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--- dyld/dyld-1165.3/cache-builder/SharedCacheBuilder.cpp
+++ /dev/null
@@ -1,6814 +0,0 @@
-/* -*- mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
- *
- * Copyright (c) 2014 Apple 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 <unistd.h>
-#include <dirent.h>
-#include <sys/errno.h>
-#include <sys/fcntl.h>
-#include <sys/param.h>
-#include <sys/types.h>
-#include <sys/stat.h>
-#include <mach/mach.h>
-#include <mach/mach_time.h>
-#include <mach/shared_region.h>
-#include <apfs/apfs_fsctl.h>
-#include <iostream>
-
-#include <CommonCrypto/CommonHMAC.h>
-#include <CommonCrypto/CommonDigest.h>
-#include <CommonCrypto/CommonDigestSPI.h>
-
-#include "mach-o/dyld_priv.h"
-#include "ClosureFileSystemNull.h"
-#include "CodeSigningTypes.h"
-#include "MachOFileAbstraction.hpp"
-#include "SharedCacheBuilder.h"
-#include "IMPCachesBuilder.hpp"
-#include "JustInTimeLoader.h"
-#include "DyldProcessConfig.h"
-#include "DyldRuntimeState.h"
-
-#include "FileUtils.h"
-#include "JSONWriter.h"
-#include "StringUtils.h"
-#include "Trie.hpp"
-
-using dyld4::JustInTimeLoader;
-using dyld4::PrebuiltLoader;
-using dyld4::Loader;
-using dyld4::PrebuiltLoaderSet;
-using dyld4::RuntimeState;
-using dyld4::ProcessConfig;
-using dyld4::KernelArgs;
-using dyld4::SyscallDelegate;
-using dyld3::Platform;
-using dyld3::MachOLoaded;
-using dyld3::MachOAnalyzer;
-
-using lsl::Allocator;
-
-#if __has_include("dyld_cache_config.h")
- #include "dyld_cache_config.h"
-#else
- #define ARM_SHARED_REGION_START 0x1A000000ULL
- #define ARM_SHARED_REGION_SIZE 0x26000000ULL
- #define ARM64_SHARED_REGION_START 0x180000000ULL
- #define ARM64_SHARED_REGION_SIZE 0x100000000ULL
-#endif
-
-#if ARM64_SHARED_REGION_START == 0x7FFF00000000
- #define ARM64_DELTA_MASK 0x00FF000000000000
-#else
- #define ARM64_DELTA_MASK 0x00FFFF0000000000
-#endif
-
-#ifndef ARM64_32_SHARED_REGION_START
- #define ARM64_32_SHARED_REGION_START 0x1A000000ULL
- #define ARM64_32_SHARED_REGION_SIZE 0xA6000000ULL
-#endif
-
-
-#define ARMV7K_CHAIN_BITS 0xC0000000
-
-#define X86_64_32GB 0x800000000
-
-// On x86_64, each subcache is made up of 3 1GB regions. 1 for each of RX, RW, RO
-#define DISCONTIGUOUS_REGION_SIZE 0x40000000ULL
-#define SUBCACHE_TEXT_LIMIT_X86_64 (DISCONTIGUOUS_REGION_SIZE / 2) // 512MB
-
-#define SUBCACHE_TEXT_LIMIT_ARM64 0x50000000ULL // 1.25GB
-#define SUBCACHE_STUBS_LIMIT_ARM64 0x07000000ULL // 110MB
-#define SUBCACHE_TEXT_LIMIT_ARM64E 0x50000000ULL // 1.25GB
-#define SUBCACHE_STUBS_LIMIT_ARM64E 0x07000000ULL // 110MB
-#define SUBCACHE_TEXT_LIMIT_ARM64_32 0x50000000ULL // 1.25GB
-#define SUBCACHE_STUBS_LIMIT_ARM64_32 0x07000000ULL // 110MB
-#define SUBCACHE_TEXT_LIMIT_ARMV7K 0x08000000ULL // 128MB
-
-// The x86_64 simulator needs to back deploy on systems which only have 4GB of shared region size. Use the old defines for that
-#define SIM_DISCONTIGUOUS_RX 0x7FFF20000000ULL
-#define SIM_DISCONTIGUOUS_RW 0x7FFF80000000ULL
-#define SIM_DISCONTIGUOUS_RO 0x7FFFC0000000ULL
-#define SIM_DISCONTIGUOUS_RX_SIZE (SIM_DISCONTIGUOUS_RW - SIM_DISCONTIGUOUS_RX)
-#define SIM_DISCONTIGUOUS_RW_SIZE 0x40000000
-#define SIM_DISCONTIGUOUS_RO_SIZE 0x3FE00000
-
-// arm64_32 is growing from 1GB to over 2GB. These macros help choose what to do with ASLR for each case
-// We'll remove these once the kernel is always giving us over 1GB of space
-#if ARM64_32_SHARED_REGION_SIZE == 0x40000000ULL
-#define ARM64_32_DELTA_MASK 0xC0000000
-#define ARM64_32_CHAIN_BYTES 6
-#else
-#define ARM64_32_DELTA_MASK 0x0
-#define ARM64_32_CHAIN_BYTES 128
-#endif
-
-const SharedCacheBuilder::ArchLayout SharedCacheBuilder::_s_archLayout[] = {
- { 0x7FF800000000ULL, X86_64_32GB, SUBCACHE_TEXT_LIMIT_X86_64, 0x0, 0x40000000, 0x00FFFF0000000000, "x86_64", Platform::unknown, CS_PAGE_SIZE_4K, 14, 2, true, true, true, CacheLayout::Classic, 0 },
- { 0x7FF800000000ULL, X86_64_32GB, SUBCACHE_TEXT_LIMIT_X86_64, 0x0, 0x40000000, 0x00FFFF0000000000, "x86_64h", Platform::unknown, CS_PAGE_SIZE_4K, 14, 2, true, true, true, CacheLayout::Classic, 0 },
- { SIM_DISCONTIGUOUS_RX, 0xEFE00000ULL, 0x0, 0x0, 0x40000000, 0x00FFFF0000000000, "sim-x86_64", Platform::unknown, CS_PAGE_SIZE_4K, 14, 2, true, true, true, CacheLayout::Classic, 0 },
- { SIM_DISCONTIGUOUS_RX, 0xEFE00000ULL, 0x0, 0x0, 0x40000000, 0x00FFFF0000000000, "sim-x86_64h", Platform::unknown, CS_PAGE_SIZE_4K, 14, 2, true, true, true, CacheLayout::Classic, 0 },
- { SHARED_REGION_BASE_I386, SHARED_REGION_SIZE_I386, 0x0, 0x0, 0x00200000, 0x0, "i386", Platform::unknown, CS_PAGE_SIZE_4K, 12, 0, false, false, true, CacheLayout::Classic, 0 },
- { ARM64_SHARED_REGION_START, ARM64_SHARED_REGION_SIZE, SUBCACHE_TEXT_LIMIT_ARM64, 0, 0x02000000, ARM64_DELTA_MASK, "arm64", Platform::macOS, CS_PAGE_SIZE_4K, 14, 2, false, true, false, CacheLayout::Classic, 12 },
- { ARM64_SHARED_REGION_START, ARM64_SHARED_REGION_SIZE, SUBCACHE_TEXT_LIMIT_ARM64, 0, 0x02000000, ARM64_DELTA_MASK, "arm64", Platform::driverKit, CS_PAGE_SIZE_4K, 14, 2, false, true, false, CacheLayout::Classic, 12 },
- { ARM64_SHARED_REGION_START, ARM64_SHARED_REGION_SIZE, SUBCACHE_TEXT_LIMIT_ARM64, SUBCACHE_STUBS_LIMIT_ARM64, 0x02000000, ARM64_DELTA_MASK, "arm64", Platform::unknown, CS_PAGE_SIZE_4K, 14, 2, false, true, false, CacheLayout::Multi, 12 },
-
- { ARM64_SHARED_REGION_START, ARM64_SHARED_REGION_SIZE, 0x0, 0x0, 0x02000000, ARM64_DELTA_MASK, "sim-arm64", Platform::unknown, CS_PAGE_SIZE_4K, 14, 2, false, true, false, CacheLayout::Classic, 0 },
-#if SUPPORT_ARCH_arm64e
- { ARM64_SHARED_REGION_START, ARM64_SHARED_REGION_SIZE, SUBCACHE_TEXT_LIMIT_ARM64E, 0, 0x02000000, ARM64_DELTA_MASK, "arm64e", Platform::macOS, CS_PAGE_SIZE_16K, 14, 2, false, true, false, CacheLayout::Classic, 16 },
- { ARM64_SHARED_REGION_START, ARM64_SHARED_REGION_SIZE, SUBCACHE_TEXT_LIMIT_ARM64E, 0, 0x02000000, ARM64_DELTA_MASK, "arm64e", Platform::driverKit, CS_PAGE_SIZE_16K, 14, 2, false, true, false, CacheLayout::Classic, 16 },
- { ARM64_SHARED_REGION_START, ARM64_SHARED_REGION_SIZE, SUBCACHE_TEXT_LIMIT_ARM64E, SUBCACHE_STUBS_LIMIT_ARM64E, 0x02000000, ARM64_DELTA_MASK, "arm64e", Platform::unknown, CS_PAGE_SIZE_16K, 14, 2, false, true, false, CacheLayout::Multi, 16 },
-#endif
-#if SUPPORT_ARCH_arm64_32
- { ARM64_32_SHARED_REGION_START, ARM64_32_SHARED_REGION_SIZE, SUBCACHE_TEXT_LIMIT_ARM64_32, 0, 0x02000000, ARM64_32_DELTA_MASK, "arm64_32", Platform::driverKit, CS_PAGE_SIZE_16K, 14, ARM64_32_CHAIN_BYTES, false, false, true, CacheLayout::Classic, 12 },
- { ARM64_32_SHARED_REGION_START, ARM64_32_SHARED_REGION_SIZE, SUBCACHE_TEXT_LIMIT_ARM64_32, SUBCACHE_STUBS_LIMIT_ARM64_32, 0x02000000, ARM64_32_DELTA_MASK, "arm64_32", Platform::unknown, CS_PAGE_SIZE_16K, 14, ARM64_32_CHAIN_BYTES, false, false, true, CacheLayout::Multi, 12 },
-#endif
- { ARM_SHARED_REGION_START, ARM_SHARED_REGION_SIZE, SUBCACHE_TEXT_LIMIT_ARMV7K, 0x0, 0x00400000, ARMV7K_CHAIN_BITS, "armv7k", Platform::unknown, CS_PAGE_SIZE_4K, 14, 6, false, false, true, CacheLayout::Split, 0 },
- { 0x40000000, 0x40000000, 0x0, 0x0, 0x02000000, 0x0, "sim-x86", Platform::unknown, CS_PAGE_SIZE_4K, 14, 0, false, false, true, CacheLayout::Classic, 0 }};
-
-// These are functions that are interposed by Instruments.app or ASan
-const char* const SharedCacheBuilder::_s_neverStubEliminateSymbols[] = {
- "___bzero",
- "___cxa_atexit",
- "___cxa_throw",
- "__longjmp",
- "__objc_autoreleasePoolPop",
- "_accept",
- "_access",
- "_asctime",
- "_asctime_r",
- "_asprintf",
- "_atoi",
- "_atol",
- "_atoll",
- "_calloc",
- "_chmod",
- "_chown",
- "_close",
- "_confstr",
- "_cp_drawable_present",
- "_cp_drawable_enqueue_present",
- "_CGImageDestinationFinalize",
- "_CGImageSourceCreateThumbnailAtIndex",
- "_CGImageSourceCreateImageAtIndex",
- "_ctime",
- "_ctime_r",
- "_dispatch_after",
- "_dispatch_after_f",
- "_dispatch_async",
- "_dispatch_async_f",
- "_dispatch_barrier_async_f",
- "_dispatch_group_async",
- "_dispatch_group_async_f",
- "_dispatch_source_set_cancel_handler",
- "_dispatch_source_set_event_handler",
- "_dispatch_sync_f",
- "_dlclose",
- "_dlopen",
- "_dup",
- "_dup2",
- "_endgrent",
- "_endpwent",
- "_ether_aton",
- "_ether_hostton",
- "_ether_line",
- "_ether_ntoa",
- "_ether_ntohost",
- "_fchmod",
- "_fchown",
- "_fclose",
- "_fdopen",
- "_fflush",
- "_fopen",
- "_fork",
- "_fprintf",
- "_free",
- "_freopen",
- "_frexp",
- "_frexpf",
- "_frexpl",
- "_fscanf",
- "_fstat",
- "_fstatfs",
- "_fstatfs64",
- "_fsync",
- "_ftime",
- "_getaddrinfo",
- "_getattrlist",
- "_getcwd",
- "_getgrent",
- "_getgrgid",
- "_getgrgid_r",
- "_getgrnam",
- "_getgrnam_r",
- "_getgroups",
- "_gethostbyaddr",
- "_gethostbyname",
- "_gethostbyname2",
- "_gethostent",
- "_getifaddrs",
- "_getitimer",
- "_getnameinfo",
- "_getpass",
- "_getpeername",
- "_getpwent",
- "_getpwnam",
- "_getpwnam_r",
- "_getpwuid",
- "_getpwuid_r",
- "_getsockname",
- "_getsockopt",
- "_gmtime",
- "_gmtime_r",
- "_if_indextoname",
- "_if_nametoindex",
- "_index",
- "_inet_aton",
- "_inet_ntop",
- "_inet_pton",
- "_initgroups",
- "_ioctl",
- "_lchown",
- "_lgamma",
- "_lgammaf",
- "_lgammal",
- "_link",
- "_listxattr",
- "_localtime",
- "_localtime_r",
- "_longjmp",
- "_lseek",
- "_lstat",
- "_malloc",
- "_malloc_create_zone",
- "_malloc_default_purgeable_zone",
- "_malloc_default_zone",
- "_malloc_destroy_zone",
- "_malloc_good_size",
- "_malloc_make_nonpurgeable",
- "_malloc_make_purgeable",
- "_malloc_set_zone_name",
- "_malloc_zone_from_ptr",
- "_mbsnrtowcs",
- "_mbsrtowcs",
- "_mbstowcs",
- "_memchr",
- "_memcmp",
- "_memcpy",
- "_memmove",
- "_memset",
- "_mktime",
- "_mlock",
- "_mlockall",
- "_modf",
- "_modff",
- "_modfl",
- "_munlock",
- "_munlockall",
- "_objc_autoreleasePoolPop",
- "_objc_setProperty",
- "_objc_setProperty_atomic",
- "_objc_setProperty_atomic_copy",
- "_objc_setProperty_nonatomic",
- "_objc_setProperty_nonatomic_copy",
- "_objc_storeStrong",
- "_open",
- "_opendir",
- "_poll",
- "_posix_memalign",
- "_pread",
- "_printf",
- "_pthread_attr_getdetachstate",
- "_pthread_attr_getguardsize",
- "_pthread_attr_getinheritsched",
- "_pthread_attr_getschedparam",
- "_pthread_attr_getschedpolicy",
- "_pthread_attr_getscope",
- "_pthread_attr_getstack",
- "_pthread_attr_getstacksize",
- "_pthread_cond_broadcast",
- "_pthread_condattr_getpshared",
- "_pthread_cond_signal",
- "_pthread_cond_signal_thread_np",
- "_pthread_cond_timedwait_relative_np",
- "_pthread_cond_timedwait",
- "_pthread_cond_wait",
- "_pthread_create",
- "_pthread_getschedparam",
- "_pthread_join",
- "_pthread_mutex_lock",
- "_pthread_mutex_unlock",
- "_pthread_mutexattr_getprioceiling",
- "_pthread_mutexattr_getprotocol",
- "_pthread_mutexattr_getpshared",
- "_pthread_mutexattr_gettype",
- "_pthread_rwlockattr_getpshared",
- "_pthread_rwlock_rdlock",
- "_pthread_rwlock_wrlock",
- "_pthread_rwlock_unlock",
- "_pwrite",
- "_rand_r",
- "_read",
- "_readdir",
- "_readdir_r",
- "_readv",
- "_readv$UNIX2003",
- "_realloc",
- "_realpath",
- "_recv",
- "_recvfrom",
- "_recvmsg",
- "_remquo",
- "_remquof",
- "_remquol",
- "_scanf",
- "_send",
- "_sendmsg",
- "_sendto",
- "_setattrlist",
- "_setgrent",
- "_setitimer",
- "_setlocale",
- "_setpwent",
- "_shm_open",
- "_shm_unlink",
- "_sigaction",
- "_sigemptyset",
- "_sigfillset",
- "_siglongjmp",
- "_signal",
- "_sigpending",
- "_sigprocmask",
- "_sigwait",
- "_snprintf",
- "_sprintf",
- "_sscanf",
- "_stat",
- "_statfs",
- "_statfs64",
- "_strcasecmp",
- "_strcat",
- "_strchr",
- "_strcmp",
- "_strcpy",
- "_strdup",
- "_strerror",
- "_strerror_r",
- "_strlen",
- "_strncasecmp",
- "_strncat",
- "_strncmp",
- "_strncpy",
- "_strptime",
- "_strtoimax",
- "_strtol",
- "_strtoll",
- "_strtoumax",
- "_tempnam",
- "_time",
- "_times",
- "_tmpnam",
- "_tsearch",
- "_unlink",
- "_valloc",
- "_vasprintf",
- "_vfprintf",
- "_vfscanf",
- "_vprintf",
- "_vscanf",
- "_vsnprintf",
- "_vsprintf",
- "_vsscanf",
- "_wait",
- "_wait$UNIX2003",
- "_wait3",
- "_wait4",
- "_waitid",
- "_waitid$UNIX2003",
- "_waitpid",
- "_waitpid$UNIX2003",
- "_wcslen",
- "_wcsnrtombs",
- "_wcsrtombs",
- "_wcstombs",
- "_wordexp",
- "_write",
- "_writev",
- "_writev$UNIX2003",
- "_xpc_connection_send_message_with_reply_sync",
- // <rdar://problem/22050956> always use stubs for C++ symbols that can be overridden
- "__ZdaPv",
- "__ZdlPv",
- "__Znam",
- "__Znwm",
- "__ZnwmSt19__type_descriptor_t",
- "__ZnamSt19__type_descriptor_t",
-
- nullptr
-};
-
-// Struct matching dyld4::LibdyldDyld4Section to be used with a variable pointer size.
-// This is so we can use it in the shared cache builder, which is always
-// 64-bit but can emit 32-bit structs
-template <typename P> struct FixedSizeLibdyldDyld4Section {
- P apis;
- P allImageInfos;
- P defaultVars[5];
- P dyldLookupFuncAddr;
- P tlv_get_addrAddr;
-};
-
-static_assert(sizeof(FixedSizeLibdyldDyld4Section<intptr_t>) == sizeof(dyld4::LibdyldDyld4Section));
-
-inline uint32_t absolutetime_to_milliseconds(uint64_t abstime)
-{
- return (uint32_t)(abstime/1000/1000);
-}
-
-// Handles building a list of input files to the SharedCacheBuilder itself.
-class CacheInputBuilder {
-public:
- CacheInputBuilder(const dyld3::closure::FileSystem& fileSystem,
- const dyld3::GradedArchs& archs, dyld3::Platform reqPlatform)
- : fileSystem(fileSystem), reqArchs(archs), reqPlatform(reqPlatform) { }
-
- // Loads and maps any MachOs in the given list of files.
- void loadMachOs(std::vector<CacheBuilder::InputFile>& inputFiles,
- std::vector<CacheBuilder::LoadedMachO>& dylibsToCache,
- std::vector<CacheBuilder::LoadedMachO>& otherDylibs,
- std::vector<CacheBuilder::LoadedMachO>& executables,
- std::vector<CacheBuilder::LoadedMachO>& couldNotLoadFiles) {
-
- std::map<std::string, uint64_t> dylibInstallNameMap;
- for (CacheBuilder::InputFile& inputFile : inputFiles) {
- char realerPath[MAXPATHLEN];
- dyld3::closure::LoadedFileInfo loadedFileInfo = dyld3::MachOAnalyzer::load(inputFile.diag, fileSystem, inputFile.path, reqArchs, reqPlatform, realerPath);
- if ( (reqPlatform == dyld3::Platform::macOS) && inputFile.diag.hasError() ) {
- // Try again with iOSMac
- inputFile.diag.clearError();
- loadedFileInfo = dyld3::MachOAnalyzer::load(inputFile.diag, fileSystem, inputFile.path, reqArchs, dyld3::Platform::iOSMac, realerPath);
- }
- const dyld3::MachOAnalyzer* ma = (const dyld3::MachOAnalyzer*)loadedFileInfo.fileContent;
- if (ma == nullptr) {
- couldNotLoadFiles.emplace_back((CacheBuilder::LoadedMachO){ DyldSharedCache::MappedMachO(), loadedFileInfo, &inputFile });
- continue;
- }
-
- DyldSharedCache::MappedMachO mappedFile(inputFile.path, ma, loadedFileInfo.sliceLen, false, false,
- loadedFileInfo.sliceOffset, loadedFileInfo.mtime, loadedFileInfo.inode);
-
- // The file can be loaded with the given slice, but we may still want to exlude it from the cache.
- if (ma->isDylib() || ma->isDyld()) {
- std::string installName = ma->installName();
-
- const char* dylibPath = inputFile.path;
- if ( (installName != inputFile.path) && (reqPlatform == dyld3::Platform::macOS || strncmp(inputFile.path, "/System/Cryptexes/OS/", 21) == 0) ) {
- // We now typically require that install names and paths match. However symlinks may allow us to bring in a path which
- // doesn't match its install name.
- // For example:
- // /usr/lib/libstdc++.6.0.9.dylib is a real file with install name /usr/lib/libstdc++.6.dylib
- // /usr/lib/libstdc++.6.dylib is a symlink to /usr/lib/libstdc++.6.0.9.dylib
- // So long as we add both paths (with one as an alias) then this will work, even if dylibs are removed from disk
- // but the symlink remains.
- // Apply the same symlink crawling for dylibs that will install their contents to Cryptex paths but will have
- // install names with the cryptex paths removed.
- char resolvedSymlinkPath[PATH_MAX];
- if ( fileSystem.getRealPath(installName.c_str(), resolvedSymlinkPath) ) {
- if (!strcmp(resolvedSymlinkPath, inputFile.path)) {
- // Symlink is the install name and points to the on-disk dylib
- //fprintf(stderr, "Symlink works: %s == %s\n", inputFile.path, installName.c_str());
- dylibPath = installName.c_str();
- }
- }
- }
- if (!ma->canBePlacedInDyldCache(dylibPath, ^(const char* msg) {
- inputFile.diag.warning("Dylib located at '%s' cannot be placed in cache because: %s", inputFile.path, msg);
- })) {
- // keep list of all dylibs not placed in the dyld cache
- otherDylibs.emplace_back((CacheBuilder::LoadedMachO){ mappedFile, loadedFileInfo, &inputFile });
- continue;
- }
-
- // Otherwise see if we have another file with this install name
- auto iteratorAndInserted = dylibInstallNameMap.insert(std::make_pair(installName, dylibsToCache.size()));
- if (iteratorAndInserted.second) {
- // We inserted the dylib so we haven't seen another with this name.
- if (installName[0] != '@' && installName != inputFile.path) {
- inputFile.diag.warning("Dylib located at '%s' has installname '%s'", inputFile.path, installName.c_str());
- }
-
- dylibsToCache.emplace_back((CacheBuilder::LoadedMachO){ mappedFile, loadedFileInfo, &inputFile });
- } else {
- // We didn't insert this one so we've seen it before.
- CacheBuilder::LoadedMachO& previousLoadedMachO = dylibsToCache[iteratorAndInserted.first->second];
- inputFile.diag.warning("Multiple dylibs claim installname '%s' ('%s' and '%s')", installName.c_str(), inputFile.path, previousLoadedMachO.mappedFile.runtimePath.c_str());
-
- // This is the "Good" one, overwrite
- if (inputFile.path == installName) {
- // Unload the old one
- fileSystem.unloadFile(previousLoadedMachO.loadedFileInfo);
-
- // And replace with this one.
- previousLoadedMachO.mappedFile = mappedFile;
- previousLoadedMachO.loadedFileInfo = loadedFileInfo;
- }
- }
- } else if (ma->isBundle()) {
-
- if (!ma->canHavePrecomputedDlopenClosure(inputFile.path, ^(const char* msg) {
- inputFile.diag.verbose("Dylib located at '%s' cannot prebuild dlopen closure in cache because: %s", inputFile.path, msg);
- }) ) {
- fileSystem.unloadFile(loadedFileInfo);
- continue;
- }
- otherDylibs.emplace_back((CacheBuilder::LoadedMachO){ mappedFile, loadedFileInfo, &inputFile });
- } else if (ma->isDynamicExecutable()) {
-
- // Let the platform exclude the file before we do anything else.
- if (platformExcludesExecutablePath(inputFile.path)) {
- inputFile.diag.verbose("Platform excluded file\n");
- fileSystem.unloadFile(loadedFileInfo);
- continue;
- }
- executables.emplace_back((CacheBuilder::LoadedMachO){ mappedFile, loadedFileInfo, &inputFile });
- } else {
- inputFile.diag.verbose("Unsupported mach file type\n");
- fileSystem.unloadFile(loadedFileInfo);
- }
- }
- }
-
-private:
-
- static bool platformExcludesExecutablePath_macOS(const std::string& path) {
- // We no longer support ROSP, so skip all paths which start with the special prefix
- if ( startsWith(path, "/System/Library/Templates/Data/") )
- return true;
-
- static const char* sAllowedPrefixes[] = {
- "/bin/",
- "/sbin/",
- "/usr/",
- "/System/",
- "/Library/Apple/System/",
- "/Library/Apple/usr/",
- "/System/Applications/Safari.app/",
- "/Library/CoreMediaIO/Plug-Ins/DAL/" // temp until plugins moved or closured working
- };
-
- bool inSearchDir = false;
- for (const char* searchDir : sAllowedPrefixes ) {
- if ( strncmp(searchDir, path.c_str(), strlen(searchDir)) == 0 ) {
- inSearchDir = true;
- break;
- }
- }
-
- return !inSearchDir;
- }
-
- // Returns true if the current platform requires that this path be excluded from the shared cache
- // Note that this overrides any exclusion from anywhere else.
- bool platformExcludesExecutablePath(const std::string& path) {
- if ( (reqPlatform == dyld3::Platform::macOS) || (reqPlatform == dyld3::Platform::iOSMac) )
- return platformExcludesExecutablePath_macOS(path);
- return false;
- }
-
- const dyld3::closure::FileSystem& fileSystem;
- const dyld3::GradedArchs& reqArchs;
- dyld3::Platform reqPlatform;
-};
-
-SharedCacheBuilder::SharedCacheBuilder(const DyldSharedCache::CreateOptions& options,
- const dyld3::closure::FileSystem& fileSystem)
- : CacheBuilder(options, fileSystem) {
-
- std::string targetArch = options.archs->name();
- if ( options.forSimulator && (options.archs == &dyld3::GradedArchs::x86_64) )
- targetArch = "sim-x86_64";
- else if ( options.forSimulator && (options.archs == &dyld3::GradedArchs::x86_64h) )
- targetArch = "sim-x86_64h";
- else if ( options.forSimulator && (options.archs == &dyld3::GradedArchs::arm64) )
- targetArch = "sim-arm64";
-
- for (const ArchLayout& layout : _s_archLayout) {
- if ( layout.archName == targetArch ) {
- // arch matches. Make sure the platform does too
- // 'unknown' matches all platforms
- if ( (layout.onlyPlatform == dyld3::Platform::unknown) || (layout.onlyPlatform == options.platform) ) {
- _archLayout = &layout;
- _is64 = _archLayout->is64;
- break;
- }
- }
- }
-
- if (!_archLayout) {
- _diagnostics.error("Tool was built without support for: '%s'", targetArch.c_str());
- }
-}
-
-static void verifySelfContained(const dyld3::closure::FileSystem& fileSystem,
- std::vector<CacheBuilder::LoadedMachO>& dylibsToCache,
- std::vector<CacheBuilder::LoadedMachO>& otherDylibs,
- std::vector<CacheBuilder::LoadedMachO>& couldNotLoadFiles)
-{
- // build map of dylibs
- __block std::map<std::string, const CacheBuilder::LoadedMachO*> knownDylibs;
- __block std::map<std::string, const CacheBuilder::LoadedMachO*> allDylibs;
- for (const CacheBuilder::LoadedMachO& dylib : dylibsToCache) {
- knownDylibs.insert({ dylib.mappedFile.runtimePath, &dylib });
- allDylibs.insert({ dylib.mappedFile.runtimePath, &dylib });
- if (const char* installName = dylib.mappedFile.mh->installName()) {
- knownDylibs.insert({ installName, &dylib });
- allDylibs.insert({ installName, &dylib });
- }
- }
-
- for (const CacheBuilder::LoadedMachO& dylib : otherDylibs) {
- allDylibs.insert({ dylib.mappedFile.runtimePath, &dylib });
- if (const char* installName = dylib.mappedFile.mh->installName())
- allDylibs.insert({ installName, &dylib });
- }
-
- for (const CacheBuilder::LoadedMachO& dylib : couldNotLoadFiles) {
- allDylibs.insert({ dylib.inputFile->path, &dylib });
- }
-
- // Exclude bad unzippered twins. These are where a zippered binary links
- // an unzippered twin
- std::unordered_map<std::string, std::string> macOSPathToTwinPath;
- for (const CacheBuilder::LoadedMachO& dylib : dylibsToCache) {
- macOSPathToTwinPath[dylib.mappedFile.runtimePath] = "";
- }
- for (const CacheBuilder::LoadedMachO& dylib : dylibsToCache) {
- if ( startsWith(dylib.mappedFile.runtimePath, "/System/iOSSupport/") ) {
- std::string tail = dylib.mappedFile.runtimePath.substr(18);
- if ( macOSPathToTwinPath.find(tail) != macOSPathToTwinPath.end() )
- macOSPathToTwinPath[tail] = dylib.mappedFile.runtimePath;
- }
- }
-
- __block std::map<std::string, std::set<std::string>> badDylibs;
- for (const CacheBuilder::LoadedMachO& dylib : dylibsToCache) {
- if ( badDylibs.count(dylib.mappedFile.runtimePath) != 0 )
- continue;
- if ( dylib.mappedFile.mh->isZippered() ) {
- dylib.mappedFile.mh->forEachDependentDylib(^(const char* loadPath, bool isWeak, bool isReExport, bool isUpward, uint32_t compatVersion, uint32_t curVersion, bool& stop) {
- auto macOSAndTwinPath = macOSPathToTwinPath.find(loadPath);
- if ( macOSAndTwinPath != macOSPathToTwinPath.end() ) {
- const std::string& twinPath = macOSAndTwinPath->second;
- if ( badDylibs.count(twinPath) != 0 )
- return;
- knownDylibs.erase(twinPath);
- badDylibs[twinPath].insert(std::string("evicting UIKitForMac binary as it is linked by zippered binary '") + dylib.mappedFile.runtimePath + "'");
- }
- });
- }
- }
-
- // HACK: Exclude some dylibs and transitive deps for now until we have project fixes
- __block std::set<std::string> badProjects;
- badProjects.insert("/System/Library/PrivateFrameworks/TuriCore.framework/Versions/A/TuriCore");
- badProjects.insert("/System/Library/PrivateFrameworks/UHASHelloExtensionPoint-macOS.framework/Versions/A/UHASHelloExtensionPoint-macOS");
-
- // check all dependencies to assure every dylib in cache only depends on other dylibs in cache
- __block bool doAgain = true;
- while ( doAgain ) {
- doAgain = false;
- // scan dylib list making sure all dependents are in dylib list
- for (const CacheBuilder::LoadedMachO& dylib : dylibsToCache) {
- if ( badDylibs.count(dylib.mappedFile.runtimePath) != 0 )
- continue;
- if ( badProjects.count(dylib.mappedFile.runtimePath) != 0 )
- continue;
- dylib.mappedFile.mh->forEachDependentDylib(^(const char* loadPath, bool isWeak, bool isReExport, bool isUpward, uint32_t compatVersion, uint32_t curVersion, bool& stop) {
- if (isWeak)
- return;
- if ( badProjects.count(loadPath) != 0 ) {
- // We depend on a bad dylib, so add this one to the list too
- badProjects.insert(dylib.mappedFile.runtimePath);
- badProjects.insert(dylib.mappedFile.mh->installName());
- knownDylibs.erase(dylib.mappedFile.runtimePath);
- knownDylibs.erase(dylib.mappedFile.mh->installName());
- badDylibs[dylib.mappedFile.runtimePath].insert(std::string("Depends on bad project '") + loadPath + "'");
- doAgain = true;
- return;
- }
- char resolvedSymlinkPath[PATH_MAX];
- if ( knownDylibs.count(loadPath) == 0 ) {
- // The loadPath was embedded when the dylib was built, but we may be in the process of moving
- // a dylib with symlinks from old to new paths
- // In this case, the realpath will tell us the new location
- if ( fileSystem.getRealPath(loadPath, resolvedSymlinkPath) ) {
- if ( strcmp(resolvedSymlinkPath, loadPath) != 0 ) {
- loadPath = resolvedSymlinkPath;
- }
- }
- }
- if ( knownDylibs.count(loadPath) == 0 ) {
- badDylibs[dylib.mappedFile.runtimePath].insert(std::string("Could not find dependency '") + loadPath + "'");
- knownDylibs.erase(dylib.mappedFile.runtimePath);
- knownDylibs.erase(dylib.mappedFile.mh->installName());
- doAgain = true;
- }
- });
- }
- }
-
- // Now walk the dylibs which depend on missing dylibs and see if any of them are required binaries.
- for (auto badDylibsIterator : badDylibs) {
- const std::string& dylibRuntimePath = badDylibsIterator.first;
- auto requiredDylibIterator = allDylibs.find(dylibRuntimePath);
- if (requiredDylibIterator == allDylibs.end())
- continue;
- if (!requiredDylibIterator->second->inputFile->mustBeIncluded())
- continue;
- // This dylib is required so mark all dependencies as requried too
- __block std::vector<const CacheBuilder::LoadedMachO*> worklist;
- worklist.push_back(requiredDylibIterator->second);
- while (!worklist.empty()) {
- const CacheBuilder::LoadedMachO* dylib = worklist.back();
- worklist.pop_back();
- if (!dylib->mappedFile.mh)
- continue;
- dylib->mappedFile.mh->forEachDependentDylib(^(const char* loadPath, bool isWeak, bool isReExport, bool isUpward, uint32_t compatVersion, uint32_t curVersion, bool& stop) {
- if (isWeak)
- return;
- auto dylibIterator = allDylibs.find(loadPath);
- if (dylibIterator != allDylibs.end()) {
- if (dylibIterator->second->inputFile->state == CacheBuilder::InputFile::Unset) {
- dylibIterator->second->inputFile->state = CacheBuilder::InputFile::MustBeIncludedForDependent;
- worklist.push_back(dylibIterator->second);
- }
- }
- });
- }
- }
-
- // FIXME: Make this an option we can pass in
- const bool evictLeafDylibs = true;
- if (evictLeafDylibs) {
- doAgain = true;
- while ( doAgain ) {
- doAgain = false;
-
- // build count of how many references there are to each dylib
- __block std::set<std::string> referencedDylibs;
- for (const CacheBuilder::LoadedMachO& dylib : dylibsToCache) {
- if ( badDylibs.count(dylib.mappedFile.runtimePath) != 0 )
- continue;
- dylib.mappedFile.mh->forEachDependentDylib(^(const char* loadPath, bool isWeak, bool isReExport, bool isUpward, uint32_t compatVersion, uint32_t curVersion, bool &stop) {
- referencedDylibs.insert(loadPath);
- });
- }
-
- // find all dylibs not referenced
- for (const CacheBuilder::LoadedMachO& dylib : dylibsToCache) {
- if ( badDylibs.count(dylib.mappedFile.runtimePath) != 0 )
- continue;
- const char* installName = dylib.mappedFile.mh->installName();
- if ( (referencedDylibs.count(installName) == 0) && (dylib.inputFile->state == CacheBuilder::InputFile::MustBeExcludedIfUnused) ) {
- badDylibs[dylib.mappedFile.runtimePath].insert(std::string("It has been explicitly excluded as it is unused"));
- doAgain = true;
- }
- }
- }
- }
-
- // Move bad dylibs from dylibs to cache to other dylibs.
- for (const CacheBuilder::LoadedMachO& dylib : dylibsToCache) {
- auto i = badDylibs.find(dylib.mappedFile.runtimePath);
- if ( i != badDylibs.end()) {
- otherDylibs.push_back(dylib);
- for (const std::string& reason : i->second )
- otherDylibs.back().inputFile->diag.warning("Dylib located at '%s' not placed in shared cache because: %s", dylib.mappedFile.runtimePath.c_str(), reason.c_str());
- }
- }
-
- const auto& badDylibsLambdaRef = badDylibs;
- dylibsToCache.erase(std::remove_if(dylibsToCache.begin(), dylibsToCache.end(), [&](const CacheBuilder::LoadedMachO& dylib) {
- if (badDylibsLambdaRef.find(dylib.mappedFile.runtimePath) != badDylibsLambdaRef.end())
- return true;
- return false;
- }), dylibsToCache.end());
-}
-
-// This is the new build API which takes the raw files (which could be FAT) and tries to build a cache from them.
-// We should remove the other build() method, or make it private so that this can wrap it.
-void SharedCacheBuilder::build(std::vector<CacheBuilder::InputFile>& inputFiles,
- std::vector<DyldSharedCache::FileAlias>& aliases) {
- // First filter down to files which are actually MachO's
- CacheInputBuilder cacheInputBuilder(_fileSystem, *_options.archs, _options.platform);
-
- std::vector<LoadedMachO> dylibsToCache;
- std::vector<LoadedMachO> otherDylibs;
- std::vector<LoadedMachO> executables;
- std::vector<LoadedMachO> couldNotLoadFiles;
- cacheInputBuilder.loadMachOs(inputFiles, dylibsToCache, otherDylibs, executables, couldNotLoadFiles);
-
- verifySelfContained(_fileSystem, dylibsToCache, otherDylibs, couldNotLoadFiles);
-
- // Check for required binaries before we try to build the cache
- if (!_diagnostics.hasError()) {
- // If we succeeded in building, then now see if there was a missing required file, and if so why its missing.
- std::string errorString;
- for (const LoadedMachO& dylib : otherDylibs) {
- if (dylib.inputFile->mustBeIncluded()) {
- // An error loading a required file must be propagated up to the top level diagnostic handler.
- bool gotWarning = false;
- for (const std::string& warning : dylib.inputFile->diag.warnings()) {
- gotWarning = true;
- std::string message = warning;
- if (message.back() == '\n')
- message.pop_back();
- if (!errorString.empty())
- errorString += "ERROR: ";
- errorString += "Required binary was not included in the shared cache '" + std::string(dylib.inputFile->path) + "' because: " + message + "\n";
- }
- if (!gotWarning) {
- if (!errorString.empty())
- errorString += "ERROR: ";
- errorString += "Required binary was not included in the shared cache '" + std::string(dylib.inputFile->path) + "' because: 'unknown error. Please report to dyld'\n";
- }
- }
- }
- for (const LoadedMachO& dylib : couldNotLoadFiles) {
- if (dylib.inputFile->mustBeIncluded()) {
- if (dylib.inputFile->diag.hasError()) {
- if (!errorString.empty())
- errorString += "ERROR: ";
- errorString += "Required binary was not included in the shared cache '" + std::string(dylib.inputFile->path) + "' because: " + dylib.inputFile->diag.errorMessage() + "\n";
- } else {
- if (!errorString.empty())
- errorString += "ERROR: ";
- errorString += "Required binary was not included in the shared cache '" + std::string(dylib.inputFile->path) + "' because: 'unknown error. Please report to dyld'\n";
-
- }
- }
- }
- if (!errorString.empty()) {
- _diagnostics.error("%s", errorString.c_str());
- }
- }
-
- if (!_diagnostics.hasError())
- build(dylibsToCache, otherDylibs, executables, aliases);
-
- if (!_diagnostics.hasError()) {
- // If we succeeded in building, then now see if there was a missing required file, and if so why its missing.
- std::string errorString;
- for (CacheBuilder::InputFile& inputFile : inputFiles) {
- if (inputFile.mustBeIncluded() && inputFile.diag.hasError()) {
- // An error loading a required file must be propagated up to the top level diagnostic handler.
- std::string message = inputFile.diag.errorMessage();
- if (message.back() == '\n')
- message.pop_back();
- errorString += "Required binary was not included in the shared cache '" + std::string(inputFile.path) + "' because: " + message + "\n";
- }
- }
- if (!errorString.empty()) {
- _diagnostics.error("%s", errorString.c_str());
- }
- }
-
- // Add all the warnings from the input files to the top level warnings on the main diagnostics object.
- for (CacheBuilder::InputFile& inputFile : inputFiles) {
- for (const std::string& warning : inputFile.diag.warnings())
- _diagnostics.warning("%s", warning.c_str());
- }
-
- // Clean up the loaded files
- for (LoadedMachO& loadedMachO : dylibsToCache)
- _fileSystem.unloadFile(loadedMachO.loadedFileInfo);
- for (LoadedMachO& loadedMachO : otherDylibs)
- _fileSystem.unloadFile(loadedMachO.loadedFileInfo);
- for (LoadedMachO& loadedMachO : executables)
- _fileSystem.unloadFile(loadedMachO.loadedFileInfo);
-}
-
-void SharedCacheBuilder::build(const std::vector<DyldSharedCache::MappedMachO>& dylibs,
- const std::vector<DyldSharedCache::MappedMachO>& otherOsDylibsInput,
- const std::vector<DyldSharedCache::MappedMachO>& osExecutables,
- std::vector<DyldSharedCache::FileAlias>& aliases) {
-
- std::vector<LoadedMachO> dylibsToCache;
- std::vector<LoadedMachO> otherDylibs;
- std::vector<LoadedMachO> executables;
-
- for (const DyldSharedCache::MappedMachO& mappedMachO : dylibs) {
- dyld3::closure::LoadedFileInfo loadedFileInfo;
- loadedFileInfo.fileContent = mappedMachO.mh;
- loadedFileInfo.fileContentLen = mappedMachO.length;
- loadedFileInfo.sliceOffset = mappedMachO.sliceFileOffset;
- loadedFileInfo.sliceLen = mappedMachO.length;
- loadedFileInfo.inode = mappedMachO.inode;
- loadedFileInfo.mtime = mappedMachO.modTime;
- loadedFileInfo.path = mappedMachO.runtimePath.c_str();
- dylibsToCache.emplace_back((LoadedMachO){ mappedMachO, loadedFileInfo, nullptr });
- }
-
- for (const DyldSharedCache::MappedMachO& mappedMachO : otherOsDylibsInput) {
- dyld3::closure::LoadedFileInfo loadedFileInfo;
- loadedFileInfo.fileContent = mappedMachO.mh;
- loadedFileInfo.fileContentLen = mappedMachO.length;
- loadedFileInfo.sliceOffset = mappedMachO.sliceFileOffset;
- loadedFileInfo.sliceLen = mappedMachO.length;
- loadedFileInfo.inode = mappedMachO.inode;
- loadedFileInfo.mtime = mappedMachO.modTime;
- loadedFileInfo.path = mappedMachO.runtimePath.c_str();
- otherDylibs.emplace_back((LoadedMachO){ mappedMachO, loadedFileInfo, nullptr });
- }
-
- for (const DyldSharedCache::MappedMachO& mappedMachO : osExecutables) {
- dyld3::closure::LoadedFileInfo loadedFileInfo;
- loadedFileInfo.fileContent = mappedMachO.mh;
- loadedFileInfo.fileContentLen = mappedMachO.length;
- loadedFileInfo.sliceOffset = mappedMachO.sliceFileOffset;
- loadedFileInfo.sliceLen = mappedMachO.length;
- loadedFileInfo.inode = mappedMachO.inode;
- loadedFileInfo.mtime = mappedMachO.modTime;
- loadedFileInfo.path = mappedMachO.runtimePath.c_str();
- executables.emplace_back((LoadedMachO){ mappedMachO, loadedFileInfo, nullptr });
- }
-
- build(dylibsToCache, otherDylibs, executables, aliases);
-}
-
-void SharedCacheBuilder::build(const std::vector<LoadedMachO>& dylibs,
- const std::vector<LoadedMachO>& otherOsDylibsInput,
- const std::vector<LoadedMachO>& osExecutables,
- std::vector<DyldSharedCache::FileAlias>& aliases)
-{
- // <rdar://problem/21317611> error out instead of crash if cache has no dylibs
- // FIXME: plist should specify required vs optional dylibs
- if ( dylibs.size() < 25 ) {
- _diagnostics.error("missing required minimum set of dylibs");
- return;
- }
-
- _timeRecorder.pushTimedSection();
-
- // make copy of dylib list and sort
- makeSortedDylibs(dylibs, _options.dylibOrdering);
-
- _timeRecorder.recordTime("sort dylibs");
-
- bool impCachesSuccess = false;
- IMPCaches::HoleMap selectorAddressIntervals;
- _impCachesBuilder = new IMPCaches::IMPCachesBuilder(_sortedDylibs, _options.objcOptimizations, _diagnostics, _timeRecorder, _fileSystem);
-
- // Note, macOS allows install names and paths to mismatch. This is currently not supported by
- // IMP caches as we use install names to look up the set of dylibs.
- if ( _archLayout->is64
- && (_archLayout->sharedMemorySize <= 0x100000000)
- && ((_impCachesBuilder->neededClasses.size() > 0) || (_impCachesBuilder->neededMetaclasses.size() > 0))) {
- // Build the class map across all dylibs (including cross-image superclass references)
- _impCachesBuilder->buildClassesMap(_diagnostics);
-
- // Determine which methods will end up in each class's IMP cache
- impCachesSuccess = _impCachesBuilder->parseDylibs(_diagnostics);
-
- // Compute perfect hash functions for IMP caches
- if (impCachesSuccess) _impCachesBuilder->buildPerfectHashes(selectorAddressIntervals, _diagnostics);
- }
-
- constexpr bool log = false;
- if (log) {
- for (const auto& p : _impCachesBuilder->selectors.map) {
- printf("0x%06x %s\n", p.second->offset, p.second->name);
- }
- }
-
- _timeRecorder.recordTime("compute IMP caches");
-
- IMPCaches::SelectorMap emptyMap;
- IMPCaches::SelectorMap& selectorMap = impCachesSuccess ? _impCachesBuilder->selectors : emptyMap;
- // assign addresses for each segment of each dylib in new cache
- parseCoalescableSegments(selectorMap, selectorAddressIntervals);
- if ( _diagnostics.hasError() )
- return;
- processSelectorStrings(osExecutables, selectorAddressIntervals);
-
- computeSubCaches();
- if ( _diagnostics.hasError() )
- return;
-
- std::vector<LoadedMachO> overflowDylibs;
- while ( cacheOverflowAmount() != 0 ) {
- // IMP caches: we may need to recompute the selector addresses here to be slightly more compact
- // if we remove dylibs? This is probably overkill.
-
- if ( !_options.evictLeafDylibsOnOverflow ) {
- _diagnostics.error("cache overflow by %lluMB", cacheOverflowAmount() / 1024 / 1024);
- return;
- }
- size_t evictionCount = evictLeafDylibs(cacheOverflowAmount(), overflowDylibs);
- // re-layout cache
- for (DylibInfo& dylib : _sortedDylibs) {
- dylib.cacheLocation.clear();
- dylib._aslrTracker = nullptr;
- dylib._coalescer.clear();
- }
- _subCaches.clear();
- _objcCoalescedClassNames.clear();
- _objcCoalescedMethodNames.clear();
- _objcCoalescedMethodTypes.clear();
- _subCacheCoalescedGOTs.clear();
-
- // Re-generate the hole map to remove any cruft that was added when parsing the coalescable text the first time.
- // Always clear the hole map, even if IMP caches are off, as it is used by the text coalescer
- // Construct a new HoleMap instead of cleaning it, as we want the constructor to run and take account
- // of the magic selector
- selectorAddressIntervals = IMPCaches::HoleMap();
- if (impCachesSuccess) _impCachesBuilder->computeLowBits(selectorAddressIntervals);
-
- parseCoalescableSegments(selectorMap, selectorAddressIntervals);
- if ( _diagnostics.hasError() )
- return;
- processSelectorStrings(osExecutables, selectorAddressIntervals);
- computeSubCaches();
-
- _diagnostics.verbose("cache overflow, evicted %lu leaf dylibs\n", evictionCount);
- }
-
- // allocate space used by largest possible cache plus room for LINKEDITS before optimization
- if ( _archLayout->subCacheTextLimit ) {
- // Note the 3 here is RX, RW, RO regions
- _allocatedBufferSize = (_archLayout->subCacheTextLimit * 2) * _subCaches.size() * 3 * 1.50;
- } else {
- _allocatedBufferSize = _archLayout->sharedMemorySize * 1.50;
- }
-
- if ( vm_allocate(mach_task_self(), &_fullAllocatedBuffer, _allocatedBufferSize, VM_FLAGS_ANYWHERE) != 0 ) {
- _diagnostics.error("could not allocate buffer");
- return;
- }
-
- // Now that we've allocated the buffer, go back and fix up all the addresses we allocated
- {
- for (SubCache& subCache : _subCaches) {
- subCache._readExecuteRegion.buffer += _fullAllocatedBuffer;
- for (Region& dataRegion : subCache._dataRegions) {
- dataRegion.buffer += _fullAllocatedBuffer;
- dataRegion.slideInfoBuffer += _fullAllocatedBuffer;
- }
- if ( subCache._readOnlyRegion.has_value() )
- subCache._readOnlyRegion->buffer += _fullAllocatedBuffer;
- }
- for (DylibInfo& dylib : _sortedDylibs) {
- for (SegmentMappingInfo& mappingInfo : dylib.cacheLocation)
- mappingInfo.dstSegment += _fullAllocatedBuffer;
- }
-
- // Slide coalescors
- _objcCoalescedClassNames.bufferAddr += _fullAllocatedBuffer;
- _objcCoalescedMethodNames.bufferAddr += _fullAllocatedBuffer;
- _objcCoalescedMethodTypes.bufferAddr += _fullAllocatedBuffer;
- for ( CoalescedSection& section : _subCacheCoalescedGOTs )
- section.bufferAddr += _fullAllocatedBuffer;
-
- _objcReadOnlyBuffer += _fullAllocatedBuffer;
- _objcReadWriteBuffer += _fullAllocatedBuffer;
- _swiftReadOnlyBuffer += _fullAllocatedBuffer;
- }
-
- markPaddingInaccessible();
-
- // copy all segments into cache
-
- unsigned long wastedSelectorsSpace = selectorAddressIntervals.totalHoleSize();
- if (wastedSelectorsSpace > 0) {
- _diagnostics.verbose("Selector placement for IMP caches wasted %lu bytes\n", wastedSelectorsSpace);
- if (log) {
- std::cerr << selectorAddressIntervals << std::endl;
- }
- }
-
- _timeRecorder.recordTime("layout cache");
-
- writeCacheHeader();
- copyRawSegments();
- _timeRecorder.recordTime("copy cached dylibs into buffer");
-
- // rebase all dylibs for new location in cache
- for (SubCache& subCache : _subCaches) {
- if ( subCache._dataRegions.empty() )
- continue;
- subCache._aslrTracker.setDataRegion(subCache.firstDataRegion()->buffer, subCache.dataRegionsTotalSize());
- if ( !_options.cacheSupportsASLR )
- subCache._aslrTracker.disable();
- }
- adjustAllImagesForNewSegmentLocations(_archLayout->sharedMemoryStart, &_lohTracker);
- if ( _diagnostics.hasError() )
- return;
-
- _timeRecorder.recordTime("adjust segments for new split locations");
-
- // find a typical main executable for use during dylib binding
- const MachOAnalyzer* aMainExecutable = nullptr;
- if ( !_options.forSimulator ) {
- const char* binPath = "/usr/bin/";
- if ( _options.platform == dyld3::Platform::driverKit )
- binPath = "/System/Library/DriverExtensions/";
- size_t binPathLen = strlen(binPath);
- for ( const LoadedMachO& anExe : osExecutables ) {
- if ( strncmp(anExe.inputFile->path, binPath, binPathLen) == 0 ) {
- aMainExecutable = (dyld3::MachOAnalyzer*)anExe.loadedFileInfo.fileContent;
- }
- }
- } else {
- // HACK: use libSystem.dylib from cache as main executable to bootstrap state
- // We should remove this once the sim builds dyld4 loaders for executables.
- // See commented out code in addIfMachO() for adding to mainExecutables set
- for ( const LoadedMachO& dylib : dylibs ) {
- const dyld3::MachOAnalyzer* ma = (const dyld3::MachOAnalyzer*)dylib.loadedFileInfo.fileContent;
- if ( strcmp(ma->installName(), "/usr/lib/libSystem.B.dylib") == 0 ) {
- aMainExecutable = ma;
- break;
- }
- }
- }
-
- if ( !aMainExecutable ) {
- _diagnostics.error("Could not find a main executable for building cache loaders");
- return;
- }
-
- // build JustInTimeLoaders for all dylibs in cache and bind them together
- bindDylibs(aMainExecutable, aliases);
- if ( _diagnostics.hasError() )
- return;
-
- _timeRecorder.recordTime("bind all images");
-
- if ( _options.platform != dyld3::Platform::driverKit ) {
- // optimize ObjC (now that all dylibs are in place and all binds/rebases are resolved)
- optimizeObjC(impCachesSuccess, _impCachesBuilder->inlinedSelectors);
-
- // Pre-allocate pthread static keys for __thread variables
- optimizeTLVs();
- }
-
- delete _impCachesBuilder;
- _impCachesBuilder = nullptr;
-
- if ( _diagnostics.hasError() )
- return;
-
- _timeRecorder.recordTime("optimize Objective-C");
-
- optimizeSwift();
- if ( _diagnostics.hasError() )
- return;
-
- _timeRecorder.recordTime("optimize Swift");
-
- if ( _options.cacheConfiguration != kDyldSharedCacheTypeDevelopment ) {
- __block std::vector<uint64_t> currentStubOffsets;
- for (SubCache& subCache : _subCaches) {
-
- currentStubOffsets.push_back(0);
- if ( !subCache._isStubsSubCache )
- continue;
- // copy subCache data from customer to dev region
- vm_address_t devStubsRegion;
- if ( vm_allocate(mach_task_self(), &devStubsRegion, subCache._readExecuteRegion.bufferSize, VM_FLAGS_ANYWHERE) != 0 ) {
- _diagnostics.error("could not allocate dev stubs buffer");
- return;
- }
- subCache._devReadExecuteRegion->buffer = (uint8_t*)devStubsRegion;
- subCache._devReadExecuteRegion->bufferSize = subCache._readExecuteRegion.bufferSize;
- subCache._devReadExecuteRegion->sizeInUse = subCache._readExecuteRegion.sizeInUse;
- subCache._devReadExecuteRegion->unslidLoadAddress = subCache._readExecuteRegion.unslidLoadAddress;
- subCache._devReadExecuteRegion->cacheFileOffset = subCache._readExecuteRegion.cacheFileOffset;
- subCache._devReadExecuteRegion->initProt = subCache._readExecuteRegion.initProt;
- subCache._devReadExecuteRegion->maxProt = subCache._readExecuteRegion.maxProt;
- subCache._devReadExecuteRegion->name = subCache._readExecuteRegion.name;
- subCache._devReadExecuteRegion->index = subCache._readExecuteRegion.index;
- ::memcpy(subCache._devReadExecuteRegion->buffer, subCache._readExecuteRegion.buffer, subCache._readExecuteRegion.bufferSize);
- }
-
- DyldSharedCache* dyldCache = (DyldSharedCache*)_subCaches.front()._readExecuteRegion.buffer;
- //__block std::vector<std::pair<const mach_header*, const char*>> images;
- __block std::vector<StubOptimizerInfo> images;
-
- dyldCache->forEachImage(^(const mach_header *mh, const char *installName) {
- int32_t subCacheIndex = dyldCache->getSubCacheIndex(mh);
- if ( subCacheIndex < 0 ) {
- _diagnostics.error("dylib '%s' could not be found in any subcache", installName);
- return;
- }
- int32_t stubsCacheIndex = subCacheIndex + 1;
- SubCache& subCache = _subCaches[stubsCacheIndex];
- if ( !subCache._isStubsSubCache ) {
- _diagnostics.error("stubs subcache could not be found for '%s'", installName);
- return;
- }
-
- uint64_t offsetToStubs = subCache._stubsAddr - subCache._readExecuteRegion.unslidLoadAddress;
- uint8_t* devStubsBuffer = subCache._devReadExecuteRegion->buffer + offsetToStubs;
- __block uint64_t stubOffset = currentStubOffsets[stubsCacheIndex];
-
- // Map stubs to stub islands
- MachOAnalyzer* ma = (MachOAnalyzer*)mh;
- ma->forEachSection(^(const dyld3::MachOAnalyzer::SectionInfo §Info, bool malformedSectionRange, bool &stopSec) {
- unsigned sectionType = (sectInfo.sectFlags & SECTION_TYPE);
- if ( sectionType != S_SYMBOL_STUBS )
- return;
-
- const uint32_t stubSize = sectInfo.reserved2;
- uint32_t stubCount = (uint32_t)(sectInfo.sectSize / stubSize);
- uint64_t stubVMAddr = sectInfo.sectAddr;
- for (uint32_t i = 0; i < stubCount; ++i) {
- uint64_t finalStubVMAddr = subCache._stubsAddr + stubOffset;
- _stubsToIslands[stubVMAddr] = { finalStubVMAddr, devStubsBuffer + stubOffset };
- stubVMAddr += stubSize;
- stubOffset += stubSize;
- }
- });
- currentStubOffsets[stubsCacheIndex] = stubOffset;
- //images.push_back({ mh, installName });
- const DylibInfo& dylibInfo = _sortedDylibs[images.size()];
- StubOptimizerInfo info = { mh, installName, &dylibInfo._coalescer.gots, &dylibInfo._coalescer.auth_gots };
- images.push_back(info);
- });
-
- int64_t cacheSlide = (long)dyldCache - dyldCache->unslidLoadAddress();
- optimizeAwayStubs(images, cacheSlide, dyldCache, _stubsToIslands, _s_neverStubEliminateSymbols);
- }
-
-
- // FIPS seal corecrypto, This must be done after stub elimination (so that __TEXT,__text is not changed after sealing)
- fipsSign();
-
- _timeRecorder.recordTime("do stub elimination");
-
- // merge and compact LINKEDIT segments
- {
- DyldSharedCache* dyldCache = (DyldSharedCache*)_subCaches.front()._readExecuteRegion.buffer;
-
- // If we want to remove, not just unmap locals, then set the dylibs themselves to be stripped
- DylibStripMode dylibStripMode = DylibStripMode::stripNone;
- if ( _options.localSymbolMode == DyldSharedCache::LocalSymbolsMode::strip )
- dylibStripMode = CacheBuilder::DylibStripMode::stripLocals;
-
- UnmappedLocalsOptimizer* localsOptimizer = createLocalsOptimizer(_sortedDylibs.size());
-
- // Optimize each subcache individually
- for (SubCache& subCache : _subCaches) {
- // Skip subCache's which don't contain LINKEDIT
- if ( subCache._linkeditNumDylibs == 0 )
- continue;
-
- assert(subCache._readOnlyRegion.has_value());
-
- dyld3::Array<DylibInfo> cacheImages(_sortedDylibs.data(), _sortedDylibs.size(), _sortedDylibs.size());
- dyld3::Array<DylibInfo> subCacheImages = cacheImages.subArray(subCache._linkeditFirstDylibIndex, subCache._linkeditNumDylibs);
-
- // Work out which images are in this subcache.
- std::unordered_set<std::string_view> subCacheInstallNames;
- for (const DylibInfo& dylib : subCacheImages) {
- subCacheInstallNames.insert(dylib.input->mappedFile.mh->installName());
- }
-
- __block std::vector<std::tuple<const mach_header*, const char*, DylibStripMode>> images;
- dyldCache->forEachImage(^(const mach_header *mh, const char *installName) {
- if ( subCacheInstallNames.count(installName) != 0 )
- images.push_back({ mh, installName, dylibStripMode });
- });
- assert(!images.empty());
- optimizeLinkedit(*(subCache._readOnlyRegion), subCache._nonLinkEditReadOnlySize, localsOptimizer, images);
- }
-
- if ( _options.localSymbolMode == DyldSharedCache::LocalSymbolsMode::unmap )
- emitLocalSymbols(localsOptimizer);
-
- destroyLocalsOptimizer(localsOptimizer);
-
- // Make a subCache for the local symbols file
- if ( _localSymbolsRegion.buffer != nullptr ) {
- // Add a page-sized header and LINKEDIT. As this is just the symbols file, we'll just use 16k pages
- const uint32_t pageSize = 16384;
- _localSymbolsSubCacheBuffer.resize(pageSize * 3);
- _localSymbolsSubCache._readExecuteRegion.buffer = (uint8_t*)_localSymbolsSubCacheBuffer.data();
- _localSymbolsSubCache._readExecuteRegion.bufferSize = pageSize;
- _localSymbolsSubCache._readExecuteRegion.sizeInUse = pageSize;
- _localSymbolsSubCache._readExecuteRegion.unslidLoadAddress = 0;
- _localSymbolsSubCache._readExecuteRegion.cacheFileOffset = 0;
- _localSymbolsSubCache._readExecuteRegion.initProt = VM_PROT_READ | VM_PROT_EXECUTE;
- _localSymbolsSubCache._readExecuteRegion.maxProt = VM_PROT_READ | VM_PROT_EXECUTE;
- _localSymbolsSubCache._readExecuteRegion.name = "__TEXT";
-
- writeSharedCacheHeader(_localSymbolsSubCache, _options, *_archLayout, 0, 0, 0, 0);
- }
- }
-
- // rebuild JIT loaders for all dylibs, then serialize them to a PrebuiltLoaderSet and append that to the read-only region
- buildDylibsPrebuiltLoaderSet(aMainExecutable, aliases);
- if ( _diagnostics.hasError() )
- return;
-
- _timeRecorder.recordTime("optimize LINKEDITs");
-
- // don't add dyld3 closures to simulator cache or the base system where size is more of an issue
- if ( _options.optimizeDyldLaunches ) {
- // compute and add launch closures to end of read-only region
- buildLaunchSets(osExecutables, otherOsDylibsInput, overflowDylibs);
- if ( _diagnostics.hasError() )
- return;
- } else {
- // We didn't optimize launches, but we still need to align the LINKEDIT as that was normally
- // done at the end of buildLaunchSets(), and the LINKEDIT from buildDylibsPrebuiltLoaderSet() was
- // not aligned
- for (SubCache& subCache : _subCaches) {
- // Skip subCaches without read only regions
- if ( !subCache._readOnlyRegion.has_value() )
- continue;
- subCache._readOnlyRegion->sizeInUse = align(subCache._readOnlyRegion->sizeInUse, 14);
- }
- }
-
- // update final readOnly region size
- // Note each subcache has its own cache header
- for (SubCache& subCache : _subCaches) {
- // Skip subCaches without read only regions
- if ( !subCache._readOnlyRegion.has_value() )
- continue;
- DyldSharedCache* dyldCache = (DyldSharedCache*)subCache._readExecuteRegion.buffer;
- dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)(subCache._readExecuteRegion.buffer + dyldCache->header.mappingOffset);
- mappings[dyldCache->header.mappingCount - 1].size = subCache._readOnlyRegion->sizeInUse;
- dyld_cache_mapping_and_slide_info* slidableMappings = (dyld_cache_mapping_and_slide_info*)(subCache._readExecuteRegion.buffer + dyldCache->header.mappingWithSlideOffset);
- slidableMappings[dyldCache->header.mappingCount - 1].size = subCache._readOnlyRegion->sizeInUse;
-
- // Update Rosetta read-only range, which starts at the end of LINKEDIT
- if ( subCache._rosettaReadOnlySize != 0 ) {
- uint64_t rosettaEndAddress = subCache._rosettaReadOnlyAddr + subCache._rosettaReadOnlySize;
- subCache._rosettaReadOnlyAddr = subCache._readOnlyRegion->unslidLoadAddress + subCache._readOnlyRegion->sizeInUse;
- assert(subCache._rosettaReadOnlyAddr < rosettaEndAddress);
- subCache._rosettaReadOnlySize = rosettaEndAddress - subCache._rosettaReadOnlyAddr;
-
- // Update the cache header too
- dyldCache->header.rosettaReadOnlyAddr = subCache._rosettaReadOnlyAddr;
- dyldCache->header.rosettaReadOnlySize = subCache._rosettaReadOnlySize;
- }
- }
-
- // Update the final shared region size. This holds the exact size we need to allocate to hold all subcaches
- {
- const SubCache& firstSubCache = _subCaches.front();
- const SubCache& lastSubCache = _subCaches.back();
- uint64_t vmSize = lastSubCache.highestVMAddress() - firstSubCache._readExecuteRegion.unslidLoadAddress;
- DyldSharedCache* dyldCache = (DyldSharedCache*)firstSubCache._readExecuteRegion.buffer;
- dyldCache->header.sharedRegionSize = vmSize;
- }
-
- // If we have unmapped locals, they are in their own file. This allows customer and dev caches to share the file
- if ( _localSymbolsRegion.sizeInUse != 0 ) {
- SubCache& subCache = _localSymbolsSubCache;
- DyldSharedCache* dyldCache = (DyldSharedCache*)subCache._readExecuteRegion.buffer;
- dyldCache->header.localSymbolsOffset = subCache._readExecuteRegion.cacheFileOffset + subCache._readExecuteRegion.sizeInUse;
- dyldCache->header.localSymbolsSize = _localSymbolsRegion.sizeInUse;
- }
-
- // record max slide now that final size is established
- if ( _options.cacheSupportsASLR ) {
- DyldSharedCache* dyldCache = (DyldSharedCache*)_subCaches.front()._readExecuteRegion.buffer;
- dyldCache->header.maxSlide = ~0ULL;
-
- if ( _archLayout->sharedRegionsAreDiscontiguous ) {
- if ( _options.forSimulator || startsWith(_archLayout->archName, "small-") ) {
- // The x86_64 simulators back deploy, and so uses the magic values from the previous OS
-
- // special case x86_64 which has three non-contiguous chunks each in their own 1GB regions
- assert(_subCaches.size() == 1);
- const SubCache& subCache = _subCaches.front();
- uint64_t maxSlide0 = SIM_DISCONTIGUOUS_RX_SIZE - subCache._readExecuteRegion.sizeInUse; // TEXT region has 1.5GB region
- uint64_t maxSlide1 = SIM_DISCONTIGUOUS_RW_SIZE - subCache.dataRegionsTotalSize();
- uint64_t maxSlide2 = SIM_DISCONTIGUOUS_RO_SIZE - subCache._readOnlyRegion->sizeInUse;
- dyldCache->header.maxSlide = std::min(std::min(maxSlide0, maxSlide1), maxSlide2);
-
- // What we computed above is the macOS 11 max slide.
- // macOS 11 has the shared cache at a relatively high address with 3.5GB of size.
- // macOS 12 has the cache at a lower address with 32GB of size
- // A cache built against the macOS 11 numbers might actually overflow when running on macOS 12. We need to limit it even more
- const uint64_t SHARED_REGION_BASE_X86_64_MACOS12 = 0x00007FF800000000ULL;
- const uint64_t SHARED_REGION_SIZE_X86_64_MACOS12 = 0x00000007FE000000ULL;
- uint64_t macOS12MaxVMAddress = SHARED_REGION_BASE_X86_64_MACOS12 + SHARED_REGION_SIZE_X86_64_MACOS12;
- uint64_t maxVMAddress = subCache.highestVMAddress();
- uint64_t maxOS12Slide = macOS12MaxVMAddress - maxVMAddress;
- dyldCache->header.maxSlide = std::min(dyldCache->header.maxSlide, maxOS12Slide);
- } else {
- // Large x86_64 caches. All TEXT/DATA/LINKEDIT are on their own 1GB ranges. The max slide keeps them within their ranges
- // TODO: Check if we can just slide these arbitrarily within the VM space, now that thair slid ranges will always be
- // on 1GB boundaries.
- for (SubCache& subCache : _subCaches) {
- // TEXT
- dyldCache->header.maxSlide = std::min(dyldCache->header.maxSlide, DISCONTIGUOUS_REGION_SIZE - subCache._readExecuteRegion.sizeInUse);
- // DATA
- dyldCache->header.maxSlide = std::min(dyldCache->header.maxSlide, DISCONTIGUOUS_REGION_SIZE - subCache.dataRegionsTotalSize());
- // LINKEDIT
- dyldCache->header.maxSlide = std::min(dyldCache->header.maxSlide, DISCONTIGUOUS_REGION_SIZE - subCache._readOnlyRegion->sizeInUse);
- }
- }
- } else {
- uint64_t maxVMAddress = _subCaches.back().highestVMAddress();
- dyldCache->header.maxSlide = (_archLayout->sharedMemoryStart + _archLayout->sharedMemorySize) - maxVMAddress;
-
- // <rdar://problem/49852839> branch predictor on arm64 currently only looks at low 32-bits, so don't slide cache more than 2GB
- if ( _archLayout->sharedMemorySize == 0x100000000 ) {
- if ( (_archLayout->cacheLayout == CacheLayout::Split) || _archLayout->subCacheTextLimit ) {
- // Split cache __TEXT is contiguous from the first subCache until the last
- // Large caches might get lucky and have the last __TEXT end before 2GB
- const SubCache& firstSubCache = _subCaches.front();
- const SubCache& lastSubCache = _subCaches.back();
- uint64_t textVMSize = lastSubCache._readExecuteRegion.sizeInUse + (lastSubCache._readExecuteRegion.unslidLoadAddress - firstSubCache._readExecuteRegion.unslidLoadAddress);
- if ( textVMSize < 0x80000000ULL )
- dyldCache->header.maxSlide = std::min(dyldCache->header.maxSlide, 0x80000000ULL - textVMSize);
- } else {
- // Single arm64e cache file
- assert(_subCaches.size() == 1);
- const SubCache& subCache = _subCaches.front();
- if ( subCache._readExecuteRegion.sizeInUse < 0x80000000ULL )
- dyldCache->header.maxSlide = std::min(dyldCache->header.maxSlide, 0x80000000ULL - subCache._readExecuteRegion.sizeInUse);
- }
- }
- }
- }
-
- // mark if any input dylibs were built with chained fixups
- {
- DyldSharedCache* dyldCache = (DyldSharedCache*)_subCaches.front()._readExecuteRegion.buffer;
- dyldCache->header.builtFromChainedFixups = _someDylibsUsedChainedFixups;
- }
-
- _timeRecorder.recordTime("build %lu closures", osExecutables.size());
- // Emit the CF strings without their ISAs being signed
- // This must be after buildDylibsPrebuiltLoaderSet() as it depends on hasImageIndex().
- // It also has to be before emitting slide info as it adds ASLR entries.
- // Disabled until we see if we need this.
- // emitContantObjects();
-
- _timeRecorder.recordTime("emit constant objects");
-
- // fill in slide info at start of region[2]
- // do this last because it modifies pointers in DATA segments
- if ( _options.cacheSupportsASLR ) {
- for (SubCache& subCache : _subCaches) {
- // Skip subCache's without __DATA segments
- if ( subCache._dataRegions.empty() )
- continue;
- if ( strcmp(_archLayout->archName, "arm64e") == 0 ) {
- writeSlideInfoV3(subCache);
- } else if ( _archLayout->is64 )
- writeSlideInfoV2<Pointer64<LittleEndian>>(subCache);
- else if ( _archLayout->pointerDeltaMask == 0x0 )
- writeSlideInfoV1(subCache);
- else if ( _archLayout->pointerDeltaMask == 0xC0000000 )
- writeSlideInfoV4<Pointer32<LittleEndian>>(subCache);
- else
- writeSlideInfoV2<Pointer32<LittleEndian>>(subCache);
- }
- }
-
- _timeRecorder.recordTime("compute slide info");
-
- // last sanity check on size
- {
- const SubCache* overflowingSubCache = nullptr;
- if ( cacheOverflowAmount(&overflowingSubCache) != 0 ) {
- _diagnostics.error("cache overflow after optimizations 0x%llX -> 0x%llX",
- overflowingSubCache->_readExecuteRegion.unslidLoadAddress, overflowingSubCache->highestVMAddress());
- return;
- }
- }
-
- SubCache& first = _subCaches.front();
- // codesignature is part of file, but is not mapped
- if ( _localSymbolsRegion.sizeInUse != 0 ) {
- codeSign(_localSymbolsSubCache, false);
- DyldSharedCache* dyldCache = (DyldSharedCache*)first._readExecuteRegion.buffer;
- memcpy(dyldCache->header.symbolFileUUID, ((DyldSharedCache*)_localSymbolsSubCache._readExecuteRegion.buffer)->header.uuid, 16);
- }
-
- if ( first._devReadExecuteRegion.has_value() ) {
- // copy first subCache read/execute region from customer to dev region
- vm_address_t firstRegion;
- if ( vm_allocate(mach_task_self(), &firstRegion, first._readExecuteRegion.bufferSize, VM_FLAGS_ANYWHERE) != 0 ) {
- _diagnostics.error("could not allocate dev region buffer");
- return;
- }
- first._devReadExecuteRegion->buffer = (uint8_t*)firstRegion;
- first._devReadExecuteRegion->bufferSize = first._readExecuteRegion.bufferSize;
- first._devReadExecuteRegion->sizeInUse = first._readExecuteRegion.sizeInUse;
- first._devReadExecuteRegion->unslidLoadAddress = first._readExecuteRegion.unslidLoadAddress;
- first._devReadExecuteRegion->cacheFileOffset = first._readExecuteRegion.cacheFileOffset;
- first._devReadExecuteRegion->initProt = first._readExecuteRegion.initProt;
- first._devReadExecuteRegion->maxProt = first._readExecuteRegion.maxProt;
- first._devReadExecuteRegion->name = first._readExecuteRegion.name;
- first._devReadExecuteRegion->index = first._readExecuteRegion.index;
- ::memcpy(first._devReadExecuteRegion->buffer, first._readExecuteRegion.buffer, first._readExecuteRegion.bufferSize);
- }
-
- if ( _subCaches.size() > 1 ) {
- // Codesign the subcaches first, as then we can add their UUIDS to the main cache header
- DyldSharedCache* dyldCache = (DyldSharedCache*)first._readExecuteRegion.buffer;
- dyld_subcache_entry* subCacheEntries = (dyld_subcache_entry*)((uint8_t*)dyldCache + dyldCache->header.subCacheArrayOffset);
- DyldSharedCache* dyldDevCache = nullptr;
- dyld_subcache_entry* devSubCacheEntries = nullptr;
- if ( first._devReadExecuteRegion.has_value() ) {
- dyldDevCache = (DyldSharedCache*)first._devReadExecuteRegion->buffer;
- devSubCacheEntries = (dyld_subcache_entry*)((uint8_t*)dyldDevCache + dyldDevCache->header.subCacheArrayOffset);
- }
-
- for (uint64_t i = 1, e = _subCaches.size(); i != e; ++i) {
- SubCache& subCache = _subCaches[i];
- codeSign(subCache, false);
- if ( subCache._isStubsSubCache )
- codeSign(subCache, true);
- if ( _diagnostics.hasError() )
- return;
-
- assert(i <= dyldCache->header.subCacheArrayCount);
- memcpy(subCacheEntries[i - 1].uuid, ((DyldSharedCache*)subCache._readExecuteRegion.buffer)->header.uuid, 16);
- std::string cachePathSuffix = "." + dyld3::json::decimal(i);
- // Only add the suffix on embedded where One Cache is used
- if ( _options.platform != dyld3::Platform::macOS ) {
- if ( subCache._dataRegions.size() > 0 )
- cachePathSuffix += ".dylddata";
- else if ( subCache._readOnlyRegion.has_value() )
- cachePathSuffix += ".dyldlinkedit";
- }
- memcpy(subCacheEntries[i - 1].fileSuffix, cachePathSuffix.c_str(), 32);
-
- if ( !dyldDevCache || !devSubCacheEntries )
- continue;
- assert(i <= dyldDevCache->header.subCacheArrayCount);
- memcpy(devSubCacheEntries[i - 1].uuid, ((DyldSharedCache*)subCache._readExecuteRegion.buffer)->header.uuid, 16);
- if ( subCache._isStubsSubCache ) {
- assert(i <= dyldDevCache->header.subCacheArrayCount);
- memcpy(devSubCacheEntries[i - 1].uuid, ((DyldSharedCache*)subCache._devReadExecuteRegion->buffer)->header.uuid, 16);
- cachePathSuffix += DYLD_SHARED_CACHE_DEVELOPMENT_EXT;
- }
- memcpy(devSubCacheEntries[i - 1].fileSuffix, cachePathSuffix.c_str(), 32);
- }
- }
-
- codeSign(first, false);
- if ( first._devReadExecuteRegion.has_value() )
- codeSign(first, true);
-
- _timeRecorder.recordTime("compute UUID and codesign cache file");
-
- if (_options.verbose) {
- _timeRecorder.logTimings();
- }
-
- return;
-}
-
-const std::set<std::string> SharedCacheBuilder::warnings()
-{
- return _diagnostics.warnings();
-}
-
-const std::set<const dyld3::MachOAnalyzer*> SharedCacheBuilder::evictions()
-{
- return _evictions;
-}
-
-void SharedCacheBuilder::deleteBuffer()
-{
- // Cache buffer
- if ( _allocatedBufferSize != 0 ) {
- vm_deallocate(mach_task_self(), _fullAllocatedBuffer, _allocatedBufferSize);
- _fullAllocatedBuffer = 0;
- _allocatedBufferSize = 0;
- }
- // Local symbols buffer
- if ( _localSymbolsRegion.bufferSize != 0 ) {
- vm_deallocate(mach_task_self(), (vm_address_t)_localSymbolsRegion.buffer, _localSymbolsRegion.bufferSize);
- _localSymbolsRegion.buffer = 0;
- _localSymbolsRegion.bufferSize = 0;
-
- // Also free the code signature in the local symbols file
- if ( _localSymbolsSubCache._codeSignatureRegion.bufferSize != 0 ) {
- vm_deallocate(mach_task_self(), (vm_address_t)_localSymbolsSubCache._codeSignatureRegion.buffer, _localSymbolsSubCache._codeSignatureRegion.bufferSize);
- _localSymbolsSubCache._codeSignatureRegion.buffer = 0;
- _localSymbolsSubCache._codeSignatureRegion.bufferSize = 0;
- }
- }
- // Code signatures and development stubs
- for (SubCache& subCache : _subCaches) {
- if ( subCache._devReadExecuteRegion.has_value() ) {
- vm_deallocate(mach_task_self(), (vm_address_t)subCache._devReadExecuteRegion->buffer, subCache._devReadExecuteRegion->bufferSize);
- subCache._devReadExecuteRegion->buffer = 0;
- subCache._devReadExecuteRegion->bufferSize = 0;
- }
- if ( subCache._devCodeSignatureRegion.has_value() ) {
- vm_deallocate(mach_task_self(), (vm_address_t)subCache._devCodeSignatureRegion->buffer, subCache._devCodeSignatureRegion->bufferSize);
- subCache._devCodeSignatureRegion->buffer = 0;
- subCache._devCodeSignatureRegion->bufferSize = 0;
- }
- if ( subCache._codeSignatureRegion.bufferSize != 0 ) {
- vm_deallocate(mach_task_self(), (vm_address_t)subCache._codeSignatureRegion.buffer, subCache._codeSignatureRegion.bufferSize);
- subCache._codeSignatureRegion.buffer = 0;
- subCache._codeSignatureRegion.bufferSize = 0;
- }
- }
-}
-
-
-void SharedCacheBuilder::makeSortedDylibs(const std::vector<LoadedMachO>& dylibs, const std::unordered_map<std::string, unsigned> sortOrder)
-{
- for (const LoadedMachO& dylib : dylibs) {
- _sortedDylibs.push_back({ { &dylib, dylib.mappedFile.runtimePath, {} }, {}, {}, {} });
- }
-
- std::sort(_sortedDylibs.begin(), _sortedDylibs.end(), [&](const DylibInfo& a, const DylibInfo& b) {
- const auto& orderA = sortOrder.find(a.input->mappedFile.runtimePath);
- const auto& orderB = sortOrder.find(b.input->mappedFile.runtimePath);
- bool foundA = (orderA != sortOrder.end());
- bool foundB = (orderB != sortOrder.end());
-
- // Order all __DATA_DIRTY segments specified in the order file first, in
- // the order specified in the file, followed by any other __DATA_DIRTY
- // segments in lexicographic order.
- if ( foundA && foundB )
- return orderA->second < orderB->second;
- else if ( foundA )
- return true;
- else if ( foundB )
- return false;
-
- // Sort mac before iOSMac
- bool isIOSMacA = strncmp(a.input->mappedFile.runtimePath.c_str(), "/System/iOSSupport/", 19) == 0;
- bool isIOSMacB = strncmp(b.input->mappedFile.runtimePath.c_str(), "/System/iOSSupport/", 19) == 0;
- if (isIOSMacA != isIOSMacB)
- return !isIOSMacA;
-
- // Finally sort by path
- return a.input->mappedFile.runtimePath < b.input->mappedFile.runtimePath;
- });
-}
-
-struct DylibAndSize
-{
- const CacheBuilder::LoadedMachO* input;
- const char* installName;
- uint64_t size;
-};
-
-uint64_t SharedCacheBuilder::cacheOverflowAmount(const SubCache** overflowingSubCache)
-{
- if ( _archLayout->sharedRegionsAreDiscontiguous ) {
- // The x86_64 simulator back deploys, and so uses the magic values from the previous OS
- if ( _options.forSimulator || startsWith(_archLayout->archName, "small-") ) {
- assert(_subCaches.size() == 1);
- const SubCache& subCache = _subCaches.front();
-
- // for macOS x86_64 cache, need to check each region for overflow
- if ( subCache._readExecuteRegion.sizeInUse > SIM_DISCONTIGUOUS_RX_SIZE )
- return (subCache._readExecuteRegion.sizeInUse - SIM_DISCONTIGUOUS_RX_SIZE);
-
- uint64_t dataSize = subCache.dataRegionsTotalSize();
- if ( dataSize > SIM_DISCONTIGUOUS_RW_SIZE )
- return (dataSize - SIM_DISCONTIGUOUS_RW_SIZE);
-
- assert(subCache._readOnlyRegion.has_value());
- if ( subCache._readOnlyRegion->sizeInUse > SIM_DISCONTIGUOUS_RO_SIZE )
- return (subCache._readOnlyRegion->sizeInUse - SIM_DISCONTIGUOUS_RO_SIZE);
-
- // No overflow
- return 0;
- }
- for (const SubCache& subCache : _subCaches) {
- // for macOS x86_64 cache, need to check each region for overflow
- if ( subCache._readExecuteRegion.sizeInUse > DISCONTIGUOUS_REGION_SIZE ) {
- if ( overflowingSubCache != nullptr )
- *overflowingSubCache = &subCache;
- return (subCache._readExecuteRegion.sizeInUse - DISCONTIGUOUS_REGION_SIZE);
- }
-
- uint64_t dataSize = subCache.dataRegionsTotalSize();
- if ( dataSize > DISCONTIGUOUS_REGION_SIZE ) {
- if ( overflowingSubCache != nullptr )
- *overflowingSubCache = &subCache;
- return (dataSize - DISCONTIGUOUS_REGION_SIZE);
- }
-
- if ( subCache._readOnlyRegion.has_value() ) {
- if ( subCache._readOnlyRegion->sizeInUse > DISCONTIGUOUS_REGION_SIZE ) {
- if ( overflowingSubCache != nullptr )
- *overflowingSubCache = &subCache;
- return (subCache._readOnlyRegion->sizeInUse - DISCONTIGUOUS_REGION_SIZE);
- }
- }
- }
- }
- // Fall through to the check that the overall cache size isn't too big
- {
- const SubCache& firstSubCache = _subCaches.front();
- const SubCache& lastSubCache = _subCaches.back();
- uint64_t vmSize = lastSubCache.highestVMAddress() - firstSubCache._readExecuteRegion.unslidLoadAddress;
-
- // If we have LINKEDIT, then it might get optimized. In early calls to this function, we estimate how much
- // it might be optimized by. In later calls its already optimized
- for (const SubCache& subCache : _subCaches) {
- if ( !subCache._readOnlyRegion.has_value() || subCache._linkeditNumDylibs == 0)
- continue;
- const Region& readOnlyRegion = *subCache._readOnlyRegion;
- bool alreadyOptimized = (readOnlyRegion.sizeInUse != readOnlyRegion.bufferSize);
-
- // The earlier vmSize calculation already included the current size of the readOnlyRegion.
- // If we have passed the LINKEDIT optimizer, then that is already an accurate size.
- // Otherwise estimate a new size
- if ( !alreadyOptimized ) {
- // Estimate a new size. First subtract the existing LINKEDIT size
- vmSize -= readOnlyRegion.sizeInUse;
- if ( _options.localSymbolMode == DyldSharedCache::LocalSymbolsMode::unmap ) {
- // assume locals removal and LINKEDIT optimzation reduces LINKEDITs %25 of original size
- // Note, its really more like 20%, but we need some of the saved space for patch tables, PBLS, etc.
- // So use 25% to give us a little room for those data structures
- vmSize += (readOnlyRegion.sizeInUse * 25/100);
- } else {
- // assume LINKEDIT optimzation reduces LINKEDITs to %80 of original size
- vmSize += (readOnlyRegion.sizeInUse * 80/100);
- }
- }
- }
- if ( vmSize > _archLayout->sharedMemorySize ) {
- if ( overflowingSubCache != nullptr )
- *overflowingSubCache = &lastSubCache;
- return vmSize - _archLayout->sharedMemorySize;
- }
- }
-
- // Finally, check that 2GB offsets in exception handling don't overflow. For now this limits TEXT+DATA to 2GB
- // Note this does not apply to large caches, as they have their own TEXT+DATA in a shorter range
- if ( !_archLayout->sharedRegionsAreDiscontiguous
- && ((_archLayout->subCacheTextLimit == 0) || (_archLayout->cacheLayout == CacheLayout::Split)) ) {
- const SubCache& firstSubCache = _subCaches.front();
- const Region* lastDataRegion = nullptr;
- // Split cache layout may put LINKEDIT last. If so, walk back until we find a subCache with DATA
- for ( uint64_t i = 0, e = _subCaches.size(); i != e; ++i) {
- uint64_t index = e - (i + 1);
- const SubCache& dataSubCache = _subCaches[index];
- lastDataRegion = dataSubCache.lastDataRegion();
- if ( lastDataRegion != nullptr )
- break;
- }
- uint64_t vmSizeTextData = (lastDataRegion->unslidLoadAddress + lastDataRegion->sizeInUse) - firstSubCache._readExecuteRegion.unslidLoadAddress;
- const uint64_t twoGB = 1ULL << 31;
- if ( vmSizeTextData > twoGB ) {
- if ( overflowingSubCache != nullptr )
- *overflowingSubCache = &_subCaches.back();
- return vmSizeTextData - twoGB;
- }
- }
- // fits in shared region
- return 0;
-}
-
-size_t SharedCacheBuilder::evictLeafDylibs(uint64_t reductionTarget, std::vector<LoadedMachO>& overflowDylibs)
-{
- // build a reverse map of all dylib dependencies
- __block std::map<std::string, std::set<std::string>> references;
- std::map<std::string, std::set<std::string>>* referencesPtr = &references;
- for (const DylibInfo& dylib : _sortedDylibs) {
- // Esnure we have an entry (even if it is empty)
- if (references.count(dylib.input->mappedFile.mh->installName()) == 0) {
- references[dylib.input->mappedFile.mh->installName()] = std::set<std::string>();
- };
- dylib.input->mappedFile.mh->forEachDependentDylib(^(const char* loadPath, bool isWeak, bool isReExport, bool isUpward, uint32_t compatVersion, uint32_t curVersion, bool &stop) {
- references[loadPath].insert(dylib.input->mappedFile.mh->installName());
- });
- }
-
- // Find the sizes of all the dylibs
- std::vector<DylibAndSize> dylibsToSort;
- std::vector<DylibAndSize> sortedDylibs;
- for (const DylibInfo& dylib : _sortedDylibs) {
- const char* installName = dylib.input->mappedFile.mh->installName();
- __block uint64_t segsSize = 0;
- dylib.input->mappedFile.mh->forEachSegment(^(const dyld3::MachOFile::SegmentInfo& info, bool& stop) {
- if ( strcmp(info.segName, "__LINKEDIT") != 0 )
- segsSize += info.vmSize;
- });
- dylibsToSort.push_back({ dylib.input, installName, segsSize });
- }
-
- // Build an ordered list of what to remove. At each step we do following
- // 1) Find all dylibs that nothing else depends on
- // 2a) If any of those dylibs are not in the order select the largest one of them
- // 2b) If all the leaf dylibs are in the order file select the last dylib that appears last in the order file
- // 3) Remove all entries to the removed file from the reverse dependency map
- // 4) Go back to one and repeat until there are no more evictable dylibs
- // This results in us always choosing the locally optimal selection, and then taking into account how that impacts
- // the dependency graph for subsequent selections
-
- bool candidateFound = true;
- while (candidateFound) {
- candidateFound = false;
- DylibAndSize candidate;
- uint64_t candidateOrder = 0;
- for(const auto& dylib : dylibsToSort) {
- const auto& i = referencesPtr->find(dylib.installName);
- assert(i != referencesPtr->end());
- if (!i->second.empty()) {
- continue;
- }
- const auto& j = _options.dylibOrdering.find(dylib.input->mappedFile.runtimePath);
- uint64_t order = 0;
- if (j != _options.dylibOrdering.end()) {
- order = j->second;
- } else {
- // Not in the order file, set order sot it goes to the front of the list
- order = UINT64_MAX;
- }
- if (order > candidateOrder ||
- (order == UINT64_MAX && candidate.size < dylib.size)) {
- // The new file is either a lower priority in the order file
- // or the same priority as the candidate but larger
- candidate = dylib;
- candidateOrder = order;
- candidateFound = true;
- }
- }
- if (candidateFound) {
- sortedDylibs.push_back(candidate);
- referencesPtr->erase(candidate.installName);
- for (auto& dependent : references) {
- (void)dependent.second.erase(candidate.installName);
- }
- auto j = std::find_if(dylibsToSort.begin(), dylibsToSort.end(), [&candidate](const DylibAndSize& dylib) {
- return (strcmp(candidate.installName, dylib.installName) == 0);
- });
- if (j != dylibsToSort.end()) {
- dylibsToSort.erase(j);
- }
- }
- }
-
- // build set of dylibs that if removed will allow cache to build
- for (DylibAndSize& dylib : sortedDylibs) {
- if ( _options.verbose )
- _diagnostics.warning("to prevent cache overflow, not caching %s", dylib.installName);
- _evictions.insert(dylib.input->mappedFile.mh);
- // Track the evicted dylibs so we can try build "other" dlopen closures for them.
- overflowDylibs.push_back(*dylib.input);
- if ( dylib.size > reductionTarget )
- break;
- reductionTarget -= dylib.size;
- }
-
- // prune _sortedDylibs
- _sortedDylibs.erase(std::remove_if(_sortedDylibs.begin(), _sortedDylibs.end(), [&](const DylibInfo& dylib) {
- return (_evictions.count(dylib.input->mappedFile.mh) != 0);
- }),_sortedDylibs.end());
-
- return _evictions.size();
-}
-
-void SharedCacheBuilder::writeSharedCacheHeader(const SubCache& subCache, const DyldSharedCache::CreateOptions& options,
- const ArchLayout& layout,
- uint32_t osVersion, uint32_t altPlatform, uint32_t altOsVersion,
- uint64_t cacheType)
-{
- // "dyld_v1" + spaces + archName(), with enough spaces to pad to 15 bytes
- std::string magic = "dyld_v1";
- magic.append(15 - magic.length() - strlen(options.archs->name()), ' ');
- magic.append(options.archs->name());
- assert(magic.length() == 15);
-
- // 1 __TEXT segment, n __DATA segments, and 0/1 __LINKEDIT segment
- const uint32_t mappingCount = 1 + (uint32_t)subCache._dataRegions.size() + (subCache._readOnlyRegion.has_value() ? 1 : 0);
- assert(mappingCount <= DyldSharedCache::MaxMappings);
-
- // fill in header
- dyld_cache_header* dyldCacheHeader = (dyld_cache_header*)subCache._readExecuteRegion.buffer;
- memcpy(dyldCacheHeader->magic, magic.c_str(), 16);
- dyldCacheHeader->mappingOffset = sizeof(dyld_cache_header);
- dyldCacheHeader->mappingCount = mappingCount;
- dyldCacheHeader->mappingWithSlideOffset = (uint32_t)(dyldCacheHeader->mappingOffset + mappingCount*sizeof(dyld_cache_mapping_and_slide_info));
- dyldCacheHeader->mappingWithSlideCount = mappingCount;
- dyldCacheHeader->imagesOffsetOld = 0;
- dyldCacheHeader->imagesCountOld = 0;
- dyldCacheHeader->imagesOffset = 0;
- dyldCacheHeader->imagesCount = 0;
- dyldCacheHeader->dyldBaseAddress = 0;
- dyldCacheHeader->codeSignatureOffset = 0;
- dyldCacheHeader->codeSignatureSize = 0;
- dyldCacheHeader->slideInfoOffsetUnused = 0;
- dyldCacheHeader->slideInfoSizeUnused = 0;
- dyldCacheHeader->localSymbolsOffset = 0;
- dyldCacheHeader->localSymbolsSize = 0;
- dyldCacheHeader->cacheType = cacheType;
- dyldCacheHeader->dyldInCacheMH = 0;
- dyldCacheHeader->dyldInCacheEntry = 0;
- bzero(dyldCacheHeader->uuid, 16);// overwritten later by recomputeCacheUUID()
- dyldCacheHeader->branchPoolsOffset = 0;
- dyldCacheHeader->branchPoolsCount = 0;
- dyldCacheHeader->imagesTextOffset = 0;
- dyldCacheHeader->imagesTextCount = 0;
- dyldCacheHeader->patchInfoAddr = 0;
- dyldCacheHeader->patchInfoSize = 0;
- dyldCacheHeader->otherImageGroupAddrUnused = 0;
- dyldCacheHeader->otherImageGroupSizeUnused = 0;
- dyldCacheHeader->progClosuresAddr = 0;
- dyldCacheHeader->progClosuresSize = 0;
- dyldCacheHeader->progClosuresTrieAddr = 0;
- dyldCacheHeader->progClosuresTrieSize = 0;
- dyldCacheHeader->platform = (uint8_t)options.platform;
- dyldCacheHeader->formatVersion = 0; //dyld3::closure::kFormatVersion;
- dyldCacheHeader->dylibsExpectedOnDisk = !options.dylibsRemovedDuringMastering;
- dyldCacheHeader->simulator = options.forSimulator;
- dyldCacheHeader->locallyBuiltCache = options.isLocallyBuiltCache;
- dyldCacheHeader->builtFromChainedFixups= false;
- dyldCacheHeader->sharedRegionStart = subCache._readExecuteRegion.unslidLoadAddress;
- dyldCacheHeader->sharedRegionSize = 0;
- dyldCacheHeader->maxSlide = 0; // overwritten later in build if the cache supports ASLR
- dyldCacheHeader->dylibsImageArrayAddr = 0; // no longer used
- dyldCacheHeader->dylibsImageArraySize = 0; // no longer used
- dyldCacheHeader->dylibsTrieAddr = 0; // no longer used
- dyldCacheHeader->dylibsTrieSize = 0; // no longer used
- dyldCacheHeader->otherImageArrayAddr = 0; // no longer used
- dyldCacheHeader->otherImageArraySize = 0; // no longer used
- dyldCacheHeader->otherTrieAddr = 0; // no longer used
- dyldCacheHeader->otherTrieSize = 0; // no longer used
- dyldCacheHeader->dylibsPBLStateArrayAddrUnused = 0; // no longer used
- dyldCacheHeader->dylibsPBLSetAddr = 0;
- dyldCacheHeader->programTrieAddr = 0;
- dyldCacheHeader->programTrieSize = 0;
- dyldCacheHeader->osVersion = osVersion;
- dyldCacheHeader->altPlatform = altPlatform;
- dyldCacheHeader->altOsVersion = altOsVersion;
- dyldCacheHeader->swiftOptsOffset = 0;
- dyldCacheHeader->swiftOptsSize = 0;
- dyldCacheHeader->cacheSubType = kDyldSharedCacheTypeProduction; // overwritten later when writing file to disk
- dyldCacheHeader->subCacheArrayOffset = 0;
- dyldCacheHeader->subCacheArrayCount = 0;
- bzero(dyldCacheHeader->symbolFileUUID, 16); // overwritten later after measuring the local symbols file
- dyldCacheHeader->rosettaReadOnlyAddr = subCache._rosettaReadOnlyAddr;
- dyldCacheHeader->rosettaReadOnlySize = subCache._rosettaReadOnlySize;
- dyldCacheHeader->rosettaReadWriteAddr = subCache._rosettaReadWriteAddr;
- dyldCacheHeader->rosettaReadWriteSize = subCache._rosettaReadWriteSize;
-
- // fill in mappings
- dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)(subCache._readExecuteRegion.buffer + dyldCacheHeader->mappingOffset);
- assert(subCache._readExecuteRegion.cacheFileOffset == 0);
-
- uint32_t firstMappingProt = VM_PROT_READ | VM_PROT_EXECUTE;
- // In the LINKEDIT only sub cache, hack TEXT to also be RO, as then it shares the same protections
- // as the subsequent LINKEDIT region
- if ( (subCache._textNumDylibs == 0) && (subCache._dataNumDylibs == 0) && (subCache._linkeditNumDylibs != 0) ) {
- firstMappingProt = VM_PROT_READ;
- }
-
- mappings[0].address = subCache._readExecuteRegion.unslidLoadAddress;
- mappings[0].fileOffset = subCache._readExecuteRegion.cacheFileOffset;
- mappings[0].size = subCache._readExecuteRegion.sizeInUse;
- mappings[0].maxProt = firstMappingProt;
- mappings[0].initProt = firstMappingProt;
- for (uint32_t i = 0; i != subCache._dataRegions.size(); ++i) {
- if ( i == 0 ) {
- assert(subCache._dataRegions[i].cacheFileOffset == subCache._readExecuteRegion.sizeInUse);
- }
-
- assert(subCache._dataRegions[i].initProt != 0);
- assert(subCache._dataRegions[i].maxProt != 0);
-
- mappings[i + 1].address = subCache._dataRegions[i].unslidLoadAddress;
- mappings[i + 1].fileOffset = subCache._dataRegions[i].cacheFileOffset;
- mappings[i + 1].size = subCache._dataRegions[i].sizeInUse;
- mappings[i + 1].maxProt = subCache._dataRegions[i].maxProt;
- mappings[i + 1].initProt = subCache._dataRegions[i].initProt;
- }
-
- if ( subCache._readOnlyRegion.has_value() ) {
- uint64_t previousFileOffset = subCache._readExecuteRegion.cacheFileOffset + subCache._readExecuteRegion.sizeInUse;
- if ( !subCache._dataRegions.empty() )
- previousFileOffset = subCache._dataRegions.back().cacheFileOffset + subCache._dataRegions.back().sizeInUse;
- assert(subCache._readOnlyRegion->cacheFileOffset == previousFileOffset);
-
- mappings[mappingCount - 1].address = subCache._readOnlyRegion->unslidLoadAddress;
- mappings[mappingCount - 1].fileOffset = subCache._readOnlyRegion->cacheFileOffset;
- mappings[mappingCount - 1].size = subCache._readOnlyRegion->sizeInUse;
- mappings[mappingCount - 1].maxProt = VM_PROT_READ;
- mappings[mappingCount - 1].initProt = VM_PROT_READ;
- }
-
- // Add in the new mappings with also have slide info
- dyld_cache_mapping_and_slide_info* slidableMappings = (dyld_cache_mapping_and_slide_info*)(subCache._readExecuteRegion.buffer + dyldCacheHeader->mappingWithSlideOffset);
- slidableMappings[0].address = subCache._readExecuteRegion.unslidLoadAddress;
- slidableMappings[0].fileOffset = subCache._readExecuteRegion.cacheFileOffset;
- slidableMappings[0].size = subCache._readExecuteRegion.sizeInUse;
- slidableMappings[0].maxProt = firstMappingProt;
- slidableMappings[0].initProt = firstMappingProt;
- slidableMappings[0].slideInfoFileOffset = 0;
- slidableMappings[0].slideInfoFileSize = 0;
- slidableMappings[0].flags = 0;
- for (uint32_t i = 0; i != subCache._dataRegions.size(); ++i) {
- // Work out which flags this mapping has
- uint64_t flags = 0;
- if ( startsWith(subCache._dataRegions[i].name, "__AUTH") )
- flags |= DYLD_CACHE_MAPPING_AUTH_DATA;
- if ( (subCache._dataRegions[i].name == "__AUTH_DIRTY") || (subCache._dataRegions[i].name == "__DATA_DIRTY") ) {
- flags |= DYLD_CACHE_MAPPING_DIRTY_DATA;
- } else if ( (subCache._dataRegions[i].name == "__AUTH_CONST") || (subCache._dataRegions[i].name == "__DATA_CONST") ) {
- flags |= DYLD_CACHE_MAPPING_CONST_DATA;
- }
-
- assert(subCache._dataRegions[i].initProt != 0);
- assert(subCache._dataRegions[i].maxProt != 0);
-
- slidableMappings[i + 1].address = subCache._dataRegions[i].unslidLoadAddress;
- slidableMappings[i + 1].fileOffset = subCache._dataRegions[i].cacheFileOffset;
- slidableMappings[i + 1].size = subCache._dataRegions[i].sizeInUse;
- slidableMappings[i + 1].maxProt = subCache._dataRegions[i].maxProt;
- slidableMappings[i + 1].initProt = subCache._dataRegions[i].initProt;
- slidableMappings[i + 1].slideInfoFileOffset = subCache._dataRegions[i].slideInfoFileOffset;
- slidableMappings[i + 1].slideInfoFileSize = subCache._dataRegions[i].slideInfoFileSize;
- slidableMappings[i + 1].flags = flags;
- }
-
- if ( subCache._readOnlyRegion.has_value() ) {
- slidableMappings[mappingCount - 1].address = subCache._readOnlyRegion->unslidLoadAddress;
- slidableMappings[mappingCount - 1].fileOffset = subCache._readOnlyRegion->cacheFileOffset;
- slidableMappings[mappingCount - 1].size = subCache._readOnlyRegion->sizeInUse;
- slidableMappings[mappingCount - 1].maxProt = VM_PROT_READ;
- slidableMappings[mappingCount - 1].initProt = VM_PROT_READ;
- slidableMappings[mappingCount - 1].slideInfoFileOffset = 0;
- slidableMappings[mappingCount - 1].slideInfoFileSize = 0;
- slidableMappings[mappingCount - 1].flags = 0;
- }
-}
-
-void SharedCacheBuilder::writeCacheHeader()
-{
- // look for libdyld.dylib and record OS verson info into cache header
- __block uint32_t osVersion = 0;
- __block uint32_t altPlatform = 0;
- __block uint32_t altOsVersion = 0;
- for (const DylibInfo& dylib : _sortedDylibs) {
- const char* installName = dylib.input->mappedFile.mh->installName();
- size_t nameLen = strlen(installName);
- if ( strcmp(&installName[nameLen-14], "/libdyld.dylib") == 0 ) {
- dylib.input->mappedFile.mh->forEachSupportedPlatform(^(dyld3::Platform platform, uint32_t minOS, uint32_t sdk) {
- if ( platform == _options.platform ) {
- osVersion = minOS;
- }
- else {
- altPlatform = (uint32_t)platform;
- altOsVersion = minOS;
- }
- });
- break;
- }
- }
-
- // Each subCache has a header to describe its layout. Most other fields are 0
- for (const SubCache& subCache : _subCaches) {
- // The symbols cache file is shared between dev/customer, so don't give it a cacheType
- writeSharedCacheHeader(subCache, _options, *_archLayout, osVersion, altPlatform, altOsVersion, _options.cacheConfiguration);
- }
-
- for (const SubCache& subCache : _subCaches) {
- dyld_cache_header* dyldSubCacheHeader = (dyld_cache_header*)subCache._readExecuteRegion.buffer;
- dyldSubCacheHeader->imagesOffset = (uint32_t)(dyldSubCacheHeader->mappingWithSlideOffset + dyldSubCacheHeader->mappingWithSlideCount*sizeof(dyld_cache_mapping_and_slide_info));
- dyldSubCacheHeader->imagesCount = (uint32_t)_sortedDylibs.size() + _aliasCount;
- dyldSubCacheHeader->imagesTextOffset = dyldSubCacheHeader->imagesOffset + sizeof(dyld_cache_image_info)*dyldSubCacheHeader->imagesCount;
- dyldSubCacheHeader->imagesTextCount = _sortedDylibs.size();
- dyldSubCacheHeader->subCacheArrayOffset = (uint32_t)(dyldSubCacheHeader->imagesTextOffset + sizeof(dyld_cache_image_text_info) * _sortedDylibs.size());
- }
-
- const SubCache& mainSubCache = _subCaches.front();
- dyld_cache_header* dyldCacheHeader = (dyld_cache_header*)mainSubCache._readExecuteRegion.buffer;
- {
- // The first subCache has an array of UUIDs for all other subCaches
- dyldCacheHeader->subCacheArrayCount = (uint32_t)_subCaches.size() - 1;
-
- // The first subCache knows the size of buffer to allocate to contain all other subCaches
- // Note, we'll update this later once we have the exact size we need for these caches
- dyldCacheHeader->sharedRegionSize = _archLayout->sharedMemorySize;
- }
-
- // The main cache has offsets to all the caches
- if ( _subCaches.size() > 1 ) {
- DyldSharedCache* dyldCache = (DyldSharedCache*)mainSubCache._readExecuteRegion.buffer;
- dyld_subcache_entry* subCacheEntries = (dyld_subcache_entry*)((uint8_t*)dyldCache + dyldCache->header.subCacheArrayOffset);
- for (uint64_t i = 1, e = _subCaches.size(); i != e; ++i) {
- const DyldSharedCache* subCache = (DyldSharedCache*)_subCaches[i]._readExecuteRegion.buffer;
- subCacheEntries[i - 1].cacheVMOffset = (subCache->unslidLoadAddress() - dyldCache->unslidLoadAddress());
- }
- }
-
- // append aliases image records and strings
-/*
- for (auto &dylib : _dylibs) {
- if (!dylib->installNameAliases.empty()) {
- for (const std::string& alias : dylib->installNameAliases) {
- images->set_address(_segmentMap[dylib][0].address);
- if (_manifest.platform() == "osx") {
- images->modTime = dylib->lastModTime;
- images->inode = dylib->inode;
- }
- else {
- images->modTime = 0;
- images->inode = pathHash(alias.c_str());
- }
- images->pathFileOffset = offset;
- //fprintf(stderr, "adding alias %s for %s\n", alias.c_str(), dylib->installName.c_str());
- ::strcpy((char*)&_buffer[offset], alias.c_str());
- offset += alias.size() + 1;
- ++images;
- }
- }
- }
-*/
- for (const SubCache& subCache : _subCaches) {
- if ( subCache._isStubsSubCache )
- continue;
- dyld_cache_header* dyldSubCacheHeader = (dyld_cache_header*)subCache._readExecuteRegion.buffer;
- // calculate start of text image array and trailing string pool
- dyld_cache_image_text_info* textImages = (dyld_cache_image_text_info*)(subCache._readExecuteRegion.buffer + dyldSubCacheHeader->imagesTextOffset);
- uint32_t stringOffset = (uint32_t)(dyldSubCacheHeader->subCacheArrayOffset + sizeof(dyld_subcache_entry) * dyldSubCacheHeader->subCacheArrayCount);
-
- // write text image array and image names pool at same time
- for (const DylibInfo& dylib : _sortedDylibs) {
- dylib.input->mappedFile.mh->getUuid(textImages->uuid);
- textImages->loadAddress = dylib.cacheLocation[0].dstCacheUnslidAddress;
- textImages->textSegmentSize = (uint32_t)dylib.cacheLocation[0].dstCacheSegmentSize;
- textImages->pathOffset = stringOffset;
- const char* installName = dylib.input->mappedFile.mh->installName();
- ::strcpy((char*)subCache._readExecuteRegion.buffer + stringOffset, installName);
- stringOffset += (uint32_t)strlen(installName)+1;
- ++textImages;
- }
-
- // fill in image table. This has to be after the above loop so that the install names are within 32-bits of the first shared cache
- // Note, this code is paired with an adjustment in addObjcSegments
- textImages = (dyld_cache_image_text_info*)(subCache._readExecuteRegion.buffer + dyldSubCacheHeader->imagesTextOffset);
- dyld_cache_image_info* images = (dyld_cache_image_info*)(subCache._readExecuteRegion.buffer + dyldSubCacheHeader->imagesOffset);
- for (const DylibInfo& dylib : _sortedDylibs) {
- images->address = dylib.cacheLocation[0].dstCacheUnslidAddress;
- if ( _options.dylibsRemovedDuringMastering ) {
- images->modTime = 0;
- images->inode = 0;
- }
- else {
- images->modTime = dylib.input->mappedFile.modTime;
- images->inode = dylib.input->mappedFile.inode;
- }
- images->pathFileOffset = (uint32_t)textImages->pathOffset;
- ++images;
- ++textImages;
- }
-
- // make sure header did not overflow into first mapped image
- const dyld_cache_image_info* firstImage = (dyld_cache_image_info*)(subCache._readExecuteRegion.buffer + dyldSubCacheHeader->imagesOffset);
- assert(stringOffset <= (firstImage->address - subCache._readExecuteRegion.unslidLoadAddress));
- }
-}
-
-void SharedCacheBuilder::processSelectorStrings(const std::vector<LoadedMachO>& executables, IMPCaches::HoleMap& selectorsHoleMap) {
- const bool log = false;
-
- // We only do this optimisation to reduce the size of the shared cache executable closures
- // Skip this is those closures are not being built
- if ( !_options.optimizeDyldDlopens || !_options.optimizeDyldLaunches )
- return;
-
- _selectorStringsFromExecutables = 0;
- uint64_t totalBytesPulledIn = 0;
-
- // Don't do this optimisation on watchOS where the shared cache is too small
- if (_options.platform == dyld3::Platform::watchOS)
- return;
-
- // Get the method name coalesced section as that is where we need to put these strings
- CacheBuilder::CoalescedStringsSection& cacheStringSection = this->_objcCoalescedMethodNames;
- for (const LoadedMachO& executable : executables) {
- const dyld3::MachOAnalyzer* ma = (const dyld3::MachOAnalyzer*)executable.loadedFileInfo.fileContent;
-
- uint64_t sizeBeforeProcessing = cacheStringSection.bufferSize;
-
- ma->forEachObjCMethodName(^(const char* methodName) {
- std::string_view str = methodName;
- if (cacheStringSection.stringsToOffsets.find(str) == cacheStringSection.stringsToOffsets.end()) {
- int offset = selectorsHoleMap.addStringOfSize((unsigned)str.size() + 1);
- cacheStringSection.stringsToOffsets[str] = offset;
-
- // If we inserted the string past the end then we need to include it in the total
- int possibleNewEnd = offset + (int)str.size() + 1;
- if (cacheStringSection.bufferSize < (uint32_t)possibleNewEnd) {
- cacheStringSection.bufferSize = (uint32_t)possibleNewEnd;
- }
- // if (log) printf("Selector: %s -> %s\n", ma->installName(), methodName);
- ++_selectorStringsFromExecutables;
- }
- });
-
- uint64_t sizeAfterProcessing = cacheStringSection.bufferSize;
- totalBytesPulledIn += (sizeAfterProcessing - sizeBeforeProcessing);
- if ( log && (sizeBeforeProcessing != sizeAfterProcessing) ) {
- printf("Pulled in % 6lld bytes of selectors from %s\n",
- sizeAfterProcessing - sizeBeforeProcessing, executable.loadedFileInfo.path);
- }
- }
-
- _diagnostics.verbose("Pulled in %lld selector strings (%lld bytes) from executables\n",
- _selectorStringsFromExecutables, totalBytesPulledIn);
-}
-
-static void visitSelectorString(CacheBuilder::CoalescedStringsSection& cacheStringSection,
- const IMPCaches::SelectorMap& selectors,
- IMPCaches::HoleMap& selectorsHoleMap,
- std::string_view str) {
- if (cacheStringSection.stringsToOffsets.find(str) == cacheStringSection.stringsToOffsets.end()) {
- const IMPCaches::SelectorMap::UnderlyingMap & map = selectors.map;
- IMPCaches::SelectorMap::UnderlyingMap::const_iterator selectorsIterator = map.find(str);
-
- int cacheSectionOffset = 0;
- if (selectorsIterator != map.end()) {
- cacheSectionOffset = selectorsIterator->second->offset;
- } else {
- cacheSectionOffset = selectorsHoleMap.addStringOfSize((unsigned)str.size() + 1);
- }
-
- cacheStringSection.stringsToOffsets[str] = cacheSectionOffset;
- uint32_t sizeAtLeast = cacheSectionOffset + (uint32_t)str.size() + 1;
- if (cacheStringSection.bufferSize < sizeAtLeast) {
- cacheStringSection.bufferSize = sizeAtLeast;
- }
- // if (log) printf("Selector: %s -> %s\n", ma->installName(), methodName);
- }
-}
-
-static void processSelectorStrings(Diagnostics& diags,
- CacheBuilder::CoalescedStringsSection& cacheStringSection,
- const IMPCaches::SelectorMap& selectors,
- IMPCaches::HoleMap& selectorsHoleMap,
- const dyld3::MachOAnalyzer* ma)
-{
- intptr_t slide = ma->getSlide();
- uint32_t pointerSize = ma->pointerSize();
- auto vmAddrConverter = ma->makeVMAddrConverter(false);
-
- auto visitMethodName = ^(const char* methodName) {
- visitSelectorString(cacheStringSection, selectors, selectorsHoleMap, methodName);
- };
-
- ma->forEachObjCMethodName(visitMethodName);
-
- auto visitReferenceToObjCSelector = ^void(uint64_t selectorStringVMAddr, uint64_t selectorReferenceVMAddr) {
- const char* selectorString = (const char*)(selectorStringVMAddr + slide);
- visitMethodName(selectorString);
- };
-
- auto visitMethod = ^(uint64_t methodVMAddr, const dyld3::MachOAnalyzer::ObjCMethod& method,
- bool& stopMethod) {
- visitReferenceToObjCSelector(method.nameVMAddr, method.nameLocationVMAddr);
- };
-
- auto visitMethodList = ^(uint64_t methodListVMAddr) {
- if ( methodListVMAddr == 0 )
- return;
- ma->forEachObjCMethod(methodListVMAddr, vmAddrConverter, 0, visitMethod);
- if (diags.hasError())
- return;
- };
-
- auto visitClass = ^(uint64_t classVMAddr,
- uint64_t classSuperclassVMAddr, uint64_t classDataVMAddr,
- const dyld3::MachOAnalyzer::ObjCClassInfo& objcClass, bool isMetaClass,
- bool& stopClass) {
- visitMethodList(objcClass.baseMethodsVMAddr(pointerSize));
- };
-
- auto visitCategory = ^(uint64_t categoryVMAddr,
- const dyld3::MachOAnalyzer::ObjCCategory& objcCategory,
- bool& stopCategory) {
- visitMethodList(objcCategory.instanceMethodsVMAddr);
- visitMethodList(objcCategory.classMethodsVMAddr);
- };
- auto visitProtocol = ^(uint64_t protocolVMAddr,
- const dyld3::MachOAnalyzer::ObjCProtocol& objCProtocol,
- bool& stopProtocol) {
- visitMethodList(objCProtocol.instanceMethodsVMAddr);
- visitMethodList(objCProtocol.classMethodsVMAddr);
- visitMethodList(objCProtocol.optionalInstanceMethodsVMAddr);
- visitMethodList(objCProtocol.optionalClassMethodsVMAddr);
- };
-
- // Walk the class list
- ma->forEachObjCClass(diags, vmAddrConverter, visitClass);
- if (diags.hasError())
- return;
-
- // Walk the category list
- ma->forEachObjCCategory(diags, vmAddrConverter, visitCategory);
- if (diags.hasError())
- return;
-
- // Walk the protocol list
- ma->forEachObjCProtocol(diags, vmAddrConverter, visitProtocol);
- if (diags.hasError())
- return;
-
- // Visit the selector refs
- ma->forEachObjCSelectorReference(diags, vmAddrConverter, ^(uint64_t selRefVMAddr, uint64_t selRefTargetVMAddr, bool& stopSelRef) {
- visitReferenceToObjCSelector(selRefTargetVMAddr, selRefVMAddr);
- });
- if (diags.hasError())
- return;
-}
-
-static void visitClassNameString(CacheBuilder::CoalescedStringsSection& cacheStringSection,
- std::string_view str) {
- if (cacheStringSection.stringsToOffsets.find(str) == cacheStringSection.stringsToOffsets.end()) {
- auto itAndInserted = cacheStringSection.stringsToOffsets.insert({ str, cacheStringSection.bufferSize });
- assert(itAndInserted.second);
-
- cacheStringSection.bufferSize += str.size() + 1;
- }
-}
-
-static void processClassNameStrings(Diagnostics& diags,
- CacheBuilder::CoalescedStringsSection& cacheStringSection,
- const dyld3::MachOAnalyzer* ma)
-{
- intptr_t slide = ma->getSlide();
- uint32_t pointerSize = ma->pointerSize();
- auto vmAddrConverter = ma->makeVMAddrConverter(false);
-
- auto visitClass = ^(uint64_t classVMAddr,
- uint64_t classSuperclassVMAddr, uint64_t classDataVMAddr,
- const dyld3::MachOAnalyzer::ObjCClassInfo& objcClass, bool isMetaClass,
- bool& stopClass) {
- uint64_t classNameVMAddr = objcClass.nameVMAddr(pointerSize);
- const char* name = (const char*)(classNameVMAddr + slide);
- visitClassNameString(cacheStringSection, name);
- };
-
- auto visitCategory = ^(uint64_t categoryVMAddr,
- const dyld3::MachOAnalyzer::ObjCCategory& objcCategory,
- bool& stopCategory) {
- const char* name = (const char*)(objcCategory.nameVMAddr + slide);
- visitClassNameString(cacheStringSection, name);
- };
- auto visitProtocol = ^(uint64_t protocolVMAddr,
- const dyld3::MachOAnalyzer::ObjCProtocol& objCProtocol,
- bool& stopProtocol) {
- const char* name = (const char*)(objCProtocol.nameVMAddr + slide);
- visitClassNameString(cacheStringSection, name);
- };
-
- // Walk the class list
- ma->forEachObjCClass(diags, vmAddrConverter, visitClass);
- if (diags.hasError())
- return;
-
- // Walk the category list
- ma->forEachObjCCategory(diags, vmAddrConverter, visitCategory);
- if (diags.hasError())
- return;
-
- // Walk the protocol list
- ma->forEachObjCProtocol(diags, vmAddrConverter, visitProtocol);
- if (diags.hasError())
- return;
-}
-
-static void parseGOTs(const dyld3::MachOAnalyzer* ma,
- CacheBuilder::DylibSectionCoalescer::OptimizedSection* optimizedSection,
- const char* gotSegmentName, const char* gotSectionName,
- bool supportAuthFixups)
-{
- static const bool log = false;
-
- // FIXME: Should we propagate these up to the builder? For now we just bail out of GOT combining
- // on this dylib
- __block Diagnostics diag;
-
- __block bool isSimPlatform = false;
- ma->forEachSupportedPlatform(^(Platform platform, uint32_t minOS, uint32_t sdk) {
- if ( dyld3::MachOFile::isSimulatorPlatform(platform) )
- isSimPlatform = true;
- });
-
- if ( isSimPlatform )
- return;
-
- // We can only rewrite sections if we know we have split seg v2 to point to it
- // Otherwise, a PC relative load in the __TEXT segment wouldn't know how to point to the new GOTs
- // which are no longer in the same segment
- uint32_t splitSegSize = 0;
- const void* splitSegStart = ma->getSplitSeg(splitSegSize);
- if (!splitSegStart)
- return;
-
- if ((*(const uint8_t*)splitSegStart) != DYLD_CACHE_ADJ_V2_FORMAT)
- return;
-
- // Also only support chained fixups. Its much easier this way!
- if ( !ma->hasChainedFixups() )
- return;
-
- if ( ma->isArch("x86_64") || ma->isArch("x86_64h") ) {
- __block bool oldLinker = false;
- ma->forEachSupportedBuildTool(^(Platform platform, uint32_t tool, uint32_t version) {
- uint32_t majorVersion = version >> 16;
- // uint32_t minorVersion = (version >> 8) && 0xFF;
- // uint32_t veryMinorVersion = version && 0xFF;
-
- if ( tool == TOOL_LD ) {
- if ( majorVersion < 803 )
- oldLinker = true;
- }
- });
-
- if ( oldLinker )
- return;
- }
-
- // rdar://89319146
- if ( ma->isArch("x86_64") || ma->isArch("x86_64h") ) {
- if ( !strcmp(ma->installName(), "/System/Library/Frameworks/Foundation.framework/Versions/C/Foundation") )
- return;
- if ( !strcmp(ma->installName(), "/usr/lib/system/libdispatch.dylib") )
- return;
- }
-
- __block std::optional<dyld3::MachOAnalyzer::SectionInfo> gotSectionInfo;
- __block uint16_t chainedFixupFormat = 0;
- ma->forEachSection(^(const dyld3::MachOAnalyzer::SectionInfo §Info, bool malformedSectionRange, bool &stop) {
- if (strcmp(sectInfo.segInfo.segName, gotSegmentName) != 0)
- return;
- if (strcmp(sectInfo.sectName, gotSectionName) != 0)
- return;
- gotSectionInfo = sectInfo;
-
- // As we found the section we want, also get its chained fixup format
- ma->withChainStarts(diag, 0, ^(const dyld_chained_starts_in_image *starts) {
- ma->forEachFixupChainSegment(diag, starts,
- ^(const dyld_chained_starts_in_segment* segmentInfo,
- uint32_t segIndex, bool& stopSegment) {
- if ( segIndex == sectInfo.segInfo.segIndex ) {
- chainedFixupFormat = segmentInfo->pointer_format;
- stopSegment = true;
- }
- });
- });
- assert(chainedFixupFormat != 0);
-
- stop = true;
- });
-
- if ( diag.hasError() )
- return;
-
- if ( !gotSectionInfo )
- return;
-
- auto* cacheGotSection = (CacheBuilder::CoalescedGOTSection*)optimizedSection->subCacheSection;
- CacheBuilder::DylibSectionCoalescer::DylibSectionOffsetToCacheSectionOffset& offsetMap = optimizedSection->offsetMap;
-
- // Walk the entries in this section
- int64_t slide = ma->getSlide();
- uint32_t pointerSize = ma->pointerSize();
- const uint8_t* content = (const uint8_t*)(gotSectionInfo->sectAddr + slide);
- const uint8_t* pos = content;
- const uint8_t* end = content + gotSectionInfo->sectSize;
-
- __block std::vector<dyld3::MachOAnalyzer::BindTargetInfo> bindTargets;
- ma->forEachBindTarget(diag, false, ^(const dyld3::MachOAnalyzer::BindTargetInfo& info, bool& stop) {
- bindTargets.push_back(info);
- if ( diag.hasError() )
- stop = true;
- }, ^(const dyld3::MachOAnalyzer::BindTargetInfo& info, bool& stop) {
- // This shouldn't happen with chained fixups
- assert(0);
- });
-
- if ( diag.hasError() )
- return;
-
- __block std::vector<const char*> dependents;
- ma->forEachDependentDylib(^(const char *loadPath, bool isWeak, bool isReExport, bool isUpward, uint32_t compatVersion, uint32_t curVersion, bool &stop) {
- dependents.push_back(loadPath);
- });
-
- assert((gotSectionInfo->sectSize % pointerSize == 0));
- while ( pos != end ) {
- const dyld3::MachOLoaded::ChainedFixupPointerOnDisk* fixup = (const dyld3::MachOLoaded::ChainedFixupPointerOnDisk*)pos;
- pos += pointerSize;
- uint32_t bindOrdinal = ~0U;
- int64_t addend = -1;
- bool isBind = fixup->isBind(chainedFixupFormat, bindOrdinal, addend);
-
- uint32_t sourceSectionOffset = (uint32_t)((uint64_t)fixup - (uint64_t)content);
-
- // Note down rebases, but otherwise skip them
- if ( !isBind ) {
- optimizedSection->unoptimizedOffsets.insert(sourceSectionOffset);
- continue;
- }
-
- // We don't support addends right now. But hopefully GOTs don't need them anyway
- if ( addend != 0 )
- continue;
-
- // Some dylibs have authenticated GOTs in __DATA, not __AUTH. We shouldn't move them to the
- // __DATA shared cache mapping, as it doesn't support the authenticated fixup
- MachOLoaded::PointerMetaData pmd(fixup, chainedFixupFormat);
- if ( !supportAuthFixups && pmd.authenticated ) {
- optimizedSection->unoptimizedOffsets.insert(sourceSectionOffset);
- continue;
- }
-
- const dyld3::MachOAnalyzer::BindTargetInfo& bindTarget = bindTargets[bindOrdinal];
-
- // TODO: Weak GOTs. See rdar://86510941
- const char* targetInstallName = nullptr;
- if ( (bindTarget.libOrdinal > 0) && ((unsigned)bindTarget.libOrdinal <= dependents.size()) ) {
- targetInstallName = dependents[bindTarget.libOrdinal - 1];
- } else {
- optimizedSection->unoptimizedOffsets.insert(sourceSectionOffset);
- continue;
- }
-
- typedef CacheBuilder::CoalescedGOTSection::GOTKey Key;
- Key key = { bindTarget.symbolName, targetInstallName, pmd };
-
- int cacheSectionOffset = 0;
-
- auto it = cacheGotSection->gotTargetsToOffsets.find(key);
- if (it != cacheGotSection->gotTargetsToOffsets.end()) {
- // Debugging only. If we didn't include the GOT then we saved that many bytes
- cacheGotSection->savedSpace += pointerSize;
- cacheSectionOffset = it->second;
- } else {
- auto itAndInserted = cacheGotSection->gotTargetsToOffsets.insert({ key, cacheGotSection->bufferSize });
- cacheSectionOffset = itAndInserted.first->second;
- assert(itAndInserted.second);
-
- cacheGotSection->bufferSize += pointerSize;
- if (log) {
- uint64_t gotOffset = ((uint64_t)pos - (uint64_t)content) - pointerSize;
- printf("%s[%lld]: %s -> (%s, %s)\n",
- gotSectionName, gotOffset, ma->installName(),
- key.targetDylibName.data(), key.targetSymbolName.data());
- }
- }
-
- // Now keep track of this offset in our source dylib as pointing to this offset
- offsetMap[sourceSectionOffset] = cacheSectionOffset;
- }
-}
-
-// Feature flag. Enable this once we have ld64-803 everywhere
-static const bool coalesceGOTs = true;
-
-void SharedCacheBuilder::parseGOTs()
-{
- if ( !coalesceGOTs )
- return;
-
- for (DylibInfo& dylib : _sortedDylibs) {
- ::parseGOTs(dylib.input->mappedFile.mh, &dylib._coalescer.gots, "__DATA_CONST", "__got", false);
- ::parseGOTs(dylib.input->mappedFile.mh, &dylib._coalescer.auth_gots, "__AUTH_CONST", "__auth_got", true);
- }
-
- // Sort the coalesced GOTs based on the target install name. We find GOTs in the order we parse
- // the fixups in the dylibs, but we want the final cache to keep all GOTs for the same target near
- // each other
- const uint32_t pointerSize = _archLayout->is64 ? 8 : 4;
- for ( SubCache& subCache : _subCaches ) {
- // Skip subCache's which don't contain DATA
- if ( subCache._dataNumDylibs == 0 )
- continue;
-
- for ( bool authGOTs : { false, true } ) {
- CoalescedGOTSection* gotSection = authGOTs ? subCache._coalescedAuthGOTs : subCache._coalescedGOTs;
- if ( gotSection->gotTargetsToOffsets.empty() )
- continue;
-
- typedef CacheBuilder::CoalescedGOTSection::GOTKey Key;
- std::vector<Key> sortedKeys;
- sortedKeys.reserve(gotSection->gotTargetsToOffsets.size());
- for ( const auto& keyAndValue : gotSection->gotTargetsToOffsets )
- sortedKeys.push_back(keyAndValue.first);
-
- std::sort(sortedKeys.begin(), sortedKeys.end(),
- [](const Key& a, const Key& b) {
- // Put libSystem first, then all the /usr/lib/system dylibs
- // That way any GOTs for re-exports from libsystem will be close to similar GOTs
- bool isLibsystemA = a.targetDylibName.find("libSystem.B.dylib") != std::string_view::npos;
- bool isLibsystemB = b.targetDylibName.find("libSystem.B.dylib") != std::string_view::npos;
- if ( isLibsystemA != isLibsystemB )
- return isLibsystemA;
-
- bool isLibsystemReexportA = a.targetDylibName.find("/usr/lib/system") != std::string_view::npos;
- bool isLibsystemReexportB = b.targetDylibName.find("/usr/lib/system") != std::string_view::npos;
- if ( isLibsystemReexportA != isLibsystemReexportB )
- return isLibsystemReexportA;
-
- if ( a.targetDylibName != b.targetDylibName )
- return (a.targetDylibName < b.targetDylibName);
-
- // Install names are the same. Sort by symbol name
- return a.targetSymbolName < b.targetSymbolName;
- });
-
- // Rewrite entries from their original offset to the new offset
- std::unordered_map<uint32_t, uint32_t> oldToNewOffsetMap;
- for ( uint32_t i = 0; i != sortedKeys.size(); ++i ) {
- const Key& key = sortedKeys[i];
- auto it = gotSection->gotTargetsToOffsets.find(key);
- assert(it != gotSection->gotTargetsToOffsets.end());
-
- uint32_t newCacheSectionOffset = i * pointerSize;
-
- // Record the offset mapping for updating the dylibs
- oldToNewOffsetMap[it->second] = newCacheSectionOffset;
-
- const bool log = false;
- if ( log ) {
- const char* gotSectionName = authGOTs ? "__auth_got" : "__got";
- printf("%s[%d]: %s\n", gotSectionName, newCacheSectionOffset, key.targetSymbolName.data());
- }
-
- it->second = newCacheSectionOffset;
- }
-
- // Also rewrite entries in each dylib
- dyld3::Array<DylibInfo> cacheImages(_sortedDylibs.data(), _sortedDylibs.size(), _sortedDylibs.size());
- dyld3::Array<DylibInfo> subCacheImages = cacheImages.subArray(subCache._dataFirstDylibIndex, subCache._dataNumDylibs);
- for (DylibInfo& dylibInfo : subCacheImages) {
- CacheBuilder::DylibSectionCoalescer::OptimizedSection* optimizedSection = nullptr;
- optimizedSection = authGOTs ? &dylibInfo._coalescer.auth_gots : &dylibInfo._coalescer.gots;
- for ( auto& keyAndCacheOffset : optimizedSection->offsetMap ) {
- auto it = oldToNewOffsetMap.find(keyAndCacheOffset.second);
- assert(it != oldToNewOffsetMap.end());
- keyAndCacheOffset.second = it->second;
- }
- }
- }
- }
-}
-
-static void parseCoalescableText(const dyld3::MachOAnalyzer* ma,
- CacheBuilder::DylibSectionCoalescer& sectionCoalescer,
- const IMPCaches::SelectorMap& selectors,
- IMPCaches::HoleMap& selectorsHoleMap)
-{
- static const bool log = false;
-
- // We can only remove sections if we know we have split seg v2 to point to it
- // Otherwise, a PC relative load in the __TEXT segment wouldn't know how to point to the new strings
- // which are no longer in the same segment
- uint32_t splitSegSize = 0;
- const void* splitSegStart = ma->getSplitSeg(splitSegSize);
- if (!splitSegStart)
- return;
-
- if ((*(const uint8_t*)splitSegStart) != DYLD_CACHE_ADJ_V2_FORMAT)
- return;
-
- // We can only remove sections from the end of a segment, so cache them all and walk backwards.
- __block std::vector<std::pair<std::string, dyld3::MachOAnalyzer::SectionInfo>> textSectionInfos;
- ma->forEachSection(^(const dyld3::MachOAnalyzer::SectionInfo §Info, bool malformedSectionRange, bool &stop) {
- if (strcmp(sectInfo.segInfo.segName, "__TEXT") != 0)
- return;
- assert(!malformedSectionRange);
- textSectionInfos.push_back({ sectInfo.sectName, sectInfo });
- });
-
- int64_t slide = ma->getSlide();
-
- bool isSelectorsSection = false;
- for (auto sectionInfoIt = textSectionInfos.rbegin(); sectionInfoIt != textSectionInfos.rend(); ++sectionInfoIt) {
- const std::string& sectionName = sectionInfoIt->first;
- const dyld3::MachOAnalyzer::SectionInfo& sectInfo = sectionInfoIt->second;
-
- isSelectorsSection = (sectionName == "__objc_methname");
-
- // If we find a section we can't handle then stop here. Hopefully we coalesced some from the end.
- typedef CacheBuilder::DylibSectionCoalescer::OptimizedSection OptimizedSection;
- OptimizedSection* optimizedSection = sectionCoalescer.getSection("__TEXT", sectionName);
- if ( optimizedSection == nullptr )
- break;
-
- auto* cacheStringSection = (CacheBuilder::CoalescedStringsSection*)optimizedSection->subCacheSection;
-
- // Walk the strings in this section
- const uint8_t* content = (uint8_t*)(sectInfo.sectAddr + slide);
- const char* s = (char*)content;
- const char* end = s + sectInfo.sectSize;
- while ( s < end ) {
- std::string_view str = s;
- int cacheSectionOffset = 0;
-
- auto it = cacheStringSection->stringsToOffsets.find(str);
- if (it != cacheStringSection->stringsToOffsets.end()) {
- // Debugging only. If we didn't include the string then we saved that many bytes
- cacheStringSection->savedSpace += str.size() + 1;
- cacheSectionOffset = it->second;
- } else if (isSelectorsSection) {
- // If we are in the selectors section, we need to move
- // the selectors in the selector map to their correct addresses,
- // and fill the holes with the rest
-
-#if BUILDING_APP_CACHE_UTIL
- cacheSectionOffset = cacheStringSection->bufferSize;
-#else
- const IMPCaches::SelectorMap::UnderlyingMap & map = selectors.map;
- IMPCaches::SelectorMap::UnderlyingMap::const_iterator selectorsIterator = map.find(str);
- if (selectorsIterator != map.end()) {
- cacheSectionOffset = selectorsIterator->second->offset;
- } else {
- cacheSectionOffset = selectorsHoleMap.addStringOfSize((unsigned)str.size() + 1);
- }
-#endif
- cacheStringSection->stringsToOffsets[str] = cacheSectionOffset;
- uint32_t sizeAtLeast = cacheSectionOffset + (uint32_t)str.size() + 1;
- if (cacheStringSection->bufferSize < sizeAtLeast) {
- cacheStringSection->bufferSize = sizeAtLeast;
- }
- } else {
- auto itAndInserted = cacheStringSection->stringsToOffsets.insert({ str, cacheStringSection->bufferSize });
- cacheSectionOffset = itAndInserted.first->second;
- assert(itAndInserted.second);
-
- cacheStringSection->bufferSize += str.size() + 1;
- if (log) {
- printf("Selector: %s -> %s\n", ma->installName(), s);
- }
- }
-
- // Now keep track of this offset in our source dylib as pointing to this offset
- uint32_t sourceSectionOffset = (uint32_t)((uint64_t)s - (uint64_t)content);
- optimizedSection->offsetMap[sourceSectionOffset] = cacheSectionOffset;
- s += str.size() + 1;
- }
- }
-}
-
-void SharedCacheBuilder::parseCoalescableSegments(IMPCaches::SelectorMap& selectors, IMPCaches::HoleMap& selectorsHoleMap) {
- const bool log = false;
-
- // Don't do this on driverKit. The strings would go in to the liobjc __OBJC_RO segment, but there's no objc there
- if ( _options.platform == dyld3::Platform::driverKit )
- return;
-
- // Always add the magic selector first. It doesn't hurt to have it even if the arch we are on doesn't use it
- {
- // Get the method name coalesced section as that is where we need to put these strings
- CacheBuilder::CoalescedStringsSection& cacheStringSection = _objcCoalescedMethodNames;
-
- // Process the magic selector first, so that we know its the base of all other strings
- // This is used later for relative method lists
- constexpr std::string_view magicSelector = "\xf0\x9f\xa4\xaf";
- visitSelectorString(cacheStringSection, selectors, selectorsHoleMap, magicSelector.data());
- }
-
-
- if ( _archLayout->subCacheTextLimit != 0 ) {
- // Sub caches don't support coalesced strings for all sections. However, we have to copy the selector strings in libobjc
- // so that shared cache relative method lists can be offsets from libobjc's mach header
-
- // Get the method name coalesced section as that is where we need to put these strings
- CacheBuilder::CoalescedStringsSection& cacheMethodNameSection = _objcCoalescedMethodNames;
-
- for (DylibInfo& dylib : _sortedDylibs) {
- ::processSelectorStrings(_diagnostics, cacheMethodNameSection, selectors, selectorsHoleMap, dylib.input->mappedFile.mh);
- if ( _diagnostics.hasError() )
- return;
- }
-
- // Class/protocol names are also offsets. We need to copy them too
- CacheBuilder::CoalescedStringsSection& cacheClassNameSection = _objcCoalescedClassNames;
-
- for (DylibInfo& dylib : _sortedDylibs) {
- ::processClassNameStrings(_diagnostics, cacheClassNameSection, dylib.input->mappedFile.mh);
- if ( _diagnostics.hasError() )
- return;
- }
- }
-
- // FIXME: Coalesce strings within each subcache.
- // For now, we only support coalescing strings if the cache size is <= 2GB. Otherwise we don't know
- // if a signed 32-bit offset somewhere will overflow
- if ( _archLayout->subCacheTextLimit != 0 ) {
- if ( _archLayout->sharedMemorySize > 0x80000000ULL )
- return;
- }
-
- // For now, just disable walking even strings on small caches. We need to redo all of this for subcaches
- for (DylibInfo& dylib : _sortedDylibs) {
- // Setup the dylib coalescer sections to know we are tring to coalesce in to these cache sections
- dylib._coalescer.objcClassNames.subCacheSection = &_objcCoalescedClassNames;
- dylib._coalescer.objcMethNames.subCacheSection = &_objcCoalescedMethodNames;
- dylib._coalescer.objcMethTypes.subCacheSection = &_objcCoalescedMethodTypes;
- parseCoalescableText(dylib.input->mappedFile.mh, dylib._coalescer, selectors, selectorsHoleMap);
- }
-
- if (log) {
- for ( const auto* section : { &_objcCoalescedClassNames, &_objcCoalescedMethodNames, &_objcCoalescedMethodTypes } ) {
- printf("Coalesced %s from % 10lld -> % 10d, saving % 10lld bytes\n",
- section->sectionName.data(),
- section->bufferSize + section->savedSpace, section->bufferSize, section->savedSpace);
- }
- }
-}
-
-// Works out how many sub caches we need. And partitions dylibs in to them
-void SharedCacheBuilder::computeSubCaches()
-{
-
- uint64_t objcROSize = 0;
- uint64_t objcRWSize = 0;
- {
- // Calculate how much space we need for objc
- uint32_t totalSelectorRefCount = (uint32_t)_selectorStringsFromExecutables;
- uint32_t totalClassDefCount = 0;
- uint32_t totalProtocolDefCount = 0;
- for (DylibInfo& dylib : _sortedDylibs) {
- dyld3::MachOAnalyzer::ObjCInfo info = dylib.input->mappedFile.mh->getObjCInfo();
- totalSelectorRefCount += info.selRefCount;
- totalClassDefCount += info.classDefCount;
- totalProtocolDefCount += info.protocolDefCount;
- }
-
- // now that shared cache coalesces all selector strings, use that better count
- uint32_t coalescedSelectorCount = (uint32_t)_objcCoalescedMethodNames.stringsToOffsets.size();
- if ( coalescedSelectorCount > totalSelectorRefCount )
- totalSelectorRefCount = coalescedSelectorCount;
-
- objcROSize = align(computeReadOnlyObjC(totalSelectorRefCount, totalClassDefCount, totalProtocolDefCount), 14);
- objcRWSize = align(computeReadWriteObjC((uint32_t)_sortedDylibs.size(), totalProtocolDefCount), 14);
- }
-
- // Calculate how much space we need for Swift
- uint64_t swiftROSize = computeReadOnlySwift();
-
- // Coalsced strings also go in _OBJC_RO
- uint64_t coalescedStringsSize = 0;
- for ( const auto* section : { &_objcCoalescedClassNames, &_objcCoalescedMethodNames, &_objcCoalescedMethodTypes } ) {
- coalescedStringsSize += section->bufferSize;
- }
-
- const size_t dylibCount = _sortedDylibs.size();
- if ( _archLayout->subCacheTextLimit != 0 ) {
- // FIXME: This only counts __TEXT, on the assumption that __TEXT is always the largest segment in the dylibs
- __block uint64_t currentVMSize = 0;
- __block uint64_t currentTextVMSize = 0;
- uint64_t firstIndex = 0;
- uint64_t firstTextIndex = 0;
- for (uint64_t dylibIndex = 0; dylibIndex < dylibCount; ++dylibIndex) {
- const DylibInfo& dylib = _sortedDylibs[dylibIndex];
- __block uint64_t libVMSize = 0;
- dylib.input->mappedFile.mh->forEachSegment(^(const dyld3::MachOFile::SegmentInfo& segInfo, bool& stop) {
- if ( strcmp(segInfo.segName, "__TEXT") == 0 ) {
- // FIXME: Take in to account space saved from coalesced string sections
- currentVMSize += segInfo.vmSize;
- currentTextVMSize += segInfo.vmSize;
- libVMSize += segInfo.vmSize;
- stop = true;
- }
- });
-
- // __OBJC_RO gets all the hash tables and coalesced strings
- if ( !strcmp(dylib.input->mappedFile.mh->installName(), "/usr/lib/libobjc.A.dylib") ) {
- currentVMSize += objcROSize + swiftROSize + coalescedStringsSize;
- currentTextVMSize += objcROSize + swiftROSize + coalescedStringsSize;
- libVMSize += objcROSize + swiftROSize + coalescedStringsSize;
- }
-
- const uint64_t stubsLimit = _archLayout->subCacheStubsLimit;
- if ( stubsLimit != 0 && currentTextVMSize > stubsLimit ) {
- if ( _archLayout->cacheLayout == CacheLayout::Multi ) {
- // Make a cache for all dylibs up to (but not including this one) as this one
- // pushed us over the limit for stubs.
- SubCache& subCache = _subCaches.emplace_back();
- subCache._textFirstDylibIndex = firstTextIndex;
- subCache._textNumDylibs = dylibIndex - firstTextIndex;
-
- // Add the stubs subCache asssociated to the the TEXT subCache
- SubCache& stubsSubCache = _subCaches.emplace_back();
- stubsSubCache._textFirstDylibIndex = firstTextIndex;
- stubsSubCache._textNumDylibs = dylibIndex - firstTextIndex;
- stubsSubCache._isStubsSubCache = true;
- }
-
- // Move firstTextIndex to take account of this subCache we've computed
- firstTextIndex = dylibIndex;
- currentTextVMSize = libVMSize;
- }
-
- const uint64_t regionLimit = _archLayout->subCacheTextLimit;
- if ( currentVMSize > regionLimit ) {
- // Make a cache for all dylibs up to (but not including this one) as this one
- // pushed us over the limit
- if ( _archLayout->cacheLayout != CacheLayout::Multi || currentTextVMSize > 0) {
- // Make sure we haven't already just added a TEXT subCache
- SubCache& subCache = _subCaches.emplace_back();
- subCache._textFirstDylibIndex = firstTextIndex;
- subCache._textNumDylibs = dylibIndex - firstTextIndex;
- }
-
- // Add stubs, DATA, and LINKEDIT subCaches for the TEXT in multi-cache layout
- if ( _archLayout->cacheLayout == CacheLayout::Multi ) {
- if ( currentTextVMSize > 0 ) {
- // Make sure we haven't already just added a stubs subCache
- SubCache& stubsSubCache = _subCaches.emplace_back();
- stubsSubCache._textFirstDylibIndex = firstTextIndex;
- stubsSubCache._textNumDylibs = dylibIndex - firstTextIndex;
- stubsSubCache._isStubsSubCache = true;
- }
-
- SubCache& dataSubCache = _subCaches.emplace_back();
- dataSubCache._dataFirstDylibIndex = firstIndex;
- dataSubCache._dataNumDylibs = dylibIndex - firstIndex;
-
- if ( _archLayout->sharedMemorySize > 0x100000000ULL ) {
- // If the total cache size is under 4GB, then we can still use 32-bit LINKEDIT offsets. Then we should just use
- // a single LINKEDIT, not one per sub cache
- SubCache& linkeditSubCache = _subCaches.emplace_back();
- linkeditSubCache._linkeditFirstDylibIndex = firstIndex;
- linkeditSubCache._linkeditNumDylibs = dylibIndex - firstIndex;
- linkeditSubCache._addPaddingAfterText = false;
- linkeditSubCache._addPaddingAfterData = false;
- }
- }
- // Move firstIndex to take account of this subCache we've computed
- firstIndex = dylibIndex;
- firstTextIndex = firstIndex;
- currentVMSize = libVMSize;
- currentTextVMSize = currentVMSize;
- }
- }
-
- // There will always be a left over cache to add. Either it will be the only cache, if the size
- // never passed the limit, or we have the last few dylibs to add to a cache
- SubCache& subCache = _subCaches.emplace_back();
- subCache._textFirstDylibIndex = firstTextIndex;
- subCache._textNumDylibs = dylibCount - firstTextIndex;
-
- if (_archLayout->cacheLayout == CacheLayout::Multi) {
- // Add stubs sub cache for the TEXT sub cache
- SubCache& stubsSubCache = _subCaches.emplace_back();
- stubsSubCache._textFirstDylibIndex = firstTextIndex;
- stubsSubCache._textNumDylibs = dylibCount - firstTextIndex;
- stubsSubCache._isStubsSubCache = true;
-
- SubCache& dataSubCache = _subCaches.emplace_back();
- dataSubCache._dataFirstDylibIndex = firstIndex;
- dataSubCache._dataNumDylibs = dylibCount - firstIndex;
-
- SubCache& linkeditSubCache = _subCaches.emplace_back();
- // If the total cache size is under 4GB, then we can still use 32-bit LINKEDIT offsets. Then we use
- // a single LINKEDIT, not one per sub cache
- if ( _archLayout->sharedMemorySize > 0x100000000ULL ) {
- linkeditSubCache._linkeditFirstDylibIndex = firstIndex;
- linkeditSubCache._linkeditNumDylibs = dylibCount - firstIndex;
- } else {
- linkeditSubCache._linkeditFirstDylibIndex = 0;
- linkeditSubCache._linkeditNumDylibs = dylibCount;
- }
- linkeditSubCache._addPaddingAfterText = false;
- linkeditSubCache._addPaddingAfterData = false;
- }
- } else {
- // Just add a single subCache for everything
- SubCache& subCache = _subCaches.emplace_back();
- subCache._textFirstDylibIndex = 0;
- subCache._textNumDylibs = dylibCount;
- }
-
- // Some archs can't handle DATA and LINKEDIT in each file. Instead they need to put it in the last file so that
- // unoptimized LINKEDIT doesn't consume too much VM space.
- if ( (_archLayout->cacheLayout == CacheLayout::Split) ) {
- // DATA and LINKEDIT are only in the last subCaches, and so contain those segments for all dylibs
- // We don't want to append DATA and LINKEDIT to the last subCache TEXT. Instead create new subCaches
-
- // DATA
- SubCache& dataSubCache = _subCaches.emplace_back();
- dataSubCache._textFirstDylibIndex = 0;
- dataSubCache._textNumDylibs = 0;
- dataSubCache._dataFirstDylibIndex = 0;
- dataSubCache._dataNumDylibs = dylibCount;
- dataSubCache._linkeditFirstDylibIndex = 0;
- dataSubCache._linkeditNumDylibs = 0;
-
- SubCache& linkeditSubCache = _subCaches.emplace_back();
- linkeditSubCache._textFirstDylibIndex = 0;
- linkeditSubCache._textNumDylibs = 0;
- linkeditSubCache._dataFirstDylibIndex = 0;
- linkeditSubCache._dataNumDylibs = 0;
- linkeditSubCache._linkeditFirstDylibIndex = 0;
- linkeditSubCache._linkeditNumDylibs = dylibCount;
- // The end of the DATA subcache ended with LINKEDIT. The LINKEDIT cache starts with TEXT then more LINKEDIT
- // We don't need any padding in this last subcache, between any of those LINKEDIT -> TEXT(subcache header) -> LINKEDIT regions
- linkeditSubCache._addPaddingAfterText = false;
- linkeditSubCache._addPaddingAfterData = false;
- } else if ( _archLayout->cacheLayout == CacheLayout::Classic ) {
- // If the total cache size is under 4GB, then we can still use 32-bit LINKEDIT offsets. Then we should just use
- // a single LINKEDIT, not one per sub cache
- if ( _archLayout->sharedMemorySize <= 0x100000000ULL ) {
- // Each __DATA, __LINKEDIT just goes in the same cache and that dylib's text, so copy over the ranges
- for (SubCache& subCache : _subCaches) {
- subCache._dataFirstDylibIndex = subCache._textFirstDylibIndex;
- subCache._dataNumDylibs = subCache._textNumDylibs;
- subCache._linkeditFirstDylibIndex = 0;
- subCache._linkeditNumDylibs = 0;
- }
- SubCache& lastSubCache = _subCaches.back();
- lastSubCache._linkeditFirstDylibIndex = 0;
- lastSubCache._linkeditNumDylibs = dylibCount;
- } else {
- // Each __DATA, __LINKEDIT just goes in the same cache and that dylib's text, so copy over the ranges
- for (SubCache& subCache : _subCaches) {
- subCache._dataFirstDylibIndex = subCache._textFirstDylibIndex;
- subCache._dataNumDylibs = subCache._textNumDylibs;
- subCache._linkeditFirstDylibIndex = subCache._textFirstDylibIndex;
- subCache._linkeditNumDylibs = subCache._textNumDylibs;
- }
- }
- } else {
- // Multi-cache, do nothing. DATA and LINKEDIT have already been added in their own subCache, after their corresponding TEXT
- }
-
- // Assign ASLRTracker's to all dylibs
- for (SubCache& subCache : _subCaches) {
- // Skip subCache's which don't contain DATA
- if ( subCache._dataNumDylibs == 0 )
- continue;
-
- dyld3::Array<DylibInfo> cacheImages(_sortedDylibs.data(), _sortedDylibs.size(), _sortedDylibs.size());
- dyld3::Array<DylibInfo> subCacheImages = cacheImages.subArray(subCache._dataFirstDylibIndex, subCache._dataNumDylibs);
-
- for (DylibInfo& dylibInfo : subCacheImages)
- dylibInfo._aslrTracker = &subCache._aslrTracker;
- }
-
- // Assign coalescors to all subCaches/dylibs. These are currently for GOT combining
- {
- uint32_t numSubCachesWithData = 0;
- for (SubCache& subCache : _subCaches) {
- // Skip subCache's which don't contain DATA
- if ( subCache._dataNumDylibs == 0 )
- continue;
-
- ++numSubCachesWithData;
- }
-
- // Note, times 2 as we have got and auth_got
- _subCacheCoalescedGOTs.reserve(numSubCachesWithData * 2);
- for (SubCache& subCache : _subCaches) {
- // Skip subCache's which don't contain DATA
- if ( subCache._dataNumDylibs == 0 )
- continue;
-
- CoalescedGOTSection& coalescedGOTs = _subCacheCoalescedGOTs.emplace_back();
- subCache._coalescedGOTs = &coalescedGOTs;
-
- CoalescedGOTSection& coalescedAuthGOTs = _subCacheCoalescedGOTs.emplace_back();
- subCache._coalescedAuthGOTs = &coalescedAuthGOTs;
-
- dyld3::Array<DylibInfo> cacheImages(_sortedDylibs.data(), _sortedDylibs.size(), _sortedDylibs.size());
- dyld3::Array<DylibInfo> subCacheImages = cacheImages.subArray(subCache._dataFirstDylibIndex, subCache._dataNumDylibs);
-
- for (DylibInfo& dylibInfo : subCacheImages) {
- dylibInfo._coalescer.gots.subCacheSection = subCache._coalescedGOTs;
- dylibInfo._coalescer.auth_gots.subCacheSection = subCache._coalescedAuthGOTs;
- }
- }
- }
-
- // Work out which subCache contains RO/RW for libdyld and libobjc
- for (SubCache& subCache : _subCaches) {
- if ( subCache._isStubsSubCache )
- continue;
- dyld3::Array<DylibInfo> cacheImages(_sortedDylibs.data(), _sortedDylibs.size(), _sortedDylibs.size());
-
- dyld3::Array<DylibInfo> subCacheTextImages = cacheImages.subArray(subCache._textFirstDylibIndex, subCache._textNumDylibs);
- for (DylibInfo& dylib : subCacheTextImages) {
- const dyld3::MachOAnalyzer* ma = dylib.input->mappedFile.mh;
- if ( !strcmp(ma->installName(), "/usr/lib/libobjc.A.dylib") ) {
- dyld3::MachOAnalyzer::FoundSymbol foundInfo;
- if (ma->findExportedSymbol(_diagnostics, "_objc_opt_preopt_caches_version", false, foundInfo, nullptr)) {
- _impCachesBuilder->impCachesVersion = *(int*)((uint8_t*)ma + foundInfo.value);
- }
- _objcReadOnlyMetadataSubCache = &subCache;
- break;
- }
- }
-
- // Skip subCaches which don't contain DATA
- if ( subCache._dataNumDylibs == 0 )
- continue;
- dyld3::Array<DylibInfo> subCacheDataImages = cacheImages.subArray(subCache._dataFirstDylibIndex, subCache._dataNumDylibs);
- for (DylibInfo& dylib : subCacheDataImages) {
- if ( !strcmp(dylib.input->mappedFile.mh->installName(), "/usr/lib/libobjc.A.dylib") ) {
- _objcReadWriteMetadataSubCache = &subCache;
- }
- }
- }
-
- assignSegmentAddresses(objcROSize, objcRWSize, swiftROSize);
-}
-
-void SharedCacheBuilder::assignReadExecuteSegmentAddresses(SubCache& subCache, uint64_t& addr, uint64_t& cacheFileOffset,
- size_t startOffset, uint64_t objcROSize, uint64_t swiftROSize)
-{
- dyld3::Array<DylibInfo> cacheImages(_sortedDylibs.data(), _sortedDylibs.size(), _sortedDylibs.size());
- dyld3::Array<DylibInfo> subCacheImages = cacheImages.subArray(subCache._textFirstDylibIndex, subCache._textNumDylibs);
-
- bool isObjCSubCache = (&subCache == _objcReadOnlyMetadataSubCache);
-
- // assign TEXT segment addresses
- subCache._readExecuteRegion.buffer = (uint8_t*)_fullAllocatedBuffer + addr - _archLayout->sharedMemoryStart;
- subCache._readExecuteRegion.bufferSize = 0;
- subCache._readExecuteRegion.sizeInUse = 0;
- subCache._readExecuteRegion.unslidLoadAddress = addr;
- subCache._readExecuteRegion.cacheFileOffset = cacheFileOffset;
-
- addr += startOffset; // header
-
- if ( subCache._isStubsSubCache )
- subCache._stubsAddr = addr;
-
- for (DylibInfo& dylib : subCacheImages) {
- __block const dyld3::MachOAnalyzer* ma = dylib.input->mappedFile.mh;
-
- if ( subCache._isStubsSubCache ) {
- ma->forEachSection(^(const dyld3::MachOAnalyzer::SectionInfo §Info, bool malformedSectionRange, bool &stopSec) {
- unsigned sectionType = (sectInfo.sectFlags & SECTION_TYPE);
- if ( sectionType != S_SYMBOL_STUBS )
- return;
- addr += sectInfo.sectSize;
- });
- } else {
-
- __block uint64_t textSegVmAddr = 0;
- ma->forEachSegment(^(const dyld3::MachOFile::SegmentInfo& segInfo, bool& stop) {
- if ( strcmp(segInfo.segName, "__TEXT") == 0 )
- textSegVmAddr = segInfo.vmAddr;
- if ( segInfo.protections != (VM_PROT_READ | VM_PROT_EXECUTE) )
- return;
- // We may have coalesced the sections at the end of this segment. In that case, shrink the segment to remove them.
- __block size_t sizeOfSections = 0;
- __block bool foundCoalescedSection = false;
- dylib.input->mappedFile.mh->forEachSection(^(const dyld3::MachOAnalyzer::SectionInfo §Info, bool malformedSectionRange, bool &stopSection) {
- if (strcmp(sectInfo.segInfo.segName, segInfo.segName) != 0)
- return;
- if ( dylib._coalescer.sectionWasRemoved(segInfo.segName, sectInfo.sectName)) {
- foundCoalescedSection = true;
- } else {
- sizeOfSections = sectInfo.sectAddr + sectInfo.sectSize - segInfo.vmAddr;
- }
- });
- if (!foundCoalescedSection)
- sizeOfSections = segInfo.sizeOfSections;
-
- // Keep __TEXT segments 4K or more aligned
- addr = align(addr, std::max((int)segInfo.p2align, (int)12));
- uint64_t offsetInRegion = addr - subCache._readExecuteRegion.unslidLoadAddress;
- SegmentMappingInfo loc;
- loc.srcSegment = (uint8_t*)ma + segInfo.vmAddr - textSegVmAddr;
- loc.segName = segInfo.segName;
- loc.dstSegment = subCache._readExecuteRegion.buffer + offsetInRegion;
- loc.dstCacheUnslidAddress = addr;
- loc.dstCacheFileOffset = (uint32_t)offsetInRegion;
- loc.dstCacheSegmentSize = (uint32_t)align(sizeOfSections, 12);
- loc.dstCacheFileSize = (uint32_t)align(sizeOfSections, 12);
- loc.copySegmentSize = (uint32_t)sizeOfSections;
- loc.srcSegmentIndex = segInfo.segIndex;
- dylib.cacheLocation.push_back(loc);
- addr += loc.dstCacheSegmentSize;
- });
- }
- }
-
- if ( isObjCSubCache ) {
- assignObjCROAddress(subCache, addr, objcROSize);
- // HACK: Put Swift in the same file as objc for now. This can actually go in any file
- // so this one is as good as any other
- assignSwiftROAddress(subCache, addr, swiftROSize);
- }
-
- addr = align(addr, _archLayout->sharedRegionAlignP2);
-
- // align TEXT region end
- uint64_t endTextAddress = addr;
- subCache._readExecuteRegion.bufferSize = endTextAddress - subCache._readExecuteRegion.unslidLoadAddress;
- subCache._readExecuteRegion.sizeInUse = subCache._readExecuteRegion.bufferSize;
-
- // Add a development version of the read/execute region for this first cache and the stub caches
- if ( _archLayout->cacheLayout == CacheLayout::Multi && (subCache._isStubsSubCache || &subCache == &_subCaches.front()) )
- subCache._devReadExecuteRegion.emplace();
-
- cacheFileOffset += subCache._readExecuteRegion.sizeInUse;
-}
-
-void SharedCacheBuilder::assignObjCROAddress(SubCache& subCache, uint64_t& addr, uint64_t objcROSize)
-{
- // reserve space for objc optimization tables and deduped strings
- uint64_t objcReadOnlyBufferVMAddr = addr;
- _objcReadOnlyBuffer = subCache._readExecuteRegion.buffer + (addr - subCache._readExecuteRegion.unslidLoadAddress);
-
- // First the strings as we'll fill in the objc tables later in the optimizer
- for ( auto* coalescedSection : { &_objcCoalescedClassNames, &_objcCoalescedMethodNames, &_objcCoalescedMethodTypes }) {
- coalescedSection->bufferAddr = subCache._readExecuteRegion.buffer + (addr - subCache._readExecuteRegion.unslidLoadAddress);
- coalescedSection->bufferVMAddr = addr;
- addr += coalescedSection->bufferSize;
- }
-
- addr = align(addr, 14);
- _objcReadOnlyBufferSizeUsed = addr - objcReadOnlyBufferVMAddr;
-
- addr += objcROSize;
-
- size_t impCachesSize = _impCachesBuilder->totalIMPCachesSize();
- size_t alignedImpCachesSize = align(impCachesSize, 14);
- _diagnostics.verbose("Reserving %zd bytes for IMP caches (aligned to %zd)\n", impCachesSize, alignedImpCachesSize);
- addr += alignedImpCachesSize;
-
- _objcReadOnlyBufferSizeAllocated = addr - objcReadOnlyBufferVMAddr;
-}
-
-void SharedCacheBuilder::assignSwiftROAddress(SubCache &subCache, uint64_t &addr, uint64_t swiftROSize)
-{
- // reserve space for Swift optimization tables
- uint64_t swiftReadOnlyBufferVMAddr = addr;
- _swiftReadOnlyBuffer = subCache._readExecuteRegion.buffer + (addr - subCache._readExecuteRegion.unslidLoadAddress);
-
- // Calculate how much space Swift needs
- _diagnostics.verbose("Reserving %lld bytes for read-only Swift\n", swiftROSize);
- addr += swiftROSize;
-
- addr = align(addr, 14);
- _swiftReadOnlyBufferSizeAllocated = addr - swiftReadOnlyBufferVMAddr;
-}
-
-// This is the new method which will put all __DATA* mappings in to a their own mappings
-void SharedCacheBuilder::assignDataSegmentAddresses(SubCache& subCache,
- uint64_t& addr, uint64_t& cacheFileOffset,
- uint64_t objcRWSize)
-{
- // Skip subCache's which don't contain DATA
- if ( subCache._dataNumDylibs == 0 )
- return;
-
- bool isObjCSubCache = (&subCache == _objcReadWriteMetadataSubCache);
-
- dyld3::Array<DylibInfo> cacheImages(_sortedDylibs.data(), _sortedDylibs.size(), _sortedDylibs.size());
- dyld3::Array<DylibInfo> subCacheImages = cacheImages.subArray(subCache._dataFirstDylibIndex, subCache._dataNumDylibs);
- __block dyld3::Array<DylibInfo>* subCacheImagesBlockPointer = &subCacheImages;
-
- uint64_t nextRegionFileOffset = cacheFileOffset;
-
- const size_t dylibCount = subCache._dataNumDylibs;
- BLOCK_ACCCESSIBLE_ARRAY(uint32_t, dirtyDataSortIndexes, dylibCount);
- for (size_t i=0; i < dylibCount; ++i)
- dirtyDataSortIndexes[i] = (uint32_t)i;
- std::sort(&dirtyDataSortIndexes[0], &dirtyDataSortIndexes[dylibCount], [&](const uint32_t& a, const uint32_t& b) {
- const auto& orderA = _options.dirtyDataSegmentOrdering.find(subCacheImages[a].input->mappedFile.runtimePath);
- const auto& orderB = _options.dirtyDataSegmentOrdering.find(subCacheImages[b].input->mappedFile.runtimePath);
- bool foundA = (orderA != _options.dirtyDataSegmentOrdering.end());
- bool foundB = (orderB != _options.dirtyDataSegmentOrdering.end());
-
- // Order all __DATA_DIRTY segments specified in the order file first, in the order specified in the file,
- // followed by any other __DATA_DIRTY segments in lexicographic order.
- if ( foundA && foundB )
- return orderA->second < orderB->second;
- else if ( foundA )
- return true;
- else if ( foundB )
- return false;
- else
- return subCacheImages[a].input->mappedFile.runtimePath < subCacheImages[b].input->mappedFile.runtimePath;
- });
-
- bool supportsAuthFixups = false;
-
- // This tracks which segments contain authenticated data, even if their name isn't __AUTH*
- std::set<uint32_t> authenticatedSegments[dylibCount];
- if ( strcmp(_archLayout->archName, "arm64e") == 0 ) {
- supportsAuthFixups = true;
-
- for (DylibInfo& dylib : subCacheImages) {
- uint64_t dylibIndex = subCacheImages.index(dylib);
- __block std::set<uint32_t>& authSegmentIndices = authenticatedSegments[dylibIndex];
- // Put all __DATA_DIRTY segments in the __AUTH region first, then we don't need to walk their chains
- dylib.input->mappedFile.mh->forEachSegment(^(const dyld3::MachOFile::SegmentInfo& segInfo, bool& stop) {
- if ( strcmp(segInfo.segName, "__DATA_DIRTY") == 0 ) {
- authSegmentIndices.insert(segInfo.segIndex);
- stop = true;
- }
- });
- dylib.input->mappedFile.mh->withChainStarts(_diagnostics, 0,
- ^(const dyld_chained_starts_in_image *starts) {
- dylib.input->mappedFile.mh->forEachFixupChainSegment(_diagnostics, starts,
- ^(const dyld_chained_starts_in_segment* segmentInfo, uint32_t segIndex, bool& stopSegment) {
- // Skip walking segments we already know are __AUTH, ie, __DATA_DIRTY
- if ( authSegmentIndices.count(segIndex) )
- return;
-
- dylib.input->mappedFile.mh->forEachFixupInSegmentChains(_diagnostics, segmentInfo, false,
- ^(dyld3::MachOLoaded::ChainedFixupPointerOnDisk* fixupLoc, const dyld_chained_starts_in_segment* segInfo, bool& stopChain) {
- uint16_t chainedFixupsFormat = segInfo->pointer_format;
- assert( (chainedFixupsFormat == DYLD_CHAINED_PTR_ARM64E) || (chainedFixupsFormat == DYLD_CHAINED_PTR_ARM64E_USERLAND) || (chainedFixupsFormat == DYLD_CHAINED_PTR_ARM64E_USERLAND24) );
-
- if ( fixupLoc->arm64e.authRebase.auth ) {
- authSegmentIndices.insert(segIndex);
- stopChain = true;
- return;
- }
- });
- });
- });
- }
- }
-
- // Categorize each segment in each binary
- enum class SegmentType : uint8_t {
- skip, // used for non-data segments we should ignore here
- data,
- dataDirty,
- dataConst,
- dataConstWorkarounds, // temporary. Used for dylibs with bad __DATA_CONST
- auth,
- authDirty,
- authConst,
- authConstWorkarounds, // temporary. Used for dylibs with bad __AUTH_CONST
- };
-
- BLOCK_ACCCESSIBLE_ARRAY(uint64_t, textSegVmAddrs, dylibCount);
- BLOCK_ACCCESSIBLE_ARRAY(std::vector<SegmentType>, segmentTypes, dylibCount);
-
- // Just in case __AUTH is used in a non-arm64e binary, we can force it to use data enums
- SegmentType authSegment = supportsAuthFixups ? SegmentType::auth : SegmentType::data;
- SegmentType authConstSegment = supportsAuthFixups ? SegmentType::authConst : SegmentType::dataConst;
- SegmentType authConstWorkaroundSegment = supportsAuthFixups ? SegmentType::authConstWorkarounds : SegmentType::dataConstWorkarounds;
-
- for (const DylibInfo& dylib : subCacheImages) {
- uint64_t dylibIndex = subCacheImages.index(dylib);
- __block std::set<uint32_t>& authSegmentIndices = authenticatedSegments[dylibIndex];
- __block std::vector<SegmentType>& dylibSegmentTypes = segmentTypes[dylibIndex];
- uint64_t &textSegVmAddr = textSegVmAddrs[dylibIndex];
- dylib.input->mappedFile.mh->forEachSegment(^(const dyld3::MachOFile::SegmentInfo& segInfo, bool& stop) {
- if ( strcmp(segInfo.segName, "__TEXT") == 0 ) {
- textSegVmAddr = segInfo.vmAddr;
- }
-
- // Skip non-DATA segments
- if ( segInfo.protections != (VM_PROT_READ | VM_PROT_WRITE) ) {
- dylibSegmentTypes.push_back(SegmentType::skip);
- return;
- }
-
- // If we don't have split seg v2, then all remaining segments must look like __DATA so that they
- // stay contiguous
- if (!dylib.input->mappedFile.mh->isSplitSegV2()) {
- dylibSegmentTypes.push_back(SegmentType::data);
- return;
- }
-
- __block bool supportsDataConst = true;
- if ( dylib.input->mappedFile.mh->hasSwift() ) {
- uint64_t objcConstSize = 0;
- bool containsObjCSection = dylib.input->mappedFile.mh->findSectionContent(segInfo.segName, "__objc_const", objcConstSize);
-
- // <rdar://problem/66284631> Don't put __objc_const read-only memory as Swift has method lists we can't see
- if ( containsObjCSection )
- supportsDataConst = false;
- } else if ( !strcmp(dylib.input->mappedFile.mh->installName(), "/usr/lib/libcrypto.0.9.7.dylib") ||
- !strcmp(dylib.input->mappedFile.mh->installName(), "/usr/lib/libcrypto.0.9.8.dylib") ) {
- // rdar://77149283 libcrypto.0.9.8.dylib writes to __DATA_CONST
- supportsDataConst = false;
- }
-
- // Don't use data const for dylibs containing resolver functions. This will be fixed in ld64 by moving their pointer atoms to __DATA
- if ( supportsDataConst && endsWith(segInfo.segName, "_CONST") ) {
- dylib.input->mappedFile.mh->forEachExportedSymbol(_diagnostics,
- ^(const char* symbolName, uint64_t imageOffset, uint64_t flags, uint64_t other, const char* importName, bool& expStop) {
- if ( (flags & EXPORT_SYMBOL_FLAGS_STUB_AND_RESOLVER ) != 0 ) {
- _diagnostics.verbose("%s: preventing use of __DATA_CONST due to resolvers\n", dylib.dylibID.c_str());
- supportsDataConst = false;
- expStop = true;
- }
- });
- }
-
- // If we are still allowed to use __DATA_CONST, then make sure that we are not using pointer based method lists. These may not be written in libobjc due
- // to uniquing or sorting (as those are done in the builder), but clients can still call setIMP to mutate them.
- if ( supportsDataConst && endsWith(segInfo.segName, "_CONST") ) {
- uint64_t segStartVMAddr = segInfo.vmAddr;
- uint64_t segEndVMAddr = segInfo.vmAddr + segInfo.vmSize;
-
- auto vmAddrConverter = dylib.input->mappedFile.mh->makeVMAddrConverter(false);
- const uint32_t pointerSize = dylib.input->mappedFile.mh->pointerSize();
- const uint64_t loadAddress = dylib.input->mappedFile.mh->preferredLoadAddress();
-
- __block bool foundPointerBasedMethodList = false;
- auto visitMethodList = ^(uint64_t methodListVMAddr) {
- if ( foundPointerBasedMethodList )
- return;
- if ( methodListVMAddr == 0 )
- return;
- // Ignore method lists in other segments
- if ( (methodListVMAddr < segStartVMAddr) || (methodListVMAddr >= segEndVMAddr) )
- return;
- uint64_t methodListRuntimeOffset = methodListVMAddr - loadAddress;
- bool isRelativeMethodList = dylib.input->mappedFile.mh->objcMethodListIsRelative(methodListRuntimeOffset);
- if ( !isRelativeMethodList )
- foundPointerBasedMethodList = true;
- };
-
- auto visitClass = ^(uint64_t classVMAddr,
- uint64_t classSuperclassVMAddr, uint64_t classDataVMAddr,
- const dyld3::MachOAnalyzer::ObjCClassInfo& objcClass, bool isMetaClass,
- bool& stopClass) {
- visitMethodList(objcClass.baseMethodsVMAddr(pointerSize));
- };
-
- auto visitCategory = ^(uint64_t categoryVMAddr,
- const dyld3::MachOAnalyzer::ObjCCategory& objcCategory,
- bool& stopCategory) {
- visitMethodList(objcCategory.instanceMethodsVMAddr);
- visitMethodList(objcCategory.classMethodsVMAddr);
- };
-
- // Walk the class list
- Diagnostics classDiag;
- dylib.input->mappedFile.mh->forEachObjCClass(classDiag, vmAddrConverter, visitClass);
-
- // Walk the category list
- Diagnostics categoryDiag;
- dylib.input->mappedFile.mh->forEachObjCCategory(categoryDiag, vmAddrConverter, visitCategory);
-
- // Note we don't walk protocols as they don't have an IMP to set
-
- if ( foundPointerBasedMethodList ) {
- _diagnostics.verbose("%s: preventing use of read-only %s due to pointer based method list\n", dylib.dylibID.c_str(), segInfo.segName);
- supportsDataConst = false;
- }
- }
-
- // __AUTH_CONST
- if ( strcmp(segInfo.segName, "__AUTH_CONST") == 0 ) {
- dylibSegmentTypes.push_back(supportsDataConst ? authConstSegment : authConstWorkaroundSegment);
- return;
- }
-
- // __DATA_CONST
- if ( (strcmp(segInfo.segName, "__DATA_CONST") == 0) || (strcmp(segInfo.segName, "__OBJC_CONST") == 0) ) {
- if ( authSegmentIndices.count(segInfo.segIndex) ) {
- // _diagnostics.verbose("%s: treating authenticated %s as __AUTH_CONST\n", dylib.dylibID.c_str(), segInfo.segName);
- dylibSegmentTypes.push_back(supportsDataConst ? SegmentType::authConst : SegmentType::authConstWorkarounds);
- } else {
- dylibSegmentTypes.push_back(supportsDataConst ? SegmentType::dataConst : SegmentType::dataConstWorkarounds);
- }
- return;
- }
-
- // __DATA_DIRTY
- if ( strcmp(segInfo.segName, "__DATA_DIRTY") == 0 ) {
- if ( authSegmentIndices.count(segInfo.segIndex) ) {
- dylibSegmentTypes.push_back(SegmentType::authDirty);
- } else {
- dylibSegmentTypes.push_back(SegmentType::dataDirty);
- }
- return;
- }
-
- // __AUTH
- if ( strcmp(segInfo.segName, "__AUTH") == 0 ) {
- dylibSegmentTypes.push_back(authSegment);
- return;
- }
-
- // DATA
- if ( authSegmentIndices.count(segInfo.segIndex) ) {
- // _diagnostics.verbose("%s: treating authenticated %s as __AUTH\n", dylib.dylibID.c_str(), segInfo.segName);
- dylibSegmentTypes.push_back(SegmentType::auth);
- } else {
- dylibSegmentTypes.push_back(SegmentType::data);
- }
- });
- }
-
- auto processDylibSegments = ^(SegmentType onlyType, Region& region) {
- for (size_t unsortedDylibIndex = 0; unsortedDylibIndex != dylibCount; ++unsortedDylibIndex) {
- size_t dylibIndex = unsortedDylibIndex;
- if ( (onlyType == SegmentType::dataDirty) || (onlyType == SegmentType::authDirty) )
- dylibIndex = dirtyDataSortIndexes[dylibIndex];
-
- DylibInfo& dylib = (*subCacheImagesBlockPointer)[dylibIndex];
- const std::vector<SegmentType>& dylibSegmentTypes = segmentTypes[dylibIndex];
- const uint64_t textSegVmAddr = textSegVmAddrs[dylibIndex];
- bool forcePageAlignedData = false;
- if ( (_options.platform == dyld3::Platform::macOS) && (onlyType == SegmentType::data) ) {
- forcePageAlignedData = dylib.input->mappedFile.mh->hasUnalignedPointerFixups();
- //if ( forcePageAlignedData )
- // warning("unaligned pointer in %s\n", dylib.input->mappedFile.runtimePath.c_str());
- }
-
- dylib.input->mappedFile.mh->forEachSegment(^(const dyld3::MachOFile::SegmentInfo& segInfo, bool& stop) {
- if ( dylibSegmentTypes[segInfo.segIndex] != onlyType )
- return;
-
- // We may have coalesced the sections at the end of this segment. In that case, shrink the segment to remove them.
- __block size_t sizeOfSections = 0;
- __block bool foundCoalescedSection = false;
- dylib.input->mappedFile.mh->forEachSection(^(const dyld3::MachOAnalyzer::SectionInfo §Info, bool malformedSectionRange, bool &stopSection) {
- if (strcmp(sectInfo.segInfo.segName, segInfo.segName) != 0)
- return;
- if ( dylib._coalescer.sectionWasRemoved(segInfo.segName, sectInfo.sectName)) {
- foundCoalescedSection = true;
- } else {
- sizeOfSections = sectInfo.sectAddr + sectInfo.sectSize - segInfo.vmAddr;
- }
- });
- if (!foundCoalescedSection)
- sizeOfSections = segInfo.sizeOfSections;
-
- if ( !forcePageAlignedData ) {
- // Pack __DATA segments
- addr = align(addr, segInfo.p2align);
- }
- else {
- // Keep __DATA segments 4K or more aligned
- addr = align(addr, std::max((int)segInfo.p2align, (int)12));
- }
-
- size_t copySize = std::min((size_t)segInfo.fileSize, (size_t)sizeOfSections);
- uint64_t offsetInRegion = addr - region.unslidLoadAddress;
- SegmentMappingInfo loc;
- loc.srcSegment = (uint8_t*)dylib.input->mappedFile.mh + segInfo.vmAddr - textSegVmAddr;
- loc.segName = segInfo.segName;
- loc.dstSegment = region.buffer + offsetInRegion;
- loc.dstCacheUnslidAddress = addr;
- loc.dstCacheFileOffset = (uint32_t)(region.cacheFileOffset + offsetInRegion);
- loc.dstCacheSegmentSize = (uint32_t)sizeOfSections;
- loc.dstCacheFileSize = (uint32_t)copySize;
- loc.copySegmentSize = (uint32_t)copySize;
- loc.srcSegmentIndex = segInfo.segIndex;
- dylib.cacheLocation.push_back(loc);
- addr += loc.dstCacheSegmentSize;
- });
- }
-
- // align region end
- addr = align(addr, _archLayout->sharedRegionAlignP2);
- };
-
- struct DataRegion {
- const char* regionName;
- SegmentType dataSegment;
- std::optional<SegmentType> dirtySegment;
- // Note this is temporary as once all platforms/archs support __DATA_CONST, we can move to a DataRegion just for CONST
- std::optional<SegmentType> dataConstSegment;
- bool addObjCRW;
- bool addGOTs;
- bool addAuthGOTs;
- };
- std::vector<DataRegion> dataRegions;
-
- bool addObjCRWToData = isObjCSubCache && !supportsAuthFixups;
- bool addObjCRWToAuth = isObjCSubCache && supportsAuthFixups;
-
- DataRegion dataWriteRegion = { "__DATA", SegmentType::data, SegmentType::dataDirty, SegmentType::dataConstWorkarounds, addObjCRWToData, false, false };
- DataRegion dataConstRegion = { "__DATA_CONST", SegmentType::dataConst, {}, {}, false, true, false };
- DataRegion authWriteRegion = { "__AUTH", SegmentType::auth, SegmentType::authDirty, SegmentType::authConstWorkarounds, addObjCRWToAuth, false, false };
- DataRegion authConstRegion = { "__AUTH_CONST", SegmentType::authConst, {}, {}, false, false, true, };
- dataRegions.push_back(dataConstRegion);
- dataRegions.push_back(dataWriteRegion);
- if ( supportsAuthFixups ) {
- dataRegions.push_back(authWriteRegion);
- dataRegions.push_back(authConstRegion);
- }
-
- for (DataRegion& dataRegion : dataRegions)
- {
- // We only need padding before __DATA
- if ( !strcmp(_archLayout->archName, "arm64") || !strcmp(_archLayout->archName, "arm64e") || !strcmp(_archLayout->archName, "sim-arm64") ) {
- if (strcmp(dataRegion.regionName, "__DATA") == 0) {
- addr = align((addr + _archLayout->sharedRegionPadding), _archLayout->sharedRegionAlignP2);
- }
- }
-
- Region region;
- region.buffer = (uint8_t*)_fullAllocatedBuffer + addr - _archLayout->sharedMemoryStart;
- region.bufferSize = 0;
- region.sizeInUse = 0;
- region.unslidLoadAddress = addr;
- region.cacheFileOffset = nextRegionFileOffset;
- region.name = dataRegion.regionName;
- region.initProt = endsWith(dataRegion.regionName, "_CONST") ? VM_PROT_READ : (VM_PROT_READ | VM_PROT_WRITE);
- region.maxProt = VM_PROT_READ | VM_PROT_WRITE;
-
- // layout all __DATA_DIRTY segments, sorted (FIXME)
- if (dataRegion.dirtySegment.has_value()) {
- processDylibSegments(*dataRegion.dirtySegment, region);
- }
-
- processDylibSegments(dataRegion.dataSegment, region);
-
- // When __DATA_CONST is not its own DataRegion, we fold it in to the __DATA DataRegion
- if (dataRegion.dataConstSegment.has_value())
- processDylibSegments(*dataRegion.dataConstSegment, region);
-
- if ( dataRegion.addGOTs && (subCache._coalescedGOTs != nullptr)
- && (subCache._coalescedGOTs->bufferSize != 0) ) {
- // reserve space for combined GOTs
- addr = align(addr, 3); // GOT section contains pointer and must be at least pointer aligned
- uint64_t offsetInRegion = addr - region.unslidLoadAddress;
-
- subCache._coalescedGOTs->bufferAddr = region.buffer + offsetInRegion;
- subCache._coalescedGOTs->bufferVMAddr = addr;
- addr += subCache._coalescedGOTs->bufferSize;
- }
-
- if ( dataRegion.addAuthGOTs && (subCache._coalescedAuthGOTs != nullptr)
- && (subCache._coalescedAuthGOTs->bufferSize != 0) ) {
- // reserve space for combined GOTs
- addr = align(addr, 3); // GOT section contains pointer and must be at least pointer aligned
- uint64_t offsetInRegion = addr - region.unslidLoadAddress;
-
- subCache._coalescedAuthGOTs->bufferAddr = region.buffer + offsetInRegion;
- subCache._coalescedAuthGOTs->bufferVMAddr = addr;
- addr += subCache._coalescedAuthGOTs->bufferSize;
- }
-
- if ( dataRegion.addObjCRW ) {
- // reserve space for objc r/w optimization tables
- _objcReadWriteBufferSizeAllocated = objcRWSize;
- addr = align(addr, 4); // objc r/w section contains pointer and must be at least pointer align
- _objcReadWriteBuffer = region.buffer + (addr - region.unslidLoadAddress);
- _objcReadWriteFileOffset = (uint32_t)((_objcReadWriteBuffer - region.buffer) + region.cacheFileOffset);
- addr += _objcReadWriteBufferSizeAllocated;
- }
-
- // align region end
- addr = align(addr, _archLayout->sharedRegionAlignP2);
-
- // align DATA region end
- uint64_t endDataAddress = addr;
- region.bufferSize = endDataAddress - region.unslidLoadAddress;
- region.sizeInUse = region.bufferSize;
-
- if ( region.sizeInUse > 0 ) {
- subCache._dataRegions.push_back(region);
- }
- nextRegionFileOffset = region.cacheFileOffset + region.sizeInUse;
- }
-
- // Sanity check that we didn't put the same segment in 2 different ranges
- for (DylibInfo& dylib : subCacheImages) {
- std::unordered_set<uint64_t> seenSegmentIndices;
- for (SegmentMappingInfo& segmentInfo : dylib.cacheLocation) {
- if ( seenSegmentIndices.count(segmentInfo.srcSegmentIndex) != 0 ) {
- _diagnostics.error("%s segment %s was duplicated in layout",
- dylib.input->mappedFile.mh->installName(), segmentInfo.segName);
- return;
- }
- seenSegmentIndices.insert(segmentInfo.srcSegmentIndex);
- }
- }
-
- cacheFileOffset = subCache.lastDataRegion()->cacheFileOffset + subCache.lastDataRegion()->sizeInUse;
-}
-
-void SharedCacheBuilder::assignReadOnlySegmentAddresses(SubCache& subCache, uint64_t& addr, uint64_t& cacheFileOffset)
-{
- // Skip subCache's which don't contain DATA or LINKEDIT
- if ( (subCache._linkeditNumDylibs == 0) && (subCache._dataNumDylibs == 0) )
- return;
-
- dyld3::Array<DylibInfo> cacheImages(_sortedDylibs.data(), _sortedDylibs.size(), _sortedDylibs.size());
- dyld3::Array<DylibInfo> subCacheImages = cacheImages.subArray(subCache._linkeditFirstDylibIndex, subCache._linkeditNumDylibs);
-
- Region& readOnlyRegion = subCache._readOnlyRegion.emplace();
-
- // start read-only region
- readOnlyRegion.buffer = (uint8_t*)_fullAllocatedBuffer + addr - _archLayout->sharedMemoryStart;
- readOnlyRegion.bufferSize = 0;
- readOnlyRegion.sizeInUse = 0;
- readOnlyRegion.unslidLoadAddress = addr;
- readOnlyRegion.cacheFileOffset = cacheFileOffset;
-
- // reserve space for kernel ASLR slide info at start of r/o region
- if ( _options.cacheSupportsASLR ) {
- size_t slideInfoSize = sizeof(dyld_cache_slide_info);
- slideInfoSize = std::max(slideInfoSize, sizeof(dyld_cache_slide_info2));
- slideInfoSize = std::max(slideInfoSize, sizeof(dyld_cache_slide_info3));
- slideInfoSize = std::max(slideInfoSize, sizeof(dyld_cache_slide_info4));
- slideInfoSize = std::max(slideInfoSize, sizeof(dyld_cache_slide_info5));
- // We need one slide info header per data region, plus enough space for that regions pages
- // Each region will also be padded to a page-size so that the kernel can wire it.
- for (Region& region : subCache._dataRegions) {
- uint64_t offsetInRegion = addr - readOnlyRegion.unslidLoadAddress;
- region.slideInfoBuffer = readOnlyRegion.buffer + offsetInRegion;
- region.slideInfoBufferSizeAllocated = align(slideInfoSize + (region.sizeInUse/4096) * _archLayout->slideInfoBytesPerPage + 0x4000, _archLayout->sharedRegionAlignP2);
- region.slideInfoFileOffset = readOnlyRegion.cacheFileOffset + offsetInRegion;
- addr += region.slideInfoBufferSizeAllocated;
- }
-
- addr = align(addr, 14);
- }
-
- // Only scan dylibs if we have LINKEDIT for them
- if ( subCache._linkeditNumDylibs != 0 ) {
-
- // layout all read-only (but not LINKEDIT) segments
- for (DylibInfo& dylib : subCacheImages) {
- __block uint64_t textSegVmAddr = 0;
- dylib.input->mappedFile.mh->forEachSegment(^(const dyld3::MachOFile::SegmentInfo& segInfo, bool& stop) {
- if ( strcmp(segInfo.segName, "__TEXT") == 0 )
- textSegVmAddr = segInfo.vmAddr;
- if ( segInfo.protections != VM_PROT_READ )
- return;
- if ( strcmp(segInfo.segName, "__LINKEDIT") == 0 )
- return;
-
- // Keep segments segments 4K or more aligned
- addr = align(addr, std::max((int)segInfo.p2align, (int)12));
- uint64_t offsetInRegion = addr - readOnlyRegion.unslidLoadAddress;
- SegmentMappingInfo loc;
- loc.srcSegment = (uint8_t*)dylib.input->mappedFile.mh + segInfo.vmAddr - textSegVmAddr;
- loc.segName = segInfo.segName;
- loc.dstSegment = readOnlyRegion.buffer + offsetInRegion;
- loc.dstCacheUnslidAddress = addr;
- loc.dstCacheFileOffset = (uint32_t)(readOnlyRegion.cacheFileOffset + offsetInRegion);
- loc.dstCacheSegmentSize = (uint32_t)align(segInfo.sizeOfSections, 12);
- loc.dstCacheFileSize = (uint32_t)segInfo.sizeOfSections;
- loc.copySegmentSize = (uint32_t)segInfo.sizeOfSections;
- loc.srcSegmentIndex = segInfo.segIndex;
- dylib.cacheLocation.push_back(loc);
- addr += loc.dstCacheSegmentSize;
- });
- }
-
- // layout all LINKEDIT segments (after other read-only segments), aligned to 16KB
- addr = align(addr, 14);
- subCache._nonLinkEditReadOnlySize = addr - readOnlyRegion.unslidLoadAddress;
- for (DylibInfo& dylib : subCacheImages) {
- __block uint64_t textSegVmAddr = 0;
- dylib.input->mappedFile.mh->forEachSegment(^(const dyld3::MachOFile::SegmentInfo& segInfo, bool& stop) {
- if ( strcmp(segInfo.segName, "__TEXT") == 0 )
- textSegVmAddr = segInfo.vmAddr;
- if ( segInfo.protections != VM_PROT_READ )
- return;
- if ( strcmp(segInfo.segName, "__LINKEDIT") != 0 )
- return;
- // Keep segments segments 4K or more aligned
- addr = align(addr, std::max((int)segInfo.p2align, (int)12));
- size_t copySize = std::min((size_t)segInfo.fileSize, (size_t)segInfo.sizeOfSections);
- uint64_t offsetInRegion = addr - readOnlyRegion.unslidLoadAddress;
- SegmentMappingInfo loc;
- loc.srcSegment = (uint8_t*)dylib.input->mappedFile.mh + segInfo.vmAddr - textSegVmAddr;
- loc.segName = segInfo.segName;
- loc.dstSegment = readOnlyRegion.buffer + offsetInRegion;
- loc.dstCacheUnslidAddress = addr;
- loc.dstCacheFileOffset = (uint32_t)(readOnlyRegion.cacheFileOffset + offsetInRegion);
- loc.dstCacheSegmentSize = (uint32_t)align(segInfo.sizeOfSections, 12);
- loc.dstCacheFileSize = (uint32_t)copySize;
- loc.copySegmentSize = (uint32_t)copySize;
- loc.srcSegmentIndex = segInfo.segIndex;
- dylib.cacheLocation.push_back(loc);
- addr += loc.dstCacheSegmentSize;
- });
- }
-
- // Add some more padding. No idea why
- addr += 0x100000;
- }
-
- // align r/o region end
- addr = align(addr, _archLayout->sharedRegionAlignP2);
-
- uint64_t endReadOnlyAddress = addr;
- readOnlyRegion.bufferSize = endReadOnlyAddress - readOnlyRegion.unslidLoadAddress;
- readOnlyRegion.sizeInUse = readOnlyRegion.bufferSize;
-
- cacheFileOffset += readOnlyRegion.sizeInUse;
-}
-
-void SharedCacheBuilder::assignSegmentAddresses(uint64_t objcROSize, uint64_t objcRWSize, uint64_t swiftROSize)
-{
- // Now that we have subcaches, parse the GOTs within each subcache.
- parseGOTs();
-
- uint64_t addr = _archLayout->sharedMemoryStart;
- bool firstSubCache = true;
- for (SubCache& subCache : _subCaches) {
- // calculate size of header info and where first dylib's mach_header should start
- size_t startOffset = sizeof(dyld_cache_header) + DyldSharedCache::MaxMappings * sizeof(dyld_cache_mapping_info);
- startOffset += DyldSharedCache::MaxMappings * sizeof(dyld_cache_mapping_and_slide_info);
- startOffset += sizeof(dyld_cache_image_info) * _sortedDylibs.size();
- startOffset += sizeof(dyld_cache_image_text_info) * _sortedDylibs.size();
- if ( firstSubCache ) {
- startOffset += sizeof(dyld_subcache_entry) * _subCaches.size();
- firstSubCache = false;
- }
- for (const DylibInfo& dylib : _sortedDylibs) {
- startOffset += (strlen(dylib.input->mappedFile.mh->installName()) + 1);
- }
-
- //fprintf(stderr, "%s total header size = 0x%08lX\n", _options.archName.c_str(), startOffset);
- startOffset = align(startOffset, 12);
-
- uint64_t cacheFileOffset = 0;
-
- // __TEXT
- assignReadExecuteSegmentAddresses(subCache, addr, cacheFileOffset, startOffset, objcROSize, swiftROSize);
-
- // If we are using split caches or multi-cache, and there's no DATA or LINKEDIT in this cache, then jump straight to the
- // next cache file, without aligning the address. That allows the next cache's __TEXT to be mapped in immediately
- // after this cache, with no gap for page tables.
- // TODO: Double check with the VM team that N __TEXT regions mapped contiguously can share page tables
- if ( (subCache._dataNumDylibs == 0) && (subCache._linkeditNumDylibs == 0) )
- continue;
-
- // __DATA
- if ( _archLayout->sharedRegionsAreDiscontiguous ) {
- // x86 simulators don't use subCaches. Use the layout we know we can back-deploy
- if ( _options.forSimulator || startsWith(_archLayout->archName, "small-") ) {
- addr = SIM_DISCONTIGUOUS_RW;
- } else {
- assert(subCache._readExecuteRegion.bufferSize <= DISCONTIGUOUS_REGION_SIZE);
- addr = subCache._readExecuteRegion.unslidLoadAddress + DISCONTIGUOUS_REGION_SIZE;
- }
- } else if ( subCache._addPaddingAfterText ) {
- // In split caches, we split the DATA/LINKEDIT cache file. But the DATA file still needs a
- // piece of LINKEDIT at the end for slide info. In the subsequent subcache file, we are only storing
- // LINKEDIT, and so we don't want to align again.
- addr = align((addr + _archLayout->sharedRegionPadding), _archLayout->sharedRegionAlignP2);
- }
- assignDataSegmentAddresses(subCache, addr, cacheFileOffset, objcRWSize);
-
- // LINKEDIT
- if ( _archLayout->sharedRegionsAreDiscontiguous ) {
- // x86 simulators don't use subCaches. Use the layout we know we can back-deploy
- if ( _options.forSimulator || startsWith(_archLayout->archName, "small-") ) {
- addr = SIM_DISCONTIGUOUS_RO;
- } else {
- if ( const Region* dataRegion = subCache.firstDataRegion() ) {
- assert(subCache.dataRegionsTotalSize() <= DISCONTIGUOUS_REGION_SIZE);
- addr = dataRegion->unslidLoadAddress + DISCONTIGUOUS_REGION_SIZE;
-
- // Add space for Rosetta. There should be plenty of space up to half the region, so that we have enough slide
- assert(subCache.dataRegionsTotalSize() <= _archLayout->subCacheTextLimit);
- subCache._rosettaReadWriteAddr = dataRegion->unslidLoadAddress + subCache.dataRegionsTotalSize();
- subCache._rosettaReadWriteSize = (_archLayout->subCacheTextLimit - subCache.dataRegionsTotalSize());
- }
- }
- } else if ( subCache._addPaddingAfterData ) {
- // In split caches, we split the DATA/LINKEDIT cache file. But the DATA file still needs a
- // piece of LINKEDIT at the end for slide info. In the subsequent subcache file, we are only storing
- // LINKEDIT, and so we don't want to align again.
- addr = align((addr + _archLayout->sharedRegionPadding), _archLayout->sharedRegionAlignP2);
- }
- assignReadOnlySegmentAddresses(subCache, addr, cacheFileOffset);
-
- // Align the buffer for the next subCache, in case we have one
- // We don't do this for simulators, which don't have sub caches right now
- if ( _archLayout->sharedRegionsAreDiscontiguous && subCache._readOnlyRegion.has_value() && !_options.forSimulator ) {
- assert(subCache._readOnlyRegion->bufferSize <= DISCONTIGUOUS_REGION_SIZE);
- addr = subCache._readOnlyRegion->unslidLoadAddress + DISCONTIGUOUS_REGION_SIZE;
- addr += DISCONTIGUOUS_REGION_SIZE;
- // Add space for Rosetta. We add another 1GB, then give Rosetta everything from the end of LINKEDIT to the end of the allocated space
- // Note we update the address and size later, once we have optimized LINKEDIT
- subCache._rosettaReadOnlyAddr = subCache._readOnlyRegion->unslidLoadAddress + subCache._readOnlyRegion->sizeInUse;
- subCache._rosettaReadOnlySize = (addr - subCache._rosettaReadOnlyAddr);
- }
- //fprintf(stderr, "RX region=%p -> %p, logical addr=0x%llX\n", _readExecuteRegion.buffer, _readExecuteRegion.buffer+_readExecuteRegion.bufferSize, _readExecuteRegion.unslidLoadAddress);
- //fprintf(stderr, "RW region=%p -> %p, logical addr=0x%llX\n", readWriteRegion.buffer, readWriteRegion.buffer+readWriteRegion.bufferSize, readWriteRegion.unslidLoadAddress);
- //fprintf(stderr, "RO region=%p -> %p, logical addr=0x%llX\n", _readOnlyRegion.buffer, _readOnlyRegion.buffer+_readOnlyRegion.bufferSize, _readOnlyRegion.unslidLoadAddress);
- }
-
- // sort SegmentMappingInfo for each image to be in the same order as original segments
- for (DylibInfo& dylib : _sortedDylibs) {
- std::sort(dylib.cacheLocation.begin(), dylib.cacheLocation.end(), [&](const SegmentMappingInfo& a, const SegmentMappingInfo& b) {
- return a.srcSegmentIndex < b.srcSegmentIndex;
- });
- }
-}
-
-// Return the total size of the data regions, including padding between them.
-// Note this assumes they are contiguous, or that we don't care about including
-// additional space between them.
-uint64_t SharedCacheBuilder::SubCache::dataRegionsTotalSize() const {
- const Region* firstRegion = nullptr;
- const Region* lastRegion = nullptr;
- for (const Region& region : _dataRegions) {
- if ( (firstRegion == nullptr) || (region.buffer < firstRegion->buffer) )
- firstRegion = ®ion;
- if ( (lastRegion == nullptr) || (region.buffer > lastRegion->buffer) )
- lastRegion = ®ion;
- }
- return (lastRegion->buffer - firstRegion->buffer) + lastRegion->sizeInUse;
-}
-
-
-// Return the total size of the data regions, excluding padding between them
-uint64_t SharedCacheBuilder::SubCache::dataRegionsSizeInUse() const {
- size_t size = 0;
- for (const Region& dataRegion : _dataRegions)
- size += dataRegion.sizeInUse;
- return size;
-}
-
-// Return the earliest data region by address
-const CacheBuilder::Region* SharedCacheBuilder::SubCache::firstDataRegion() const {
- const Region* firstRegion = nullptr;
- for (const Region& region : _dataRegions) {
- if ( (firstRegion == nullptr) || (region.buffer < firstRegion->buffer) )
- firstRegion = ®ion;
- }
- return firstRegion;
-}
-
-// Return the lateset data region by address
-const CacheBuilder::Region* SharedCacheBuilder::SubCache::lastDataRegion() const {
- const Region* lastRegion = nullptr;
- for (const Region& region : _dataRegions) {
- if ( (lastRegion == nullptr) || (region.buffer > lastRegion->buffer) )
- lastRegion = ®ion;
- }
- return lastRegion;
-}
-
-uint64_t SharedCacheBuilder::SubCache::highestVMAddress() const {
- if ( _readOnlyRegion.has_value() )
- return _readOnlyRegion->unslidLoadAddress + _readOnlyRegion->sizeInUse;
- if ( const Region* region = lastDataRegion() )
- return region->unslidLoadAddress + region->sizeInUse;
- return _readExecuteRegion.unslidLoadAddress + _readExecuteRegion.sizeInUse;
-}
-
-uint64_t SharedCacheBuilder::SubCache::highestFileOffset() const {
- if ( _readOnlyRegion.has_value() )
- return _readOnlyRegion->cacheFileOffset + _readOnlyRegion->sizeInUse;
- if ( const Region* region = lastDataRegion() )
- return region->cacheFileOffset + region->sizeInUse;
- return _readExecuteRegion.cacheFileOffset + _readExecuteRegion.sizeInUse;
-}
-
-SharedCacheBuilder::DylibSymbolClients::dyld_cache_patchable_location::dyld_cache_patchable_location(uint64_t cacheOff, MachOLoaded::PointerMetaData pmd, uint64_t addend) {
- this->cacheOffset = cacheOff;
- this->high7 = pmd.high8 >> 1;
- this->addend = addend;
- this->authenticated = pmd.authenticated;
- this->usesAddressDiversity = pmd.usesAddrDiversity;
- this->key = pmd.key;
- this->discriminator = pmd.diversity;
- // check for truncations
- assert(this->cacheOffset == cacheOff);
- assert(this->addend == addend);
- assert((this->high7 << 1) == pmd.high8);
-}
-
-
-// Note: this is called twice. First to run applyFixups() which binds all DATA pointers
-// Then again after the LINKEDIT is optimized to create the PrebuiltLoaderSet.
-void SharedCacheBuilder::buildDylibJITLoaders(dyld4::RuntimeState& state, const std::vector<DyldSharedCache::FileAlias>& aliases, std::vector<JustInTimeLoader*>& jitLoaders)
-{
- DyldSharedCache* cache = (DyldSharedCache*)_subCaches.front()._readExecuteRegion.buffer;
- __block std::unordered_map<std::string, JustInTimeLoader*> loadersMap;
- __block std::unordered_map<std::string, uint32_t> loadersIndexMap;
- // make one pass to build the map so we can detect unzippered twins
- cache->forEachDylib(^(const dyld3::MachOAnalyzer* ma, const char* installName, uint32_t imageIndex, uint64_t inode, uint64_t mtime, bool& stop) {
- loadersIndexMap[installName] = imageIndex;
- });
- cache->forEachDylib(^(const dyld3::MachOAnalyzer* ma, const char* installName, uint32_t imageIndex, uint64_t inode, uint64_t mtime, bool& stop) {
- //printf("mh=%p, %s\n", mh, installName);
- bool catalystTwin = false;
- uint32_t macTwinIndex = 0;
- if ( strncmp(installName, "/System/iOSSupport/", 19) == 0 ) {
- if ( loadersIndexMap.count(&installName[18]) != 0 ) {
- catalystTwin = true;
- macTwinIndex = loadersIndexMap[&installName[18]];
- }
- }
- // inode and mtime are only valid if dylibs will remain on disk, ie, the simulator cache builder case
- bool fileIDValid = !_options.dylibsRemovedDuringMastering;
- dyld4::FileID fileID(inode, 0, mtime, fileIDValid);
- JustInTimeLoader* jitLoader = JustInTimeLoader::makeJustInTimeLoaderDyldCache(state, ma, installName, imageIndex, fileID, catalystTwin, macTwinIndex);
- loadersMap[installName] = jitLoader;
- jitLoaders.push_back(jitLoader);
- });
- for (const DyldSharedCache::FileAlias& alias : aliases) {
- JustInTimeLoader* a = loadersMap[alias.aliasPath];
- JustInTimeLoader* r = loadersMap[alias.realPath];
- if ( a != nullptr )
- loadersMap[alias.realPath] = a;
- else if ( r != nullptr ) {
- loadersMap[alias.aliasPath] = r;
- _dylibAliases.insert(alias.aliasPath);
- }
- }
-
- Loader::LoadOptions::Finder loaderFinder = ^(Diagnostics& diag, dyld3::Platform, const char* loadPath, const dyld4::Loader::LoadOptions& options) {
- auto pos = loadersMap.find(loadPath);
- if ( pos != loadersMap.end() ) {
- return (const Loader*)pos->second;
- }
- // Handle symlinks containing relative paths. Unfortunately the only way to do this right now is with the fake file system
- char buffer[PATH_MAX];
- if ( _fileSystem.getRealPath(loadPath, buffer) ) {
- pos = loadersMap.find(buffer);
- if ( pos != loadersMap.end() ) {
- return (const Loader*)pos->second;
- }
- }
- if ( !options.canBeMissing )
- diag.error("dependent dylib '%s' not found", loadPath);
- return (const Loader*)nullptr;
- };
-
- Loader::LoadOptions options;
- options.staticLinkage = true;
- options.launching = true;
- options.canBeDylib = true;
- options.finder = loaderFinder;
- Diagnostics loadDiag;
- for (const Loader* ldr : state.loaded) {
- ((Loader*)ldr)->loadDependents(loadDiag, state, options);
- if ( loadDiag.hasError() ) {
- _diagnostics.error("%s, loading dependents of %s", loadDiag.errorMessageCStr(), ldr->path());
- return;
- }
- }
-
-}
-
-
-static bool hasHigh8(uint64_t addend)
-{
- // distinguish negative addend from TBI
- if ( (addend >> 56) == 0 )
- return false;
- return ( (addend >> 48) != 0xFFFF );
-}
-
-static void forEachDylibFixup(Diagnostics& diag, RuntimeState& state, const Loader* ldr, const MachOAnalyzer* ma, Loader::FixUpHandler fixup, Loader::CacheWeakDefOverride patcher)
-{
- const uint64_t prefLoadAddr = ma->preferredLoadAddress();
- if ( ma->hasChainedFixups() ) {
- // build targets table
- typedef std::pair<Loader::ResolvedSymbol, uint64_t> Target;
- __block std::vector<Target> targets;
- ma->forEachChainedFixupTarget(diag, ^(int libOrdinal, const char* symbolName, uint64_t addend, bool weakImport, bool& stop) {
- //log("Loader::forEachFixup(): libOrd=%d, symbolName=%s\n", libOrdinal, symbolName);
- Loader::ResolvedSymbol target = ldr->resolveSymbol(diag, state, libOrdinal, symbolName, weakImport, false, patcher, true);
- if ( diag.hasError() )
- stop = true;
- target.targetRuntimeOffset += addend;
- targets.push_back({ target, addend });
- });
- if ( diag.hasError() )
- return;
-
- // walk all chains
- ma->withChainStarts(diag, ma->chainStartsOffset(), ^(const dyld_chained_starts_in_image* startsInfo) {
- ma->forEachFixupInAllChains(diag, startsInfo, false, ^(MachOLoaded::ChainedFixupPointerOnDisk* fixupLoc,
- const dyld_chained_starts_in_segment* segInfo, bool& fixupsStop) {
- uint64_t fixupOffset = (uint8_t*)fixupLoc - (uint8_t*)ma;
- uint64_t targetOffset;
- uint32_t bindOrdinal;
- int64_t embeddedAddend;
- MachOLoaded::PointerMetaData pmd(fixupLoc, segInfo->pointer_format);
- if ( fixupLoc->isBind(segInfo->pointer_format, bindOrdinal, embeddedAddend) ) {
- if ( bindOrdinal < targets.size() ) {
- const Target& targetInTable = targets[bindOrdinal];
- uint64_t addend = targetInTable.second;
- if ( embeddedAddend == 0 ) {
- if ( hasHigh8(addend) ) {
- Loader::ResolvedSymbol targetWithoutHigh8 = targetInTable.first;
- pmd.high8 = (targetInTable.second >> 56);
- targetWithoutHigh8.targetRuntimeOffset &= 0x00FFFFFFFFFFFFFFULL;
- addend &= 0x00FFFFFFFFFFFFFFULL;
- fixup(fixupOffset, addend, pmd, targetWithoutHigh8, fixupsStop);
- }
- else {
- fixup(fixupOffset, addend, pmd, targetInTable.first, fixupsStop);
- }
- } else {
- // pointer on disk encodes extra addend, make pseudo target for that
- Loader::ResolvedSymbol targetWithAddend = targetInTable.first;
- targetWithAddend.targetRuntimeOffset += embeddedAddend;
- addend += embeddedAddend;
- fixup(fixupOffset, addend, pmd, targetWithAddend, fixupsStop);
- }
- }
- else {
- diag.error("out of range bind ordinal %d (max %lu)", bindOrdinal, targets.size());
- fixupsStop = true;
- }
- }
- else if ( fixupLoc->isRebase(segInfo->pointer_format, prefLoadAddr, targetOffset) ) {
- Loader::ResolvedSymbol rebaseTarget;
- rebaseTarget.targetLoader = ldr;
- rebaseTarget.targetRuntimeOffset = targetOffset & 0x00FFFFFFFFFFFFFFULL;
- rebaseTarget.targetSymbolName = nullptr;
- rebaseTarget.kind = Loader::ResolvedSymbol::Kind::rebase;
- rebaseTarget.isCode = 0;
- rebaseTarget.isWeakDef = 0;
- fixup(fixupOffset, 0, pmd, rebaseTarget, fixupsStop);
- }
- });
- });
- }
- else {
- // process all rebase opcodes
- const bool is64 = ma->is64();
- ma->forEachRebase(diag, ^(uint64_t runtimeOffset, bool isLazyPointerRebase, bool& stop) {
- uint64_t* loc = (uint64_t*)((uint8_t*)ma + runtimeOffset);
- uint64_t locValue = is64 ? *loc : *((uint32_t*)loc);
- Loader::ResolvedSymbol rebaseTarget;
- MachOLoaded::PointerMetaData pmd;
- if ( is64 )
- pmd.high8 = (locValue >> 56);
- rebaseTarget.targetLoader = ldr;
- rebaseTarget.targetRuntimeOffset = (locValue & 0x00FFFFFFFFFFFFFFULL) - prefLoadAddr;
- rebaseTarget.targetSymbolName = nullptr;
- rebaseTarget.kind = Loader::ResolvedSymbol::Kind::rebase;
- rebaseTarget.isCode = 0;
- rebaseTarget.isWeakDef = 0;
- fixup(runtimeOffset, 0, pmd, rebaseTarget, stop);
- });
- if ( diag.hasError() )
- return;
-
- // process all bind opcodes
- __block int lastLibOrdinal = 0xFFFF;
- __block const char* lastSymbolName = nullptr;
- __block uint64_t lastAddend = 0;
- __block Loader::ResolvedSymbol target;
- __block MachOLoaded::PointerMetaData pmd;
- ma->forEachBind(diag, ^(uint64_t runtimeOffset, int libOrdinal, uint8_t type, const char* symbolName,
- bool weakImport, bool lazyBind, uint64_t addend, bool& stop) {
- if ( (symbolName == lastSymbolName) && (libOrdinal == lastLibOrdinal) && (addend == lastAddend) ) {
- // same symbol lookup as last location
- fixup(runtimeOffset, addend, pmd, target, stop);
- }
- else {
- target = ldr->resolveSymbol(diag, state, libOrdinal, symbolName, weakImport, lazyBind, patcher, true);
- if ( target.targetLoader != nullptr ) {
- pmd.high8 = 0;
- if ( is64 && (addend != 0) && hasHigh8(addend) ) {
- pmd.high8 = (addend >> 56);
- target.targetRuntimeOffset &= 0x00FFFFFFFFFFFFFFULL;
- addend &= 0x00FFFFFFFFFFFFFFULL;
- }
- else if ( addend != 0 ) {
- target.targetRuntimeOffset += addend;
- }
- fixup(runtimeOffset, addend, pmd, target, stop);
- }
- }
- },
- ^(const char* symbolName) {
- });
- }
- if ( diag.hasError() )
- return;
-
-}
-
-// When this is complete all dylibs in the cache have binds and rebases resolved to be their target's
-// unslid address. The ASLRTracker contains all info to later turn those pointers into chained fixups.
-void SharedCacheBuilder::bindDylibs(const MachOAnalyzer* aMainExe, const std::vector<DyldSharedCache::FileAlias>& aliases)
-{
- KernelArgs kernArgs(aMainExe, {"test.exe"}, {}, {});
- SyscallDelegate osDelegate;
- osDelegate._dyldCache = (DyldSharedCache*)_subCaches.front()._readExecuteRegion.buffer;
-
- Allocator& alloc = Allocator::defaultAllocator();
- ProcessConfig config(&kernArgs, osDelegate, alloc);
- RuntimeState state(config, alloc);
- RuntimeState* statePtr = &state;
-
- // build JITLoaders for all dylibs in cache
- std::vector<JustInTimeLoader*> jitLoaders;
- buildDylibJITLoaders(state, aliases, jitLoaders);
- if ( _diagnostics.hasError() )
- return;
-
- // Are subCache images guaranteed to be in the same order as the Loader's?
- // FIXME: Otherwise make a map here
- std::vector<CacheBuilder::ASLR_Tracker*> aslrTrackers;
- std::vector<CacheBuilder::DylibSectionCoalescer*> dylibCoalescers;
- for (SubCache& subCache : _subCaches) {
- // Skip subCache's which don't contain DATA
- if ( subCache._dataNumDylibs == 0 )
- continue;
-
- for (uint64_t i = 0; i != subCache._dataNumDylibs; ++i) {
- aslrTrackers.push_back(&subCache._aslrTracker);
- }
- }
-
- for ( DylibInfo& dylibInfo : this->_sortedDylibs )
- dylibCoalescers.push_back(&dylibInfo._coalescer);
-
- Region& firstReadExecuteRegion = _subCaches.front()._readExecuteRegion;
-
- // Assume the last SubCache has LINKEDIT
- assert(_subCaches.back()._readOnlyRegion.has_value());
- Region& lastReadOnlyRegion = *(_subCaches.back()._readOnlyRegion);
-
- // apply fixups to them, which turns all binds into rebases and updates _aslrTracker
- uint32_t dylibIndex = 0;
- for (const Loader* ldr : state.loaded) {
- __block Diagnostics fixupDiag;
- const MachOAnalyzer* ldrMA = ldr->analyzer(state);
-
- CacheBuilder::ASLR_Tracker& aslrTracker = *aslrTrackers[dylibIndex];
- CacheBuilder::DylibSectionCoalescer& dylibCoalescer = *dylibCoalescers[dylibIndex];
-
- // Map from where the GOT is located in the dylib to where its located in the coalesced section
- std::map<const uint8_t*, uint8_t*> coalescedGOTs;
-
- if ( !dylibCoalescer.gots.offsetMap.empty() ) {
- uint64_t sectionSize = 0;
- const uint8_t*dylibGOTBase = (const uint8_t*)ldrMA->findSectionContent("__DATA_CONST", "__got", sectionSize);
- assert(dylibGOTBase);
-
- uint8_t* cacheGOTBase = dylibCoalescer.gots.subCacheSection->bufferAddr;
-
- for ( const auto& dylibOffsetAndCacheOffset : dylibCoalescer.gots.offsetMap ) {
- uint32_t dylibSectionOffset = dylibOffsetAndCacheOffset.first;
- uint32_t dylibCacheOffset = dylibOffsetAndCacheOffset.second;
- coalescedGOTs[dylibGOTBase + dylibSectionOffset] = cacheGOTBase + dylibCacheOffset;
- }
- }
-
- if ( !dylibCoalescer.auth_gots.offsetMap.empty() ) {
- uint64_t sectionSize = 0;
- const uint8_t* dylibGOTBase = (const uint8_t*)ldrMA->findSectionContent("__AUTH_CONST", "__auth_got", sectionSize);
- assert(dylibGOTBase);
-
- uint8_t* cacheGOTBase = dylibCoalescer.auth_gots.subCacheSection->bufferAddr;
-
- for ( const auto& dylibOffsetAndCacheOffset : dylibCoalescer.auth_gots.offsetMap ) {
- uint32_t dylibSectionOffset = dylibOffsetAndCacheOffset.first;
- uint32_t dylibCacheOffset = dylibOffsetAndCacheOffset.second;
- coalescedGOTs[dylibGOTBase + dylibSectionOffset] = cacheGOTBase + dylibCacheOffset;
- }
- }
-
- forEachDylibFixup(fixupDiag, state, ldr, ldrMA, ^(uint64_t fixupLocRuntimeOffset, uint64_t addend, MachOLoaded::PointerMetaData pmd, const Loader::ResolvedSymbol& target, bool& stop) {
- uint8_t* fixupLoc = (uint8_t*)ldrMA + fixupLocRuntimeOffset;
- uint32_t* fixupLoc32 = (uint32_t*)fixupLoc;
- uint64_t* fixupLoc64 = (uint64_t*)fixupLoc;
-
- switch ( target.kind ) {
- case Loader::ResolvedSymbol::Kind::rebase:
- // rebasing already done in AdjustDylibSegments, but if input dylib uses chained fixups, target might not fit
- if ( _archLayout->is64 ) {
- if ( pmd.authenticated )
- aslrTracker.setAuthData(fixupLoc, pmd.diversity, pmd.usesAddrDiversity, pmd.key);
- if ( pmd.high8 )
- aslrTracker.setHigh8(fixupLoc, pmd.high8);
- uint64_t targetVmAddr;
- if ( aslrTracker.hasRebaseTarget64(fixupLoc, &targetVmAddr) )
- *fixupLoc64 = targetVmAddr;
- else {
- // The runtime offset might be negative. This can happen in the shared cache builder when coalescing strings. A rebase
- // from our dylib might point backwards in to the section where we coalesced the strings.
- uint64_t targetRuntimeOffset = (uint64_t)((((int64_t)target.targetRuntimeOffset) << 8) >> 8);
- *fixupLoc64 = (uint8_t*)target.targetLoader->loadAddress(*statePtr) - firstReadExecuteRegion.buffer + targetRuntimeOffset + firstReadExecuteRegion.unslidLoadAddress;
- }
- }
- else {
- uint32_t targetVmAddr;
- assert(aslrTracker.hasRebaseTarget32(fixupLoc, &targetVmAddr) && "32-bit archs always store target in side table");
- *fixupLoc32 = targetVmAddr;
- }
- break;
- case Loader::ResolvedSymbol::Kind::bindAbsolute: {
- auto coalescedGOT = coalescedGOTs.find(fixupLoc);
- if ( coalescedGOT != coalescedGOTs.end() ) {
- // Probably a missing weak import. Rewrite the original GOT anyway, but also the coalesced one
- uint32_t* coalFixupLoc32 = (uint32_t*)coalescedGOT->second;
- uint64_t* coalFixupLoc64 = (uint64_t*)coalescedGOT->second;
-
- if ( _archLayout->is64 )
- *coalFixupLoc64 = target.targetRuntimeOffset;
- else
- *coalFixupLoc32 = (uint32_t)(target.targetRuntimeOffset);
- }
- if ( _archLayout->is64 )
- *fixupLoc64 = target.targetRuntimeOffset;
- else
- *fixupLoc32 = (uint32_t)(target.targetRuntimeOffset);
- // don't record absolute targets for ASLR
- aslrTracker.remove(fixupLoc);
- break;
- }
- case Loader::ResolvedSymbol::Kind::bindToImage: {
- uint64_t targetSymbolOffsetInCache = (uint8_t*)target.targetLoader->loadAddress(*statePtr) - firstReadExecuteRegion.buffer + target.targetRuntimeOffset - addend;
-
- // Check if this bind is to a coalesced GOT
- // Note we skip this for weak defs. In that case they will still use the original GOT slot
- bool didCoalesceGOT = false;
- {
- auto coalescedGOT = coalescedGOTs.find(fixupLoc);
- if ( coalescedGOT != coalescedGOTs.end() ) {
- // Replace with NULL to make sure we got all references rewritten to the coalesced version
- if ( _archLayout->is64 )
- *fixupLoc64 = 0;
- else
- *fixupLoc32 = 0;
-
- // We shouldn't have a rebase target in the side table when we are doing binds!
- if ( !_archLayout->is64 ) {
- uint32_t targetVmAddr;
- assert(!aslrTracker.hasRebaseTarget32(fixupLoc, &targetVmAddr));
- }
-
- // Change the fixupLoc to the coalesced one so that we fix it up appropriately
- fixupLoc = coalescedGOT->second;
- fixupLoc32 = (uint32_t*)coalescedGOT->second;
- fixupLoc64 = (uint64_t*)coalescedGOT->second;
-
- didCoalesceGOT = true;
- }
- }
-
- // FIXME: this handler may be called a second time for weak_bind info, which we ignore when building cache
- aslrTracker.add(fixupLoc);
- if ( _archLayout->is64 ) {
- if ( pmd.high8 )
- aslrTracker.setHigh8(fixupLoc, pmd.high8);
- if ( pmd.authenticated )
- aslrTracker.setAuthData(fixupLoc, pmd.diversity, pmd.usesAddrDiversity, pmd.key);
- *fixupLoc64 = _archLayout->sharedMemoryStart + targetSymbolOffsetInCache + addend;
- }
- else {
- assert(targetSymbolOffsetInCache < (uint64_t)(lastReadOnlyRegion.buffer - firstReadExecuteRegion.buffer) && "offset not into TEXT or DATA of cache file");
- uint32_t targetVmAddr;
- if ( aslrTracker.hasRebaseTarget32(fixupLoc, &targetVmAddr) )
- *fixupLoc32 = targetVmAddr;
- else
- *fixupLoc32 = (uint32_t)(_archLayout->sharedMemoryStart + targetSymbolOffsetInCache + addend);
- }
- if ( target.isWeakDef )
- _dylibWeakExports.insert({ target.targetLoader->loadAddress(*statePtr), targetSymbolOffsetInCache });
- _exportsToName[targetSymbolOffsetInCache] = target.targetSymbolName;
-
- DylibSymbolClients& dylibClients = _dylibToItsClients[target.targetLoader->loadAddress(*statePtr)];
- DylibSymbolClients::dyld_cache_patchable_location patchLoc = { (uint64_t)fixupLoc - (uint64_t)firstReadExecuteRegion.buffer, pmd, addend };
-
- // Coalesced GOTs are always patched, so they don't track a client dylib
- if ( didCoalesceGOT ) {
- dylibClients._coalescedGOTUses._uses[targetSymbolOffsetInCache].push_back(patchLoc);
- } else {
- DylibSymbolClients::Uses& clientUses = dylibClients._clientToUses[ldrMA];
- clientUses._uses[targetSymbolOffsetInCache].push_back(patchLoc);
- }
- break;
- }
- }
- },
- ^(uint32_t cachedDylibIndex, uint32_t cachedDylibVMOffset, const Loader::ResolvedSymbol& target) {
-
- });
- if ( fixupDiag.hasError() ) {
- _diagnostics.error("%s, applying fixups to %s", fixupDiag.errorMessageCStr(), ldr->path());
- return;
- }
- ++dylibIndex;
- }
-}
-
-CacheBuilder::Region& SharedCacheBuilder::getSharedCacheReadOnlyRegion() {
- // We always use the first subCache with dylib LINKEDIT to hold additional cache metadata
- // Not all subCache's have LINKEDIT, so we'll find the first one.
- // Note some sub caches may have LINKEDIT which is only used for slide info, ie, the split
- // cache for DATA. That LINKEDIT is not the one we want here.
- for (SubCache& subCache : _subCaches) {
- if ( subCache._linkeditNumDylibs == 0 )
- continue;
- if ( subCache._readOnlyRegion.has_value() )
- return *(subCache._readOnlyRegion);
- }
- // At least 1 subCache must have LINKEDIT
- assert(false);
-}
-
-
-void SharedCacheBuilder::buildDylibsTrie(const std::vector<DyldSharedCache::FileAlias>& aliases, std::unordered_map<std::string, uint32_t>& dylibPathToDylibIndex)
-{
- DyldSharedCache* dyldCache = (DyldSharedCache*)_subCaches.front()._readExecuteRegion.buffer;
-
- // build up all Entries in trie
- __block std::vector<DylibIndexTrie::Entry> dylibEntrys;
- __block uint32_t index = 0;
- dyldCache->forEachImage(^(const mach_header* mh, const char* installName) {
- dylibEntrys.push_back(DylibIndexTrie::Entry(installName, DylibIndex(index)));
- dylibPathToDylibIndex[installName] = index;
- ++index;
- if ( strcmp(installName, "/usr/lib/dyld") == 0 ) {
- // record in header where dyld is located in cache
- uint64_t dyldInCacheUnslidAddr = _subCaches.front()._readExecuteRegion.unslidLoadAddress + ((uint8_t*)mh - (uint8_t*)dyldCache);
- dyldCache->header.dyldInCacheMH = dyldInCacheUnslidAddr;
- uint64_t dyldEntryOffset;
- bool usesCRT;
- if ( ((MachOAnalyzer*)mh)->getEntry(dyldEntryOffset, usesCRT) ) {
- // the "pc" value in the LC_UNIXTHREAD was adjusted when dyld was placed in the cache
- dyldCache->header.dyldInCacheEntry = dyldInCacheUnslidAddr + dyldEntryOffset;
- }
- }
- });
- for (const DyldSharedCache::FileAlias& alias : aliases) {
- const auto& pos = dylibPathToDylibIndex.find(alias.realPath);
- if ( pos != dylibPathToDylibIndex.end() ) {
- dylibEntrys.push_back(DylibIndexTrie::Entry(alias.aliasPath.c_str(), pos->second));
- }
- }
- DylibIndexTrie dylibsTrie(dylibEntrys);
- std::vector<uint8_t> trieBytes;
- dylibsTrie.emit(trieBytes);
- while ( (trieBytes.size() % 8) != 0 )
- trieBytes.push_back(0);
-
- // verify there is room in LINKEDIT for trie
- Region& readOnlyRegion = getSharedCacheReadOnlyRegion();
- size_t freeSpace = readOnlyRegion.bufferSize - readOnlyRegion.sizeInUse;
- if ( trieBytes.size() > freeSpace ) {
- _diagnostics.error("cache buffer too small to hold Trie (buffer size=%lldMB, trie size=%luKB, free space=%ldMB)",
- _allocatedBufferSize/1024/1024, trieBytes.size()/1024, freeSpace/1024/1024);
- return;
- }
-
- // copy trie into cache and update header
- dyldCache->header.dylibsTrieAddr = readOnlyRegion.unslidLoadAddress + readOnlyRegion.sizeInUse;
- dyldCache->header.dylibsTrieSize = trieBytes.size();
- ::memcpy(readOnlyRegion.buffer + readOnlyRegion.sizeInUse, &trieBytes[0], trieBytes.size());
- readOnlyRegion.sizeInUse += trieBytes.size();
-
-}
-
-// Builds a PrebuiltLoaderSet for all dylibs in the cache.
-// Also builds a trie that maps dylib paths to their index in the cache.
-void SharedCacheBuilder::buildDylibsPrebuiltLoaderSet(const MachOAnalyzer* aMain, const std::vector<DyldSharedCache::FileAlias>& aliases)
-{
- // build and add to cache a trie that maps dylib paths to dylib index
- std::unordered_map<std::string, uint32_t> dylibPathToDylibIndex;
- buildDylibsTrie(aliases, dylibPathToDylibIndex);
-
- // need to build patch table before PrebuiltLoaders, so that on macOS PrebuiltLoaders can use patching info for catalyst
- buildPatchTables(dylibPathToDylibIndex);
-
- // build PrebuiltLoaderSet of all dylibs in cache
- DyldSharedCache* dyldCache = (DyldSharedCache*)_subCaches.front()._readExecuteRegion.buffer;
- KernelArgs kernArgs(aMain, {"test.exe"}, {}, {});
- SyscallDelegate osDelegate;
- osDelegate._dyldCache = (DyldSharedCache*)_subCaches.front()._readExecuteRegion.buffer;
- Allocator& alloc = Allocator::defaultAllocator();
- ProcessConfig config(&kernArgs, osDelegate, alloc);
- RuntimeState state(config, alloc);
-
- // build JITLoaders for all dylibs in cache
- std::vector<JustInTimeLoader*> jitLoaders;
- buildDylibJITLoaders(state, aliases, jitLoaders);
-
- // now make a PrebuiltLoaderSet from all the JustInTimeLoaders for all the dylibs in the shared cache
- STACK_ALLOC_ARRAY(const Loader*, allDylibs, state.loaded.size());
- for (const Loader* ldr : state.loaded)
- allDylibs.push_back(ldr);
- _cachedDylibsLoaderSet = dyld4::PrebuiltLoaderSet::makeDyldCachePrebuiltLoaders(_diagnostics, state, dyldCache, allDylibs);
- uint64_t prebuiltLoaderSetSize = _cachedDylibsLoaderSet->size();
-
- // check for fit
- Region& readOnlyRegion = getSharedCacheReadOnlyRegion();
- size_t freeSpace = readOnlyRegion.bufferSize - readOnlyRegion.sizeInUse;
- if ( prebuiltLoaderSetSize > freeSpace ) {
- _diagnostics.error("cache buffer too small to hold dylib PrebuiltLoaderSet (buffer size=%lldMB, prebuiltLoaderSet size=%lluKB, free space=%ldMB)",
- _allocatedBufferSize/1024/1024, prebuiltLoaderSetSize/1024, freeSpace/1024/1024);
- return;
- }
-
- // copy the PrebuiltLoaderSet for dylibs into the cache
- dyldCache->header.dylibsPBLSetAddr = readOnlyRegion.unslidLoadAddress + readOnlyRegion.sizeInUse;
- ::memcpy(readOnlyRegion.buffer + readOnlyRegion.sizeInUse, _cachedDylibsLoaderSet, prebuiltLoaderSetSize);
- _cachedDylibsLoaderSet->deallocate();
- _cachedDylibsLoaderSet = (const dyld4::PrebuiltLoaderSet*)(readOnlyRegion.buffer + readOnlyRegion.sizeInUse);
- readOnlyRegion.sizeInUse += prebuiltLoaderSetSize;
-}
-
-void SharedCacheBuilder::buildPatchTables(const std::unordered_map<std::string, uint32_t>& loaderToIndexMap)
-{
- DyldSharedCache* dyldCache = (DyldSharedCache*)_subCaches.front()._readExecuteRegion.buffer;
-
- // build set of functions to never stub-eliminate because tools may need to override them
- std::unordered_set<std::string> alwaysGeneratePatch;
- for (const char* const* p=_s_neverStubEliminateSymbols; *p != nullptr; ++p)
- alwaysGeneratePatch.insert(*p);
-
- // Add the patches for the image array.
- __block uint64_t numPatchImages = dyldCache->header.imagesCount;
- __block uint64_t numImageExports = 0;
- __block uint64_t numPatchClients = 0;
- __block uint64_t numClientExports = 0;
- __block uint64_t numPatchLocations = 0;
- __block uint64_t numPatchExportNameBytes = 0;
- __block uint64_t numGOTClients = 0;
- __block uint64_t numGotClientExports = 0;
- __block uint64_t numGotPatchLocations = 0;
-
- auto needsPatch = [&](bool dylibNeedsPatching, const dyld3::MachOLoaded* mh,
- CacheOffset offset) -> bool {
- if (dylibNeedsPatching)
- return true;
- if (_dylibWeakExports.find({ mh, offset }) != _dylibWeakExports.end())
- return true;
- const std::string& exportName = _exportsToName[offset];
- return alwaysGeneratePatch.find(exportName) != alwaysGeneratePatch.end();
- };
-
- // First calculate how much space we need
- __block std::unordered_map<CacheOffset, uint32_t> exportNameOffsets;
- dyldCache->forEachImage(^(const mach_header* mh, const char* installName) {
- const dyld3::MachOLoaded* ml = (const dyld3::MachOLoaded*)mh;
-
- // On a customer cache, only store patch locations for interposable dylibs and weak binding
- bool dylibNeedsPatching = dyldCache->isOverridablePath(installName);
-
- DylibSymbolClients& dylibSymbolClients = _dylibToItsClients[ml];
- for (auto& clientDylibAndUses : dylibSymbolClients._clientToUses) {
- bool clientUsed = false;
- for (auto& targetCacheOffsetAndUses : clientDylibAndUses.second._uses) {
- const CacheOffset& exportCacheOffset = targetCacheOffsetAndUses.first;
- if (!needsPatch(dylibNeedsPatching, ml, exportCacheOffset))
- continue;
-
- std::vector<DylibSymbolClients::dyld_cache_patchable_location>& uses = targetCacheOffsetAndUses.second;
- uses.erase(std::unique(uses.begin(), uses.end()), uses.end());
- if ( uses.empty() )
- continue;
-
- // We have uses in this client->location->uses list. Track them
- clientUsed = true;
- ++numClientExports;
- numPatchLocations += uses.size();
-
- // Track this location as one the target dylib needs to export
- dylibSymbolClients._usedExports.insert(exportCacheOffset);
-
- // We need space for the name too
- auto itAndInserted = exportNameOffsets.insert({ exportCacheOffset, numPatchExportNameBytes });
- if ( itAndInserted.second ) {
- // We inserted the name, so make space for it
- std::string exportName = _exportsToName[exportCacheOffset];
- numPatchExportNameBytes += exportName.size() + 1;
- }
- }
-
- // Make space for this client, if it is used
- if ( clientUsed )
- ++numPatchClients;
- }
-
- // GOTs
- {
- for (auto& targetCacheOffsetAndUses : dylibSymbolClients._coalescedGOTUses._uses ) {
- const CacheOffset& exportCacheOffset = targetCacheOffsetAndUses.first;
-
- std::vector<DylibSymbolClients::dyld_cache_patchable_location>& uses = targetCacheOffsetAndUses.second;
- uses.erase(std::unique(uses.begin(), uses.end()), uses.end());
- if ( uses.empty() )
- continue;
-
- // We have uses in this client->location->uses list. Track them
- ++numGotClientExports;
- numGotPatchLocations += uses.size();
-
- // Track this location as one the target dylib needs to export
- dylibSymbolClients._usedExports.insert(exportCacheOffset);
-
- // We need space for the name too
- auto itAndInserted = exportNameOffsets.insert({ exportCacheOffset, numPatchExportNameBytes });
- if ( itAndInserted.second ) {
- // We inserted the name, so make space for it
- std::string exportName = _exportsToName[exportCacheOffset];
- numPatchExportNameBytes += exportName.size() + 1;
- }
- }
-
- // Make space for this GOT client. We always do this, even if empty
- ++numGOTClients;
- }
-
- // Track how many exports this image needs
- numImageExports += dylibSymbolClients._usedExports.size();
- });
-
- exportNameOffsets.clear();
-
- // Now reserve the space
- __block std::vector<dyld_cache_image_patches_v2> patchImages;
- __block std::vector<dyld_cache_image_export_v2> imageExports;
- __block std::vector<dyld_cache_image_clients_v2> patchClients;
- __block std::vector<dyld_cache_patchable_export_v2> clientExports;
- __block std::vector<dyld_cache_patchable_location_v2> patchLocations;
- __block std::vector<char> patchExportNames;
- __block std::vector<dyld_cache_image_got_clients_v3> gotClients;
- __block std::vector<dyld_cache_patchable_export_v3> gotClientExports;
- __block std::vector<dyld_cache_patchable_location_v3> gotPatchLocations;
-
- patchImages.reserve(numPatchImages);
- imageExports.reserve(numImageExports);
- patchClients.reserve(numPatchClients);
- clientExports.reserve(numClientExports);
- patchLocations.reserve(numPatchLocations);
- patchExportNames.reserve(numPatchExportNameBytes);
- gotClients.reserve(numGOTClients);
- gotClientExports.reserve(numGotClientExports);
- patchLocations.reserve(numGotPatchLocations);
-
- // And now fill it with the patch data
- dyldCache->forEachImage(^(const mach_header* mh, const char* installName) {
- const dyld3::MachOAnalyzer* ma = (const dyld3::MachOAnalyzer*)mh;
-
- // On a customer cache, only store patch locations for interposable dylibs and weak binding
- bool dylibNeedsPatching = dyldCache->isOverridablePath(installName);
-
- DylibSymbolClients& dylibSymbolClients = _dylibToItsClients[ma];
-
- // Add the patch image which points in to the clients
- // Note we always add 1 patch image for every dylib in the cache, even if
- // it has no other data
- dyld_cache_image_patches_v2 patchImage;
- patchImage.patchClientsStartIndex = (uint32_t)patchClients.size();
- patchImage.patchClientsCount = 0;
- patchImage.patchExportsStartIndex = (uint32_t)imageExports.size();
- patchImage.patchExportsCount = (uint32_t)dylibSymbolClients._usedExports.size();
-
- for (auto& clientDylibAndUses : dylibSymbolClients._clientToUses) {
- bool clientUsed = false;
-
- uint64_t clientDylibBaseAddress = ((const dyld3::MachOAnalyzer*)clientDylibAndUses.first)->preferredLoadAddress();
-
- // We might add a client. If we do, then set it up now so that we have the
- // right offset to the exports table
- dyld_cache_image_clients_v2 clientImage;
- clientImage.clientDylibIndex = loaderToIndexMap.at(clientDylibAndUses.first->installName());
- clientImage.patchExportsStartIndex = (uint32_t)clientExports.size();
- clientImage.patchExportsCount = 0;
-
- for (auto& targetCacheOffsetAndUses : clientDylibAndUses.second._uses) {
- const CacheOffset& exportCacheOffset = targetCacheOffsetAndUses.first;
- if (!needsPatch(dylibNeedsPatching, ma, exportCacheOffset))
- continue;
-
- std::vector<DylibSymbolClients::dyld_cache_patchable_location>& uses = targetCacheOffsetAndUses.second;
- if ( uses.empty() )
- continue;
-
- // We have uses in this client->location->uses list. Track them
- clientUsed = true;
-
- // We should have an export already, from the previous scan to size the tables
- auto exportIt = dylibSymbolClients._usedExports.find(exportCacheOffset);
- assert(exportIt != dylibSymbolClients._usedExports.end());
-
- uint32_t imageExportIndex = (uint32_t)std::distance(dylibSymbolClients._usedExports.begin(), exportIt);
-
- // Add an export for this client dylib
- dyld_cache_patchable_export_v2 cacheExport;
- cacheExport.imageExportIndex = patchImage.patchExportsStartIndex + imageExportIndex;
- cacheExport.patchLocationsStartIndex = (uint32_t)patchLocations.size();
- cacheExport.patchLocationsCount = (uint32_t)uses.size();
- clientExports.push_back(cacheExport);
- ++clientImage.patchExportsCount;
-
- // Now add the list of locations.
- // At this point we need to translate from the locations the cache recorded to what we encode
- for (const DylibSymbolClients::dyld_cache_patchable_location& use : uses) {
- dyld_cache_patchable_location_v2 loc;
- loc.dylibOffsetOfUse = (uint32_t)((_archLayout->sharedMemoryStart + use.cacheOffset) - clientDylibBaseAddress);
- loc.high7 = use.high7;
- loc.addend = use.addend;
- loc.authenticated = use.authenticated;
- loc.usesAddressDiversity = use.usesAddressDiversity;
- loc.key = use.key;
- loc.discriminator = use.discriminator;
- patchLocations.push_back(loc);
- }
- }
-
- // Add the client to the table, if its used
- if ( clientUsed ) {
- ++patchImage.patchClientsCount;
- patchClients.push_back(clientImage);
- }
- }
-
- {
- dyld_cache_image_got_clients_v3 gotClient;
- gotClient.patchExportsStartIndex = (uint32_t)gotClientExports.size();
- gotClient.patchExportsCount = 0;
-
- for ( auto& targetCacheOffsetAndUses : dylibSymbolClients._coalescedGOTUses._uses ) {
- const CacheOffset& exportCacheOffset = targetCacheOffsetAndUses.first;
-
- std::vector<DylibSymbolClients::dyld_cache_patchable_location>& uses = targetCacheOffsetAndUses.second;
- if ( uses.empty() )
- continue;
-
- // We should have an export already, from the previous scan to size the tables
- auto exportIt = dylibSymbolClients._usedExports.find(exportCacheOffset);
- assert(exportIt != dylibSymbolClients._usedExports.end());
-
- uint32_t imageExportIndex = (uint32_t)std::distance(dylibSymbolClients._usedExports.begin(), exportIt);
-
- // Add an export for this GOT client
- dyld_cache_patchable_export_v3 cacheExport;
- cacheExport.imageExportIndex = patchImage.patchExportsStartIndex + imageExportIndex;
- cacheExport.patchLocationsStartIndex = (uint32_t)gotPatchLocations.size();
- cacheExport.patchLocationsCount = (uint32_t)uses.size();
- gotClientExports.push_back(cacheExport);
- ++gotClient.patchExportsCount;
-
- // Now add the list of locations.
- // At this point we need to translate from the locations the cache recorded to what we encode
- for (const DylibSymbolClients::dyld_cache_patchable_location& use : uses) {
- dyld_cache_patchable_location_v3 loc;
- loc.cacheOffsetOfUse = use.cacheOffset;
- loc.high7 = use.high7;
- loc.addend = use.addend;
- loc.authenticated = use.authenticated;
- loc.usesAddressDiversity = use.usesAddressDiversity;
- loc.key = use.key;
- loc.discriminator = use.discriminator;
- gotPatchLocations.push_back(loc);
- }
- }
-
- // Add the GOT to the table, even if unused
- gotClients.push_back(gotClient);
- }
-
- uint64_t imageBaseAddress = ma->preferredLoadAddress();
-
- // Get the list of objc classes in this image. Each objc export needs to be tagged
- // Also get the list of eligible singleton patch objects
- __block std::unordered_set<uint64_t> objcClassesRuntimeOffsets;
- __block std::unordered_set<uint64_t> singletonCFObjectRuntimeOffsets;
- auto vmAddrConverter = ma->makeVMAddrConverter(true);
- // HACK: Dylibs in the cache contain raw VMAddrs. We don't want to slide thm
- vmAddrConverter.slide = 0;
-
- __block bool isSimPlatform = false;
- ma->forEachSupportedPlatform(^(Platform platform, uint32_t minOS, uint32_t sdk) {
- if ( dyld3::MachOFile::isSimulatorPlatform(platform) )
- isSimPlatform = true;
- });
-
- if ( !isSimPlatform ) {
- auto visitClass = ^(uint64_t classVMAddr, uint64_t classSuperclassVMAddr, uint64_t classDataVMAddr,
- const dyld3::MachOAnalyzer::ObjCClassInfo& objcClass, bool isMetaClass, bool& stop) {
- objcClassesRuntimeOffsets.insert(classVMAddr - imageBaseAddress);
- };
- Diagnostics objcDiag;
- ma->forEachObjCClass(objcDiag, vmAddrConverter, visitClass);
-
- Diagnostics singletonDiag;
- ma->forEachSingletonPatch(singletonDiag, ^(dyld3::MachOAnalyzer::SingletonPatchKind kind,
- uint64_t runtimeOffset) {
- // We only know about the cf objects for now
- if ( kind != dyld3::MachOAnalyzer::SingletonPatchKind::cfObj2 )
- return;
-
- singletonCFObjectRuntimeOffsets.insert(runtimeOffset);
- });
- }
-
- // Add all the exports for this image
- for (const CacheOffset& exportCacheOffset : dylibSymbolClients._usedExports) {
- // Add the name, if no-one else has
- uint32_t exportNameOffset = 0;
- auto nameItAndInserted = exportNameOffsets.insert({ exportCacheOffset, (uint32_t)patchExportNames.size() });
- if ( nameItAndInserted.second ) {
- // We inserted the name, so make space for it
- std::string exportName = _exportsToName[exportCacheOffset];
- patchExportNames.insert(patchExportNames.end(), &exportName[0], &exportName[0] + exportName.size() + 1);
- exportNameOffset = nameItAndInserted.first->second;
- } else {
- // The name already existed. Use the offset from earlier
- exportNameOffset = nameItAndInserted.first->second;
- }
-
- uint32_t dylibOffsetOfImpl = (uint32_t)((_archLayout->sharedMemoryStart + exportCacheOffset) - imageBaseAddress);
-
- PatchKind patchKind = PatchKind::regular;
- if ( objcClassesRuntimeOffsets.count(dylibOffsetOfImpl) ) {
- patchKind = PatchKind::objcClass;
- } else if ( singletonCFObjectRuntimeOffsets.count(dylibOffsetOfImpl) ) {
- patchKind = PatchKind::cfObj2;
- }
-
- dyld_cache_image_export_v2 imageExport;
- imageExport.dylibOffsetOfImpl = dylibOffsetOfImpl;
- imageExport.exportNameOffset = (uint32_t)exportNameOffset;
- imageExport.patchKind = (uint32_t)patchKind;
- imageExports.push_back(imageExport);
- }
-
- patchImages.push_back(patchImage);
- });
-
- while ( (patchExportNames.size() % 4) != 0 )
- patchExportNames.push_back('\0');
-
- uint64_t patchInfoSize = sizeof(dyld_cache_patch_info_v3);
- patchInfoSize += sizeof(dyld_cache_image_patches_v2) * patchImages.size();
- patchInfoSize += sizeof(dyld_cache_image_export_v2) * imageExports.size();
- patchInfoSize += sizeof(dyld_cache_image_clients_v2) * patchClients.size();
- patchInfoSize += sizeof(dyld_cache_patchable_export_v2) * clientExports.size();
- patchInfoSize += sizeof(dyld_cache_patchable_location_v2) * patchLocations.size();
- patchInfoSize += sizeof(dyld_cache_image_got_clients_v3) * gotClients.size();
- patchInfoSize += sizeof(dyld_cache_patchable_export_v3) * gotClientExports.size();
- patchInfoSize += sizeof(dyld_cache_patchable_location_v3) * gotPatchLocations.size();
- patchInfoSize += patchExportNames.size();
-
-#if 0
- fprintf(stderr, "sizeof(dyld_cache_patch_info_v3): %lu\n", sizeof(dyld_cache_patch_info_v3));
- fprintf(stderr, "sizeof(dyld_cache_image_patches_v2) * patchImages.size(): %lu with %lu uses\n", sizeof(dyld_cache_image_patches_v2) * patchImages.size(), patchImages.size());
- fprintf(stderr, "sizeof(dyld_cache_image_export_v2) * imageExports.size(): %lu with %lu uses\n", sizeof(dyld_cache_image_export_v2) * imageExports.size(), imageExports.size());
- fprintf(stderr, "sizeof(dyld_cache_image_clients_v2) * patchClients.size(): %lu with %lu uses\n", sizeof(dyld_cache_image_clients_v2) * patchClients.size(), patchClients.size());
- fprintf(stderr, "sizeof(dyld_cache_patchable_export_v2) * clientExports.size(): %lu with %lu uses\n", sizeof(dyld_cache_patchable_export_v2) * clientExports.size(), clientExports.size());
- fprintf(stderr, "sizeof(dyld_cache_patchable_location_v2) * patchLocations.size(): %lu with %lu uses\n", sizeof(dyld_cache_patchable_location_v2) * patchLocations.size(), patchLocations.size());
- fprintf(stderr, "sizeof(dyld_cache_image_got_clients_v3) * gotClients.size(): %lu with %lu uses\n", sizeof(dyld_cache_image_got_clients_v3) * gotClients.size(), gotClients.size());
- fprintf(stderr, "sizeof(dyld_cache_patchable_export_v3) * gotClientExports.size(): %lu with %lu uses\n", sizeof(dyld_cache_patchable_export_v3) * gotClientExports.size(), gotClientExports.size());
- fprintf(stderr, "sizeof(dyld_cache_patchable_location_v3) * gotPatchLocations.size(): %lu with %lu uses\n", sizeof(dyld_cache_patchable_location_v3) * gotPatchLocations.size(), gotPatchLocations.size());
- fprintf(stderr, "patchExportNames.size(): %lu\n", patchExportNames.size());
- fprintf(stderr, "patchInfoSize: %lld\n", patchInfoSize);
-#endif
-
- Region& readOnlyRegion = getSharedCacheReadOnlyRegion();
-
- // check for fit
- size_t freeSpace = readOnlyRegion.bufferSize - readOnlyRegion.sizeInUse;
- if ( patchInfoSize > freeSpace ) {
- _diagnostics.error("cache buffer too small to hold Trie (buffer size=%lldMB, patch size=%lluKB, free space=%ldMB)",
- _allocatedBufferSize/1024/1024, patchInfoSize/1024, freeSpace/1024/1024);
- return;
- }
-
- assert(gotClients.size() == patchImages.size());
-
- // copy patch info into cache and update header
- dyldCache->header.patchInfoAddr = readOnlyRegion.unslidLoadAddress + readOnlyRegion.sizeInUse;
- dyldCache->header.patchInfoSize = patchInfoSize;
-
- dyld_cache_patch_info_v3 patchInfo;
- patchInfo.patchTableVersion = 3;
- patchInfo.patchLocationVersion = 0;
- patchInfo.patchTableArrayAddr = dyldCache->header.patchInfoAddr + sizeof(dyld_cache_patch_info_v3);
- patchInfo.patchTableArrayCount = patchImages.size();
- patchInfo.patchImageExportsArrayAddr = patchInfo.patchTableArrayAddr + (patchInfo.patchTableArrayCount * sizeof(dyld_cache_image_patches_v2));
- patchInfo.patchImageExportsArrayCount = imageExports.size();
- patchInfo.patchClientsArrayAddr = patchInfo.patchImageExportsArrayAddr + (patchInfo.patchImageExportsArrayCount * sizeof(dyld_cache_image_export_v2));
- patchInfo.patchClientsArrayCount = patchClients.size();
- patchInfo.patchClientExportsArrayAddr = patchInfo.patchClientsArrayAddr + (patchInfo.patchClientsArrayCount * sizeof(dyld_cache_image_clients_v2));
- patchInfo.patchClientExportsArrayCount = clientExports.size();
- patchInfo.patchLocationArrayAddr = patchInfo.patchClientExportsArrayAddr + (patchInfo.patchClientExportsArrayCount * sizeof(dyld_cache_patchable_export_v2));
- patchInfo.patchLocationArrayCount = patchLocations.size();
- patchInfo.gotClientsArrayAddr = patchInfo.patchLocationArrayAddr + (patchInfo.patchLocationArrayCount * sizeof(dyld_cache_patchable_location_v2));
- patchInfo.gotClientsArrayCount = gotClients.size();
- patchInfo.gotClientExportsArrayAddr = patchInfo.gotClientsArrayAddr + (patchInfo.gotClientsArrayCount * sizeof(dyld_cache_image_got_clients_v3));
- patchInfo.gotClientExportsArrayCount = gotClientExports.size();
- patchInfo.gotLocationArrayAddr = patchInfo.gotClientExportsArrayAddr + (patchInfo.gotClientExportsArrayCount * sizeof(dyld_cache_patchable_export_v3));
- patchInfo.gotLocationArrayCount = gotPatchLocations.size();
- patchInfo.patchExportNamesAddr = patchInfo.gotLocationArrayAddr + (patchInfo.gotLocationArrayCount * sizeof(dyld_cache_patchable_location_v3));
- patchInfo.patchExportNamesSize = patchExportNames.size();
-
- // Patch header
- ::memcpy(readOnlyRegion.buffer + dyldCache->header.patchInfoAddr - readOnlyRegion.unslidLoadAddress,
- &patchInfo, sizeof(dyld_cache_patch_info_v3));
-
- // (dylib, client) patch table
- ::memcpy(readOnlyRegion.buffer + patchInfo.patchTableArrayAddr - readOnlyRegion.unslidLoadAddress,
- &patchImages[0], sizeof(patchImages[0]) * patchImages.size());
- ::memcpy(readOnlyRegion.buffer + patchInfo.patchImageExportsArrayAddr - readOnlyRegion.unslidLoadAddress,
- &imageExports[0], sizeof(imageExports[0]) * imageExports.size());
- ::memcpy(readOnlyRegion.buffer + patchInfo.patchClientsArrayAddr - readOnlyRegion.unslidLoadAddress,
- &patchClients[0], sizeof(patchClients[0]) * patchClients.size());
- ::memcpy(readOnlyRegion.buffer + patchInfo.patchClientExportsArrayAddr - readOnlyRegion.unslidLoadAddress,
- &clientExports[0], sizeof(clientExports[0]) * clientExports.size());
- ::memcpy(readOnlyRegion.buffer + patchInfo.patchLocationArrayAddr - readOnlyRegion.unslidLoadAddress,
- &patchLocations[0], sizeof(patchLocations[0]) * patchLocations.size());
-
- // Got patch table
- ::memcpy(readOnlyRegion.buffer + patchInfo.gotClientsArrayAddr - readOnlyRegion.unslidLoadAddress,
- &gotClients[0], sizeof(gotClients[0]) * gotClients.size());
- ::memcpy(readOnlyRegion.buffer + patchInfo.gotClientExportsArrayAddr - readOnlyRegion.unslidLoadAddress,
- &gotClientExports[0], sizeof(gotClientExports[0]) * gotClientExports.size());
- ::memcpy(readOnlyRegion.buffer + patchInfo.gotLocationArrayAddr - readOnlyRegion.unslidLoadAddress,
- &gotPatchLocations[0], sizeof(gotPatchLocations[0]) * gotPatchLocations.size());
-
- // Shared export names
- ::memcpy(readOnlyRegion.buffer + patchInfo.patchExportNamesAddr - readOnlyRegion.unslidLoadAddress,
- &patchExportNames[0], patchExportNames.size());
- readOnlyRegion.sizeInUse += patchInfoSize;
-}
-
-
-void SharedCacheBuilder::buildLaunchSets(const std::vector<LoadedMachO>& osExecutables, const std::vector<LoadedMachO>& otherDylibs, const std::vector<LoadedMachO>& moreOtherDylibs)
-{
- // build map for osDelegate to use for fileExists() and withReadOnlyMappedFile()
- const bool verbose = false;
- SyscallDelegate::PathToMapping otherMapping;
- for (const LoadedMachO& other : otherDylibs) {
- if (verbose) fprintf(stderr, "other: %s\n", other.inputFile->path);
- otherMapping[other.inputFile->path] = { other.mappedFile.mh, other.mappedFile.length };
- }
- for (const LoadedMachO& other : moreOtherDylibs) {
- if (verbose) fprintf(stderr, "more other: %s\n", other.inputFile->path);
- otherMapping[other.inputFile->path] = { other.mappedFile.mh, other.mappedFile.length };
- }
-
-
- // build PrebuiltLoaderSet for each executable and place in map<>
- DyldSharedCache* dyldCache = (DyldSharedCache*)_subCaches.front()._readExecuteRegion.buffer;
- std::map<std::string, const PrebuiltLoaderSet*> prebuiltsMap;
- for (const LoadedMachO& exe : osExecutables) {
- if (verbose) printf("osExecutable: %s\n", exe.inputFile->path);
- // don't build PrebuiltLoaderSet for staged apps, as they will be run from a different location
- if ( strstr(exe.inputFile->path, "/staged_system_apps/") != nullptr )
- continue;
- const MachOAnalyzer* mainMA = (MachOAnalyzer*)exe.loadedFileInfo.fileContent;
- KernelArgs kernArgs(mainMA, {"test.exe"}, {}, {});
- SyscallDelegate osDelegate;
- osDelegate._mappedOtherDylibs = otherMapping;
- osDelegate._gradedArchs = _options.archs;
- osDelegate._dyldCache = dyldCache;
- Allocator& alloc = Allocator::defaultAllocator();
- ProcessConfig config(&kernArgs, osDelegate, alloc);
- RuntimeState state(config, alloc);
- RuntimeState* statePtr = &state;
- Diagnostics launchDiag;
-
- config.reset(mainMA, exe.inputFile->path, dyldCache);
- state.resetCachedDylibsArrays();
-
- Loader::LoadOptions::Finder loaderFinder = ^(Diagnostics& diag, dyld3::Platform plat, const char* loadPath, const dyld4::Loader::LoadOptions& options) {
- uint32_t dylibIndex;
- // when building macOS cache, there may be some incorrect catalyst paths
- if ( (plat == dyld3::Platform::iOSMac) && (strncmp(loadPath, "/System/iOSSupport/", 19) != 0) ) {
- char altPath[PATH_MAX];
- strlcpy(altPath, "/System/iOSSupport", PATH_MAX);
- strlcat(altPath, loadPath, PATH_MAX);
- if ( dyldCache->hasImagePath(altPath, dylibIndex) ) {
- const PrebuiltLoader* ldr = this->_cachedDylibsLoaderSet->atIndex(dylibIndex);
- return (const Loader*)ldr;
- }
- }
- // first check if path is a dylib in the dyld cache, then use its PrebuiltLoader
- if ( dyldCache->hasImagePath(loadPath, dylibIndex) ) {
- const PrebuiltLoader* ldr = this->_cachedDylibsLoaderSet->atIndex(dylibIndex);
- return (const Loader*)ldr;
- }
- // call through to getLoader() which will expand @paths
- const Loader* ldr = Loader::getLoader(diag, *statePtr, loadPath, options);
- return (const Loader*)ldr;
- };
-
-
- if ( Loader* mainLoader = JustInTimeLoader::makeLaunchLoader(launchDiag, state, mainMA, exe.inputFile->path) ) {
- __block dyld4::MissingPaths missingPaths;
- auto missingLogger = ^(const char* mustBeMissingPath) {
- missingPaths.addPath(mustBeMissingPath);
- };
- Loader::LoadChain loadChainMain { nullptr, mainLoader };
- Loader::LoadOptions options;
- options.staticLinkage = true;
- options.launching = true;
- options.canBeDylib = true;
- options.rpathStack = &loadChainMain;
- options.finder = loaderFinder;
- options.pathNotFoundHandler = missingLogger;
- mainLoader->loadDependents(launchDiag, state, options);
- if ( launchDiag.hasError() ) {
- fprintf(stderr, "warning: can't build PrebuiltLoader for '%s': %s\n", exe.inputFile->path, launchDiag.errorMessageCStr());
- if (verbose) printf("skip %s\n", exe.inputFile->path);
- continue;
- }
- state.setMainLoader(mainLoader);
- const PrebuiltLoaderSet* prebuiltAppSet = PrebuiltLoaderSet::makeLaunchSet(launchDiag, state, missingPaths);
- if ( launchDiag.hasError() ) {
- fprintf(stderr, "warning: can't build PrebuiltLoaderSet for '%s': %s\n", exe.inputFile->path, launchDiag.errorMessageCStr());
- if (verbose) printf("skip %s\n", exe.inputFile->path);
- continue;
- }
- if ( prebuiltAppSet != nullptr ) {
- prebuiltsMap[exe.inputFile->path] = prebuiltAppSet;
- if (verbose) printf("%5lu %s\n", prebuiltAppSet->size(), exe.inputFile->path);
- //state.setProcessPrebuiltLoaderSet(prebuiltAppSet);
- //prebuiltAppSet->print(state, stderr);
- }
- }
- else {
- fprintf(stderr, "warning: can't build PrebuiltLoaderSet for '%s': %s\n", exe.inputFile->path, launchDiag.errorMessageCStr());
- }
- // reclear byte array so that final cache created has them all zeroed
- state.resetCachedDylibsArrays();
- }
-
- Region& readOnlyRegion = getSharedCacheReadOnlyRegion();
-
- // copy all PrebuiltLoaderSets into cache
- size_t prebuiltsSpace = 0;
- for (const auto& entry : prebuiltsMap) {
- prebuiltsSpace += align(entry.second->size(),3);
- }
- readOnlyRegion.sizeInUse = align(readOnlyRegion.sizeInUse, 3);
- size_t freeSpace = readOnlyRegion.bufferSize - readOnlyRegion.sizeInUse;
- if ( prebuiltsSpace > freeSpace ) {
- _diagnostics.error("cache buffer too small to hold all PrebuiltLoaderSets (buffer size=%lldMB, PrebuiltLoaderSets size=%ldMB, free space=%ldMB)",
- _allocatedBufferSize/1024/1024, prebuiltsSpace/1024/1024, freeSpace/1024/1024);
- return;
- }
- dyldCache->header.programsPBLSetPoolAddr = readOnlyRegion.unslidLoadAddress + readOnlyRegion.sizeInUse;
- uint8_t* poolBase = readOnlyRegion.buffer + readOnlyRegion.sizeInUse;
- __block std::vector<DylibIndexTrie::Entry> trieEntrys;
- uint32_t currentPoolOffset = 0;
- for (const auto& entry : prebuiltsMap) {
- const PrebuiltLoaderSet* pbls = entry.second;
- trieEntrys.push_back(DylibIndexTrie::Entry(entry.first, DylibIndex(currentPoolOffset)));
-
- // Add cdHashes to the trie so that we can look up by cdHash at runtime
- // Assumes that cdHash strings at runtime use lowercase a-f digits
- const PrebuiltLoader* mainPbl = pbls->atIndex(0);
- mainPbl->withCDHash(^(const uint8_t *cdHash) {
- std::string cdHashStr = "/cdhash/";
- cdHashStr.reserve(24);
- for (int i=0; i < 20; ++i) {
- uint8_t byte = cdHash[i];
- uint8_t nibbleL = byte & 0x0F;
- uint8_t nibbleH = byte >> 4;
- if ( nibbleH < 10 )
- cdHashStr += '0' + nibbleH;
- else
- cdHashStr += 'a' + (nibbleH-10);
- if ( nibbleL < 10 )
- cdHashStr += '0' + nibbleL;
- else
- cdHashStr += 'a' + (nibbleL-10);
- }
- trieEntrys.push_back(DylibIndexTrie::Entry(cdHashStr, DylibIndex(currentPoolOffset)));
- });
-
- size_t size = pbls->size();
- ::memcpy(poolBase+currentPoolOffset, pbls, size);
- currentPoolOffset += align(size,3);
- freeSpace -= size;
- pbls->deallocate();
- }
- dyldCache->header.programsPBLSetPoolSize = currentPoolOffset;
- readOnlyRegion.sizeInUse += currentPoolOffset;
- freeSpace = readOnlyRegion.bufferSize - readOnlyRegion.sizeInUse;
- // build trie of indexes into closures list
- DylibIndexTrie programTrie(trieEntrys);
- std::vector<uint8_t> trieBytes;
- programTrie.emit(trieBytes);
- while ( (trieBytes.size() % 8) != 0 )
- trieBytes.push_back(0);
- if ( trieBytes.size() > freeSpace ) {
- _diagnostics.error("cache buffer too small to hold PrebuiltLoaderSet trie (buffer size=%lldMB, trie size=%ldMB, free space=%ldMB)",
- _allocatedBufferSize/1024/1024, trieBytes.size()/1024/1024, freeSpace/1024/1024);
- return;
- }
- ::memcpy(readOnlyRegion.buffer + readOnlyRegion.sizeInUse, &trieBytes[0], trieBytes.size());
- dyldCache->header.programTrieAddr = readOnlyRegion.unslidLoadAddress + readOnlyRegion.sizeInUse;
- dyldCache->header.programTrieSize = (uint32_t)trieBytes.size();
- readOnlyRegion.sizeInUse += trieBytes.size();
- readOnlyRegion.sizeInUse = align(readOnlyRegion.sizeInUse, 14);
-}
-
-#if 0
-void SharedCacheBuilder::emitContantObjects() {
- if ( _coalescedText.cfStrings.bufferSize == 0 )
- return;
-
- Region& firstReadExecuteRegion = _subCaches.front()._readExecuteRegion;
-
- assert(_coalescedText.cfStrings.isaInstallName != nullptr);
- DyldSharedCache* cache = (DyldSharedCache*)_subCaches.front()._readExecuteRegion.buffer;
- __block uint64_t targetSymbolOffsetInCache = 0;
- __block const dyld3::MachOAnalyzer* targetSymbolMA = nullptr;
- __block const dyld3::MachOAnalyzer* libdyldMA = nullptr;
- cache->forEachImage(^(const mach_header* mh, const char* installName) {
- const dyld3::MachOAnalyzer* ma = (const dyld3::MachOAnalyzer*)mh;
-
- if ( strcmp(installName, "/usr/lib/system/libdyld.dylib") == 0 ) {
- libdyldMA = ma;
- }
-
- if ( targetSymbolOffsetInCache != 0 )
- return;
- if ( strcmp(installName, _coalescedText.cfStrings.isaInstallName) != 0 )
- return;
- dyld3::MachOAnalyzer::FoundSymbol foundInfo;
- bool foundSymbol = ma->findExportedSymbol(_diagnostics, _coalescedText.cfStrings.isaClassName,
- false, foundInfo, nullptr);
- if ( foundSymbol ) {
- targetSymbolOffsetInCache = (uint8_t*)ma - firstReadExecuteRegion.buffer + foundInfo.value;
- targetSymbolMA = ma;
- }
- });
- if ( targetSymbolOffsetInCache == 0 ) {
- _diagnostics.error("Could not find export of '%s' in '%s'", _coalescedText.cfStrings.isaClassName,
- _coalescedText.cfStrings.isaInstallName);
- return;
- }
- if ( libdyldMA == nullptr ) {
- _diagnostics.error("Could not libdyld.dylib in shared cache");
- return;
- }
-
- // If all binds to this symbol were via CF constants, then we'll never have seen the ISA patch export
- // os add it now just in case
- _dylibToItsExports[targetSymbolMA].insert(targetSymbolOffsetInCache);
- _exportsToName[targetSymbolOffsetInCache] = _coalescedText.cfStrings.isaClassName;
-
- // The subCache containing libobjc should get CFString's for now
- CacheBuilder::ASLR_Tracker* objcASLRTracker = &_objcReadWriteMetadataSubCache->_aslrTracker;
-
- // CFString's have so far just been memcpy'ed from the source dylib to the shared cache.
- // We now need to rewrite their ISAs to be rebases to the ___CFConstantStringClassReference class
- const uint64_t cfStringAtomSize = (uint64_t)DyldSharedCache::ConstantClasses::cfStringAtomSize;
- assert( (_coalescedText.cfStrings.bufferSize % cfStringAtomSize) == 0);
- for (uint64_t bufferOffset = 0; bufferOffset != _coalescedText.cfStrings.bufferSize; bufferOffset += cfStringAtomSize) {
- uint8_t* atomBuffer = _coalescedText.cfStrings.bufferAddr + bufferOffset;
- // The ISA fixup is at an offset of 0 in to the atom
- uint8_t* fixupLoc = atomBuffer;
- // We purposefully want to remove the pointer authentication from the ISA so
- // just use an empty pointer metadata
- dyld3::MachOLoaded::PointerMetaData pmd;
- uint64_t addend = 0;
- _exportsToUses[targetSymbolOffsetInCache].push_back(makePatchLocation(fixupLoc - firstReadExecuteRegion.buffer, pmd, addend));
- *(uint64_t*)fixupLoc = _archLayout->sharedMemoryStart + targetSymbolOffsetInCache;
- objcASLRTracker->add(fixupLoc);
- }
-
- // Set the ranges in the libdyld in the shared cache. At runtime we can use these to quickly check if a given address
- // is a valid constant
- typedef std::pair<const uint8_t*, const uint8_t*> ObjCConstantRange;
- std::pair<const void*, uint64_t> sharedCacheRanges = cache->getObjCConstantRange();
- uint64_t numRanges = sharedCacheRanges.second / sizeof(ObjCConstantRange);
- dyld3::Array<ObjCConstantRange> rangeArray((ObjCConstantRange*)sharedCacheRanges.first, numRanges, numRanges);
-
- // The subCache containing libdyld should contain the ranges metadata
- CacheBuilder::ASLR_Tracker* libdyldASLRTracker = &_libdyldReadWriteMetadataSubCache->_aslrTracker;
-
- if ( numRanges > dyld_objc_string_kind ) {
- rangeArray[dyld_objc_string_kind].first = (const uint8_t*)_coalescedText.cfStrings.bufferVMAddr;
- rangeArray[dyld_objc_string_kind].second = rangeArray[dyld_objc_string_kind].first + _coalescedText.cfStrings.bufferSize;
- libdyldASLRTracker->add(&rangeArray[dyld_objc_string_kind].first);
- libdyldASLRTracker->add(&rangeArray[dyld_objc_string_kind].second);
- }
-
- // Update the __SHARED_CACHE range in libdyld to contain the cf/objc constants
- libdyldMA->forEachLoadCommand(_diagnostics, ^(const load_command* cmd, bool& stop) {
- // We don't handle 32-bit as this is only needed for pointer authentication
- assert(cmd->cmd != LC_SEGMENT);
- if ( cmd->cmd == LC_SEGMENT_64 ) {
- segment_command_64* seg = (segment_command_64*)cmd;
- if ( strcmp(seg->segname, "__SHARED_CACHE") == 0 ) {
- // Update the range of this segment, and any sections inside
- seg->vmaddr = _coalescedText.cfStrings.bufferVMAddr;
- seg->vmsize = _coalescedText.cfStrings.bufferSize;
- seg->fileoff = _coalescedText.cfStrings.cacheFileOffset;
- seg->fileoff = _coalescedText.cfStrings.bufferSize;
- section_64* const sectionsStart = (section_64*)((char*)seg + sizeof(struct segment_command_64));
- section_64* const sectionsEnd = §ionsStart[seg->nsects];
- for (section_64* sect=sectionsStart; sect < sectionsEnd; ++sect) {
- if ( !strcmp(sect->sectname, "__cfstring") ) {
- sect->addr = _coalescedText.cfStrings.bufferVMAddr;
- sect->size = _coalescedText.cfStrings.bufferSize;
- sect->offset = (uint32_t)_coalescedText.cfStrings.cacheFileOffset;
- }
- }
- stop = true;
- }
- }
- });
-}
-#endif
-
-
-bool SharedCacheBuilder::writeSubCache(const SubCache& subCache, bool devRegion, void (^cacheSizeCallback)(uint64_t size), bool (^copyCallback)(const uint8_t* src, uint64_t size, uint64_t dstOffset))
-{
- const Region* readExecuteRegion = &subCache._readExecuteRegion;
- const UnmappedRegion* codeSignatureRegion = &subCache._codeSignatureRegion;
- if ( devRegion ) {
- //readExecuteRegion = &subCache._devReadExecuteRegion.value();
- readExecuteRegion = &(*(subCache._devReadExecuteRegion));
- //codeSignatureRegion = &subCache._devCodeSignatureRegion.value();
- codeSignatureRegion = &(*(subCache._devCodeSignatureRegion));
- }
-
- const dyld_cache_header* cacheHeader = (dyld_cache_header*)readExecuteRegion->buffer;
- const dyld_cache_mapping_info* mappings = (dyld_cache_mapping_info*)(readExecuteRegion->buffer + cacheHeader->mappingOffset);
- const uint32_t mappingsCount = cacheHeader->mappingCount;
- // Check the sizes of all the regions are correct
- assert(readExecuteRegion->sizeInUse == mappings[0].size);
- for (uint32_t i = 0; i != subCache._dataRegions.size(); ++i) {
- assert(subCache._dataRegions[i].sizeInUse == mappings[i + 1].size);
- }
- if ( subCache._readOnlyRegion.has_value() )
- assert(subCache._readOnlyRegion->sizeInUse == mappings[mappingsCount - 1].size);
-
- // Check the file offsets of all the regions are correct
- assert(readExecuteRegion->cacheFileOffset == mappings[0].fileOffset);
- for (uint32_t i = 0; i != subCache._dataRegions.size(); ++i) {
- assert(subCache._dataRegions[i].cacheFileOffset == mappings[i + 1].fileOffset);
- }
- if ( subCache._readOnlyRegion.has_value() )
- assert(subCache._readOnlyRegion->cacheFileOffset == mappings[mappingsCount - 1].fileOffset);
- assert(codeSignatureRegion->sizeInUse == cacheHeader->codeSignatureSize);
- if ( &subCache == &_localSymbolsSubCache ) {
- assert(cacheHeader->codeSignatureOffset == (subCache.highestFileOffset() + _localSymbolsRegion.sizeInUse) );
- } else {
- assert(cacheHeader->codeSignatureOffset == subCache.highestFileOffset() );
- }
-
- // Make sure the slidable mappings have the same ranges as the original mappings
- const dyld_cache_mapping_and_slide_info* slidableMappings = (dyld_cache_mapping_and_slide_info*)(readExecuteRegion->buffer + cacheHeader->mappingWithSlideOffset);
- assert(cacheHeader->mappingCount == cacheHeader->mappingWithSlideCount);
- for (uint32_t i = 0; i != cacheHeader->mappingCount; ++i) {
- assert(mappings[i].address == slidableMappings[i].address);
- assert(mappings[i].size == slidableMappings[i].size);
- assert(mappings[i].fileOffset == slidableMappings[i].fileOffset);
- assert(mappings[i].maxProt == slidableMappings[i].maxProt);
- assert(mappings[i].initProt == slidableMappings[i].initProt);
- }
-
- // Now that we know everything is correct, actually copy the data
- {
- uint64_t sizeInUse = 0;
- sizeInUse += readExecuteRegion->sizeInUse;
- sizeInUse += subCache.dataRegionsSizeInUse();
- sizeInUse += subCache._readOnlyRegion.has_value() ? subCache._readOnlyRegion->sizeInUse : 0;
- sizeInUse += codeSignatureRegion->sizeInUse;
- if ( &subCache == &_localSymbolsSubCache )
- sizeInUse += _localSymbolsRegion.sizeInUse;
- cacheSizeCallback(sizeInUse);
- }
- bool fullyWritten = copyCallback(readExecuteRegion->buffer, readExecuteRegion->sizeInUse, mappings[0].fileOffset);
- for (uint32_t i = 0; i != subCache._dataRegions.size(); ++i) {
- fullyWritten &= copyCallback(subCache._dataRegions[i].buffer, subCache._dataRegions[i].sizeInUse, mappings[i + 1].fileOffset);
- }
- if ( subCache._readOnlyRegion.has_value() ) {
- const Region& readOnlyRegion = *(subCache._readOnlyRegion);
- fullyWritten &= copyCallback(readOnlyRegion.buffer, readOnlyRegion.sizeInUse, mappings[cacheHeader->mappingCount - 1].fileOffset);
- }
- if ( (_localSymbolsRegion.sizeInUse != 0) && (&subCache == &_localSymbolsSubCache) ) {
- // The locals cache has only __TEXT
- assert(cacheHeader->mappingCount == 1);
- assert(cacheHeader->localSymbolsOffset == mappings[0].fileOffset+readExecuteRegion->sizeInUse);
- fullyWritten &= copyCallback(_localSymbolsRegion.buffer, _localSymbolsRegion.sizeInUse, cacheHeader->localSymbolsOffset);
- }
- fullyWritten &= copyCallback(codeSignatureRegion->buffer, codeSignatureRegion->sizeInUse, cacheHeader->codeSignatureOffset);
- return fullyWritten;
-}
-
-
-void SharedCacheBuilder::writeSubCacheFile(const SubCache& subCache, const std::string& path)
-{
- std::string pathTemplate = path + "-XXXXXX";
- size_t templateLen = strlen(pathTemplate.c_str())+2;
- BLOCK_ACCCESSIBLE_ARRAY(char, pathTemplateSpace, templateLen);
- strlcpy(pathTemplateSpace, pathTemplate.c_str(), templateLen);
- int fd = mkstemp(pathTemplateSpace);
- if ( fd != -1 ) {
- auto cacheSizeCallback = ^(uint64_t size) {
- // set final cache file size (may help defragment file)
- ::ftruncate(fd, size);
- };
- auto copyCallback = ^(const uint8_t* src, uint64_t size, uint64_t dstOffset) {
- uint64_t writtenSize = pwrite(fd, src, size, dstOffset);
- return writtenSize == size;
- };
- // <rdar://problem/55370916> TOCTOU: verify path is still a realpath (not changed)
- char tempPath[MAXPATHLEN];
- if ( ::fcntl(fd, F_GETPATH, tempPath) == 0 ) {
- size_t tempPathLen = strlen(tempPath);
- if ( tempPathLen > 7 )
- tempPath[tempPathLen-7] = '\0'; // remove trailing -xxxxxx
- if ( path != tempPath ) {
- _diagnostics.error("output file path changed from: '%s' to: '%s'", path.c_str(), tempPath);
- ::close(fd);
- return;
- }
- }
- else {
- _diagnostics.error("unable to fcntl(fd, F_GETPATH) on output file");
- ::close(fd);
- return;
- }
- bool fullyWritten = writeSubCache(subCache, false, cacheSizeCallback, copyCallback);
- if ( fullyWritten ) {
- ::fchmod(fd, S_IRUSR|S_IRGRP|S_IROTH); // mkstemp() makes file "rw-------", switch it to "r--r--r--"
- // <rdar://problem/55370916> TOCTOU: verify path is still a realpath (not changed)
- // For MRM bringup, dyld installs symlinks from:
- // dyld_shared_cache_x86_64 -> ../../../../System/Library/dyld/dyld_shared_cache_x86_64
- // dyld_shared_cache_x86_64h -> ../../../../System/Library/dyld/dyld_shared_cache_x86_64h
- // We don't want to follow that symlink when we install the cache, but instead write over it
- auto lastSlash = path.find_last_of("/");
- if ( lastSlash != std::string::npos ) {
- std::string directoryPath = path.substr(0, lastSlash);
-
- char resolvedPath[PATH_MAX];
- ::realpath(directoryPath.c_str(), resolvedPath);
- // Note: if the target cache file does not already exist, realpath() will return NULL, but still fill in the path buffer
- if ( directoryPath != resolvedPath ) {
- _diagnostics.error("output directory file path changed from: '%s' to: '%s'", directoryPath.c_str(), resolvedPath);
- return;
- }
- }
- if ( ::rename(pathTemplateSpace, path.c_str()) == 0) {
- ::close(fd);
- return; // success
- } else {
- _diagnostics.error("could not rename file '%s' to: '%s'", pathTemplateSpace, path.c_str());
- }
- }
- else {
- _diagnostics.error("could not write file %s", pathTemplateSpace);
- }
- ::close(fd);
- ::unlink(pathTemplateSpace);
- }
- else {
- _diagnostics.error("could not open file %s", pathTemplateSpace);
- }
-}
-
-void SharedCacheBuilder::writeFile(const std::string& path)
-{
- std::string suffix = "";
- uint32_t index = 0;
- for (const SubCache& subCache : _subCaches) {
- writeSubCacheFile(subCache, path + suffix);
- ++index;
- suffix = std::string(".") + dyld3::json::decimal(index);
- }
-}
-
-void SharedCacheBuilder::writeBuffers(std::vector<CacheBuffer>& cacheBuffers, bool customerOnly, bool devOnly) {
- for (const SubCache& subCache : _subCaches) {
- __block uint8_t* buffer = nullptr;
- __block uint64_t bufferSize = 0;
- auto cacheSizeCallback = ^(uint64_t size) {
- buffer = (uint8_t*)malloc(size);
- bufferSize = size;
- };
- auto copyCallback = ^(const uint8_t* src, uint64_t size, uint64_t dstOffset) {
- memcpy(buffer + dstOffset, src, size);
- return true;
- };
-
-
- bool writeDevRegion = false;
- bool fullyWritten = false;
- // If a dev equivalent exists, and devOnly is set to true, do not write customer stubs and headers for Universal caches
- if ( !subCache._devReadExecuteRegion.has_value() || !devOnly ) {
- fullyWritten = writeSubCache(subCache, writeDevRegion, cacheSizeCallback, copyCallback);
- assert(fullyWritten);
-
- CacheBuffer cacheBuffer;
- cacheBuffer.bufferData = buffer;
- cacheBuffer.bufferSize = bufferSize;
- cacheBuffer.cdHash = subCache.cdHashFirst();
- cacheBuffer.uuid = subCache.uuid();
- if ( subCache._dataRegions.size() > 0 )
- cacheBuffer.isData = true;
- else if ( subCache._readOnlyRegion.has_value() )
- cacheBuffer.isLinkedit = true;
- cacheBuffers.push_back(cacheBuffer);
- }
-
- if ( customerOnly )
- continue;
- // Write development stubs and headers for Universal cache
- if ( subCache._devReadExecuteRegion.has_value() ) {
- writeDevRegion = true;
- buffer = nullptr;
- bufferSize = 0;
- fullyWritten = writeSubCache(subCache, writeDevRegion, cacheSizeCallback, copyCallback);
- assert(fullyWritten);
-
- CacheBuffer devCacheBuffer;
- devCacheBuffer.bufferData = buffer;
- devCacheBuffer.bufferSize = bufferSize;
- devCacheBuffer.cdHash = subCache.devCdHashFirst();
- devCacheBuffer.uuid = subCache.devUuid();
- devCacheBuffer.isDevRegion = true;
- cacheBuffers.push_back(devCacheBuffer);
- }
- }
-}
-
-void SharedCacheBuilder::writeSymbolFileBuffer(CacheBuffer& cacheBuffer) {
- if ( _localSymbolsRegion.sizeInUse == 0 )
- return;
-
- __block uint8_t* buffer = nullptr;
- __block uint64_t bufferSize = 0;
- auto cacheSizeCallback = ^(uint64_t size) {
- buffer = (uint8_t*)malloc(size);
- bufferSize = size;
- };
- auto copyCallback = ^(const uint8_t* src, uint64_t size, uint64_t dstOffset) {
- memcpy(buffer + dstOffset, src, size);
- return true;
- };
-
- bool fullyWritten = writeSubCache(_localSymbolsSubCache, false, cacheSizeCallback, copyCallback);
- assert(fullyWritten);
-
- cacheBuffer.bufferData = buffer;
- cacheBuffer.bufferSize = bufferSize;
- cacheBuffer.cdHash = _localSymbolsSubCache.cdHashFirst();
- cacheBuffer.uuid = _localSymbolsSubCache.uuid();
-}
-
-void SharedCacheBuilder::writeMapFile(const std::string& path)
-{
- std::string mapContent = getMapFileBuffer();
- safeSave(mapContent.c_str(), mapContent.size(), path);
-}
-
-std::string SharedCacheBuilder::getMapFileBuffer() const
-{
- DyldSharedCache* cache = (DyldSharedCache*)_subCaches.front()._readExecuteRegion.buffer;
- return cache->mapFile();
-}
-
-std::string SharedCacheBuilder::getMapFileJSONBuffer(const std::string& cacheDisposition, bool devRegion) const
-{
- DyldSharedCache* cache = (DyldSharedCache*)_subCaches.front()._readExecuteRegion.buffer;
- uuid_t cacheUuid;
- cache->getUUID(cacheUuid);
- if ( devRegion ) {
- DyldSharedCache* devCache = (DyldSharedCache*)_subCaches.front()._devReadExecuteRegion->buffer;
- devCache->getUUID(cacheUuid);
- }
- return cache->generateJSONMap(cacheDisposition.c_str(), cacheUuid, false);
-}
-
-void SharedCacheBuilder::markPaddingInaccessible()
-{
- for (const SubCache& subCache : _subCaches) {
- // region between RX and RW
- if ( const Region* dataRegion = subCache.firstDataRegion() ) {
- uint8_t* startPad1 = subCache._readExecuteRegion.buffer+subCache._readExecuteRegion.sizeInUse;
- uint8_t* endPad1 = dataRegion->buffer;
- ::vm_protect(mach_task_self(), (vm_address_t)startPad1, endPad1-startPad1, false, 0);
- }
-
- // region between RW and RO
- if ( const Region* lastRegion = subCache.lastDataRegion() ) {
- if ( subCache._readOnlyRegion.has_value() ) {
- uint8_t* startPad2 = lastRegion->buffer+lastRegion->sizeInUse;
- uint8_t* endPad2 = subCache._readOnlyRegion->buffer;
- ::vm_protect(mach_task_self(), (vm_address_t)startPad2, endPad2-startPad2, false, 0);
- }
- }
- }
-}
-
-
-void SharedCacheBuilder::forEachCacheDylib(void (^callback)(const std::string& path)) {
- for (const DylibInfo& dylibInfo : _sortedDylibs)
- callback(dylibInfo.dylibID);
-}
-
-
-void SharedCacheBuilder::forEachCacheSymlink(void (^callback)(const std::string& path))
-{
- for (const std::string& aliasPath : _dylibAliases) {
- callback(aliasPath);
- }
-}
-
-
-uint64_t SharedCacheBuilder::pathHash(const char* path)
-{
- uint64_t sum = 0;
- for (const char* s=path; *s != '\0'; ++s)
- sum += sum*4 + *s;
- return sum;
-}
-
-
-void SharedCacheBuilder::findDylibAndSegment(const void* contentPtr, std::string& foundDylibName, std::string& foundSegName)
-{
- foundDylibName = "???";
- foundSegName = "???";
- Region& firstReadExecuteRegion = _subCaches.front()._readExecuteRegion;
- uint64_t unslidVmAddr = ((uint8_t*)contentPtr - firstReadExecuteRegion.buffer) + firstReadExecuteRegion.unslidLoadAddress;
- DyldSharedCache* cache = (DyldSharedCache*)_subCaches.front()._readExecuteRegion.buffer;
- cache->forEachImage(^(const mach_header* mh, const char* installName) {
- ((dyld3::MachOLoaded*)mh)->forEachSegment(^(const dyld3::MachOFile::SegmentInfo& info, bool &stop) {
- if ( (unslidVmAddr >= info.vmAddr) && (unslidVmAddr < (info.vmAddr+info.vmSize)) ) {
- foundDylibName = installName;
- foundSegName = info.segName;
- stop = true;
- }
- });
- });
-}
-
-
-void SharedCacheBuilder::fipsSign()
-{
- // find libcorecrypto.dylib in cache being built
- DyldSharedCache* dyldCache = (DyldSharedCache*)_subCaches.front()._readExecuteRegion.buffer;
- __block const dyld3::MachOLoaded* ml = nullptr;
- dyldCache->forEachImage(^(const mach_header* mh, const char* installName) {
- if ( strcmp(installName, "/usr/lib/system/libcorecrypto.dylib") == 0 )
- ml = (dyld3::MachOLoaded*)mh;
- });
- if ( ml == nullptr ) {
- _diagnostics.warning("Could not find libcorecrypto.dylib, skipping FIPS sealing");
- return;
- }
-
- // find location in libcorecrypto.dylib to store hash of __text section
- uint64_t hashStoreSize;
- const void* hashStoreLocation = ml->findSectionContent("__TEXT", "__fips_hmacs", hashStoreSize);
- if ( hashStoreLocation == nullptr ) {
- _diagnostics.warning("Could not find __TEXT/__fips_hmacs section in libcorecrypto.dylib, skipping FIPS sealing");
- return;
- }
- if ( hashStoreSize != 32 ) {
- _diagnostics.warning("__TEXT/__fips_hmacs section in libcorecrypto.dylib is not 32 bytes in size, skipping FIPS sealing");
- return;
- }
-
- // compute hmac hash of __text section
- uint64_t textSize;
- const void* textLocation = ml->findSectionContent("__TEXT", "__text", textSize);
- if ( textLocation == nullptr ) {
- _diagnostics.warning("Could not find __TEXT/__text section in libcorecrypto.dylib, skipping FIPS sealing");
- return;
- }
- unsigned char hmac_key = 0;
- CCHmac(kCCHmacAlgSHA256, &hmac_key, 1, textLocation, textSize, (void*)hashStoreLocation); // store hash directly into hashStoreLocation
-}
-
-void SharedCacheBuilder::codeSign(SubCache& subCache, bool signDevStubs)
-{
- uint8_t dscHashType;
- uint8_t dscHashSize;
- uint32_t dscDigestFormat;
- bool agile = false;
-
- // select which codesigning hash
- switch (_options.codeSigningDigestMode) {
- case DyldSharedCache::Agile:
- agile = true;
- // Fall through to SHA1, because the main code directory remains SHA1 for compatibility.
- [[clang::fallthrough]];
- case DyldSharedCache::SHA1only:
-#pragma clang diagnostic push
-#pragma clang diagnostic ignored "-Wdeprecated-declarations"
- dscHashType = CS_HASHTYPE_SHA1;
- dscHashSize = CS_HASH_SIZE_SHA1;
- dscDigestFormat = kCCDigestSHA1;
-#pragma clang diagnostic pop
- break;
- case DyldSharedCache::SHA256only:
- dscHashType = CS_HASHTYPE_SHA256;
- dscHashSize = CS_HASH_SIZE_SHA256;
- dscDigestFormat = kCCDigestSHA256;
- break;
- default:
- _diagnostics.error("codeSigningDigestMode has unknown, unexpected value %d, bailing out.",
- _options.codeSigningDigestMode);
- return;
- }
-
- std::string cacheIdentifier = "com.apple.dyld.cache.";
- cacheIdentifier += _options.archs->name();
- if ( &subCache == &_localSymbolsSubCache ) {
- cacheIdentifier += ".symbols";
- } else if ( _options.dylibsRemovedDuringMastering ) {
- if ( _options.cacheConfiguration == kDyldSharedCacheTypeUniversal )
- cacheIdentifier += ".universal";
- else if ( _options.cacheConfiguration == kDyldSharedCacheTypeProduction )
- cacheIdentifier += ".release";
- else
- cacheIdentifier += ".development";
- }
-
- Region* readExecuteRegion = &subCache._readExecuteRegion;
- if ( signDevStubs ) {
- //readExecuteRegion = &subCache._devReadExecuteRegion.value();
- readExecuteRegion = &(*(subCache._devReadExecuteRegion));
- }
- // get pointers into shared cache buffer
- size_t inBbufferSize = 0;
- inBbufferSize += readExecuteRegion->sizeInUse;
- inBbufferSize += subCache.dataRegionsSizeInUse();
- inBbufferSize += subCache._readOnlyRegion.has_value() ? subCache._readOnlyRegion->sizeInUse : 0;
- if ( &subCache == &_localSymbolsSubCache )
- inBbufferSize += _localSymbolsRegion.sizeInUse;
- const uint16_t pageSize = _archLayout->csPageSize;
-
- // layout code signature contents
- uint32_t blobCount = agile ? 4 : 3;
- size_t idSize = cacheIdentifier.size()+1; // +1 for terminating 0
- uint32_t slotCount = (uint32_t)((inBbufferSize + pageSize - 1) / pageSize);
- uint32_t xSlotCount = CSSLOT_REQUIREMENTS;
- size_t idOffset = offsetof(CS_CodeDirectory, end_withExecSeg);
- size_t hashOffset = idOffset+idSize + dscHashSize*xSlotCount;
- size_t hash256Offset = idOffset+idSize + CS_HASH_SIZE_SHA256*xSlotCount;
- size_t cdSize = hashOffset + (slotCount * dscHashSize);
- size_t cd256Size = agile ? hash256Offset + (slotCount * CS_HASH_SIZE_SHA256) : 0;
- size_t reqsSize = 12;
- size_t cmsSize = sizeof(CS_Blob);
- size_t cdOffset = sizeof(CS_SuperBlob) + blobCount*sizeof(CS_BlobIndex);
- size_t cd256Offset = cdOffset + cdSize;
- size_t reqsOffset = cd256Offset + cd256Size; // equals cdOffset + cdSize if not agile
- size_t cmsOffset = reqsOffset + reqsSize;
- size_t sbSize = cmsOffset + cmsSize;
- size_t sigSize = align(sbSize, 14); // keep whole cache 16KB aligned
-
- // allocate space for blob
- vm_address_t codeSigAlloc;
- if ( vm_allocate(mach_task_self(), &codeSigAlloc, sigSize, VM_FLAGS_ANYWHERE) != 0 ) {
- _diagnostics.error("could not allocate code signature buffer");
- return;
- }
- uint8_t* codeSignatureBuffer = (uint8_t*)codeSigAlloc;
- if ( signDevStubs ) {
- UnmappedRegion& devCodeSignatureRegion = subCache._devCodeSignatureRegion.emplace();
- devCodeSignatureRegion.buffer = codeSignatureBuffer;
- devCodeSignatureRegion.bufferSize = sigSize;
- devCodeSignatureRegion.sizeInUse = sigSize;
- }
- else {
- subCache._codeSignatureRegion.buffer = codeSignatureBuffer;
- subCache._codeSignatureRegion.bufferSize = sigSize;
- subCache._codeSignatureRegion.sizeInUse = sigSize;
- }
-
-
- // create overall code signature which is a superblob
- CS_SuperBlob* sb = reinterpret_cast<CS_SuperBlob*>(codeSignatureBuffer);
- sb->magic = htonl(CSMAGIC_EMBEDDED_SIGNATURE);
- sb->length = htonl(sbSize);
- sb->count = htonl(blobCount);
- sb->index[0].type = htonl(CSSLOT_CODEDIRECTORY);
- sb->index[0].offset = htonl(cdOffset);
- sb->index[1].type = htonl(CSSLOT_REQUIREMENTS);
- sb->index[1].offset = htonl(reqsOffset);
- sb->index[2].type = htonl(CSSLOT_CMS_SIGNATURE);
- sb->index[2].offset = htonl(cmsOffset);
- if ( agile ) {
- sb->index[3].type = htonl(CSSLOT_ALTERNATE_CODEDIRECTORIES + 0);
- sb->index[3].offset = htonl(cd256Offset);
- }
-
- // fill in empty requirements
- CS_RequirementsBlob* reqs = (CS_RequirementsBlob*)(((char*)sb)+reqsOffset);
- reqs->magic = htonl(CSMAGIC_REQUIREMENTS);
- reqs->length = htonl(sizeof(CS_RequirementsBlob));
- reqs->data = 0;
-
- // initialize fixed fields of Code Directory
- CS_CodeDirectory* cd = (CS_CodeDirectory*)(((char*)sb)+cdOffset);
- cd->magic = htonl(CSMAGIC_CODEDIRECTORY);
- cd->length = htonl(cdSize);
- cd->version = htonl(0x20400); // supports exec segment
- cd->flags = htonl(kSecCodeSignatureAdhoc);
- cd->hashOffset = htonl(hashOffset);
- cd->identOffset = htonl(idOffset);
- cd->nSpecialSlots = htonl(xSlotCount);
- cd->nCodeSlots = htonl(slotCount);
- cd->codeLimit = htonl(inBbufferSize);
- cd->hashSize = dscHashSize;
- cd->hashType = dscHashType;
- cd->platform = 0; // not platform binary
- cd->pageSize = __builtin_ctz(pageSize); // log2(CS_PAGE_SIZE);
- cd->spare2 = 0; // unused (must be zero)
- cd->scatterOffset = 0; // not supported anymore
- cd->teamOffset = 0; // no team ID
- cd->spare3 = 0; // unused (must be zero)
- cd->codeLimit64 = 0; // falls back to codeLimit
-
- // executable segment info
- cd->execSegBase = htonll(readExecuteRegion->cacheFileOffset); // base of TEXT segment
- cd->execSegLimit = htonll(readExecuteRegion->sizeInUse); // size of TEXT segment
- cd->execSegFlags = 0; // not a main binary
-
- // initialize dynamic fields of Code Directory
- strcpy((char*)cd + idOffset, cacheIdentifier.c_str());
-
- // add special slot hashes
- uint8_t* hashSlot = (uint8_t*)cd + hashOffset;
- uint8_t* reqsHashSlot = &hashSlot[-CSSLOT_REQUIREMENTS*dscHashSize];
- CCDigest(dscDigestFormat, (uint8_t*)reqs, sizeof(CS_RequirementsBlob), reqsHashSlot);
-
- CS_CodeDirectory* cd256;
- uint8_t* hash256Slot;
- uint8_t* reqsHash256Slot;
- if ( agile ) {
- // Note that the assumption here is that the size up to the hashes is the same as for
- // sha1 code directory, and that they come last, after everything else.
-
- cd256 = (CS_CodeDirectory*)(((char*)sb)+cd256Offset);
- cd256->magic = htonl(CSMAGIC_CODEDIRECTORY);
- cd256->length = htonl(cd256Size);
- cd256->version = htonl(0x20400); // supports exec segment
- cd256->flags = htonl(kSecCodeSignatureAdhoc);
- cd256->hashOffset = htonl(hash256Offset);
- cd256->identOffset = htonl(idOffset);
- cd256->nSpecialSlots = htonl(xSlotCount);
- cd256->nCodeSlots = htonl(slotCount);
- cd256->codeLimit = htonl(inBbufferSize);
- cd256->hashSize = CS_HASH_SIZE_SHA256;
- cd256->hashType = CS_HASHTYPE_SHA256;
- cd256->platform = 0; // not platform binary
- cd256->pageSize = __builtin_ctz(pageSize); // log2(CS_PAGE_SIZE);
- cd256->spare2 = 0; // unused (must be zero)
- cd256->scatterOffset = 0; // not supported anymore
- cd256->teamOffset = 0; // no team ID
- cd256->spare3 = 0; // unused (must be zero)
- cd256->codeLimit64 = 0; // falls back to codeLimit
-
- // executable segment info
- cd256->execSegBase = cd->execSegBase;
- cd256->execSegLimit = cd->execSegLimit;
- cd256->execSegFlags = cd->execSegFlags;
-
- // initialize dynamic fields of Code Directory
- strcpy((char*)cd256 + idOffset, cacheIdentifier.c_str());
-
- // add special slot hashes
- hash256Slot = (uint8_t*)cd256 + hash256Offset;
- reqsHash256Slot = &hash256Slot[-CSSLOT_REQUIREMENTS*CS_HASH_SIZE_SHA256];
- CCDigest(kCCDigestSHA256, (uint8_t*)reqs, sizeof(CS_RequirementsBlob), reqsHash256Slot);
- }
- else {
- cd256 = NULL;
- hash256Slot = NULL;
- reqsHash256Slot = NULL;
- }
-
- // fill in empty CMS blob for ad-hoc signing
- CS_Blob* cms = (CS_Blob*)(((char*)sb)+cmsOffset);
- cms->magic = htonl(CSMAGIC_BLOBWRAPPER);
- cms->length = htonl(sizeof(CS_Blob));
-
-
- // alter header of cache to record size and location of code signature
- // do this *before* hashing each page
- dyld_cache_header* cache = (dyld_cache_header*)readExecuteRegion->buffer;
- cache->codeSignatureOffset = inBbufferSize;
- cache->codeSignatureSize = sigSize;
-
- if ( signDevStubs )
- cache->cacheSubType = kDyldSharedCacheTypeDevelopment;
-
- struct SlotRange {
- uint64_t start = 0;
- uint64_t end = 0;
- const uint8_t* buffer = nullptr;
- };
- std::vector<SlotRange> regionSlots;
- // __TEXT
- regionSlots.push_back({ 0, (readExecuteRegion->sizeInUse / pageSize), readExecuteRegion->buffer });
- // __DATA
- for (const Region& dataRegion : subCache._dataRegions) {
- // The first data region starts at the end of __TEXT, and subsequent regions are
- // after the previous __DATA region.
- uint64_t previousEnd = regionSlots.back().end;
- uint64_t numSlots = dataRegion.sizeInUse / pageSize;
- regionSlots.push_back({ previousEnd, previousEnd + numSlots, dataRegion.buffer });
- }
- // __LINKEDIT
- if ( subCache._readOnlyRegion.has_value() ) {
- uint64_t previousEnd = regionSlots.back().end;
- uint64_t numSlots = subCache._readOnlyRegion->sizeInUse / pageSize;
- regionSlots.push_back({ previousEnd, previousEnd + numSlots, subCache._readOnlyRegion->buffer });
- }
- // local symbols
- if ( (_localSymbolsRegion.sizeInUse != 0) && (&subCache == &_localSymbolsSubCache) ) {
- uint64_t previousEnd = regionSlots.back().end;
- uint64_t numSlots = _localSymbolsRegion.sizeInUse / pageSize;
- regionSlots.push_back({ previousEnd, previousEnd + numSlots, _localSymbolsRegion.buffer });
- }
-
- auto codeSignPage = ^(size_t i) {
- // move to correct region
- for (const SlotRange& slotRange : regionSlots) {
- if ( (i >= slotRange.start) && (i < slotRange.end) ) {
- const uint8_t* code = slotRange.buffer + ((i - slotRange.start) * pageSize);
-
- CCDigest(dscDigestFormat, code, pageSize, hashSlot + (i * dscHashSize));
-
- if ( agile ) {
- CCDigest(kCCDigestSHA256, code, pageSize, hash256Slot + (i * CS_HASH_SIZE_SHA256));
- }
- return;
- }
- }
- assert(0 && "Out of range slot");
- };
-
- // compute hashes
- dispatch_apply(slotCount, DISPATCH_APPLY_AUTO, ^(size_t i) {
- codeSignPage(i);
- });
-
- // Now that we have a code signature, compute a cache UUID by hashing the code signature blob
- {
- uint8_t* uuidLoc = cache->uuid;
- assert(uuid_is_null(uuidLoc));
- static_assert(offsetof(dyld_cache_header, uuid) / CS_PAGE_SIZE_4K == 0, "uuid is expected in the first page of the cache");
- uint8_t fullDigest[CC_SHA256_DIGEST_LENGTH];
- CC_SHA256((const void*)cd, (unsigned)cdSize, fullDigest);
- memcpy(uuidLoc, fullDigest, 16);
- // <rdar://problem/6723729> uuids should conform to RFC 4122 UUID version 4 & UUID version 5 formats
- uuidLoc[6] = ( uuidLoc[6] & 0x0F ) | ( 3 << 4 );
- uuidLoc[8] = ( uuidLoc[8] & 0x3F ) | 0x80;
-
- // Now codesign page 0 again, because we modified it by setting uuid in header
- codeSignPage(0);
- }
-
- // hash of entire code directory (cdHash) uses same hash as each page
- uint8_t fullCdHash[dscHashSize];
- CCDigest(dscDigestFormat, (const uint8_t*)cd, cdSize, fullCdHash);
- // Note: cdHash is defined as first 20 bytes of hash
- if ( signDevStubs )
- memcpy(subCache._devCdHashFirst, fullCdHash, 20);
- else
- memcpy(subCache._cdHashFirst, fullCdHash, 20);
- if ( agile ) {
- uint8_t fullCdHash256[CS_HASH_SIZE_SHA256];
- CCDigest(kCCDigestSHA256, (const uint8_t*)cd256, cd256Size, fullCdHash256);
- // Note: cdHash is defined as first 20 bytes of hash, even for sha256
- if ( signDevStubs )
- memcpy(subCache._devCdHashSecond, fullCdHash256, 20);
- else
- memcpy(subCache._cdHashSecond, fullCdHash256, 20);
- }
- else {
- if ( signDevStubs )
- memset(subCache._devCdHashSecond, 0, 20);
- else
- memset(subCache._cdHashSecond, 0, 20);
- }
-}
-
-const bool SharedCacheBuilder::agileSignature() const
-{
- return _options.codeSigningDigestMode == DyldSharedCache::Agile;
-}
-
-static const std::string cdHash(const uint8_t hash[20])
-{
- char buff[48];
- for (int i = 0; i < 20; ++i)
- snprintf(&buff[2*i], sizeof(buff)-2*i, "%2.2x", hash[i]);
- return buff;
-}
-
-const std::string SharedCacheBuilder::SubCache::cdHashFirst() const
-{
- return cdHash(_cdHashFirst);
-}
-
-const std::string SharedCacheBuilder::SubCache::devCdHashFirst() const
-{
- return cdHash(_devCdHashFirst);
-}
-
-const std::string SharedCacheBuilder::SubCache::devCdHashSecond() const
-{
- return cdHash(_devCdHashSecond);
-}
-
-const std::string SharedCacheBuilder::SubCache::uuid() const
-{
- dyld_cache_header* cache = (dyld_cache_header*)_readExecuteRegion.buffer;
- uuid_string_t uuidStr;
- uuid_unparse(cache->uuid, uuidStr);
- return uuidStr;
-}
-
-const std::string SharedCacheBuilder::SubCache::devUuid() const
-{
- dyld_cache_header* cache = (dyld_cache_header*)_devReadExecuteRegion->buffer;
- uuid_string_t uuidStr;
- uuid_unparse(cache->uuid, uuidStr);
- return uuidStr;
-}
-
-void SharedCacheBuilder::forEachDylibInfo(void (^callback)(const CacheBuilder::DylibInfo& dylib, Diagnostics& dylibDiag,
- ASLR_Tracker& dylibASLRTracker,
- const CacheBuilder::DylibSectionCoalescer* sectionCoalescer)) {
- for (const DylibInfo& dylibInfo : _sortedDylibs) {
- // The shared cache builder doesn't use per-dylib errors right now
- // so just share the global diagnostics
- callback(dylibInfo, _diagnostics, *dylibInfo._aslrTracker, &dylibInfo._coalescer);
- }
-}
-
-static void set_toc(dyld_cache_slide_info* info, unsigned index, uint16_t value)
-{
- ((uint16_t*)(((uint8_t*)info) + info->toc_offset))[index] = value;
-}
-
-void SharedCacheBuilder::writeSlideInfoV1(SubCache& subCache)
-{
- // build one 512-byte bitmap per page (16384) of DATA
- const CacheBuilder::ASLR_Tracker& aslrTracker = subCache._aslrTracker;
- const bool* bitmapForAllDataRegions = aslrTracker.bitmap();
- unsigned dataPageCountForAllDataRegions = aslrTracker.dataPageCount();
-
- const uint32_t pageSize = aslrTracker.pageSize();
- const uint8_t* firstDataRegionBuffer = subCache.firstDataRegion()->buffer;
- for (uint32_t dataRegionIndex = 0; dataRegionIndex != subCache._dataRegions.size(); ++dataRegionIndex) {
- Region& dataRegion = subCache._dataRegions[dataRegionIndex];
-
- // fill in fixed info
- assert(dataRegion.slideInfoFileOffset != 0);
- assert((dataRegion.sizeInUse % pageSize) == 0);
- unsigned dataPageCount = (uint32_t)dataRegion.sizeInUse / pageSize;
-
- const size_t bitmapEntriesPerPage = (sizeof(bool)*(pageSize/4));
- unsigned numPagesFromFirstDataRegion = (uint32_t)(dataRegion.buffer - firstDataRegionBuffer) / pageSize;
- assert((numPagesFromFirstDataRegion + dataPageCount) <= dataPageCountForAllDataRegions);
- const bool* bitmapForRegion = (const bool*)bitmapForAllDataRegions + (bitmapEntriesPerPage * numPagesFromFirstDataRegion);
- const bool* bitmapForPage = bitmapForRegion;
-
- // Create a bitmap for all pages in this region
- const long bitmapSize = (dataRegion.sizeInUse)/(4*8);
- uint8_t* bitmap = (uint8_t*)calloc(bitmapSize, 1);
- for ( unsigned i = 0; i < dataPageCount; ++i ) {
- // Createa a bitmap for this one page
- for( uint32_t j=0; j < (pageSize/4); ++j ) {
- if ( bitmapForPage[j] ) {
- unsigned offset = (i * pageSize) + (j * 4);
- long byteIndex = offset / (4*8);
- long bitInByte = (offset % 32) >> 2;
- bitmap[byteIndex] |= (1 << bitInByte);
- }
- }
-
- bitmapForPage += (sizeof(bool)*(pageSize/4));
- }
-
- // allocate worst case size block of all slide info
- const unsigned entry_size = 4096/(8*4); // 8 bits per byte, possible pointer every 4 bytes.
- const unsigned toc_count = (unsigned)bitmapSize/entry_size;
- dyld_cache_slide_info* slideInfo = (dyld_cache_slide_info*)dataRegion.slideInfoBuffer;
- slideInfo->version = 1;
- slideInfo->toc_offset = sizeof(dyld_cache_slide_info);
- slideInfo->toc_count = toc_count;
- slideInfo->entries_offset = (slideInfo->toc_offset+2*toc_count+127)&(-128);
- slideInfo->entries_count = 0;
- slideInfo->entries_size = entry_size;
- // append each unique entry
- const dyld_cache_slide_info_entry* bitmapAsEntries = (dyld_cache_slide_info_entry*)bitmap;
- dyld_cache_slide_info_entry* const entriesInSlidInfo = (dyld_cache_slide_info_entry*)((char*)slideInfo+slideInfo->entries_offset);
- int entry_count = 0;
- for (int i=0; i < toc_count; ++i) {
- const dyld_cache_slide_info_entry* thisEntry = &bitmapAsEntries[i];
- // see if it is same as one already added
- bool found = false;
- for (int j=0; j < entry_count; ++j) {
- if ( memcmp(thisEntry, &entriesInSlidInfo[j], entry_size) == 0 ) {
- set_toc(slideInfo, i, j);
- found = true;
- break;
- }
- }
- if ( !found ) {
- // append to end
- memcpy(&entriesInSlidInfo[entry_count], thisEntry, entry_size);
- set_toc(slideInfo, i, entry_count++);
- }
- }
- slideInfo->entries_count = entry_count;
- ::free((void*)bitmap);
-
- // update header with final size
- uint64_t slideInfoSize = align(slideInfo->entries_offset + entry_count*entry_size, _archLayout->sharedRegionAlignP2);
- dataRegion.slideInfoFileSize = slideInfoSize;
- if ( dataRegion.slideInfoFileSize > dataRegion.slideInfoBufferSizeAllocated ) {
- _diagnostics.error("kernel slide info overflow buffer");
- }
- // Update the mapping entry on the cache header
- const dyld_cache_header* cacheHeader = (dyld_cache_header*)subCache._readExecuteRegion.buffer;
- dyld_cache_mapping_and_slide_info* slidableMappings = (dyld_cache_mapping_and_slide_info*)(subCache._readExecuteRegion.buffer + cacheHeader->mappingWithSlideOffset);
- slidableMappings[1 + dataRegionIndex].slideInfoFileSize = dataRegion.slideInfoFileSize;
- //fprintf(stderr, "pageCount=%u, page_starts_count=%lu, page_extras_count=%lu\n", dataPageCount, pageStarts.size(), pageExtras.size());
- }
-}
-
-template <typename P>
-bool SharedCacheBuilder::makeRebaseChainV2(uint8_t* pageContent, uint16_t lastLocationOffset, uint16_t offset, const dyld_cache_slide_info2* info,
- const CacheBuilder::ASLR_Tracker& aslrTracker)
-{
- typedef typename P::uint_t pint_t;
-
- const pint_t deltaMask = (pint_t)(info->delta_mask);
- const pint_t valueMask = ~deltaMask;
- const pint_t valueAdd = (pint_t)(info->value_add);
- const unsigned deltaShift = __builtin_ctzll(deltaMask) - 2;
- const uint32_t maxDelta = (uint32_t)(deltaMask >> deltaShift);
-
- pint_t* lastLoc = (pint_t*)&pageContent[lastLocationOffset+0];
- pint_t lastValue = (pint_t)P::getP(*lastLoc);
- if ( (lastValue - valueAdd) & deltaMask ) {
- std::string dylibName;
- std::string segName;
- findDylibAndSegment((void*)pageContent, dylibName, segName);
- _diagnostics.error("rebase pointer (0x%0lX) does not point within cache. lastOffset=0x%04X, seg=%s, dylib=%s\n",
- (long)lastValue, lastLocationOffset, segName.c_str(), dylibName.c_str());
- return false;
- }
- if ( offset <= (lastLocationOffset+maxDelta) ) {
- // previous location in range, make link from it
- // encode this location into last value
- pint_t delta = offset - lastLocationOffset;
- pint_t newLastValue = ((lastValue - valueAdd) & valueMask) | (delta << deltaShift);
- //warning(" add chain: delta = %d, lastOffset=0x%03X, offset=0x%03X, org value=0x%08lX, new value=0x%08lX",
- // offset - lastLocationOffset, lastLocationOffset, offset, (long)lastValue, (long)newLastValue);
- uint8_t highByte;
- if ( aslrTracker.hasHigh8(lastLoc, &highByte) ) {
- uint64_t tbi = (uint64_t)highByte << 56;
- newLastValue |= tbi;
- }
- P::setP(*lastLoc, newLastValue);
- return true;
- }
- //fprintf(stderr, " too big delta = %d, lastOffset=0x%03X, offset=0x%03X\n", offset - lastLocationOffset, lastLocationOffset, offset);
-
- // distance between rebase locations is too far
- // see if we can make a chain from non-rebase locations
- uint16_t nonRebaseLocationOffsets[1024];
- unsigned nrIndex = 0;
- for (uint16_t i = lastLocationOffset; i < offset-maxDelta; ) {
- nonRebaseLocationOffsets[nrIndex] = 0;
- for (int j=maxDelta; j > 0; j -= 4) {
- pint_t value = (pint_t)P::getP(*(pint_t*)&pageContent[i+j]);
- if ( value == 0 ) {
- // Steal values of 0 to be used in the rebase chain
- nonRebaseLocationOffsets[nrIndex] = i+j;
- break;
- }
- }
- if ( nonRebaseLocationOffsets[nrIndex] == 0 ) {
- lastValue = (pint_t)P::getP(*lastLoc);
- pint_t newValue = ((lastValue - valueAdd) & valueMask);
- //warning(" no way to make non-rebase delta chain, terminate off=0x%03X, old value=0x%08lX, new value=0x%08lX", lastLocationOffset, (long)value, (long)newValue);
- P::setP(*lastLoc, newValue);
- return false;
- }
- i = nonRebaseLocationOffsets[nrIndex];
- ++nrIndex;
- }
-
- // we can make chain. go back and add each non-rebase location to chain
- uint16_t prevOffset = lastLocationOffset;
- pint_t* prevLoc = (pint_t*)&pageContent[prevOffset];
- for (unsigned n=0; n < nrIndex; ++n) {
- uint16_t nOffset = nonRebaseLocationOffsets[n];
- assert(nOffset != 0);
- pint_t* nLoc = (pint_t*)&pageContent[nOffset];
- pint_t delta2 = nOffset - prevOffset;
- pint_t value = (pint_t)P::getP(*prevLoc);
- pint_t newValue;
- if ( value == 0 )
- newValue = (delta2 << deltaShift);
- else
- newValue = ((value - valueAdd) & valueMask) | (delta2 << deltaShift);
- //warning(" non-rebase delta = %d, to off=0x%03X, old value=0x%08lX, new value=0x%08lX", delta2, nOffset, (long)value, (long)newValue);
- P::setP(*prevLoc, newValue);
- prevOffset = nOffset;
- prevLoc = nLoc;
- }
- pint_t delta3 = offset - prevOffset;
- pint_t value = (pint_t)P::getP(*prevLoc);
- pint_t newValue;
- if ( value == 0 )
- newValue = (delta3 << deltaShift);
- else
- newValue = ((value - valueAdd) & valueMask) | (delta3 << deltaShift);
- //warning(" non-rebase delta = %d, to off=0x%03X, old value=0x%08lX, new value=0x%08lX", delta3, offset, (long)value, (long)newValue);
- P::setP(*prevLoc, newValue);
-
- return true;
-}
-
-
-template <typename P>
-void SharedCacheBuilder::addPageStartsV2(uint8_t* pageContent, const bool bitmap[], const dyld_cache_slide_info2* info,
- const CacheBuilder::ASLR_Tracker& aslrTracker,
- std::vector<uint16_t>& pageStarts, std::vector<uint16_t>& pageExtras)
-{
- typedef typename P::uint_t pint_t;
-
- const pint_t deltaMask = (pint_t)(info->delta_mask);
- const pint_t valueMask = ~deltaMask;
- const uint32_t pageSize = info->page_size;
- const pint_t valueAdd = (pint_t)(info->value_add);
-
- uint16_t startValue = DYLD_CACHE_SLIDE_PAGE_ATTR_NO_REBASE;
- uint16_t lastLocationOffset = 0xFFFF;
- for(uint32_t i=0; i < pageSize/4; ++i) {
- unsigned offset = i*4;
- if ( bitmap[i] ) {
- if ( startValue == DYLD_CACHE_SLIDE_PAGE_ATTR_NO_REBASE ) {
- // found first rebase location in page
- startValue = i;
- }
- else if ( !makeRebaseChainV2<P>(pageContent, lastLocationOffset, offset, info, aslrTracker) ) {
- // can't record all rebasings in one chain
- if ( (startValue & DYLD_CACHE_SLIDE_PAGE_ATTR_EXTRA) == 0 ) {
- // switch page_start to "extras" which is a list of chain starts
- unsigned indexInExtras = (unsigned)pageExtras.size();
- if ( indexInExtras > 0x3FFF ) {
- _diagnostics.error("rebase overflow in v2 page extras");
- return;
- }
- pageExtras.push_back(startValue);
- startValue = indexInExtras | DYLD_CACHE_SLIDE_PAGE_ATTR_EXTRA;
- }
- pageExtras.push_back(i);
- }
- lastLocationOffset = offset;
- }
- }
- if ( lastLocationOffset != 0xFFFF ) {
- // mark end of chain
- pint_t* lastLoc = (pint_t*)&pageContent[lastLocationOffset];
- pint_t lastValue = (pint_t)P::getP(*lastLoc);
- pint_t newValue = ((lastValue - valueAdd) & valueMask);
- P::setP(*lastLoc, newValue);
- }
- if ( startValue & DYLD_CACHE_SLIDE_PAGE_ATTR_EXTRA ) {
- // add end bit to extras
- pageExtras.back() |= DYLD_CACHE_SLIDE_PAGE_ATTR_END;
- }
- pageStarts.push_back(startValue);
-}
-
-template <typename P>
-void SharedCacheBuilder::writeSlideInfoV2(SubCache& subCache)
-{
- const CacheBuilder::ASLR_Tracker& aslrTracker = subCache._aslrTracker;
- const bool* bitmapForAllDataRegions = aslrTracker.bitmap();
- unsigned dataPageCountForAllDataRegions = aslrTracker.dataPageCount();
-
- const uint32_t pageSize = aslrTracker.pageSize();
- const uint8_t* firstDataRegionBuffer = subCache.firstDataRegion()->buffer;
- for (uint32_t dataRegionIndex = 0; dataRegionIndex != subCache._dataRegions.size(); ++dataRegionIndex) {
- Region& dataRegion = subCache._dataRegions[dataRegionIndex];
-
- // fill in fixed info
- assert(dataRegion.slideInfoFileOffset != 0);
- assert((dataRegion.sizeInUse % pageSize) == 0);
- unsigned dataPageCount = (uint32_t)dataRegion.sizeInUse / pageSize;
- dyld_cache_slide_info2* info = (dyld_cache_slide_info2*)dataRegion.slideInfoBuffer;
- info->version = 2;
- info->page_size = pageSize;
- info->delta_mask = _archLayout->pointerDeltaMask;
- info->value_add = _archLayout->useValueAdd ? _archLayout->sharedMemoryStart : 0;
-
- // set page starts and extras for each page
- std::vector<uint16_t> pageStarts;
- std::vector<uint16_t> pageExtras;
- pageStarts.reserve(dataPageCount);
-
- const size_t bitmapEntriesPerPage = (sizeof(bool)*(pageSize/4));
- uint8_t* pageContent = dataRegion.buffer;
- unsigned numPagesFromFirstDataRegion = (uint32_t)(dataRegion.buffer - firstDataRegionBuffer) / pageSize;
- assert((numPagesFromFirstDataRegion + dataPageCount) <= dataPageCountForAllDataRegions);
- const bool* bitmapForRegion = (const bool*)bitmapForAllDataRegions + (bitmapEntriesPerPage * numPagesFromFirstDataRegion);
- const bool* bitmapForPage = bitmapForRegion;
- for (unsigned i=0; i < dataPageCount; ++i) {
- //warning("page[%d]", i);
- addPageStartsV2<P>(pageContent, bitmapForPage, info, aslrTracker, pageStarts, pageExtras);
- if ( _diagnostics.hasError() ) {
- return;
- }
- pageContent += pageSize;
- bitmapForPage += (sizeof(bool)*(pageSize/4));
- }
-
- // fill in computed info
- info->page_starts_offset = sizeof(dyld_cache_slide_info2);
- info->page_starts_count = (unsigned)pageStarts.size();
- info->page_extras_offset = (unsigned)(sizeof(dyld_cache_slide_info2)+pageStarts.size()*sizeof(uint16_t));
- info->page_extras_count = (unsigned)pageExtras.size();
- uint16_t* pageStartsBuffer = (uint16_t*)((char*)info + info->page_starts_offset);
- uint16_t* pageExtrasBuffer = (uint16_t*)((char*)info + info->page_extras_offset);
- for (unsigned i=0; i < pageStarts.size(); ++i)
- pageStartsBuffer[i] = pageStarts[i];
- for (unsigned i=0; i < pageExtras.size(); ++i)
- pageExtrasBuffer[i] = pageExtras[i];
- // update header with final size
- uint64_t slideInfoSize = align(info->page_extras_offset + pageExtras.size()*sizeof(uint16_t), _archLayout->sharedRegionAlignP2);
- dataRegion.slideInfoFileSize = slideInfoSize;
- if ( dataRegion.slideInfoFileSize > dataRegion.slideInfoBufferSizeAllocated ) {
- _diagnostics.error("kernel slide info overflow buffer");
- }
- // Update the mapping entry on the cache header
- const dyld_cache_header* cacheHeader = (dyld_cache_header*)subCache._readExecuteRegion.buffer;
- dyld_cache_mapping_and_slide_info* slidableMappings = (dyld_cache_mapping_and_slide_info*)(subCache._readExecuteRegion.buffer + cacheHeader->mappingWithSlideOffset);
- slidableMappings[1 + dataRegionIndex].slideInfoFileSize = dataRegion.slideInfoFileSize;
- //fprintf(stderr, "pageCount=%u, page_starts_count=%lu, page_extras_count=%lu\n", dataPageCount, pageStarts.size(), pageExtras.size());
- }
-}
-
-#if SUPPORT_ARCH_arm64_32 || SUPPORT_ARCH_armv7k
-// fits in to int16_t
-static bool smallValue(uint64_t value)
-{
- uint32_t high = (value & 0xFFFF8000);
- return (high == 0) || (high == 0xFFFF8000);
-}
-
-template <typename P>
-bool SharedCacheBuilder::makeRebaseChainV4(uint8_t* pageContent, uint16_t lastLocationOffset, uint16_t offset, const dyld_cache_slide_info4* info)
-{
- typedef typename P::uint_t pint_t;
-
- const pint_t deltaMask = (pint_t)(info->delta_mask);
- const pint_t valueMask = ~deltaMask;
- const pint_t valueAdd = (pint_t)(info->value_add);
- const unsigned deltaShift = __builtin_ctzll(deltaMask) - 2;
- const uint32_t maxDelta = (uint32_t)(deltaMask >> deltaShift);
-
- pint_t* lastLoc = (pint_t*)&pageContent[lastLocationOffset+0];
- pint_t lastValue = (pint_t)P::getP(*lastLoc);
- if ( (lastValue - valueAdd) & deltaMask ) {
- std::string dylibName;
- std::string segName;
- findDylibAndSegment((void*)pageContent, dylibName, segName);
- _diagnostics.error("rebase pointer does not point within cache. lastOffset=0x%04X, seg=%s, dylib=%s\n",
- lastLocationOffset, segName.c_str(), dylibName.c_str());
- return false;
- }
- if ( offset <= (lastLocationOffset+maxDelta) ) {
- // previous location in range, make link from it
- // encode this location into last value
- pint_t delta = offset - lastLocationOffset;
- pint_t newLastValue = ((lastValue - valueAdd) & valueMask) | (delta << deltaShift);
- //warning(" add chain: delta = %d, lastOffset=0x%03X, offset=0x%03X, org value=0x%08lX, new value=0x%08lX",
- // offset - lastLocationOffset, lastLocationOffset, offset, (long)lastValue, (long)newLastValue);
- P::setP(*lastLoc, newLastValue);
- return true;
- }
- //fprintf(stderr, " too big delta = %d, lastOffset=0x%03X, offset=0x%03X\n", offset - lastLocationOffset, lastLocationOffset, offset);
-
- // distance between rebase locations is too far
- // see if we can make a chain from non-rebase locations
- uint16_t nonRebaseLocationOffsets[1024];
- unsigned nrIndex = 0;
- for (uint16_t i = lastLocationOffset; i < offset-maxDelta; ) {
- nonRebaseLocationOffsets[nrIndex] = 0;
- for (int j=maxDelta; j > 0; j -= 4) {
- pint_t value = (pint_t)P::getP(*(pint_t*)&pageContent[i+j]);
- if ( smallValue(value) ) {
- // Steal values of 0 to be used in the rebase chain
- nonRebaseLocationOffsets[nrIndex] = i+j;
- break;
- }
- }
- if ( nonRebaseLocationOffsets[nrIndex] == 0 ) {
- lastValue = (pint_t)P::getP(*lastLoc);
- pint_t newValue = ((lastValue - valueAdd) & valueMask);
- //fprintf(stderr, " no way to make non-rebase delta chain, terminate off=0x%03X, old value=0x%08lX, new value=0x%08lX\n",
- // lastLocationOffset, (long)lastValue, (long)newValue);
- P::setP(*lastLoc, newValue);
- return false;
- }
- i = nonRebaseLocationOffsets[nrIndex];
- ++nrIndex;
- }
-
- // we can make chain. go back and add each non-rebase location to chain
- uint16_t prevOffset = lastLocationOffset;
- pint_t* prevLoc = (pint_t*)&pageContent[prevOffset];
- for (unsigned n=0; n < nrIndex; ++n) {
- uint16_t nOffset = nonRebaseLocationOffsets[n];
- assert(nOffset != 0);
- pint_t* nLoc = (pint_t*)&pageContent[nOffset];
- uint32_t delta2 = nOffset - prevOffset;
- pint_t value = (pint_t)P::getP(*prevLoc);
- pint_t newValue;
- if ( smallValue(value) )
- newValue = (value & valueMask) | (delta2 << deltaShift);
- else
- newValue = ((value - valueAdd) & valueMask) | (delta2 << deltaShift);
- //warning(" non-rebase delta = %d, to off=0x%03X, old value=0x%08lX, new value=0x%08lX", delta2, nOffset, (long)value, (long)newValue);
- P::setP(*prevLoc, newValue);
- prevOffset = nOffset;
- prevLoc = nLoc;
- }
- uint32_t delta3 = offset - prevOffset;
- pint_t value = (pint_t)P::getP(*prevLoc);
- pint_t newValue;
- if ( smallValue(value) )
- newValue = (value & valueMask) | (delta3 << deltaShift);
- else
- newValue = ((value - valueAdd) & valueMask) | (delta3 << deltaShift);
- //warning(" non-rebase delta = %d, to off=0x%03X, old value=0x%08lX, new value=0x%08lX", delta3, offset, (long)value, (long)newValue);
- P::setP(*prevLoc, newValue);
-
- return true;
-}
-
-
-template <typename P>
-void SharedCacheBuilder::addPageStartsV4(uint8_t* pageContent, const bool bitmap[], const dyld_cache_slide_info4* info,
- std::vector<uint16_t>& pageStarts, std::vector<uint16_t>& pageExtras)
-{
- typedef typename P::uint_t pint_t;
-
- const pint_t deltaMask = (pint_t)(info->delta_mask);
- const pint_t valueMask = ~deltaMask;
- const uint32_t pageSize = info->page_size;
- const pint_t valueAdd = (pint_t)(info->value_add);
-
- uint16_t startValue = DYLD_CACHE_SLIDE4_PAGE_NO_REBASE;
- uint16_t lastLocationOffset = 0xFFFF;
- for(uint32_t i=0; i < pageSize/4; ++i) {
- unsigned offset = i*4;
- if ( bitmap[i] ) {
- if ( startValue == DYLD_CACHE_SLIDE4_PAGE_NO_REBASE ) {
- // found first rebase location in page
- startValue = i;
- }
- else if ( !makeRebaseChainV4<P>(pageContent, lastLocationOffset, offset, info) ) {
- // can't record all rebasings in one chain
- if ( (startValue & DYLD_CACHE_SLIDE4_PAGE_USE_EXTRA) == 0 ) {
- // switch page_start to "extras" which is a list of chain starts
- unsigned indexInExtras = (unsigned)pageExtras.size();
- if ( indexInExtras >= DYLD_CACHE_SLIDE4_PAGE_INDEX ) {
- _diagnostics.error("rebase overflow in v4 page extras");
- return;
- }
- pageExtras.push_back(startValue);
- startValue = indexInExtras | DYLD_CACHE_SLIDE4_PAGE_USE_EXTRA;
- }
- pageExtras.push_back(i);
- }
- lastLocationOffset = offset;
- }
- }
- if ( lastLocationOffset != 0xFFFF ) {
- // mark end of chain
- pint_t* lastLoc = (pint_t*)&pageContent[lastLocationOffset];
- pint_t lastValue = (pint_t)P::getP(*lastLoc);
- pint_t newValue = ((lastValue - valueAdd) & valueMask);
- P::setP(*lastLoc, newValue);
- if ( startValue & DYLD_CACHE_SLIDE4_PAGE_USE_EXTRA ) {
- // add end bit to extras
- pageExtras.back() |= DYLD_CACHE_SLIDE4_PAGE_EXTRA_END;
- }
- }
- pageStarts.push_back(startValue);
-}
-
-
-
-template <typename P>
-void SharedCacheBuilder::writeSlideInfoV4(SubCache& subCache)
-{
- const CacheBuilder::ASLR_Tracker& aslrTracker = subCache._aslrTracker;
- const bool* bitmapForAllDataRegions = aslrTracker.bitmap();
- unsigned dataPageCountForAllDataRegions = aslrTracker.dataPageCount();
-
- const uint32_t pageSize = aslrTracker.pageSize();
- const uint8_t* firstDataRegionBuffer = subCache.firstDataRegion()->buffer;
- for (uint32_t dataRegionIndex = 0; dataRegionIndex != subCache._dataRegions.size(); ++dataRegionIndex) {
- Region& dataRegion = subCache._dataRegions[dataRegionIndex];
-
- // fill in fixed info
- assert(dataRegion.slideInfoFileOffset != 0);
- assert((dataRegion.sizeInUse % pageSize) == 0);
- unsigned dataPageCount = (uint32_t)dataRegion.sizeInUse / pageSize;
- dyld_cache_slide_info4* info = (dyld_cache_slide_info4*)dataRegion.slideInfoBuffer;
- info->version = 4;
- info->page_size = pageSize;
- info->delta_mask = _archLayout->pointerDeltaMask;
- info->value_add = info->value_add = _archLayout->useValueAdd ? _archLayout->sharedMemoryStart : 0;
-
- // set page starts and extras for each page
- std::vector<uint16_t> pageStarts;
- std::vector<uint16_t> pageExtras;
- pageStarts.reserve(dataPageCount);
- const size_t bitmapEntriesPerPage = (sizeof(bool)*(pageSize/4));
- uint8_t* pageContent = dataRegion.buffer;
- unsigned numPagesFromFirstDataRegion = (uint32_t)(dataRegion.buffer - firstDataRegionBuffer) / pageSize;
- assert((numPagesFromFirstDataRegion + dataPageCount) <= dataPageCountForAllDataRegions);
- const bool* bitmapForRegion = (const bool*)bitmapForAllDataRegions + (bitmapEntriesPerPage * numPagesFromFirstDataRegion);
- const bool* bitmapForPage = bitmapForRegion;
- for (unsigned i=0; i < dataPageCount; ++i) {
- addPageStartsV4<P>(pageContent, bitmapForPage, info, pageStarts, pageExtras);
- if ( _diagnostics.hasError() ) {
- return;
- }
- pageContent += pageSize;
- bitmapForPage += (sizeof(bool)*(pageSize/4));
- }
- // fill in computed info
- info->page_starts_offset = sizeof(dyld_cache_slide_info4);
- info->page_starts_count = (unsigned)pageStarts.size();
- info->page_extras_offset = (unsigned)(sizeof(dyld_cache_slide_info4)+pageStarts.size()*sizeof(uint16_t));
- info->page_extras_count = (unsigned)pageExtras.size();
- uint16_t* pageStartsBuffer = (uint16_t*)((char*)info + info->page_starts_offset);
- uint16_t* pageExtrasBuffer = (uint16_t*)((char*)info + info->page_extras_offset);
- for (unsigned i=0; i < pageStarts.size(); ++i)
- pageStartsBuffer[i] = pageStarts[i];
- for (unsigned i=0; i < pageExtras.size(); ++i)
- pageExtrasBuffer[i] = pageExtras[i];
- // update header with final size
- uint64_t slideInfoSize = align(info->page_extras_offset + pageExtras.size()*sizeof(uint16_t), _archLayout->sharedRegionAlignP2);
- dataRegion.slideInfoFileSize = slideInfoSize;
- if ( dataRegion.slideInfoFileSize > dataRegion.slideInfoBufferSizeAllocated ) {
- _diagnostics.error("kernel slide info overflow buffer");
- }
- // Update the mapping entry on the cache header
- const dyld_cache_header* cacheHeader = (dyld_cache_header*)subCache._readExecuteRegion.buffer;
- dyld_cache_mapping_and_slide_info* slidableMappings = (dyld_cache_mapping_and_slide_info*)(subCache._readExecuteRegion.buffer + cacheHeader->mappingWithSlideOffset);
- slidableMappings[1 + dataRegionIndex].slideInfoFileSize = dataRegion.slideInfoFileSize;
- //fprintf(stderr, "pageCount=%u, page_starts_count=%lu, page_extras_count=%lu\n", dataPageCount, pageStarts.size(), pageExtras.size());
- }
-}
-#endif
-
-/*
-void CacheBuilder::writeSlideInfoV1()
-{
- // build one 128-byte bitmap per page (4096) of DATA
- uint8_t* const dataStart = (uint8_t*)_buffer.get() + regions[1].fileOffset;
- uint8_t* const dataEnd = dataStart + regions[1].size;
- const long bitmapSize = (dataEnd - dataStart)/(4*8);
- uint8_t* bitmap = (uint8_t*)calloc(bitmapSize, 1);
- for (void* p : _pointersForASLR) {
- if ( (p < dataStart) || ( p > dataEnd) )
- terminate("DATA pointer for sliding, out of range\n");
- long offset = (long)((uint8_t*)p - dataStart);
- if ( (offset % 4) != 0 )
- terminate("pointer not 4-byte aligned in DATA offset 0x%08lX\n", offset);
- long byteIndex = offset / (4*8);
- long bitInByte = (offset % 32) >> 2;
- bitmap[byteIndex] |= (1 << bitInByte);
- }
-
- // allocate worst case size block of all slide info
- const unsigned entry_size = 4096/(8*4); // 8 bits per byte, possible pointer every 4 bytes.
- const unsigned toc_count = (unsigned)bitmapSize/entry_size;
- dyld_cache_slide_info* slideInfo = (dyld_cache_slide_info*)((uint8_t*)_buffer + _slideInfoFileOffset);
- slideInfo->version = 1;
- slideInfo->toc_offset = sizeof(dyld_cache_slide_info);
- slideInfo->toc_count = toc_count;
- slideInfo->entries_offset = (slideInfo->toc_offset+2*toc_count+127)&(-128);
- slideInfo->entries_count = 0;
- slideInfo->entries_size = entry_size;
- // append each unique entry
- const dyldCacheSlideInfoEntry* bitmapAsEntries = (dyldCacheSlideInfoEntry*)bitmap;
- dyldCacheSlideInfoEntry* const entriesInSlidInfo = (dyldCacheSlideInfoEntry*)((char*)slideInfo+slideInfo->entries_offset());
- int entry_count = 0;
- for (int i=0; i < toc_count; ++i) {
- const dyldCacheSlideInfoEntry* thisEntry = &bitmapAsEntries[i];
- // see if it is same as one already added
- bool found = false;
- for (int j=0; j < entry_count; ++j) {
- if ( memcmp(thisEntry, &entriesInSlidInfo[j], entry_size) == 0 ) {
- slideInfo->set_toc(i, j);
- found = true;
- break;
- }
- }
- if ( !found ) {
- // append to end
- memcpy(&entriesInSlidInfo[entry_count], thisEntry, entry_size);
- slideInfo->set_toc(i, entry_count++);
- }
- }
- slideInfo->entries_count = entry_count;
- ::free((void*)bitmap);
-
- _buffer.header->slideInfoSize = align(slideInfo->entries_offset + entry_count*entry_size, _archLayout->sharedRegionAlignP2);
-}
-
-*/
-
-
-void SharedCacheBuilder::setPointerContentV3(dyld3::MachOLoaded::ChainedFixupPointerOnDisk* loc, uint64_t targetVMAddr, size_t next,
- SubCache& subCache, bool supportsAuthenticatedPointers)
-{
- const CacheBuilder::ASLR_Tracker& aslrTracker = subCache._aslrTracker;
- uint64_t cacheUnslidLoadAddress = _subCaches.front()._readExecuteRegion.unslidLoadAddress;
- assert(targetVMAddr > cacheUnslidLoadAddress);
- assert(targetVMAddr < _subCaches.back().highestVMAddress());
-
- dyld3::MachOLoaded::ChainedFixupPointerOnDisk tmp;
- uint16_t diversity;
- bool hasAddrDiv;
- uint8_t key;
- if ( aslrTracker.hasAuthData(loc, &diversity, &hasAddrDiv, &key) ) {
- if ( !supportsAuthenticatedPointers ) {
- uint64_t vmOffset = (uint64_t)loc - (uint64_t)_fullAllocatedBuffer;
- _diagnostics.error("Authenticated pointer in DATA region at: 0x%08llx", cacheUnslidLoadAddress + vmOffset);
- }
- // if base cache address cannot fit into target, then use offset
- tmp.arm64e.authRebase.target = cacheUnslidLoadAddress;
- if ( tmp.arm64e.authRebase.target != cacheUnslidLoadAddress )
- targetVMAddr -= cacheUnslidLoadAddress;
- loc->arm64e.authRebase.target = targetVMAddr;
- loc->arm64e.authRebase.diversity = diversity;
- loc->arm64e.authRebase.addrDiv = hasAddrDiv;
- loc->arm64e.authRebase.key = key;
- loc->arm64e.authRebase.next = next;
- loc->arm64e.authRebase.bind = 0;
- loc->arm64e.authRebase.auth = 1;
- assert(loc->arm64e.authRebase.target == targetVMAddr && "target truncated");
- assert(loc->arm64e.authRebase.next == next && "next location truncated");
- }
- else {
- uint8_t highByte = 0;
- aslrTracker.hasHigh8(loc, &highByte);
- // if base cache address cannot fit into target, then use offset
- tmp.arm64e.rebase.target = cacheUnslidLoadAddress;
- if ( tmp.arm64e.rebase.target != cacheUnslidLoadAddress )
- targetVMAddr -= cacheUnslidLoadAddress;
- loc->arm64e.rebase.target = targetVMAddr;
- loc->arm64e.rebase.high8 = highByte;
- loc->arm64e.rebase.next = next;
- loc->arm64e.rebase.bind = 0;
- loc->arm64e.rebase.auth = 0;
- assert(loc->arm64e.rebase.target == targetVMAddr && "target truncated");
- assert(loc->arm64e.rebase.next == next && "next location truncated");
- }
-}
-
-uint16_t SharedCacheBuilder::pageStartV3(uint8_t* pageContent, uint32_t pageSize, const bool bitmap[],
- SubCache& subCache, bool supportsAuthenticatedPointers)
-{
- const int maxPerPage = pageSize / 4;
- uint16_t result = DYLD_CACHE_SLIDE_V3_PAGE_ATTR_NO_REBASE;
- dyld3::MachOLoaded::ChainedFixupPointerOnDisk* lastLoc = nullptr;
- for (int i=0; i < maxPerPage; ++i) {
- if ( bitmap[i] ) {
- if ( result == DYLD_CACHE_SLIDE_V3_PAGE_ATTR_NO_REBASE ) {
- // found first rebase location in page
- result = i * 4;
- }
- dyld3::MachOLoaded::ChainedFixupPointerOnDisk* loc = (dyld3::MachOLoaded::ChainedFixupPointerOnDisk*)(pageContent + i*4);
- if ( lastLoc != nullptr ) {
- // convert vmaddr based pointers to arm64e dyld cache chains
- setPointerContentV3(lastLoc, lastLoc->raw64, loc - lastLoc, subCache, supportsAuthenticatedPointers);
- }
- lastLoc = loc;
- }
- }
- if ( lastLoc != nullptr ) {
- // convert vmaddr based pointers to arm64e dyld cache chain, and mark end of chain
- setPointerContentV3(lastLoc, lastLoc->raw64, 0, subCache, supportsAuthenticatedPointers);
- }
- return result;
-}
-
-
-void SharedCacheBuilder::writeSlideInfoV3(SubCache& subCache)
-{
- const CacheBuilder::ASLR_Tracker& aslrTracker = subCache._aslrTracker;
- const bool* bitmapForAllDataRegions = aslrTracker.bitmap();
- unsigned dataPageCountForAllDataRegions = aslrTracker.dataPageCount();
-
- const uint32_t pageSize = aslrTracker.pageSize();
- const uint8_t* firstDataRegionBuffer = subCache.firstDataRegion()->buffer;
- for (uint32_t dataRegionIndex = 0; dataRegionIndex != subCache._dataRegions.size(); ++dataRegionIndex) {
- Region& dataRegion = subCache._dataRegions[dataRegionIndex];
- // fprintf(stderr, "writeSlideInfoV3: %s 0x%llx->0x%llx\n", dataRegion.name.c_str(), dataRegion.cacheFileOffset, dataRegion.cacheFileOffset + dataRegion.sizeInUse);
- // fill in fixed info
- assert(dataRegion.slideInfoFileOffset != 0);
- assert((dataRegion.sizeInUse % pageSize) == 0);
- unsigned dataPageCount = (uint32_t)dataRegion.sizeInUse / pageSize;
- dyld_cache_slide_info3* info = (dyld_cache_slide_info3*)dataRegion.slideInfoBuffer;
- info->version = 3;
- info->page_size = pageSize;
- info->page_starts_count = dataPageCount;
- info->auth_value_add = _archLayout->sharedMemoryStart;
-
- // We should really find a better way to do this than the name. The new builder gets it right
- bool supportsAuthenticatedPointers = startsWith(dataRegion.name, "__AUTH");
-
- // fill in per-page starts
- const size_t bitmapEntriesPerPage = (sizeof(bool)*(pageSize/4));
- uint8_t* pageContent = dataRegion.buffer;
- unsigned numPagesFromFirstDataRegion = (uint32_t)(dataRegion.buffer - firstDataRegionBuffer) / pageSize;
- assert((numPagesFromFirstDataRegion + dataPageCount) <= dataPageCountForAllDataRegions);
- const bool* bitmapForRegion = (const bool*)bitmapForAllDataRegions + (bitmapEntriesPerPage * numPagesFromFirstDataRegion);
- const bool* bitmapForPage = bitmapForRegion;
- //for (unsigned i=0; i < dataPageCount; ++i) {
- dispatch_apply(dataPageCount, DISPATCH_APPLY_AUTO, ^(size_t i) {
- info->page_starts[i] = pageStartV3(pageContent + (i * pageSize), pageSize, bitmapForPage + (i * bitmapEntriesPerPage), subCache,
- supportsAuthenticatedPointers);
- });
-
- // update region with final size
- dataRegion.slideInfoFileSize = align(__offsetof(dyld_cache_slide_info3, page_starts[dataPageCount]), _archLayout->sharedRegionAlignP2);
- if ( dataRegion.slideInfoFileSize > dataRegion.slideInfoBufferSizeAllocated ) {
- _diagnostics.error("kernel slide info overflow buffer");
- }
- // Update the mapping entry on the cache header
- const dyld_cache_header* cacheHeader = (dyld_cache_header*)subCache._readExecuteRegion.buffer;
- dyld_cache_mapping_and_slide_info* slidableMappings = (dyld_cache_mapping_and_slide_info*)(subCache._readExecuteRegion.buffer + cacheHeader->mappingWithSlideOffset);
- slidableMappings[1 + dataRegionIndex].slideInfoFileSize = dataRegion.slideInfoFileSize;
- }
-}
-
-template <typename P>
-static P tlv_getAddrVMAddr(const dyld3::MachOAnalyzer *libdyld) {
- uint64_t dyld4SectSize;
- FixedSizeLibdyldDyld4Section<P> * libdyld4Section = (FixedSizeLibdyldDyld4Section<P> *)libdyld->findSectionContent("__DATA", "__dyld4", dyld4SectSize, true);
- if (libdyld4Section == NULL) {
- libdyld4Section = (FixedSizeLibdyldDyld4Section<P> *)libdyld->findSectionContent("__AUTH", "__dyld4", dyld4SectSize, true);
- }
- if ( (libdyld4Section != NULL) && (sizeof(FixedSizeLibdyldDyld4Section<P>) <= dyld4SectSize) ) {
- assert((P)(libdyld4Section->tlv_get_addrAddr) == libdyld4Section->tlv_get_addrAddr);
- return (P)libdyld4Section->tlv_get_addrAddr;
- }
-
- return 0;
-}
-
-template<typename P> using FixedSizeTLVThunk = dyld3::MachOAnalyzer::FixedSizeTLVThunk<P>;
-
-void SharedCacheBuilder::optimizeTLVs()
-{
- DyldSharedCache* cache = (DyldSharedCache*)_subCaches.front()._readExecuteRegion.buffer;
-
- _diagnostics.verbose("Optimizing TLVs\n");
-
- //
- // Find libpthread to find the available pthread key range
- // Find libdyld to make the thunks point to tlv_get_addr
- //
- __block const mach_header* libpthreadMH = nullptr;
- __block const mach_header* libdyldMH = nullptr;
- cache->forEachImage(^(const mach_header* machHeader, const char* installName) {
- if ( strstr(installName, "/libsystem_pthread.dylib") != nullptr ) {
- libpthreadMH = machHeader;
- }
- if ( strstr(installName, "/libdyld.dylib") != nullptr ) {
- libdyldMH = machHeader;
- }
- });
-
- const dyld3::MachOAnalyzer* libpthreadMA = (const dyld3::MachOAnalyzer*)libpthreadMH;
- const dyld3::MachOAnalyzer* libdyldMA = (const dyld3::MachOAnalyzer*)libdyldMH;
-
- if ((libpthreadMA == nullptr) || (libdyldMA == nullptr)) {
- _diagnostics.warning("Could not find libpthread or libdyld (TLVs not optimized)");
- return;
- }
-
- uint64_t getAddrVMAddr = 0;
- if (_is64) {
- getAddrVMAddr = tlv_getAddrVMAddr<uint64_t>(libdyldMA);
- } else {
- getAddrVMAddr = tlv_getAddrVMAddr<uint32_t>(libdyldMA);
- assert((int32_t)getAddrVMAddr == getAddrVMAddr);
- }
-
- if (getAddrVMAddr == 0) {
- _diagnostics.warning("Could not find tlv_get_addr (TLVs not optimized)");
- return;
- }
-
- // We read the value for this symbol to know the first key we can allocate for TLVs
- // We then have to stop optimizing if and when we reach "end", that's the
- // maximum number of keys allocated to us by libpthread.
- // Keys have to lie within [start, end] (closed range)
- // As of Sydney, there are 80 keys available with 35 used (47 on Rome)
- dyld3::MachOAnalyzer::FoundSymbol tsdStartSymbol;
- dyld3::MachOAnalyzer::FoundSymbol tsdEndSymbol;
-
- bool foundStart = libpthreadMA->findExportedSymbol(_diagnostics, "__pthread_tsd_shared_cache_first", false, tsdStartSymbol, nullptr);
- bool foundEnd = libpthreadMA->findExportedSymbol(_diagnostics, "__pthread_tsd_shared_cache_last", false, tsdEndSymbol, nullptr);
-
- if (!foundStart || !foundEnd) {
- _diagnostics.warning("libpthread's TSD optimization symbols missing (TLVs not optimized)");
- return;
- }
-
- uint64_t startVMAddr = libpthreadMA->preferredLoadAddress() + tsdStartSymbol.value;
- uint64_t endVMAddr = libpthreadMA->preferredLoadAddress() + tsdEndSymbol.value;
-
- uint64_t cacheSlide = (uint64_t)cache - cache->unslidLoadAddress();
- // Closed range.
- const uint32_t *firstKey = (const uint32_t*)(cacheSlide + startVMAddr);
- const uint32_t *lastKey = (const uint32_t*)(cacheSlide + endVMAddr);
- const uint32_t availableKeyCount = *lastKey - *firstKey + 1;
-
- __block uint32_t tlvCount = 0;
-
- cache->forEachImage(^(const mach_header* machHeader, const char* installName) {
- if (tlvCount > availableKeyCount) {
- return;
- }
-
- const dyld3::MachOAnalyzer* ma = (const dyld3::MachOAnalyzer*) machHeader;
-
- if (ma->hasThreadLocalVariables()) {
- // Get the next available key (one key per dylib)
- int key = *firstKey + tlvCount++;
-
- if (tlvCount > availableKeyCount) {
- // See above, we have to stop optimizing when we have used
- // all the keys libpthread has set aside for us.
- // The enumeration happens in cache order, so in theory
- // we optimize the dylibs which are in most processes first.
- // Any dylibs that we drop here are supposed not to have a
- // significant memory impact.
-
- _diagnostics.warning("Out of available shared cache keys, stopping TLV optimization");
- return;
- }
-
-
- // Find the ASLR tracker
- __block ASLR_Tracker* tracker = nullptr;
- forEachDylibInfo(^(const CacheBuilder::DylibInfo &dylib, Diagnostics &dylibDiag, ASLR_Tracker &dylibASLRTracker, const CacheBuilder::DylibSectionCoalescer* coalescer) {
- if (strcmp(dylib.input->mappedFile.mh->installName(), ma->installName()) == 0) {
- tracker = &dylibASLRTracker;
- }
- });
-
- if (_is64) {
- ma->forEachThreadLocalVariable(_diagnostics, ^(MachOAnalyzer::TLV_Resolver *tlvThunk, uintptr_t *tlvKey) {
- // Set the key to the next available key
- *(int64_t*)tlvKey = key;
-
- // Set the thunk to tlv_get_addr()
- *(int64_t*)tlvThunk = getAddrVMAddr;
-
- // Add to ASLR tracker
- tracker->add(tlvThunk);
- tracker->setAuthData(tlvThunk, 0, false, ptrauth_key_asia);
- });
- } else {
- ma->forEachThreadLocalVariable(_diagnostics, ^(MachOAnalyzer::TLV_Resolver *tlvThunk, uintptr_t *tlvKey) {
- // Set the key to the next available key
- *(int32_t*)tlvKey = key;
-
- // Set the thunk to tlv_get_addr()
- *(int32_t*)tlvThunk = (int32_t)getAddrVMAddr;
-
- // Add to ASLR tracker
- tracker->add(tlvThunk);
- });
- }
- }
- });
-
- _diagnostics.verbose("TLVs optimized using %d shared cache keys\n", tlvCount);
-
-}