CacheBuilder::evictLeafDylibs(uint64_t reductionTarget, std::vector<const LoadedMachO*>& overflowDylibs)
-{
- // build count of how many references there are to each dylib
- __block std::map<std::string, unsigned int> referenceCount;
- for (const DylibInfo& dylib : _sortedDylibs) {
- dylib.input->mappedFile.mh->forEachDependentDylib(^(const char* loadPath, bool isWeak, bool isReExport, bool isUpward, uint32_t compatVersion, uint32_t curVersion, bool &stop) {
- referenceCount[loadPath] += 1;
- });
- }
-
- // find all dylibs not referenced
- std::vector<DylibAndSize> unreferencedDylibs;
- for (const DylibInfo& dylib : _sortedDylibs) {
- const char* installName = dylib.input->mappedFile.mh->installName();
- if ( referenceCount.count(installName) == 0 ) {
- // conservative: sum up all segments except LINKEDIT
- __block uint64_t segsSize = 0;
- dylib.input->mappedFile.mh->forEachSegment(^(const dyld3::MachOFile::SegmentInfo& info, bool& stop) {
- if ( strcmp(info.segName, "__LINKEDIT") != 0 )
- segsSize += info.vmSize;
- });
- unreferencedDylibs.push_back({ dylib.input, installName, segsSize });
- }
- }
- // sort leaf dylibs by size
- std::sort(unreferencedDylibs.begin(), unreferencedDylibs.end(), [&](const DylibAndSize& a, const DylibAndSize& b) {
- return ( a.size > b.size );
- });
-
- // build set of dylibs that if removed will allow cache to build
- for (DylibAndSize& dylib : unreferencedDylibs) {
- if ( _options.verbose )
- _diagnostics.warning("to prevent cache overflow, not caching %s", dylib.installName);
- _evictions.insert(dylib.input->mappedFile.mh);
- // Track the evicted dylibs so we can try build "other" dlopen closures for them.
- overflowDylibs.push_back(dylib.input);
- if ( dylib.size > reductionTarget )
- break;
- reductionTarget -= dylib.size;
- }
-
- // prune _sortedDylibs
- _sortedDylibs.erase(std::remove_if(_sortedDylibs.begin(), _sortedDylibs.end(), [&](const DylibInfo& dylib) {
- return (_evictions.count(dylib.input->mappedFile.mh) != 0);
- }),_sortedDylibs.end());
-
- return _evictions.size();
-}
-
-// Handles building a list of input files to the CacheBuilder itself.
-class CacheInputBuilder {
-public:
- CacheInputBuilder(const dyld3::closure::FileSystem& fileSystem,
- std::string reqArchitecture, dyld3::Platform reqPlatform)
- : fileSystem(fileSystem), reqArchitecture(reqArchitecture), reqPlatform(reqPlatform) { }
-
- // Loads and maps any MachOs in the given list of files.
- void loadMachOs(std::vector<CacheBuilder::InputFile>& inputFiles,
- std::vector<CacheBuilder::LoadedMachO>& dylibsToCache,
- std::vector<CacheBuilder::LoadedMachO>& otherDylibs,
- std::vector<CacheBuilder::LoadedMachO>& executables,
- std::vector<CacheBuilder::LoadedMachO>& couldNotLoadFiles) {
-
- std::map<std::string, uint64_t> dylibInstallNameMap;
- for (CacheBuilder::InputFile& inputFile : inputFiles) {
- dyld3::closure::LoadedFileInfo loadedFileInfo = dyld3::MachOAnalyzer::load(inputFile.diag, fileSystem, inputFile.path, reqArchitecture.c_str(), reqPlatform);
- const dyld3::MachOAnalyzer* ma = (const dyld3::MachOAnalyzer*)loadedFileInfo.fileContent;
- if (ma == nullptr) {
- couldNotLoadFiles.emplace_back((CacheBuilder::LoadedMachO){ DyldSharedCache::MappedMachO(), loadedFileInfo, &inputFile });
- continue;
- }
-
- DyldSharedCache::MappedMachO mappedFile(inputFile.path, ma, loadedFileInfo.sliceLen, false, false,
- loadedFileInfo.sliceOffset, loadedFileInfo.mtime, loadedFileInfo.inode);
-
- // The file can be loaded with the given slice, but we may still want to exlude it from the cache.
- if (ma->isDylib()) {
- std::string installName = ma->installName();
-
- // Let the platform exclude the file before we do anything else.
- if (platformExcludesInstallName(installName)) {
- inputFile.diag.verbose("Platform excluded file\n");
- fileSystem.unloadFile(loadedFileInfo);
- continue;
- }
-
- if (!ma->canBePlacedInDyldCache(inputFile.path, ^(const char* msg) {
- inputFile.diag.warning("Dylib located at '%s' cannot be placed in cache because: %s", inputFile.path, msg);
- })) {
- // TODO: Add exclusion lists here?
- // Probably not as we already applied the dylib exclusion list.
- otherDylibs.emplace_back((CacheBuilder::LoadedMachO){ mappedFile, loadedFileInfo, &inputFile });
- continue;
- }
-
- // Otherwise see if we have another file with this install name
- auto iteratorAndInserted = dylibInstallNameMap.insert(std::make_pair(installName, dylibsToCache.size()));
- if (iteratorAndInserted.second) {
- // We inserted the dylib so we haven't seen another with this name.
- if (installName[0] != '@' && installName != inputFile.path) {
- inputFile.diag.warning("Dylib located at '%s' has installname '%s'", inputFile.path, installName.c_str());
- }
-
- dylibsToCache.emplace_back((CacheBuilder::LoadedMachO){ mappedFile, loadedFileInfo, &inputFile });
- } else {
- // We didn't insert this one so we've seen it before.
- CacheBuilder::LoadedMachO& previousLoadedMachO = dylibsToCache[iteratorAndInserted.first->second];
- inputFile.diag.warning("Multiple dylibs claim installname '%s' ('%s' and '%s')", installName.c_str(), inputFile.path, previousLoadedMachO.mappedFile.runtimePath.c_str());
-
- // This is the "Good" one, overwrite
- if (inputFile.path == installName) {
- // Unload the old one
- fileSystem.unloadFile(previousLoadedMachO.loadedFileInfo);
-
- // And replace with this one.
- previousLoadedMachO.mappedFile = mappedFile;
- previousLoadedMachO.loadedFileInfo = loadedFileInfo;
- }
- }
- } else if (ma->isBundle()) {
- // TODO: Add exclusion lists here?
- otherDylibs.emplace_back((CacheBuilder::LoadedMachO){ mappedFile, loadedFileInfo, &inputFile });
- } else if (ma->isDynamicExecutable()) {
- if (platformExcludesExecutablePath_macOS(inputFile.path)) {
- inputFile.diag.verbose("Platform excluded file\n");
- fileSystem.unloadFile(loadedFileInfo);
- continue;
- }
- executables.emplace_back((CacheBuilder::LoadedMachO){ mappedFile, loadedFileInfo, &inputFile });
- } else {
- inputFile.diag.verbose("Unsupported mach file type\n");
- fileSystem.unloadFile(loadedFileInfo);
- }
- }
- }
-
-private:
-
-
-
- static bool platformExcludesInstallName_macOS(const std::string& installName) {
- return false;
- }
-
- static bool platformExcludesInstallName_iOS(const std::string& installName) {
- if ( installName == "/System/Library/Caches/com.apple.xpc/sdk.dylib" )
- return true;
- if ( installName == "/System/Library/Caches/com.apple.xpcd/xpcd_cache.dylib" )
- return true;
- return false;
- }
-
- static bool platformExcludesInstallName_tvOS(const std::string& installName) {
- return platformExcludesInstallName_iOS(installName);
- }
-
- static bool platformExcludesInstallName_watchOS(const std::string& installName) {
- return platformExcludesInstallName_iOS(installName);
- }
-
- static bool platformExcludesInstallName_bridgeOS(const std::string& installName) {
- return platformExcludesInstallName_iOS(installName);
- }
-
- // Returns true if the current platform requires that this install name be excluded from the shared cache
- // Note that this overrides any exclusion from anywhere else.
- bool platformExcludesInstallName(const std::string& installName) {
- switch (reqPlatform) {
- case dyld3::Platform::unknown:
- return false;
- case dyld3::Platform::macOS:
- return platformExcludesInstallName_macOS(installName);
- case dyld3::Platform::iOS:
- return platformExcludesInstallName_iOS(installName);
- case dyld3::Platform::tvOS:
- return platformExcludesInstallName_tvOS(installName);
- case dyld3::Platform::watchOS:
- return platformExcludesInstallName_watchOS(installName);
- case dyld3::Platform::bridgeOS:
- return platformExcludesInstallName_bridgeOS(installName);
- case dyld3::Platform::iOSMac:
- return false;
- case dyld3::Platform::iOS_simulator:
- return false;
- case dyld3::Platform::tvOS_simulator:
- return false;
- case dyld3::Platform::watchOS_simulator:
- return false;
- }
- }
-
-
-
-
- static bool platformExcludesExecutablePath_macOS(const std::string& path) {
- return false;
- }
-
- static bool platformExcludesExecutablePath_iOS(const std::string& path) {
- //HACK exclude all launchd and installd variants until we can do something about xpcd_cache.dylib and friends
- if (path == "/sbin/launchd"
- || path == "/usr/local/sbin/launchd.debug"
- || path == "/usr/local/sbin/launchd.development"
- || path == "/usr/libexec/installd") {
- return true;
- }
- return false;
- }
-
- static bool platformExcludesExecutablePath_tvOS(const std::string& path) {
- return platformExcludesExecutablePath_iOS(path);
- }
-
- static bool platformExcludesExecutablePath_watchOS(const std::string& path) {
- return platformExcludesExecutablePath_iOS(path);
- }
-
- static bool platformExcludesExecutablePath_bridgeOS(const std::string& path) {
- return platformExcludesExecutablePath_iOS(path);
- }
-
- // Returns true if the current platform requires that this path be excluded from the shared cache
- // Note that this overrides any exclusion from anywhere else.
- bool platformExcludesExecutablePath(const std::string& path) {
- switch (reqPlatform) {
- case dyld3::Platform::unknown:
- return false;
- case dyld3::Platform::macOS:
- return platformExcludesExecutablePath_macOS(path);
- case dyld3::Platform::iOS:
- return platformExcludesExecutablePath_iOS(path);
- case dyld3::Platform::tvOS:
- return platformExcludesExecutablePath_tvOS(path);
- case dyld3::Platform::watchOS:
- return platformExcludesExecutablePath_watchOS(path);
- case dyld3::Platform::bridgeOS:
- return platformExcludesExecutablePath_bridgeOS(path);
- case dyld3::Platform::iOSMac:
- return false;
- case dyld3::Platform::iOS_simulator:
- return false;
- case dyld3::Platform::tvOS_simulator:
- return false;
- case dyld3::Platform::watchOS_simulator:
- return false;
- }
- }
-
- const dyld3::closure::FileSystem& fileSystem;
- std::string reqArchitecture;
- dyld3::Platform reqPlatform;
-};
-
-static void verifySelfContained(std::vector<CacheBuilder::LoadedMachO>& dylibsToCache,
- std::vector<CacheBuilder::LoadedMachO>& otherDylibs,
- std::vector<CacheBuilder::LoadedMachO>& couldNotLoadFiles)
-{
- // build map of dylibs
- __block std::map<std::string, const CacheBuilder::LoadedMachO*> knownDylibs;
- __block std::map<std::string, const CacheBuilder::LoadedMachO*> allDylibs;
- for (const CacheBuilder::LoadedMachO& dylib : dylibsToCache) {
- knownDylibs.insert({ dylib.mappedFile.runtimePath, &dylib });
- allDylibs.insert({ dylib.mappedFile.runtimePath, &dylib });
- if (const char* installName = dylib.mappedFile.mh->installName()) {
- knownDylibs.insert({ installName, &dylib });
- allDylibs.insert({ installName, &dylib });
- }
- }
-
- for (const CacheBuilder::LoadedMachO& dylib : otherDylibs) {
- allDylibs.insert({ dylib.mappedFile.runtimePath, &dylib });
- if (const char* installName = dylib.mappedFile.mh->installName())
- allDylibs.insert({ installName, &dylib });
- }
-
- for (const CacheBuilder::LoadedMachO& dylib : couldNotLoadFiles) {
- allDylibs.insert({ dylib.inputFile->path, &dylib });
- }
-
- // check all dependencies to assure every dylib in cache only depends on other dylibs in cache
- __block std::map<std::string, std::set<std::string>> badDylibs;
- __block bool doAgain = true;
- while ( doAgain ) {
- doAgain = false;
- // scan dylib list making sure all dependents are in dylib list
- for (const CacheBuilder::LoadedMachO& dylib : dylibsToCache) {
- if ( badDylibs.count(dylib.mappedFile.runtimePath) != 0 )
- continue;
- dylib.mappedFile.mh->forEachDependentDylib(^(const char* loadPath, bool isWeak, bool isReExport, bool isUpward, uint32_t compatVersion, uint32_t curVersion, bool& stop) {
- if (isWeak)
- return;
- if ( knownDylibs.count(loadPath) == 0 ) {
- badDylibs[dylib.mappedFile.runtimePath].insert(std::string("Could not find dependency '") + loadPath + "'");
- knownDylibs.erase(dylib.mappedFile.runtimePath);
- knownDylibs.erase(dylib.mappedFile.mh->installName());
- doAgain = true;
- }
- });
- }
- }
-
- // Now walk the dylibs which depend on missing dylibs and see if any of them are required binaries.
- for (auto badDylibsIterator : badDylibs) {
- const std::string& dylibRuntimePath = badDylibsIterator.first;
- auto requiredDylibIterator = allDylibs.find(dylibRuntimePath);
- if (requiredDylibIterator == allDylibs.end())
- continue;
- if (!requiredDylibIterator->second->inputFile->mustBeIncluded())
- continue;
- // This dylib is required so mark all dependencies as requried too
- __block std::vector<const CacheBuilder::LoadedMachO*> worklist;
- worklist.push_back(requiredDylibIterator->second);
- while (!worklist.empty()) {
- const CacheBuilder::LoadedMachO* dylib = worklist.back();
- worklist.pop_back();
- if (!dylib->mappedFile.mh)
- continue;
- dylib->mappedFile.mh->forEachDependentDylib(^(const char* loadPath, bool isWeak, bool isReExport, bool isUpward, uint32_t compatVersion, uint32_t curVersion, bool& stop) {
- if (isWeak)
- return;
- auto dylibIterator = allDylibs.find(loadPath);
- if (dylibIterator != allDylibs.end()) {
- if (dylibIterator->second->inputFile->state == CacheBuilder::InputFile::Unset) {
- dylibIterator->second->inputFile->state = CacheBuilder::InputFile::MustBeIncludedForDependent;
- worklist.push_back(dylibIterator->second);
- }
- }
- });
- }
- }
-
- // FIXME: Make this an option we can pass in
- const bool evictLeafDylibs = true;
- if (evictLeafDylibs) {
- doAgain = true;
- while ( doAgain ) {
- doAgain = false;
-
- // build count of how many references there are to each dylib
- __block std::set<std::string> referencedDylibs;
- for (const CacheBuilder::LoadedMachO& dylib : dylibsToCache) {
- if ( badDylibs.count(dylib.mappedFile.runtimePath) != 0 )
- continue;
- dylib.mappedFile.mh->forEachDependentDylib(^(const char* loadPath, bool isWeak, bool isReExport, bool isUpward, uint32_t compatVersion, uint32_t curVersion, bool &stop) {
- referencedDylibs.insert(loadPath);
- });
- }
-
- // find all dylibs not referenced
- std::vector<DylibAndSize> unreferencedDylibs;
- for (const CacheBuilder::LoadedMachO& dylib : dylibsToCache) {
- if ( badDylibs.count(dylib.mappedFile.runtimePath) != 0 )
- continue;
- const char* installName = dylib.mappedFile.mh->installName();
- if ( (referencedDylibs.count(installName) == 0) && (dylib.inputFile->state == CacheBuilder::InputFile::MustBeExcludedIfUnused) ) {
- badDylibs[dylib.mappedFile.runtimePath].insert(std::string("It has been explicitly excluded as it is unused"));
- doAgain = true;
- }
- }
- }
- }
-
- // Move bad dylibs from dylibs to cache to other dylibs.
- for (const CacheBuilder::LoadedMachO& dylib : dylibsToCache) {
- auto i = badDylibs.find(dylib.mappedFile.runtimePath);
- if ( i != badDylibs.end()) {
- otherDylibs.push_back(dylib);
- for (const std::string& reason : i->second )
- otherDylibs.back().inputFile->diag.warning("Dylib located at '%s' not placed in shared cache because: %s", dylib.mappedFile.runtimePath.c_str(), reason.c_str());
- }
- }
-
- const auto& badDylibsLambdaRef = badDylibs;
- dylibsToCache.erase(std::remove_if(dylibsToCache.begin(), dylibsToCache.end(), [&](const CacheBuilder::LoadedMachO& dylib) {
- if (badDylibsLambdaRef.find(dylib.mappedFile.runtimePath) != badDylibsLambdaRef.end())
- return true;
- return false;
- }), dylibsToCache.end());
-}
-
-// This is the new build API which takes the raw files (which could be FAT) and tries to build a cache from them.
-// We should remove the other build() method, or make it private so that this can wrap it.
-void CacheBuilder::build(std::vector<CacheBuilder::InputFile>& inputFiles,
- std::vector<DyldSharedCache::FileAlias>& aliases) {
- // First filter down to files which are actually MachO's
- CacheInputBuilder cacheInputBuilder(_fileSystem, _archLayout->archName, _options.platform);
-
- std::vector<LoadedMachO> dylibsToCache;
- std::vector<LoadedMachO> otherDylibs;
- std::vector<LoadedMachO> executables;
- std::vector<LoadedMachO> couldNotLoadFiles;
- cacheInputBuilder.loadMachOs(inputFiles, dylibsToCache, otherDylibs, executables, couldNotLoadFiles);
-
- verifySelfContained(dylibsToCache, otherDylibs, couldNotLoadFiles);
-
- // Check for required binaries before we try to build the cache
- if (!_diagnostics.hasError()) {
- // If we succeeded in building, then now see if there was a missing required file, and if so why its missing.
- std::string errorString;
- for (const LoadedMachO& dylib : otherDylibs) {
- if (dylib.inputFile->mustBeIncluded()) {
- // An error loading a required file must be propagated up to the top level diagnostic handler.
- bool gotWarning = false;
- for (const std::string& warning : dylib.inputFile->diag.warnings()) {
- gotWarning = true;
- std::string message = warning;
- if (message.back() == '\n')
- message.pop_back();
- if (!errorString.empty())
- errorString += "ERROR: ";
- errorString += "Required binary was not included in the shared cache '" + std::string(dylib.inputFile->path) + "' because: " + message + "\n";
- }
- if (!gotWarning) {
- if (!errorString.empty())
- errorString += "ERROR: ";
- errorString += "Required binary was not included in the shared cache '" + std::string(dylib.inputFile->path) + "' because: 'unknown error. Please report to dyld'\n";
- }
- }
- }
- for (const LoadedMachO& dylib : couldNotLoadFiles) {
- if (dylib.inputFile->mustBeIncluded()) {
- if (dylib.inputFile->diag.hasError()) {
- if (!errorString.empty())
- errorString += "ERROR: ";
- errorString += "Required binary was not included in the shared cache '" + std::string(dylib.inputFile->path) + "' because: " + dylib.inputFile->diag.errorMessage() + "\n";
- } else {
- if (!errorString.empty())
- errorString += "ERROR: ";
- errorString += "Required binary was not included in the shared cache '" + std::string(dylib.inputFile->path) + "' because: 'unknown error. Please report to dyld'\n";
-
- }
- }
- }
- if (!errorString.empty()) {
- _diagnostics.error("%s", errorString.c_str());
- }
- }
-
- if (!_diagnostics.hasError())
- build(dylibsToCache, otherDylibs, executables, aliases);
-
- if (!_diagnostics.hasError()) {
- // If we succeeded in building, then now see if there was a missing required file, and if so why its missing.
- std::string errorString;
- for (CacheBuilder::InputFile& inputFile : inputFiles) {
- if (inputFile.mustBeIncluded() && inputFile.diag.hasError()) {
- // An error loading a required file must be propagated up to the top level diagnostic handler.
- std::string message = inputFile.diag.errorMessage();
- if (message.back() == '\n')
- message.pop_back();
- errorString += "Required binary was not included in the shared cache '" + std::string(inputFile.path) + "' because: " + message + "\n";
- }
- }
- if (!errorString.empty()) {
- _diagnostics.error("%s", errorString.c_str());
- }
- }
-
- // Add all the warnings from the input files to the top level warnings on the main diagnostics object.
- for (CacheBuilder::InputFile& inputFile : inputFiles) {
- for (const std::string& warning : inputFile.diag.warnings())
- _diagnostics.warning("%s", warning.c_str());
- }
-
- // Clean up the loaded files
- for (LoadedMachO& loadedMachO : dylibsToCache)
- _fileSystem.unloadFile(loadedMachO.loadedFileInfo);
- for (LoadedMachO& loadedMachO : otherDylibs)
- _fileSystem.unloadFile(loadedMachO.loadedFileInfo);
- for (LoadedMachO& loadedMachO : executables)
- _fileSystem.unloadFile(loadedMachO.loadedFileInfo);
-}
-
-void CacheBuilder::build(const std::vector<DyldSharedCache::MappedMachO>& dylibs,
+ return (_vmSize > _archLayout->sharedMemorySize);
+ }
+}
+
+bool CacheBuilder::build(const std::vector<DyldSharedCache::MappedMachO>& dylibs,
const std::vector<DyldSharedCache::MappedMachO>& otherOsDylibsInput,
- const std::vector<DyldSharedCache::MappedMachO>& osExecutables,
- std::vector<DyldSharedCache::FileAlias>& aliases) {
-
- std::vector<LoadedMachO> dylibsToCache;
- std::vector<LoadedMachO> otherDylibs;
- std::vector<LoadedMachO> executables;
-
- for (const DyldSharedCache::MappedMachO& mappedMachO : dylibs) {
- dyld3::closure::LoadedFileInfo loadedFileInfo;
- loadedFileInfo.fileContent = mappedMachO.mh;
- loadedFileInfo.fileContentLen = mappedMachO.length;
- loadedFileInfo.sliceOffset = mappedMachO.sliceFileOffset;
- loadedFileInfo.sliceLen = mappedMachO.length;
- loadedFileInfo.inode = mappedMachO.inode;
- loadedFileInfo.mtime = mappedMachO.modTime;
- loadedFileInfo.path = mappedMachO.runtimePath.c_str();
- dylibsToCache.emplace_back((LoadedMachO){ mappedMachO, loadedFileInfo, nullptr });
- }
-
- for (const DyldSharedCache::MappedMachO& mappedMachO : otherOsDylibsInput) {
- dyld3::closure::LoadedFileInfo loadedFileInfo;
- loadedFileInfo.fileContent = mappedMachO.mh;
- loadedFileInfo.fileContentLen = mappedMachO.length;
- loadedFileInfo.sliceOffset = mappedMachO.sliceFileOffset;
- loadedFileInfo.sliceLen = mappedMachO.length;
- loadedFileInfo.inode = mappedMachO.inode;
- loadedFileInfo.mtime = mappedMachO.modTime;
- loadedFileInfo.path = mappedMachO.runtimePath.c_str();
- otherDylibs.emplace_back((LoadedMachO){ mappedMachO, loadedFileInfo, nullptr });
- }
-
- for (const DyldSharedCache::MappedMachO& mappedMachO : osExecutables) {
- dyld3::closure::LoadedFileInfo loadedFileInfo;
- loadedFileInfo.fileContent = mappedMachO.mh;
- loadedFileInfo.fileContentLen = mappedMachO.length;
- loadedFileInfo.sliceOffset = mappedMachO.sliceFileOffset;
- loadedFileInfo.sliceLen = mappedMachO.length;
- loadedFileInfo.inode = mappedMachO.inode;
- loadedFileInfo.mtime = mappedMachO.modTime;
- loadedFileInfo.path = mappedMachO.runtimePath.c_str();
- executables.emplace_back((LoadedMachO){ mappedMachO, loadedFileInfo, nullptr });
- }
-
- build(dylibsToCache, otherDylibs, executables, aliases);
-}
-
-void CacheBuilder::build(const std::vector<LoadedMachO>& dylibs,
- const std::vector<LoadedMachO>& otherOsDylibsInput,
- const std::vector<LoadedMachO>& osExecutables,
- std::vector<DyldSharedCache::FileAlias>& aliases)
+ const std::vector<DyldSharedCache::MappedMachO>& osExecutables)
{
// <rdar://problem/21317611> error out instead of crash if cache has no dylibs
// FIXME: plist should specify required vs optional dylibs
if ( dylibs.size() < 30 ) {
_diagnostics.error("missing required minimum set of dylibs");
- return;
+ return false;
}
uint64_t t1 = mach_absolute_time();
+
// make copy of dylib list and sort
- makeSortedDylibs(dylibs, _options.dylibOrdering);
-
- // allocate space used by largest possible cache plus room for LINKEDITS before optimization
- _allocatedBufferSize = _archLayout->sharedMemorySize * 1.50;
- if ( vm_allocate(mach_task_self(), &_fullAllocatedBuffer, _allocatedBufferSize, VM_FLAGS_ANYWHERE) != 0 ) {
+ std::vector<DyldSharedCache::MappedMachO> sortedDylibs = makeSortedDylibs(dylibs, _options.dylibOrdering);
+ std::vector<DyldSharedCache::MappedMachO> otherOsDylibs = otherOsDylibsInput;
+
+ // assign addresses for each segment of each dylib in new cache
+ dyld_cache_mapping_info regions[3];
+ SegmentMapping segmentMapping = assignSegmentAddresses(sortedDylibs, regions);
+ if ( cacheOverflow(regions) ) {
+ if ( !_options.evictLeafDylibsOnOverflow ) {
+ _diagnostics.error("cache overflow: %lluMB (max %lluMB)", _vmSize / 1024 / 1024, (_archLayout->sharedMemorySize) / 1024 / 1024);
+ return false;
+ }
+ // find all leaf (not referenced by anything else in cache) dylibs
+
+ // build count of how many references there are to each dylib
+ __block std::map<std::string, unsigned int> referenceCount;
+ for (const DyldSharedCache::MappedMachO& dylib : sortedDylibs) {
+ dyld3::MachOParser parser(dylib.mh);
+ parser.forEachDependentDylib(^(const char* loadPath, bool isWeak, bool isReExport, bool isUpward, uint32_t compatVersion, uint32_t curVersion, bool &stop) {
+ referenceCount[loadPath] += 1;
+ });
+ }
+
+ // find all dylibs not referenced
+ std::vector<DylibAndSize> unreferencedDylibs;
+ for (const DyldSharedCache::MappedMachO& dylib : sortedDylibs) {
+ dyld3::MachOParser parser(dylib.mh);
+ const char* installName = parser.installName();
+ if ( referenceCount.count(installName) == 0 ) {
+ // conservative: sum up all segments except LINKEDIT
+ __block uint64_t segsSize = 0;
+ parser.forEachSegment(^(const char* segName, uint32_t fileOffset, uint32_t fileSize, uint64_t vmAddr, uint64_t vmSize, uint8_t protections, bool &stop) {
+ if ( strcmp(segName, "__LINKEDIT") != 0 )
+ segsSize += vmSize;
+ });
+ unreferencedDylibs.push_back({installName, segsSize});
+ }
+ }
+ // sort leaf dylibs by size
+ std::sort(unreferencedDylibs.begin(), unreferencedDylibs.end(), [&](const DylibAndSize& a, const DylibAndSize& b) {
+ return ( a.size > b.size );
+ });
+
+ // build set of dylibs that if removed will allow cache to build
+ uint64_t reductionTarget = _vmSize - _archLayout->sharedMemorySize;
+ std::set<std::string> toRemove;
+ for (DylibAndSize& dylib : unreferencedDylibs) {
+ if ( _options.verbose )
+ _diagnostics.warning("to prevent cache overflow, not caching %s", dylib.installName);
+ toRemove.insert(dylib.installName);
+ if ( dylib.size > reductionTarget )
+ break;
+ reductionTarget -= dylib.size;
+ }
+ // transfer overflow dylibs from cached vector to other vector
+ for (const std::string& installName : toRemove) {
+ for (std::vector<DyldSharedCache::MappedMachO>::iterator it=sortedDylibs.begin(); it != sortedDylibs.end(); ++it) {
+ dyld3::MachOParser parser(it->mh);
+ if ( installName == parser.installName() ) {
+ otherOsDylibs.push_back(*it);
+ sortedDylibs.erase(it);
+ break;
+ }
+ }
+ }
+ // re-layout cache
+ segmentMapping = assignSegmentAddresses(sortedDylibs, regions);
+ if ( cacheOverflow(regions) ) {
+ _diagnostics.error("cache overflow, tried evicting %ld leaf daylibs, but still too big: %lluMB (max %lluMB)",
+ toRemove.size(), _vmSize / 1024 / 1024, (_archLayout->sharedMemorySize) / 1024 / 1024);
+ return false;
+ }
+ }
+
+ // allocate buffer for new cache
+ _allocatedBufferSize = std::max(_currentFileSize, (uint64_t)0x100000)*1.1; // add 10% to allocation to support large closures
+ if ( vm_allocate(mach_task_self(), (vm_address_t*)&_buffer, _allocatedBufferSize, VM_FLAGS_ANYWHERE) != 0 ) {
_diagnostics.error("could not allocate buffer");
- return;
- }
-
- // assign addresses for each segment of each dylib in new cache
- assignSegmentAddresses();
- std::vector<const LoadedMachO*> overflowDylibs;
- while ( cacheOverflowAmount() != 0 ) {
- if ( !_options.evictLeafDylibsOnOverflow ) {
- _diagnostics.error("cache overflow by %lluMB", cacheOverflowAmount() / 1024 / 1024);
- return;
- }
- size_t evictionCount = evictLeafDylibs(cacheOverflowAmount(), overflowDylibs);
- // re-layout cache
- for (DylibInfo& dylib : _sortedDylibs)
- dylib.cacheLocation.clear();
- assignSegmentAddresses();
-
- _diagnostics.verbose("cache overflow, evicted %lu leaf dylibs\n", evictionCount);
- }
- markPaddingInaccessible();
-
- // copy all segments into cache
- uint64_t t2 = mach_absolute_time();
- writeCacheHeader();
- copyRawSegments();
-
- // rebase all dylibs for new location in cache
- uint64_t t3 = mach_absolute_time();
- _aslrTracker.setDataRegion(_readWriteRegion.buffer, _readWriteRegion.sizeInUse);
- adjustAllImagesForNewSegmentLocations();
+ return false;
+ }
+ _currentFileSize = _allocatedBufferSize;
+
+ // write unoptimized cache
+ writeCacheHeader(regions, sortedDylibs, segmentMapping);
+ copyRawSegments(sortedDylibs, segmentMapping);
+ adjustAllImagesForNewSegmentLocations(sortedDylibs, segmentMapping);
if ( _diagnostics.hasError() )
- return;
-
- // build ImageArray for dyld3, which has side effect of binding all cached dylibs
- uint64_t t4 = mach_absolute_time();
- buildImageArray(aliases);
+ return false;
+
+ bindAllImagesInCacheFile(regions);
if ( _diagnostics.hasError() )
- return;
+ return false;
// optimize ObjC
- uint64_t t5 = mach_absolute_time();
- DyldSharedCache* dyldCache = (DyldSharedCache*)_readExecuteRegion.buffer;
if ( _options.optimizeObjC )
- optimizeObjC();
+ optimizeObjC(_buffer, _archLayout->is64, _options.optimizeStubs, _pointersForASLR, _diagnostics);
if ( _diagnostics.hasError() )
- return;
-
+ return false;
// optimize away stubs
- uint64_t t6 = mach_absolute_time();
std::vector<uint64_t> branchPoolOffsets;
uint64_t cacheStartAddress = _archLayout->sharedMemoryStart;
if ( _options.optimizeStubs ) {
std::vector<uint64_t> branchPoolStartAddrs;
- const uint64_t* p = (uint64_t*)((uint8_t*)dyldCache + dyldCache->header.branchPoolsOffset);
- for (uint32_t i=0; i < dyldCache->header.branchPoolsCount; ++i) {
+ const uint64_t* p = (uint64_t*)((uint8_t*)_buffer + _buffer->header.branchPoolsOffset);
+ for (int i=0; i < _buffer->header.branchPoolsCount; ++i) {
uint64_t poolAddr = p[i];
branchPoolStartAddrs.push_back(poolAddr);
branchPoolOffsets.push_back(poolAddr - cacheStartAddress);
}
- optimizeAwayStubs(branchPoolStartAddrs, _branchPoolsLinkEditStartAddr);
- }
-
-
- // FIPS seal corecrypto, This must be done after stub elimination (so that __TEXT,__text is not changed after sealing)
+ bypassStubs(_buffer, branchPoolStartAddrs, _s_neverStubEliminate, _diagnostics);
+ }
+ uint64_t t2 = mach_absolute_time();
+
+ // FIPS seal corecrypto, This must be done after stub elimination (so that
+ // __TEXT,__text is not changed after sealing), but before LINKEDIT
+ // optimization (so that we still have access to local symbols)
fipsSign();
// merge and compact LINKEDIT segments
- uint64_t t7 = mach_absolute_time();
- optimizeLinkedit(branchPoolOffsets);
-
- // copy ImageArray to end of read-only region
- addImageArray();
+ dyld_cache_local_symbols_info* localsInfo = nullptr;
+ if ( dylibs.size() == 0 )
+ _currentFileSize = 0x1000;
+ else
+ _currentFileSize = optimizeLinkedit(_buffer, _archLayout->is64, _options.excludeLocalSymbols, _options.optimizeStubs, branchPoolOffsets, _diagnostics, &localsInfo);
+
+ uint64_t t3 = mach_absolute_time();
+
+ // add ImageGroup for all dylibs in cache
+ __block std::vector<DyldSharedCache::MappedMachO> cachedDylibs;
+ std::unordered_map<std::string, const DyldSharedCache::MappedMachO*> mapIntoSortedDylibs;
+ for (const DyldSharedCache::MappedMachO& entry : sortedDylibs) {
+ mapIntoSortedDylibs[entry.runtimePath] = &entry;
+ }
+ _buffer->forEachImage(^(const mach_header* mh, const char* installName) {
+ auto pos = mapIntoSortedDylibs.find(installName);
+ if ( pos != mapIntoSortedDylibs.end() ) {
+ DyldSharedCache::MappedMachO newEntry = *(pos->second);
+ newEntry.mh = mh;
+ cachedDylibs.push_back(newEntry);
+ }
+ else {
+ bool found = false;
+ for (const std::string& prefix : _options.pathPrefixes) {
+ std::string fullPath = prefix + installName;
+ char resolvedPath[PATH_MAX];
+ if ( realpath(fullPath.c_str(), resolvedPath) != nullptr ) {
+ std::string resolvedUnPrefixed = &resolvedPath[prefix.size()];
+ pos = mapIntoSortedDylibs.find(resolvedUnPrefixed);
+ if ( pos != mapIntoSortedDylibs.end() ) {
+ DyldSharedCache::MappedMachO newEntry = *(pos->second);
+ newEntry.mh = mh;
+ cachedDylibs.push_back(newEntry);
+ found = true;
+ }
+ }
+ }
+ if ( !found )
+ fprintf(stderr, "missing mapping for %s\n", installName);
+ }
+ });
+ dyld3::DyldCacheParser dyldCacheParser(_buffer, true);
+ dyld3::ImageProxyGroup* dylibGroup = dyld3::ImageProxyGroup::makeDyldCacheDylibsGroup(_diagnostics, dyldCacheParser, cachedDylibs,
+ _options.pathPrefixes, _patchTable,
+ _options.optimizeStubs, !_options.dylibsRemovedDuringMastering);
if ( _diagnostics.hasError() )
- return;
-
- // compute and add dlopen closures for all other dylibs
- addOtherImageArray(otherOsDylibsInput, overflowDylibs);
+ return false;
+ addCachedDylibsImageGroup(dylibGroup);
if ( _diagnostics.hasError() )
- return;
-
- // compute and add launch closures to end of read-only region
- uint64_t t8 = mach_absolute_time();
- addClosures(osExecutables);
+ return false;
+
+ uint64_t t4 = mach_absolute_time();
+
+ // add ImageGroup for other OS dylibs and bundles
+ dyld3::ImageProxyGroup* otherGroup = dyld3::ImageProxyGroup::makeOtherOsGroup(_diagnostics, dyldCacheParser, dylibGroup, otherOsDylibs,
+ _options.inodesAreSameAsRuntime, _options.pathPrefixes);
if ( _diagnostics.hasError() )
- return;
-
- // update final readOnly region size
- dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)(_readExecuteRegion.buffer + dyldCache->header.mappingOffset);
- mappings[2].size = _readOnlyRegion.sizeInUse;
- if ( _options.excludeLocalSymbols )
- dyldCache->header.localSymbolsOffset = _readOnlyRegion.cacheFileOffset + _readOnlyRegion.sizeInUse;
-
- // record max slide now that final size is established
- if ( _archLayout->sharedRegionsAreDiscontiguous ) {
- // special case x86_64 which has three non-contiguous chunks each in their own 1GB regions
- uint64_t maxSlide0 = 0x60000000 - _readExecuteRegion.sizeInUse; // TEXT region has 1.5GB region
- uint64_t maxSlide1 = 0x40000000 - _readWriteRegion.sizeInUse;
- uint64_t maxSlide2 = 0x3FE00000 - _readOnlyRegion.sizeInUse;
- dyldCache->header.maxSlide = std::min(std::min(maxSlide0, maxSlide1), maxSlide2);
- }
- else {
- dyldCache->header.maxSlide = (_archLayout->sharedMemoryStart + _archLayout->sharedMemorySize) - (_readOnlyRegion.unslidLoadAddress + _readOnlyRegion.sizeInUse);
- }
-
- uint64_t t9 = mach_absolute_time();
-
+ return false;
+ addCachedOtherDylibsImageGroup(otherGroup);
+ if ( _diagnostics.hasError() )
+ return false;
+
+ uint64_t t5 = mach_absolute_time();
+
+ // compute and add launch closures
+ std::map<std::string, const dyld3::launch_cache::binary_format::Closure*> closures;
+ for (const DyldSharedCache::MappedMachO& mainProg : osExecutables) {
+ Diagnostics clsDiag;
+ const dyld3::launch_cache::binary_format::Closure* cls = dyld3::ImageProxyGroup::makeClosure(clsDiag, dyldCacheParser, dylibGroup, otherGroup, mainProg,
+ _options.inodesAreSameAsRuntime, _options.pathPrefixes);
+ if ( clsDiag.hasError() ) {
+ // if closure cannot be built, silently skip it, unless in verbose mode
+ if ( _options.verbose ) {
+ _diagnostics.warning("building closure for '%s': %s", mainProg.runtimePath.c_str(), clsDiag.errorMessage().c_str());
+ for (const std::string& warn : clsDiag.warnings() )
+ _diagnostics.warning("%s", warn.c_str());
+ }
+ }
+ else {
+ closures[mainProg.runtimePath] = cls;
+ }
+ }
+ addClosures(closures);
+ if ( _diagnostics.hasError() )
+ return false;
+
+ uint64_t t6 = mach_absolute_time();
+
// fill in slide info at start of region[2]
// do this last because it modifies pointers in DATA segments
if ( _options.cacheSupportsASLR ) {
-#if SUPPORT_ARCH_arm64e
- if ( strcmp(_archLayout->archName, "arm64e") == 0 )
- writeSlideInfoV3(_aslrTracker.bitmap(), _aslrTracker.dataPageCount());
+ if ( _archLayout->is64 )
+ writeSlideInfoV2<Pointer64<LittleEndian>>();
else
-#endif
- if ( _archLayout->is64 )
- writeSlideInfoV2<Pointer64<LittleEndian>>(_aslrTracker.bitmap(), _aslrTracker.dataPageCount());
- else
-#if SUPPORT_ARCH_arm64_32
- if ( strcmp(_archLayout->archName, "arm64_32") == 0 )
- writeSlideInfoV4<Pointer32<LittleEndian>>(_aslrTracker.bitmap(), _aslrTracker.dataPageCount());
- else
-#endif
- writeSlideInfoV2<Pointer32<LittleEndian>>(_aslrTracker.bitmap(), _aslrTracker.dataPageCount());
- }
-
- uint64_t t10 = mach_absolute_time();
+ writeSlideInfoV2<Pointer32<LittleEndian>>();
+ }
+
+ uint64_t t7 = mach_absolute_time();
+
+ // update last region size
+ dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)((char*)_buffer + _buffer->header.mappingOffset);
+ _currentFileSize = align(_currentFileSize, _archLayout->sharedRegionAlignP2);
+ mappings[2].size = _currentFileSize - mappings[2].fileOffset;
+
+ // record cache bounds
+ _buffer->header.sharedRegionStart = _archLayout->sharedMemoryStart;
+ _buffer->header.sharedRegionSize = _archLayout->sharedMemorySize;
+ if ( _archLayout->sharedRegionsAreDiscontiguous ) {
+ // special case x86_64 which has three non-contiguous chunks each in their own 1GB regions
+ uint64_t maxSlide0 = 0x60000000 - mappings[0].size; // TEXT region has 1.5GB region
+ uint64_t maxSlide1 = 0x40000000 - mappings[1].size;
+ uint64_t maxSlide2 = 0x3FE00000 - mappings[2].size;
+ _buffer->header.maxSlide = std::min(std::min(maxSlide0, maxSlide1), maxSlide2);
+ }
+ else {
+ _buffer->header.maxSlide = (_archLayout->sharedMemoryStart + _archLayout->sharedMemorySize) - (mappings[2].address + mappings[2].size);
+ }
+
+ // append "unmapped" local symbols region
+ if ( _options.excludeLocalSymbols ) {
+ size_t localsInfoSize = align(localsInfo->stringsOffset + localsInfo->stringsSize, _archLayout->sharedRegionAlignP2);
+ if ( _currentFileSize + localsInfoSize > _allocatedBufferSize ) {
+ _diagnostics.warning("local symbols omitted because cache buffer overflow");
+ }
+ else {
+ memcpy((char*)_buffer+_currentFileSize, localsInfo, localsInfoSize);
+ _buffer->header.localSymbolsOffset = _currentFileSize;
+ _buffer->header.localSymbolsSize = localsInfoSize;
+ _currentFileSize += localsInfoSize;
+ }
+ free((void*)localsInfo);
+ }
+
+ recomputeCacheUUID();
+
+ // Calculate the VMSize of the resulting cache
+ __block uint64_t endAddr = 0;
+ _buffer->forEachRegion(^(const void* content, uint64_t vmAddr, uint64_t size, uint32_t permissions) {
+ if (vmAddr+size > endAddr)
+ endAddr = vmAddr+size;
+ });
+ _vmSize = endAddr - cacheStartAddress;
// last sanity check on size
- if ( cacheOverflowAmount() != 0 ) {
- _diagnostics.error("cache overflow after optimizations 0x%llX -> 0x%llX", _readExecuteRegion.unslidLoadAddress, _readOnlyRegion.unslidLoadAddress + _readOnlyRegion.sizeInUse);
- return;
+ if ( _vmSize > _archLayout->sharedMemorySize ) {
+ _diagnostics.error("cache overflow after optimizations. %lluMB (max %lluMB)", _vmSize / 1024 / 1024, (_archLayout->sharedMemorySize) / 1024 / 1024);
+ return true;
}
// codesignature is part of file, but is not mapped
codeSign();
if ( _diagnostics.hasError() )
- return;
-
- uint64_t t11 = mach_absolute_time();
+ return false;
+
+ uint64_t t8 = mach_absolute_time();
if ( _options.verbose ) {
- fprintf(stderr, "time to layout cache: %ums\n", absolutetime_to_milliseconds(t2-t1));
- fprintf(stderr, "time to copy cached dylibs into buffer: %ums\n", absolutetime_to_milliseconds(t3-t2));
- fprintf(stderr, "time to adjust segments for new split locations: %ums\n", absolutetime_to_milliseconds(t4-t3));
- fprintf(stderr, "time to bind all images: %ums\n", absolutetime_to_milliseconds(t5-t4));
- fprintf(stderr, "time to optimize Objective-C: %ums\n", absolutetime_to_milliseconds(t6-t5));
- fprintf(stderr, "time to do stub elimination: %ums\n", absolutetime_to_milliseconds(t7-t6));
- fprintf(stderr, "time to optimize LINKEDITs: %ums\n", absolutetime_to_milliseconds(t8-t7));
- fprintf(stderr, "time to build %lu closures: %ums\n", osExecutables.size(), absolutetime_to_milliseconds(t9-t8));
- fprintf(stderr, "time to compute slide info: %ums\n", absolutetime_to_milliseconds(t10-t9));
- fprintf(stderr, "time to compute UUID and codesign cache file: %ums\n", absolutetime_to_milliseconds(t11-t10));
- }
-
- return;
-}
-
-
-void CacheBuilder::writeCacheHeader()
+ fprintf(stderr, "time to copy and bind cached dylibs: %ums\n", absolutetime_to_milliseconds(t2-t1));
+ fprintf(stderr, "time to optimize LINKEDITs: %ums\n", absolutetime_to_milliseconds(t3-t2));
+ fprintf(stderr, "time to build ImageGroup of %lu cached dylibs: %ums\n", sortedDylibs.size(), absolutetime_to_milliseconds(t4-t3));
+ fprintf(stderr, "time to build ImageGroup of %lu other dylibs: %ums\n", otherOsDylibs.size(), absolutetime_to_milliseconds(t5-t4));
+ fprintf(stderr, "time to build %lu closures: %ums\n", osExecutables.size(), absolutetime_to_milliseconds(t6-t5));
+ fprintf(stderr, "time to compute slide info: %ums\n", absolutetime_to_milliseconds(t7-t6));
+ fprintf(stderr, "time to compute UUID and codesign cache file: %ums\n", absolutetime_to_milliseconds(t8-t7));
+ }
+
+ // trim over allocated buffer
+ if ( _allocatedBufferSize > _currentFileSize ) {
+ uint8_t* startOfUnused = (uint8_t*)_buffer+_currentFileSize;
+ size_t unusedLen = _allocatedBufferSize-_currentFileSize;
+ vm_deallocate(mach_task_self(), (vm_address_t)startOfUnused, unusedLen);
+ _allocatedBufferSize = _currentFileSize;
+ }
+
+ return false;
+}
+
+
+void CacheBuilder::writeCacheHeader(const dyld_cache_mapping_info regions[3], const std::vector<DyldSharedCache::MappedMachO>& dylibs, const SegmentMapping& segmentMappings)
{
// "dyld_v1" + spaces + archName(), with enough spaces to pad to 15 bytes
std::string magic = "dyld_v1";
@@ -926,83 +496,60 @@
assert(magic.length() == 15);
// fill in header
- dyld_cache_header* dyldCacheHeader = (dyld_cache_header*)_readExecuteRegion.buffer;
- memcpy(dyldCacheHeader->magic, magic.c_str(), 16);
- dyldCacheHeader->mappingOffset = sizeof(dyld_cache_header);
- dyldCacheHeader->mappingCount = 3;
- dyldCacheHeader->imagesOffset = (uint32_t)(dyldCacheHeader->mappingOffset + 3*sizeof(dyld_cache_mapping_info) + sizeof(uint64_t)*_branchPoolStarts.size());
- dyldCacheHeader->imagesCount = (uint32_t)_sortedDylibs.size() + _aliasCount;
- dyldCacheHeader->dyldBaseAddress = 0;
- dyldCacheHeader->codeSignatureOffset = 0;
- dyldCacheHeader->codeSignatureSize = 0;
- dyldCacheHeader->slideInfoOffset = _slideInfoFileOffset;
- dyldCacheHeader->slideInfoSize = _slideInfoBufferSizeAllocated;
- dyldCacheHeader->localSymbolsOffset = 0;
- dyldCacheHeader->localSymbolsSize = 0;
- dyldCacheHeader->cacheType = _options.optimizeStubs ? kDyldSharedCacheTypeProduction : kDyldSharedCacheTypeDevelopment;
- dyldCacheHeader->accelerateInfoAddr = 0;
- dyldCacheHeader->accelerateInfoSize = 0;
- bzero(dyldCacheHeader->uuid, 16);// overwritten later by recomputeCacheUUID()
- dyldCacheHeader->branchPoolsOffset = dyldCacheHeader->mappingOffset + 3*sizeof(dyld_cache_mapping_info);
- dyldCacheHeader->branchPoolsCount = (uint32_t)_branchPoolStarts.size();
- dyldCacheHeader->imagesTextOffset = dyldCacheHeader->imagesOffset + sizeof(dyld_cache_image_info)*dyldCacheHeader->imagesCount;
- dyldCacheHeader->imagesTextCount = _sortedDylibs.size();
- dyldCacheHeader->dylibsImageGroupAddr = 0;
- dyldCacheHeader->dylibsImageGroupSize = 0;
- dyldCacheHeader->otherImageGroupAddr = 0;
- dyldCacheHeader->otherImageGroupSize = 0;
- dyldCacheHeader->progClosuresAddr = 0;
- dyldCacheHeader->progClosuresSize = 0;
- dyldCacheHeader->progClosuresTrieAddr = 0;
- dyldCacheHeader->progClosuresTrieSize = 0;
- dyldCacheHeader->platform = (uint8_t)_options.platform;
- dyldCacheHeader->formatVersion = dyld3::closure::kFormatVersion;
- dyldCacheHeader->dylibsExpectedOnDisk = !_options.dylibsRemovedDuringMastering;
- dyldCacheHeader->simulator = _options.forSimulator;
- dyldCacheHeader->locallyBuiltCache = _options.isLocallyBuiltCache;
- dyldCacheHeader->formatVersion = dyld3::closure::kFormatVersion;
- dyldCacheHeader->sharedRegionStart = _archLayout->sharedMemoryStart;
- dyldCacheHeader->sharedRegionSize = _archLayout->sharedMemorySize;
-
- // fill in mappings
- dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)(_readExecuteRegion.buffer + dyldCacheHeader->mappingOffset);
- mappings[0].address = _readExecuteRegion.unslidLoadAddress;
- mappings[0].fileOffset = 0;
- mappings[0].size = _readExecuteRegion.sizeInUse;
- mappings[0].maxProt = VM_PROT_READ | VM_PROT_EXECUTE;
- mappings[0].initProt = VM_PROT_READ | VM_PROT_EXECUTE;
- mappings[1].address = _readWriteRegion.unslidLoadAddress;
- mappings[1].fileOffset = _readExecuteRegion.sizeInUse;
- mappings[1].size = _readWriteRegion.sizeInUse;
- mappings[1].maxProt = VM_PROT_READ | VM_PROT_WRITE;
- mappings[1].initProt = VM_PROT_READ | VM_PROT_WRITE;
- mappings[2].address = _readOnlyRegion.unslidLoadAddress;
- mappings[2].fileOffset = _readExecuteRegion.sizeInUse + _readWriteRegion.sizeInUse;
- mappings[2].size = _readOnlyRegion.sizeInUse;
- mappings[2].maxProt = VM_PROT_READ;
- mappings[2].initProt = VM_PROT_READ;
+ memcpy(_buffer->header.magic, magic.c_str(), 16);
+ _buffer->header.mappingOffset = sizeof(dyld_cache_header);
+ _buffer->header.mappingCount = 3;
+ _buffer->header.imagesOffset = (uint32_t)(_buffer->header.mappingOffset + 3*sizeof(dyld_cache_mapping_info) + sizeof(uint64_t)*_branchPoolStarts.size());
+ _buffer->header.imagesCount = (uint32_t)dylibs.size() + _aliasCount;
+ _buffer->header.dyldBaseAddress = 0;
+ _buffer->header.codeSignatureOffset= 0;
+ _buffer->header.codeSignatureSize = 0;
+ _buffer->header.slideInfoOffset = _slideInfoFileOffset;
+ _buffer->header.slideInfoSize = _slideInfoBufferSizeAllocated;
+ _buffer->header.localSymbolsOffset = 0;
+ _buffer->header.localSymbolsSize = 0;
+ _buffer->header.cacheType = _options.optimizeStubs ? kDyldSharedCacheTypeProduction : kDyldSharedCacheTypeDevelopment;
+ _buffer->header.accelerateInfoAddr = 0;
+ _buffer->header.accelerateInfoSize = 0;
+ bzero(_buffer->header.uuid, 16); // overwritten later by recomputeCacheUUID()
+ _buffer->header.branchPoolsOffset = _buffer->header.mappingOffset + 3*sizeof(dyld_cache_mapping_info);
+ _buffer->header.branchPoolsCount = (uint32_t)_branchPoolStarts.size();
+ _buffer->header.imagesTextOffset = _buffer->header.imagesOffset + sizeof(dyld_cache_image_info)*_buffer->header.imagesCount;
+ _buffer->header.imagesTextCount = dylibs.size();
+ _buffer->header.platform = (uint8_t)_options.platform;
+ _buffer->header.formatVersion = dyld3::launch_cache::binary_format::kFormatVersion;
+ _buffer->header.dylibsExpectedOnDisk = !_options.dylibsRemovedDuringMastering;
+ _buffer->header.simulator = _options.forSimulator;
+
+ // fill in mappings
+ dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)((char*)_buffer + _buffer->header.mappingOffset);
+ mappings[0] = regions[0];
+ mappings[1] = regions[1];
+ mappings[2] = regions[2];
// fill in branch pool addresses
- uint64_t* p = (uint64_t*)(_readExecuteRegion.buffer + dyldCacheHeader->branchPoolsOffset);
+ uint64_t* p = (uint64_t*)((char*)_buffer + _buffer->header.branchPoolsOffset);
for (uint64_t pool : _branchPoolStarts) {
*p++ = pool;
}
// fill in image table
- dyld_cache_image_info* images = (dyld_cache_image_info*)(_readExecuteRegion.buffer + dyldCacheHeader->imagesOffset);
- for (const DylibInfo& dylib : _sortedDylibs) {
- const char* installName = dylib.input->mappedFile.mh->installName();
- images->address = dylib.cacheLocation[0].dstCacheUnslidAddress;
+ dyld_cache_image_info* images = (dyld_cache_image_info*)((char*)_buffer + _buffer->header.imagesOffset);
+ for (const DyldSharedCache::MappedMachO& dylib : dylibs) {
+ const std::vector<SegmentMappingInfo>& segs = segmentMappings.at(dylib.mh);
+ dyld3::MachOParser parser(dylib.mh);
+ const char* installName = parser.installName();
+ images->address = segs[0].dstCacheAddress;
if ( _options.dylibsRemovedDuringMastering ) {
images->modTime = 0;
images->inode = pathHash(installName);
}
else {
- images->modTime = dylib.input->mappedFile.modTime;
- images->inode = dylib.input->mappedFile.inode;
- }
- uint32_t installNameOffsetInTEXT = (uint32_t)(installName - (char*)dylib.input->mappedFile.mh);
- images->pathFileOffset = (uint32_t)dylib.cacheLocation[0].dstCacheFileOffset + installNameOffsetInTEXT;
+ images->modTime = dylib.modTime;
+ images->inode = dylib.inode;
+ }
+ uint32_t installNameOffsetInTEXT = (uint32_t)(installName - (char*)dylib.mh);
+ images->pathFileOffset = (uint32_t)segs[0].dstCacheOffset + installNameOffsetInTEXT;
++images;
}
// append aliases image records and strings
@@ -1029,337 +576,488 @@
}
*/
// calculate start of text image array and trailing string pool
- dyld_cache_image_text_info* textImages = (dyld_cache_image_text_info*)(_readExecuteRegion.buffer + dyldCacheHeader->imagesTextOffset);
- uint32_t stringOffset = (uint32_t)(dyldCacheHeader->imagesTextOffset + sizeof(dyld_cache_image_text_info) * _sortedDylibs.size());
+ dyld_cache_image_text_info* textImages = (dyld_cache_image_text_info*)((char*)_buffer + _buffer->header.imagesTextOffset);
+ uint32_t stringOffset = (uint32_t)(_buffer->header.imagesTextOffset + sizeof(dyld_cache_image_text_info) * dylibs.size());
// write text image array and image names pool at same time
- for (const DylibInfo& dylib : _sortedDylibs) {
- dylib.input->mappedFile.mh->getUuid(textImages->uuid);
- textImages->loadAddress = dylib.cacheLocation[0].dstCacheUnslidAddress;
- textImages->textSegmentSize = (uint32_t)dylib.cacheLocation[0].dstCacheSegmentSize;
+ for (const DyldSharedCache::MappedMachO& dylib : dylibs) {
+ const std::vector<SegmentMappingInfo>& segs = segmentMappings.at(dylib.mh);
+ dyld3::MachOParser parser(dylib.mh);
+ parser.getUuid(textImages->uuid);
+ textImages->loadAddress = segs[0].dstCacheAddress;
+ textImages->textSegmentSize = (uint32_t)segs[0].dstCacheSegmentSize;
textImages->pathOffset = stringOffset;
- const char* installName = dylib.input->mappedFile.mh->installName();
- ::strcpy((char*)_readExecuteRegion.buffer + stringOffset, installName);
+ const char* installName = parser.installName();
+ ::strcpy((char*)_buffer + stringOffset, installName);
stringOffset += (uint32_t)strlen(installName)+1;
++textImages;
}
// make sure header did not overflow into first mapped image
- const dyld_cache_image_info* firstImage = (dyld_cache_image_info*)(_readExecuteRegion.buffer + dyldCacheHeader->imagesOffset);
+ const dyld_cache_image_info* firstImage = (dyld_cache_image_info*)((char*)_buffer + _buffer->header.imagesOffset);
assert(stringOffset <= (firstImage->address - mappings[0].address));
}
-void CacheBuilder::copyRawSegments()
+
+void CacheBuilder::copyRawSegments(const std::vector<DyldSharedCache::MappedMachO>& dylibs, const SegmentMapping& mapping)
+{
+ uint8_t* cacheBytes = (uint8_t*)_buffer;
+ for (const DyldSharedCache::MappedMachO& dylib : dylibs) {
+ auto pos = mapping.find(dylib.mh);
+ assert(pos != mapping.end());
+ for (const SegmentMappingInfo& info : pos->second) {
+ //fprintf(stderr, "copy %s segment %s (0x%08X bytes) from %p to %p (logical addr 0x%llX) for %s\n", _options.archName.c_str(), info.segName, info.copySegmentSize, info.srcSegment, &cacheBytes[info.dstCacheOffset], info.dstCacheAddress, dylib.runtimePath.c_str());
+ ::memcpy(&cacheBytes[info.dstCacheOffset], info.srcSegment, info.copySegmentSize);
+ }
+ }
+}
+
+void CacheBuilder::adjustAllImagesForNewSegmentLocations(const std::vector<DyldSharedCache::MappedMachO>& dylibs, const SegmentMapping& mapping)
+{
+ uint8_t* cacheBytes = (uint8_t*)_buffer;
+ for (const DyldSharedCache::MappedMachO& dylib : dylibs) {
+ auto pos = mapping.find(dylib.mh);
+ assert(pos != mapping.end());
+ mach_header* mhInCache = (mach_header*)&cacheBytes[pos->second[0].dstCacheOffset];
+ adjustDylibSegments(_buffer, _archLayout->is64, mhInCache, pos->second, _pointersForASLR, _diagnostics);
+ if ( _diagnostics.hasError() )
+ break;
+ }
+}
+
+struct Counts {
+ unsigned long lazyCount = 0;
+ unsigned long nonLazyCount = 0;
+};
+
+void CacheBuilder::bindAllImagesInCacheFile(const dyld_cache_mapping_info regions[3])
{
const bool log = false;
- dispatch_apply(_sortedDylibs.size(), DISPATCH_APPLY_AUTO, ^(size_t index) {
- const DylibInfo& dylib = _sortedDylibs[index];
- for (const SegmentMappingInfo& info : dylib.cacheLocation) {
- if (log) fprintf(stderr, "copy %s segment %s (0x%08X bytes) from %p to %p (logical addr 0x%llX) for %s\n",
- _options.archName.c_str(), info.segName, info.copySegmentSize, info.srcSegment, info.dstSegment, info.dstCacheUnslidAddress, dylib.input->mappedFile.runtimePath.c_str());
- ::memcpy(info.dstSegment, info.srcSegment, info.copySegmentSize);
- if (uint64_t paddingSize = info.dstCacheSegmentSize - info.copySegmentSize) {
- ::memset((char*)info.dstSegment + info.copySegmentSize, 0, paddingSize);
- }
- }
+ __block std::unordered_map<std::string, Counts> useCounts;
+
+ // build map of install names to mach_headers
+ __block std::unordered_map<std::string, const mach_header*> installNameToMH;
+ __block std::vector<const mach_header*> dylibMHs;
+ _buffer->forEachImage(^(const mach_header* mh, const char* installName) {
+ installNameToMH[installName] = mh;
+ dylibMHs.push_back(mh);
});
-}
-
-void CacheBuilder::adjustAllImagesForNewSegmentLocations()
-{
- __block std::vector<Diagnostics> diags;
- diags.resize(_sortedDylibs.size());
-
- if (_options.platform == dyld3::Platform::macOS) {
- dispatch_apply(_sortedDylibs.size(), DISPATCH_APPLY_AUTO, ^(size_t index) {
- const DylibInfo& dylib = _sortedDylibs[index];
- adjustDylibSegments(dylib, diags[index]);
+
+ __block Diagnostics parsingDiag;
+ bool (^dylibFinder)(uint32_t, const char*, void* , const mach_header**, void**) = ^(uint32_t depIndex, const char* depLoadPath, void* extra, const mach_header** foundMH, void** foundExtra) {
+ auto pos = installNameToMH.find(depLoadPath);
+ if ( pos != installNameToMH.end() ) {
+ *foundMH = pos->second;
+ *foundExtra = nullptr;
+ return true;
+ }
+ parsingDiag.error("dependent dylib %s not found", depLoadPath);
+ return false;
+ };
+ if ( parsingDiag.hasError() ) {
+ _diagnostics.error("%s", parsingDiag.errorMessage().c_str());
+ return;
+ }
+
+ // bind every dylib in cache
+ for (const mach_header* mh : dylibMHs) {
+ dyld3::MachOParser parser(mh, true);
+ bool is64 = parser.is64();
+ const char* depPaths[256];
+ const char** depPathsArray = depPaths;
+ __block int depIndex = 1;
+ parser.forEachDependentDylib(^(const char* loadPath, bool isWeak, bool isReExport, bool isUpward, uint32_t compatVersion, uint32_t curVersion, bool& stop) {
+ depPathsArray[depIndex++] = loadPath;
});
- } else {
- // Note this has to be done in serial because the LOH Tracker isn't thread safe
- for (size_t index = 0; index != _sortedDylibs.size(); ++index) {
- const DylibInfo& dylib = _sortedDylibs[index];
- adjustDylibSegments(dylib, diags[index]);
- }
- }
-
- for (const Diagnostics& diag : diags) {
- if ( diag.hasError() ) {
- _diagnostics.error("%s", diag.errorMessage().c_str());
+ uint8_t* segCacheStarts[10];
+ uint64_t segCacheAddrs[10];
+ uint8_t** segCacheStartsArray = segCacheStarts;
+ uint64_t* segCacheAddrsArray = segCacheAddrs;
+ __block int segIndex = 0;
+ parser.forEachSegment(^(const char* segName, uint32_t fileOffset, uint32_t fileSize, uint64_t vmAddr, uint64_t vmSize, uint8_t protections, bool& stop) {
+ segCacheStartsArray[segIndex] = (segIndex == 0) ? (uint8_t*)mh : (uint8_t*)_buffer + fileOffset;
+ segCacheAddrsArray[segIndex] = vmAddr;
+ ++segIndex;
+ });
+ __block Diagnostics bindingDiag;
+ parser.forEachBind(bindingDiag, ^(uint32_t dataSegIndex, uint64_t dataSegOffset, uint8_t type, int libOrdinal, uint64_t addend, const char* symbolName, bool weakImport, bool lazy, bool& stop) {
+ if ( log ) {
+ if ( lazy )
+ useCounts[symbolName].lazyCount += 1;
+ else
+ useCounts[symbolName].nonLazyCount += 1;
+ }
+ const mach_header* targetMH = nullptr;
+ if ( libOrdinal == BIND_SPECIAL_DYLIB_SELF ) {
+ targetMH = mh;
+ }
+ else if ( libOrdinal == BIND_SPECIAL_DYLIB_MAIN_EXECUTABLE ) {
+ parsingDiag.error("bind ordinal BIND_SPECIAL_DYLIB_MAIN_EXECUTABLE not supported in dylibs in dyld shared cache (found in %s)", parser.installName());
+ stop = true;
+ return;
+ }
+ else if ( libOrdinal == BIND_SPECIAL_DYLIB_FLAT_LOOKUP ) {
+ parsingDiag.error("bind ordinal BIND_SPECIAL_DYLIB_FLAT_LOOKUP not supported in dylibs in dyld shared cache (found in %s)", parser.installName());
+ stop = true;
+ return;
+ }
+ else {
+ const char* fromPath = depPathsArray[libOrdinal];
+ auto pos = installNameToMH.find(fromPath);
+ if (pos == installNameToMH.end()) {
+ if (!weakImport) {
+ _diagnostics.error("dependent dylib %s not found", fromPath);
+ }
+ return;
+ }
+ targetMH = pos->second;
+ }
+ dyld3::MachOParser targetParser(targetMH, true);
+ dyld3::MachOParser::FoundSymbol foundInfo;
+ uint64_t targetValue = 0;
+ uint8_t* fixupLoc = segCacheStartsArray[dataSegIndex] + dataSegOffset;
+ if ( targetParser.findExportedSymbol(parsingDiag, symbolName, nullptr, foundInfo, dylibFinder) ) {
+ const mach_header* foundInMH = foundInfo.foundInDylib;
+ dyld3::MachOParser foundInParser(foundInMH, true);
+ uint64_t foundInBaseAddress = foundInParser.preferredLoadAddress();
+ switch ( foundInfo.kind ) {
+ case dyld3::MachOParser::FoundSymbol::Kind::resolverOffset:
+ // Bind to the target stub for resolver based functions.
+ // There may be a later optimization to alter the client
+ // stubs to directly to the target stub's lazy pointer.
+ case dyld3::MachOParser::FoundSymbol::Kind::headerOffset:
+ targetValue = foundInBaseAddress + foundInfo.value + addend;
+ _pointersForASLR.push_back((void*)fixupLoc);
+ if ( foundInMH != mh ) {
+ uint32_t mhVmOffset = (uint32_t)((uint8_t*)foundInMH - (uint8_t*)_buffer);
+ uint32_t definitionCacheVmOffset = (uint32_t)(mhVmOffset + foundInfo.value);
+ uint32_t referenceCacheDataVmOffset = (uint32_t)(segCacheAddrsArray[dataSegIndex] + dataSegOffset - regions[1].address);
+ assert(referenceCacheDataVmOffset < (1<<30));
+ dyld3::launch_cache::binary_format::PatchOffset entry;
+ entry.last = false;
+ entry.hasAddend = (addend != 0);
+ entry.dataRegionOffset = referenceCacheDataVmOffset;
+ _patchTable[foundInMH][definitionCacheVmOffset].insert(*((uint32_t*)&entry));
+ }
+ break;
+ case dyld3::MachOParser::FoundSymbol::Kind::absolute:
+ // pointers set to absolute values are not slid
+ targetValue = foundInfo.value + addend;
+ break;
+ }
+ }
+ else if ( weakImport ) {
+ // weak pointers set to zero are not slid
+ targetValue = 0;
+ }
+ else {
+ parsingDiag.error("cannot find symbol %s, needed in dylib %s", symbolName, parser.installName());
+ stop = true;
+ }
+ switch ( type ) {
+ case BIND_TYPE_POINTER:
+ if ( is64 )
+ *((uint64_t*)fixupLoc) = targetValue;
+ else
+ *((uint32_t*)fixupLoc) = (uint32_t)targetValue;
+ break;
+ case BIND_TYPE_TEXT_ABSOLUTE32:
+ case BIND_TYPE_TEXT_PCREL32:
+ parsingDiag.error("text relocs not supported for shared cache binding in %s", parser.installName());
+ stop = true;
+ break;
+ default:
+ parsingDiag.error("bad bind type (%d) in %s", type, parser.installName());
+ stop = true;
+ break;
+
+ }
+ });
+ if ( bindingDiag.hasError() ) {
+ parsingDiag.error("%s in dylib %s", bindingDiag.errorMessage().c_str(), parser.installName());
+ }
+ if ( parsingDiag.hasError() )
break;
- }
- }
-}
-
-void CacheBuilder::assignSegmentAddresses()
+ // also need to add patch locations for weak-binds that point within same image, since they are not captured by binds above
+ parser.forEachWeakDef(bindingDiag, ^(bool strongDef, uint32_t dataSegIndex, uint64_t dataSegOffset, uint64_t addend, const char* symbolName, bool &stop) {
+ if ( strongDef )
+ return;
+ uint8_t* fixupLoc = segCacheStartsArray[dataSegIndex] + dataSegOffset;
+ dyld3::MachOParser::FoundSymbol weakFoundInfo;
+ Diagnostics weakLookupDiag;
+ if ( parser.findExportedSymbol(weakLookupDiag, symbolName, nullptr, weakFoundInfo, nullptr) ) {
+ // this is an interior pointing (rebased) pointer
+ uint64_t targetValue;
+ if ( is64 )
+ targetValue = *((uint64_t*)fixupLoc);
+ else
+ targetValue = *((uint32_t*)fixupLoc);
+ uint32_t definitionCacheVmOffset = (uint32_t)(targetValue - regions[0].address);
+ uint32_t referenceCacheDataVmOffset = (uint32_t)(segCacheAddrsArray[dataSegIndex] + dataSegOffset - regions[1].address);
+ assert(referenceCacheDataVmOffset < (1<<30));
+ dyld3::launch_cache::binary_format::PatchOffset entry;
+ entry.last = false;
+ entry.hasAddend = (addend != 0);
+ entry.dataRegionOffset = referenceCacheDataVmOffset;
+ _patchTable[mh][definitionCacheVmOffset].insert(*((uint32_t*)&entry));
+ }
+ });
+ if ( bindingDiag.hasError() ) {
+ parsingDiag.error("%s in dylib %s", bindingDiag.errorMessage().c_str(), parser.installName());
+ }
+ if ( parsingDiag.hasError() )
+ break;
+ }
+
+ if ( log ) {
+ unsigned lazyCount = 0;
+ unsigned nonLazyCount = 0;
+ std::unordered_set<std::string> lazyTargets;
+ for (auto entry : useCounts) {
+ fprintf(stderr, "% 3ld % 3ld %s\n", entry.second.lazyCount, entry.second.nonLazyCount, entry.first.c_str());
+ lazyCount += entry.second.lazyCount;
+ nonLazyCount += entry.second.nonLazyCount;
+ if ( entry.second.lazyCount != 0 )
+ lazyTargets.insert(entry.first);
+ }
+ fprintf(stderr, "lazyCount = %d\n", lazyCount);
+ fprintf(stderr, "nonLazyCount = %d\n", nonLazyCount);
+ fprintf(stderr, "unique lazys = %ld\n", lazyTargets.size());
+ }
+
+ if ( parsingDiag.hasError() )
+ _diagnostics.error("%s", parsingDiag.errorMessage().c_str());
+}
+
+
+void CacheBuilder::recomputeCacheUUID(void)
+{
+ // Clear existing UUID, then MD5 whole cache buffer.
+ uint8_t* uuidLoc = _buffer->header.uuid;
+ bzero(uuidLoc, 16);
+ CC_MD5(_buffer, (unsigned)_currentFileSize, uuidLoc);
+ // <rdar://problem/6723729> uuids should conform to RFC 4122 UUID version 4 & UUID version 5 formats
+ uuidLoc[6] = ( uuidLoc[6] & 0x0F ) | ( 3 << 4 );
+ uuidLoc[8] = ( uuidLoc[8] & 0x3F ) | 0x80;
+}
+
+
+CacheBuilder::SegmentMapping CacheBuilder::assignSegmentAddresses(const std::vector<DyldSharedCache::MappedMachO>& dylibs, dyld_cache_mapping_info regions[3])
{
// calculate size of header info and where first dylib's mach_header should start
size_t startOffset = sizeof(dyld_cache_header) + 3*sizeof(dyld_cache_mapping_info);
size_t maxPoolCount = 0;
- if ( _archLayout->branchReach != 0 )
+ if ( _archLayout->branchReach != 0 )
maxPoolCount = (_archLayout->sharedMemorySize / _archLayout->branchReach);
startOffset += maxPoolCount * sizeof(uint64_t);
- startOffset += sizeof(dyld_cache_image_info) * _sortedDylibs.size();
- startOffset += sizeof(dyld_cache_image_text_info) * _sortedDylibs.size();
- for (const DylibInfo& dylib : _sortedDylibs) {
- startOffset += (strlen(dylib.input->mappedFile.mh->installName()) + 1);
+ startOffset += sizeof(dyld_cache_image_info) * dylibs.size();
+ startOffset += sizeof(dyld_cache_image_text_info) * dylibs.size();
+ for (const DyldSharedCache::MappedMachO& dylib : dylibs) {
+ dyld3::MachOParser parser(dylib.mh);
+ startOffset += (strlen(parser.installName()) + 1);
}
//fprintf(stderr, "%s total header size = 0x%08lX\n", _options.archName.c_str(), startOffset);
startOffset = align(startOffset, 12);
_branchPoolStarts.clear();
+ __block uint64_t addr = _archLayout->sharedMemoryStart;
+ __block SegmentMapping result;
// assign TEXT segment addresses
- _readExecuteRegion.buffer = (uint8_t*)_fullAllocatedBuffer;
- _readExecuteRegion.bufferSize = 0;
- _readExecuteRegion.sizeInUse = 0;
- _readExecuteRegion.unslidLoadAddress = _archLayout->sharedMemoryStart;
- _readExecuteRegion.cacheFileOffset = 0;
- __block uint64_t addr = _readExecuteRegion.unslidLoadAddress + startOffset; // header
+ regions[0].address = addr;
+ regions[0].fileOffset = 0;
+ regions[0].initProt = VM_PROT_READ | VM_PROT_EXECUTE;
+ regions[0].maxProt = VM_PROT_READ | VM_PROT_EXECUTE;
+ addr += startOffset; // header
+
__block uint64_t lastPoolAddress = addr;
- for (DylibInfo& dylib : _sortedDylibs) {
- __block uint64_t textSegVmAddr = 0;
- dylib.input->mappedFile.mh->forEachSegment(^(const dyld3::MachOFile::SegmentInfo& segInfo, bool& stop) {
- if ( strcmp(segInfo.segName, "__TEXT") == 0 )
- textSegVmAddr = segInfo.vmAddr;
- if ( segInfo.protections != (VM_PROT_READ | VM_PROT_EXECUTE) )
+ for (const DyldSharedCache::MappedMachO& dylib : dylibs) {
+ dyld3::MachOParser parser(dylib.mh, true);
+ parser.forEachSegment(^(const char* segName, uint32_t fileOffset, uint32_t fileSize, uint64_t vmAddr, uint64_t vmSize, uint8_t protections, uint32_t segIndex, uint64_t sizeOfSections, uint8_t p2align, bool& stop) {
+ if ( protections != (VM_PROT_READ | VM_PROT_EXECUTE) )
return;
// Insert branch island pools every 128MB for arm64
- if ( (_archLayout->branchPoolTextSize != 0) && ((addr + segInfo.vmSize - lastPoolAddress) > _archLayout->branchReach) ) {
+ if ( (_archLayout->branchPoolTextSize != 0) && ((addr + vmSize - lastPoolAddress) > _archLayout->branchReach) ) {
_branchPoolStarts.push_back(addr);
_diagnostics.verbose("adding branch pool at 0x%llX\n", addr);
lastPoolAddress = addr;
addr += _archLayout->branchPoolTextSize;
}
// Keep __TEXT segments 4K or more aligned
- addr = align(addr, std::max((int)segInfo.p2align, (int)12));
- uint64_t offsetInRegion = addr - _readExecuteRegion.unslidLoadAddress;
- SegmentMappingInfo loc;
- loc.srcSegment = (uint8_t*)dylib.input->mappedFile.mh + segInfo.vmAddr - textSegVmAddr;
- loc.segName = segInfo.segName;
- loc.dstSegment = _readExecuteRegion.buffer + offsetInRegion;
- loc.dstCacheUnslidAddress = addr;
- loc.dstCacheFileOffset = (uint32_t)offsetInRegion;
- loc.dstCacheSegmentSize = (uint32_t)align(segInfo.sizeOfSections, 12);
- loc.copySegmentSize = (uint32_t)align(segInfo.sizeOfSections, 12);
- loc.srcSegmentIndex = segInfo.segIndex;
- dylib.cacheLocation.push_back(loc);
- addr += loc.dstCacheSegmentSize;
+ addr = align(addr, std::max(p2align, (uint8_t)12));
+ SegmentMappingInfo info;
+ info.srcSegment = (uint8_t*)dylib.mh + fileOffset;
+ info.segName = segName;
+ info.dstCacheAddress = addr;
+ info.dstCacheOffset = (uint32_t)(addr - regions[0].address + regions[0].fileOffset);
+ info.dstCacheSegmentSize = (uint32_t)align(sizeOfSections, 12);
+ info.copySegmentSize = (uint32_t)align(sizeOfSections, 12);
+ info.srcSegmentIndex = segIndex;
+ result[dylib.mh].push_back(info);
+ addr += info.dstCacheSegmentSize;
});
}
// align TEXT region end
uint64_t endTextAddress = align(addr, _archLayout->sharedRegionAlignP2);
- _readExecuteRegion.bufferSize = endTextAddress - _readExecuteRegion.unslidLoadAddress;
- _readExecuteRegion.sizeInUse = _readExecuteRegion.bufferSize;
+ regions[0].size = endTextAddress - regions[0].address;
// assign __DATA* addresses
if ( _archLayout->sharedRegionsAreDiscontiguous )
addr = _archLayout->sharedMemoryStart + 0x60000000;
else
addr = align((addr + _archLayout->sharedRegionPadding), _archLayout->sharedRegionAlignP2);
- _readWriteRegion.buffer = (uint8_t*)_fullAllocatedBuffer + addr - _archLayout->sharedMemoryStart;
- _readWriteRegion.bufferSize = 0;
- _readWriteRegion.sizeInUse = 0;
- _readWriteRegion.unslidLoadAddress = addr;
- _readWriteRegion.cacheFileOffset = _readExecuteRegion.sizeInUse;
+ regions[1].address = addr;
+ regions[1].fileOffset = regions[0].fileOffset + regions[0].size;
+ regions[1].initProt = VM_PROT_READ | VM_PROT_WRITE;
+ regions[1].maxProt = VM_PROT_READ | VM_PROT_WRITE;
// layout all __DATA_CONST segments
__block int dataConstSegmentCount = 0;
- for (DylibInfo& dylib : _sortedDylibs) {
- __block uint64_t textSegVmAddr = 0;
- dylib.input->mappedFile.mh->forEachSegment(^(const dyld3::MachOFile::SegmentInfo& segInfo, bool& stop) {
- if ( strcmp(segInfo.segName, "__TEXT") == 0 )
- textSegVmAddr = segInfo.vmAddr;
- if ( segInfo.protections != (VM_PROT_READ | VM_PROT_WRITE) )
+ for (const DyldSharedCache::MappedMachO& dylib : dylibs) {
+ dyld3::MachOParser parser(dylib.mh, true);
+ parser.forEachSegment(^(const char* segName, uint32_t fileOffset, uint32_t fileSize, uint64_t vmAddr, uint64_t vmSize, uint8_t protections, uint32_t segIndex, uint64_t sizeOfSections, uint8_t p2align, bool& stop) {
+ if ( protections != (VM_PROT_READ | VM_PROT_WRITE) )
return;
- if ( strcmp(segInfo.segName, "__DATA_CONST") != 0 )
+ if ( strcmp(segName, "__DATA_CONST") != 0 )
return;
++dataConstSegmentCount;
// Pack __DATA_CONST segments
- addr = align(addr, segInfo.p2align);
- size_t copySize = std::min((size_t)segInfo.fileSize, (size_t)segInfo.sizeOfSections);
- uint64_t offsetInRegion = addr - _readWriteRegion.unslidLoadAddress;
- SegmentMappingInfo loc;
- loc.srcSegment = (uint8_t*)dylib.input->mappedFile.mh + segInfo.vmAddr - textSegVmAddr;
- loc.segName = segInfo.segName;
- loc.dstSegment = _readWriteRegion.buffer + offsetInRegion;
- loc.dstCacheUnslidAddress = addr;
- loc.dstCacheFileOffset = (uint32_t)(_readWriteRegion.cacheFileOffset + offsetInRegion);
- loc.dstCacheSegmentSize = (uint32_t)segInfo.sizeOfSections;
- loc.copySegmentSize = (uint32_t)copySize;
- loc.srcSegmentIndex = segInfo.segIndex;
- dylib.cacheLocation.push_back(loc);
- addr += loc.dstCacheSegmentSize;
+ addr = align(addr, p2align);
+ size_t copySize = std::min((size_t)fileSize, (size_t)sizeOfSections);
+ SegmentMappingInfo info;
+ info.srcSegment = (uint8_t*)dylib.mh + fileOffset;
+ info.segName = segName;
+ info.dstCacheAddress = addr;
+ info.dstCacheOffset = (uint32_t)(addr - regions[1].address + regions[1].fileOffset);
+ info.dstCacheSegmentSize = (uint32_t)sizeOfSections;
+ info.copySegmentSize = (uint32_t)copySize;
+ info.srcSegmentIndex = segIndex;
+ result[dylib.mh].push_back(info);
+ addr += info.dstCacheSegmentSize;
});
}
// layout all __DATA segments (and other r/w non-dirty, non-const) segments
- for (DylibInfo& dylib : _sortedDylibs) {
- __block uint64_t textSegVmAddr = 0;
- dylib.input->mappedFile.mh->forEachSegment(^(const dyld3::MachOFile::SegmentInfo& segInfo, bool& stop) {
- if ( strcmp(segInfo.segName, "__TEXT") == 0 )
- textSegVmAddr = segInfo.vmAddr;
- if ( segInfo.protections != (VM_PROT_READ | VM_PROT_WRITE) )
+ for (const DyldSharedCache::MappedMachO& dylib : dylibs) {
+ dyld3::MachOParser parser(dylib.mh, true);
+ parser.forEachSegment(^(const char* segName, uint32_t fileOffset, uint32_t fileSize, uint64_t vmAddr, uint64_t vmSize, uint8_t protections, uint32_t segIndex, uint64_t sizeOfSections, uint8_t p2align, bool& stop) {
+ if ( protections != (VM_PROT_READ | VM_PROT_WRITE) )
return;
- if ( strcmp(segInfo.segName, "__DATA_CONST") == 0 )
+ if ( strcmp(segName, "__DATA_CONST") == 0 )
return;
- if ( strcmp(segInfo.segName, "__DATA_DIRTY") == 0 )
+ if ( strcmp(segName, "__DATA_DIRTY") == 0 )
return;
if ( dataConstSegmentCount > 10 ) {
// Pack __DATA segments only if we also have __DATA_CONST segments
- addr = align(addr, segInfo.p2align);
+ addr = align(addr, p2align);
}
else {
// Keep __DATA segments 4K or more aligned
- addr = align(addr, std::max((int)segInfo.p2align, (int)12));
- }
- size_t copySize = std::min((size_t)segInfo.fileSize, (size_t)segInfo.sizeOfSections);
- uint64_t offsetInRegion = addr - _readWriteRegion.unslidLoadAddress;
- SegmentMappingInfo loc;
- loc.srcSegment = (uint8_t*)dylib.input->mappedFile.mh + segInfo.vmAddr - textSegVmAddr;
- loc.segName = segInfo.segName;
- loc.dstSegment = _readWriteRegion.buffer + offsetInRegion;
- loc.dstCacheUnslidAddress = addr;
- loc.dstCacheFileOffset = (uint32_t)(_readWriteRegion.cacheFileOffset + offsetInRegion);
- loc.dstCacheSegmentSize = (uint32_t)segInfo.sizeOfSections;
- loc.copySegmentSize = (uint32_t)copySize;
- loc.srcSegmentIndex = segInfo.segIndex;
- dylib.cacheLocation.push_back(loc);
- addr += loc.dstCacheSegmentSize;
+ addr = align(addr, std::max(p2align, (uint8_t)12));
+ }
+ size_t copySize = std::min((size_t)fileSize, (size_t)sizeOfSections);
+ SegmentMappingInfo info;
+ info.srcSegment = (uint8_t*)dylib.mh + fileOffset;
+ info.segName = segName;
+ info.dstCacheAddress = addr;
+ info.dstCacheOffset = (uint32_t)(addr - regions[1].address + regions[1].fileOffset);
+ info.dstCacheSegmentSize = (uint32_t)sizeOfSections;
+ info.copySegmentSize = (uint32_t)copySize;
+ info.srcSegmentIndex = segIndex;
+ result[dylib.mh].push_back(info);
+ addr += info.dstCacheSegmentSize;
});
}
- // layout all __DATA_DIRTY segments, sorted (FIXME)
- const size_t dylibCount = _sortedDylibs.size();
- uint32_t dirtyDataSortIndexes[dylibCount];
- for (size_t i=0; i < dylibCount; ++i)
- dirtyDataSortIndexes[i] = (uint32_t)i;
- std::sort(&dirtyDataSortIndexes[0], &dirtyDataSortIndexes[dylibCount], [&](const uint32_t& a, const uint32_t& b) {
- const auto& orderA = _options.dirtyDataSegmentOrdering.find(_sortedDylibs[a].input->mappedFile.runtimePath);
- const auto& orderB = _options.dirtyDataSegmentOrdering.find(_sortedDylibs[b].input->mappedFile.runtimePath);
- bool foundA = (orderA != _options.dirtyDataSegmentOrdering.end());
- bool foundB = (orderB != _options.dirtyDataSegmentOrdering.end());
-
- // Order all __DATA_DIRTY segments specified in the order file first, in the order specified in the file,
- // followed by any other __DATA_DIRTY segments in lexicographic order.
- if ( foundA && foundB )
- return orderA->second < orderB->second;
- else if ( foundA )
- return true;
- else if ( foundB )
- return false;
- else
- return _sortedDylibs[a].input->mappedFile.runtimePath < _sortedDylibs[b].input->mappedFile.runtimePath;
- });
+ // layout all __DATA_DIRTY segments, sorted
addr = align(addr, 12);
- for (size_t i=0; i < dylibCount; ++i) {
- DylibInfo& dylib = _sortedDylibs[dirtyDataSortIndexes[i]];
- __block uint64_t textSegVmAddr = 0;
- dylib.input->mappedFile.mh->forEachSegment(^(const dyld3::MachOFile::SegmentInfo& segInfo, bool& stop) {
- if ( strcmp(segInfo.segName, "__TEXT") == 0 )
- textSegVmAddr = segInfo.vmAddr;
- if ( segInfo.protections != (VM_PROT_READ | VM_PROT_WRITE) )
+ std::vector<DyldSharedCache::MappedMachO> dirtyDataDylibs = makeSortedDylibs(dylibs, _options.dirtyDataSegmentOrdering);
+ for (const DyldSharedCache::MappedMachO& dylib : dirtyDataDylibs) {
+ dyld3::MachOParser parser(dylib.mh, true);
+ parser.forEachSegment(^(const char* segName, uint32_t fileOffset, uint32_t fileSize, uint64_t vmAddr, uint64_t vmSize, uint8_t protections, uint32_t segIndex, uint64_t sizeOfSections, uint8_t p2align, bool& stop) {
+ if ( protections != (VM_PROT_READ | VM_PROT_WRITE) )
return;
- if ( strcmp(segInfo.segName, "__DATA_DIRTY") != 0 )
+ if ( strcmp(segName, "__DATA_DIRTY") != 0 )
return;
// Pack __DATA_DIRTY segments
- addr = align(addr, segInfo.p2align);
- size_t copySize = std::min((size_t)segInfo.fileSize, (size_t)segInfo.sizeOfSections);
- uint64_t offsetInRegion = addr - _readWriteRegion.unslidLoadAddress;
- SegmentMappingInfo loc;
- loc.srcSegment = (uint8_t*)dylib.input->mappedFile.mh + segInfo.vmAddr - textSegVmAddr;
- loc.segName = segInfo.segName;
- loc.dstSegment = _readWriteRegion.buffer + offsetInRegion;
- loc.dstCacheUnslidAddress = addr;
- loc.dstCacheFileOffset = (uint32_t)(_readWriteRegion.cacheFileOffset + offsetInRegion);
- loc.dstCacheSegmentSize = (uint32_t)segInfo.sizeOfSections;
- loc.copySegmentSize = (uint32_t)copySize;
- loc.srcSegmentIndex = segInfo.segIndex;
- dylib.cacheLocation.push_back(loc);
- addr += loc.dstCacheSegmentSize;
+ addr = align(addr, p2align);
+ size_t copySize = std::min((size_t)fileSize, (size_t)sizeOfSections);
+ SegmentMappingInfo info;
+ info.srcSegment = (uint8_t*)dylib.mh + fileOffset;
+ info.segName = segName;
+ info.dstCacheAddress = addr;
+ info.dstCacheOffset = (uint32_t)(addr - regions[1].address + regions[1].fileOffset);
+ info.dstCacheSegmentSize = (uint32_t)sizeOfSections;
+ info.copySegmentSize = (uint32_t)copySize;
+ info.srcSegmentIndex = segIndex;
+ result[dylib.mh].push_back(info);
+ addr += info.dstCacheSegmentSize;
});
}
// align DATA region end
uint64_t endDataAddress = align(addr, _archLayout->sharedRegionAlignP2);
- _readWriteRegion.bufferSize = endDataAddress - _readWriteRegion.unslidLoadAddress;
- _readWriteRegion.sizeInUse = _readWriteRegion.bufferSize;
+ regions[1].size = endDataAddress - regions[1].address;
// start read-only region
if ( _archLayout->sharedRegionsAreDiscontiguous )
addr = _archLayout->sharedMemoryStart + 0xA0000000;
else
addr = align((addr + _archLayout->sharedRegionPadding), _archLayout->sharedRegionAlignP2);
- _readOnlyRegion.buffer = (uint8_t*)_fullAllocatedBuffer + addr - _archLayout->sharedMemoryStart;
- _readOnlyRegion.bufferSize = 0;
- _readOnlyRegion.sizeInUse = 0;
- _readOnlyRegion.unslidLoadAddress = addr;
- _readOnlyRegion.cacheFileOffset = _readWriteRegion.cacheFileOffset + _readWriteRegion.sizeInUse;
+ regions[2].address = addr;
+ regions[2].fileOffset = regions[1].fileOffset + regions[1].size;
+ regions[2].maxProt = VM_PROT_READ;
+ regions[2].initProt = VM_PROT_READ;
// reserve space for kernel ASLR slide info at start of r/o region
if ( _options.cacheSupportsASLR ) {
- size_t slideInfoSize = sizeof(dyld_cache_slide_info);
- slideInfoSize = std::max(slideInfoSize, sizeof(dyld_cache_slide_info2));
- slideInfoSize = std::max(slideInfoSize, sizeof(dyld_cache_slide_info3));
- slideInfoSize = std::max(slideInfoSize, sizeof(dyld_cache_slide_info4));
- _slideInfoBufferSizeAllocated = align(slideInfoSize + (_readWriteRegion.sizeInUse/4096) * _archLayout->slideInfoBytesPerPage, _archLayout->sharedRegionAlignP2);
- _slideInfoFileOffset = _readOnlyRegion.cacheFileOffset;
+ _slideInfoBufferSizeAllocated = align((regions[1].size/4096) * 4, _archLayout->sharedRegionAlignP2); // only need 2 bytes per page
+ _slideInfoFileOffset = regions[2].fileOffset;
addr += _slideInfoBufferSizeAllocated;
}
// layout all read-only (but not LINKEDIT) segments
- for (DylibInfo& dylib : _sortedDylibs) {
- __block uint64_t textSegVmAddr = 0;
- dylib.input->mappedFile.mh->forEachSegment(^(const dyld3::MachOFile::SegmentInfo& segInfo, bool& stop) {
- if ( strcmp(segInfo.segName, "__TEXT") == 0 )
- textSegVmAddr = segInfo.vmAddr;
- if ( segInfo.protections != VM_PROT_READ )
+ for (const DyldSharedCache::MappedMachO& dylib : dylibs) {
+ dyld3::MachOParser parser(dylib.mh, true);
+ parser.forEachSegment(^(const char* segName, uint32_t fileOffset, uint32_t fileSize, uint64_t vmAddr, uint64_t vmSize, uint8_t protections, uint32_t segIndex, uint64_t sizeOfSections, uint8_t p2align, bool& stop) {
+ if ( protections != VM_PROT_READ )
return;
- if ( strcmp(segInfo.segName, "__LINKEDIT") == 0 )
+ if ( strcmp(segName, "__LINKEDIT") == 0 )
return;
// Keep segments segments 4K or more aligned
- addr = align(addr, std::max((int)segInfo.p2align, (int)12));
- uint64_t offsetInRegion = addr - _readOnlyRegion.unslidLoadAddress;
- SegmentMappingInfo loc;
- loc.srcSegment = (uint8_t*)dylib.input->mappedFile.mh + segInfo.vmAddr - textSegVmAddr;
- loc.segName = segInfo.segName;
- loc.dstSegment = _readOnlyRegion.buffer + offsetInRegion;
- loc.dstCacheUnslidAddress = addr;
- loc.dstCacheFileOffset = (uint32_t)(_readOnlyRegion.cacheFileOffset + offsetInRegion);
- loc.dstCacheSegmentSize = (uint32_t)align(segInfo.sizeOfSections, 12);
- loc.copySegmentSize = (uint32_t)segInfo.sizeOfSections;
- loc.srcSegmentIndex = segInfo.segIndex;
- dylib.cacheLocation.push_back(loc);
- addr += loc.dstCacheSegmentSize;
+ addr = align(addr, std::max(p2align, (uint8_t)12));
+ SegmentMappingInfo info;
+ info.srcSegment = (uint8_t*)dylib.mh + fileOffset;
+ info.segName = segName;
+ info.dstCacheAddress = addr;
+ info.dstCacheOffset = (uint32_t)(addr - regions[2].address + regions[2].fileOffset);
+ info.dstCacheSegmentSize = (uint32_t)align(sizeOfSections, 12);
+ info.copySegmentSize = (uint32_t)sizeOfSections;
+ info.srcSegmentIndex = segIndex;
+ result[dylib.mh].push_back(info);
+ addr += info.dstCacheSegmentSize;
});
}
- // layout all LINKEDIT segments (after other read-only segments), aligned to 16KB
- addr = align(addr, 14);
- _nonLinkEditReadOnlySize = addr - _readOnlyRegion.unslidLoadAddress;
- for (DylibInfo& dylib : _sortedDylibs) {
- __block uint64_t textSegVmAddr = 0;
- dylib.input->mappedFile.mh->forEachSegment(^(const dyld3::MachOFile::SegmentInfo& segInfo, bool& stop) {
- if ( strcmp(segInfo.segName, "__TEXT") == 0 )
- textSegVmAddr = segInfo.vmAddr;
- if ( segInfo.protections != VM_PROT_READ )
+ // layout all LINKEDIT segments (after other read-only segments)
+ for (const DyldSharedCache::MappedMachO& dylib : dylibs) {
+ dyld3::MachOParser parser(dylib.mh, true);
+ parser.forEachSegment(^(const char* segName, uint32_t fileOffset, uint32_t fileSize, uint64_t vmAddr, uint64_t vmSize, uint8_t protections, uint32_t segIndex, uint64_t sizeOfSections, uint8_t p2align, bool& stop) {
+ if ( protections != VM_PROT_READ )
return;
- if ( strcmp(segInfo.segName, "__LINKEDIT") != 0 )
+ if ( strcmp(segName, "__LINKEDIT") != 0 )
return;
// Keep segments segments 4K or more aligned
- addr = align(addr, std::max((int)segInfo.p2align, (int)12));
- size_t copySize = std::min((size_t)segInfo.fileSize, (size_t)segInfo.sizeOfSections);
- uint64_t offsetInRegion = addr - _readOnlyRegion.unslidLoadAddress;
- SegmentMappingInfo loc;
- loc.srcSegment = (uint8_t*)dylib.input->mappedFile.mh + segInfo.vmAddr - textSegVmAddr;
- loc.segName = segInfo.segName;
- loc.dstSegment = _readOnlyRegion.buffer + offsetInRegion;
- loc.dstCacheUnslidAddress = addr;
- loc.dstCacheFileOffset = (uint32_t)(_readOnlyRegion.cacheFileOffset + offsetInRegion);
- loc.dstCacheSegmentSize = (uint32_t)align(segInfo.sizeOfSections, 12);
- loc.copySegmentSize = (uint32_t)copySize;
- loc.srcSegmentIndex = segInfo.segIndex;
- dylib.cacheLocation.push_back(loc);
- addr += loc.dstCacheSegmentSize;
+ addr = align(addr, std::max(p2align, (uint8_t)12));
+ SegmentMappingInfo info;
+ info.srcSegment = (uint8_t*)dylib.mh + fileOffset;
+ info.segName = segName;
+ info.dstCacheAddress = addr;
+ info.dstCacheOffset = (uint32_t)(addr - regions[2].address + regions[2].fileOffset);
+ info.dstCacheSegmentSize = (uint32_t)align(sizeOfSections, 12);
+ info.copySegmentSize = (uint32_t)align(fileSize, 12);
+ info.srcSegmentIndex = segIndex;
+ result[dylib.mh].push_back(info);
+ addr += info.dstCacheSegmentSize;
});
}
// add room for branch pool linkedits
@@ -1368,34 +1066,28 @@
// align r/o region end
uint64_t endReadOnlyAddress = align(addr, _archLayout->sharedRegionAlignP2);
- _readOnlyRegion.bufferSize = endReadOnlyAddress - _readOnlyRegion.unslidLoadAddress;
- _readOnlyRegion.sizeInUse = _readOnlyRegion.bufferSize;
-
- //fprintf(stderr, "RX region=%p -> %p, logical addr=0x%llX\n", _readExecuteRegion.buffer, _readExecuteRegion.buffer+_readExecuteRegion.bufferSize, _readExecuteRegion.unslidLoadAddress);
- //fprintf(stderr, "RW region=%p -> %p, logical addr=0x%llX\n", _readWriteRegion.buffer, _readWriteRegion.buffer+_readWriteRegion.bufferSize, _readWriteRegion.unslidLoadAddress);
- //fprintf(stderr, "RO region=%p -> %p, logical addr=0x%llX\n", _readOnlyRegion.buffer, _readOnlyRegion.buffer+_readOnlyRegion.bufferSize, _readOnlyRegion.unslidLoadAddress);
+ regions[2].size = endReadOnlyAddress - regions[2].address;
+ _currentFileSize = regions[2].fileOffset + regions[2].size;
+
+ // FIXME: Confirm these numbers for all platform/arch combos
+ // assume LINKEDIT optimzation reduces LINKEDITs to %40 of original size
+ if ( _options.excludeLocalSymbols ) {
+ _vmSize = regions[2].address + (regions[2].size * 2 / 5) - regions[0].address;
+ }
+ else {
+ _vmSize = regions[2].address + (regions[2].size * 9 / 10) - regions[0].address;
+ }
// sort SegmentMappingInfo for each image to be in the same order as original segments
- for (DylibInfo& dylib : _sortedDylibs) {
- std::sort(dylib.cacheLocation.begin(), dylib.cacheLocation.end(), [&](const SegmentMappingInfo& a, const SegmentMappingInfo& b) {
+ for (auto& entry : result) {
+ std::vector<SegmentMappingInfo>& infos = entry.second;
+ std::sort(infos.begin(), infos.end(), [&](const SegmentMappingInfo& a, const SegmentMappingInfo& b) {
return a.srcSegmentIndex < b.srcSegmentIndex;
});
}
-}
-
-void CacheBuilder::markPaddingInaccessible()
-{
- // region between RX and RW
- uint8_t* startPad1 = _readExecuteRegion.buffer+_readExecuteRegion.sizeInUse;
- uint8_t* endPad1 = _readWriteRegion.buffer;
- ::vm_protect(mach_task_self(), (vm_address_t)startPad1, endPad1-startPad1, false, 0);
-
- // region between RW and RO
- uint8_t* startPad2 = _readWriteRegion.buffer+_readWriteRegion.sizeInUse;
- uint8_t* endPad2 = _readOnlyRegion.buffer;
- ::vm_protect(mach_task_self(), (vm_address_t)startPad2, endPad2-startPad2, false, 0);
-}
-
+
+ return result;
+}
uint64_t CacheBuilder::pathHash(const char* path)
{
@@ -1410,22 +1102,21 @@
{
foundDylibName = "???";
foundSegName = "???";
- uint64_t unslidVmAddr = ((uint8_t*)contentPtr - _readExecuteRegion.buffer) + _readExecuteRegion.unslidLoadAddress;
- const DyldSharedCache* cache = (DyldSharedCache*)_readExecuteRegion.buffer;
- cache->forEachImage(^(const mach_header* mh, const char* installName) {
- ((dyld3::MachOLoaded*)mh)->forEachSegment(^(const dyld3::MachOFile::SegmentInfo& info, bool &stop) {
- if ( (unslidVmAddr >= info.vmAddr) && (unslidVmAddr < (info.vmAddr+info.vmSize)) ) {
+ uint32_t cacheOffset = (uint32_t)((uint8_t*)contentPtr - (uint8_t*)_buffer);
+ _buffer->forEachImage(^(const mach_header* mh, const char* installName) {
+ dyld3::MachOParser parser(mh, true);
+ parser.forEachSegment(^(const char* segName, uint32_t fileOffset, uint32_t fileSize, uint64_t vmAddr, uint64_t vmSize, uint8_t protections, bool& stop) {
+ if ( (cacheOffset > fileOffset) && (cacheOffset < (fileOffset+vmSize)) ) {
foundDylibName = installName;
- foundSegName = info.segName;
- stop = true;
+ foundSegName = segName;
}
});
});
-}
+ }
template <typename P>
-bool CacheBuilder::makeRebaseChainV2(uint8_t* pageContent, uint16_t lastLocationOffset, uint16_t offset, const dyld_cache_slide_info2* info)
+bool CacheBuilder::makeRebaseChain(uint8_t* pageContent, uint16_t lastLocationOffset, uint16_t offset, const dyld_cache_slide_info2* info)
{
typedef typename P::uint_t pint_t;
@@ -1455,7 +1146,7 @@
P::setP(*lastLoc, newLastValue);
return true;
}
- //fprintf(stderr, " too big delta = %d, lastOffset=0x%03X, offset=0x%03X\n", offset - lastLocationOffset, lastLocationOffset, offset);
+ //warning(" too big delta = %d, lastOffset=0x%03X, offset=0x%03X", offset - lastLocationOffset, lastLocationOffset, offset);
// distance between rebase locations is too far
// see if we can make a chain from non-rebase locations
@@ -1485,7 +1176,7 @@
// we can make chain. go back and add each non-rebase location to chain
uint16_t prevOffset = lastLocationOffset;
pint_t* prevLoc = (pint_t*)&pageContent[prevOffset];
- for (unsigned n=0; n < nrIndex; ++n) {
+ for (int n=0; n < nrIndex; ++n) {
uint16_t nOffset = nonRebaseLocationOffsets[n];
assert(nOffset != 0);
pint_t* nLoc = (pint_t*)&pageContent[nOffset];
@@ -1516,7 +1207,7 @@
template <typename P>
-void CacheBuilder::addPageStartsV2(uint8_t* pageContent, const bool bitmap[], const dyld_cache_slide_info2* info,
+void CacheBuilder::addPageStarts(uint8_t* pageContent, const bool bitmap[], const dyld_cache_slide_info2* info,
std::vector<uint16_t>& pageStarts, std::vector<uint16_t>& pageExtras)
{
typedef typename P::uint_t pint_t;
@@ -1528,20 +1219,20 @@
uint16_t startValue = DYLD_CACHE_SLIDE_PAGE_ATTR_NO_REBASE;
uint16_t lastLocationOffset = 0xFFFF;
- for(uint32_t i=0; i < pageSize/4; ++i) {
+ for(int i=0; i < pageSize/4; ++i) {
unsigned offset = i*4;
if ( bitmap[i] ) {
if ( startValue == DYLD_CACHE_SLIDE_PAGE_ATTR_NO_REBASE ) {
// found first rebase location in page
startValue = i;
}
- else if ( !makeRebaseChainV2<P>(pageContent, lastLocationOffset, offset, info) ) {
+ else if ( !makeRebaseChain<P>(pageContent, lastLocationOffset, offset, info) ) {
// can't record all rebasings in one chain
if ( (startValue & DYLD_CACHE_SLIDE_PAGE_ATTR_EXTRA) == 0 ) {
// switch page_start to "extras" which is a list of chain starts
unsigned indexInExtras = (unsigned)pageExtras.size();
if ( indexInExtras > 0x3FFF ) {
- _diagnostics.error("rebase overflow in v2 page extras");
+ _diagnostics.error("rebase overflow in page extras");
return;
}
pageExtras.push_back(startValue);
@@ -1567,15 +1258,46 @@
}
template <typename P>
-void CacheBuilder::writeSlideInfoV2(const bool bitmap[], unsigned dataPageCount)
+void CacheBuilder::writeSlideInfoV2()
{
typedef typename P::uint_t pint_t;
typedef typename P::E E;
const uint32_t pageSize = 4096;
+ // build one 1024/4096 bool bitmap per page (4KB/16KB) of DATA
+ const dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)((char*)_buffer + _buffer->header.mappingOffset);
+ uint8_t* const dataStart = (uint8_t*)_buffer + mappings[1].fileOffset;
+ uint8_t* const dataEnd = dataStart + mappings[1].size;
+ unsigned pageCount = (unsigned)(mappings[1].size+pageSize-1)/pageSize;
+ const long bitmapSize = pageCount*(pageSize/4)*sizeof(bool);
+ bool* bitmap = (bool*)calloc(bitmapSize, 1);
+ for (void* p : _pointersForASLR) {
+ if ( (p < dataStart) || ( p > dataEnd) ) {
+ _diagnostics.error("DATA pointer for sliding, out of range\n");
+ free(bitmap);
+ return;
+ }
+ long byteOffset = (long)((uint8_t*)p - dataStart);
+ if ( (byteOffset % 4) != 0 ) {
+ _diagnostics.error("pointer not 4-byte aligned in DATA offset 0x%08lX\n", byteOffset);
+ free(bitmap);
+ return;
+ }
+ long boolIndex = byteOffset / 4;
+ // work around <rdar://24941083> by ignoring pointers to be slid that are NULL on disk
+ if ( *((pint_t*)p) == 0 ) {
+ std::string dylibName;
+ std::string segName;
+ findDylibAndSegment(p, dylibName, segName);
+ _diagnostics.warning("NULL pointer asked to be slid in %s at DATA region offset 0x%04lX of %s", segName.c_str(), byteOffset, dylibName.c_str());
+ continue;
+ }
+ bitmap[boolIndex] = true;
+ }
+
// fill in fixed info
assert(_slideInfoFileOffset != 0);
- dyld_cache_slide_info2* info = (dyld_cache_slide_info2*)_readOnlyRegion.buffer;
+ dyld_cache_slide_info2* info = (dyld_cache_slide_info2*)((uint8_t*)_buffer + _slideInfoFileOffset);
info->version = 2;
info->page_size = pageSize;
info->delta_mask = _archLayout->pointerDeltaMask;
@@ -1584,18 +1306,20 @@
// set page starts and extras for each page
std::vector<uint16_t> pageStarts;
std::vector<uint16_t> pageExtras;
- pageStarts.reserve(dataPageCount);
- uint8_t* pageContent = _readWriteRegion.buffer;
+ pageStarts.reserve(pageCount);
+ uint8_t* pageContent = dataStart;;
const bool* bitmapForPage = bitmap;
- for (unsigned i=0; i < dataPageCount; ++i) {
+ for (unsigned i=0; i < pageCount; ++i) {
//warning("page[%d]", i);
- addPageStartsV2<P>(pageContent, bitmapForPage, info, pageStarts, pageExtras);
+ addPageStarts<P>(pageContent, bitmapForPage, info, pageStarts, pageExtras);
if ( _diagnostics.hasError() ) {
+ free(bitmap);
return;
}
pageContent += pageSize;
bitmapForPage += (sizeof(bool)*(pageSize/4));
}
+ free((void*)bitmap);
// fill in computed info
info->page_starts_offset = sizeof(dyld_cache_slide_info2);
@@ -1609,213 +1333,11 @@
for (unsigned i=0; i < pageExtras.size(); ++i)
pageExtrasBuffer[i] = pageExtras[i];
// update header with final size
- uint64_t slideInfoSize = align(info->page_extras_offset + pageExtras.size()*sizeof(uint16_t), _archLayout->sharedRegionAlignP2);
- if ( slideInfoSize > _slideInfoBufferSizeAllocated ) {
+ _buffer->header.slideInfoSize = align(info->page_extras_offset + pageExtras.size()*sizeof(uint16_t), _archLayout->sharedRegionAlignP2);
+ if ( _buffer->header.slideInfoSize > _slideInfoBufferSizeAllocated ) {
_diagnostics.error("kernel slide info overflow buffer");
}
- ((dyld_cache_header*)_readExecuteRegion.buffer)->slideInfoSize = slideInfoSize;
- //fprintf(stderr, "pageCount=%u, page_starts_count=%lu, page_extras_count=%lu\n", dataPageCount, pageStarts.size(), pageExtras.size());
-}
-
-// fits in to int16_t
-static bool smallValue(uint64_t value)
-{
- uint32_t high = (value & 0xFFFF8000);
- return (high == 0) || (high == 0xFFFF8000);
-}
-
-template <typename P>
-bool CacheBuilder::makeRebaseChainV4(uint8_t* pageContent, uint16_t lastLocationOffset, uint16_t offset, const dyld_cache_slide_info4* info)
-{
- typedef typename P::uint_t pint_t;
-
- const pint_t deltaMask = (pint_t)(info->delta_mask);
- const pint_t valueMask = ~deltaMask;
- const pint_t valueAdd = (pint_t)(info->value_add);
- const unsigned deltaShift = __builtin_ctzll(deltaMask) - 2;
- const uint32_t maxDelta = (uint32_t)(deltaMask >> deltaShift);
-
- pint_t* lastLoc = (pint_t*)&pageContent[lastLocationOffset+0];
- pint_t lastValue = (pint_t)P::getP(*lastLoc);
- if ( (lastValue - valueAdd) & deltaMask ) {
- std::string dylibName;
- std::string segName;
- findDylibAndSegment((void*)pageContent, dylibName, segName);
- _diagnostics.error("rebase pointer does not point within cache. lastOffset=0x%04X, seg=%s, dylib=%s\n",
- lastLocationOffset, segName.c_str(), dylibName.c_str());
- return false;
- }
- if ( offset <= (lastLocationOffset+maxDelta) ) {
- // previous location in range, make link from it
- // encode this location into last value
- pint_t delta = offset - lastLocationOffset;
- pint_t newLastValue = ((lastValue - valueAdd) & valueMask) | (delta << deltaShift);
- //warning(" add chain: delta = %d, lastOffset=0x%03X, offset=0x%03X, org value=0x%08lX, new value=0x%08lX",
- // offset - lastLocationOffset, lastLocationOffset, offset, (long)lastValue, (long)newLastValue);
- P::setP(*lastLoc, newLastValue);
- return true;
- }
- //fprintf(stderr, " too big delta = %d, lastOffset=0x%03X, offset=0x%03X\n", offset - lastLocationOffset, lastLocationOffset, offset);
-
- // distance between rebase locations is too far
- // see if we can make a chain from non-rebase locations
- uint16_t nonRebaseLocationOffsets[1024];
- unsigned nrIndex = 0;
- for (uint16_t i = lastLocationOffset; i < offset-maxDelta; ) {
- nonRebaseLocationOffsets[nrIndex] = 0;
- for (int j=maxDelta; j > 0; j -= 4) {
- pint_t value = (pint_t)P::getP(*(pint_t*)&pageContent[i+j]);
- if ( smallValue(value) ) {
- // Steal values of 0 to be used in the rebase chain
- nonRebaseLocationOffsets[nrIndex] = i+j;
- break;
- }
- }
- if ( nonRebaseLocationOffsets[nrIndex] == 0 ) {
- lastValue = (pint_t)P::getP(*lastLoc);
- pint_t newValue = ((lastValue - valueAdd) & valueMask);
- //fprintf(stderr, " no way to make non-rebase delta chain, terminate off=0x%03X, old value=0x%08lX, new value=0x%08lX\n",
- // lastLocationOffset, (long)lastValue, (long)newValue);
- P::setP(*lastLoc, newValue);
- return false;
- }
- i = nonRebaseLocationOffsets[nrIndex];
- ++nrIndex;
- }
-
- // we can make chain. go back and add each non-rebase location to chain
- uint16_t prevOffset = lastLocationOffset;
- pint_t* prevLoc = (pint_t*)&pageContent[prevOffset];
- for (unsigned n=0; n < nrIndex; ++n) {
- uint16_t nOffset = nonRebaseLocationOffsets[n];
- assert(nOffset != 0);
- pint_t* nLoc = (pint_t*)&pageContent[nOffset];
- uint32_t delta2 = nOffset - prevOffset;
- pint_t value = (pint_t)P::getP(*prevLoc);
- pint_t newValue;
- if ( smallValue(value) )
- newValue = (value & valueMask) | (delta2 << deltaShift);
- else
- newValue = ((value - valueAdd) & valueMask) | (delta2 << deltaShift);
- //warning(" non-rebase delta = %d, to off=0x%03X, old value=0x%08lX, new value=0x%08lX", delta2, nOffset, (long)value, (long)newValue);
- P::setP(*prevLoc, newValue);
- prevOffset = nOffset;
- prevLoc = nLoc;
- }
- uint32_t delta3 = offset - prevOffset;
- pint_t value = (pint_t)P::getP(*prevLoc);
- pint_t newValue;
- if ( smallValue(value) )
- newValue = (value & valueMask) | (delta3 << deltaShift);
- else
- newValue = ((value - valueAdd) & valueMask) | (delta3 << deltaShift);
- //warning(" non-rebase delta = %d, to off=0x%03X, old value=0x%08lX, new value=0x%08lX", delta3, offset, (long)value, (long)newValue);
- P::setP(*prevLoc, newValue);
-
- return true;
-}
-
-
-template <typename P>
-void CacheBuilder::addPageStartsV4(uint8_t* pageContent, const bool bitmap[], const dyld_cache_slide_info4* info,
- std::vector<uint16_t>& pageStarts, std::vector<uint16_t>& pageExtras)
-{
- typedef typename P::uint_t pint_t;
-
- const pint_t deltaMask = (pint_t)(info->delta_mask);
- const pint_t valueMask = ~deltaMask;
- const uint32_t pageSize = info->page_size;
- const pint_t valueAdd = (pint_t)(info->value_add);
-
- uint16_t startValue = DYLD_CACHE_SLIDE4_PAGE_NO_REBASE;
- uint16_t lastLocationOffset = 0xFFFF;
- for(uint32_t i=0; i < pageSize/4; ++i) {
- unsigned offset = i*4;
- if ( bitmap[i] ) {
- if ( startValue == DYLD_CACHE_SLIDE4_PAGE_NO_REBASE ) {
- // found first rebase location in page
- startValue = i;
- }
- else if ( !makeRebaseChainV4<P>(pageContent, lastLocationOffset, offset, info) ) {
- // can't record all rebasings in one chain
- if ( (startValue & DYLD_CACHE_SLIDE4_PAGE_USE_EXTRA) == 0 ) {
- // switch page_start to "extras" which is a list of chain starts
- unsigned indexInExtras = (unsigned)pageExtras.size();
- if ( indexInExtras >= DYLD_CACHE_SLIDE4_PAGE_INDEX ) {
- _diagnostics.error("rebase overflow in v4 page extras");
- return;
- }
- pageExtras.push_back(startValue);
- startValue = indexInExtras | DYLD_CACHE_SLIDE4_PAGE_USE_EXTRA;
- }
- pageExtras.push_back(i);
- }
- lastLocationOffset = offset;
- }
- }
- if ( lastLocationOffset != 0xFFFF ) {
- // mark end of chain
- pint_t* lastLoc = (pint_t*)&pageContent[lastLocationOffset];
- pint_t lastValue = (pint_t)P::getP(*lastLoc);
- pint_t newValue = ((lastValue - valueAdd) & valueMask);
- P::setP(*lastLoc, newValue);
- }
- if ( startValue & DYLD_CACHE_SLIDE4_PAGE_USE_EXTRA ) {
- // add end bit to extras
- pageExtras.back() |= DYLD_CACHE_SLIDE4_PAGE_EXTRA_END;
- }
- pageStarts.push_back(startValue);
-}
-
-
-
-template <typename P>
-void CacheBuilder::writeSlideInfoV4(const bool bitmap[], unsigned dataPageCount)
-{
- typedef typename P::uint_t pint_t;
- typedef typename P::E E;
- const uint32_t pageSize = 4096;
-
- // fill in fixed info
- assert(_slideInfoFileOffset != 0);
- dyld_cache_slide_info4* info = (dyld_cache_slide_info4*)_readOnlyRegion.buffer;
- info->version = 4;
- info->page_size = pageSize;
- info->delta_mask = _archLayout->pointerDeltaMask;
- info->value_add = (sizeof(pint_t) == 8) ? 0 : _archLayout->sharedMemoryStart; // only value_add for 32-bit archs
-
- // set page starts and extras for each page
- std::vector<uint16_t> pageStarts;
- std::vector<uint16_t> pageExtras;
- pageStarts.reserve(dataPageCount);
- uint8_t* pageContent = _readWriteRegion.buffer;
- const bool* bitmapForPage = bitmap;
- for (unsigned i=0; i < dataPageCount; ++i) {
- addPageStartsV4<P>(pageContent, bitmapForPage, info, pageStarts, pageExtras);
- if ( _diagnostics.hasError() ) {
- return;
- }
- pageContent += pageSize;
- bitmapForPage += (sizeof(bool)*(pageSize/4));
- }
- // fill in computed info
- info->page_starts_offset = sizeof(dyld_cache_slide_info4);
- info->page_starts_count = (unsigned)pageStarts.size();
- info->page_extras_offset = (unsigned)(sizeof(dyld_cache_slide_info4)+pageStarts.size()*sizeof(uint16_t));
- info->page_extras_count = (unsigned)pageExtras.size();
- uint16_t* pageStartsBuffer = (uint16_t*)((char*)info + info->page_starts_offset);
- uint16_t* pageExtrasBuffer = (uint16_t*)((char*)info + info->page_extras_offset);
- for (unsigned i=0; i < pageStarts.size(); ++i)
- pageStartsBuffer[i] = pageStarts[i];
- for (unsigned i=0; i < pageExtras.size(); ++i)
- pageExtrasBuffer[i] = pageExtras[i];
- // update header with final size
- uint64_t slideInfoSize = align(info->page_extras_offset + pageExtras.size()*sizeof(uint16_t), _archLayout->sharedRegionAlignP2);
- if ( slideInfoSize > _slideInfoBufferSizeAllocated ) {
- _diagnostics.error("kernel slide info v4 overflow buffer");
- }
- ((dyld_cache_header*)_readExecuteRegion.buffer)->slideInfoSize = slideInfoSize;
- //fprintf(stderr, "pageCount=%u, page_starts_count=%lu, page_extras_count=%lu\n", dataPageCount, pageStarts.size(), pageExtras.size());
+ //warning("pageCount=%u, page_starts_count=%lu, page_extras_count=%lu", pageCount, pageStarts.size(), pageExtras.size());
}
@@ -1877,100 +1399,50 @@
*/
-
-
-uint16_t CacheBuilder::pageStartV3(uint8_t* pageContent, uint32_t pageSize, const bool bitmap[])
-{
- const int maxPerPage = pageSize / 4;
- uint16_t result = DYLD_CACHE_SLIDE_V3_PAGE_ATTR_NO_REBASE;
- dyld3::MachOLoaded::ChainedFixupPointerOnDisk* lastLoc = nullptr;
- for (int i=0; i < maxPerPage; ++i) {
- if ( bitmap[i] ) {
- if ( result == DYLD_CACHE_SLIDE_V3_PAGE_ATTR_NO_REBASE ) {
- // found first rebase location in page
- result = i * 4;
- }
- dyld3::MachOLoaded::ChainedFixupPointerOnDisk* loc = (dyld3::MachOLoaded::ChainedFixupPointerOnDisk*)(pageContent + i*4);;
- if ( lastLoc != nullptr ) {
- // update chain (original chain may be wrong because of segment packing)
- lastLoc->plainRebase.next = loc - lastLoc;
- }
- lastLoc = loc;
- }
- }
- if ( lastLoc != nullptr ) {
- // mark last one as end of chain
- lastLoc->plainRebase.next = 0;
- }
- return result;
-}
-
-
-void CacheBuilder::writeSlideInfoV3(const bool bitmap[], unsigned dataPageCount)
-{
- const uint32_t pageSize = 4096;
-
- // fill in fixed info
- assert(_slideInfoFileOffset != 0);
- dyld_cache_slide_info3* info = (dyld_cache_slide_info3*)_readOnlyRegion.buffer;
- info->version = 3;
- info->page_size = pageSize;
- info->page_starts_count = dataPageCount;
- info->auth_value_add = _archLayout->sharedMemoryStart;
-
- // fill in per-page starts
- uint8_t* pageContent = _readWriteRegion.buffer;
- const bool* bitmapForPage = bitmap;
- for (unsigned i=0; i < dataPageCount; ++i) {
- info->page_starts[i] = pageStartV3(pageContent, pageSize, bitmapForPage);
- pageContent += pageSize;
- bitmapForPage += (sizeof(bool)*(pageSize/4));
- }
-
- // update header with final size
- dyld_cache_header* dyldCacheHeader = (dyld_cache_header*)_readExecuteRegion.buffer;
- dyldCacheHeader->slideInfoSize = align(__offsetof(dyld_cache_slide_info3, page_starts[dataPageCount]), _archLayout->sharedRegionAlignP2);
- if ( dyldCacheHeader->slideInfoSize > _slideInfoBufferSizeAllocated ) {
- _diagnostics.error("kernel slide info overflow buffer");
- }
-}
-
-
-void CacheBuilder::fipsSign()
-{
- // find libcorecrypto.dylib in cache being built
- DyldSharedCache* dyldCache = (DyldSharedCache*)_readExecuteRegion.buffer;
- __block const dyld3::MachOLoaded* ml = nullptr;
- dyldCache->forEachImage(^(const mach_header* mh, const char* installName) {
- if ( strcmp(installName, "/usr/lib/system/libcorecrypto.dylib") == 0 )
- ml = (dyld3::MachOLoaded*)mh;
+void CacheBuilder::fipsSign() {
+ __block bool found = false;
+ _buffer->forEachImage(^(const mach_header* mh, const char* installName) {
+ __block void *hash_location = nullptr;
+ // Return if this is not corecrypto
+ if (strcmp(installName, "/usr/lib/system/libcorecrypto.dylib") != 0) {
+ return;
+ }
+ found = true;
+ auto parser = dyld3::MachOParser(mh, true);
+ parser.forEachLocalSymbol(_diagnostics, ^(const char *symbolName, uint64_t n_value, uint8_t n_type, uint8_t n_sect, uint16_t n_desc, bool &stop) {
+ if (strcmp(symbolName, "_fipspost_precalc_hmac") != 0)
+ return;
+ hash_location = (void *)(n_value - _archLayout->sharedMemoryStart + (uintptr_t)_buffer);
+ stop = true;
+ });
+
+ // Bail out if we did not find the symbol
+ if (hash_location == nullptr) {
+ _diagnostics.warning("Could not find _fipspost_precalc_hmac, skipping FIPS sealing");
+ return;
+ }
+
+ parser.forEachSection(^(const char *segName, const char *sectionName, uint32_t flags, const void *content, size_t size, bool illegalSectionSize, bool &stop) {
+ // FIXME: If we ever implement userspace __TEXT_EXEC this will need to be updated
+ if ( (strcmp(segName, "__TEXT" ) != 0) || (strcmp(sectionName, "__text") != 0) ) {
+ return;
+ }
+
+ if (illegalSectionSize) {
+ _diagnostics.error("FIPS section %s/%s extends beyond the end of the segment", segName, sectionName);
+ return;
+ }
+
+ //We have _fipspost_precalc_hmac and __TEXT,__text, seal it
+ unsigned char hmac_key = 0;
+ CCHmac(kCCHmacAlgSHA256, &hmac_key, 1, content, size, hash_location);
+ stop = true;
+ });
});
- if ( ml == nullptr ) {
- _diagnostics.warning("Could not find libcorecrypto.dylib, skipping FIPS sealing");
- return;
- }
-
- // find location in libcorecrypto.dylib to store hash of __text section
- uint64_t hashStoreSize;
- const void* hashStoreLocation = ml->findSectionContent("__TEXT", "__fips_hmacs", hashStoreSize);
- if ( hashStoreLocation == nullptr ) {
- _diagnostics.warning("Could not find __TEXT/__fips_hmacs section in libcorecrypto.dylib, skipping FIPS sealing");
- return;
- }
- if ( hashStoreSize != 32 ) {
- _diagnostics.warning("__TEXT/__fips_hmacs section in libcorecrypto.dylib is not 32 bytes in size, skipping FIPS sealing");
- return;
- }
-
- // compute hmac hash of __text section
- uint64_t textSize;
- const void* textLocation = ml->findSectionContent("__TEXT", "__text", textSize);
- if ( textLocation == nullptr ) {
- _diagnostics.warning("Could not find __TEXT/__text section in libcorecrypto.dylib, skipping FIPS sealing");
- return;
- }
- unsigned char hmac_key = 0;
- CCHmac(kCCHmacAlgSHA256, &hmac_key, 1, textLocation, textSize, (void*)hashStoreLocation); // store hash directly into hashStoreLocation
+
+ if (!found) {
+ _diagnostics.warning("Could not find /usr/lib/system/libcorecrypto.dylib, skipping FIPS sealing");
+ }
}
void CacheBuilder::codeSign()
@@ -2009,7 +1481,9 @@
cacheIdentifier = "com.apple.dyld.cache." + _options.archName + ".development";
}
// get pointers into shared cache buffer
- size_t inBbufferSize = _readExecuteRegion.sizeInUse+_readWriteRegion.sizeInUse+_readOnlyRegion.sizeInUse+_localSymbolsRegion.sizeInUse;
+ size_t inBbufferSize = _currentFileSize;
+ const uint8_t* inBuffer = (uint8_t*)_buffer;
+ uint8_t* csBuffer = (uint8_t*)_buffer+inBbufferSize;
// layout code signature contents
uint32_t blobCount = agile ? 4 : 3;
@@ -2030,18 +1504,14 @@
size_t sbSize = cmsOffset + cmsSize;
size_t sigSize = align(sbSize, 14); // keep whole cache 16KB aligned
- // allocate space for blob
- vm_address_t codeSigAlloc;
- if ( vm_allocate(mach_task_self(), &codeSigAlloc, sigSize, VM_FLAGS_ANYWHERE) != 0 ) {
- _diagnostics.error("could not allocate code signature buffer");
+ if ( _currentFileSize+sigSize > _allocatedBufferSize ) {
+ _diagnostics.error("cache buffer too small to hold code signature (buffer size=%lldMB, signature size=%ldMB, free space=%lldMB)",
+ _allocatedBufferSize/1024/1024, sigSize/1024/1024, (_allocatedBufferSize-_currentFileSize)/1024/1024);
return;
}
- _codeSignatureRegion.buffer = (uint8_t*)codeSigAlloc;
- _codeSignatureRegion.bufferSize = sigSize;
- _codeSignatureRegion.sizeInUse = sigSize;
// create overall code signature which is a superblob
- CS_SuperBlob* sb = reinterpret_cast<CS_SuperBlob*>(_codeSignatureRegion.buffer);
+ CS_SuperBlob* sb = reinterpret_cast<CS_SuperBlob*>(csBuffer);
sb->magic = htonl(CSMAGIC_EMBEDDED_SIGNATURE);
sb->length = htonl(sbSize);
sb->count = htonl(blobCount);
@@ -2084,9 +1554,10 @@
cd->codeLimit64 = 0; // falls back to codeLimit
// executable segment info
- cd->execSegBase = htonll(_readExecuteRegion.cacheFileOffset); // base of TEXT segment
- cd->execSegLimit = htonll(_readExecuteRegion.sizeInUse); // size of TEXT segment
- cd->execSegFlags = 0; // not a main binary
+ const dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)((char*)_buffer + _buffer->header.mappingOffset);
+ cd->execSegBase = htonll(mappings[0].fileOffset); // base of TEXT segment
+ cd->execSegLimit = htonll(mappings[0].size); // size of TEXT segment
+ cd->execSegFlags = 0; // not a main binary
// initialize dynamic fields of Code Directory
strcpy((char*)cd + idOffset, cacheIdentifier.c_str());
@@ -2147,54 +1618,22 @@
cms->magic = htonl(CSMAGIC_BLOBWRAPPER);
cms->length = htonl(sizeof(CS_Blob));
-
// alter header of cache to record size and location of code signature
// do this *before* hashing each page
- dyld_cache_header* cache = (dyld_cache_header*)_readExecuteRegion.buffer;
- cache->codeSignatureOffset = inBbufferSize;
- cache->codeSignatureSize = sigSize;
-
- const uint32_t rwSlotStart = (uint32_t)(_readExecuteRegion.sizeInUse / CS_PAGE_SIZE);
- const uint32_t roSlotStart = (uint32_t)(rwSlotStart + _readWriteRegion.sizeInUse / CS_PAGE_SIZE);
- const uint32_t localsSlotStart = (uint32_t)(roSlotStart + _readOnlyRegion.sizeInUse / CS_PAGE_SIZE);
- auto codeSignPage = ^(size_t i) {
- const uint8_t* code = nullptr;
- // move to correct region
- if ( i < rwSlotStart )
- code = _readExecuteRegion.buffer + (i * CS_PAGE_SIZE);
- else if ( i >= rwSlotStart && i < roSlotStart )
- code = _readWriteRegion.buffer + ((i - rwSlotStart) * CS_PAGE_SIZE);
- else if ( i >= roSlotStart && i < localsSlotStart )
- code = _readOnlyRegion.buffer + ((i - roSlotStart) * CS_PAGE_SIZE);
- else
- code = _localSymbolsRegion.buffer + ((i - localsSlotStart) * CS_PAGE_SIZE);
-
- CCDigest(dscDigestFormat, code, CS_PAGE_SIZE, hashSlot + (i * dscHashSize));
+ _buffer->header.codeSignatureOffset = inBbufferSize;
+ _buffer->header.codeSignatureSize = sigSize;
+
+ // compute hashes
+ const uint8_t* code = inBuffer;
+ for (uint32_t i=0; i < slotCount; ++i) {
+ CCDigest(dscDigestFormat, code, CS_PAGE_SIZE, hashSlot);
+ hashSlot += dscHashSize;
if ( agile ) {
- CCDigest(kCCDigestSHA256, code, CS_PAGE_SIZE, hash256Slot + (i * CS_HASH_SIZE_SHA256));
- }
- };
-
- // compute hashes
- dispatch_apply(slotCount, DISPATCH_APPLY_AUTO, ^(size_t i) {
- codeSignPage(i);
- });
-
- // Now that we have a code signature, compute a UUID from it.
-
- // Clear existing UUID, then MD5 whole cache buffer.
- {
- uint8_t* uuidLoc = cache->uuid;
- assert(uuid_is_null(uuidLoc));
- static_assert(offsetof(dyld_cache_header, uuid) / CS_PAGE_SIZE == 0, "uuid is expected in the first page of the cache");
- CC_MD5((const void*)cd, (unsigned)cdSize, uuidLoc);
- // <rdar://problem/6723729> uuids should conform to RFC 4122 UUID version 4 & UUID version 5 formats
- uuidLoc[6] = ( uuidLoc[6] & 0x0F ) | ( 3 << 4 );
- uuidLoc[8] = ( uuidLoc[8] & 0x3F ) | 0x80;
-
- // Now codesign page 0 again
- codeSignPage(0);
+ CCDigest(kCCDigestSHA256, code, CS_PAGE_SIZE, hash256Slot);
+ hash256Slot += CS_HASH_SIZE_SHA256;
+ }
+ code += CS_PAGE_SIZE;
}
// hash of entire code directory (cdHash) uses same hash as each page
@@ -2211,6 +1650,9 @@
else {
memset(_cdHashSecond, 0, 20);
}
+
+ // increase file size to include newly append code signature
+ _currentFileSize += sigSize;
}
const bool CacheBuilder::agileSignature()
@@ -2236,345 +1678,92 @@
return cdHash(_cdHashSecond);
}
-
-void CacheBuilder::buildImageArray(std::vector<DyldSharedCache::FileAlias>& aliases)
-{
- typedef dyld3::closure::ClosureBuilder::CachedDylibInfo CachedDylibInfo;
- typedef dyld3::closure::Image::PatchableExport::PatchLocation PatchLocation;
- typedef uint64_t CacheOffset;
-
- // convert STL data structures to simple arrays to passe to makeDyldCacheImageArray()
- __block std::vector<CachedDylibInfo> dylibInfos;
- __block std::unordered_map<dyld3::closure::ImageNum, const dyld3::MachOLoaded*> imageNumToML;
- DyldSharedCache* cache = (DyldSharedCache*)_readExecuteRegion.buffer;
- cache->forEachImage(^(const mach_header* mh, const char* installName) {
- uint64_t mtime;
- uint64_t inode;
- cache->getIndexedImageEntry((uint32_t)dylibInfos.size(), mtime, inode);
- CachedDylibInfo entry;
- entry.fileInfo.fileContent = mh;
- entry.fileInfo.path = installName;
- entry.fileInfo.sliceOffset = 0;
- entry.fileInfo.inode = inode;
- entry.fileInfo.mtime = mtime;
- dylibInfos.push_back(entry);
- imageNumToML[(dyld3::closure::ImageNum)(dylibInfos.size())] = (dyld3::MachOLoaded*)mh;
- });
-
- // Convert symlinks from STL to simple char pointers.
- std::vector<dyld3::closure::ClosureBuilder::CachedDylibAlias> dylibAliases;
- dylibAliases.reserve(aliases.size());
- for (const auto& alias : aliases)
- dylibAliases.push_back({ alias.realPath.c_str(), alias.aliasPath.c_str() });
-
-
- __block std::unordered_map<const dyld3::MachOLoaded*, std::set<CacheOffset>> dylibToItsExports;
- __block std::unordered_map<CacheOffset, std::vector<PatchLocation>> exportsToUses;
- __block std::unordered_map<CacheOffset, const char*> exportsToName;
-
- dyld3::closure::ClosureBuilder::CacheDylibsBindingHandlers handlers;
-
- handlers.chainedBind = ^(dyld3::closure::ImageNum, const dyld3::MachOLoaded* imageLoadAddress,
- const dyld3::Array<uint64_t>& starts,
- const dyld3::Array<dyld3::closure::Image::ResolvedSymbolTarget>& targets,
- const dyld3::Array<dyld3::closure::ClosureBuilder::ResolvedTargetInfo>& targetInfos) {
- for (uint64_t start : starts) {
- dyld3::closure::Image::forEachChainedFixup((void*)imageLoadAddress, start, ^(uint64_t* fixupLoc, dyld3::MachOLoaded::ChainedFixupPointerOnDisk fixupInfo, bool& stop) {
- // record location in aslr tracker so kernel can slide this on page-in
- _aslrTracker.add(fixupLoc);
-
- // if bind, record info for patch table and convert to rebase
- if ( fixupInfo.plainBind.bind ) {
- dyld3::closure::Image::ResolvedSymbolTarget target = targets[fixupInfo.plainBind.ordinal];
- const dyld3::closure::ClosureBuilder::ResolvedTargetInfo& targetInfo = targetInfos[fixupInfo.plainBind.ordinal];
- dyld3::MachOLoaded::ChainedFixupPointerOnDisk* loc;
- uint64_t offsetInCache;
- switch ( target.sharedCache.kind ) {
- case dyld3::closure::Image::ResolvedSymbolTarget::kindSharedCache:
- loc = (dyld3::MachOLoaded::ChainedFixupPointerOnDisk*)fixupLoc;
- offsetInCache = target.sharedCache.offset - targetInfo.addend;
- dylibToItsExports[targetInfo.foundInDylib].insert(offsetInCache);
- exportsToName[offsetInCache] = targetInfo.foundSymbolName;
- if ( fixupInfo.authBind.auth ) {
- // turn this auth bind into an auth rebase into the cache
- loc->authRebase.bind = 0;
- loc->authRebase.target = target.sharedCache.offset;
- exportsToUses[offsetInCache].push_back(PatchLocation((uint8_t*)fixupLoc - _readExecuteRegion.buffer, targetInfo.addend, *loc));
- }
- else {
- // turn this plain bind into an plain rebase into the cache
- loc->plainRebase.bind = 0;
- loc->plainRebase.target = _archLayout->sharedMemoryStart + target.sharedCache.offset;
- exportsToUses[offsetInCache].push_back(PatchLocation((uint8_t*)fixupLoc - _readExecuteRegion.buffer, targetInfo.addend));
- }
- break;
- case dyld3::closure::Image::ResolvedSymbolTarget::kindAbsolute:
- if ( _archLayout->is64 )
- *((uint64_t*)fixupLoc) = target.absolute.value;
- else
- *((uint32_t*)fixupLoc) = (uint32_t)(target.absolute.value);
- // don't record absolute targets for ASLR
- break;
- default:
- assert(0 && "unsupported ResolvedSymbolTarget kind in dyld cache");
- }
- }
- });
- }
- };
-
- handlers.rebase = ^(dyld3::closure::ImageNum imageNum, const dyld3::MachOLoaded* imageToFix, uint32_t runtimeOffset) {
- // record location in aslr tracker so kernel can slide this on page-in
- uint8_t* fixupLoc = (uint8_t*)imageToFix+runtimeOffset;
- _aslrTracker.add(fixupLoc);
- };
-
- handlers.bind = ^(dyld3::closure::ImageNum imageNum, const dyld3::MachOLoaded* mh,
- uint32_t runtimeOffset, dyld3::closure::Image::ResolvedSymbolTarget target,
- const dyld3::closure::ClosureBuilder::ResolvedTargetInfo& targetInfo) {
- uint8_t* fixupLoc = (uint8_t*)mh+runtimeOffset;
-
- // binder is called a second time for weak_bind info, which we ignore when building cache
- const bool weakDefUseAlreadySet = targetInfo.weakBindCoalese && _aslrTracker.has(fixupLoc);
-
- // do actual bind that sets pointer in image to unslid target address
- uint64_t offsetInCache;
- switch ( target.sharedCache.kind ) {
- case dyld3::closure::Image::ResolvedSymbolTarget::kindSharedCache:
- offsetInCache = target.sharedCache.offset - targetInfo.addend;
- dylibToItsExports[targetInfo.foundInDylib].insert(offsetInCache);
- exportsToUses[offsetInCache].push_back(PatchLocation(fixupLoc - _readExecuteRegion.buffer, targetInfo.addend));
- exportsToName[offsetInCache] = targetInfo.foundSymbolName;
- if ( !weakDefUseAlreadySet ) {
- if ( _archLayout->is64 )
- *((uint64_t*)fixupLoc) = _archLayout->sharedMemoryStart + target.sharedCache.offset;
- else
- *((uint32_t*)fixupLoc) = (uint32_t)(_archLayout->sharedMemoryStart + target.sharedCache.offset);
- // record location in aslr tracker so kernel can slide this on page-in
- _aslrTracker.add(fixupLoc);
- }
- break;
- case dyld3::closure::Image::ResolvedSymbolTarget::kindAbsolute:
- if ( _archLayout->is64 )
- *((uint64_t*)fixupLoc) = target.absolute.value;
- else
- *((uint32_t*)fixupLoc) = (uint32_t)(target.absolute.value);
- // don't record absolute targets for ASLR
- // HACK: Split seg may have added a target. Remove it
- _aslrTracker.remove(fixupLoc);
- if ( (targetInfo.libOrdinal > 0) && (targetInfo.libOrdinal <= mh->dependentDylibCount()) ) {
- _missingWeakImports[fixupLoc] = mh->dependentDylibLoadPath(targetInfo.libOrdinal - 1);
- }
- break;
- default:
- assert(0 && "unsupported ResolvedSymbolTarget kind in dyld cache");
- }
- };
-
- handlers.forEachExportsPatch = ^(dyld3::closure::ImageNum imageNum, void (^handler)(const dyld3::closure::ClosureBuilder::CacheDylibsBindingHandlers::PatchInfo&)) {
- const dyld3::MachOLoaded* ml = imageNumToML[imageNum];
- for (CacheOffset exportCacheOffset : dylibToItsExports[ml]) {
- dyld3::closure::ClosureBuilder::CacheDylibsBindingHandlers::PatchInfo info;
- std::vector<PatchLocation>& uses = exportsToUses[exportCacheOffset];
- uses.erase(std::unique(uses.begin(), uses.end()), uses.end());
- info.exportCacheOffset = (uint32_t)exportCacheOffset;
- info.exportSymbolName = exportsToName[exportCacheOffset];
- info.usesCount = (uint32_t)uses.size();
- info.usesArray = &uses.front();
- handler(info);
- }
- };
-
-
- // build ImageArray for all dylibs in dyld cache
- dyld3::closure::PathOverrides pathOverrides;
- dyld3::closure::ClosureBuilder cb(dyld3::closure::kFirstDyldCacheImageNum, _fileSystem, cache, false, pathOverrides, dyld3::closure::ClosureBuilder::AtPath::none, nullptr, _archLayout->archName, _options.platform, &handlers);
- dyld3::Array<CachedDylibInfo> dylibs(&dylibInfos[0], dylibInfos.size(), dylibInfos.size());
- const dyld3::Array<dyld3::closure::ClosureBuilder::CachedDylibAlias> aliasesArray(dylibAliases.data(), dylibAliases.size(), dylibAliases.size());
- _imageArray = cb.makeDyldCacheImageArray(_options.optimizeStubs, dylibs, aliasesArray);
- if ( cb.diagnostics().hasError() ) {
- _diagnostics.error("%s", cb.diagnostics().errorMessage().c_str());
+void CacheBuilder::addCachedDylibsImageGroup(dyld3::ImageProxyGroup* dylibGroup)
+{
+ const dyld3::launch_cache::binary_format::ImageGroup* groupBinary = dylibGroup->makeImageGroupBinary(_diagnostics, _s_neverStubEliminate);
+ if (!groupBinary)
return;
- }
-}
-
-void CacheBuilder::addImageArray()
-{
- // build trie of dylib paths
- __block std::vector<DylibIndexTrie::Entry> dylibEntrys;
- _imageArray->forEachImage(^(const dyld3::closure::Image* image, bool& stop) {
- dylibEntrys.push_back(DylibIndexTrie::Entry(image->path(), DylibIndex(image->imageNum()-1)));
- image->forEachAlias(^(const char *aliasPath, bool &innerStop) {
- dylibEntrys.push_back(DylibIndexTrie::Entry(aliasPath, DylibIndex(image->imageNum()-1)));
- });
- });
- DylibIndexTrie dylibsTrie(dylibEntrys);
- std::vector<uint8_t> trieBytes;
- dylibsTrie.emit(trieBytes);
- while ( (trieBytes.size() % 4) != 0 )
- trieBytes.push_back(0);
-
- // check for fit
- uint64_t imageArraySize = _imageArray->size();
- size_t freeSpace = _readOnlyRegion.bufferSize - _readOnlyRegion.sizeInUse;
- if ( imageArraySize+trieBytes.size() > freeSpace ) {
- _diagnostics.error("cache buffer too small to hold ImageArray and Trie (buffer size=%lldMB, imageArray size=%lldMB, trie size=%luKB, free space=%ldMB)",
- _allocatedBufferSize/1024/1024, imageArraySize/1024/1024, trieBytes.size()/1024, freeSpace/1024/1024);
+
+ dyld3::launch_cache::ImageGroup group(groupBinary);
+ size_t groupSize = group.size();
+
+ if ( _currentFileSize+groupSize > _allocatedBufferSize ) {
+ _diagnostics.error("cache buffer too small to hold group[0] info (buffer size=%lldMB, group size=%ldMB, free space=%lldMB)",
+ _allocatedBufferSize/1024/1024, groupSize/1024/1024, (_allocatedBufferSize-_currentFileSize)/1024/1024);
return;
}
- // copy into cache and update header
- DyldSharedCache* dyldCache = (DyldSharedCache*)_readExecuteRegion.buffer;
- dyldCache->header.dylibsImageArrayAddr = _readOnlyRegion.unslidLoadAddress + _readOnlyRegion.sizeInUse;
- dyldCache->header.dylibsImageArraySize = imageArraySize;
- dyldCache->header.dylibsTrieAddr = dyldCache->header.dylibsImageArrayAddr + imageArraySize;
- dyldCache->header.dylibsTrieSize = trieBytes.size();
- ::memcpy(_readOnlyRegion.buffer + _readOnlyRegion.sizeInUse, _imageArray, imageArraySize);
- ::memcpy(_readOnlyRegion.buffer + _readOnlyRegion.sizeInUse + imageArraySize, &trieBytes[0], trieBytes.size());
- _readOnlyRegion.sizeInUse += align(imageArraySize+trieBytes.size(),14);
-}
-
-void CacheBuilder::addOtherImageArray(const std::vector<LoadedMachO>& otherDylibsAndBundles, std::vector<const LoadedMachO*>& overflowDylibs)
-{
- DyldSharedCache* cache = (DyldSharedCache*)_readExecuteRegion.buffer;
- dyld3::closure::PathOverrides pathOverrides;
- dyld3::closure::ClosureBuilder cb(dyld3::closure::kFirstOtherOSImageNum, _fileSystem, cache, false, pathOverrides, dyld3::closure::ClosureBuilder::AtPath::none, nullptr, _archLayout->archName, _options.platform);
-
- // make ImageArray for other dylibs and bundles
- STACK_ALLOC_ARRAY(dyld3::closure::LoadedFileInfo, others, otherDylibsAndBundles.size() + overflowDylibs.size());
- for (const LoadedMachO& other : otherDylibsAndBundles) {
- if ( !contains(other.loadedFileInfo.path, ".app/") )
- others.push_back(other.loadedFileInfo);
- }
-
- for (const LoadedMachO* dylib : overflowDylibs) {
- if (dylib->mappedFile.mh->canHavePrecomputedDlopenClosure(dylib->mappedFile.runtimePath.c_str(), ^(const char*) {}) )
- others.push_back(dylib->loadedFileInfo);
- }
-
- // Sort the others array by name so that it is deterministic
- std::sort(others.begin(), others.end(),
- [](const dyld3::closure::LoadedFileInfo& a, const dyld3::closure::LoadedFileInfo& b) {
- return strcmp(a.path, b.path) < 0;
- });
-
- const dyld3::closure::ImageArray* otherImageArray = cb.makeOtherDylibsImageArray(others, (uint32_t)_sortedDylibs.size());
-
- // build trie of paths
- __block std::vector<DylibIndexTrie::Entry> otherEntrys;
- otherImageArray->forEachImage(^(const dyld3::closure::Image* image, bool& stop) {
- if ( !image->isInvalid() )
- otherEntrys.push_back(DylibIndexTrie::Entry(image->path(), DylibIndex(image->imageNum())));
- });
- DylibIndexTrie dylibsTrie(otherEntrys);
- std::vector<uint8_t> trieBytes;
- dylibsTrie.emit(trieBytes);
- while ( (trieBytes.size() % 4) != 0 )
- trieBytes.push_back(0);
-
- // check for fit
- uint64_t imageArraySize = otherImageArray->size();
- size_t freeSpace = _readOnlyRegion.bufferSize - _readOnlyRegion.sizeInUse;
- if ( imageArraySize+trieBytes.size() > freeSpace ) {
- _diagnostics.error("cache buffer too small to hold ImageArray and Trie (buffer size=%lldMB, imageArray size=%lldMB, trie size=%luKB, free space=%ldMB)",
- _allocatedBufferSize/1024/1024, imageArraySize/1024/1024, trieBytes.size()/1024, freeSpace/1024/1024);
+ // append ImageGroup data to read-only region of cache
+ uint8_t* loc = (uint8_t*)_buffer + _currentFileSize;
+ memcpy(loc, groupBinary, groupSize);
+ dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)((char*)_buffer + _buffer->header.mappingOffset);
+ _buffer->header.dylibsImageGroupAddr = mappings[2].address + (_currentFileSize - mappings[2].fileOffset);
+ _buffer->header.dylibsImageGroupSize = (uint32_t)groupSize;
+ _currentFileSize += groupSize;
+ free((void*)groupBinary);
+}
+
+
+void CacheBuilder::addCachedOtherDylibsImageGroup(dyld3::ImageProxyGroup* otherGroup)
+{
+ const dyld3::launch_cache::binary_format::ImageGroup* groupBinary = otherGroup->makeImageGroupBinary(_diagnostics);
+ if (!groupBinary)
return;
- }
-
- // copy into cache and update header
- DyldSharedCache* dyldCache = (DyldSharedCache*)_readExecuteRegion.buffer;
- dyldCache->header.otherImageArrayAddr = _readOnlyRegion.unslidLoadAddress + _readOnlyRegion.sizeInUse;
- dyldCache->header.otherImageArraySize = imageArraySize;
- dyldCache->header.otherTrieAddr = dyldCache->header.otherImageArrayAddr + imageArraySize;
- dyldCache->header.otherTrieSize = trieBytes.size();
- ::memcpy(_readOnlyRegion.buffer + _readOnlyRegion.sizeInUse, otherImageArray, imageArraySize);
- ::memcpy(_readOnlyRegion.buffer + _readOnlyRegion.sizeInUse + imageArraySize, &trieBytes[0], trieBytes.size());
- _readOnlyRegion.sizeInUse += align(imageArraySize+trieBytes.size(),14);
-}
-
-
-void CacheBuilder::addClosures(const std::vector<LoadedMachO>& osExecutables)
-{
- const DyldSharedCache* dyldCache = (DyldSharedCache*)_readExecuteRegion.buffer;
-
- __block std::vector<Diagnostics> osExecutablesDiags;
- __block std::vector<const dyld3::closure::LaunchClosure*> osExecutablesClosures;
- osExecutablesDiags.resize(osExecutables.size());
- osExecutablesClosures.resize(osExecutables.size());
-
- dispatch_apply(osExecutables.size(), DISPATCH_APPLY_AUTO, ^(size_t index) {
- const LoadedMachO& loadedMachO = osExecutables[index];
- // don't pre-build closures for staged apps into dyld cache, since they won't run from that location
- if ( startsWith(loadedMachO.mappedFile.runtimePath, "/private/var/staged_system_apps/") ) {
- return;
- }
- dyld3::closure::PathOverrides pathOverrides;
- dyld3::closure::ClosureBuilder builder(dyld3::closure::kFirstLaunchClosureImageNum, _fileSystem, dyldCache, false, pathOverrides, dyld3::closure::ClosureBuilder::AtPath::all, nullptr, _archLayout->archName, _options.platform, nullptr);
- bool issetuid = false;
- if ( this->_options.platform == dyld3::Platform::macOS )
- _fileSystem.fileExists(loadedMachO.loadedFileInfo.path, nullptr, nullptr, &issetuid);
- const dyld3::closure::LaunchClosure* mainClosure = builder.makeLaunchClosure(loadedMachO.loadedFileInfo, issetuid);
- if ( builder.diagnostics().hasError() ) {
- osExecutablesDiags[index].error("%s", builder.diagnostics().errorMessage().c_str());
- }
- else {
- assert(mainClosure != nullptr);
- osExecutablesClosures[index] = mainClosure;
- }
- });
-
- std::map<std::string, const dyld3::closure::LaunchClosure*> closures;
- for (uint64_t i = 0, e = osExecutables.size(); i != e; ++i) {
- const LoadedMachO& loadedMachO = osExecutables[i];
- const Diagnostics& diag = osExecutablesDiags[i];
- if (diag.hasError()) {
- if ( _options.verbose ) {
- _diagnostics.warning("building closure for '%s': %s", loadedMachO.mappedFile.runtimePath.c_str(), diag.errorMessage().c_str());
- for (const std::string& warn : diag.warnings() )
- _diagnostics.warning("%s", warn.c_str());
- }
- if ( loadedMachO.inputFile && (loadedMachO.inputFile->mustBeIncluded()) ) {
- loadedMachO.inputFile->diag.error("%s", diag.errorMessage().c_str());
- }
- } else {
- // Note, a closure could be null here if it has a path we skip.
- if (osExecutablesClosures[i] != nullptr)
- closures[loadedMachO.mappedFile.runtimePath] = osExecutablesClosures[i];
- }
- }
-
- osExecutablesDiags.clear();
- osExecutablesClosures.clear();
-
+
+ dyld3::launch_cache::ImageGroup group(groupBinary);
+ size_t groupSize = group.size();
+
+ if ( _currentFileSize+groupSize > _allocatedBufferSize ) {
+ _diagnostics.error("cache buffer too small to hold group[1] info (buffer size=%lldMB, group size=%ldMB, free space=%lldMB)",
+ _allocatedBufferSize/1024/1024, groupSize/1024/1024, (_allocatedBufferSize-_currentFileSize)/1024/1024);
+ return;
+ }
+
+ // append ImageGroup data to read-only region of cache
+ uint8_t* loc = (uint8_t*)_buffer + _currentFileSize;
+ memcpy(loc, groupBinary, groupSize);
+ dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)((char*)_buffer + _buffer->header.mappingOffset);
+ _buffer->header.otherImageGroupAddr = mappings[2].address + (_currentFileSize - mappings[2].fileOffset);
+ _buffer->header.otherImageGroupSize = (uint32_t)groupSize;
+ _currentFileSize += groupSize;
+ free((void*)groupBinary);
+}
+
+void CacheBuilder::addClosures(const std::map<std::string, const dyld3::launch_cache::binary_format::Closure*>& closures)
+{
// preflight space needed
size_t closuresSpace = 0;
for (const auto& entry : closures) {
- closuresSpace += entry.second->size();
- }
- size_t freeSpace = _readOnlyRegion.bufferSize - _readOnlyRegion.sizeInUse;
+ dyld3::launch_cache::Closure closure(entry.second);
+ closuresSpace += closure.size();
+ }
+ size_t freeSpace = _allocatedBufferSize - _currentFileSize;
if ( closuresSpace > freeSpace ) {
_diagnostics.error("cache buffer too small to hold all closures (buffer size=%lldMB, closures size=%ldMB, free space=%ldMB)",
_allocatedBufferSize/1024/1024, closuresSpace/1024/1024, freeSpace/1024/1024);
return;
}
- DyldSharedCache* cache = (DyldSharedCache*)_readExecuteRegion.buffer;
- cache->header.progClosuresAddr = _readOnlyRegion.unslidLoadAddress + _readOnlyRegion.sizeInUse;
- uint8_t* closuresBase = _readOnlyRegion.buffer + _readOnlyRegion.sizeInUse;
+
+ dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)((char*)_buffer + _buffer->header.mappingOffset);
+ _buffer->header.progClosuresAddr = mappings[2].address + (_currentFileSize - mappings[2].fileOffset);
+ uint8_t* closuresBase = (uint8_t*)_buffer + _currentFileSize;
std::vector<DylibIndexTrie::Entry> closureEntrys;
uint32_t currentClosureOffset = 0;
for (const auto& entry : closures) {
- const dyld3::closure::LaunchClosure* closure = entry.second;
+ const dyld3::launch_cache::binary_format::Closure* closBuf = entry.second;
closureEntrys.push_back(DylibIndexTrie::Entry(entry.first, DylibIndex(currentClosureOffset)));
- size_t size = closure->size();
+ dyld3::launch_cache::Closure closure(closBuf);
+ size_t size = closure.size();
assert((size % 4) == 0);
- memcpy(closuresBase+currentClosureOffset, closure, size);
+ memcpy(closuresBase+currentClosureOffset, closBuf, size);
currentClosureOffset += size;
freeSpace -= size;
- closure->deallocate();
- }
- cache->header.progClosuresSize = currentClosureOffset;
- _readOnlyRegion.sizeInUse += currentClosureOffset;
- freeSpace = _readOnlyRegion.bufferSize - _readOnlyRegion.sizeInUse;
+ free((void*)closBuf);
+ }
+ _buffer->header.progClosuresSize = currentClosureOffset;
+ _currentFileSize += currentClosureOffset;
+ freeSpace = _allocatedBufferSize - _currentFileSize;
+
// build trie of indexes into closures list
DylibIndexTrie closureTrie(closureEntrys);
std::vector<uint8_t> trieBytes;
@@ -2586,147 +1775,10 @@
_allocatedBufferSize/1024/1024, trieBytes.size()/1024/1024, freeSpace/1024/1024);
return;
}
- memcpy(_readOnlyRegion.buffer + _readOnlyRegion.sizeInUse, &trieBytes[0], trieBytes.size());
- cache->header.progClosuresTrieAddr = _readOnlyRegion.unslidLoadAddress + _readOnlyRegion.sizeInUse;
- cache->header.progClosuresTrieSize = trieBytes.size();
- _readOnlyRegion.sizeInUse += trieBytes.size();
- _readOnlyRegion.sizeInUse = align(_readOnlyRegion.sizeInUse, 14);
-}
-
-
-bool CacheBuilder::writeCache(void (^cacheSizeCallback)(uint64_t size), bool (^copyCallback)(const uint8_t* src, uint64_t size, uint64_t dstOffset))
-{
- const dyld_cache_header* cacheHeader = (dyld_cache_header*)_readExecuteRegion.buffer;
- const dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)(_readExecuteRegion.buffer + cacheHeader->mappingOffset);
- assert(_readExecuteRegion.sizeInUse == mappings[0].size);
- assert(_readWriteRegion.sizeInUse == mappings[1].size);
- assert(_readOnlyRegion.sizeInUse == mappings[2].size);
- assert(_readExecuteRegion.cacheFileOffset == mappings[0].fileOffset);
- assert(_readWriteRegion.cacheFileOffset == mappings[1].fileOffset);
- assert(_readOnlyRegion.cacheFileOffset == mappings[2].fileOffset);
- assert(_codeSignatureRegion.sizeInUse == cacheHeader->codeSignatureSize);
- assert(cacheHeader->codeSignatureOffset == mappings[2].fileOffset+_readOnlyRegion.sizeInUse+_localSymbolsRegion.sizeInUse);
- cacheSizeCallback(_readExecuteRegion.sizeInUse+_readWriteRegion.sizeInUse+_readOnlyRegion.sizeInUse+_localSymbolsRegion.sizeInUse+_codeSignatureRegion.sizeInUse);
- bool fullyWritten = copyCallback(_readExecuteRegion.buffer, _readExecuteRegion.sizeInUse, mappings[0].fileOffset);
- fullyWritten &= copyCallback(_readWriteRegion.buffer, _readWriteRegion.sizeInUse, mappings[1].fileOffset);
- fullyWritten &= copyCallback(_readOnlyRegion.buffer, _readOnlyRegion.sizeInUse, mappings[2].fileOffset);
- if ( _localSymbolsRegion.sizeInUse != 0 ) {
- assert(cacheHeader->localSymbolsOffset == mappings[2].fileOffset+_readOnlyRegion.sizeInUse);
- fullyWritten &= copyCallback(_localSymbolsRegion.buffer, _localSymbolsRegion.sizeInUse, cacheHeader->localSymbolsOffset);
- }
- fullyWritten &= copyCallback(_codeSignatureRegion.buffer, _codeSignatureRegion.sizeInUse, cacheHeader->codeSignatureOffset);
- return fullyWritten;
-}
-
-
-void CacheBuilder::writeFile(const std::string& path)
-{
- std::string pathTemplate = path + "-XXXXXX";
- size_t templateLen = strlen(pathTemplate.c_str())+2;
- char pathTemplateSpace[templateLen];
- strlcpy(pathTemplateSpace, pathTemplate.c_str(), templateLen);
- int fd = mkstemp(pathTemplateSpace);
- if ( fd != -1 ) {
- auto cacheSizeCallback = ^(uint64_t size) {
- ::ftruncate(fd, size);
- };
- auto copyCallback = ^(const uint8_t* src, uint64_t size, uint64_t dstOffset) {
- uint64_t writtenSize = pwrite(fd, src, size, dstOffset);
- return writtenSize == size;
- };
- bool fullyWritten = writeCache(cacheSizeCallback, copyCallback);
- if ( fullyWritten ) {
- ::fchmod(fd, S_IRUSR|S_IWUSR|S_IRGRP|S_IROTH); // mkstemp() makes file "rw-------", switch it to "rw-r--r--"
- if ( ::rename(pathTemplateSpace, path.c_str()) == 0) {
- ::close(fd);
- return; // success
- }
- }
- else {
- _diagnostics.error("could not write file %s", pathTemplateSpace);
- }
- ::close(fd);
- ::unlink(pathTemplateSpace);
- }
- else {
- _diagnostics.error("could not open file %s", pathTemplateSpace);
- }
-}
-
-void CacheBuilder::writeBuffer(uint8_t*& buffer, uint64_t& bufferSize) {
- auto cacheSizeCallback = ^(uint64_t size) {
- buffer = (uint8_t*)malloc(size);
- bufferSize = size;
- };
- auto copyCallback = ^(const uint8_t* src, uint64_t size, uint64_t dstOffset) {
- memcpy(buffer + dstOffset, src, size);
- return true;
- };
- bool fullyWritten = writeCache(cacheSizeCallback, copyCallback);
- assert(fullyWritten);
-}
-
-void CacheBuilder::writeMapFile(const std::string& path)
-{
- const DyldSharedCache* cache = (DyldSharedCache*)_readExecuteRegion.buffer;
- std::string mapContent = cache->mapFile();
- safeSave(mapContent.c_str(), mapContent.size(), path);
-}
-
-void CacheBuilder::writeMapFileBuffer(uint8_t*& buffer, uint64_t& bufferSize)
-{
- const DyldSharedCache* cache = (DyldSharedCache*)_readExecuteRegion.buffer;
- std::string mapContent = cache->mapFile();
- buffer = (uint8_t*)malloc(mapContent.size() + 1);
- bufferSize = mapContent.size() + 1;
- memcpy(buffer, mapContent.data(), bufferSize);
-}
-
-
-void CacheBuilder::forEachCacheDylib(void (^callback)(const std::string& path)) {
- for (const DylibInfo& dylibInfo : _sortedDylibs)
- callback(dylibInfo.runtimePath);
-}
-
-
-CacheBuilder::ASLR_Tracker::~ASLR_Tracker()
-{
- if ( _bitmap != nullptr )
- ::free(_bitmap);
-}
-
-void CacheBuilder::ASLR_Tracker::setDataRegion(const void* rwRegionStart, size_t rwRegionSize)
-{
- _pageCount = (unsigned)(rwRegionSize+_pageSize-1)/_pageSize;
- _regionStart = (uint8_t*)rwRegionStart;
- _endStart = (uint8_t*)rwRegionStart + rwRegionSize;
- _bitmap = (bool*)calloc(_pageCount*(_pageSize/4)*sizeof(bool), 1);
-}
-
-void CacheBuilder::ASLR_Tracker::add(void* loc)
-{
- uint8_t* p = (uint8_t*)loc;
- assert(p >= _regionStart);
- assert(p < _endStart);
- _bitmap[(p-_regionStart)/4] = true;
-}
-
-void CacheBuilder::ASLR_Tracker::remove(void* loc)
-{
- uint8_t* p = (uint8_t*)loc;
- assert(p >= _regionStart);
- assert(p < _endStart);
- _bitmap[(p-_regionStart)/4] = false;
-}
-
-bool CacheBuilder::ASLR_Tracker::has(void* loc)
-{
- uint8_t* p = (uint8_t*)loc;
- assert(p >= _regionStart);
- assert(p < _endStart);
- return _bitmap[(p-_regionStart)/4];
-}
-
-
-
-
+ memcpy((uint8_t*)_buffer + _currentFileSize, &trieBytes[0], trieBytes.size());
+ _buffer->header.progClosuresTrieAddr = mappings[2].address + (_currentFileSize - mappings[2].fileOffset);
+ _buffer->header.progClosuresTrieSize = trieBytes.size();
+ _currentFileSize += trieBytes.size();
+}
+
+