//=-- lsan_common_fuchsia.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 LeakSanitizer. // Implementation of common leak checking functionality. Fuchsia-specific code. // //===---------------------------------------------------------------------===// #include "lsan_common.h" #include "sanitizer_common/sanitizer_platform.h" #if CAN_SANITIZE_LEAKS && SANITIZER_FUCHSIA #include #include "lsan_allocator.h" #include "sanitizer_common/sanitizer_flags.h" #include "sanitizer_common/sanitizer_stoptheworld_fuchsia.h" #include "sanitizer_common/sanitizer_thread_registry.h" // Ensure that the Zircon system ABI is linked in. #pragma comment(lib, "zircon") namespace __lsan { void InitializePlatformSpecificModules() {} LoadedModule *GetLinker() { return nullptr; } __attribute__((tls_model("initial-exec"))) THREADLOCAL int disable_counter; bool DisabledInThisThread() { return disable_counter > 0; } void DisableInThisThread() { disable_counter++; } void EnableInThisThread() { if (disable_counter == 0) { DisableCounterUnderflow(); } disable_counter--; } // There is nothing left to do after the globals callbacks. void ProcessGlobalRegions(Frontier *frontier) {} // Nothing to do here. void ProcessPlatformSpecificAllocations(Frontier *frontier) {} // On Fuchsia, we can intercept _Exit gracefully, and return a failing exit // code if required at that point. Calling Die() here is undefined // behavior and causes rare race conditions. void HandleLeaks() {} int ExitHook(int status) { return status == 0 && HasReportedLeaks() ? common_flags()->exitcode : status; } void LockStuffAndStopTheWorld(StopTheWorldCallback callback, CheckForLeaksParam *argument) { LockThreadRegistry(); LockAllocator(); struct Params { InternalMmapVector allocator_caches; StopTheWorldCallback callback; CheckForLeaksParam *argument; } params = {{}, callback, argument}; // Callback from libc for globals (data/bss modulo relro), when enabled. auto globals = +[](void *chunk, size_t size, void *data) { auto params = static_cast(data); uptr begin = reinterpret_cast(chunk); uptr end = begin + size; ScanGlobalRange(begin, end, ¶ms->argument->frontier); }; // Callback from libc for thread stacks. auto stacks = +[](void *chunk, size_t size, void *data) { auto params = static_cast(data); uptr begin = reinterpret_cast(chunk); uptr end = begin + size; ScanRangeForPointers(begin, end, ¶ms->argument->frontier, "STACK", kReachable); }; // Callback from libc for thread registers. auto registers = +[](void *chunk, size_t size, void *data) { auto params = static_cast(data); uptr begin = reinterpret_cast(chunk); uptr end = begin + size; ScanRangeForPointers(begin, end, ¶ms->argument->frontier, "REGISTERS", kReachable); }; if (flags()->use_tls) { // Collect the allocator cache range from each thread so these // can all be excluded from the reported TLS ranges. GetAllThreadAllocatorCachesLocked(¶ms.allocator_caches); __sanitizer::Sort(params.allocator_caches.data(), params.allocator_caches.size()); } // Callback from libc for TLS regions. This includes thread_local // variables as well as C11 tss_set and POSIX pthread_setspecific. auto tls = +[](void *chunk, size_t size, void *data) { auto params = static_cast(data); uptr begin = reinterpret_cast(chunk); uptr end = begin + size; auto i = __sanitizer::InternalLowerBound(params->allocator_caches, 0, params->allocator_caches.size(), begin, CompareLess()); if (i < params->allocator_caches.size() && params->allocator_caches[i] >= begin && end - params->allocator_caches[i] <= sizeof(AllocatorCache)) { // Split the range in two and omit the allocator cache within. ScanRangeForPointers(begin, params->allocator_caches[i], ¶ms->argument->frontier, "TLS", kReachable); uptr begin2 = params->allocator_caches[i] + sizeof(AllocatorCache); ScanRangeForPointers(begin2, end, ¶ms->argument->frontier, "TLS", kReachable); } else { ScanRangeForPointers(begin, end, ¶ms->argument->frontier, "TLS", kReachable); } }; // This stops the world and then makes callbacks for various memory regions. // The final callback is the last thing before the world starts up again. __sanitizer_memory_snapshot( flags()->use_globals ? globals : nullptr, flags()->use_stacks ? stacks : nullptr, flags()->use_registers ? registers : nullptr, flags()->use_tls ? tls : nullptr, [](zx_status_t, void *data) { auto params = static_cast(data); // We don't use the thread registry at all for enumerating the threads // and their stacks, registers, and TLS regions. So use it separately // just for the allocator cache, and to call ForEachExtraStackRange, // which ASan needs. if (flags()->use_stacks) { GetThreadRegistryLocked()->RunCallbackForEachThreadLocked( [](ThreadContextBase *tctx, void *arg) { ForEachExtraStackRange(tctx->os_id, ForEachExtraStackRangeCb, arg); }, ¶ms->argument->frontier); } params->callback(SuspendedThreadsListFuchsia(), params->argument); }, ¶ms); UnlockAllocator(); UnlockThreadRegistry(); } } // namespace __lsan // This is declared (in extern "C") by . // _Exit calls this directly to intercept and change the status value. int __sanitizer_process_exit_hook(int status) { return __lsan::ExitHook(status); } #endif