Loading...
--- dyld/dyld-733.6/dyld3/shared-cache/OptimizerObjC.cpp
+++ dyld/dyld-851.27/dyld3/shared-cache/OptimizerObjC.cpp
@@ -32,11 +32,12 @@
#include "DyldSharedCache.h"
#include "Diagnostics.h"
-#include "CacheBuilder.h"
+#include "SharedCacheBuilder.h"
#include "FileAbstraction.hpp"
#include "MachOFileAbstraction.hpp"
#include "MachOLoaded.h"
#include "MachOAnalyzer.h"
+#include "MachOAnalyzerSet.h"
#ifndef MH_HAS_OBJC
#define MH_HAS_OBJC 0x40000000
@@ -117,27 +118,11 @@
_cacheStart = (uint8_t*)cache;
_cacheUnslideAddr = cache->unslidLoadAddress();
_slide = (uint64_t)cache - _cacheUnslideAddr;
-#if SUPPORT_ARCH_arm64e
- _chainedFixups = (strcmp(cache->archName(), "arm64e") == 0);
-#else
- _chainedFixups = false;
-#endif
}
// Converts from an on disk vmAddr to the real vmAddr
// That is, for a chained fixup, decodes the chain, for a non-chained fixup, does nothing.
uint64_t vmAddrForOnDiskVMAddr(uint64_t vmaddr) {
- if ( _chainedFixups ) {
- dyld3::MachOLoaded::ChainedFixupPointerOnDisk ptr;
- ptr.raw64 = vmaddr;
- assert(ptr.arm64e.authRebase.bind == 0);
- if ( ptr.arm64e.authRebase.auth ) {
- vmaddr = _cacheUnslideAddr + ptr.arm64e.authRebase.target;
- }
- else {
- vmaddr = ptr.arm64e.unpackTarget();
- }
- }
return vmaddr;
}
@@ -164,7 +149,6 @@
uint64_t _slide;
uint64_t _cacheUnslideAddr;
uint8_t* _cacheStart;
- bool _chainedFixups;
};
@@ -328,7 +312,7 @@
{
if (cls->isMetaClass(cache)) return;
- const char *name = cls->getName(cache);
+ const char* name = cls->getName(cache);
uint64_t name_vmaddr = cache->vmAddrForContent((void*)name);
uint64_t cls_vmaddr = cache->vmAddrForContent(cls);
uint64_t hinfo_vmaddr = cache->vmAddrForContent(_hInfos.hinfoForHeader(cache, header));
@@ -346,6 +330,404 @@
}
size_t count() const { return _count; }
+};
+
+
+/// Builds a map from (install name, class name, method name) to actual IMPs
+template <typename P>
+class IMPMapBuilder
+{
+private:
+ typedef typename P::uint_t pint_t;
+
+public:
+
+ struct MapKey {
+ std::string_view installName;
+ std::string_view className;
+ std::string_view methodName;
+ bool isInstanceMethod;
+
+ bool operator==(const MapKey& other) const {
+ return isInstanceMethod == other.isInstanceMethod &&
+ installName == other.installName &&
+ className == other.className &&
+ methodName == other.methodName;
+ }
+
+ size_t hash() const {
+ std::size_t seed = 0;
+ seed ^= std::hash<std::string_view>()(installName) + 0x9e3779b9 + (seed<<6) + (seed>>2);
+ seed ^= std::hash<std::string_view>()(className) + 0x9e3779b9 + (seed<<6) + (seed>>2);
+ seed ^= std::hash<std::string_view>()(methodName) + 0x9e3779b9 + (seed<<6) + (seed>>2);
+ seed ^= std::hash<bool>()(isInstanceMethod) + 0x9e3779b9 + (seed<<6) + (seed>>2);
+ return seed;
+ }
+ };
+
+ struct MapKeyHasher {
+ size_t operator()(const MapKey& k) const {
+ return k.hash();
+ }
+ };
+
+ std::unordered_map<MapKey, pint_t, MapKeyHasher> impMap;
+ bool relativeMethodListSelectorsAreDirect;
+
+ IMPMapBuilder(bool relativeMethodListSelectorsAreDirect)
+ : relativeMethodListSelectorsAreDirect(relativeMethodListSelectorsAreDirect) { }
+
+ void visitClass(ContentAccessor* cache,
+ const macho_header<P>* header,
+ objc_class_t<P>* cls)
+ {
+ objc_method_list_t<P> *methodList = cls->getMethodList(cache);
+ if (methodList == nullptr) return;
+
+ const dyld3::MachOAnalyzer* ma = (const dyld3::MachOAnalyzer*)header;
+ bool isInstanceMethod = !cls->isMetaClass(cache);
+ const char* className = cls->getName(cache);
+ const char* installName = ma->installName();
+
+ for (uint32_t n = 0; n < methodList->getCount(); n++) {
+ // do not clobber an existing entry if any, because categories win
+ impMap.try_emplace(MapKey{
+ .installName = installName,
+ .className = className,
+ .methodName = methodList->getStringName(cache, n, relativeMethodListSelectorsAreDirect),
+ .isInstanceMethod = isInstanceMethod
+ }, methodList->getImp(n, cache));
+ }
+ }
+
+ void visit(ContentAccessor* cache, const macho_header<P>* header) {
+ const dyld3::MachOAnalyzer* ma = (const dyld3::MachOAnalyzer*)header;
+
+ // Method lists from categories
+ PointerSection<P, objc_category_t<P> *>
+ cats(cache, header, "__DATA", "__objc_catlist");
+ for (pint_t i = 0; i < cats.count(); i++) {
+ objc_category_t<P> *cat = cats.get(i);
+ objc_class_t<P>* cls = cat->getClass(cache);
+ if (cls == nullptr)
+ continue;
+
+ objc_method_list_t<P> *instanceMethods = cat->getInstanceMethods(cache);
+ if (instanceMethods != nullptr) {
+ for (uint32_t n = 0; n < instanceMethods->getCount(); n++) {
+ MapKey k {
+ .installName = ma->installName(),
+ .className = cls->getName(cache),
+ .methodName = instanceMethods->getStringName(cache, n, relativeMethodListSelectorsAreDirect),
+ .isInstanceMethod = true
+ };
+ //printf("Adding %s %s %s %d cat %s\n", k.installName.data(), k.className.data(), k.methodName.data(), k.isInstanceMethod, k.catName->data());
+ impMap[k] = instanceMethods->getImp(n, cache);
+ }
+ }
+ objc_method_list_t<P> *classMethods = cat->getClassMethods(cache);
+ if (classMethods != nullptr) {
+ for (uint32_t n = 0; n < classMethods->getCount(); n++) {
+ MapKey k {
+ .installName = ma->installName(),
+ .className = cls->getName(cache),
+ .methodName = classMethods->getStringName(cache, n, relativeMethodListSelectorsAreDirect),
+ .isInstanceMethod = false
+ };
+ //printf("Adding %s %s %s %d cat %s\n", k.installName.data(), k.className.data(), k.methodName.data(), k.isInstanceMethod, k.catName->data());
+ impMap[k] = classMethods->getImp(n, cache);
+ }
+ }
+ }
+ }
+};
+
+// List of offsets in libobjc that the shared cache optimization needs to use.
+template <typename T>
+struct objc_opt_imp_caches_pointerlist_tt {
+ T selectorStringVMAddrStart;
+ T selectorStringVMAddrEnd;
+ T inlinedSelectorsVMAddrStart;
+ T inlinedSelectorsVMAddrEnd;
+};
+
+template <typename P>
+class IMPCachesEmitter
+{
+ typedef typename P::uint_t pint_t;
+
+private:
+ Diagnostics& diag;
+ const IMPMapBuilder<P>& impMapBuilder;
+ uint64_t selectorStringVMAddr;
+ uint8_t*& readOnlyBuffer;
+ size_t& readOnlyBufferSize;
+ uint8_t*& readWriteBuffer;
+ size_t& readWriteBufferSize;
+ CacheBuilder::ASLR_Tracker& aslrTracker;
+
+ std::map<std::string_view, const CacheBuilder::DylibInfo*> _dylibInfos;
+ std::map<std::string_view, const macho_header<P>*> _dylibs;
+ const std::vector<const IMPCaches::Selector*> inlinedSelectors;
+
+ struct ImpCacheHeader {
+ int32_t fallback_class_offset;
+ uint32_t cache_shift : 5;
+ uint32_t cache_mask : 11;
+ uint32_t occupied : 14;
+ uint32_t has_inlines : 1;
+ uint32_t bit_one : 1;
+ };
+
+ struct ImpCacheEntry {
+ uint32_t selOffset;
+ uint32_t impOffset;
+ };
+
+public:
+
+ static size_t sizeForImpCacheWithCount(int entries) {
+ return sizeof(ImpCacheHeader) + entries * sizeof(ImpCacheEntry);
+ }
+
+ struct ImpCacheContents {
+ struct bucket_t {
+ uint32_t sel_offset = 0;
+ uint64_t imp = 0;
+ };
+ std::vector<bucket_t> buckets;
+ uint64_t occupiedBuckets = 0;
+ bool hasInlines = false;
+
+ uint64_t capacity() const
+ {
+ return buckets.size();
+ }
+
+ uint64_t occupied() const {
+ return occupiedBuckets;
+ }
+
+ void incrementOccupied() {
+ ++occupiedBuckets;
+ }
+
+ void insert(uint64_t slot, uint64_t selOffset, uint64_t imp) {
+ bucket_t& b = buckets[slot];
+ assert(b.imp == 0);
+
+ if (!b.imp) incrementOccupied();
+ assert((uint32_t)selOffset == selOffset);
+ b.sel_offset = (uint32_t)selOffset;
+ b.imp = imp;
+ }
+
+ void fillBuckets(const IMPCaches::ClassData* classData, bool metaclass, const IMPMapBuilder<P> & classRecorder) {
+ const std::vector<IMPCaches::ClassData::Method> & methods = classData->methods;
+ buckets.resize(classData->modulo());
+ for (const IMPCaches::ClassData::Method& method : methods) {
+ typename IMPMapBuilder<P>::MapKey k {
+ .installName = method.installName,
+ .className = method.className,
+ .methodName = method.selector->name,
+ .isInstanceMethod = !metaclass
+ };
+
+ pint_t imp = classRecorder.impMap.at(k);
+ int slot = (method.selector->inProgressBucketIndex >> classData->shift) & classData->mask();
+ insert(slot, method.selector->offset, imp);
+ hasInlines |= (method.wasInlined && !method.fromFlattening);
+ }
+ }
+
+ std::pair<uint64_t, uint64_t>
+ write(ContentAccessor* cache,
+ uint64_t cacheSelectorStringVMAddr, uint64_t clsVMAddr,
+ uint8_t*& buf, size_t& bufSize, Diagnostics& diags) {
+ constexpr bool log = false;
+ uint64_t spaceRequired = sizeof(ImpCacheEntry) * capacity();
+
+ if (spaceRequired > bufSize) {
+ diags.error("Not enough space for imp cache");
+ return { 0, 0 };
+ }
+
+ // Convert from addresses to offsets and write out
+ ImpCacheEntry* offsetBuckets = (ImpCacheEntry*)buf;
+ // printf("Buckets: 0x%08llx\n", cache->vmAddrForContent(offsetBuckets));
+ for (uint64_t index = 0; index != buckets.size(); ++index) {
+ bucket_t bucket = buckets[index];
+ if (bucket.sel_offset == 0 && bucket.imp == 0) {
+ // Empty bucket
+ offsetBuckets[index].selOffset = 0xFFFFFFFF;
+ offsetBuckets[index].impOffset = 0;
+ } else {
+ int64_t selOffset = (int64_t)bucket.sel_offset;
+ int64_t impOffset = clsVMAddr - bucket.imp;
+ assert((int32_t)impOffset == impOffset);
+ assert((int32_t)selOffset == selOffset);
+ offsetBuckets[index].selOffset = (int32_t)selOffset;
+ offsetBuckets[index].impOffset = (int32_t)impOffset;
+ if (log) {
+ diags.verbose("[IMP Caches] Coder[%lld]: %#08llx (sel: %#08x, imp %#08x) %s\n", index,
+ cache->vmAddrForOnDiskVMAddr(bucket.imp),
+ (int32_t)selOffset, (int32_t)impOffset,
+ (const char*)cache->contentForVMAddr(cacheSelectorStringVMAddr + bucket.sel_offset));
+ }
+ }
+ }
+
+ buf += spaceRequired;
+ bufSize -= spaceRequired;
+
+ return { cache->vmAddrForContent(offsetBuckets), (uint64_t)buckets.size() };
+ }
+ };
+
+ IMPCachesEmitter(Diagnostics& diags, const IMPMapBuilder<P>& builder, uint64_t selectorStringVMAddr, uint8_t*& roBuf, size_t& roBufSize, uint8_t* &rwBuf, size_t& rwBufSize, const std::vector<CacheBuilder::DylibInfo> & dylibInfos, const std::vector<const macho_header<P>*> & dylibs, CacheBuilder::ASLR_Tracker& tracker)
+ : diag(diags), impMapBuilder(builder), selectorStringVMAddr(selectorStringVMAddr), readOnlyBuffer(roBuf), readOnlyBufferSize(roBufSize), readWriteBuffer(rwBuf), readWriteBufferSize(rwBufSize), aslrTracker(tracker) {
+ for (const CacheBuilder::DylibInfo& d : dylibInfos) {
+ _dylibInfos[d.dylibID] = &d;
+ }
+ for (const macho_header<P>* d : dylibs) {
+ const dyld3::MachOAnalyzer* ma = (const dyld3::MachOAnalyzer*) d;
+ _dylibs[ma->installName()] = d;
+ }
+ }
+
+ // Returns true if we should filter this class out from getting an imp cache
+ bool filter(ContentAccessor* cache, const dyld3::MachOAnalyzer* ma, const objc_class_t<P>* cls) {
+ const CacheBuilder::DylibInfo* d = _dylibInfos[ma->installName()];
+ IMPCaches::ClassKey key {
+ .name = cls->getName(cache),
+ .metaclass = cls->isMetaClass(cache)
+ };
+ return (d->impCachesClassData.find(key) == d->impCachesClassData.end());
+ }
+
+ void visitClass(ContentAccessor* cache,
+ const macho_header<P>* header,
+ objc_class_t<P>* cls)
+ {
+ // If we ran out of space then don't try to optimize more
+ if (diag.hasError())
+ return;
+
+ const dyld3::MachOAnalyzer* ma = (const dyld3::MachOAnalyzer*) header;
+ if (filter(cache, ma, cls)) {
+ *cls->getVTableAddress() = 0;
+ return;
+ }
+
+ const char* className = cls->getName(cache);
+
+ if (cls->getVTable(cache) != 0) {
+ diag.error("Class '%s' has non-zero vtable\n", className);
+ return;
+ }
+
+ const CacheBuilder::DylibInfo* d = _dylibInfos[ma->installName()];
+ IMPCaches::ClassKey key {
+ .name = cls->getName(cache),
+ .metaclass = cls->isMetaClass(cache)
+ };
+ IMPCaches::ClassData* data = (d->impCachesClassData.at(key)).get();
+#if 0
+ for (const objc_method_t<P>& method : methods) {
+ printf(" 0x%llx: 0x%llx (%s)\n", method.getImp(), method.getName(),
+ (const char*)cache->contentForVMAddr(method.getName()));
+ }
+#endif
+
+ uint64_t clsVMAddr = cache->vmAddrForContent(cls);
+
+ if (data->mask() > 0x7ff) {
+ diag.verbose("Cache for class %s (%#08llx) is too large (mask: %#x)\n",
+ className, clsVMAddr, data->mask());
+ return;
+ }
+
+ ImpCacheContents impCache;
+ impCache.fillBuckets(data, cls->isMetaClass(cache), impMapBuilder);
+
+ constexpr bool log = false;
+ if (log) {
+ printf("Writing cache for %sclass %s (%#08llx)\n", cls->isMetaClass(cache) ? "meta" : "", className, clsVMAddr);
+ }
+
+ struct ImpCacheHeader {
+ int32_t fallback_class_offset;
+ uint32_t cache_shift : 5;
+ uint32_t cache_mask : 11;
+ uint32_t occupied : 14;
+ uint32_t has_inlines : 1;
+ uint32_t bit_one : 1;
+ };
+ pint_t* vtableAddr = cls->getVTableAddress();
+
+ // the alignment of ImpCaches to 16 bytes is only needed for arm64_32.
+ ImpCacheHeader* cachePtr = (ImpCacheHeader*)align_buffer(readOnlyBuffer, sizeof(pint_t) == 4 ? 4 : 3);
+
+ assert(readOnlyBufferSize > sizeof(ImpCacheHeader));
+
+ uint64_t occupied = impCache.occupied();
+ int64_t fallback_class_offset = *(cls->getSuperClassAddress()) - clsVMAddr;
+
+ if (data->flatteningRootSuperclass) {
+ // If we are a class being flattened (inheriting all the selectors of
+ // its superclasses up to and including the flattening root), the fallback class
+ // should be the first superclass which is not flattened.
+
+ // Find the VMAddr of that superclass, given its segment index and offset
+ // in the source dylib.
+ const auto & superclass = *(data->flatteningRootSuperclass);
+ const macho_header<P> * d = _dylibs[superclass.installName];
+ __block uint64_t superclassVMAddr = 0;
+ const dyld3::MachOAnalyzer *ma = (const dyld3::MachOAnalyzer *)d;
+ ma->forEachSegment(^(const dyld3::MachOAnalyzer::SegmentInfo &info, bool &stop) {
+ if (info.segIndex == superclass.segmentIndex) {
+ superclassVMAddr = info.vmAddr + superclass.segmentOffset;
+ stop = true;
+ }
+ });
+
+ assert(superclassVMAddr > 0);
+ fallback_class_offset = superclassVMAddr - clsVMAddr;
+ }
+
+ assert((int32_t)fallback_class_offset == fallback_class_offset);
+ assert((uint32_t)occupied == occupied);
+
+ *cachePtr = (ImpCacheHeader){
+ .fallback_class_offset = (int32_t)fallback_class_offset,
+ .cache_shift = (uint32_t)(data->shift + 7),
+ .cache_mask = (uint32_t)data->mask(),
+ .occupied = (uint32_t)occupied,
+ .has_inlines = impCache.hasInlines,
+ .bit_one = 1, // obj-c plays HORRENDOUS games here
+ };
+
+ // is this right?
+ int64_t vmaddr = cache->vmAddrForContent(readOnlyBuffer);
+ assert((pint_t)vmaddr == (uint64_t)vmaddr);
+ *vtableAddr = (pint_t)cache->vmAddrForContent(readOnlyBuffer);
+ aslrTracker.add(vtableAddr);
+ readOnlyBuffer += sizeof(ImpCacheHeader);
+ readOnlyBufferSize -= sizeof(ImpCacheHeader);
+
+ impCache.write(cache, selectorStringVMAddr, clsVMAddr, readOnlyBuffer, readOnlyBufferSize, diag);
+ }
+
+ void emitInlinedSelectors(const std::vector<const IMPCaches::Selector*> selectors) {
+ // FIXME: this should be in constant memory
+ for (const IMPCaches::Selector* s : selectors) {
+ assert(readWriteBufferSize >= sizeof(pint_t));
+ *(pint_t*)readWriteBuffer = (pint_t)(selectorStringVMAddr + s->offset);
+ aslrTracker.add(readWriteBuffer);
+ readWriteBuffer += sizeof(pint_t);
+ readWriteBufferSize -= sizeof(pint_t);
+ }
+ }
};
template <typename P>
@@ -387,7 +769,7 @@
for (pint_t i = 0; i < protocols.count(); i++) {
objc_protocol_t<P> *proto = protocols.get(i);
- const char *name = proto->getName(cache);
+ const char* name = proto->getName(cache);
if (_protocolNames.count(name) == 0) {
if (proto->getSize() > sizeof(objc_protocol_t<P>)) {
_diagnostics.error("objc protocol is too big");
@@ -411,7 +793,8 @@
uint8_t *& rwdest, size_t& rwremaining,
uint8_t *& rodest, size_t& roremaining,
CacheBuilder::ASLR_Tracker& aslrTracker,
- pint_t protocolClassVMAddr)
+ pint_t protocolClassVMAddr,
+ const dyld3::MachOAnalyzerSet::PointerMetaData& PMD)
{
if (_protocolCount == 0) return NULL;
@@ -440,6 +823,12 @@
if (!proto->getIsaVMAddr()) {
proto->setIsaVMAddr(protocolClassVMAddr);
}
+
+ // If the objc runtime signed the Protocol ISA, then we need to too
+ if ( PMD.authenticated ) {
+ aslrTracker.setAuthData(proto->getISALocation(), PMD.diversity, PMD.usesAddrDiversity, PMD.key);
+ }
+
if (oldSize < sizeof(*proto)) {
// Protocol object is old. Populate new fields.
proto->setSize(sizeof(objc_protocol_t<P>));
@@ -519,7 +908,7 @@
void addObjcSegments(Diagnostics& diag, DyldSharedCache* cache, const mach_header* libobjcMH,
uint8_t* objcReadOnlyBuffer, uint64_t objcReadOnlyBufferSizeAllocated,
uint8_t* objcReadWriteBuffer, uint64_t objcReadWriteBufferSizeAllocated,
- uint32_t objcRwFileOffset)
+ uint64_t objcRwFileOffset)
{
// validate there is enough free space to add the load commands
const dyld3::MachOAnalyzer* libobjcMA = ((dyld3::MachOAnalyzer*)libobjcMH);
@@ -588,6 +977,43 @@
}
}
+template <typename P> static inline void emitIMPCaches(ContentAccessor& cacheAccessor,
+ std::vector<CacheBuilder::DylibInfo> & allDylibs,
+ std::vector<const macho_header<P>*> & sizeSortedDylibs,
+ bool relativeMethodListSelectorsAreDirect,
+ uint64_t selectorStringVMAddr,
+ uint8_t* optROData, size_t& optRORemaining,
+ uint8_t* optRWData, size_t& optRWRemaining,
+ CacheBuilder::ASLR_Tracker& aslrTracker,
+ const std::vector<const IMPCaches::Selector*> & inlinedSelectors,
+ uint8_t* &inlinedSelectorsStart,
+ uint8_t* &inlinedSelectorsEnd,
+ Diagnostics& diag,
+ TimeRecorder& timeRecorder) {
+ diag.verbose("[IMP caches] computing IMP map\n");
+
+ IMPMapBuilder<P> classRecorder(relativeMethodListSelectorsAreDirect);
+ for (const macho_header<P>* mh : sizeSortedDylibs) {
+ ClassWalker<P, IMPMapBuilder<P>> classWalker(classRecorder, ClassWalkerMode::ClassAndMetaclasses);
+ classWalker.walk(&cacheAccessor, mh);
+ classRecorder.visit(&cacheAccessor, mh);
+ }
+
+ timeRecorder.recordTime("compute IMP map");
+ diag.verbose("[IMP caches] emitting IMP caches\n");
+
+ IMPCachesEmitter<P> impCachesEmitter(diag, classRecorder, selectorStringVMAddr, optROData, optRORemaining, optRWData, optRWRemaining, allDylibs, sizeSortedDylibs, aslrTracker);
+ ClassWalker<P, IMPCachesEmitter<P>> impEmitterClassWalker(impCachesEmitter, ClassWalkerMode::ClassAndMetaclasses);
+ for (const macho_header<P>* mh : sizeSortedDylibs) {
+ impEmitterClassWalker.walk(&cacheAccessor, mh);
+ if (diag.hasError())
+ return;
+ }
+
+ inlinedSelectorsStart = optRWData;
+ impCachesEmitter.emitInlinedSelectors(inlinedSelectors);
+ inlinedSelectorsEnd = optRWData;
+}
template <typename P>
void doOptimizeObjC(DyldSharedCache* cache, bool forProduction, CacheBuilder::ASLR_Tracker& aslrTracker,
@@ -595,7 +1021,11 @@
const std::map<void*, std::string>& missingWeakImports, Diagnostics& diag,
uint8_t* objcReadOnlyBuffer, uint64_t objcReadOnlyBufferSizeUsed, uint64_t objcReadOnlyBufferSizeAllocated,
uint8_t* objcReadWriteBuffer, uint64_t objcReadWriteBufferSizeAllocated,
- uint32_t objcRwFileOffset)
+ uint64_t objcRwFileOffset,
+ std::vector<CacheBuilder::DylibInfo> & allDylibs,
+ const std::vector<const IMPCaches::Selector*> & inlinedSelectors,
+ bool impCachesSuccess,
+ TimeRecorder& timeRecorder)
{
typedef typename P::E E;
typedef typename P::uint_t pint_t;
@@ -616,6 +1046,7 @@
__block const mach_header* libobjcMH = nullptr;
__block const macho_section<P> *optROSection = nullptr;
__block const macho_section<P> *optPointerListSection = nullptr;
+ __block const macho_section<P> *optImpCachesPointerSection = nullptr;
__block std::vector<const macho_header<P>*> objcDylibs;
cache->forEachImage(^(const mach_header* machHeader, const char* installName) {
const macho_header<P>* mh = (const macho_header<P>*)machHeader;
@@ -623,6 +1054,9 @@
libobjcMH = (mach_header*)mh;
optROSection = mh->getSection("__TEXT", "__objc_opt_ro");
optPointerListSection = mh->getSection("__DATA", "__objc_opt_ptrs");
+ if ( optPointerListSection == nullptr )
+ optPointerListSection = mh->getSection("__AUTH", "__objc_opt_ptrs");
+ optImpCachesPointerSection = mh->getSection("__DATA_CONST", "__objc_scoffs");
}
if ( mh->getSection("__DATA", "__objc_imageinfo") || mh->getSection("__OBJC", "__image_info") ) {
objcDylibs.push_back(mh);
@@ -636,6 +1070,9 @@
if ( optPointerListSection == nullptr ) {
diag.warning("libobjc's pointer list section missing (metadata not optimized)");
return;
+ }
+ if ( optImpCachesPointerSection == nullptr ) {
+ diag.warning("libobjc's magical shared cache offsets list section missing (metadata not optimized)");
}
// point optROData into space allocated in dyld cache
uint8_t* optROData = objcReadOnlyBuffer + objcReadOnlyBufferSizeUsed;
@@ -767,7 +1204,11 @@
return (uint8_t*)(((uintptr_t)ptr + 0x7) & ~0x7);
};
- SelectorOptimizer<P, ObjCSelectorUniquer<P> > selOptimizer(uniq);
+ // Relative method lists names are initially an offset to a selector reference.
+ // Eventually we'll update them to offsets directly to the selector string.
+ bool relativeMethodListSelectorsAreDirect = false;
+
+ SelectorOptimizer<P, ObjCSelectorUniquer<P> > selOptimizer(uniq, relativeMethodListSelectorsAreDirect);
selOptimizer.visitCoalescedStrings(coalescedText);
for (const macho_header<P>* mh : sizeSortedDylibs) {
LegacySelectorUpdater<P, ObjCSelectorUniquer<P>>::update(&cacheAccessor, mh, uniq);
@@ -865,7 +1306,7 @@
//
// This is SAFE: modified binaries are still usable as unsorted lists.
// This must be done AFTER uniquing selectors.
- MethodListSorter<P> methodSorter;
+ MethodListSorter<P> methodSorter(relativeMethodListSelectorsAreDirect);
for (const macho_header<P>* mh : sizeSortedDylibs) {
methodSorter.optimize(&cacheAccessor, mh);
}
@@ -887,10 +1328,26 @@
protocolOptimizer.protocolCount());
pint_t protocolClassVMAddr = (pint_t)P::getP(optPointerList->protocolClass);
+
+ // Get the pointer metadata from the magic protocolClassVMAddr symbol
+ // We'll transfer it over to the ISA on all the objc protocols when we set their ISAs
+ dyld3::MachOAnalyzerSet::PointerMetaData protocolClassPMD;
+ uint16_t protocolClassAuthDiversity = 0;
+ bool protocolClassAuthIsAddr = false;
+ uint8_t protocolClassAuthKey = 0;
+ if ( aslrTracker.hasAuthData((void*)&optPointerList->protocolClass, &protocolClassAuthDiversity, &protocolClassAuthIsAddr, &protocolClassAuthKey) ) {
+ protocolClassPMD.diversity = protocolClassAuthDiversity;
+ protocolClassPMD.high8 = 0;
+ protocolClassPMD.authenticated = 1;
+ protocolClassPMD.key = protocolClassAuthKey;
+ protocolClassPMD.usesAddrDiversity = protocolClassAuthIsAddr;
+ }
+
err = protocolOptimizer.writeProtocols(&cacheAccessor,
optRWData, optRWRemaining,
optROData, optRORemaining,
- aslrTracker, protocolClassVMAddr);
+ aslrTracker, protocolClassVMAddr,
+ protocolClassPMD);
if (err) {
diag.warning("%s", err);
return;
@@ -942,6 +1399,56 @@
diag.verbose(" updated % 6ld ivar offsets\n", ivarOffsetOptimizer.optimized());
+ //
+ // Build imp caches
+ //
+ // Objc has a magic section of imp cache base pointers. We need these to
+ // offset everything else from
+ const CacheBuilder::CacheCoalescedText::StringSection& methodNames = coalescedText.getSectionData("__objc_methname");
+ uint64_t selectorStringVMAddr = methodNames.bufferVMAddr;
+ uint64_t selectorStringVMSize = methodNames.bufferSize;
+ uint64_t impCachesVMSize = 0; // We'll calculate this later
+
+ uint64_t optRODataRemainingBeforeImpCaches = optRORemaining;
+
+ timeRecorder.pushTimedSection();
+
+ uint8_t* inlinedSelectorsStart = optRWData;
+ uint8_t* inlinedSelectorsEnd = optRWData;
+
+ if (impCachesSuccess) {
+ emitIMPCaches<P>(cacheAccessor, allDylibs, sizeSortedDylibs, relativeMethodListSelectorsAreDirect,
+ selectorStringVMAddr, optROData, optRORemaining, optRWData, optRWRemaining,
+ aslrTracker, inlinedSelectors, inlinedSelectorsStart, inlinedSelectorsEnd, diag, timeRecorder);
+ }
+
+ uint8_t* alignedROData = alignPointer(optROData);
+ optRORemaining -= (alignedROData - optROData);
+ optROData = alignedROData;
+
+ impCachesVMSize = optRODataRemainingBeforeImpCaches - optRORemaining;
+ timeRecorder.recordTime("emit IMP caches");
+ timeRecorder.popTimedSection();
+
+ diag.verbose("[IMP Caches] Imp caches size: %'lld bytes\n\n", impCachesVMSize);
+
+ // Update the pointers in the pointer list section
+ if (optImpCachesPointerSection) {
+ if (optImpCachesPointerSection->size() < sizeof(objc_opt::objc_opt_pointerlist_tt<pint_t>)) {
+ diag.warning("libobjc's pointer list section is too small (metadata not optimized)");
+ return;
+ }
+ auto *impCachePointers = (objc_opt_imp_caches_pointerlist_tt<pint_t> *)cacheAccessor.contentForVMAddr(optImpCachesPointerSection->addr());
+ impCachePointers->selectorStringVMAddrStart = (pint_t)selectorStringVMAddr;
+ impCachePointers->selectorStringVMAddrEnd = (pint_t)(selectorStringVMAddr + selectorStringVMSize);
+ impCachePointers->inlinedSelectorsVMAddrStart = (pint_t)cacheAccessor.vmAddrForContent(inlinedSelectorsStart);
+ impCachePointers->inlinedSelectorsVMAddrEnd = (pint_t)cacheAccessor.vmAddrForContent(inlinedSelectorsEnd);
+
+ aslrTracker.add(&impCachePointers->selectorStringVMAddrStart);
+ aslrTracker.add(&impCachePointers->selectorStringVMAddrEnd);
+ aslrTracker.add(&impCachePointers->inlinedSelectorsVMAddrStart);
+ aslrTracker.add(&impCachePointers->inlinedSelectorsVMAddrEnd);
+ }
// Collect flags.
uint32_t headerFlags = 0;
@@ -990,7 +1497,7 @@
// Now that objc has uniqued the selector references, we can apply the LOHs so that ADRP/LDR -> ADRP/ADD
- if (forProduction) {
+ {
const bool logSelectors = false;
uint64_t lohADRPCount = 0;
uint64_t lohLDRCount = 0;
@@ -1102,19 +1609,41 @@
} // anon namespace
-void CacheBuilder::optimizeObjC()
+size_t IMPCaches::sizeForImpCacheWithCount(int count) {
+ // The architecture should not be relevant here as it's all offsets and fixed int sizes.
+ // It was just the most logical place to host this function in.
+
+ size_t size64 = IMPCachesEmitter<Pointer64<LittleEndian>>::sizeForImpCacheWithCount(count);
+ size_t size32 = IMPCachesEmitter<Pointer32<LittleEndian>>::sizeForImpCacheWithCount(count);
+ assert(size64 == size32);
+
+ return size64;
+}
+
+void SharedCacheBuilder::optimizeObjC(bool impCachesSuccess, const std::vector<const IMPCaches::Selector*> & inlinedSelectors)
{
- uint32_t objcRwFileOffset = (uint32_t)((_objcReadWriteBuffer - _readWriteRegion.buffer) + _readWriteRegion.cacheFileOffset);
if ( _archLayout->is64 )
- doOptimizeObjC<Pointer64<LittleEndian>>((DyldSharedCache*)_readExecuteRegion.buffer, _options.optimizeStubs, _aslrTracker, _lohTracker,
- _coalescedText, _missingWeakImports,
- _diagnostics, _objcReadOnlyBuffer, _objcReadOnlyBufferSizeUsed, _objcReadOnlyBufferSizeAllocated,
- _objcReadWriteBuffer, _objcReadWriteBufferSizeAllocated, objcRwFileOffset);
+ doOptimizeObjC<Pointer64<LittleEndian>>((DyldSharedCache*)_readExecuteRegion.buffer,
+ _options.optimizeStubs,
+ _aslrTracker, _lohTracker,
+ _coalescedText,
+ _missingWeakImports, _diagnostics,
+ _objcReadOnlyBuffer,
+ _objcReadOnlyBufferSizeUsed,
+ _objcReadOnlyBufferSizeAllocated,
+ _objcReadWriteBuffer, _objcReadWriteBufferSizeAllocated,
+ _objcReadWriteFileOffset, _sortedDylibs, inlinedSelectors, impCachesSuccess, _timeRecorder);
else
- doOptimizeObjC<Pointer32<LittleEndian>>((DyldSharedCache*)_readExecuteRegion.buffer, _options.optimizeStubs, _aslrTracker, _lohTracker,
- _coalescedText, _missingWeakImports,
- _diagnostics, _objcReadOnlyBuffer, _objcReadOnlyBufferSizeUsed, _objcReadOnlyBufferSizeAllocated,
- _objcReadWriteBuffer, _objcReadWriteBufferSizeAllocated, objcRwFileOffset);
+ doOptimizeObjC<Pointer32<LittleEndian>>((DyldSharedCache*)_readExecuteRegion.buffer,
+ _options.optimizeStubs,
+ _aslrTracker, _lohTracker,
+ _coalescedText,
+ _missingWeakImports, _diagnostics,
+ _objcReadOnlyBuffer,
+ _objcReadOnlyBufferSizeUsed,
+ _objcReadOnlyBufferSizeAllocated,
+ _objcReadWriteBuffer, _objcReadWriteBufferSizeAllocated,
+ _objcReadWriteFileOffset, _sortedDylibs, inlinedSelectors, impCachesSuccess, _timeRecorder);
}
static uint32_t hashTableSize(uint32_t maxElements, uint32_t perElementData)
@@ -1127,13 +1656,16 @@
// The goal here is to allocate space in the dyld shared cache (while it is being laid out) that will contain
// the objc structures that previously were in the __objc_opt_ro section.
-uint32_t CacheBuilder::computeReadOnlyObjC(uint32_t selRefCount, uint32_t classDefCount, uint32_t protocolDefCount)
+uint32_t SharedCacheBuilder::computeReadOnlyObjC(uint32_t selRefCount, uint32_t classDefCount, uint32_t protocolDefCount)
{
return 0xA000 + hashTableSize(selRefCount, 5) + hashTableSize(classDefCount, 12) + hashTableSize(protocolDefCount, 8);
}
// Space to replace the __objc_opt_rw section.
-uint32_t CacheBuilder::computeReadWriteObjC(uint32_t imageCount, uint32_t protocolDefCount)
+uint32_t SharedCacheBuilder::computeReadWriteObjC(uint32_t imageCount, uint32_t protocolDefCount)
{
- return 8*imageCount + protocolDefCount*12*(_archLayout->is64 ? 8 : 4);
+ uint8_t pointerSize = _archLayout->is64 ? 8 : 4;
+ return 8*imageCount
+ + protocolDefCount*12*pointerSize
+ + (int)_impCachesBuilder->inlinedSelectors.size() * pointerSize;
}