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--- dyld/dyld-733.8/src/dyld_process_info.cpp
+++ dyld/dyld-852/src/dyld_process_info.cpp
@@ -22,6 +22,7 @@
* @APPLE_LICENSE_HEADER_END@
*/
+#include <dlfcn.h>
#include <stdlib.h>
#include <string.h>
#include <limits.h>
@@ -48,46 +49,48 @@
std::swap(_localAddress, other._localAddress);
std::swap(_size, other._size);
std::swap(_kr, other._kr);
- std::swap(_shared, other._shared);
return *this;
}
-RemoteBuffer::RemoteBuffer() : _localAddress(0), _size(0), _kr(KERN_SUCCESS), _shared(false) {}
-RemoteBuffer::RemoteBuffer(std::tuple<mach_vm_address_t,vm_size_t,kern_return_t,bool> T)
- : _localAddress(std::get<0>(T)), _size(std::get<1>(T)), _kr(std::get<2>(T)), _shared(std::get<3>(T)) {}
-
-RemoteBuffer::RemoteBuffer(task_t task, mach_vm_address_t remote_address, size_t remote_size, bool shared, bool allow_truncation)
-: RemoteBuffer(RemoteBuffer::create(task, remote_address, remote_size, shared, allow_truncation)) {};
+RemoteBuffer::RemoteBuffer() : _localAddress(0), _size(0), _kr(KERN_SUCCESS) {}
+RemoteBuffer::RemoteBuffer(std::tuple<mach_vm_address_t,vm_size_t,kern_return_t> T)
+ : _localAddress(std::get<0>(T)), _size(std::get<1>(T)), _kr(std::get<2>(T)) {}
+
+RemoteBuffer::RemoteBuffer(task_t task, mach_vm_address_t remote_address, size_t remote_size, bool allow_truncation)
+: RemoteBuffer(RemoteBuffer::create(task, remote_address, remote_size, allow_truncation)) {};
std::pair<mach_vm_address_t, kern_return_t>
-RemoteBuffer::map(task_t task, mach_vm_address_t remote_address, vm_size_t size, bool shared) {
+RemoteBuffer::map(task_t task, mach_vm_address_t remote_address, vm_size_t size) {
+ static kern_return_t (*mvrn)(vm_map_t, mach_vm_address_t*, mach_vm_size_t, mach_vm_offset_t, int, vm_map_read_t, mach_vm_address_t,
+ boolean_t, vm_prot_t*, vm_prot_t*, vm_inherit_t) = nullptr;
vm_prot_t cur_protection = VM_PROT_NONE;
- vm_prot_t max_protection = VM_PROT_NONE;
- int flags;
+ vm_prot_t max_protection = VM_PROT_READ;
if (size == 0) {
return std::make_pair(MACH_VM_MIN_ADDRESS, KERN_INVALID_ARGUMENT);
}
- if (shared) {
- flags = VM_FLAGS_ANYWHERE | VM_FLAGS_RETURN_DATA_ADDR;
- } else {
- // <rdar://55343677>
- // Since we are getting rid of the flag probing we have to make sure that simulator libdyld's do not use VM_FLAGS_RESILIENT_MEDIA
- // FIXME: Remove this when simulator builds do not support back deployment to 10.14
+ mach_vm_address_t localAddress = 0;
#if TARGET_OS_SIMULATOR
- flags = VM_FLAGS_ANYWHERE | VM_FLAGS_RETURN_DATA_ADDR | VM_FLAGS_RESILIENT_CODESIGN;
+ static dispatch_once_t onceToken;
+ dispatch_once(&onceToken, ^{
+ mvrn = (kern_return_t (*)(vm_map_t, mach_vm_address_t*, mach_vm_size_t, mach_vm_offset_t, int, vm_map_read_t, mach_vm_address_t,
+ boolean_t, vm_prot_t*, vm_prot_t*, vm_inherit_t))dlsym(RTLD_DEFAULT, "mach_vm_remap_new");
+ if (mvrn == nullptr) {
+ // We are running on a system that does not support task_read ports, use the old call
+ mvrn = (kern_return_t (*)(vm_map_t, mach_vm_address_t*, mach_vm_size_t, mach_vm_offset_t, int, vm_map_read_t, mach_vm_address_t,
+ boolean_t, vm_prot_t*, vm_prot_t*, vm_inherit_t))dlsym(RTLD_DEFAULT, "mach_vm_remap");
+ }
+ });
#else
- flags = VM_FLAGS_ANYWHERE | VM_FLAGS_RETURN_DATA_ADDR | VM_FLAGS_RESILIENT_CODESIGN | VM_FLAGS_RESILIENT_MEDIA;
+ mvrn = &mach_vm_remap_new;
#endif
- }
- mach_vm_address_t localAddress = 0;
- auto kr = mach_vm_remap(mach_task_self(),
+ auto kr = mvrn(mach_task_self(),
&localAddress,
size,
0, // mask
- flags,
+ VM_FLAGS_ANYWHERE | VM_FLAGS_RESILIENT_CODESIGN | VM_FLAGS_RESILIENT_MEDIA,
task,
remote_address,
- !shared,
+ true,
&cur_protection,
&max_protection,
VM_INHERIT_NONE);
@@ -101,68 +104,51 @@
// we are copying some memory in the middle of a mach-o that is on a USB drive that is disconnected after we perform
// the mapping). Once we copy them into a local buffer the memory will be handled by the default pager instead of
// potentially being backed by the mmap pager, and thus will be guaranteed not to mutate out from under us.
- if (!shared) {
- void* buffer = malloc(size);
- if (buffer == nullptr) {
- (void)vm_deallocate(mach_task_self(), localAddress, size);
- return std::make_pair(MACH_VM_MIN_ADDRESS, kr);
- }
- memcpy(buffer, (void *)localAddress, size);
- (void)vm_deallocate(mach_task_self(), localAddress, size);
- return std::make_pair((vm_address_t)buffer, KERN_SUCCESS);
- }
- // A shared buffer was requested, if the permissions are not correct deallocate the region and return failure
- if (cur_protection != (VM_PROT_READ|VM_PROT_WRITE)) {
- if (localAddress != 0) {
- (void)vm_deallocate(mach_task_self(), (size_t)localAddress, size);
- }
- return std::make_pair(MACH_VM_MIN_ADDRESS, KERN_PROTECTION_FAILURE);
- }
- // We have a successfully created shared buffer with the correct permissions, return it
- return std::make_pair(localAddress, KERN_SUCCESS);
-}
-
-std::tuple<mach_vm_address_t,vm_size_t,kern_return_t,bool> RemoteBuffer::create(task_t task,
+ void* buffer = malloc(size);
+ if (buffer == nullptr) {
+ (void)vm_deallocate(mach_task_self(), (vm_address_t)localAddress, size);
+ return std::make_pair(MACH_VM_MIN_ADDRESS, KERN_NO_SPACE);
+ }
+ memcpy(buffer, (void *)localAddress, size);
+ (void)vm_deallocate(mach_task_self(), (vm_address_t)localAddress, size);
+ return std::make_pair((vm_address_t)buffer, KERN_SUCCESS);
+}
+
+std::tuple<mach_vm_address_t,vm_size_t,kern_return_t> RemoteBuffer::create(task_t task,
mach_vm_address_t remote_address,
size_t size,
- bool shared,
bool allow_truncation) {
mach_vm_address_t localAddress;
kern_return_t kr;
// Try the initial map
- std::tie(localAddress, kr) = map(task, remote_address, size, shared);
- if (kr == KERN_SUCCESS) return std::make_tuple(localAddress, size, kr, shared);
+ std::tie(localAddress, kr) = map(task, remote_address, size);
+ if (kr == KERN_SUCCESS) return std::make_tuple(localAddress, size, kr);
// The first attempt failed, truncate if possible and try again. We only need to try once since the largest
// truncatable buffer we map is less than a single page. To be more general we would need to try repeatedly in a
// loop.
if (allow_truncation) {
size = PAGE_SIZE - remote_address%PAGE_SIZE;
- std::tie(localAddress, kr) = map(task, remote_address, size, shared);
- if (kr == KERN_SUCCESS) return std::make_tuple(localAddress, size, kr, shared);
+ std::tie(localAddress, kr) = map(task, remote_address, size);
+ if (kr == KERN_SUCCESS) return std::make_tuple(localAddress, size, kr);
}
// If we reach this then the mapping completely failed
- return std::make_tuple(MACH_VM_MIN_ADDRESS, 0, kr, shared);
+ return std::make_tuple(MACH_VM_MIN_ADDRESS, 0, kr);
}
RemoteBuffer::~RemoteBuffer() {
if (!_localAddress) { return; }
-
- if (_shared) {
- (void)vm_deallocate(mach_task_self(), (vm_address_t)_localAddress, _size);
- } else {
- free((void*)_localAddress);
- }
+ free((void*)_localAddress);
}
void *RemoteBuffer::getLocalAddress() const { return (void *)_localAddress; }
size_t RemoteBuffer::getSize() const { return _size; }
kern_return_t RemoteBuffer::getKernelReturn() const { return _kr; }
-void withRemoteBuffer(task_t task, mach_vm_address_t remote_address, size_t remote_size, bool shared, bool allow_truncation, kern_return_t *kr, void (^block)(void *buffer, size_t size)) {
+void withRemoteBuffer(task_t task, mach_vm_address_t remote_address, size_t remote_size, bool allow_truncation, kern_return_t *kr, void (^block)(void *buffer, size_t size)) {
kern_return_t krSink = KERN_SUCCESS;
if (kr == nullptr) {
kr = &krSink;
}
- RemoteBuffer buffer(task, remote_address, remote_size, shared, allow_truncation);
+ RemoteBuffer buffer(task, remote_address, remote_size, allow_truncation);
*kr = buffer.getKernelReturn();
if (*kr == KERN_SUCCESS) {
block(buffer.getLocalAddress(), buffer.getSize());
@@ -195,13 +181,15 @@
template<typename T>
static dyld_process_info_ptr makeSuspended(task_t task, const T& allImageInfo, kern_return_t* kr);
- std::atomic<uint32_t>& retainCount() const { return _retainCount; }
- dyld_process_cache_info* cacheInfo() const { return (dyld_process_cache_info*)(((char*)this) + _cacheInfoOffset); }
- dyld_process_state_info* stateInfo() const { return (dyld_process_state_info*)(((char*)this) + _stateInfoOffset); }
- dyld_platform_t platform() const { return _platform; }
-
- void forEachImage(void (^callback)(uint64_t machHeaderAddress, const uuid_t uuid, const char* path)) const;
- void forEachSegment(uint64_t machHeaderAddress, void (^callback)(uint64_t segmentAddress, uint64_t segmentSize, const char* segmentName)) const;
+ std::atomic<uint32_t>& retainCount() const { return _retainCount; }
+ dyld_process_cache_info* cacheInfo() const { return (dyld_process_cache_info*)(((char*)this) + _cacheInfoOffset); }
+ dyld_process_aot_cache_info* aotCacheInfo() const { return (dyld_process_aot_cache_info*)(((char*)this) + _aotCacheInfoOffset); }
+ dyld_process_state_info* stateInfo() const { return (dyld_process_state_info*)(((char*)this) + _stateInfoOffset); }
+ dyld_platform_t platform() const { return _platform; }
+
+ void forEachImage(void (^callback)(uint64_t machHeaderAddress, const uuid_t uuid, const char* path)) const;
+ void forEachAotImage(bool (^callback)(uint64_t x86Address, uint64_t aotAddress, uint64_t aotSize, uint8_t* aotImageKey, size_t aotImageKeySize)) const;
+ void forEachSegment(uint64_t machHeaderAddress, void (^callback)(uint64_t segmentAddress, uint64_t segmentSize, const char* segmentName)) const;
bool reserveSpace(size_t space) {
if (_freeSpace < space) { return false; }
@@ -238,11 +226,13 @@
uint64_t size;
};
- dyld_process_info_base(dyld_platform_t platform, unsigned imageCount, size_t totalSize);
+ dyld_process_info_base(dyld_platform_t platform, unsigned imageCount, unsigned aotImageCount, size_t totalSize);
void* operator new (size_t, void* buf) { return buf; }
static bool inCache(uint64_t addr) { return (addr > SHARED_REGION_BASE) && (addr < SHARED_REGION_BASE+SHARED_REGION_SIZE); }
bool addImage(task_t task, bool sameCacheAsThisProcess, uint64_t imageAddress, uint64_t imagePath, const char* imagePathLocal);
+
+ bool addAotImage(dyld_aot_image_info_64 aotImageInfo);
kern_return_t addDyldImage(task_t task, uint64_t dyldAddress, uint64_t dyldPathAddress, const char* localPath);
@@ -259,13 +249,17 @@
mutable std::atomic<uint32_t> _retainCount;
const uint32_t _cacheInfoOffset;
+ const uint32_t _aotCacheInfoOffset;
const uint32_t _stateInfoOffset;
const uint32_t _imageInfosOffset;
+ const uint32_t _aotImageInfosOffset;
const uint32_t _segmentInfosOffset;
size_t _freeSpace;
dyld_platform_t _platform;
ImageInfo* const _firstImage;
ImageInfo* _curImage;
+ dyld_aot_image_info_64* const _firstAotImage;
+ dyld_aot_image_info_64* _curAotImage;
SegmentInfo* const _firstSegment;
SegmentInfo* _curSegment;
uint32_t _curSegmentIndex;
@@ -278,14 +272,18 @@
// char stringPool[]
};
-dyld_process_info_base::dyld_process_info_base(dyld_platform_t platform, unsigned imageCount, size_t totalSize)
+dyld_process_info_base::dyld_process_info_base(dyld_platform_t platform, unsigned imageCount, unsigned aotImageCount, size_t totalSize)
: _retainCount(1), _cacheInfoOffset(sizeof(dyld_process_info_base)),
- _stateInfoOffset(sizeof(dyld_process_info_base) + sizeof(dyld_process_cache_info)),
- _imageInfosOffset(sizeof(dyld_process_info_base) + sizeof(dyld_process_cache_info) + sizeof(dyld_process_state_info)),
- _segmentInfosOffset(sizeof(dyld_process_info_base) + sizeof(dyld_process_cache_info) + sizeof(dyld_process_state_info) + imageCount*sizeof(ImageInfo)),
+ _aotCacheInfoOffset(sizeof(dyld_process_info_base) + sizeof(dyld_process_cache_info)),
+ _stateInfoOffset(sizeof(dyld_process_info_base) + sizeof(dyld_process_cache_info) + sizeof(dyld_process_aot_cache_info)),
+ _imageInfosOffset(sizeof(dyld_process_info_base) + sizeof(dyld_process_cache_info) + sizeof(dyld_process_aot_cache_info) + sizeof(dyld_process_state_info)),
+ _aotImageInfosOffset(sizeof(dyld_process_info_base) + sizeof(dyld_process_cache_info) + sizeof(dyld_process_aot_cache_info) + sizeof(dyld_process_state_info) + imageCount*sizeof(ImageInfo)),
+ _segmentInfosOffset(sizeof(dyld_process_info_base) + sizeof(dyld_process_cache_info) + sizeof(dyld_process_aot_cache_info) + sizeof(dyld_process_state_info) + imageCount*sizeof(ImageInfo) + aotImageCount*sizeof(dyld_aot_image_info_64)),
_freeSpace(totalSize), _platform(platform),
_firstImage((ImageInfo*)(((uint8_t*)this) + _imageInfosOffset)),
_curImage((ImageInfo*)(((uint8_t*)this) + _imageInfosOffset)),
+ _firstAotImage((dyld_aot_image_info_64*)(((uint8_t*)this) + _aotImageInfosOffset)),
+ _curAotImage((dyld_aot_image_info_64*)(((uint8_t*)this) + _aotImageInfosOffset)),
_firstSegment((SegmentInfo*)(((uint8_t*)this) + _segmentInfosOffset)),
_curSegment((SegmentInfo*)(((uint8_t*)this) + _segmentInfosOffset)),
_curSegmentIndex(0),
@@ -311,13 +309,11 @@
if (result) {
// If it returned the process is suspended and there is nothing more to do
return std::move(result);
- } else {
- // Check to see if the process change timestamp is greater than 0, if not then sleep to let the process
- // finish initializing
- if (allImageInfo.infoArrayChangeTimestamp == 0) {
- usleep(1000 * 50); // 50ms
- }
- }
+ }
+ usleep(1000 * 50); // 50ms
+ // Not exactly correct, but conveys that operation may succeed in the future
+ *kr = KERN_RESOURCE_SHORTAGE;
+ return nullptr;
}
// Test to see if there are no changes and we can exit early
@@ -326,125 +322,138 @@
return nullptr;
}
- for (uint32_t j=0; j < 10; ++j) {
- uint64_t currentTimestamp = allImageInfo.infoArrayChangeTimestamp;
- mach_vm_address_t infoArray = allImageInfo.infoArray;
- if (currentTimestamp == 0) continue;
- if (infoArray == 0) {
- // Check if the task is suspended mid dylib load and exit early
- mach_task_basic_info ti;
- mach_msg_type_number_t count = MACH_TASK_BASIC_INFO_COUNT;
- if ((*kr = task_info(task, MACH_TASK_BASIC_INFO, (task_info_t)&ti, &count))) {
- continue;
- }
-
- // The task is suspended, exit
- if (ti.suspend_count != 0) {
- // Not exactly correct, but conveys that operation may succeed in the future
- *kr = KERN_RESOURCE_SHORTAGE;
- return nullptr;
- }
- continue;
- };
-
- // For the moment we are going to truncate any image list longer than 8192 because some programs do
- // terrible things that corrupt their own image lists and we need to stop clients from crashing
- // reading them. We can try to do something more advanced in the future. rdar://27446361
- uint32_t imageCount = allImageInfo.infoArrayCount;
- imageCount = MIN(imageCount, 8192);
- size_t imageArraySize = imageCount * sizeof(T2);
-
- withRemoteBuffer(task, infoArray, imageArraySize, false, false, kr, ^(void *buffer, size_t size) {
- // figure out how many path strings will need to be copied and their size
- T2* imageArray = (T2 *)buffer;
- const dyld_all_image_infos* myInfo = _dyld_get_all_image_infos();
- bool sameCacheAsThisProcess = !allImageInfo.processDetachedFromSharedRegion
- && !myInfo->processDetachedFromSharedRegion
- && ((memcmp(myInfo->sharedCacheUUID, &allImageInfo.sharedCacheUUID[0], 16) == 0)
- && (myInfo->sharedCacheSlide == allImageInfo.sharedCacheSlide));
- unsigned countOfPathsNeedingCopying = 0;
- if ( sameCacheAsThisProcess ) {
- for (uint32_t i=0; i < imageCount; ++i) {
- if ( !inCache(imageArray[i].imageFilePath) )
- ++countOfPathsNeedingCopying;
- }
- }
- else {
- countOfPathsNeedingCopying = imageCount+1;
- }
- unsigned imageCountWithDyld = imageCount+1;
-
- // allocate result object
- size_t allocationSize = sizeof(dyld_process_info_base)
- + sizeof(dyld_process_cache_info)
- + sizeof(dyld_process_state_info)
- + sizeof(ImageInfo)*(imageCountWithDyld)
- + sizeof(SegmentInfo)*imageCountWithDyld*5
- + countOfPathsNeedingCopying*PATH_MAX;
- void* storage = malloc(allocationSize);
- if (storage == nullptr) {
- *kr = KERN_NO_SPACE;
+ uint64_t currentTimestamp = allImageInfo.infoArrayChangeTimestamp;
+ mach_vm_address_t infoArray = allImageInfo.infoArray;
+ if (infoArray == 0) {
+ usleep(1000 * 50); // 50ms
+ // Not exactly correct, but conveys that operation may succeed in the future
+ *kr = KERN_RESOURCE_SHORTAGE;
+ return nullptr;
+ };
+
+ // For the moment we are going to truncate any image list longer than 8192 because some programs do
+ // terrible things that corrupt their own image lists and we need to stop clients from crashing
+ // reading them. We can try to do something more advanced in the future. rdar://27446361
+ uint32_t imageCount = allImageInfo.infoArrayCount;
+ imageCount = MIN(imageCount, 8192);
+ size_t imageArraySize = imageCount * sizeof(T2);
+
+ withRemoteBuffer(task, infoArray, imageArraySize, false, kr, ^(void *buffer, size_t size) {
+ // figure out how many path strings will need to be copied and their size
+ T2* imageArray = (T2 *)buffer;
+ const dyld_all_image_infos* myInfo = _dyld_get_all_image_infos();
+ bool sameCacheAsThisProcess = !allImageInfo.processDetachedFromSharedRegion
+ && !myInfo->processDetachedFromSharedRegion
+ && ((memcmp(myInfo->sharedCacheUUID, &allImageInfo.sharedCacheUUID[0], 16) == 0)
+ && (myInfo->sharedCacheSlide == allImageInfo.sharedCacheSlide));
+ unsigned countOfPathsNeedingCopying = 0;
+ if ( sameCacheAsThisProcess ) {
+ for (uint32_t i=0; i < imageCount; ++i) {
+ if ( !inCache(imageArray[i].imageFilePath) )
+ ++countOfPathsNeedingCopying;
+ }
+ }
+ else {
+ countOfPathsNeedingCopying = imageCount+1;
+ }
+ unsigned imageCountWithDyld = imageCount+1;
+
+ // allocate result object
+ size_t allocationSize = sizeof(dyld_process_info_base)
+ + sizeof(dyld_process_cache_info)
+ + sizeof(dyld_process_aot_cache_info)
+ + sizeof(dyld_process_state_info)
+ + sizeof(ImageInfo)*(imageCountWithDyld)
+ + sizeof(dyld_aot_image_info_64)*(allImageInfo.aotInfoCount) // add the size necessary for aot info to this buffer
+ + sizeof(SegmentInfo)*imageCountWithDyld*10
+ + countOfPathsNeedingCopying*PATH_MAX;
+ void* storage = malloc(allocationSize);
+ if (storage == nullptr) {
+ *kr = KERN_NO_SPACE;
+ result = nullptr;
+ return;
+ }
+ auto info = dyld_process_info_ptr(new (storage) dyld_process_info_base(allImageInfo.platform, imageCountWithDyld, allImageInfo.aotInfoCount, allocationSize), deleter);
+ (void)info->reserveSpace(sizeof(dyld_process_info_base)+sizeof(dyld_process_cache_info)+sizeof(dyld_process_state_info)+sizeof(dyld_process_aot_cache_info));
+ (void)info->reserveSpace(sizeof(ImageInfo)*imageCountWithDyld);
+
+ // fill in base info
+ dyld_process_cache_info* cacheInfo = info->cacheInfo();
+ memcpy(cacheInfo->cacheUUID, &allImageInfo.sharedCacheUUID[0], 16);
+ cacheInfo->cacheBaseAddress = allImageInfo.sharedCacheBaseAddress;
+ cacheInfo->privateCache = allImageInfo.processDetachedFromSharedRegion;
+ // if no cache is used, allImageInfo has all zeros for cache UUID
+ cacheInfo->noCache = true;
+ for (int i=0; i < 16; ++i) {
+ if ( cacheInfo->cacheUUID[i] != 0 ) {
+ cacheInfo->noCache = false;
+ }
+ }
+
+ // fill in aot shared cache info
+ dyld_process_aot_cache_info* aotCacheInfo = info->aotCacheInfo();
+ memcpy(aotCacheInfo->cacheUUID, &allImageInfo.aotSharedCacheUUID[0], 16);
+ aotCacheInfo->cacheBaseAddress = allImageInfo.aotSharedCacheBaseAddress;
+
+ dyld_process_state_info* stateInfo = info->stateInfo();
+ stateInfo->timestamp = currentTimestamp;
+ stateInfo->imageCount = imageCountWithDyld;
+ stateInfo->initialImageCount = (uint32_t)(allImageInfo.initialImageCount+1);
+ stateInfo->dyldState = dyld_process_state_dyld_initialized;
+
+ if ( allImageInfo.libSystemInitialized != 0 ) {
+ stateInfo->dyldState = dyld_process_state_libSystem_initialized;
+ if ( allImageInfo.initialImageCount != imageCount ) {
+ stateInfo->dyldState = dyld_process_state_program_running;
+ }
+ }
+ if ( allImageInfo.errorMessage != 0 ) {
+ stateInfo->dyldState = allImageInfo.terminationFlags ? dyld_process_state_terminated_before_inits : dyld_process_state_dyld_terminated;
+ }
+ // fill in info for dyld
+ if ( allImageInfo.dyldPath != 0 ) {
+ if ((*kr = info->addDyldImage(task, allImageInfo.dyldImageLoadAddress, allImageInfo.dyldPath, NULL))) {
+ *kr = KERN_FAILURE;
result = nullptr;
return;
}
- auto info = dyld_process_info_ptr(new (storage) dyld_process_info_base(allImageInfo.platform, imageCountWithDyld, allocationSize), deleter);
- (void)info->reserveSpace(sizeof(dyld_process_info_base)+sizeof(dyld_process_cache_info)+sizeof(dyld_process_state_info));
-
- // fill in base info
- dyld_process_cache_info* cacheInfo = info->cacheInfo();
- memcpy(cacheInfo->cacheUUID, &allImageInfo.sharedCacheUUID[0], 16);
- cacheInfo->cacheBaseAddress = allImageInfo.sharedCacheBaseAddress;
- cacheInfo->privateCache = allImageInfo.processDetachedFromSharedRegion;
- // if no cache is used, allImageInfo has all zeros for cache UUID
- cacheInfo->noCache = true;
- for (int i=0; i < 16; ++i) {
- if ( cacheInfo->cacheUUID[i] != 0 ) {
- cacheInfo->noCache = false;
- }
- }
-
- dyld_process_state_info* stateInfo = info->stateInfo();
- stateInfo->timestamp = currentTimestamp;
- stateInfo->imageCount = imageCountWithDyld;
- stateInfo->initialImageCount = (uint32_t)(allImageInfo.initialImageCount+1);
- stateInfo->dyldState = dyld_process_state_dyld_initialized;
-
- if ( allImageInfo.libSystemInitialized != 0 ) {
- stateInfo->dyldState = dyld_process_state_libSystem_initialized;
- if ( allImageInfo.initialImageCount != imageCount ) {
- stateInfo->dyldState = dyld_process_state_program_running;
- }
- }
- if ( allImageInfo.errorMessage != 0 ) {
- stateInfo->dyldState = allImageInfo.terminationFlags ? dyld_process_state_terminated_before_inits : dyld_process_state_dyld_terminated;
- }
- // fill in info for dyld
- if ( allImageInfo.dyldPath != 0 ) {
- if ((*kr = info->addDyldImage(task, allImageInfo.dyldImageLoadAddress, allImageInfo.dyldPath, NULL))) {
+ }
+ // fill in info for each image
+ for (uint32_t i=0; i < imageCount; ++i) {
+ if (!info->addImage(task, sameCacheAsThisProcess, imageArray[i].imageLoadAddress, imageArray[i].imageFilePath, NULL)) {
+ *kr = KERN_FAILURE;
+ result = nullptr;
+ return;
+ }
+ }
+ // sanity check internal data did not overflow
+ if ( info->invalid() ) {
+ *kr = KERN_FAILURE;
+ result = nullptr;
+ return;
+ }
+
+ result = std::move(info);
+ });
+
+ mach_vm_address_t aotImageArray = allImageInfo.aotInfoArray;
+ // shortcircuit this code path if aotImageArray == 0 (32 vs 64 bit struct difference)
+ // and if result == nullptr, since we need to append aot image infos to the process info struct
+ if (aotImageArray != 0 && result != nullptr) {
+ uint32_t aotImageCount = allImageInfo.aotInfoCount;
+ size_t aotImageArraySize = aotImageCount * sizeof(dyld_aot_image_info_64);
+
+ withRemoteBuffer(task, aotImageArray, aotImageArraySize, false, kr, ^(void *buffer, size_t size) {
+ dyld_aot_image_info_64* imageArray = (dyld_aot_image_info_64*)buffer;
+ for (uint32_t i = 0; i < aotImageCount; i++) {
+ if (!result->addAotImage(imageArray[i])) {
+ *kr = KERN_FAILURE;
result = nullptr;
return;
}
}
- // fill in info for each image
- for (uint32_t i=0; i < imageCount; ++i) {
- if (!info->addImage(task, sameCacheAsThisProcess, imageArray[i].imageLoadAddress, imageArray[i].imageFilePath, NULL)) {
- result = nullptr;
- return;
- }
- }
- // sanity check internal data did not overflow
- if ( info->invalid() ) {
- *kr = KERN_FAILURE;
- result = nullptr;
- return;
- }
-
- result = std::move(info);
});
-
- if (result) break;
- }
-
+ }
return std::move(result);
}
@@ -487,7 +496,7 @@
if ( info.protection != (VM_PROT_READ|VM_PROT_EXECUTE) )
continue;
// read start of vm region to verify it is a mach header
- withRemoteObject(task, address, false, NULL, ^(mach_header_64 mhBuffer){
+ withRemoteObject(task, address, NULL, ^(mach_header_64 mhBuffer){
if ( (mhBuffer.magic != MH_MAGIC) && (mhBuffer.magic != MH_MAGIC_64) )
return;
// now know the region is the start of a mach-o file
@@ -513,20 +522,25 @@
//fprintf(stderr, "dyld: addr=0x%llX, path=%s\n", dyldAddress, dyldPathBuffer);
//fprintf(stderr, "app: addr=0x%llX, path=%s\n", mainExecutableAddress, mainExecutablePathBuffer);
+ // explicitly set aot image count to 0 in the suspended case
+ unsigned aotImageCount = 0;
+
// allocate result object
size_t allocationSize = sizeof(dyld_process_info_base)
+ sizeof(dyld_process_cache_info)
+ + sizeof(dyld_process_aot_cache_info)
+ sizeof(dyld_process_state_info)
+ sizeof(ImageInfo)*(imageCount)
- + sizeof(SegmentInfo)*imageCount*5
+ + sizeof(dyld_aot_image_info_64)*aotImageCount // this should always be 0, but including it here to be explicit
+ + sizeof(SegmentInfo)*imageCount*10
+ imageCount*PATH_MAX;
void* storage = malloc(allocationSize);
if (storage == nullptr) {
*kr = KERN_NO_SPACE;
return nullptr;
}
- auto obj = dyld_process_info_ptr(new (storage) dyld_process_info_base((dyld_platform_t)platformID, imageCount, allocationSize), deleter);
- (void)obj->reserveSpace(sizeof(dyld_process_info_base)+sizeof(dyld_process_cache_info)+sizeof(dyld_process_state_info));
+ auto obj = dyld_process_info_ptr(new (storage) dyld_process_info_base((dyld_platform_t)platformID, imageCount, aotImageCount, allocationSize), deleter);
+ (void)obj->reserveSpace(sizeof(dyld_process_info_base)+sizeof(dyld_process_cache_info)+sizeof(dyld_process_aot_cache_info)+sizeof(dyld_process_state_info));
// fill in base info
dyld_process_cache_info* cacheInfo = obj->cacheInfo();
bzero(cacheInfo->cacheUUID, 16);
@@ -534,6 +548,11 @@
cacheInfo->noCache = true;
cacheInfo->privateCache = false;
+ // zero out aot cache info
+ dyld_process_aot_cache_info* aotCacheInfo = obj->aotCacheInfo();
+ bzero(aotCacheInfo->cacheUUID, 16);
+ aotCacheInfo->cacheBaseAddress = 0;
+
dyld_process_state_info* stateInfo = obj->stateInfo();
stateInfo->timestamp = 0;
stateInfo->imageCount = imageCount;
@@ -586,7 +605,7 @@
const char* dyld_process_info_base::copyPath(task_t task, uint64_t stringAddressInTask)
{
__block const char* retval = "";
- withRemoteBuffer(task, stringAddressInTask, PATH_MAX, false, true, nullptr, ^(void *buffer, size_t size) {
+ withRemoteBuffer(task, stringAddressInTask, PATH_MAX, true, nullptr, ^(void *buffer, size_t size) {
retval = addString(static_cast<const char *>(buffer), size);
});
return retval;
@@ -594,7 +613,6 @@
bool dyld_process_info_base::addImage(task_t task, bool sameCacheAsThisProcess, uint64_t imageAddress, uint64_t imagePath, const char* imagePathLocal)
{
- if (!reserveSpace(sizeof(ImageInfo))) { return false; }
_curImage->loadAddress = imageAddress;
_curImage->segmentStartIndex = _curSegmentIndex;
if ( imagePathLocal != NULL ) {
@@ -618,6 +636,18 @@
return true;
}
+bool dyld_process_info_base::addAotImage(dyld_aot_image_info_64 aotImageInfo) {
+ if (!reserveSpace(sizeof(dyld_aot_image_info_64))) {
+ return false;
+ }
+ _curAotImage->x86LoadAddress = aotImageInfo.x86LoadAddress;
+ _curAotImage->aotLoadAddress = aotImageInfo.aotLoadAddress;
+ _curAotImage->aotImageSize = aotImageInfo.aotImageSize;
+ memcpy(_curAotImage->aotImageKey, aotImageInfo.aotImageKey, sizeof(aotImageInfo.aotImageKey));
+
+ _curAotImage++;
+ return true;
+}
kern_return_t dyld_process_info_base::addInfoFromRemoteLoadCommands(task_t task, uint64_t remoteMH) {
__block kern_return_t kr = KERN_SUCCESS;
@@ -625,7 +655,7 @@
__block bool done = false;
//Since the minimum we can reasonably map is a page, map that.
- withRemoteBuffer(task, remoteMH, PAGE_SIZE, false, false, &kr, ^(void * buffer, size_t size) {
+ withRemoteBuffer(task, remoteMH, PAGE_SIZE, false, &kr, ^(void * buffer, size_t size) {
const mach_header* mh = (const mach_header*)buffer;
headerPagesSize = sizeof(mach_header) + mh->sizeofcmds;
if (headerPagesSize <= PAGE_SIZE) {
@@ -639,7 +669,7 @@
if (kr != KERN_SUCCESS) {
return kr;
}
- withRemoteBuffer(task, remoteMH, headerPagesSize, false, false, &kr, ^(void * buffer, size_t size) {
+ withRemoteBuffer(task, remoteMH, headerPagesSize, false, &kr, ^(void * buffer, size_t size) {
addInfoFromLoadCommands((mach_header*)buffer, remoteMH, size);
});
}
@@ -649,11 +679,6 @@
kern_return_t dyld_process_info_base::addDyldImage(task_t task, uint64_t dyldAddress, uint64_t dyldPathAddress, const char* localPath)
{
- if (!reserveSpace(sizeof(ImageInfo))) {
- // If we don't have ebnough spacee the data will be truncated, but well formed. Return success so
- // symbolicators can try and use it
- return KERN_SUCCESS;
- }
__block kern_return_t kr = KERN_SUCCESS;
_curImage->loadAddress = dyldAddress;
_curImage->segmentStartIndex = _curSegmentIndex;
@@ -722,7 +747,13 @@
const char* dyld_process_info_base::copySegmentName(const char* name)
{
// don't copy names of standard segments into string pool
- static const char* stdSegNames[] = {"__TEXT", "__DATA", "__LINKEDIT", "__DATA_DIRTY", "__DATA_CONST", "__OBJC", NULL };
+ static const char* stdSegNames[] = {
+ "__TEXT", "__DATA", "__LINKEDIT",
+ "__DATA_DIRTY", "__DATA_CONST",
+ "__OBJC", "__OBJC_CONST",
+ "__AUTH", "__AUTH_CONST",
+ NULL
+ };
for (const char** s=stdSegNames; *s != NULL; ++s) {
if ( strcmp(name, *s) == 0 )
return *s;
@@ -737,6 +768,18 @@
callback(p->loadAddress, p->uuid, p->path);
}
}
+
+
+#if TARGET_OS_OSX
+void dyld_process_info_base::forEachAotImage(bool (^callback)(uint64_t x86Address, uint64_t aotAddress, uint64_t aotSize, uint8_t* aotImageKey, size_t aotImageKeySize)) const
+{
+ for (const dyld_aot_image_info_64* p = _firstAotImage; p < _curAotImage; ++p) {
+ if (!callback(p->x86LoadAddress, p->aotLoadAddress, p->aotImageSize, (uint8_t*)p->aotImageKey, sizeof(p->aotImageKey))) {
+ break;
+ }
+ }
+}
+#endif
void dyld_process_info_base::forEachSegment(uint64_t machHeaderAddress, void (^callback)(uint64_t segmentAddress, uint64_t segmentSize, const char* segmentName)) const
{
@@ -776,26 +819,30 @@
}
//The kernel will return MACH_VM_MIN_ADDRESS for an executable that has not had dyld loaded
- if (task_dyld_info.all_image_info_addr == MACH_VM_MIN_ADDRESS)
+ if (task_dyld_info.all_image_info_addr == MACH_VM_MIN_ADDRESS) {
+ *kr = KERN_FAILURE;
return nullptr;
-
- // We use a true shared memory buffer here, that way by making sure that libdyld in both processes
- // reads and writes the the timestamp atomically we can make sure we get a coherent view of the
- // remote process.
- // That also means that we *MUST* directly read the memory, which is why we template the make() call
- withRemoteBuffer(task, task_dyld_info.all_image_info_addr, (size_t)task_dyld_info.all_image_info_size, true, false, kr, ^(void *buffer, size_t size) {
- dyld_process_info_ptr base;
- if (task_dyld_info.all_image_info_format == TASK_DYLD_ALL_IMAGE_INFO_32 ) {
- const dyld_all_image_infos_32* info = (const dyld_all_image_infos_32*)buffer;
- base = dyld_process_info_base::make<dyld_all_image_infos_32, dyld_image_info_32>(task, *info, timestamp, kr);
- } else {
- const dyld_all_image_infos_64* info = (const dyld_all_image_infos_64*)buffer;
- base = dyld_process_info_base::make<dyld_all_image_infos_64, dyld_image_info_64>(task, *info, timestamp, kr);
- }
- if (base) {
- result = base.release();
- }
- });
+ }
+
+ for (auto i = 0; i < 10; ++i) {
+ withRemoteBuffer(task, task_dyld_info.all_image_info_addr, (size_t)task_dyld_info.all_image_info_size, false, kr, ^(void *buffer, size_t size) {
+ dyld_process_info_ptr base;
+ if (task_dyld_info.all_image_info_format == TASK_DYLD_ALL_IMAGE_INFO_32 ) {
+ const dyld_all_image_infos_32* info = (const dyld_all_image_infos_32*)buffer;
+ base = dyld_process_info_base::make<dyld_all_image_infos_32, dyld_image_info_32>(task, *info, timestamp, kr);
+ } else {
+ const dyld_all_image_infos_64* info = (const dyld_all_image_infos_64*)buffer;
+ base = dyld_process_info_base::make<dyld_all_image_infos_64, dyld_image_info_64>(task, *info, timestamp, kr);
+ }
+ if (base) {
+ if (result) {
+ free((void*)result);
+ }
+ result = base.release();
+ }
+ });
+ if (kr == KERN_SUCCESS) { break; }
+ }
return result;
}
@@ -807,6 +854,11 @@
void _dyld_process_info_get_cache(dyld_process_info info, dyld_process_cache_info* cacheInfo)
{
*cacheInfo = *info->cacheInfo();
+}
+
+void _dyld_process_info_get_aot_cache(dyld_process_info info, dyld_process_aot_cache_info* aotCacheInfo)
+{
+ *aotCacheInfo = *info->aotCacheInfo();
}
void _dyld_process_info_retain(dyld_process_info object)
@@ -828,6 +880,12 @@
info->forEachImage(callback);
}
+#if TARGET_OS_OSX
+void _dyld_process_info_for_each_aot_image(dyld_process_info info, bool (^callback)(uint64_t x86Address, uint64_t aotAddress, uint64_t aotSize, uint8_t* aotImageKey, size_t aotImageKeySize))
+{
+ info->forEachAotImage(callback);
+}
+#endif
void _dyld_process_info_for_each_segment(dyld_process_info info, uint64_t machHeaderAddress, void (^callback)(uint64_t segmentAddress, uint64_t segmentSize, const char* segmentName))
{