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--- dyld/dyld-195.6/src/ImageLoader.cpp
+++ dyld/dyld-97.1/src/ImageLoader.cpp
@@ -1,6 +1,6 @@
/* -*- mode: C++; c-basic-offset: 4; tab-width: 4 -*-
*
- * Copyright (c) 2004-2010 Apple Inc. All rights reserved.
+ * Copyright (c) 2004-2006 Apple Computer, Inc. All rights reserved.
*
* @APPLE_LICENSE_HEADER_START@
*
@@ -37,11 +37,13 @@
#include "ImageLoader.h"
+// in libc.a
+extern "C" void _spin_lock(uint32_t*);
+extern "C" void _spin_unlock(uint32_t*);
uint32_t ImageLoader::fgImagesUsedFromSharedCache = 0;
uint32_t ImageLoader::fgImagesWithUsedPrebinding = 0;
-uint32_t ImageLoader::fgImagesRequiringCoalescing = 0;
-uint32_t ImageLoader::fgImagesHasWeakDefinitions = 0;
+uint32_t ImageLoader::fgImagesRequiringNoFixups = 0;
uint32_t ImageLoader::fgTotalRebaseFixups = 0;
uint32_t ImageLoader::fgTotalBindFixups = 0;
uint32_t ImageLoader::fgTotalBindSymbolsResolved = 0;
@@ -54,87 +56,97 @@
uint64_t ImageLoader::fgTotalLoadLibrariesTime;
uint64_t ImageLoader::fgTotalRebaseTime;
uint64_t ImageLoader::fgTotalBindTime;
-uint64_t ImageLoader::fgTotalWeakBindTime;
-uint64_t ImageLoader::fgTotalDOF;
uint64_t ImageLoader::fgTotalInitTime;
+uintptr_t ImageLoader::fgNextSplitSegAddress = 0x90000000;
uint16_t ImageLoader::fgLoadOrdinal = 0;
-std::vector<ImageLoader::InterposeTuple>ImageLoader::fgInterposingTuples;
-uintptr_t ImageLoader::fgNextPIEDylibAddress = 0;
-
-
-
-ImageLoader::ImageLoader(const char* path, unsigned int libCount)
- : fPath(path), fDevice(0), fInode(0), fLastModified(0),
- fPathHash(0), fDlopenReferenceCount(0), fStaticReferenceCount(0),
- fDynamicReferenceCount(0), fDynamicReferences(NULL), fInitializerRecursiveLock(NULL),
- fDepth(0), fLoadOrder(fgLoadOrdinal++), fState(0), fLibraryCount(libCount),
- fAllLibraryChecksumsAndLoadAddressesMatch(false), fLeaveMapped(false), fNeverUnload(false),
- fHideSymbols(false), fMatchByInstallName(false),
- fInterposed(false), fRegisteredDOF(false), fAllLazyPointersBound(false),
- fBeingRemoved(false), fAddFuncNotified(false),
- fPathOwnedByImage(false), fWeakSymbolsBound(false)
-{
- if ( fPath != NULL )
- fPathHash = hash(fPath);
-}
-
-
-void ImageLoader::deleteImage(ImageLoader* image)
-{
- // this cannot be done in destructor because libImage() is implemented
- // in a subclass
- DependentLibraryInfo libraryInfos[image->libraryCount()];
- image->doGetDependentLibraries(libraryInfos);
- for(unsigned int i=0; i < image->libraryCount(); ++i) {
- ImageLoader* lib = image->libImage(i);
- if ( (lib != NULL) && ! libraryInfos[i].upward )
- lib->fStaticReferenceCount--;
- }
- delete image;
-}
-
-
-ImageLoader::~ImageLoader()
-{
- if ( fPathOwnedByImage && (fPath != NULL) )
- delete [] fPath;
- if ( fDynamicReferences != NULL ) {
- for (std::vector<const ImageLoader*>::iterator it = fDynamicReferences->begin(); it != fDynamicReferences->end(); ++it ) {
- const_cast<ImageLoader*>(*it)->fDynamicReferenceCount--;
- }
- delete fDynamicReferences;
- }
-}
-
-void ImageLoader::setFileInfo(dev_t device, ino_t inode, time_t modDate)
-{
+uintptr_t Segment::fgNextPIEDylibAddress = 0;
+
+
+void ImageLoader::init(const char* path, uint64_t offsetInFat, dev_t device, ino_t inode, time_t modDate)
+{
+ fPathHash = 0;
+ fPath = path;
+ fLogicalPath = NULL;
fDevice = device;
fInode = inode;
fLastModified = modDate;
+ fOffsetInFatFile = offsetInFat;
+ fLibraries = NULL;
+ fLibrariesCount = 0;
+ fDlopenReferenceCount = 0;
+ fStaticReferenceCount = 0;
+ fDynamicReferenceCount = 0;
+ fDynamicReferences = NULL;
+ fDepth = 0;
+ fLoadOrder = fgLoadOrdinal++;
+ fState = 0;
+ fAllLibraryChecksumsAndLoadAddressesMatch = false;
+ fLeaveMapped = false;
+ fNeverUnload = false;
+ fHideSymbols = false;
+ fMatchByInstallName = false;
+ fRegisteredDOF = false;
+#if IMAGE_NOTIFY_SUPPORT
+ fAnnounced = false;
+#endif
+ fAllLazyPointersBound = false;
+ fBeingRemoved = false;
+ fAddFuncNotified = false;
+ fPathOwnedByImage = false;
+#if RECURSIVE_INITIALIZER_LOCK
+ fInitializerRecursiveLock = NULL;
+#else
+ fInitializerLock = 0;
+#endif
+ if ( fPath != NULL )
+ fPathHash = hash(fPath);
+}
+
+
+ImageLoader::ImageLoader(const char* path, uint64_t offsetInFat, const struct stat& info)
+{
+ init(path, offsetInFat, info.st_dev, info.st_ino, info.st_mtime);
+}
+
+ImageLoader::ImageLoader(const char* moduleName)
+{
+ init(moduleName, 0, 0, 0, 0);
+}
+
+
+ImageLoader::~ImageLoader()
+{
+ if ( fPathOwnedByImage && (fPath != NULL) )
+ delete [] fPath;
+ if ( fLogicalPath != NULL )
+ delete [] fLogicalPath;
+ if ( fLibraries != NULL ) {
+ for (uint32_t i = 0; i < fLibrariesCount; ++i) {
+ if ( fLibraries[i].image != NULL )
+ fLibraries[i].image->fStaticReferenceCount--;
+ }
+ delete [] fLibraries;
+ }
+ if ( fDynamicReferences != NULL ) {
+ for (std::set<const ImageLoader*>::iterator it = fDynamicReferences->begin(); it != fDynamicReferences->end(); ++it ) {
+ const_cast<ImageLoader*>(*it)->fDynamicReferenceCount--;
+ }
+ delete fDynamicReferences;
+ }
}
void ImageLoader::setMapped(const LinkContext& context)
{
fState = dyld_image_state_mapped;
- context.notifySingle(dyld_image_state_mapped, this); // note: can throw exception
+ context.notifySingle(dyld_image_state_mapped, this->machHeader(), fPath, fLastModified);
}
void ImageLoader::addDynamicReference(const ImageLoader* target)
{
- bool alreadyInVector = false;
- if ( fDynamicReferences == NULL ) {
- fDynamicReferences = new std::vector<const ImageLoader*>();
- }
- else {
- for (std::vector<const ImageLoader*>::iterator it = fDynamicReferences->begin(); it != fDynamicReferences->end(); ++it ) {
- if ( *it == target ) {
- alreadyInVector = true;
- break;
- }
- }
- }
- if ( ! alreadyInVector ) {
- fDynamicReferences->push_back(target);
+ if ( fDynamicReferences == NULL )
+ fDynamicReferences = new std::set<const ImageLoader*>();
+ if ( fDynamicReferences->count(target) == 0 ) {
+ fDynamicReferences->insert(target);
const_cast<ImageLoader*>(target)->fDynamicReferenceCount++;
}
//dyld::log("dyld: addDynamicReference() from %s to %s, fDynamicReferences->size()=%lu\n", this->getPath(), target->getPath(), fDynamicReferences->size());
@@ -178,6 +190,29 @@
fPathHash = hash(fPath);
}
+void ImageLoader::setLogicalPath(const char* path)
+{
+ if ( fPath == NULL ) {
+ // no physical path set yet, so use this path as physical
+ this->setPath(path);
+ }
+ else if ( strcmp(path, fPath) == 0 ) {
+ // do not set logical path because it is the same as the physical path
+ fLogicalPath = NULL;
+ }
+ else {
+ fLogicalPath = new char[strlen(path)+1];
+ strcpy((char*)fLogicalPath, path);
+ }
+}
+
+const char* ImageLoader::getLogicalPath() const
+{
+ if ( fLogicalPath != NULL )
+ return fLogicalPath;
+ else
+ return fPath;
+}
uint32_t ImageLoader::hash(const char* path)
{
@@ -216,6 +251,11 @@
return fPath;
}
+uint64_t ImageLoader::getOffsetInFatFile() const
+{
+ return fOffsetInFatFile;
+}
+
void ImageLoader::setLeaveMapped()
{
fLeaveMapped = true;
@@ -245,10 +285,11 @@
{
if ( ! this->isLinked() )
return false;
- for(unsigned int i=0, e=segmentCount(); i < e; ++i) {
- const uint8_t* start = (const uint8_t*)segActualLoadAddress(i);
- const uint8_t* end = (const uint8_t*)segActualEndAddress(i);
- if ( (start <= addr) && (addr < end) && !segUnaccessible(i) )
+ for(ImageLoader::SegmentIterator it = this->beginSegments(); it != this->endSegments(); ++it ) {
+ Segment* seg = *it;
+ const uint8_t* start = (const uint8_t*)seg->getActualLoadAddress(this);
+ const uint8_t* end = start + seg->getSize();
+ if ( (start <= addr) && (addr < end) && !seg->unaccessible() )
return true;
}
return false;
@@ -256,16 +297,10 @@
bool ImageLoader::overlapsWithAddressRange(const void* start, const void* end) const
{
- for(unsigned int i=0, e=segmentCount(); i < e; ++i) {
- const uint8_t* segStart = (const uint8_t*)segActualLoadAddress(i);
- const uint8_t* segEnd = (const uint8_t*)segActualEndAddress(i);
- if ( strcmp(segName(i), "__UNIXSTACK") == 0 ) {
- // __UNIXSTACK never slides. This is the only place that cares
- // and checking for that segment name in segActualLoadAddress()
- // is too expensive.
- segStart -= getSlide();
- segEnd -= getSlide();
- }
+ for(ImageLoader::SegmentIterator it = this->beginSegments(); it != this->endSegments(); ++it ) {
+ Segment* seg = *it;
+ const uint8_t* segStart = (const uint8_t*)(seg->getActualLoadAddress(this));
+ const uint8_t* segEnd = segStart + seg->getSize();
if ( (start <= segStart) && (segStart < end) )
return true;
if ( (start <= segEnd) && (segEnd < end) )
@@ -278,10 +313,11 @@
void ImageLoader::getMappedRegions(MappedRegion*& regions) const
{
- for(unsigned int i=0, e=segmentCount(); i < e; ++i) {
+ for(ImageLoader::SegmentIterator it = this->beginSegments(); it != this->endSegments(); ++it ) {
+ Segment* seg = *it;
MappedRegion region;
- region.address = segActualLoadAddress(i);
- region.size = segSize(i);
+ region.address = seg->getActualLoadAddress(this);
+ region.size = seg->getSize();
*regions++ = region;
}
}
@@ -304,25 +340,25 @@
// search self
if ( notInImgageList(this, dsiStart, dsiCur) ) {
- sym = this->findExportedSymbol(name, false, foundIn);
+ sym = this->findExportedSymbol(name, NULL, false, foundIn);
if ( sym != NULL )
return sym;
*dsiCur++ = this;
}
// search directly dependent libraries
- for(unsigned int i=0; i < libraryCount(); ++i) {
- ImageLoader* dependentImage = libImage(i);
+ for (uint32_t i=0; i < fLibrariesCount; ++i) {
+ ImageLoader* dependentImage = fLibraries[i].image;
if ( (dependentImage != NULL) && notInImgageList(dependentImage, dsiStart, dsiCur) ) {
- const ImageLoader::Symbol* sym = dependentImage->findExportedSymbol(name, false, foundIn);
+ const ImageLoader::Symbol* sym = dependentImage->findExportedSymbol(name, NULL, false, foundIn);
if ( sym != NULL )
return sym;
}
}
// search indirectly dependent libraries
- for(unsigned int i=0; i < libraryCount(); ++i) {
- ImageLoader* dependentImage = libImage(i);
+ for (uint32_t i=0; i < fLibrariesCount; ++i) {
+ ImageLoader* dependentImage = fLibraries[i].image;
if ( (dependentImage != NULL) && notInImgageList(dependentImage, dsiStart, dsiCur) ) {
*dsiCur++ = dependentImage;
const ImageLoader::Symbol* sym = dependentImage->findExportedSymbolInDependentImagesExcept(name, dsiStart, dsiCur, dsiEnd, foundIn);
@@ -352,22 +388,13 @@
return this->findExportedSymbolInDependentImagesExcept(name, &dontSearchImages[0], cur, &dontSearchImages[imageCount], foundIn);
}
-// this is called by initializeMainExecutable() to interpose on the initial set of images
-void ImageLoader::applyInterposing(const LinkContext& context)
-{
- if ( fgInterposingTuples.size() != 0 )
- this->recursiveApplyInterposing(context);
-}
void ImageLoader::link(const LinkContext& context, bool forceLazysBound, bool preflightOnly, const RPathChain& loaderRPaths)
{
//dyld::log("ImageLoader::link(%s) refCount=%d, neverUnload=%d\n", this->getPath(), fStaticReferenceCount, fNeverUnload);
- // clear error strings
- (*context.setErrorStrings)(dyld_error_kind_none, NULL, NULL, NULL);
-
uint64_t t0 = mach_absolute_time();
- this->recursiveLoadLibraries(context, preflightOnly, loaderRPaths);
+ this->recursiveLoadLibraries(context,loaderRPaths);
context.notifyBatch(dyld_image_state_dependents_mapped);
// we only do the loading step for preflights
@@ -384,35 +411,20 @@
uint64_t t3 = mach_absolute_time();
this->recursiveBind(context, forceLazysBound);
-
- uint64_t t4 = mach_absolute_time();
- this->weakBind(context);
- uint64_t t5 = mach_absolute_time();
-
context.notifyBatch(dyld_image_state_bound);
- uint64_t t6 = mach_absolute_time();
-
+
+ uint64_t t4 = mach_absolute_time();
std::vector<DOFInfo> dofs;
this->recursiveGetDOFSections(context, dofs);
context.registerDOFs(dofs);
- uint64_t t7 = mach_absolute_time();
-
- // interpose any dynamically loaded images
- if ( !context.linkingMainExecutable && (fgInterposingTuples.size() != 0) ) {
- this->recursiveApplyInterposing(context);
- }
-
- // clear error strings
- (*context.setErrorStrings)(dyld_error_kind_none, NULL, NULL, NULL);
-
+
+
fgTotalLoadLibrariesTime += t1 - t0;
fgTotalRebaseTime += t3 - t2;
fgTotalBindTime += t4 - t3;
- fgTotalWeakBindTime += t5 - t4;
- fgTotalDOF += t7 - t6;
// done with initial dylib loads
- fgNextPIEDylibAddress = 0;
+ Segment::fgNextPIEDylibAddress = 0;
}
@@ -431,13 +443,18 @@
return false;
}
-void ImageLoader::runInitializers(const LinkContext& context, InitializerTimingList& timingInfo)
-{
+void ImageLoader::runInitializers(const LinkContext& context)
+{
+#if IMAGE_NOTIFY_SUPPORT
+ ImageLoader* newImages[context.imageCount()];
+ ImageLoader** end = newImages;
+ this->recursiveImageAnnouncement(context, end); // build bottom up list images being added
+ context.notifyAdding(newImages, end-newImages); // tell anyone who cares about these
+#endif
+
uint64_t t1 = mach_absolute_time();
- mach_port_t this_thread = mach_thread_self();
- this->recursiveInitialization(context, this_thread, timingInfo);
+ this->recursiveInitialization(context, mach_thread_self());
context.notifyBatch(dyld_image_state_initialized);
- mach_port_deallocate(mach_task_self(), this_thread);
uint64_t t2 = mach_absolute_time();
fgTotalInitTime += (t2 - t1);
}
@@ -450,10 +467,10 @@
if ( recursive ) {
// bind lower level libraries first
- for(unsigned int i=0; i < libraryCount(); ++i) {
- ImageLoader* dependentImage = libImage(i);
- if ( dependentImage != NULL )
- dependentImage->bindAllLazyPointers(context, recursive);
+ for(unsigned int i=0; i < fLibrariesCount; ++i){
+ DependentLibrary& libInfo = fLibraries[i];
+ if ( libInfo.image != NULL )
+ libInfo.image->bindAllLazyPointers(context, recursive);
}
}
// bind lazies in this image
@@ -461,6 +478,83 @@
}
}
+
+intptr_t ImageLoader::assignSegmentAddresses(const LinkContext& context)
+{
+ // preflight and calculate slide if needed
+ intptr_t slide = 0;
+ if ( this->segmentsCanSlide() && this->segmentsMustSlideTogether() ) {
+ bool needsToSlide = false;
+ uintptr_t lowAddr = UINTPTR_MAX;
+ uintptr_t highAddr = 0;
+ for(ImageLoader::SegmentIterator it = this->beginSegments(); it != this->endSegments(); ++it ) {
+ Segment* seg = *it;
+ const uintptr_t segLow = seg->getPreferredLoadAddress();
+ const uintptr_t segHigh = (segLow + seg->getSize() + 4095) & -4096;
+ if ( segLow < lowAddr )
+ lowAddr = segLow;
+ if ( segHigh > highAddr )
+ highAddr = segHigh;
+
+ if ( !seg->hasPreferredLoadAddress() || !Segment::reserveAddressRange(seg->getPreferredLoadAddress(), seg->getSize()) )
+ needsToSlide = true;
+ }
+ if ( needsToSlide ) {
+ // find a chunk of address space to hold all segments
+ uintptr_t addr = Segment::reserveAnAddressRange(highAddr-lowAddr, context);
+ slide = addr - lowAddr;
+ }
+ }
+ else if ( ! this->segmentsCanSlide() ) {
+ for(ImageLoader::SegmentIterator it = this->beginSegments(); it != this->endSegments(); ++it ) {
+ Segment* seg = *it;
+ if ( strcmp(seg->getName(), "__PAGEZERO") == 0 )
+ continue;
+ if ( !Segment::reserveAddressRange(seg->getPreferredLoadAddress(), seg->getSize()) )
+ throw "can't map";
+ }
+ }
+ else {
+ // mach-o does not support independently sliding segments
+ }
+ return slide;
+}
+
+
+void ImageLoader::mapSegments(int fd, uint64_t offsetInFat, uint64_t lenInFat, uint64_t fileLen, const LinkContext& context)
+{
+ if ( context.verboseMapping )
+ dyld::log("dyld: Mapping %s\n", this->getPath());
+ // find address range for image
+ intptr_t slide = this->assignSegmentAddresses(context);
+ // map in all segments
+ for(ImageLoader::SegmentIterator it = this->beginSegments(); it != this->endSegments(); ++it ) {
+ Segment* seg = *it;
+ seg->map(fd, offsetInFat, slide, this, context);
+ }
+ // update slide to reflect load location
+ this->setSlide(slide);
+}
+
+void ImageLoader::mapSegments(const void* memoryImage, uint64_t imageLen, const LinkContext& context)
+{
+ if ( context.verboseMapping )
+ dyld::log("dyld: Mapping memory %p\n", memoryImage);
+ // find address range for image
+ intptr_t slide = this->assignSegmentAddresses(context);
+ // map in all segments
+ for(ImageLoader::SegmentIterator it = this->beginSegments(); it != this->endSegments(); ++it ) {
+ Segment* seg = *it;
+ seg->map(memoryImage, slide, this, context);
+ }
+ // update slide to reflect load location
+ this->setSlide(slide);
+ // set R/W permissions on all segments at slide location
+ for(ImageLoader::SegmentIterator it = this->beginSegments(); it != this->endSegments(); ++it ) {
+ Segment* seg = *it;
+ seg->setPermissions(context, this);
+ }
+}
bool ImageLoader::allDependentLibrariesAsWhenPreBound() const
{
@@ -479,10 +573,10 @@
// get depth of dependents
unsigned int minDependentDepth = maxDepth;
- for(unsigned int i=0; i < libraryCount(); ++i) {
- ImageLoader* dependentImage = libImage(i);
- if ( dependentImage != NULL ) {
- unsigned int d = dependentImage->recursiveUpdateDepth(maxDepth);
+ for(unsigned int i=0; i < fLibrariesCount; ++i) {
+ DependentLibrary& libInfo = fLibraries[i];
+ if ( libInfo.image != NULL ) {
+ unsigned int d = libInfo.image->recursiveUpdateDepth(maxDepth);
if ( d < minDependentDepth )
minDependentDepth = d;
}
@@ -496,15 +590,17 @@
}
-void ImageLoader::recursiveLoadLibraries(const LinkContext& context, bool preflightOnly, const RPathChain& loaderRPaths)
+void ImageLoader::recursiveLoadLibraries(const LinkContext& context, const RPathChain& loaderRPaths)
{
if ( fState < dyld_image_state_dependents_mapped ) {
// break cycles
fState = dyld_image_state_dependents_mapped;
// get list of libraries this image needs
- //dyld::log("ImageLoader::recursiveLoadLibraries() %ld = %d*%ld\n", fLibrariesCount*sizeof(DependentLibrary), fLibrariesCount, sizeof(DependentLibrary));
- DependentLibraryInfo libraryInfos[fLibraryCount];
+ fLibrariesCount = this->doGetDependentLibraryCount();
+ fLibraries = new DependentLibrary[fLibrariesCount];
+ bzero(fLibraries, sizeof(DependentLibrary)*fLibrariesCount);
+ DependentLibraryInfo libraryInfos[fLibrariesCount];
this->doGetDependentLibraries(libraryInfos);
// get list of rpaths that this image adds
@@ -514,98 +610,74 @@
// try to load each
bool canUsePrelinkingInfo = true;
- for(unsigned int i=0; i < fLibraryCount; ++i){
- ImageLoader* dependentLib;
- bool depLibReExported = false;
- bool depLibReRequired = false;
- bool depLibCheckSumsMatch = false;
+ for(unsigned int i=0; i < fLibrariesCount; ++i){
+ DependentLibrary& requiredLib = fLibraries[i];
DependentLibraryInfo& requiredLibInfo = libraryInfos[i];
-#if DYLD_SHARED_CACHE_SUPPORT
- if ( preflightOnly && context.inSharedCache(requiredLibInfo.name) ) {
- // <rdar://problem/5910137> dlopen_preflight() on image in shared cache leaves it loaded but not objc initialized
- // in preflight mode, don't even load dylib that are in the shared cache because they will never be unloaded
- setLibImage(i, NULL, false, false);
- continue;
- }
-#endif
try {
- dependentLib = context.loadLibrary(requiredLibInfo.name, true, this->getPath(), &thisRPaths);
- if ( dependentLib == this ) {
+ bool depNamespace = false;
+ requiredLib.image = context.loadLibrary(requiredLibInfo.name, true, depNamespace, this->getPath(), &thisRPaths);
+ if ( requiredLib.image == this ) {
// found circular reference, perhaps DYLD_LIBARY_PATH is causing this rdar://problem/3684168
- dependentLib = context.loadLibrary(requiredLibInfo.name, false, NULL, NULL);
- if ( dependentLib != this )
+ requiredLib.image = context.loadLibrary(requiredLibInfo.name, false, depNamespace, NULL, NULL);
+ if ( requiredLib.image != this )
dyld::warn("DYLD_ setting caused circular dependency in %s\n", this->getPath());
}
if ( fNeverUnload )
- dependentLib->setNeverUnload();
- if ( ! requiredLibInfo.upward )
- dependentLib->fStaticReferenceCount += 1;
- LibraryInfo actualInfo = dependentLib->doGetLibraryInfo();
- depLibReRequired = requiredLibInfo.required;
- depLibCheckSumsMatch = ( actualInfo.checksum == requiredLibInfo.info.checksum );
- depLibReExported = requiredLibInfo.reExported;
- if ( ! depLibReExported ) {
- // for pre-10.5 binaries that did not use LC_REEXPORT_DYLIB
- depLibReExported = dependentLib->isSubframeworkOf(context, this) || this->hasSubLibrary(context, dependentLib);
+ requiredLib.image->setNeverUnload();
+ requiredLib.image->fStaticReferenceCount += 1;
+ LibraryInfo actualInfo = requiredLib.image->doGetLibraryInfo();
+ requiredLib.required = requiredLibInfo.required;
+ requiredLib.checksumMatches = ( actualInfo.checksum == requiredLibInfo.info.checksum );
+ requiredLib.isReExported = requiredLibInfo.reExported;
+ if ( ! requiredLib.isReExported ) {
+ requiredLib.isSubFramework = requiredLib.image->isSubframeworkOf(context, this);
+ requiredLib.isReExported = requiredLib.isSubFramework || this->hasSubLibrary(context, requiredLib.image);
}
// check found library version is compatible
if ( actualInfo.minVersion < requiredLibInfo.info.minVersion ) {
- // record values for possible use by CrashReporter or Finder
dyld::throwf("Incompatible library version: %s requires version %d.%d.%d or later, but %s provides version %d.%d.%d",
this->getShortName(), requiredLibInfo.info.minVersion >> 16, (requiredLibInfo.info.minVersion >> 8) & 0xff, requiredLibInfo.info.minVersion & 0xff,
- dependentLib->getShortName(), actualInfo.minVersion >> 16, (actualInfo.minVersion >> 8) & 0xff, actualInfo.minVersion & 0xff);
+ requiredLib.image->getShortName(), actualInfo.minVersion >> 16, (actualInfo.minVersion >> 8) & 0xff, actualInfo.minVersion & 0xff);
}
- // prebinding for this image disabled if any dependent library changed
- if ( !depLibCheckSumsMatch )
+ // prebinding for this image disabled if any dependent library changed or slid
+ if ( !requiredLib.checksumMatches || (requiredLib.image->getSlide() != 0) )
canUsePrelinkingInfo = false;
- // prebinding for this image disabled unless both this and dependent are in the shared cache
- if ( !dependentLib->inSharedCache() || !this->inSharedCache() )
- canUsePrelinkingInfo = false;
-
//if ( context.verbosePrebinding ) {
// if ( !requiredLib.checksumMatches )
// fprintf(stderr, "dyld: checksum mismatch, (%u v %u) for %s referencing %s\n",
- // requiredLibInfo.info.checksum, actualInfo.checksum, this->getPath(), dependentLib->getPath());
- // if ( dependentLib->getSlide() != 0 )
- // fprintf(stderr, "dyld: dependent library slid for %s referencing %s\n", this->getPath(), dependentLib->getPath());
+ // requiredLibInfo.info.checksum, actualInfo.checksum, this->getPath(), requiredLib.image->getPath());
+ // if ( requiredLib.image->getSlide() != 0 )
+ // fprintf(stderr, "dyld: dependent library slid for %s referencing %s\n", this->getPath(), requiredLib.image->getPath());
//}
}
catch (const char* msg) {
//if ( context.verbosePrebinding )
- // fprintf(stderr, "dyld: exception during processing for %s referencing %s\n", this->getPath(), dependentLib->getPath());
+ // fprintf(stderr, "dyld: exception during processing for %s referencing %s\n", this->getPath(), requiredLib.image->getPath());
if ( requiredLibInfo.required ) {
fState = dyld_image_state_mapped;
- // record values for possible use by CrashReporter or Finder
- if ( strstr(msg, "Incompatible") != NULL )
- (*context.setErrorStrings)(dyld_error_kind_dylib_version, this->getPath(), requiredLibInfo.name, NULL);
- else if ( strstr(msg, "architecture") != NULL )
- (*context.setErrorStrings)(dyld_error_kind_dylib_wrong_arch, this->getPath(), requiredLibInfo.name, NULL);
- else
- (*context.setErrorStrings)(dyld_error_kind_dylib_missing, this->getPath(), requiredLibInfo.name, NULL);
dyld::throwf("Library not loaded: %s\n Referenced from: %s\n Reason: %s", requiredLibInfo.name, this->getPath(), msg);
}
// ok if weak library not found
- dependentLib = NULL;
+ requiredLib.image = NULL;
canUsePrelinkingInfo = false; // this disables all prebinding, we may want to just slam import vectors for this lib to zero
}
- setLibImage(i, dependentLib, depLibReExported, requiredLibInfo.upward);
}
fAllLibraryChecksumsAndLoadAddressesMatch = canUsePrelinkingInfo;
// tell each to load its dependents
- for(unsigned int i=0; i < libraryCount(); ++i) {
- ImageLoader* dependentImage = libImage(i);
- if ( dependentImage != NULL ) {
- dependentImage->recursiveLoadLibraries(context, preflightOnly, thisRPaths);
+ for(unsigned int i=0; i < fLibrariesCount; ++i){
+ DependentLibrary& lib = fLibraries[i];
+ if ( lib.image != NULL ) {
+ lib.image->recursiveLoadLibraries(context, thisRPaths);
}
}
// do deep prebind check
if ( fAllLibraryChecksumsAndLoadAddressesMatch ) {
- for(unsigned int i=0; i < libraryCount(); ++i){
- ImageLoader* dependentImage = libImage(i);
- if ( dependentImage != NULL ) {
- if ( !dependentImage->allDependentLibrariesAsWhenPreBound() )
+ for(unsigned int i=0; i < fLibrariesCount; ++i){
+ const DependentLibrary& libInfo = fLibraries[i];
+ if ( libInfo.image != NULL ) {
+ if ( !libInfo.image->allDependentLibrariesAsWhenPreBound() )
fAllLibraryChecksumsAndLoadAddressesMatch = false;
}
}
@@ -628,51 +700,26 @@
try {
// rebase lower level libraries first
- for(unsigned int i=0; i < libraryCount(); ++i) {
- ImageLoader* dependentImage = libImage(i);
- if ( dependentImage != NULL )
- dependentImage->recursiveRebase(context);
+ for(unsigned int i=0; i < fLibrariesCount; ++i){
+ DependentLibrary& libInfo = fLibraries[i];
+ if ( libInfo.image != NULL )
+ libInfo.image->recursiveRebase(context);
}
// rebase this image
doRebase(context);
// notify
- context.notifySingle(dyld_image_state_rebased, this);
+ context.notifySingle(dyld_image_state_rebased, this->machHeader(), fPath, fLastModified);
}
catch (const char* msg) {
// this image is not rebased
fState = dyld_image_state_dependents_mapped;
- CRSetCrashLogMessage2(NULL);
throw;
}
}
}
-void ImageLoader::recursiveApplyInterposing(const LinkContext& context)
-{
- if ( ! fInterposed ) {
- // break cycles
- fInterposed = true;
-
- try {
- // interpose lower level libraries first
- for(unsigned int i=0; i < libraryCount(); ++i) {
- ImageLoader* dependentImage = libImage(i);
- if ( dependentImage != NULL )
- dependentImage->recursiveApplyInterposing(context);
- }
-
- // interpose this image
- doInterpose(context);
- }
- catch (const char* msg) {
- // this image is not interposed
- fInterposed = false;
- throw;
- }
- }
-}
@@ -688,142 +735,53 @@
try {
// bind lower level libraries first
- for(unsigned int i=0; i < libraryCount(); ++i) {
- ImageLoader* dependentImage = libImage(i);
- if ( dependentImage != NULL )
- dependentImage->recursiveBind(context, forceLazysBound);
+ for(unsigned int i=0; i < fLibrariesCount; ++i){
+ DependentLibrary& libInfo = fLibraries[i];
+ if ( libInfo.image != NULL )
+ libInfo.image->recursiveBind(context, forceLazysBound);
}
// bind this image
this->doBind(context, forceLazysBound);
+ this->doUpdateMappingPermissions(context);
// mark if lazys are also bound
if ( forceLazysBound || this->usablePrebinding(context) )
fAllLazyPointersBound = true;
- context.notifySingle(dyld_image_state_bound, this);
+ context.notifySingle(dyld_image_state_bound, this->machHeader(), fPath, fLastModified);
}
catch (const char* msg) {
// restore state
fState = dyld_image_state_rebased;
- CRSetCrashLogMessage2(NULL);
throw;
}
}
}
-void ImageLoader::weakBind(const LinkContext& context)
-{
- if ( context.verboseWeakBind )
- dyld::log("dyld: weak bind start:\n");
- // get set of ImageLoaders that participate in coalecsing
- ImageLoader* imagesNeedingCoalescing[fgImagesRequiringCoalescing];
- int count = context.getCoalescedImages(imagesNeedingCoalescing);
-
- // count how many have not already had weakbinding done
- int countNotYetWeakBound = 0;
- int countOfImagesWithWeakDefinitions = 0;
- int countOfImagesWithWeakDefinitionsNotInSharedCache = 0;
- for(int i=0; i < count; ++i) {
- if ( ! imagesNeedingCoalescing[i]->fWeakSymbolsBound )
- ++countNotYetWeakBound;
- if ( imagesNeedingCoalescing[i]->hasCoalescedExports() ) {
- ++countOfImagesWithWeakDefinitions;
- if ( ! imagesNeedingCoalescing[i]->inSharedCache() )
- ++countOfImagesWithWeakDefinitionsNotInSharedCache;
- }
- }
-
- // don't need to do any coalescing if only one image has overrides, or all have already been done
- if ( (countOfImagesWithWeakDefinitionsNotInSharedCache > 0) && (countNotYetWeakBound > 0) ) {
- // make symbol iterators for each
- ImageLoader::CoalIterator iterators[count];
- ImageLoader::CoalIterator* sortedIts[count];
- for(int i=0; i < count; ++i) {
- imagesNeedingCoalescing[i]->initializeCoalIterator(iterators[i], i);
- sortedIts[i] = &iterators[i];
- if ( context.verboseWeakBind )
- dyld::log("dyld: weak bind load order %d/%d for %s\n", i, count, imagesNeedingCoalescing[i]->getPath());
- }
-
- // walk all symbols keeping iterators in sync by
- // only ever incrementing the iterator with the lowest symbol
- int doneCount = 0;
- while ( doneCount != count ) {
- //for(int i=0; i < count; ++i)
- // dyld::log("sym[%d]=%s ", sortedIts[i]->loadOrder, sortedIts[i]->symbolName);
- //dyld::log("\n");
- // increment iterator with lowest symbol
- if ( sortedIts[0]->image->incrementCoalIterator(*sortedIts[0]) )
- ++doneCount;
- // re-sort iterators
- for(int i=1; i < count; ++i) {
- int result = strcmp(sortedIts[i-1]->symbolName, sortedIts[i]->symbolName);
- if ( result == 0 )
- sortedIts[i-1]->symbolMatches = true;
- if ( result > 0 ) {
- // new one is bigger then next, so swap
- ImageLoader::CoalIterator* temp = sortedIts[i-1];
- sortedIts[i-1] = sortedIts[i];
- sortedIts[i] = temp;
- }
- if ( result < 0 )
- break;
- }
- // process all matching symbols just before incrementing the lowest one that matches
- if ( sortedIts[0]->symbolMatches && !sortedIts[0]->done ) {
- const char* nameToCoalesce = sortedIts[0]->symbolName;
- // pick first symbol in load order (and non-weak overrides weak)
- uintptr_t targetAddr = 0;
- ImageLoader* targetImage = NULL;
- for(int i=0; i < count; ++i) {
- if ( strcmp(iterators[i].symbolName, nameToCoalesce) == 0 ) {
- if ( context.verboseWeakBind )
- dyld::log("dyld: weak bind, found %s weak=%d in %s \n", nameToCoalesce, iterators[i].weakSymbol, iterators[i].image->getPath());
- if ( iterators[i].weakSymbol ) {
- if ( targetAddr == 0 ) {
- targetAddr = iterators[i].image->getAddressCoalIterator(iterators[i], context);
- if ( targetAddr != 0 )
- targetImage = iterators[i].image;
- }
- }
- else {
- targetAddr = iterators[i].image->getAddressCoalIterator(iterators[i], context);
- if ( targetAddr != 0 ) {
- targetImage = iterators[i].image;
- // strong implementation found, stop searching
- break;
- }
- }
- }
- }
- if ( context.verboseWeakBind )
- dyld::log("dyld: weak binding all uses of %s to copy from %s\n", nameToCoalesce, targetImage->getShortName());
-
- // tell each to bind to this symbol (unless already bound)
- if ( targetAddr != 0 ) {
- for(int i=0; i < count; ++i) {
- if ( strcmp(iterators[i].symbolName, nameToCoalesce) == 0 ) {
- if ( context.verboseWeakBind )
- dyld::log("dyld: weak bind, setting all uses of %s in %s to 0x%lX from %s\n", nameToCoalesce, iterators[i].image->getShortName(), targetAddr, targetImage->getShortName());
- if ( ! iterators[i].image->fWeakSymbolsBound )
- iterators[i].image->updateUsesCoalIterator(iterators[i], targetAddr, targetImage, context);
- iterators[i].symbolMatches = false;
- }
- }
- }
-
- }
- }
-
- // mark all as having all weak symbols bound
- for(int i=0; i < count; ++i) {
- imagesNeedingCoalescing[i]->fWeakSymbolsBound = true;
- }
- }
- if ( context.verboseWeakBind )
- dyld::log("dyld: weak bind end\n");
-}
-
-
+
+#if IMAGE_NOTIFY_SUPPORT
+void ImageLoader::recursiveImageAnnouncement(const LinkContext& context, ImageLoader**& newImages)
+{
+ if ( ! fAnnounced ) {
+ // break cycles
+ fAnnounced = true;
+
+ // announce lower level libraries first
+ for(unsigned int i=0; i < fLibrariesCount; ++i){
+ DependentLibrary& libInfo = fLibraries[i];
+ if ( libInfo.image != NULL )
+ libInfo.image->recursiveImageAnnouncement(context, newImages);
+ }
+
+ // add to list of images to notify about
+ *newImages++ = this;
+ //dyld::log("next size = %d\n", newImages.size());
+
+ // remember that this image wants to be notified about other images
+ if ( this->hasImageNotification() )
+ context.addImageNeedingNotification(this);
+ }
+}
+#endif
void ImageLoader::recursiveGetDOFSections(const LinkContext& context, std::vector<DOFInfo>& dofs)
{
@@ -832,10 +790,10 @@
fRegisteredDOF = true;
// gather lower level libraries first
- for(unsigned int i=0; i < libraryCount(); ++i) {
- ImageLoader* dependentImage = libImage(i);
- if ( dependentImage != NULL )
- dependentImage->recursiveGetDOFSections(context, dofs);
+ for(unsigned int i=0; i < fLibrariesCount; ++i){
+ DependentLibrary& libInfo = fLibraries[i];
+ if ( libInfo.image != NULL )
+ libInfo.image->recursiveGetDOFSections(context, dofs);
}
this->doGetDOFSections(context, dofs);
}
@@ -862,23 +820,27 @@
}
-void ImageLoader::recursiveInitialization(const LinkContext& context, mach_port_t this_thread, InitializerTimingList& timingInfo)
-{
+void ImageLoader::recursiveInitialization(const LinkContext& context, mach_port_t this_thread)
+{
+#if RECURSIVE_INITIALIZER_LOCK
recursive_lock lock_info(this_thread);
recursiveSpinLock(lock_info);
+#else
+ _spin_lock(&fInitializerLock);
+#endif
if ( fState < dyld_image_state_dependents_initialized-1 ) {
uint8_t oldState = fState;
// break cycles
fState = dyld_image_state_dependents_initialized-1;
+
try {
// initialize lower level libraries first
- for(unsigned int i=0; i < libraryCount(); ++i) {
- ImageLoader* dependentImage = libImage(i);
- if ( dependentImage != NULL )
+ for(unsigned int i=0; i < fLibrariesCount; ++i){
+ DependentLibrary& libInfo = fLibraries[i];
// don't try to initialize stuff "above" me
- if ( (dependentImage != NULL) && (dependentImage->fDepth >= fDepth) && !libIsUpward(i) )
- dependentImage->recursiveInitialization(context, this_thread, timingInfo);
+ if ( (libInfo.image != NULL) && (libInfo.image->fDepth >= fDepth) )
+ libInfo.image->recursiveInitialization(context, this_thread);
}
// record termination order
@@ -886,35 +848,34 @@
context.terminationRecorder(this);
// let objc know we are about to initalize this image
- uint64_t t1 = mach_absolute_time();
fState = dyld_image_state_dependents_initialized;
oldState = fState;
- context.notifySingle(dyld_image_state_dependents_initialized, this);
-
+ context.notifySingle(dyld_image_state_dependents_initialized, this->machHeader(), fPath, fLastModified);
+
// initialize this image
- bool hasInitializers = this->doInitialization(context);
-
+ this->doInitialization(context);
// let anyone know we finished initalizing this image
fState = dyld_image_state_initialized;
oldState = fState;
- context.notifySingle(dyld_image_state_initialized, this);
-
- if ( hasInitializers ) {
- uint64_t t2 = mach_absolute_time();
- timingInfo.images[timingInfo.count].image = this;
- timingInfo.images[timingInfo.count].initTime = (t2-t1);
- timingInfo.count++;
- }
+ context.notifySingle(dyld_image_state_initialized, this->machHeader(), fPath, fLastModified);
}
catch (const char* msg) {
// this image is not initialized
fState = oldState;
+ #if RECURSIVE_INITIALIZER_LOCK
recursiveSpinUnLock();
+ #else
+ _spin_unlock(&fInitializerLock);
+ #endif
throw;
}
}
+#if RECURSIVE_INITIALIZER_LOCK
recursiveSpinUnLock();
+#else
+ _spin_unlock(&fInitializerLock);
+#endif
}
@@ -928,11 +889,11 @@
}
}
if ( partTime < sUnitsPerSecond ) {
- uint32_t milliSecondsTimesHundred = (partTime*100000)/sUnitsPerSecond;
- uint32_t milliSeconds = milliSecondsTimesHundred/100;
+ uint32_t milliSecondsTimeTen = (partTime*10000)/sUnitsPerSecond;
+ uint32_t milliSeconds = milliSecondsTimeTen/10;
uint32_t percentTimesTen = (partTime*1000)/totalTime;
uint32_t percent = percentTimesTen/10;
- dyld::log("%s: %u.%02u milliseconds (%u.%u%%)\n", msg, milliSeconds, milliSecondsTimesHundred-milliSeconds*100, percent, percentTimesTen-percent*10);
+ dyld::log("%s: %u.%u milliseconds (%u.%u%%)\n", msg, milliSeconds, milliSecondsTimeTen-milliSeconds*10, percent, percentTimesTen-percent*10);
}
else {
uint32_t secondsTimeTen = (partTime*10)/sUnitsPerSecond;
@@ -965,24 +926,17 @@
}
-void ImageLoader::printStatistics(unsigned int imageCount, const InitializerTimingList& timingInfo)
-{
- uint64_t totalTime = fgTotalLoadLibrariesTime + fgTotalRebaseTime + fgTotalBindTime + fgTotalWeakBindTime + fgTotalDOF + fgTotalInitTime;
+
+void ImageLoader::printStatistics(unsigned int imageCount)
+{
+ uint64_t totalTime = fgTotalLoadLibrariesTime + fgTotalRebaseTime + fgTotalBindTime + fgTotalInitTime;
char commaNum1[40];
char commaNum2[40];
printTime("total time", totalTime, totalTime);
-#if __IPHONE_OS_VERSION_MIN_REQUIRED
- if ( fgImagesUsedFromSharedCache != 0 )
- dyld::log("total images loaded: %d (%u from dyld shared cache)\n", imageCount, fgImagesUsedFromSharedCache);
- else
- dyld::log("total images loaded: %d\n", imageCount);
-#else
- dyld::log("total images loaded: %d (%u from dyld shared cache)\n", imageCount, fgImagesUsedFromSharedCache);
-#endif
+ dyld::log("total images loaded: %d (%u from dyld shared cache, %u needed no fixups)\n", imageCount, fgImagesUsedFromSharedCache, fgImagesRequiringNoFixups);
dyld::log("total segments mapped: %u, into %llu pages with %llu pages pre-fetched\n", fgTotalSegmentsMapped, fgTotalBytesMapped/4096, fgTotalBytesPreFetched/4096);
printTime("total images loading time", fgTotalLoadLibrariesTime, totalTime);
- printTime("total dtrace DOF registration time", fgTotalDOF, totalTime);
dyld::log("total rebase fixups: %s\n", commatize(fgTotalRebaseFixups, commaNum1));
printTime("total rebase fixups time", fgTotalRebaseTime, totalTime);
dyld::log("total binding fixups: %s\n", commatize(fgTotalBindFixups, commaNum1));
@@ -994,14 +948,8 @@
commatize(fgTotalBindSymbolsResolved, commaNum1), avgInt, avgTenths);
}
printTime("total binding fixups time", fgTotalBindTime, totalTime);
- printTime("total weak binding fixups time", fgTotalWeakBindTime, totalTime);
dyld::log("total bindings lazily fixed up: %s of %s\n", commatize(fgTotalLazyBindFixups, commaNum1), commatize(fgTotalPossibleLazyBindFixups, commaNum2));
- printTime("total initializer time", fgTotalInitTime, totalTime);
- for (uintptr_t i=0; i < timingInfo.count; ++i) {
- dyld::log("%21s ", timingInfo.images[i].image->getShortName());
- printTime("", timingInfo.images[i].initTime, totalTime);
- }
-
+ printTime("total init time time", fgTotalInitTime, totalTime);
}
@@ -1035,5 +983,129 @@
}
-
-
+void Segment::map(int fd, uint64_t offsetInFatWrapper, intptr_t slide, const ImageLoader* image, const ImageLoader::LinkContext& context)
+{
+ vm_offset_t fileOffset = this->getFileOffset() + offsetInFatWrapper;
+ vm_size_t size = this->getFileSize();
+ void* requestedLoadAddress = (void*)(this->getPreferredLoadAddress() + slide);
+ int protection = 0;
+ if ( !this->unaccessible() ) {
+ if ( this->executable() )
+ protection |= PROT_EXEC;
+ if ( this->readable() )
+ protection |= PROT_READ;
+ if ( this->writeable() )
+ protection |= PROT_WRITE;
+ }
+#if __i386__
+ // initially map __IMPORT segments R/W so dyld can update them
+ if ( this->readOnlyImportStubs() )
+ protection |= PROT_WRITE;
+#endif
+ // wholly zero-fill segments have nothing to mmap() in
+ if ( size > 0 ) {
+ void* loadAddress = mmap(requestedLoadAddress, size, protection, MAP_FIXED | MAP_PRIVATE, fd, fileOffset);
+ if ( loadAddress == ((void*)(-1)) )
+ dyld::throwf("mmap() error %d at address=0x%08lX, size=0x%08lX segment=%s in Segment::map() mapping %s", errno, (uintptr_t)requestedLoadAddress, (uintptr_t)size, this->getName(), image->getPath());
+ }
+ // update stats
+ ++ImageLoader::fgTotalSegmentsMapped;
+ ImageLoader::fgTotalBytesMapped += size;
+ if ( context.verboseMapping )
+ dyld::log("%18s at %p->%p with permissions %c%c%c\n", this->getName(), requestedLoadAddress, (char*)requestedLoadAddress+this->getFileSize()-1,
+ (protection & PROT_READ) ? 'r' : '.', (protection & PROT_WRITE) ? 'w' : '.', (protection & PROT_EXEC) ? 'x' : '.' );
+}
+
+void Segment::map(const void* memoryImage, intptr_t slide, const ImageLoader* image, const ImageLoader::LinkContext& context)
+{
+ vm_address_t loadAddress = this->getPreferredLoadAddress() + slide;
+ vm_address_t srcAddr = (uintptr_t)memoryImage + this->getFileOffset();
+ vm_size_t size = this->getFileSize();
+ kern_return_t r = vm_copy(mach_task_self(), srcAddr, size, loadAddress);
+ if ( r != KERN_SUCCESS )
+ throw "can't map segment";
+
+ if ( context.verboseMapping )
+ dyld::log("%18s at %p->%p\n", this->getName(), (char*)loadAddress, (char*)loadAddress+this->getFileSize()-1);
+}
+
+void Segment::setPermissions(const ImageLoader::LinkContext& context, const ImageLoader* image)
+{
+ vm_prot_t protection = 0;
+ if ( !this->unaccessible() ) {
+ if ( this->executable() )
+ protection |= VM_PROT_EXECUTE;
+ if ( this->readable() )
+ protection |= VM_PROT_READ;
+ if ( this->writeable() )
+ protection |= VM_PROT_WRITE;
+ }
+ vm_address_t addr = this->getActualLoadAddress(image);
+ vm_size_t size = this->getSize();
+ const bool setCurrentPermissions = false;
+ kern_return_t r = vm_protect(mach_task_self(), addr, size, setCurrentPermissions, protection);
+ if ( r != KERN_SUCCESS )
+ throw "can't set vm permissions for mapped segment";
+ if ( context.verboseMapping ) {
+ dyld::log("%18s at %p->%p altered permissions to %c%c%c\n", this->getName(), (char*)addr, (char*)addr+this->getFileSize()-1,
+ (protection & PROT_READ) ? 'r' : '.', (protection & PROT_WRITE) ? 'w' : '.', (protection & PROT_EXEC) ? 'x' : '.' );
+ }
+}
+
+void Segment::tempWritable(const ImageLoader::LinkContext& context, const ImageLoader* image)
+{
+ vm_address_t addr = this->getActualLoadAddress(image);
+ vm_size_t size = this->getSize();
+ const bool setCurrentPermissions = false;
+ vm_prot_t protection = VM_PROT_WRITE | VM_PROT_READ;
+ if ( this->executable() )
+ protection |= VM_PROT_EXECUTE;
+ kern_return_t r = vm_protect(mach_task_self(), addr, size, setCurrentPermissions, protection);
+ if ( r != KERN_SUCCESS )
+ throw "can't set vm permissions for mapped segment";
+ if ( context.verboseMapping ) {
+ dyld::log("%18s at %p->%p altered permissions to %c%c%c\n", this->getName(), (char*)addr, (char*)addr+this->getFileSize()-1,
+ (protection & PROT_READ) ? 'r' : '.', (protection & PROT_WRITE) ? 'w' : '.', (protection & PROT_EXEC) ? 'x' : '.' );
+ }
+}
+
+
+bool Segment::hasTrailingZeroFill()
+{
+ return ( this->writeable() && (this->getSize() > this->getFileSize()) );
+}
+
+
+uintptr_t Segment::reserveAnAddressRange(size_t length, const ImageLoader::LinkContext& context)
+{
+ vm_address_t addr = 0;
+ vm_size_t size = length;
+ // in PIE programs, load initial dylibs after main executable so they don't have fixed addresses either
+ if ( fgNextPIEDylibAddress != 0 ) {
+ addr = fgNextPIEDylibAddress + (arc4random() & 0x3) * 4096; // add small random padding between dylibs
+ kern_return_t r = vm_allocate(mach_task_self(), &addr, size, VM_FLAGS_FIXED);
+ if ( r == KERN_SUCCESS ) {
+ fgNextPIEDylibAddress = addr + size;
+ return addr;
+ }
+ fgNextPIEDylibAddress = 0;
+ }
+ kern_return_t r = vm_allocate(mach_task_self(), &addr, size, VM_FLAGS_ANYWHERE);
+ if ( r != KERN_SUCCESS )
+ throw "out of address space";
+
+ return addr;
+}
+
+bool Segment::reserveAddressRange(uintptr_t start, size_t length)
+{
+ vm_address_t addr = start;
+ vm_size_t size = length;
+ kern_return_t r = vm_allocate(mach_task_self(), &addr, size, false /*only this range*/);
+ if ( r != KERN_SUCCESS )
+ return false;
+ return true;
+}
+
+
+