325 lines
12 KiB
C++
325 lines
12 KiB
C++
//===-- tsan_platform_mac.cpp ---------------------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file is a part of ThreadSanitizer (TSan), a race detector.
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//
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// Mac-specific code.
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//===----------------------------------------------------------------------===//
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#include "sanitizer_common/sanitizer_platform.h"
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#if SANITIZER_MAC
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#include "sanitizer_common/sanitizer_atomic.h"
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#include "sanitizer_common/sanitizer_common.h"
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#include "sanitizer_common/sanitizer_libc.h"
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#include "sanitizer_common/sanitizer_posix.h"
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#include "sanitizer_common/sanitizer_procmaps.h"
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#include "sanitizer_common/sanitizer_ptrauth.h"
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#include "sanitizer_common/sanitizer_stackdepot.h"
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#include "tsan_platform.h"
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#include "tsan_rtl.h"
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#include "tsan_flags.h"
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#include <mach/mach.h>
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#include <pthread.h>
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#include <signal.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <stdarg.h>
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#include <sys/mman.h>
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#include <sys/syscall.h>
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#include <sys/time.h>
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#include <sys/types.h>
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#include <sys/resource.h>
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#include <sys/stat.h>
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#include <unistd.h>
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#include <errno.h>
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#include <sched.h>
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namespace __tsan {
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#if !SANITIZER_GO
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static void *SignalSafeGetOrAllocate(uptr *dst, uptr size) {
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atomic_uintptr_t *a = (atomic_uintptr_t *)dst;
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void *val = (void *)atomic_load_relaxed(a);
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atomic_signal_fence(memory_order_acquire); // Turns the previous load into
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// acquire wrt signals.
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if (UNLIKELY(val == nullptr)) {
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val = (void *)internal_mmap(nullptr, size, PROT_READ | PROT_WRITE,
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MAP_PRIVATE | MAP_ANON, -1, 0);
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CHECK(val);
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void *cmp = nullptr;
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if (!atomic_compare_exchange_strong(a, (uintptr_t *)&cmp, (uintptr_t)val,
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memory_order_acq_rel)) {
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internal_munmap(val, size);
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val = cmp;
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}
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}
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return val;
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}
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// On OS X, accessing TLVs via __thread or manually by using pthread_key_* is
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// problematic, because there are several places where interceptors are called
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// when TLVs are not accessible (early process startup, thread cleanup, ...).
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// The following provides a "poor man's TLV" implementation, where we use the
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// shadow memory of the pointer returned by pthread_self() to store a pointer to
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// the ThreadState object. The main thread's ThreadState is stored separately
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// in a static variable, because we need to access it even before the
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// shadow memory is set up.
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static uptr main_thread_identity = 0;
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ALIGNED(64) static char main_thread_state[sizeof(ThreadState)];
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static ThreadState *main_thread_state_loc = (ThreadState *)main_thread_state;
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// We cannot use pthread_self() before libpthread has been initialized. Our
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// current heuristic for guarding this is checking `main_thread_identity` which
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// is only assigned in `__tsan::InitializePlatform`.
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static ThreadState **cur_thread_location() {
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if (main_thread_identity == 0)
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return &main_thread_state_loc;
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uptr thread_identity = (uptr)pthread_self();
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if (thread_identity == main_thread_identity)
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return &main_thread_state_loc;
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return (ThreadState **)MemToShadow(thread_identity);
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}
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ThreadState *cur_thread() {
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return (ThreadState *)SignalSafeGetOrAllocate(
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(uptr *)cur_thread_location(), sizeof(ThreadState));
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}
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void set_cur_thread(ThreadState *thr) {
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*cur_thread_location() = thr;
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}
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// TODO(kuba.brecka): This is not async-signal-safe. In particular, we call
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// munmap first and then clear `fake_tls`; if we receive a signal in between,
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// handler will try to access the unmapped ThreadState.
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void cur_thread_finalize() {
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ThreadState **thr_state_loc = cur_thread_location();
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if (thr_state_loc == &main_thread_state_loc) {
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// Calling dispatch_main() or xpc_main() actually invokes pthread_exit to
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// exit the main thread. Let's keep the main thread's ThreadState.
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return;
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}
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internal_munmap(*thr_state_loc, sizeof(ThreadState));
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*thr_state_loc = nullptr;
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}
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#endif
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void FlushShadowMemory() {
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}
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static void RegionMemUsage(uptr start, uptr end, uptr *res, uptr *dirty) {
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vm_address_t address = start;
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vm_address_t end_address = end;
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uptr resident_pages = 0;
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uptr dirty_pages = 0;
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while (address < end_address) {
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vm_size_t vm_region_size;
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mach_msg_type_number_t count = VM_REGION_EXTENDED_INFO_COUNT;
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vm_region_extended_info_data_t vm_region_info;
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mach_port_t object_name;
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kern_return_t ret = vm_region_64(
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mach_task_self(), &address, &vm_region_size, VM_REGION_EXTENDED_INFO,
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(vm_region_info_t)&vm_region_info, &count, &object_name);
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if (ret != KERN_SUCCESS) break;
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resident_pages += vm_region_info.pages_resident;
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dirty_pages += vm_region_info.pages_dirtied;
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address += vm_region_size;
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}
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*res = resident_pages * GetPageSizeCached();
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*dirty = dirty_pages * GetPageSizeCached();
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}
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void WriteMemoryProfile(char *buf, uptr buf_size, uptr nthread, uptr nlive) {
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uptr shadow_res, shadow_dirty;
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uptr meta_res, meta_dirty;
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uptr trace_res, trace_dirty;
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RegionMemUsage(ShadowBeg(), ShadowEnd(), &shadow_res, &shadow_dirty);
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RegionMemUsage(MetaShadowBeg(), MetaShadowEnd(), &meta_res, &meta_dirty);
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RegionMemUsage(TraceMemBeg(), TraceMemEnd(), &trace_res, &trace_dirty);
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#if !SANITIZER_GO
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uptr low_res, low_dirty;
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uptr high_res, high_dirty;
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uptr heap_res, heap_dirty;
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RegionMemUsage(LoAppMemBeg(), LoAppMemEnd(), &low_res, &low_dirty);
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RegionMemUsage(HiAppMemBeg(), HiAppMemEnd(), &high_res, &high_dirty);
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RegionMemUsage(HeapMemBeg(), HeapMemEnd(), &heap_res, &heap_dirty);
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#else // !SANITIZER_GO
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uptr app_res, app_dirty;
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RegionMemUsage(AppMemBeg(), AppMemEnd(), &app_res, &app_dirty);
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#endif
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StackDepotStats *stacks = StackDepotGetStats();
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internal_snprintf(buf, buf_size,
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"shadow (0x%016zx-0x%016zx): resident %zd kB, dirty %zd kB\n"
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"meta (0x%016zx-0x%016zx): resident %zd kB, dirty %zd kB\n"
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"traces (0x%016zx-0x%016zx): resident %zd kB, dirty %zd kB\n"
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#if !SANITIZER_GO
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"low app (0x%016zx-0x%016zx): resident %zd kB, dirty %zd kB\n"
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"high app (0x%016zx-0x%016zx): resident %zd kB, dirty %zd kB\n"
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"heap (0x%016zx-0x%016zx): resident %zd kB, dirty %zd kB\n"
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#else // !SANITIZER_GO
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"app (0x%016zx-0x%016zx): resident %zd kB, dirty %zd kB\n"
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#endif
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"stacks: %zd unique IDs, %zd kB allocated\n"
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"threads: %zd total, %zd live\n"
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"------------------------------\n",
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ShadowBeg(), ShadowEnd(), shadow_res / 1024, shadow_dirty / 1024,
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MetaShadowBeg(), MetaShadowEnd(), meta_res / 1024, meta_dirty / 1024,
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TraceMemBeg(), TraceMemEnd(), trace_res / 1024, trace_dirty / 1024,
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#if !SANITIZER_GO
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LoAppMemBeg(), LoAppMemEnd(), low_res / 1024, low_dirty / 1024,
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HiAppMemBeg(), HiAppMemEnd(), high_res / 1024, high_dirty / 1024,
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HeapMemBeg(), HeapMemEnd(), heap_res / 1024, heap_dirty / 1024,
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#else // !SANITIZER_GO
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AppMemBeg(), AppMemEnd(), app_res / 1024, app_dirty / 1024,
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#endif
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stacks->n_uniq_ids, stacks->allocated / 1024,
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nthread, nlive);
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}
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#if !SANITIZER_GO
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void InitializeShadowMemoryPlatform() { }
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// On OS X, GCD worker threads are created without a call to pthread_create. We
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// need to properly register these threads with ThreadCreate and ThreadStart.
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// These threads don't have a parent thread, as they are created "spuriously".
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// We're using a libpthread API that notifies us about a newly created thread.
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// The `thread == pthread_self()` check indicates this is actually a worker
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// thread. If it's just a regular thread, this hook is called on the parent
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// thread.
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typedef void (*pthread_introspection_hook_t)(unsigned int event,
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pthread_t thread, void *addr,
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size_t size);
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extern "C" pthread_introspection_hook_t pthread_introspection_hook_install(
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pthread_introspection_hook_t hook);
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static const uptr PTHREAD_INTROSPECTION_THREAD_CREATE = 1;
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static const uptr PTHREAD_INTROSPECTION_THREAD_TERMINATE = 3;
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static pthread_introspection_hook_t prev_pthread_introspection_hook;
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static void my_pthread_introspection_hook(unsigned int event, pthread_t thread,
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void *addr, size_t size) {
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if (event == PTHREAD_INTROSPECTION_THREAD_CREATE) {
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if (thread == pthread_self()) {
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// The current thread is a newly created GCD worker thread.
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ThreadState *thr = cur_thread();
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Processor *proc = ProcCreate();
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ProcWire(proc, thr);
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ThreadState *parent_thread_state = nullptr; // No parent.
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int tid = ThreadCreate(parent_thread_state, 0, (uptr)thread, true);
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CHECK_NE(tid, 0);
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ThreadStart(thr, tid, GetTid(), ThreadType::Worker);
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}
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} else if (event == PTHREAD_INTROSPECTION_THREAD_TERMINATE) {
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if (thread == pthread_self()) {
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ThreadState *thr = cur_thread();
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if (thr->tctx) {
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DestroyThreadState();
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}
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}
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}
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if (prev_pthread_introspection_hook != nullptr)
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prev_pthread_introspection_hook(event, thread, addr, size);
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}
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#endif
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void InitializePlatformEarly() {
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#if defined(__aarch64__)
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uptr max_vm = GetMaxUserVirtualAddress() + 1;
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if (max_vm != Mapping::kHiAppMemEnd) {
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Printf("ThreadSanitizer: unsupported vm address limit %p, expected %p.\n",
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max_vm, Mapping::kHiAppMemEnd);
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Die();
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}
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#endif
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}
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static uptr longjmp_xor_key = 0;
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void InitializePlatform() {
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DisableCoreDumperIfNecessary();
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#if !SANITIZER_GO
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CheckAndProtect();
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CHECK_EQ(main_thread_identity, 0);
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main_thread_identity = (uptr)pthread_self();
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prev_pthread_introspection_hook =
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pthread_introspection_hook_install(&my_pthread_introspection_hook);
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#endif
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if (GetMacosAlignedVersion() >= MacosVersion(10, 14)) {
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// Libsystem currently uses a process-global key; this might change.
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const unsigned kTLSLongjmpXorKeySlot = 0x7;
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longjmp_xor_key = (uptr)pthread_getspecific(kTLSLongjmpXorKeySlot);
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}
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}
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#ifdef __aarch64__
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# define LONG_JMP_SP_ENV_SLOT \
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((GetMacosAlignedVersion() >= MacosVersion(10, 14)) ? 12 : 13)
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#else
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# define LONG_JMP_SP_ENV_SLOT 2
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#endif
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uptr ExtractLongJmpSp(uptr *env) {
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uptr mangled_sp = env[LONG_JMP_SP_ENV_SLOT];
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uptr sp = mangled_sp ^ longjmp_xor_key;
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sp = (uptr)ptrauth_auth_data((void *)sp, ptrauth_key_asdb,
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ptrauth_string_discriminator("sp"));
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return sp;
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}
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#if !SANITIZER_GO
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void ImitateTlsWrite(ThreadState *thr, uptr tls_addr, uptr tls_size) {
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// The pointer to the ThreadState object is stored in the shadow memory
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// of the tls.
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uptr tls_end = tls_addr + tls_size;
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uptr thread_identity = (uptr)pthread_self();
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if (thread_identity == main_thread_identity) {
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MemoryRangeImitateWrite(thr, /*pc=*/2, tls_addr, tls_size);
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} else {
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uptr thr_state_start = thread_identity;
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uptr thr_state_end = thr_state_start + sizeof(uptr);
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CHECK_GE(thr_state_start, tls_addr);
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CHECK_LE(thr_state_start, tls_addr + tls_size);
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CHECK_GE(thr_state_end, tls_addr);
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CHECK_LE(thr_state_end, tls_addr + tls_size);
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MemoryRangeImitateWrite(thr, /*pc=*/2, tls_addr,
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thr_state_start - tls_addr);
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MemoryRangeImitateWrite(thr, /*pc=*/2, thr_state_end,
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tls_end - thr_state_end);
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}
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}
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#endif
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#if !SANITIZER_GO
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// Note: this function runs with async signals enabled,
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// so it must not touch any tsan state.
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int call_pthread_cancel_with_cleanup(int(*fn)(void *c, void *m,
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void *abstime), void *c, void *m, void *abstime,
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void(*cleanup)(void *arg), void *arg) {
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// pthread_cleanup_push/pop are hardcore macros mess.
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// We can't intercept nor call them w/o including pthread.h.
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int res;
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pthread_cleanup_push(cleanup, arg);
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res = fn(c, m, abstime);
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pthread_cleanup_pop(0);
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return res;
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}
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#endif
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} // namespace __tsan
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#endif // SANITIZER_MAC
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