//===-- tsan_platform_mac.cpp ---------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // This file is a part of ThreadSanitizer (TSan), a race detector. // // Mac-specific code. //===----------------------------------------------------------------------===// #include "sanitizer_common/sanitizer_platform.h" #if SANITIZER_MAC #include "sanitizer_common/sanitizer_atomic.h" #include "sanitizer_common/sanitizer_common.h" #include "sanitizer_common/sanitizer_libc.h" #include "sanitizer_common/sanitizer_posix.h" #include "sanitizer_common/sanitizer_procmaps.h" #include "sanitizer_common/sanitizer_ptrauth.h" #include "sanitizer_common/sanitizer_stackdepot.h" #include "tsan_platform.h" #include "tsan_rtl.h" #include "tsan_flags.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace __tsan { #if !SANITIZER_GO static char main_thread_state[sizeof(ThreadState)] ALIGNED( SANITIZER_CACHE_LINE_SIZE); static ThreadState *dead_thread_state; static pthread_key_t thread_state_key; // We rely on the following documented, but Darwin-specific behavior to keep the // reference to the ThreadState object alive in TLS: // pthread_key_create man page: // If, after all the destructors have been called for all non-NULL values with // associated destructors, there are still some non-NULL values with // associated destructors, then the process is repeated. If, after at least // [PTHREAD_DESTRUCTOR_ITERATIONS] iterations of destructor calls for // outstanding non-NULL values, there are still some non-NULL values with // associated destructors, the implementation stops calling destructors. static_assert(PTHREAD_DESTRUCTOR_ITERATIONS == 4, "Small number of iterations"); static void ThreadStateDestructor(void *thr) { int res = pthread_setspecific(thread_state_key, thr); CHECK_EQ(res, 0); } static void InitializeThreadStateStorage() { int res; CHECK_EQ(thread_state_key, 0); res = pthread_key_create(&thread_state_key, ThreadStateDestructor); CHECK_EQ(res, 0); res = pthread_setspecific(thread_state_key, main_thread_state); CHECK_EQ(res, 0); auto dts = (ThreadState *)MmapOrDie(sizeof(ThreadState), "ThreadState"); dts->fast_state.SetIgnoreBit(); dts->ignore_interceptors = 1; dts->is_dead = true; const_cast(dts->tid) = kInvalidTid; res = internal_mprotect(dts, sizeof(ThreadState), PROT_READ); // immutable CHECK_EQ(res, 0); dead_thread_state = dts; } ThreadState *cur_thread() { // Some interceptors get called before libpthread has been initialized and in // these cases we must avoid calling any pthread APIs. if (UNLIKELY(!thread_state_key)) { return (ThreadState *)main_thread_state; } // We only reach this line after InitializeThreadStateStorage() ran, i.e, // after TSan (and therefore libpthread) have been initialized. ThreadState *thr = (ThreadState *)pthread_getspecific(thread_state_key); if (UNLIKELY(!thr)) { thr = (ThreadState *)MmapOrDie(sizeof(ThreadState), "ThreadState"); int res = pthread_setspecific(thread_state_key, thr); CHECK_EQ(res, 0); } return thr; } void set_cur_thread(ThreadState *thr) { int res = pthread_setspecific(thread_state_key, thr); CHECK_EQ(res, 0); } void cur_thread_finalize() { ThreadState *thr = (ThreadState *)pthread_getspecific(thread_state_key); CHECK(thr); if (thr == (ThreadState *)main_thread_state) { // Calling dispatch_main() or xpc_main() actually invokes pthread_exit to // exit the main thread. Let's keep the main thread's ThreadState. return; } // Intercepted functions can still get called after cur_thread_finalize() // (called from DestroyThreadState()), so put a fake thread state for "dead" // threads. An alternative solution would be to release the ThreadState // object from THREAD_DESTROY (which is delivered later and on the parent // thread) instead of THREAD_TERMINATE. int res = pthread_setspecific(thread_state_key, dead_thread_state); CHECK_EQ(res, 0); UnmapOrDie(thr, sizeof(ThreadState)); } #endif static void RegionMemUsage(uptr start, uptr end, uptr *res, uptr *dirty) { vm_address_t address = start; vm_address_t end_address = end; uptr resident_pages = 0; uptr dirty_pages = 0; while (address < end_address) { vm_size_t vm_region_size; mach_msg_type_number_t count = VM_REGION_EXTENDED_INFO_COUNT; vm_region_extended_info_data_t vm_region_info; mach_port_t object_name; kern_return_t ret = vm_region_64( mach_task_self(), &address, &vm_region_size, VM_REGION_EXTENDED_INFO, (vm_region_info_t)&vm_region_info, &count, &object_name); if (ret != KERN_SUCCESS) break; resident_pages += vm_region_info.pages_resident; dirty_pages += vm_region_info.pages_dirtied; address += vm_region_size; } *res = resident_pages * GetPageSizeCached(); *dirty = dirty_pages * GetPageSizeCached(); } void WriteMemoryProfile(char *buf, uptr buf_size, u64 uptime_ns) { uptr shadow_res, shadow_dirty; uptr meta_res, meta_dirty; RegionMemUsage(ShadowBeg(), ShadowEnd(), &shadow_res, &shadow_dirty); RegionMemUsage(MetaShadowBeg(), MetaShadowEnd(), &meta_res, &meta_dirty); # if !SANITIZER_GO uptr low_res, low_dirty; uptr high_res, high_dirty; uptr heap_res, heap_dirty; RegionMemUsage(LoAppMemBeg(), LoAppMemEnd(), &low_res, &low_dirty); RegionMemUsage(HiAppMemBeg(), HiAppMemEnd(), &high_res, &high_dirty); RegionMemUsage(HeapMemBeg(), HeapMemEnd(), &heap_res, &heap_dirty); #else // !SANITIZER_GO uptr app_res, app_dirty; RegionMemUsage(LoAppMemBeg(), LoAppMemEnd(), &app_res, &app_dirty); #endif StackDepotStats stacks = StackDepotGetStats(); uptr nthread, nlive; ctx->thread_registry.GetNumberOfThreads(&nthread, &nlive); internal_snprintf( buf, buf_size, "shadow (0x%016zx-0x%016zx): resident %zd kB, dirty %zd kB\n" "meta (0x%016zx-0x%016zx): resident %zd kB, dirty %zd kB\n" # if !SANITIZER_GO "low app (0x%016zx-0x%016zx): resident %zd kB, dirty %zd kB\n" "high app (0x%016zx-0x%016zx): resident %zd kB, dirty %zd kB\n" "heap (0x%016zx-0x%016zx): resident %zd kB, dirty %zd kB\n" # else // !SANITIZER_GO "app (0x%016zx-0x%016zx): resident %zd kB, dirty %zd kB\n" # endif "stacks: %zd unique IDs, %zd kB allocated\n" "threads: %zd total, %zd live\n" "------------------------------\n", ShadowBeg(), ShadowEnd(), shadow_res / 1024, shadow_dirty / 1024, MetaShadowBeg(), MetaShadowEnd(), meta_res / 1024, meta_dirty / 1024, # if !SANITIZER_GO LoAppMemBeg(), LoAppMemEnd(), low_res / 1024, low_dirty / 1024, HiAppMemBeg(), HiAppMemEnd(), high_res / 1024, high_dirty / 1024, HeapMemBeg(), HeapMemEnd(), heap_res / 1024, heap_dirty / 1024, # else // !SANITIZER_GO LoAppMemBeg(), LoAppMemEnd(), app_res / 1024, app_dirty / 1024, # endif stacks.n_uniq_ids, stacks.allocated / 1024, nthread, nlive); } # if !SANITIZER_GO void InitializeShadowMemoryPlatform() { } // On OS X, GCD worker threads are created without a call to pthread_create. We // need to properly register these threads with ThreadCreate and ThreadStart. // These threads don't have a parent thread, as they are created "spuriously". // We're using a libpthread API that notifies us about a newly created thread. // The `thread == pthread_self()` check indicates this is actually a worker // thread. If it's just a regular thread, this hook is called on the parent // thread. typedef void (*pthread_introspection_hook_t)(unsigned int event, pthread_t thread, void *addr, size_t size); extern "C" pthread_introspection_hook_t pthread_introspection_hook_install( pthread_introspection_hook_t hook); static const uptr PTHREAD_INTROSPECTION_THREAD_CREATE = 1; static const uptr PTHREAD_INTROSPECTION_THREAD_TERMINATE = 3; static pthread_introspection_hook_t prev_pthread_introspection_hook; static void my_pthread_introspection_hook(unsigned int event, pthread_t thread, void *addr, size_t size) { if (event == PTHREAD_INTROSPECTION_THREAD_CREATE) { if (thread == pthread_self()) { // The current thread is a newly created GCD worker thread. ThreadState *thr = cur_thread(); Processor *proc = ProcCreate(); ProcWire(proc, thr); ThreadState *parent_thread_state = nullptr; // No parent. Tid tid = ThreadCreate(parent_thread_state, 0, (uptr)thread, true); CHECK_NE(tid, kMainTid); ThreadStart(thr, tid, GetTid(), ThreadType::Worker); } } else if (event == PTHREAD_INTROSPECTION_THREAD_TERMINATE) { CHECK_EQ(thread, pthread_self()); ThreadState *thr = cur_thread(); if (thr->tctx) { DestroyThreadState(); } } if (prev_pthread_introspection_hook != nullptr) prev_pthread_introspection_hook(event, thread, addr, size); } #endif void InitializePlatformEarly() { # if !SANITIZER_GO && SANITIZER_IOS uptr max_vm = GetMaxUserVirtualAddress() + 1; if (max_vm != HiAppMemEnd()) { Printf("ThreadSanitizer: unsupported vm address limit %p, expected %p.\n", (void *)max_vm, (void *)HiAppMemEnd()); Die(); } #endif } static uptr longjmp_xor_key = 0; void InitializePlatform() { DisableCoreDumperIfNecessary(); #if !SANITIZER_GO CheckAndProtect(); InitializeThreadStateStorage(); prev_pthread_introspection_hook = pthread_introspection_hook_install(&my_pthread_introspection_hook); #endif if (GetMacosAlignedVersion() >= MacosVersion(10, 14)) { // Libsystem currently uses a process-global key; this might change. const unsigned kTLSLongjmpXorKeySlot = 0x7; longjmp_xor_key = (uptr)pthread_getspecific(kTLSLongjmpXorKeySlot); } } #ifdef __aarch64__ # define LONG_JMP_SP_ENV_SLOT \ ((GetMacosAlignedVersion() >= MacosVersion(10, 14)) ? 12 : 13) #else # define LONG_JMP_SP_ENV_SLOT 2 #endif uptr ExtractLongJmpSp(uptr *env) { uptr mangled_sp = env[LONG_JMP_SP_ENV_SLOT]; uptr sp = mangled_sp ^ longjmp_xor_key; sp = (uptr)ptrauth_auth_data((void *)sp, ptrauth_key_asdb, ptrauth_string_discriminator("sp")); return sp; } #if !SANITIZER_GO extern "C" void __tsan_tls_initialization() {} void ImitateTlsWrite(ThreadState *thr, uptr tls_addr, uptr tls_size) { const uptr pc = StackTrace::GetNextInstructionPc( reinterpret_cast(__tsan_tls_initialization)); // Unlike Linux, we only store a pointer to the ThreadState object in TLS; // just mark the entire range as written to. MemoryRangeImitateWrite(thr, pc, tls_addr, tls_size); } #endif #if !SANITIZER_GO // Note: this function runs with async signals enabled, // so it must not touch any tsan state. int call_pthread_cancel_with_cleanup(int (*fn)(void *arg), void (*cleanup)(void *arg), void *arg) { // pthread_cleanup_push/pop are hardcore macros mess. // We can't intercept nor call them w/o including pthread.h. int res; pthread_cleanup_push(cleanup, arg); res = fn(arg); pthread_cleanup_pop(0); return res; } #endif } // namespace __tsan #endif // SANITIZER_MAC