--- /dev/null
+++ dyld/dyld-45.3/src/ImageLoader.cpp
@@ -0,0 +1,1052 @@
+/* -*- mode: C++; c-basic-offset: 4; tab-width: 4 -*-
+ *
+ * Copyright (c) 2004-2005 Apple Computer, Inc. All rights reserved.
+ *
+ * @APPLE_LICENSE_HEADER_START@
+ * 
+ * This file contains Original Code and/or Modifications of Original Code
+ * as defined in and that are subject to the Apple Public Source License
+ * Version 2.0 (the 'License'). You may not use this file except in
+ * compliance with the License. Please obtain a copy of the License at
+ * http://www.opensource.apple.com/apsl/ and read it before using this
+ * file.
+ * 
+ * The Original Code and all software distributed under the License are
+ * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
+ * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
+ * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
+ * Please see the License for the specific language governing rights and
+ * limitations under the License.
+ * 
+ * @APPLE_LICENSE_HEADER_END@
+ */
+
+#define __STDC_LIMIT_MACROS
+#include <stdint.h>
+#include <errno.h>
+#include <fcntl.h>
+#include <mach/mach.h>
+#include <mach-o/fat.h> 
+#include <sys/types.h>
+#include <sys/stat.h> 
+#include <sys/mman.h>
+#include <sys/param.h>
+#include <sys/mount.h>
+
+#include "ImageLoader.h"
+
+
+uint32_t								ImageLoader::fgImagesWithUsedPrebinding = 0;
+uint32_t								ImageLoader::fgTotalRebaseFixups = 0;
+uint32_t								ImageLoader::fgTotalBindFixups = 0;
+uint32_t								ImageLoader::fgTotalLazyBindFixups = 0;
+uint32_t								ImageLoader::fgTotalPossibleLazyBindFixups = 0;
+uint64_t								ImageLoader::fgTotalLoadLibrariesTime;
+uint64_t								ImageLoader::fgTotalRebaseTime;
+uint64_t								ImageLoader::fgTotalBindTime;
+uint64_t								ImageLoader::fgTotalNotifyTime;
+uint64_t								ImageLoader::fgTotalInitTime;
+uintptr_t								ImageLoader::fgNextSplitSegAddress = 0x90000000;
+uintptr_t								Segment::fgNextNonSplitSegAddress = 0x8FE00000;
+
+
+
+__attribute__((noreturn))
+void throwf(const char* format, ...) 
+{
+	va_list	list;
+	char*	p;
+	va_start(list, format);
+	vasprintf(&p, format, list);
+	va_end(list);
+	
+	const char*	t = p;
+	throw t;
+}
+
+void ImageLoader::init(const char* path, uint64_t offsetInFat, dev_t device, ino_t inode, time_t modDate)
+{
+	fPathHash = 0;
+	fPath = NULL;
+	if ( path != NULL )
+		this->setPath(path);
+	fLogicalPath = NULL;
+	fDevice = device;
+	fInode = inode;
+	fLastModified = modDate;
+	fOffsetInFatFile = offsetInFat;
+	//fSegments = NULL;
+	fLibraries = NULL;
+	fLibrariesCount = 0;
+	fReferenceCount = 0;
+	fAllLibraryChecksumsAndLoadAddressesMatch = false;
+	fLeaveMapped = false;
+	fHideSymbols = false;
+	fMatchByInstallName = false;
+	fLibrariesLoaded = false;
+	fBased = false;
+	fBoundAllNonLazy = false;
+	fBoundAllLazy = false;
+	fAnnounced = false;
+	fInitialized = false;
+	fNextAddImageIndex = 0;
+}
+
+
+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()
+{
+	// need to read up on STL and see if this is right way to destruct vector contents
+	const unsigned int segmentCount = fSegments.size();
+	for(unsigned int i=0; i < segmentCount; ++i){
+		Segment* seg = fSegments[i];
+		delete seg;
+	}
+	if ( fPath != NULL ) 
+		delete [] fPath;
+	if ( fLogicalPath != NULL ) 
+		delete [] fLogicalPath;
+}
+
+			
+void ImageLoader::setPath(const char* path)
+{
+	if ( fPath != NULL ) {
+		// if duplicate path, do nothing
+		if ( strcmp(path, fPath) == 0 )
+			return;
+		delete [] fPath;
+	}
+	fPath = new char[strlen(path)+1];
+	strcpy((char*)fPath, path);
+	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)
+{
+	// this does not need to be a great hash
+	// it is just used to reduce the number of strcmp() calls
+	// of existing images when loading a new image
+	uint32_t h = 0;
+	for (const char* s=path; *s != '\0'; ++s)
+		h = h*5 + *s;
+	return h;
+}
+
+bool ImageLoader::matchInstallPath() const
+{
+	return fMatchByInstallName;
+}
+
+void ImageLoader::setMatchInstallPath(bool match)
+{
+	fMatchByInstallName = match;
+}
+
+bool ImageLoader::statMatch(const struct stat& stat_buf) const
+{
+	return ( (this->fDevice == stat_buf.st_dev) && (this->fInode == stat_buf.st_ino) );	
+}
+
+const char* ImageLoader::getShortName() const
+{
+	// try to return leaf name
+	if ( fPath != NULL ) {
+		const char* s = strrchr(fPath, '/');
+		if ( s != NULL ) 
+			return &s[1];
+	}
+	return fPath; 
+}
+
+uint64_t ImageLoader::getOffsetInFatFile() const
+{
+	return fOffsetInFatFile;
+}
+
+void ImageLoader::setLeaveMapped()
+{
+	fLeaveMapped = true;
+	const unsigned int segmentCount = fSegments.size();
+	for(unsigned int i=0; i < segmentCount; ++i){
+		fSegments[i]->setUnMapWhenDestructed(false);
+	}
+}
+
+void ImageLoader::setHideExports(bool hide)
+{
+	fHideSymbols = hide;
+}
+
+bool ImageLoader::hasHiddenExports() const
+{
+	return fHideSymbols;
+}
+
+bool ImageLoader::isLinked() const
+{
+	return fBoundAllNonLazy;
+}
+
+time_t ImageLoader::lastModified()
+{
+	return fLastModified;
+}
+
+bool ImageLoader::containsAddress(const void* addr) const
+{
+	const unsigned int segmentCount = fSegments.size();
+	for(unsigned int i=0; i < segmentCount; ++i){
+		Segment* seg = fSegments[i];
+		const uint8_t* start = (const uint8_t*)seg->getActualLoadAddress();
+		const uint8_t* end = start + seg->getSize();
+		if ( (start <= addr) && (addr < end) && !seg->unaccessible() )
+			return true;
+	}
+	return false;
+}
+
+void ImageLoader::addMappedRegions(RegionsVector& regions) const
+{
+	const unsigned int segmentCount = fSegments.size();
+	for(unsigned int i=0; i < segmentCount; ++i){
+		Segment* seg = fSegments[i];
+		MappedRegion region;
+		region.address = seg->getActualLoadAddress();
+		region.size = seg->getSize();
+		regions.push_back(region);
+	}
+}
+
+
+void ImageLoader::incrementReferenceCount()
+{
+	++fReferenceCount;
+}
+
+bool ImageLoader::decrementReferenceCount()
+{
+	return ( --fReferenceCount == 0 );
+}
+
+// private method that handles circular dependencies by only search any image once
+const ImageLoader::Symbol* ImageLoader::findExportedSymbolInDependentImagesExcept(const char* name, std::set<const ImageLoader*>& dontSearchImages, ImageLoader** foundIn) const
+{
+	const ImageLoader::Symbol* sym;
+	// search self
+	if ( dontSearchImages.count(this) == 0 ) {
+		sym = this->findExportedSymbol(name, NULL, false, foundIn);
+		if ( sym != NULL )
+			return sym;
+		dontSearchImages.insert(this);
+	}
+
+	// search directly dependent libraries
+	for (uint32_t i=0; i < fLibrariesCount; ++i) {
+		ImageLoader* dependentImage = fLibraries[i].image;
+		if ( (dependentImage != NULL) && (dontSearchImages.count(dependentImage) == 0) ) {
+			const ImageLoader::Symbol* sym = dependentImage->findExportedSymbol(name, NULL, false, foundIn);
+			if ( sym != NULL )
+				return sym;
+		}
+	}
+	
+	// search indirectly dependent libraries
+	for (uint32_t i=0; i < fLibrariesCount; ++i) {
+		ImageLoader* dependentImage = fLibraries[i].image;
+		if ( (dependentImage != NULL) && (dontSearchImages.count(dependentImage) == 0) ) {
+			const ImageLoader::Symbol* sym = dependentImage->findExportedSymbolInDependentImagesExcept(name, dontSearchImages, foundIn);
+			if ( sym != NULL )
+				return sym;
+			dontSearchImages.insert(dependentImage);
+		}
+	}
+
+	return NULL;
+}
+
+
+const ImageLoader::Symbol* ImageLoader::findExportedSymbolInDependentImages(const char* name, ImageLoader** foundIn) const
+{
+	std::set<const ImageLoader*> dontSearchImages;
+	dontSearchImages.insert(this);	// don't search this image
+	return this->findExportedSymbolInDependentImagesExcept(name, dontSearchImages, foundIn);
+}
+
+const ImageLoader::Symbol* ImageLoader::findExportedSymbolInImageOrDependentImages(const char* name, ImageLoader** foundIn) const
+{
+	std::set<const ImageLoader*> dontSearchImages;
+	return this->findExportedSymbolInDependentImagesExcept(name, dontSearchImages, foundIn);
+}
+
+
+void ImageLoader::link(const LinkContext& context, BindingLaziness bindness, InitializerRunning inits, uint32_t notifyCount)
+{
+	uint64_t t1 = mach_absolute_time();
+	this->recursiveLoadLibraries(context);
+	
+	uint64_t t2 = mach_absolute_time();
+ 	this->recursiveRebase(context);
+	
+	uint64_t t3 = mach_absolute_time();
+ 	this->recursiveBind(context, bindness);
+	
+	uint64_t t4 = mach_absolute_time();	
+	this->recursiveImageNotification(context, notifyCount);	
+	
+	if ( (inits == kRunInitializers) || (inits == kDontRunInitializersButTellObjc) ) {
+		std::vector<ImageLoader*>	newImages;
+		this->recursiveImageAnnouncement(context, newImages);	 // build bottom up list images being added
+		context.notifyAdding(newImages);	// tell gdb or anyone who cares about these
+	}
+	
+	uint64_t t5 = mach_absolute_time();
+	if ( inits == kRunInitializers ) {
+		this->recursiveInitialization(context);
+		uint64_t t6 = mach_absolute_time();
+		fgTotalInitTime += t6 - t5;
+	}
+	fgTotalLoadLibrariesTime += t2 - t1;
+	fgTotalRebaseTime += t3 - t2;
+	fgTotalBindTime += t4 - t3;
+	fgTotalNotifyTime += t5 - t4;
+}
+
+
+// only called pre-main on main executable
+// if crt.c is ever cleaned up, this could go away
+void ImageLoader::runInitializers(const LinkContext& context)
+{
+		std::vector<ImageLoader*>	newImages;
+		this->recursiveImageAnnouncement(context, newImages);	 // build bottom up list images being added
+		context.notifyAdding(newImages);	// tell gdb or anyone who cares about these
+
+	this->recursiveInitialization(context);
+}
+
+// called inside _dyld_register_func_for_add_image()
+void ImageLoader::runNotification(const LinkContext& context, uint32_t notifyCount)
+{
+	this->recursiveImageNotification(context, notifyCount);
+}
+
+
+intptr_t ImageLoader::assignSegmentAddresses(const LinkContext& context)
+{
+	// preflight and calculate slide if needed
+	const unsigned int segmentCount = fSegments.size();
+	intptr_t slide = 0;
+	if ( this->segmentsCanSlide() && this->segmentsMustSlideTogether() ) {
+		bool needsToSlide = false;
+		uintptr_t lowAddr = UINTPTR_MAX;
+		uintptr_t highAddr = 0;
+		for(unsigned int i=0; i < segmentCount; ++i){
+			Segment* seg = fSegments[i];
+			const uintptr_t segLow = seg->getPreferredLoadAddress();
+			const uintptr_t segHigh = segLow + seg->getSize();
+			if ( segLow < lowAddr )
+				lowAddr = segLow;
+			if ( segHigh > highAddr )
+				highAddr = segHigh;
+				
+			if ( context.slideAndPackDylibs || !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(unsigned int i=0; i < segmentCount; ++i){
+			Segment* seg = fSegments[i];
+			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 )
+		fprintf(stderr, "dyld: Mapping %s\n", this->getPath());
+	// find address range for image
+	intptr_t slide = this->assignSegmentAddresses(context);
+	// map in all segments
+	const unsigned int segmentCount = fSegments.size();
+	for(unsigned int i=0; i < segmentCount; ++i){
+		Segment* seg = fSegments[i];
+		seg->map(fd, offsetInFat, slide, context);		
+	}
+	// update slide to reflect load location			
+	this->setSlide(slide);
+	
+	// now that it is mapped and slide is set, mark that we should unmap it when done
+	for(unsigned int i=0; i < segmentCount; ++i){
+		fSegments[i]->setUnMapWhenDestructed(true);
+	}
+}
+
+void ImageLoader::mapSegments(const void* memoryImage, uint64_t imageLen, const LinkContext& context)
+{
+	if ( context.verboseMapping )
+		fprintf(stderr, "dyld: Mapping memory %p\n", memoryImage);
+	// find address range for image
+	intptr_t slide = this->assignSegmentAddresses(context);
+	// map in all segments
+	const unsigned int segmentCount = fSegments.size();
+	for(unsigned int i=0; i < segmentCount; ++i){
+		Segment* seg = fSegments[i];
+		seg->map(memoryImage, slide, context);		
+	}
+	// update slide to reflect load location			
+	this->setSlide(slide);
+	// set R/W permissions on all segments at slide location
+	for(unsigned int i=0; i < segmentCount; ++i){
+		Segment* seg = fSegments[i];
+		seg->setPermissions();		
+	}
+}
+
+bool ImageLoader::allDependentLibrariesAsWhenPreBound() const
+{
+	return fAllLibraryChecksumsAndLoadAddressesMatch;
+}
+
+
+void ImageLoader::recursiveLoadLibraries(const LinkContext& context)
+{
+	if ( ! fLibrariesLoaded ) {
+		// break cycles
+		fLibrariesLoaded = true;
+		
+		// get list of libraries this image needs
+		fLibrariesCount = this->doGetDependentLibraryCount();
+		fLibraries = new DependentLibrary[fLibrariesCount];
+		this->doGetDependentLibraries(fLibraries);
+		
+		// try to load each
+		bool canUsePrelinkingInfo = true; 
+		for(unsigned int i=0; i < fLibrariesCount; ++i){
+			DependentLibrary& requiredLib = fLibraries[i];
+			try {
+				requiredLib.image = context.loadLibrary(requiredLib.name, true, this->getPath(), NULL);
+				if ( requiredLib.image == this ) {
+					// found circular reference, perhaps DYLD_LIBARY_PATH is causing this rdar://problem/3684168 
+					requiredLib.image = context.loadLibrary(requiredLib.name, false, NULL, NULL);
+					if ( requiredLib.image != this )
+						fprintf(stderr, "dyld: warning DYLD_ setting caused circular dependency in %s\n", this->getPath());
+				}
+				LibraryInfo actualInfo = requiredLib.image->doGetLibraryInfo();
+				requiredLib.checksumMatches = ( actualInfo.checksum == requiredLib.info.checksum );
+				// check found library version is compatible
+				if ( actualInfo.minVersion < requiredLib.info.minVersion ) {
+					throwf("Incompatible library version: %s requires version %d.%d.%d or later, but %s provides version %d.%d.%d",
+							this->getShortName(), requiredLib.info.minVersion >> 16, (requiredLib.info.minVersion >> 8) & 0xff, requiredLib.info.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 or slid
+				if ( !requiredLib.checksumMatches || (requiredLib.image->getSlide() != 0) )
+					canUsePrelinkingInfo = false;
+				//if ( context.verbosePrebinding ) {
+				//	if ( !requiredLib.checksumMatches )
+				//		fprintf(stderr, "dyld: checksum mismatch, (%lld v %lld) for %s referencing %s\n", requiredLib.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(), requiredLib.image->getPath());		
+				if ( requiredLib.required ) {
+					const char* formatString = "Library not loaded: %s\n  Referenced from: %s\n  Reason: %s";
+					const char* referencedFrom = this->getPath();
+					char buf[strlen(requiredLib.name)+strlen(referencedFrom)+strlen(formatString)+strlen(msg)+2];
+					sprintf(buf, formatString, requiredLib.name, referencedFrom, msg);
+					fLibrariesLoaded = false;
+					throw strdup(buf);  // this is a leak if exception doesn't halt program
+				}
+				// ok if weak library not found
+				requiredLib.image = NULL;
+				canUsePrelinkingInfo = false;  // this disables all prebinding, we may want to just slam import vectors for this lib to zero
+			}
+		}
+		fAllLibraryChecksumsAndLoadAddressesMatch = canUsePrelinkingInfo;
+
+		// tell each to load its dependents
+		for(unsigned int i=0; i < fLibrariesCount; ++i){
+			DependentLibrary& libInfo = fLibraries[i];
+			if ( libInfo.image != NULL ) {	
+				libInfo.isSubFramework = libInfo.image->isSubframeworkOf(context, this);
+				libInfo.isReExported = libInfo.isSubFramework || this->hasSubLibrary(context, libInfo.image);
+				//if ( libInfo.isReExported  )
+				//	fprintf(stderr, "%s re-exports %s\n", strrchr(this->getPath(), '/'), strrchr(libInfo.image->getPath(),'/'));
+				libInfo.image->recursiveLoadLibraries(context);
+			}
+		}
+		
+		// do deep prebind check
+		if ( fAllLibraryChecksumsAndLoadAddressesMatch ) {
+			for(unsigned int i=0; i < fLibrariesCount; ++i){
+				const DependentLibrary& libInfo = fLibraries[i];
+				if ( libInfo.image != NULL ) {
+					if ( !libInfo.image->allDependentLibrariesAsWhenPreBound() )
+						fAllLibraryChecksumsAndLoadAddressesMatch = false;
+				}
+			}
+		}
+		
+	}
+}
+
+void ImageLoader::recursiveRebase(const LinkContext& context)
+{ 
+	if ( ! fBased ) {
+		// break cycles
+		fBased = true;
+		
+		try {
+			// rebase lower level libraries first
+			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);
+		}
+		catch (const char* msg) {
+			// this image is not rebased
+			fBased = false;
+			throw msg;
+		}
+	}
+}
+
+
+
+
+void ImageLoader::recursiveBind(const LinkContext& context, BindingLaziness bindness)
+{
+	// normally just non-lazy pointers are bound up front,
+	// but DYLD_BIND_AT_LAUNCH will cause lazy pointers to be bound up from
+	// and some dyld API's bind all lazys at runtime
+	bool nonLazy = false;
+	bool lazy = false;
+	switch( bindness ) {
+		case kNonLazyOnly:
+			nonLazy = true;
+			break;
+		case kLazyAndNonLazy:
+			nonLazy = true;
+			lazy = true;
+			break;
+		case kLazyOnly:
+		case kLazyOnlyNoDependents:
+			lazy = true;
+			break;
+	}
+	const bool doNonLazy = nonLazy && !fBoundAllNonLazy;
+	const bool doLazy = lazy && !fBoundAllLazy;
+	if ( doNonLazy || doLazy ) {
+		// break cycles
+		bool oldBoundAllNonLazy = fBoundAllNonLazy;
+		bool oldBoundAllLazy = fBoundAllLazy;
+		fBoundAllNonLazy = fBoundAllNonLazy || nonLazy;
+		fBoundAllLazy = fBoundAllLazy || lazy;
+		
+		try {
+			// bind lower level libraries first
+			if ( bindness != kLazyOnlyNoDependents ) {
+				for(unsigned int i=0; i < fLibrariesCount; ++i){
+					DependentLibrary& libInfo = fLibraries[i];
+					if ( libInfo.image != NULL )
+						libInfo.image->recursiveBind(context, bindness);
+				}
+			}
+			// bind this image
+			if ( doLazy && !doNonLazy )
+				doBind(context, kLazyOnly);	
+			else if ( !doLazy && doNonLazy )
+				doBind(context, kNonLazyOnly);
+			else 
+				doBind(context, kLazyAndNonLazy);
+		}
+		catch (const char* msg) {
+			// restore state
+			fBoundAllNonLazy = oldBoundAllNonLazy;
+			fBoundAllLazy = oldBoundAllLazy;
+			throw msg;
+		}
+	}
+}
+
+//
+// This is complex because _dyld_register_func_for_add_image() is defined to not only
+// notify you of future image loads, but also of all currently loaded images.  Therefore
+// each image needs to track that all add-image-funcs have been notified about it.
+// Since add-image-funcs cannot be removed, each has a unique index and each image
+// records the thru which index notificiation has already been done.
+//
+void ImageLoader::recursiveImageNotification(const LinkContext& context, uint32_t addImageCount)
+{
+	if ( fNextAddImageIndex < addImageCount ) {
+		// break cycles
+		const uint32_t initIndex = fNextAddImageIndex;
+		fNextAddImageIndex = addImageCount;
+	
+		// notify all requestors about this image
+		context.imageNotification(this, initIndex);
+	
+		// notify about lower level libraries first
+		for(unsigned int i=0; i < fLibrariesCount; ++i){
+			DependentLibrary& libInfo = fLibraries[i];
+			if ( libInfo.image != NULL )
+				libInfo.image->recursiveImageNotification(context, addImageCount);
+		}
+	}
+}
+
+
+void ImageLoader::recursiveImageAnnouncement(const LinkContext& context, std::vector<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 gdb about
+		newImages.push_back(this);
+		//fprintf(stderr, "next size = %d\n", newImages.size());
+		
+		// remember that this image wants to be notified about other images
+		 if ( this->hasImageNotification() )
+			context.addImageNeedingNotification(this);
+	}
+}
+
+
+
+void ImageLoader::recursiveInitialization(const LinkContext& context)
+{
+	if ( ! fInitialized ) {
+		// break cycles
+		fInitialized = true;
+
+		try {
+			// initialize lower level libraries first
+			for(unsigned int i=0; i < fLibrariesCount; ++i){
+				DependentLibrary& libInfo = fLibraries[i];
+				if ( libInfo.image != NULL )
+					libInfo.image->recursiveInitialization(context);
+			}
+			
+			// record termination order
+			if ( this->needsTermination() )
+				context.terminationRecorder(this);
+			
+			// initialize this image
+			this->doInitialization(context);
+		}
+		catch (const char* msg) {
+			// this image is not initialized
+			fInitialized = false;
+			throw msg;
+		}
+	}
+}
+
+void ImageLoader::reprebindCommit(const LinkContext& context, bool commit, bool unmapOld)
+{
+	// do nothing on unprebound images
+	if ( ! this->isPrebindable() )
+		return;
+
+	// do nothing if prebinding is up to date
+	if ( this->usablePrebinding(context) )
+		return;
+		
+	// make sure we are not replacing a symlink with a file
+	char realFilePath[PATH_MAX];
+	if ( realpath(this->getPath(), realFilePath) == NULL ) {
+		throwf("realpath() failed on %s, errno=%d", this->getPath(), errno);
+	}
+	// recreate temp file name
+	char tempFilePath[strlen(realFilePath)+strlen("_redoprebinding")+2];
+	ImageLoader::addSuffix(realFilePath, "_redoprebinding", tempFilePath);
+
+	if ( commit ) {
+		// all files successfully reprebound, so do swap
+		int result = rename(tempFilePath, realFilePath);
+		if ( result != 0 ) {
+			// if there are two dylibs with the same install path, the second will fail to prebind
+			// because the _redoprebinding temp file is gone.  In that case, log and go on.
+			if ( errno == ENOENT )
+				fprintf(stderr, "update_prebinding: temp file missing: %s\n", tempFilePath);
+			else
+				throwf("can't swap temporary re-prebound file: rename(%s,%s) returned errno=%d", tempFilePath, realFilePath, errno);
+		}
+		else if ( unmapOld ) {
+			this->prebindUnmap(context);
+		}
+	}
+	else {
+		// something went wrong during prebinding, delete the temp files
+		unlink(tempFilePath);
+	}
+}
+
+uint64_t ImageLoader::reprebind(const LinkContext& context, time_t timestamp)
+{
+	// do nothing on unprebound images
+	if ( ! this->isPrebindable() )
+		return INT64_MAX;
+
+	// do nothing if prebinding is up to date
+	if ( this->usablePrebinding(context) ) {
+		if ( context.verbosePrebinding )
+			fprintf(stderr, "dyld: no need to re-prebind: %s\n", this->getPath());
+		return INT64_MAX;
+	}
+	// recreate temp file name
+	char realFilePath[PATH_MAX];
+	if ( realpath(this->getPath(), realFilePath) == NULL ) {
+		throwf("realpath() failed on %s, errno=%d", this->getPath(), errno);
+	}
+	char tempFilePath[strlen(realFilePath)+strlen("_redoprebinding")+2];
+	ImageLoader::addSuffix(realFilePath, "_redoprebinding", tempFilePath);
+
+	// make copy of file and map it in
+	uint8_t* fileToPrebind;
+	uint64_t fileToPrebindSize;
+	uint64_t freespace = this->copyAndMap(tempFilePath, &fileToPrebind, &fileToPrebindSize);
+
+	// do format specific prebinding
+	this->doPrebinding(context, timestamp, fileToPrebind);
+	
+	// flush and swap files
+	int result = msync(fileToPrebind, fileToPrebindSize, MS_ASYNC);
+	if ( result != 0 )
+		throw "error syncing re-prebound file";
+	result = munmap(fileToPrebind, fileToPrebindSize);
+	if ( result != 0 )
+		throw "error unmapping re-prebound file";
+
+	// log
+	if ( context.verbosePrebinding )
+		fprintf(stderr, "dyld: re-prebound: %p %s\n", this->machHeader(), this->getPath());
+	
+	return freespace;
+}
+
+uint64_t ImageLoader::copyAndMap(const char* tempFile, uint8_t** fileToPrebind, uint64_t* fileToPrebindSize) 
+{
+	// reopen dylib 
+	int src = open(this->getPath(), O_RDONLY);	
+	if ( src == -1 )
+		throw "can't open image";
+	struct stat stat_buf;
+	if ( fstat(src, &stat_buf) == -1)
+		throw "can't stat image";
+	if ( stat_buf.st_mtime != fLastModified )
+		throw "image file changed since it was loaded";
+		
+	// create new file with all same permissions to hold copy of dylib 
+	unlink(tempFile);
+	int dst = open(tempFile, O_CREAT | O_RDWR | O_TRUNC, stat_buf.st_mode);	
+	if ( dst == -1 )
+		throw "can't create temp image";
+
+	// mark source as "don't cache"
+	(void)fcntl(src, F_NOCACHE, 1);
+	// we want to cache the dst because we are about to map it in and modify it
+	
+	// copy permission bits
+	if ( chmod(tempFile, stat_buf.st_mode & 07777) == -1 )
+		throwf("can't chmod temp image.  errno=%d for %s", errno, this->getPath());
+	if ( chown(tempFile, stat_buf.st_uid, stat_buf.st_gid) == -1)
+		throwf("can't chown temp image.  errno=%d for %s", errno, this->getPath());
+		  
+	// copy contents
+	ssize_t len;
+	const uint32_t kBufferSize = 128*1024;
+	static uint8_t* buffer = NULL;
+	if ( buffer == NULL ) {
+		vm_address_t addr = 0;
+		if ( vm_allocate(mach_task_self(), &addr, kBufferSize, true /*find range*/) == KERN_SUCCESS )
+			buffer = (uint8_t*)addr;
+		else
+			throw "can't allcoate copy buffer";
+	}
+	while ( (len = read(src, buffer, kBufferSize)) > 0 ) {
+		if ( write(dst, buffer, len) == -1 )
+			throwf("write failure copying dylib errno=%d for %s", errno, this->getPath());
+	}
+	
+	// map in dst file
+	*fileToPrebindSize = stat_buf.st_size - fOffsetInFatFile; // this may map in too much, but it does not matter
+	*fileToPrebind = (uint8_t*)mmap(NULL, *fileToPrebindSize, PROT_READ | PROT_WRITE, MAP_FILE | MAP_SHARED, dst, fOffsetInFatFile);
+	if ( *fileToPrebind == (uint8_t*)(-1) )
+		throw "can't mmap temp image";
+		
+	// get free space remaining on dst volume
+	struct statfs statfs_buf;
+	if ( fstatfs(dst, &statfs_buf) != 0 )
+		throwf("can't fstatfs(), errno=%d for %s", errno, tempFile);
+	uint64_t freespace = (uint64_t)statfs_buf.f_bavail * (uint64_t)statfs_buf.f_bsize;
+	
+	// closing notes:  
+	//		ok to close file after mapped in
+	//		ok to throw above without closing file because the throw will terminate update_prebinding
+	int result1 = close(dst);
+	int result2 = close(src);
+	if ( (result1 != 0) || (result2 != 0) )
+		throw "can't close file";
+		
+	return freespace;
+}
+
+
+static void printTime(const char* msg, uint64_t partTime, uint64_t totalTime)
+{
+	static uint64_t sUnitsPerSecond = 0;
+	if ( sUnitsPerSecond == 0 ) {
+		struct mach_timebase_info timeBaseInfo;
+		if ( mach_timebase_info(&timeBaseInfo) == KERN_SUCCESS ) {
+			sUnitsPerSecond = timeBaseInfo.denom;
+		}
+	}
+	if ( partTime < sUnitsPerSecond ) {
+		uint32_t milliSecondsTimeTen = (partTime*10000)/sUnitsPerSecond;
+		uint32_t milliSeconds = milliSecondsTimeTen/10;
+		uint32_t percentTimesTen = (partTime*1000)/totalTime;
+		uint32_t percent = percentTimesTen/10;
+		fprintf(stderr, "%s: %u.%u milliseconds (%u.%u%%)\n", msg, milliSeconds, milliSecondsTimeTen-milliSeconds*10, percent, percentTimesTen-percent*10);
+	}
+	else {
+		uint32_t secondsTimeTen = (partTime*10)/sUnitsPerSecond;
+		uint32_t seconds = secondsTimeTen/100;
+		uint32_t percentTimesTen = (partTime*1000)/totalTime;
+		uint32_t percent = percentTimesTen/10;
+		fprintf(stderr, "%s: %u.%u seconds (%u.%u%%)\n", msg, seconds, secondsTimeTen-seconds*10, percent, percentTimesTen-percent*10);
+	}
+}
+
+static char* commatize(uint64_t in, char* out)
+{
+	char* result = out;
+	char rawNum[30];
+	sprintf(rawNum, "%llu", in);
+	const int rawNumLen = strlen(rawNum);
+	for(int i=0; i < rawNumLen-1; ++i) {
+		*out++ = rawNum[i];
+		if ( ((rawNumLen-i) % 3) == 1 )
+			*out++ = ',';
+	}
+	*out++ = rawNum[rawNumLen-1];
+	*out = '\0';
+	return result;
+} 
+
+
+void ImageLoader::printStatistics(unsigned int imageCount)
+{
+	uint64_t totalTime = fgTotalLoadLibrariesTime + fgTotalRebaseTime + fgTotalBindTime + fgTotalNotifyTime + fgTotalInitTime;
+	char commaNum1[40];
+	char commaNum2[40];
+
+	printTime("total time", totalTime, totalTime);
+	fprintf(stderr, "total images loaded:  %d (%d used prebinding)\n", imageCount, fgImagesWithUsedPrebinding);
+	printTime("total images loading time", fgTotalLoadLibrariesTime, totalTime);
+	fprintf(stderr, "total rebase fixups:  %s\n", commatize(fgTotalRebaseFixups, commaNum1));
+	printTime("total rebase fixups time", fgTotalRebaseFixups, totalTime);
+	fprintf(stderr, "total binding fixups: %s\n", commatize(fgTotalBindFixups, commaNum1));
+	printTime("total binding fixups time", fgTotalBindTime, totalTime);
+	fprintf(stderr, "total bindings lazily fixed up: %s of %s\n", commatize(fgTotalLazyBindFixups, commaNum1), commatize(fgTotalPossibleLazyBindFixups, commaNum2));
+	printTime("total notify time time", fgTotalNotifyTime, totalTime);
+	printTime("total init time time", fgTotalInitTime, totalTime);
+}
+
+
+//
+// copy path and add suffix to result
+//
+//  /path/foo.dylib		_debug   =>   /path/foo_debug.dylib	
+//  foo.dylib			_debug   =>   foo_debug.dylib
+//  foo     			_debug   =>   foo_debug
+//  /path/bar			_debug   =>   /path/bar_debug  
+//  /path/bar.A.dylib   _debug   =>   /path/bar.A_debug.dylib
+//
+void ImageLoader::addSuffix(const char* path, const char* suffix, char* result)
+{
+	strcpy(result, path);
+	
+	char* start = strrchr(result, '/');
+	if ( start != NULL )
+		start++;
+	else
+		start = result;
+		
+	char* dot = strrchr(start, '.');
+	if ( dot != NULL ) {
+		strcpy(dot, suffix);
+		strcat(&dot[strlen(suffix)], &path[dot-result]);
+	}
+	else {
+		strcat(result, suffix);
+	}
+}
+
+
+void Segment::map(int fd, uint64_t offsetInFatWrapper, intptr_t slide, 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;
+	}
+	void* loadAddress = mmap(requestedLoadAddress, size, protection, MAP_FILE | MAP_FIXED | MAP_PRIVATE, fd, fileOffset);
+	if ( loadAddress == ((void*)(-1)) )
+		throwf("mmap() error %d at address=0x%08lX, size=0x%08lX in Segment::map() mapping %s", errno, (uintptr_t)requestedLoadAddress, (uintptr_t)size, this->getImage()->getPath());
+	
+	if ( context.verboseMapping )
+		fprintf(stderr, "%18s at %p->%p\n", this->getName(), loadAddress, (char*)loadAddress+this->getFileSize()-1);
+}
+
+void Segment::map(const void* memoryImage, intptr_t slide, 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 )
+		fprintf(stderr, "%18s at %p->%p\n", this->getName(), (char*)loadAddress, (char*)loadAddress+this->getFileSize()-1);
+}
+
+void Segment::setPermissions()
+{
+	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();
+	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";
+}	
+
+void Segment::tempWritable()
+{
+	vm_address_t addr = this->getActualLoadAddress();
+	vm_size_t size = this->getSize();
+	const bool setCurrentPermissions = false;
+	kern_return_t r = vm_protect(mach_task_self(), addr, size, setCurrentPermissions, VM_PROT_WRITE | VM_PROT_READ);
+	if ( r != KERN_SUCCESS ) 
+		throw "can't set vm permissions for mapped segment";
+}
+
+
+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;
+	if ( context.slideAndPackDylibs ) {
+		addr = (fgNextNonSplitSegAddress - length) & (-4096); // page align
+		kern_return_t r = vm_allocate(mach_task_self(), &addr, size, false /*use this range*/);
+		if ( r != KERN_SUCCESS ) 
+			throw "out of address space";
+		fgNextNonSplitSegAddress = addr;
+	}
+	else {
+		kern_return_t r = vm_allocate(mach_task_self(), &addr, size, true /*find range*/);
+		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;
+}
+
+
+