/* -*- 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@ */ #include #include #include #include "mach-o/dyld.h" #include "mach-o/dyld_priv.h" #include "dyldLock.h" /* * names_match() takes an install_name from an LC_LOAD_DYLIB command and a * libraryName (which is -lx or -framework Foo argument passed to the static * link editor for the same library) and determines if they match. This depends * on conventional use of names including major versioning. */ static bool names_match( char *install_name, const char* libraryName) { char *basename; unsigned long n; /* * Conventional install names have these forms: * /System/Library/Frameworks/AppKit.framework/Versions/A/Appkit * /Local/Library/Frameworks/AppKit.framework/Appkit * /lib/libsys_s.A.dylib * /usr/lib/libsys_s.dylib */ basename = strrchr(install_name, '/'); if(basename == NULL) basename = install_name; else basename++; /* * By checking the base name matching the library name we take care * of the -framework cases. */ if(strcmp(basename, libraryName) == 0) return(TRUE); /* * Now check the base name for "lib" if so proceed to check for the * -lx case dealing with a possible .X.dylib and a .dylib extension. */ if(strncmp(basename, "lib", 3) ==0){ n = strlen(libraryName); if(strncmp(basename+3, libraryName, n) == 0){ if(strncmp(basename+3+n, ".dylib", 6) == 0) return(TRUE); if(basename[3+n] == '.' && basename[3+n+1] != '\0' && strncmp(basename+3+n+2, ".dylib", 6) == 0) return(TRUE); } } return(FALSE); } void NSInstallLinkEditErrorHandlers( const NSLinkEditErrorHandlers* handlers) { DYLD_WRITER_LOCK_THIS_BLOCK; static void (*p)( void (*undefined)(const char* symbol_name), NSModule (*multiple)(NSSymbol s, NSModule old, NSModule newhandler), void (*linkEdit)(NSLinkEditErrors c, int errorNumber, const char* fileName, const char* errorString)) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_install_handlers", (void**)&p); p(handlers->undefined, handlers->multiple, handlers->linkEdit); } const char* NSNameOfModule( NSModule module) { DYLD_READER_LOCK_THIS_BLOCK; static const char* (*p)(NSModule module) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSNameOfModule", (void**)&p); return(p(module)); } const char* NSLibraryNameForModule( NSModule module) { DYLD_READER_LOCK_THIS_BLOCK; static const char* (*p)(NSModule module) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSLibraryNameForModule", (void**)&p); return(p(module)); } bool NSIsSymbolNameDefined( const char* symbolName) { DYLD_READER_LOCK_THIS_BLOCK; static bool (*p)(const char* symbolName) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSIsSymbolNameDefined", (void**)&p); return(p(symbolName)); } bool NSIsSymbolNameDefinedWithHint( const char* symbolName, const char* libraryNameHint) { DYLD_READER_LOCK_THIS_BLOCK; static bool (*p)(const char* symbolName, const char* libraryNameHint) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSIsSymbolNameDefinedWithHint", (void**)&p); return(p(symbolName, libraryNameHint)); } bool NSIsSymbolNameDefinedInImage( const struct mach_header *image, const char* symbolName) { DYLD_READER_LOCK_THIS_BLOCK; static bool (*p)(const struct mach_header *image, const char* symbolName) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSIsSymbolNameDefinedInImage", (void**)&p); return(p(image, symbolName)); } NSSymbol NSLookupAndBindSymbol( const char* symbolName) { DYLD_WRITER_LOCK_THIS_BLOCK; static NSSymbol (*p)(const char* symbolName) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSLookupAndBindSymbol", (void**)&p); return(p(symbolName)); } NSSymbol NSLookupAndBindSymbolWithHint( const char* symbolName, const char* libraryNameHint) { DYLD_WRITER_LOCK_THIS_BLOCK; static NSSymbol (*p)(const char* symbolName, const char* libraryNameHint) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSLookupAndBindSymbolWithHint", (void**)&p); return(p(symbolName, libraryNameHint)); } NSSymbol NSLookupSymbolInModule( NSModule module, const char* symbolName) { DYLD_READER_LOCK_THIS_BLOCK; static NSSymbol (*p)(NSModule module, const char* symbolName) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSLookupSymbolInModule", (void**)&p); return(p(module, symbolName)); } NSSymbol NSLookupSymbolInImage( const struct mach_header *image, const char* symbolName, uint32_t options) { DYLD_READER_LOCK_THIS_BLOCK; static NSSymbol (*p)(const struct mach_header *image, const char* symbolName, uint32_t options) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSLookupSymbolInImage", (void**)&p); return(p(image, symbolName, options)); } const char* NSNameOfSymbol( NSSymbol symbol) { DYLD_READER_LOCK_THIS_BLOCK; static char * (*p)(NSSymbol symbol) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSNameOfSymbol",(void**)&p); return(p(symbol)); } void * NSAddressOfSymbol( NSSymbol symbol) { DYLD_READER_LOCK_THIS_BLOCK; static void * (*p)(NSSymbol symbol) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSAddressOfSymbol", (void**)&p); return(p(symbol)); } NSModule NSModuleForSymbol( NSSymbol symbol) { DYLD_READER_LOCK_THIS_BLOCK; static NSModule (*p)(NSSymbol symbol) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSModuleForSymbol", (void**)&p); return(p(symbol)); } bool NSAddLibrary( const char* pathName) { DYLD_WRITER_LOCK_THIS_BLOCK; static bool (*p)(const char* pathName) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSAddLibrary", (void**)&p); return(p(pathName)); } bool NSAddLibraryWithSearching( const char* pathName) { DYLD_WRITER_LOCK_THIS_BLOCK; static bool (*p)(const char* pathName) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSAddLibraryWithSearching", (void**)&p); return(p(pathName)); } const struct mach_header * NSAddImage( const char* image_name, uint32_t options) { DYLD_WRITER_LOCK_THIS_BLOCK; static const struct mach_header * (*p)(const char* image_name, uint32_t options) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSAddImage", (void**)&p); return(p(image_name, options)); } /* * This routine returns the current version of the named shared library the * executable it was built with. The libraryName parameter is the same as the * -lx or -framework Foo argument passed to the static link editor when building * the executable (with -lx it would be "x" and with -framework Foo it would be * "Foo"). If this the executable was not built against the specified library * it returns -1. It should be noted that if this only returns the value the * current version of the named shared library the executable was built with * and not a list of current versions that dependent libraries and bundles the * program is using were built with. */ int32_t NSVersionOfLinkTimeLibrary( const char* libraryName) { unsigned long i; struct load_command *load_commands, *lc; struct dylib_command *dl; char *install_name; #ifndef __OPENSTEP__ static struct mach_header *mh = NULL; if(mh == NULL) mh = _NSGetMachExecuteHeader(); #else /* defined(__OPENSTEP__) */ #ifdef __DYNAMIC__ static struct mach_header *mh = NULL; if(mh == NULL) _dyld_lookup_and_bind("__mh_execute_header", &mh, NULL); #else struct mach_header *mh; mh = (struct mach_header *)&_mh_execute_header; #endif #endif /* __OPENSTEP__ */ load_commands = (struct load_command *) ((char *)mh + sizeof(struct mach_header)); lc = load_commands; for(i = 0; i < mh->ncmds; i++){ if(lc->cmd == LC_LOAD_DYLIB){ dl = (struct dylib_command *)lc; install_name = (char *)dl + dl->dylib.name.offset; if(names_match(install_name, libraryName) == TRUE) return(dl->dylib.current_version); } lc = (struct load_command *)((char *)lc + lc->cmdsize); } return(-1); } /* * This routine returns the current version of the named shared library the * program it is running against. The libraryName parameter is the same as * would be static link editor using the -lx or -framework Foo flags (with -lx * it would be "x" and with -framework Foo it would be "Foo"). If the program * is not using the specified library it returns -1. */ int32_t NSVersionOfRunTimeLibrary( const char* libraryName) { unsigned long i, j, n; char *install_name; struct load_command *load_commands, *lc; struct dylib_command *dl; const struct mach_header *mh; n = _dyld_image_count(); for(i = 0; i < n; i++){ mh = _dyld_get_image_header(i); if(mh->filetype != MH_DYLIB) continue; load_commands = (struct load_command *) ((char *)mh + sizeof(struct mach_header)); lc = load_commands; for(j = 0; j < mh->ncmds; j++){ if(lc->cmd == LC_ID_DYLIB){ dl = (struct dylib_command *)lc; install_name = (char *)dl + dl->dylib.name.offset; if(names_match(install_name, libraryName) == TRUE) return(dl->dylib.current_version); } lc = (struct load_command *)((char *)lc + lc->cmdsize); } } return(-1); } /* * NSCreateObjectFileImageFromFile() creates an NSObjectFileImage for the * specified file name if the file is a correct Mach-O file that can be loaded * with NSloadModule(). For return codes of NSObjectFileImageFailure and * NSObjectFileImageFormat an error message is printed to stderr. All * other codes cause no printing. */ NSObjectFileImageReturnCode NSCreateObjectFileImageFromFile( const char* pathName, NSObjectFileImage *objectFileImage) { DYLD_WRITER_LOCK_THIS_BLOCK; static NSObjectFileImageReturnCode (*p)(const char*, NSObjectFileImage*) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSCreateObjectFileImageFromFile", (void**)&p); return p(pathName, objectFileImage); } /* * NSCreateObjectFileImageFromMemory() creates an NSObjectFileImage for the * object file mapped into memory at address of size length if the object file * is a correct Mach-O file that can be loaded with NSloadModule(). For return * codes of NSObjectFileImageFailure and NSObjectFileImageFormat an error * message is printed to stderr. All other codes cause no printing. */ NSObjectFileImageReturnCode NSCreateObjectFileImageFromMemory( const void* address, size_t size, NSObjectFileImage *objectFileImage) { DYLD_WRITER_LOCK_THIS_BLOCK; static NSObjectFileImageReturnCode (*p)(const void*, size_t, NSObjectFileImage*) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSCreateObjectFileImageFromMemory", (void**)&p); return p(address, size, objectFileImage); } /* * NSCreateCoreFileImageFromFile() creates an NSObjectFileImage for the * specified core file name if the file is a correct Mach-O core file. * For return codes of NSObjectFileImageFailure and NSObjectFileImageFormat * an error message is printed to stderr. All other codes cause no printing. */ NSObjectFileImageReturnCode NSCreateCoreFileImageFromFile( const char* pathName, NSObjectFileImage *objectFileImage) { DYLD_WRITER_LOCK_THIS_BLOCK; static NSObjectFileImageReturnCode (*p)(const char*, NSObjectFileImage*) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSCreateCoreFileImageFromFile", (void**)&p); return p(pathName, objectFileImage); } bool NSDestroyObjectFileImage( NSObjectFileImage objectFileImage) { DYLD_WRITER_LOCK_THIS_BLOCK; static bool (*p)(NSObjectFileImage) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSDestroyObjectFileImage", (void**)&p); return p(objectFileImage); } NSModule NSLinkModule( NSObjectFileImage objectFileImage, const char* moduleName, uint32_t options) { DYLD_WRITER_LOCK_THIS_BLOCK; static NSModule (*p)(NSObjectFileImage, const char*, unsigned long) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSLinkModule", (void**)&p); return p(objectFileImage, moduleName, options); } /* * NSFindSectionAndOffsetInObjectFileImage() takes the specified imageOffset * into the specified ObjectFileImage and returns the segment/section name and * offset into that section of that imageOffset. Returns FALSE if the * imageOffset is not in any section. You can used the resulting sectionOffset * to index into the data returned by NSGetSectionDataInObjectFileImage. * * SPI: currently only used by ZeroLink to detect +load methods */ bool NSFindSectionAndOffsetInObjectFileImage( NSObjectFileImage objectFileImage, unsigned long imageOffset, const char** segmentName, /* can be NULL */ const char** sectionName, /* can be NULL */ unsigned long* sectionOffset) /* can be NULL */ { DYLD_READER_LOCK_THIS_BLOCK; static bool (*p)(NSObjectFileImage, unsigned long, const char**, const char**, unsigned long*) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSFindSectionAndOffsetInObjectFileImage", (void**)&p); return p(objectFileImage, imageOffset, segmentName, sectionName, sectionOffset); } /* * NSSymbolDefinitionCountInObjectFileImage() returns the number of symbol * definitions in the NSObjectFileImage. */ uint32_t NSSymbolDefinitionCountInObjectFileImage( NSObjectFileImage objectFileImage) { DYLD_READER_LOCK_THIS_BLOCK; static unsigned long (*p)(NSObjectFileImage) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSSymbolDefinitionCountInObjectFileImage", (void**)&p); return p(objectFileImage); } /* * NSSymbolDefinitionNameInObjectFileImage() returns the name of the i'th * symbol definitions in the NSObjectFileImage. If the ordinal specified is * outside the range [0..NSSymbolDefinitionCountInObjectFileImage], NULL will * be returned. */ const char* NSSymbolDefinitionNameInObjectFileImage( NSObjectFileImage objectFileImage, uint32_t ordinal) { DYLD_READER_LOCK_THIS_BLOCK; static const char* (*p)(NSObjectFileImage, uint32_t) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSSymbolDefinitionNameInObjectFileImage", (void**)&p); return p(objectFileImage, ordinal); } /* * NSSymbolReferenceCountInObjectFileImage() returns the number of references * to undefined symbols the NSObjectFileImage. */ uint32_t NSSymbolReferenceCountInObjectFileImage( NSObjectFileImage objectFileImage) { DYLD_READER_LOCK_THIS_BLOCK; static unsigned long (*p)(NSObjectFileImage) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSSymbolReferenceCountInObjectFileImage", (void**)&p); return p(objectFileImage); } /* * NSSymbolReferenceNameInObjectFileImage() returns the name of the i'th * undefined symbol in the NSObjectFileImage. If the ordinal specified is * outside the range [0..NSSymbolReferenceCountInObjectFileImage], NULL will be * returned. */ const char* NSSymbolReferenceNameInObjectFileImage( NSObjectFileImage objectFileImage, uint32_t ordinal, bool *tentative_definition) /* can be NULL */ { DYLD_READER_LOCK_THIS_BLOCK; static const char* (*p)(NSObjectFileImage, uint32_t, bool*) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSSymbolReferenceNameInObjectFileImage", (void**)&p); return p(objectFileImage, ordinal, tentative_definition); } /* * NSIsSymbolDefinedInObjectFileImage() returns TRUE if the specified symbol * name has a definition in the NSObjectFileImage and FALSE otherwise. */ bool NSIsSymbolDefinedInObjectFileImage( NSObjectFileImage objectFileImage, const char* symbolName) { DYLD_READER_LOCK_THIS_BLOCK; static bool (*p)(NSObjectFileImage, const char*) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSIsSymbolDefinedInObjectFileImage", (void**)&p); return p(objectFileImage, symbolName); } /* * NSGetSectionDataInObjectFileImage() returns a pointer to the section contents * in the NSObjectFileImage for the specified segmentName and sectionName if * it exists and it is not a zerofill section. If not it returns NULL. If * the parameter size is not NULL the size of the section is also returned * indirectly through that pointer. */ void * NSGetSectionDataInObjectFileImage( NSObjectFileImage objectFileImage, const char* segmentName, const char* sectionName, unsigned long *size) /* can be NULL */ { DYLD_READER_LOCK_THIS_BLOCK; static void* (*p)(NSObjectFileImage, const char*, const char*, unsigned long*) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSGetSectionDataInObjectFileImage", (void**)&p); return p(objectFileImage, segmentName, sectionName, size); } /* * NSHasModInitObjectFileImage() returns TRUE if the NSObjectFileImage has any * module initialization sections and FALSE it it does not. * * SPI: currently only used by ZeroLink to detect C++ initializers */ bool NSHasModInitObjectFileImage( NSObjectFileImage objectFileImage) { DYLD_READER_LOCK_THIS_BLOCK; static bool (*p)(NSObjectFileImage) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_NSHasModInitObjectFileImage", (void**)&p); return p(objectFileImage); } void NSLinkEditError( NSLinkEditErrors *c, int *errorNumber, const char* *fileName, const char* *errorString) { DYLD_WRITER_LOCK_THIS_BLOCK; static void (*p)(NSLinkEditErrors *c, int *errorNumber, const char* *fileName, const char* *errorString) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_link_edit_error", (void**)&p); if(p != NULL) p(c, errorNumber, fileName, errorString); } bool NSUnLinkModule( NSModule module, uint32_t options) { DYLD_WRITER_LOCK_THIS_BLOCK; static bool (*p)(NSModule module, uint32_t options) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_unlink_module", (void**)&p); return p(module, options); } NSModule NSReplaceModule( NSModule moduleToReplace, NSObjectFileImage newObjectFileImage, uint32_t options) { return(NULL); } /* *_NSGetExecutablePath copies the path of the executable into the buffer and * returns 0 if the path was successfully copied in the provided buffer. If the * buffer is not large enough, -1 is returned and the expected buffer size is * copied in *bufsize. Note that _NSGetExecutablePath will return "a path" to * the executable not a "real path" to the executable. That is the path may be * a symbolic link and not the real file. And with deep directories the total * bufsize needed could be more than MAXPATHLEN. */ int _NSGetExecutablePath( char *buf, uint32_t *bufsize) { DYLD_READER_LOCK_THIS_BLOCK; static int (*p)(char *buf, uint32_t *bufsize) = NULL; if(p == NULL) _dyld_func_lookup("__dyld__NSGetExecutablePath", (void**)&p); return(p(buf, bufsize)); } void _dyld_lookup_and_bind( const char* symbol_name, void** address, NSModule* module) { DYLD_WRITER_LOCK_THIS_BLOCK; static void (*p)(const char*, void** , NSModule*) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_lookup_and_bind", (void**)&p); p(symbol_name, address, module); } void _dyld_lookup_and_bind_with_hint( const char* symbol_name, const char* library_name_hint, void** address, NSModule* module) { DYLD_WRITER_LOCK_THIS_BLOCK; static void (*p)(const char*, const char*, void**, NSModule*) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_lookup_and_bind_with_hint", (void**)&p); p(symbol_name, library_name_hint, address, module); } void _dyld_lookup_and_bind_objc( const char* symbol_name, void** address, NSModule* module) { DYLD_WRITER_LOCK_THIS_BLOCK; static void (*p)(const char* , void**, NSModule*) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_lookup_and_bind_objc", (void**)&p); p(symbol_name, address, module); } void _dyld_lookup_and_bind_fully( const char* symbol_name, void** address, NSModule* module) { DYLD_WRITER_LOCK_THIS_BLOCK; static void (*p)(const char*, void**, NSModule*) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_lookup_and_bind_fully", (void**)&p); p(symbol_name, address, module); } bool _dyld_bind_fully_image_containing_address( const void* address) { DYLD_WRITER_LOCK_THIS_BLOCK; static bool (*p)(const void*) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_bind_fully_image_containing_address", (void**)&p); return p(address); } /* * _dyld_register_func_for_add_image registers the specified function to be * called when a new image is added (a bundle or a dynamic shared library) to * the program. When this function is first registered it is called for once * for each image that is currently part of the program. */ void _dyld_register_func_for_add_image( void (*func)(const struct mach_header *mh, intptr_t vmaddr_slide)) { DYLD_WRITER_LOCK_THIS_BLOCK; static void (*p)(void (*func)(const struct mach_header *mh, intptr_t vmaddr_slide)) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_register_func_for_add_image", (void**)&p); p(func); } /* * _dyld_register_func_for_remove_image registers the specified function to be * called when an image is removed (a bundle or a dynamic shared library) from * the program. */ void _dyld_register_func_for_remove_image( void (*func)(const struct mach_header *mh, intptr_t vmaddr_slide)) { DYLD_WRITER_LOCK_THIS_BLOCK; static void (*p)(void (*func)(const struct mach_header *mh, intptr_t vmaddr_slide)) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_register_func_for_remove_image", (void**)&p); p(func); } /* * _dyld_register_func_for_link_module registers the specified function to be * called when a module is bound into the program. When this function is first * registered it is called for once for each module that is currently bound into * the program. */ void _dyld_register_func_for_link_module( void (*func)(NSModule module)) { DYLD_WRITER_LOCK_THIS_BLOCK; static void (*p)(void (*func)(NSModule module)) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_register_func_for_link_module", (void**)&p); p(func); } /* * _dyld_register_func_for_unlink_module registers the specified function to be * called when a module is unbound from the program. */ void _dyld_register_func_for_unlink_module( void (*func)(NSModule module)) { DYLD_WRITER_LOCK_THIS_BLOCK; static void (*p)(void (*func)(NSModule module)) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_register_func_for_unlink_module", (void**)&p); p(func); } /* * _dyld_register_func_for_replace_module registers the specified function to be * called when a module is to be replace with another module in the program. */ void _dyld_register_func_for_replace_module( void (*func)(NSModule oldmodule, NSModule newmodule)) { DYLD_WRITER_LOCK_THIS_BLOCK; static void (*p)(void (*func)(NSModule oldmodule, NSModule newmodule)) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_register_func_for_replace_module", (void**)&p); p(func); } /* * _dyld_get_objc_module_sect_for_module is passed a module and sets a * pointer to the (__OBJC,__module) section and its size for the specified * module. */ void _dyld_get_objc_module_sect_for_module( NSModule module, void **objc_module, unsigned long *size) { DYLD_READER_LOCK_THIS_BLOCK; static void (*p)(NSModule module, void **objc_module, unsigned long *size) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_get_objc_module_sect_for_module", (void**)&p); p(module, objc_module, size); } /* * _dyld_bind_objc_module() is passed a pointer to something in an (__OBJC, * __module) section and causes the module that is associated with that address * to be bound. */ void _dyld_bind_objc_module( const void* objc_module) { DYLD_READER_LOCK_THIS_BLOCK; static void (*p)(const void *objc_module) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_bind_objc_module", (void**)&p); p(objc_module); } #if __DYNAMIC__ bool _dyld_present( void) { // hmmm, this code is in libSystem.dylib, which is loaded by dyld... return true; } #endif uint32_t _dyld_image_count( void) { DYLD_NO_LOCK_THIS_BLOCK; static unsigned long (*p)(void) = NULL; if(_dyld_present() == 0) return(0); if(p == NULL) _dyld_func_lookup("__dyld_image_count", (void**)&p); return(p()); } const struct mach_header * _dyld_get_image_header( uint32_t image_index) { DYLD_NO_LOCK_THIS_BLOCK; static struct mach_header * (*p)(uint32_t image_index) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_get_image_header", (void**)&p); return(p(image_index)); } intptr_t _dyld_get_image_vmaddr_slide( uint32_t image_index) { DYLD_NO_LOCK_THIS_BLOCK; static unsigned long (*p)(uint32_t image_index) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_get_image_vmaddr_slide", (void**)&p); return(p(image_index)); } const char* _dyld_get_image_name( uint32_t image_index) { DYLD_NO_LOCK_THIS_BLOCK; static const char* (*p)(uint32_t image_index) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_get_image_name", (void**)&p); return(p(image_index)); } bool _dyld_image_containing_address( const void* address) { DYLD_READER_LOCK_THIS_BLOCK; static bool (*p)(const void*) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_image_containing_address", (void**)&p); return(p(address)); } const struct mach_header * _dyld_get_image_header_containing_address( const void* address) { DYLD_READER_LOCK_THIS_BLOCK; static const struct mach_header * (*p)(const void*) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_get_image_header_containing_address", (void**)&p); return p(address); } void _dyld_moninit( void (*monaddition)(char *lowpc, char *highpc)) { DYLD_READER_LOCK_THIS_BLOCK; static void (*p)(void (*monaddition)(char *lowpc, char *highpc)) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_moninit", (void**)&p); p(monaddition); } bool _dyld_launched_prebound( void) { DYLD_READER_LOCK_THIS_BLOCK; static bool (*p)(void) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_launched_prebound", (void**)&p); return(p()); } bool _dyld_all_twolevel_modules_prebound( void) { DYLD_READER_LOCK_THIS_BLOCK; static bool (*p)(void) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_all_twolevel_modules_prebound", (void**)&p); return(p()); } #include #include #include #include #include #include "dyldLock.h" #include "dyldLibSystemThreadHelpers.h" // pthread key used to access per-thread dlerror message static pthread_key_t dlerrorPerThreadKey; // data kept per-thread struct dlerrorPerThreadData { uint32_t sizeAllocated; char message[1]; }; // function called by dyld to get buffer to store dlerror message static char* getPerThreadBufferFor_dlerror(uint32_t sizeRequired) { const int size = (sizeRequired < 256) ? 256 : sizeRequired; dlerrorPerThreadData* data = (dlerrorPerThreadData*)pthread_getspecific(dlerrorPerThreadKey); if ( data == NULL ) { //int mallocSize = offsetof(dlerrorPerThreadData, message[size]); const int mallocSize = sizeof(dlerrorPerThreadData)+size; data = (dlerrorPerThreadData*)malloc(mallocSize); data->sizeAllocated = size; pthread_setspecific(dlerrorPerThreadKey, data); } else if ( data->sizeAllocated < sizeRequired ) { free(data); //int mallocSize = offsetof(dlerrorPerThreadData, message[size]); const int mallocSize = sizeof(dlerrorPerThreadData)+size; data = (dlerrorPerThreadData*)malloc(mallocSize); data->sizeAllocated = size; pthread_setspecific(dlerrorPerThreadKey, data); } return data->message; } // that table passed to dyld containing thread helpers static dyld::ThreadingHelpers sThreadHelpers = { 1, &lockForLazyBinding, &unlockForLazyBinding, &getPerThreadBufferFor_dlerror }; // // during initialization of libSystem this routine will run // and call dyld, registering the threading helpers. // // static int registerWithDyld() { static void (*p)(dyld::ThreadingHelpers*) = NULL; // create key and tell pthread package to call free() on any data associated with key if thread dies pthread_key_create(&dlerrorPerThreadKey, &free); if(p == NULL) _dyld_func_lookup("__dyld_register_thread_helpers", (void**)&p); if(p != NULL) p(&sThreadHelpers); return 0; } // should be able to use __attribute__((constructor)) on registerWithDyld, but compiler has bug (3679135) // instead use initialization of global to force it to run. static int hack = registerWithDyld(); char* dlerror() { DYLD_READER_LOCK_THIS_BLOCK; static char* (*p)() = NULL; if(p == NULL) _dyld_func_lookup("__dyld_dlerror", (void**)&p); return(p()); } int dladdr(const void* addr, Dl_info* info) { DYLD_READER_LOCK_THIS_BLOCK; static int (*p)(const void* , Dl_info*) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_dladdr", (void**)&p); return(p(addr, info)); } int dlclose(void* handle) { DYLD_WRITER_LOCK_THIS_BLOCK; static int (*p)(void* handle) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_dlclose", (void**)&p); return(p(handle)); } void* dlopen(const char* path, int mode) { DYLD_WRITER_LOCK_THIS_BLOCK; static void* (*p)(const char* path, int) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_dlopen", (void**)&p); return(p(path, mode)); } void* dlsym(void* handle, const char* symbol) { DYLD_READER_LOCK_THIS_BLOCK; static void* (*p)(void* handle, const char* symbol) = NULL; if(p == NULL) _dyld_func_lookup("__dyld_dlsym", (void**)&p); return(p(handle, symbol)); }