[compiler-rt] r373282 - Rename tsan_interceptors.cpp into tsan_interceptors_posix.cpp
Vitaly Buka via llvm-commits
llvm-commits at lists.llvm.org
Mon Sep 30 17:58:26 PDT 2019
Author: vitalybuka
Date: Mon Sep 30 17:58:26 2019
New Revision: 373282
URL: http://llvm.org/viewvc/llvm-project?rev=373282&view=rev
Log:
Rename tsan_interceptors.cpp into tsan_interceptors_posix.cpp
Summary:
It's needed to use __GLIBC_PREREQ from <features.h>
tsan didn't let us to include <features.h> by using --sysroot=. to disable system includes on
anything that is not named as "tsan*posix*", "tsan*mac*", "tsan*linux*".
See compiler-rt/lib/tsan/CMakeLists.txt
Reviewers: eugenis, dvyukov, kcc
Reviewed By: kcc
Subscribers: mgorny, #sanitizers, llvm-commits
Tags: #sanitizers, #llvm
Differential Revision: https://reviews.llvm.org/D68176
Added:
compiler-rt/trunk/lib/tsan/rtl/tsan_interceptors_posix.cpp
Removed:
compiler-rt/trunk/lib/tsan/rtl/tsan_interceptors.cpp
Modified:
compiler-rt/trunk/lib/tsan/CMakeLists.txt
compiler-rt/trunk/lib/tsan/rtl/tsan_report.cpp
Modified: compiler-rt/trunk/lib/tsan/CMakeLists.txt
URL: http://llvm.org/viewvc/llvm-project/compiler-rt/trunk/lib/tsan/CMakeLists.txt?rev=373282&r1=373281&r2=373282&view=diff
==============================================================================
--- compiler-rt/trunk/lib/tsan/CMakeLists.txt (original)
+++ compiler-rt/trunk/lib/tsan/CMakeLists.txt Mon Sep 30 17:58:26 2019
@@ -32,7 +32,7 @@ set(TSAN_SOURCES
rtl/tsan_fd.cpp
rtl/tsan_flags.cpp
rtl/tsan_ignoreset.cpp
- rtl/tsan_interceptors.cpp
+ rtl/tsan_interceptors_posix.cpp
rtl/tsan_interface.cpp
rtl/tsan_interface_ann.cpp
rtl/tsan_interface_atomic.cpp
Removed: compiler-rt/trunk/lib/tsan/rtl/tsan_interceptors.cpp
URL: http://llvm.org/viewvc/llvm-project/compiler-rt/trunk/lib/tsan/rtl/tsan_interceptors.cpp?rev=373281&view=auto
==============================================================================
--- compiler-rt/trunk/lib/tsan/rtl/tsan_interceptors.cpp (original)
+++ compiler-rt/trunk/lib/tsan/rtl/tsan_interceptors.cpp (removed)
@@ -1,2849 +0,0 @@
-//===-- tsan_interceptors.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.
-//
-// FIXME: move as many interceptors as possible into
-// sanitizer_common/sanitizer_common_interceptors.inc
-//===----------------------------------------------------------------------===//
-
-#include "sanitizer_common/sanitizer_atomic.h"
-#include "sanitizer_common/sanitizer_errno.h"
-#include "sanitizer_common/sanitizer_libc.h"
-#include "sanitizer_common/sanitizer_linux.h"
-#include "sanitizer_common/sanitizer_platform_limits_netbsd.h"
-#include "sanitizer_common/sanitizer_platform_limits_posix.h"
-#include "sanitizer_common/sanitizer_placement_new.h"
-#include "sanitizer_common/sanitizer_posix.h"
-#include "sanitizer_common/sanitizer_stacktrace.h"
-#include "sanitizer_common/sanitizer_tls_get_addr.h"
-#include "interception/interception.h"
-#include "tsan_interceptors.h"
-#include "tsan_interface.h"
-#include "tsan_platform.h"
-#include "tsan_suppressions.h"
-#include "tsan_rtl.h"
-#include "tsan_mman.h"
-#include "tsan_fd.h"
-
-using namespace __tsan;
-
-#if SANITIZER_FREEBSD || SANITIZER_MAC
-#define stdout __stdoutp
-#define stderr __stderrp
-#endif
-
-#if SANITIZER_NETBSD
-#define dirfd(dirp) (*(int *)(dirp))
-#define fileno_unlocked(fp) \
- (((__sanitizer_FILE *)fp)->_file == -1 \
- ? -1 \
- : (int)(unsigned short)(((__sanitizer_FILE *)fp)->_file))
-
-#define stdout ((__sanitizer_FILE*)&__sF[1])
-#define stderr ((__sanitizer_FILE*)&__sF[2])
-
-#define nanosleep __nanosleep50
-#define vfork __vfork14
-#endif
-
-#if SANITIZER_ANDROID
-#define mallopt(a, b)
-#endif
-
-#ifdef __mips__
-const int kSigCount = 129;
-#else
-const int kSigCount = 65;
-#endif
-
-#ifdef __mips__
-struct ucontext_t {
- u64 opaque[768 / sizeof(u64) + 1];
-};
-#else
-struct ucontext_t {
- // The size is determined by looking at sizeof of real ucontext_t on linux.
- u64 opaque[936 / sizeof(u64) + 1];
-};
-#endif
-
-#if defined(__x86_64__) || defined(__mips__) || SANITIZER_PPC64V1
-#define PTHREAD_ABI_BASE "GLIBC_2.3.2"
-#elif defined(__aarch64__) || SANITIZER_PPC64V2
-#define PTHREAD_ABI_BASE "GLIBC_2.17"
-#endif
-
-extern "C" int pthread_attr_init(void *attr);
-extern "C" int pthread_attr_destroy(void *attr);
-DECLARE_REAL(int, pthread_attr_getdetachstate, void *, void *)
-extern "C" int pthread_attr_setstacksize(void *attr, uptr stacksize);
-extern "C" int pthread_key_create(unsigned *key, void (*destructor)(void* v));
-extern "C" int pthread_setspecific(unsigned key, const void *v);
-DECLARE_REAL(int, pthread_mutexattr_gettype, void *, void *)
-DECLARE_REAL(int, fflush, __sanitizer_FILE *fp)
-DECLARE_REAL_AND_INTERCEPTOR(void *, malloc, uptr size)
-DECLARE_REAL_AND_INTERCEPTOR(void, free, void *ptr)
-extern "C" void *pthread_self();
-extern "C" void _exit(int status);
-#if !SANITIZER_NETBSD
-extern "C" int fileno_unlocked(void *stream);
-extern "C" int dirfd(void *dirp);
-#endif
-#if !SANITIZER_FREEBSD && !SANITIZER_ANDROID && !SANITIZER_NETBSD
-extern "C" int mallopt(int param, int value);
-#endif
-#if SANITIZER_NETBSD
-extern __sanitizer_FILE __sF[];
-#else
-extern __sanitizer_FILE *stdout, *stderr;
-#endif
-#if !SANITIZER_FREEBSD && !SANITIZER_MAC && !SANITIZER_NETBSD
-const int PTHREAD_MUTEX_RECURSIVE = 1;
-const int PTHREAD_MUTEX_RECURSIVE_NP = 1;
-#else
-const int PTHREAD_MUTEX_RECURSIVE = 2;
-const int PTHREAD_MUTEX_RECURSIVE_NP = 2;
-#endif
-#if !SANITIZER_FREEBSD && !SANITIZER_MAC && !SANITIZER_NETBSD
-const int EPOLL_CTL_ADD = 1;
-#endif
-const int SIGILL = 4;
-const int SIGABRT = 6;
-const int SIGFPE = 8;
-const int SIGSEGV = 11;
-const int SIGPIPE = 13;
-const int SIGTERM = 15;
-#if defined(__mips__) || SANITIZER_FREEBSD || SANITIZER_MAC || SANITIZER_NETBSD
-const int SIGBUS = 10;
-const int SIGSYS = 12;
-#else
-const int SIGBUS = 7;
-const int SIGSYS = 31;
-#endif
-void *const MAP_FAILED = (void*)-1;
-#if SANITIZER_NETBSD
-const int PTHREAD_BARRIER_SERIAL_THREAD = 1234567;
-#elif !SANITIZER_MAC
-const int PTHREAD_BARRIER_SERIAL_THREAD = -1;
-#endif
-const int MAP_FIXED = 0x10;
-typedef long long_t;
-
-// From /usr/include/unistd.h
-# define F_ULOCK 0 /* Unlock a previously locked region. */
-# define F_LOCK 1 /* Lock a region for exclusive use. */
-# define F_TLOCK 2 /* Test and lock a region for exclusive use. */
-# define F_TEST 3 /* Test a region for other processes locks. */
-
-#if SANITIZER_FREEBSD || SANITIZER_MAC || SANITIZER_NETBSD
-const int SA_SIGINFO = 0x40;
-const int SIG_SETMASK = 3;
-#elif defined(__mips__)
-const int SA_SIGINFO = 8;
-const int SIG_SETMASK = 3;
-#else
-const int SA_SIGINFO = 4;
-const int SIG_SETMASK = 2;
-#endif
-
-#define COMMON_INTERCEPTOR_NOTHING_IS_INITIALIZED \
- (cur_thread_init(), !cur_thread()->is_inited)
-
-namespace __tsan {
-struct SignalDesc {
- bool armed;
- bool sigaction;
- __sanitizer_siginfo siginfo;
- ucontext_t ctx;
-};
-
-struct ThreadSignalContext {
- int int_signal_send;
- atomic_uintptr_t in_blocking_func;
- atomic_uintptr_t have_pending_signals;
- SignalDesc pending_signals[kSigCount];
- // emptyset and oldset are too big for stack.
- __sanitizer_sigset_t emptyset;
- __sanitizer_sigset_t oldset;
-};
-
-// The sole reason tsan wraps atexit callbacks is to establish synchronization
-// between callback setup and callback execution.
-struct AtExitCtx {
- void (*f)();
- void *arg;
-};
-
-// InterceptorContext holds all global data required for interceptors.
-// It's explicitly constructed in InitializeInterceptors with placement new
-// and is never destroyed. This allows usage of members with non-trivial
-// constructors and destructors.
-struct InterceptorContext {
- // The object is 64-byte aligned, because we want hot data to be located
- // in a single cache line if possible (it's accessed in every interceptor).
- ALIGNED(64) LibIgnore libignore;
- __sanitizer_sigaction sigactions[kSigCount];
-#if !SANITIZER_MAC && !SANITIZER_NETBSD
- unsigned finalize_key;
-#endif
-
- BlockingMutex atexit_mu;
- Vector<struct AtExitCtx *> AtExitStack;
-
- InterceptorContext()
- : libignore(LINKER_INITIALIZED), AtExitStack() {
- }
-};
-
-static ALIGNED(64) char interceptor_placeholder[sizeof(InterceptorContext)];
-InterceptorContext *interceptor_ctx() {
- return reinterpret_cast<InterceptorContext*>(&interceptor_placeholder[0]);
-}
-
-LibIgnore *libignore() {
- return &interceptor_ctx()->libignore;
-}
-
-void InitializeLibIgnore() {
- const SuppressionContext &supp = *Suppressions();
- const uptr n = supp.SuppressionCount();
- for (uptr i = 0; i < n; i++) {
- const Suppression *s = supp.SuppressionAt(i);
- if (0 == internal_strcmp(s->type, kSuppressionLib))
- libignore()->AddIgnoredLibrary(s->templ);
- }
- if (flags()->ignore_noninstrumented_modules)
- libignore()->IgnoreNoninstrumentedModules(true);
- libignore()->OnLibraryLoaded(0);
-}
-
-// The following two hooks can be used by for cooperative scheduling when
-// locking.
-#ifdef TSAN_EXTERNAL_HOOKS
-void OnPotentiallyBlockingRegionBegin();
-void OnPotentiallyBlockingRegionEnd();
-#else
-SANITIZER_WEAK_CXX_DEFAULT_IMPL void OnPotentiallyBlockingRegionBegin() {}
-SANITIZER_WEAK_CXX_DEFAULT_IMPL void OnPotentiallyBlockingRegionEnd() {}
-#endif
-
-} // namespace __tsan
-
-static ThreadSignalContext *SigCtx(ThreadState *thr) {
- ThreadSignalContext *ctx = (ThreadSignalContext*)thr->signal_ctx;
- if (ctx == 0 && !thr->is_dead) {
- ctx = (ThreadSignalContext*)MmapOrDie(sizeof(*ctx), "ThreadSignalContext");
- MemoryResetRange(thr, (uptr)&SigCtx, (uptr)ctx, sizeof(*ctx));
- thr->signal_ctx = ctx;
- }
- return ctx;
-}
-
-ScopedInterceptor::ScopedInterceptor(ThreadState *thr, const char *fname,
- uptr pc)
- : thr_(thr), pc_(pc), in_ignored_lib_(false), ignoring_(false) {
- Initialize(thr);
- if (!thr_->is_inited) return;
- if (!thr_->ignore_interceptors) FuncEntry(thr, pc);
- DPrintf("#%d: intercept %s()\n", thr_->tid, fname);
- ignoring_ =
- !thr_->in_ignored_lib && libignore()->IsIgnored(pc, &in_ignored_lib_);
- EnableIgnores();
-}
-
-ScopedInterceptor::~ScopedInterceptor() {
- if (!thr_->is_inited) return;
- DisableIgnores();
- if (!thr_->ignore_interceptors) {
- ProcessPendingSignals(thr_);
- FuncExit(thr_);
- CheckNoLocks(thr_);
- }
-}
-
-void ScopedInterceptor::EnableIgnores() {
- if (ignoring_) {
- ThreadIgnoreBegin(thr_, pc_, /*save_stack=*/false);
- if (flags()->ignore_noninstrumented_modules) thr_->suppress_reports++;
- if (in_ignored_lib_) {
- DCHECK(!thr_->in_ignored_lib);
- thr_->in_ignored_lib = true;
- }
- }
-}
-
-void ScopedInterceptor::DisableIgnores() {
- if (ignoring_) {
- ThreadIgnoreEnd(thr_, pc_);
- if (flags()->ignore_noninstrumented_modules) thr_->suppress_reports--;
- if (in_ignored_lib_) {
- DCHECK(thr_->in_ignored_lib);
- thr_->in_ignored_lib = false;
- }
- }
-}
-
-#define TSAN_INTERCEPT(func) INTERCEPT_FUNCTION(func)
-#if SANITIZER_FREEBSD
-# define TSAN_INTERCEPT_VER(func, ver) INTERCEPT_FUNCTION(func)
-# define TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(func)
-# define TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS_THR(func)
-#elif SANITIZER_NETBSD
-# define TSAN_INTERCEPT_VER(func, ver) INTERCEPT_FUNCTION(func)
-# define TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(func) \
- INTERCEPT_FUNCTION(__libc_##func)
-# define TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS_THR(func) \
- INTERCEPT_FUNCTION(__libc_thr_##func)
-#else
-# define TSAN_INTERCEPT_VER(func, ver) INTERCEPT_FUNCTION_VER(func, ver)
-# define TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(func)
-# define TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS_THR(func)
-#endif
-
-#define READ_STRING_OF_LEN(thr, pc, s, len, n) \
- MemoryAccessRange((thr), (pc), (uptr)(s), \
- common_flags()->strict_string_checks ? (len) + 1 : (n), false)
-
-#define READ_STRING(thr, pc, s, n) \
- READ_STRING_OF_LEN((thr), (pc), (s), internal_strlen(s), (n))
-
-#define BLOCK_REAL(name) (BlockingCall(thr), REAL(name))
-
-struct BlockingCall {
- explicit BlockingCall(ThreadState *thr)
- : thr(thr)
- , ctx(SigCtx(thr)) {
- for (;;) {
- atomic_store(&ctx->in_blocking_func, 1, memory_order_relaxed);
- if (atomic_load(&ctx->have_pending_signals, memory_order_relaxed) == 0)
- break;
- atomic_store(&ctx->in_blocking_func, 0, memory_order_relaxed);
- ProcessPendingSignals(thr);
- }
- // When we are in a "blocking call", we process signals asynchronously
- // (right when they arrive). In this context we do not expect to be
- // executing any user/runtime code. The known interceptor sequence when
- // this is not true is: pthread_join -> munmap(stack). It's fine
- // to ignore munmap in this case -- we handle stack shadow separately.
- thr->ignore_interceptors++;
- }
-
- ~BlockingCall() {
- thr->ignore_interceptors--;
- atomic_store(&ctx->in_blocking_func, 0, memory_order_relaxed);
- }
-
- ThreadState *thr;
- ThreadSignalContext *ctx;
-};
-
-TSAN_INTERCEPTOR(unsigned, sleep, unsigned sec) {
- SCOPED_TSAN_INTERCEPTOR(sleep, sec);
- unsigned res = BLOCK_REAL(sleep)(sec);
- AfterSleep(thr, pc);
- return res;
-}
-
-TSAN_INTERCEPTOR(int, usleep, long_t usec) {
- SCOPED_TSAN_INTERCEPTOR(usleep, usec);
- int res = BLOCK_REAL(usleep)(usec);
- AfterSleep(thr, pc);
- return res;
-}
-
-TSAN_INTERCEPTOR(int, nanosleep, void *req, void *rem) {
- SCOPED_TSAN_INTERCEPTOR(nanosleep, req, rem);
- int res = BLOCK_REAL(nanosleep)(req, rem);
- AfterSleep(thr, pc);
- return res;
-}
-
-TSAN_INTERCEPTOR(int, pause, int fake) {
- SCOPED_TSAN_INTERCEPTOR(pause, fake);
- return BLOCK_REAL(pause)(fake);
-}
-
-static void at_exit_wrapper() {
- AtExitCtx *ctx;
- {
- // Ensure thread-safety.
- BlockingMutexLock l(&interceptor_ctx()->atexit_mu);
-
- // Pop AtExitCtx from the top of the stack of callback functions
- uptr element = interceptor_ctx()->AtExitStack.Size() - 1;
- ctx = interceptor_ctx()->AtExitStack[element];
- interceptor_ctx()->AtExitStack.PopBack();
- }
-
- Acquire(cur_thread(), (uptr)0, (uptr)ctx);
- ((void(*)())ctx->f)();
- InternalFree(ctx);
-}
-
-static void cxa_at_exit_wrapper(void *arg) {
- Acquire(cur_thread(), 0, (uptr)arg);
- AtExitCtx *ctx = (AtExitCtx*)arg;
- ((void(*)(void *arg))ctx->f)(ctx->arg);
- InternalFree(ctx);
-}
-
-static int setup_at_exit_wrapper(ThreadState *thr, uptr pc, void(*f)(),
- void *arg, void *dso);
-
-#if !SANITIZER_ANDROID
-TSAN_INTERCEPTOR(int, atexit, void (*f)()) {
- if (in_symbolizer())
- return 0;
- // We want to setup the atexit callback even if we are in ignored lib
- // or after fork.
- SCOPED_INTERCEPTOR_RAW(atexit, f);
- return setup_at_exit_wrapper(thr, pc, (void(*)())f, 0, 0);
-}
-#endif
-
-TSAN_INTERCEPTOR(int, __cxa_atexit, void (*f)(void *a), void *arg, void *dso) {
- if (in_symbolizer())
- return 0;
- SCOPED_TSAN_INTERCEPTOR(__cxa_atexit, f, arg, dso);
- return setup_at_exit_wrapper(thr, pc, (void(*)())f, arg, dso);
-}
-
-static int setup_at_exit_wrapper(ThreadState *thr, uptr pc, void(*f)(),
- void *arg, void *dso) {
- AtExitCtx *ctx = (AtExitCtx*)InternalAlloc(sizeof(AtExitCtx));
- ctx->f = f;
- ctx->arg = arg;
- Release(thr, pc, (uptr)ctx);
- // Memory allocation in __cxa_atexit will race with free during exit,
- // because we do not see synchronization around atexit callback list.
- ThreadIgnoreBegin(thr, pc);
- int res;
- if (!dso) {
- // NetBSD does not preserve the 2nd argument if dso is equal to 0
- // Store ctx in a local stack-like structure
-
- // Ensure thread-safety.
- BlockingMutexLock l(&interceptor_ctx()->atexit_mu);
-
- res = REAL(__cxa_atexit)((void (*)(void *a))at_exit_wrapper, 0, 0);
- // Push AtExitCtx on the top of the stack of callback functions
- if (!res) {
- interceptor_ctx()->AtExitStack.PushBack(ctx);
- }
- } else {
- res = REAL(__cxa_atexit)(cxa_at_exit_wrapper, ctx, dso);
- }
- ThreadIgnoreEnd(thr, pc);
- return res;
-}
-
-#if !SANITIZER_MAC && !SANITIZER_NETBSD
-static void on_exit_wrapper(int status, void *arg) {
- ThreadState *thr = cur_thread();
- uptr pc = 0;
- Acquire(thr, pc, (uptr)arg);
- AtExitCtx *ctx = (AtExitCtx*)arg;
- ((void(*)(int status, void *arg))ctx->f)(status, ctx->arg);
- InternalFree(ctx);
-}
-
-TSAN_INTERCEPTOR(int, on_exit, void(*f)(int, void*), void *arg) {
- if (in_symbolizer())
- return 0;
- SCOPED_TSAN_INTERCEPTOR(on_exit, f, arg);
- AtExitCtx *ctx = (AtExitCtx*)InternalAlloc(sizeof(AtExitCtx));
- ctx->f = (void(*)())f;
- ctx->arg = arg;
- Release(thr, pc, (uptr)ctx);
- // Memory allocation in __cxa_atexit will race with free during exit,
- // because we do not see synchronization around atexit callback list.
- ThreadIgnoreBegin(thr, pc);
- int res = REAL(on_exit)(on_exit_wrapper, ctx);
- ThreadIgnoreEnd(thr, pc);
- return res;
-}
-#define TSAN_MAYBE_INTERCEPT_ON_EXIT TSAN_INTERCEPT(on_exit)
-#else
-#define TSAN_MAYBE_INTERCEPT_ON_EXIT
-#endif
-
-// Cleanup old bufs.
-static void JmpBufGarbageCollect(ThreadState *thr, uptr sp) {
- for (uptr i = 0; i < thr->jmp_bufs.Size(); i++) {
- JmpBuf *buf = &thr->jmp_bufs[i];
- if (buf->sp <= sp) {
- uptr sz = thr->jmp_bufs.Size();
- internal_memcpy(buf, &thr->jmp_bufs[sz - 1], sizeof(*buf));
- thr->jmp_bufs.PopBack();
- i--;
- }
- }
-}
-
-static void SetJmp(ThreadState *thr, uptr sp) {
- if (!thr->is_inited) // called from libc guts during bootstrap
- return;
- // Cleanup old bufs.
- JmpBufGarbageCollect(thr, sp);
- // Remember the buf.
- JmpBuf *buf = thr->jmp_bufs.PushBack();
- buf->sp = sp;
- buf->shadow_stack_pos = thr->shadow_stack_pos;
- ThreadSignalContext *sctx = SigCtx(thr);
- buf->int_signal_send = sctx ? sctx->int_signal_send : 0;
- buf->in_blocking_func = sctx ?
- atomic_load(&sctx->in_blocking_func, memory_order_relaxed) :
- false;
- buf->in_signal_handler = atomic_load(&thr->in_signal_handler,
- memory_order_relaxed);
-}
-
-static void LongJmp(ThreadState *thr, uptr *env) {
- uptr sp = ExtractLongJmpSp(env);
- // Find the saved buf with matching sp.
- for (uptr i = 0; i < thr->jmp_bufs.Size(); i++) {
- JmpBuf *buf = &thr->jmp_bufs[i];
- if (buf->sp == sp) {
- CHECK_GE(thr->shadow_stack_pos, buf->shadow_stack_pos);
- // Unwind the stack.
- while (thr->shadow_stack_pos > buf->shadow_stack_pos)
- FuncExit(thr);
- ThreadSignalContext *sctx = SigCtx(thr);
- if (sctx) {
- sctx->int_signal_send = buf->int_signal_send;
- atomic_store(&sctx->in_blocking_func, buf->in_blocking_func,
- memory_order_relaxed);
- }
- atomic_store(&thr->in_signal_handler, buf->in_signal_handler,
- memory_order_relaxed);
- JmpBufGarbageCollect(thr, buf->sp - 1); // do not collect buf->sp
- return;
- }
- }
- Printf("ThreadSanitizer: can't find longjmp buf\n");
- CHECK(0);
-}
-
-// FIXME: put everything below into a common extern "C" block?
-extern "C" void __tsan_setjmp(uptr sp) {
- cur_thread_init();
- SetJmp(cur_thread(), sp);
-}
-
-#if SANITIZER_MAC
-TSAN_INTERCEPTOR(int, setjmp, void *env);
-TSAN_INTERCEPTOR(int, _setjmp, void *env);
-TSAN_INTERCEPTOR(int, sigsetjmp, void *env);
-#else // SANITIZER_MAC
-
-#if SANITIZER_NETBSD
-#define setjmp_symname __setjmp14
-#define sigsetjmp_symname __sigsetjmp14
-#else
-#define setjmp_symname setjmp
-#define sigsetjmp_symname sigsetjmp
-#endif
-
-#define TSAN_INTERCEPTOR_SETJMP_(x) __interceptor_ ## x
-#define TSAN_INTERCEPTOR_SETJMP__(x) TSAN_INTERCEPTOR_SETJMP_(x)
-#define TSAN_INTERCEPTOR_SETJMP TSAN_INTERCEPTOR_SETJMP__(setjmp_symname)
-#define TSAN_INTERCEPTOR_SIGSETJMP TSAN_INTERCEPTOR_SETJMP__(sigsetjmp_symname)
-
-#define TSAN_STRING_SETJMP SANITIZER_STRINGIFY(setjmp_symname)
-#define TSAN_STRING_SIGSETJMP SANITIZER_STRINGIFY(sigsetjmp_symname)
-
-// Not called. Merely to satisfy TSAN_INTERCEPT().
-extern "C" SANITIZER_INTERFACE_ATTRIBUTE
-int TSAN_INTERCEPTOR_SETJMP(void *env);
-extern "C" int TSAN_INTERCEPTOR_SETJMP(void *env) {
- CHECK(0);
- return 0;
-}
-
-// FIXME: any reason to have a separate declaration?
-extern "C" SANITIZER_INTERFACE_ATTRIBUTE
-int __interceptor__setjmp(void *env);
-extern "C" int __interceptor__setjmp(void *env) {
- CHECK(0);
- return 0;
-}
-
-extern "C" SANITIZER_INTERFACE_ATTRIBUTE
-int TSAN_INTERCEPTOR_SIGSETJMP(void *env);
-extern "C" int TSAN_INTERCEPTOR_SIGSETJMP(void *env) {
- CHECK(0);
- return 0;
-}
-
-#if !SANITIZER_NETBSD
-extern "C" SANITIZER_INTERFACE_ATTRIBUTE
-int __interceptor___sigsetjmp(void *env);
-extern "C" int __interceptor___sigsetjmp(void *env) {
- CHECK(0);
- return 0;
-}
-#endif
-
-extern "C" int setjmp_symname(void *env);
-extern "C" int _setjmp(void *env);
-extern "C" int sigsetjmp_symname(void *env);
-#if !SANITIZER_NETBSD
-extern "C" int __sigsetjmp(void *env);
-#endif
-DEFINE_REAL(int, setjmp_symname, void *env)
-DEFINE_REAL(int, _setjmp, void *env)
-DEFINE_REAL(int, sigsetjmp_symname, void *env)
-#if !SANITIZER_NETBSD
-DEFINE_REAL(int, __sigsetjmp, void *env)
-#endif
-#endif // SANITIZER_MAC
-
-#if SANITIZER_NETBSD
-#define longjmp_symname __longjmp14
-#define siglongjmp_symname __siglongjmp14
-#else
-#define longjmp_symname longjmp
-#define siglongjmp_symname siglongjmp
-#endif
-
-TSAN_INTERCEPTOR(void, longjmp_symname, uptr *env, int val) {
- // Note: if we call REAL(longjmp) in the context of ScopedInterceptor,
- // bad things will happen. We will jump over ScopedInterceptor dtor and can
- // leave thr->in_ignored_lib set.
- {
- SCOPED_INTERCEPTOR_RAW(longjmp_symname, env, val);
- }
- LongJmp(cur_thread(), env);
- REAL(longjmp_symname)(env, val);
-}
-
-TSAN_INTERCEPTOR(void, siglongjmp_symname, uptr *env, int val) {
- {
- SCOPED_INTERCEPTOR_RAW(siglongjmp_symname, env, val);
- }
- LongJmp(cur_thread(), env);
- REAL(siglongjmp_symname)(env, val);
-}
-
-#if SANITIZER_NETBSD
-TSAN_INTERCEPTOR(void, _longjmp, uptr *env, int val) {
- {
- SCOPED_INTERCEPTOR_RAW(_longjmp, env, val);
- }
- LongJmp(cur_thread(), env);
- REAL(_longjmp)(env, val);
-}
-#endif
-
-#if !SANITIZER_MAC
-TSAN_INTERCEPTOR(void*, malloc, uptr size) {
- if (in_symbolizer())
- return InternalAlloc(size);
- void *p = 0;
- {
- SCOPED_INTERCEPTOR_RAW(malloc, size);
- p = user_alloc(thr, pc, size);
- }
- invoke_malloc_hook(p, size);
- return p;
-}
-
-TSAN_INTERCEPTOR(void*, __libc_memalign, uptr align, uptr sz) {
- SCOPED_TSAN_INTERCEPTOR(__libc_memalign, align, sz);
- return user_memalign(thr, pc, align, sz);
-}
-
-TSAN_INTERCEPTOR(void*, calloc, uptr size, uptr n) {
- if (in_symbolizer())
- return InternalCalloc(size, n);
- void *p = 0;
- {
- SCOPED_INTERCEPTOR_RAW(calloc, size, n);
- p = user_calloc(thr, pc, size, n);
- }
- invoke_malloc_hook(p, n * size);
- return p;
-}
-
-TSAN_INTERCEPTOR(void*, realloc, void *p, uptr size) {
- if (in_symbolizer())
- return InternalRealloc(p, size);
- if (p)
- invoke_free_hook(p);
- {
- SCOPED_INTERCEPTOR_RAW(realloc, p, size);
- p = user_realloc(thr, pc, p, size);
- }
- invoke_malloc_hook(p, size);
- return p;
-}
-
-TSAN_INTERCEPTOR(void*, reallocarray, void *p, uptr size, uptr n) {
- if (in_symbolizer())
- return InternalReallocArray(p, size, n);
- if (p)
- invoke_free_hook(p);
- {
- SCOPED_INTERCEPTOR_RAW(reallocarray, p, size, n);
- p = user_reallocarray(thr, pc, p, size, n);
- }
- invoke_malloc_hook(p, size);
- return p;
-}
-
-TSAN_INTERCEPTOR(void, free, void *p) {
- if (p == 0)
- return;
- if (in_symbolizer())
- return InternalFree(p);
- invoke_free_hook(p);
- SCOPED_INTERCEPTOR_RAW(free, p);
- user_free(thr, pc, p);
-}
-
-TSAN_INTERCEPTOR(void, cfree, void *p) {
- if (p == 0)
- return;
- if (in_symbolizer())
- return InternalFree(p);
- invoke_free_hook(p);
- SCOPED_INTERCEPTOR_RAW(cfree, p);
- user_free(thr, pc, p);
-}
-
-TSAN_INTERCEPTOR(uptr, malloc_usable_size, void *p) {
- SCOPED_INTERCEPTOR_RAW(malloc_usable_size, p);
- return user_alloc_usable_size(p);
-}
-#endif
-
-TSAN_INTERCEPTOR(char *, strcpy, char *dst, const char *src) {
- SCOPED_TSAN_INTERCEPTOR(strcpy, dst, src);
- uptr srclen = internal_strlen(src);
- MemoryAccessRange(thr, pc, (uptr)dst, srclen + 1, true);
- MemoryAccessRange(thr, pc, (uptr)src, srclen + 1, false);
- return REAL(strcpy)(dst, src);
-}
-
-TSAN_INTERCEPTOR(char*, strncpy, char *dst, char *src, uptr n) {
- SCOPED_TSAN_INTERCEPTOR(strncpy, dst, src, n);
- uptr srclen = internal_strnlen(src, n);
- MemoryAccessRange(thr, pc, (uptr)dst, n, true);
- MemoryAccessRange(thr, pc, (uptr)src, min(srclen + 1, n), false);
- return REAL(strncpy)(dst, src, n);
-}
-
-TSAN_INTERCEPTOR(char*, strdup, const char *str) {
- SCOPED_TSAN_INTERCEPTOR(strdup, str);
- // strdup will call malloc, so no instrumentation is required here.
- return REAL(strdup)(str);
-}
-
-// Zero out addr if it points into shadow memory and was provided as a hint
-// only, i.e., MAP_FIXED is not set.
-static bool fix_mmap_addr(void **addr, long_t sz, int flags) {
- if (*addr) {
- if (!IsAppMem((uptr)*addr) || !IsAppMem((uptr)*addr + sz - 1)) {
- if (flags & MAP_FIXED) {
- errno = errno_EINVAL;
- return false;
- } else {
- *addr = 0;
- }
- }
- }
- return true;
-}
-
-template <class Mmap>
-static void *mmap_interceptor(ThreadState *thr, uptr pc, Mmap real_mmap,
- void *addr, SIZE_T sz, int prot, int flags,
- int fd, OFF64_T off) {
- if (!fix_mmap_addr(&addr, sz, flags)) return MAP_FAILED;
- void *res = real_mmap(addr, sz, prot, flags, fd, off);
- if (res != MAP_FAILED) {
- if (fd > 0) FdAccess(thr, pc, fd);
- MemoryRangeImitateWriteOrResetRange(thr, pc, (uptr)res, sz);
- }
- return res;
-}
-
-TSAN_INTERCEPTOR(int, munmap, void *addr, long_t sz) {
- SCOPED_TSAN_INTERCEPTOR(munmap, addr, sz);
- UnmapShadow(thr, (uptr)addr, sz);
- int res = REAL(munmap)(addr, sz);
- return res;
-}
-
-#if SANITIZER_LINUX
-TSAN_INTERCEPTOR(void*, memalign, uptr align, uptr sz) {
- SCOPED_INTERCEPTOR_RAW(memalign, align, sz);
- return user_memalign(thr, pc, align, sz);
-}
-#define TSAN_MAYBE_INTERCEPT_MEMALIGN TSAN_INTERCEPT(memalign)
-#else
-#define TSAN_MAYBE_INTERCEPT_MEMALIGN
-#endif
-
-#if !SANITIZER_MAC
-TSAN_INTERCEPTOR(void*, aligned_alloc, uptr align, uptr sz) {
- if (in_symbolizer())
- return InternalAlloc(sz, nullptr, align);
- SCOPED_INTERCEPTOR_RAW(aligned_alloc, align, sz);
- return user_aligned_alloc(thr, pc, align, sz);
-}
-
-TSAN_INTERCEPTOR(void*, valloc, uptr sz) {
- if (in_symbolizer())
- return InternalAlloc(sz, nullptr, GetPageSizeCached());
- SCOPED_INTERCEPTOR_RAW(valloc, sz);
- return user_valloc(thr, pc, sz);
-}
-#endif
-
-#if SANITIZER_LINUX
-TSAN_INTERCEPTOR(void*, pvalloc, uptr sz) {
- if (in_symbolizer()) {
- uptr PageSize = GetPageSizeCached();
- sz = sz ? RoundUpTo(sz, PageSize) : PageSize;
- return InternalAlloc(sz, nullptr, PageSize);
- }
- SCOPED_INTERCEPTOR_RAW(pvalloc, sz);
- return user_pvalloc(thr, pc, sz);
-}
-#define TSAN_MAYBE_INTERCEPT_PVALLOC TSAN_INTERCEPT(pvalloc)
-#else
-#define TSAN_MAYBE_INTERCEPT_PVALLOC
-#endif
-
-#if !SANITIZER_MAC
-TSAN_INTERCEPTOR(int, posix_memalign, void **memptr, uptr align, uptr sz) {
- if (in_symbolizer()) {
- void *p = InternalAlloc(sz, nullptr, align);
- if (!p)
- return errno_ENOMEM;
- *memptr = p;
- return 0;
- }
- SCOPED_INTERCEPTOR_RAW(posix_memalign, memptr, align, sz);
- return user_posix_memalign(thr, pc, memptr, align, sz);
-}
-#endif
-
-// __cxa_guard_acquire and friends need to be intercepted in a special way -
-// regular interceptors will break statically-linked libstdc++. Linux
-// interceptors are especially defined as weak functions (so that they don't
-// cause link errors when user defines them as well). So they silently
-// auto-disable themselves when such symbol is already present in the binary. If
-// we link libstdc++ statically, it will bring own __cxa_guard_acquire which
-// will silently replace our interceptor. That's why on Linux we simply export
-// these interceptors with INTERFACE_ATTRIBUTE.
-// On OS X, we don't support statically linking, so we just use a regular
-// interceptor.
-#if SANITIZER_MAC
-#define STDCXX_INTERCEPTOR TSAN_INTERCEPTOR
-#else
-#define STDCXX_INTERCEPTOR(rettype, name, ...) \
- extern "C" rettype INTERFACE_ATTRIBUTE name(__VA_ARGS__)
-#endif
-
-// Used in thread-safe function static initialization.
-STDCXX_INTERCEPTOR(int, __cxa_guard_acquire, atomic_uint32_t *g) {
- SCOPED_INTERCEPTOR_RAW(__cxa_guard_acquire, g);
- OnPotentiallyBlockingRegionBegin();
- auto on_exit = at_scope_exit(&OnPotentiallyBlockingRegionEnd);
- for (;;) {
- u32 cmp = atomic_load(g, memory_order_acquire);
- if (cmp == 0) {
- if (atomic_compare_exchange_strong(g, &cmp, 1<<16, memory_order_relaxed))
- return 1;
- } else if (cmp == 1) {
- Acquire(thr, pc, (uptr)g);
- return 0;
- } else {
- internal_sched_yield();
- }
- }
-}
-
-STDCXX_INTERCEPTOR(void, __cxa_guard_release, atomic_uint32_t *g) {
- SCOPED_INTERCEPTOR_RAW(__cxa_guard_release, g);
- Release(thr, pc, (uptr)g);
- atomic_store(g, 1, memory_order_release);
-}
-
-STDCXX_INTERCEPTOR(void, __cxa_guard_abort, atomic_uint32_t *g) {
- SCOPED_INTERCEPTOR_RAW(__cxa_guard_abort, g);
- atomic_store(g, 0, memory_order_relaxed);
-}
-
-namespace __tsan {
-void DestroyThreadState() {
- ThreadState *thr = cur_thread();
- Processor *proc = thr->proc();
- ThreadFinish(thr);
- ProcUnwire(proc, thr);
- ProcDestroy(proc);
- ThreadSignalContext *sctx = thr->signal_ctx;
- if (sctx) {
- thr->signal_ctx = 0;
- UnmapOrDie(sctx, sizeof(*sctx));
- }
- DTLS_Destroy();
- cur_thread_finalize();
-}
-} // namespace __tsan
-
-#if !SANITIZER_MAC && !SANITIZER_NETBSD && !SANITIZER_FREEBSD
-static void thread_finalize(void *v) {
- uptr iter = (uptr)v;
- if (iter > 1) {
- if (pthread_setspecific(interceptor_ctx()->finalize_key,
- (void*)(iter - 1))) {
- Printf("ThreadSanitizer: failed to set thread key\n");
- Die();
- }
- return;
- }
- DestroyThreadState();
-}
-#endif
-
-
-struct ThreadParam {
- void* (*callback)(void *arg);
- void *param;
- atomic_uintptr_t tid;
-};
-
-extern "C" void *__tsan_thread_start_func(void *arg) {
- ThreadParam *p = (ThreadParam*)arg;
- void* (*callback)(void *arg) = p->callback;
- void *param = p->param;
- int tid = 0;
- {
- cur_thread_init();
- ThreadState *thr = cur_thread();
- // Thread-local state is not initialized yet.
- ScopedIgnoreInterceptors ignore;
-#if !SANITIZER_MAC && !SANITIZER_NETBSD && !SANITIZER_FREEBSD
- ThreadIgnoreBegin(thr, 0);
- if (pthread_setspecific(interceptor_ctx()->finalize_key,
- (void *)GetPthreadDestructorIterations())) {
- Printf("ThreadSanitizer: failed to set thread key\n");
- Die();
- }
- ThreadIgnoreEnd(thr, 0);
-#endif
- while ((tid = atomic_load(&p->tid, memory_order_acquire)) == 0)
- internal_sched_yield();
- Processor *proc = ProcCreate();
- ProcWire(proc, thr);
- ThreadStart(thr, tid, GetTid(), ThreadType::Regular);
- atomic_store(&p->tid, 0, memory_order_release);
- }
- void *res = callback(param);
- // Prevent the callback from being tail called,
- // it mixes up stack traces.
- volatile int foo = 42;
- foo++;
- return res;
-}
-
-TSAN_INTERCEPTOR(int, pthread_create,
- void *th, void *attr, void *(*callback)(void*), void * param) {
- SCOPED_INTERCEPTOR_RAW(pthread_create, th, attr, callback, param);
-
- MaybeSpawnBackgroundThread();
-
- if (ctx->after_multithreaded_fork) {
- if (flags()->die_after_fork) {
- Report("ThreadSanitizer: starting new threads after multi-threaded "
- "fork is not supported. Dying (set die_after_fork=0 to override)\n");
- Die();
- } else {
- VPrintf(1, "ThreadSanitizer: starting new threads after multi-threaded "
- "fork is not supported (pid %d). Continuing because of "
- "die_after_fork=0, but you are on your own\n", internal_getpid());
- }
- }
- __sanitizer_pthread_attr_t myattr;
- if (attr == 0) {
- pthread_attr_init(&myattr);
- attr = &myattr;
- }
- int detached = 0;
- REAL(pthread_attr_getdetachstate)(attr, &detached);
- AdjustStackSize(attr);
-
- ThreadParam p;
- p.callback = callback;
- p.param = param;
- atomic_store(&p.tid, 0, memory_order_relaxed);
- int res = -1;
- {
- // Otherwise we see false positives in pthread stack manipulation.
- ScopedIgnoreInterceptors ignore;
- ThreadIgnoreBegin(thr, pc);
- res = REAL(pthread_create)(th, attr, __tsan_thread_start_func, &p);
- ThreadIgnoreEnd(thr, pc);
- }
- if (res == 0) {
- int tid = ThreadCreate(thr, pc, *(uptr*)th, IsStateDetached(detached));
- CHECK_NE(tid, 0);
- // Synchronization on p.tid serves two purposes:
- // 1. ThreadCreate must finish before the new thread starts.
- // Otherwise the new thread can call pthread_detach, but the pthread_t
- // identifier is not yet registered in ThreadRegistry by ThreadCreate.
- // 2. ThreadStart must finish before this thread continues.
- // Otherwise, this thread can call pthread_detach and reset thr->sync
- // before the new thread got a chance to acquire from it in ThreadStart.
- atomic_store(&p.tid, tid, memory_order_release);
- while (atomic_load(&p.tid, memory_order_acquire) != 0)
- internal_sched_yield();
- }
- if (attr == &myattr)
- pthread_attr_destroy(&myattr);
- return res;
-}
-
-TSAN_INTERCEPTOR(int, pthread_join, void *th, void **ret) {
- SCOPED_INTERCEPTOR_RAW(pthread_join, th, ret);
- int tid = ThreadTid(thr, pc, (uptr)th);
- ThreadIgnoreBegin(thr, pc);
- int res = BLOCK_REAL(pthread_join)(th, ret);
- ThreadIgnoreEnd(thr, pc);
- if (res == 0) {
- ThreadJoin(thr, pc, tid);
- }
- return res;
-}
-
-DEFINE_REAL_PTHREAD_FUNCTIONS
-
-TSAN_INTERCEPTOR(int, pthread_detach, void *th) {
- SCOPED_TSAN_INTERCEPTOR(pthread_detach, th);
- int tid = ThreadTid(thr, pc, (uptr)th);
- int res = REAL(pthread_detach)(th);
- if (res == 0) {
- ThreadDetach(thr, pc, tid);
- }
- return res;
-}
-
-TSAN_INTERCEPTOR(void, pthread_exit, void *retval) {
- {
- SCOPED_INTERCEPTOR_RAW(pthread_exit, retval);
-#if !SANITIZER_MAC && !SANITIZER_ANDROID
- CHECK_EQ(thr, &cur_thread_placeholder);
-#endif
- }
- REAL(pthread_exit)(retval);
-}
-
-#if SANITIZER_LINUX
-TSAN_INTERCEPTOR(int, pthread_tryjoin_np, void *th, void **ret) {
- SCOPED_TSAN_INTERCEPTOR(pthread_tryjoin_np, th, ret);
- int tid = ThreadTid(thr, pc, (uptr)th);
- ThreadIgnoreBegin(thr, pc);
- int res = REAL(pthread_tryjoin_np)(th, ret);
- ThreadIgnoreEnd(thr, pc);
- if (res == 0)
- ThreadJoin(thr, pc, tid);
- else
- ThreadNotJoined(thr, pc, tid, (uptr)th);
- return res;
-}
-
-TSAN_INTERCEPTOR(int, pthread_timedjoin_np, void *th, void **ret,
- const struct timespec *abstime) {
- SCOPED_TSAN_INTERCEPTOR(pthread_timedjoin_np, th, ret, abstime);
- int tid = ThreadTid(thr, pc, (uptr)th);
- ThreadIgnoreBegin(thr, pc);
- int res = BLOCK_REAL(pthread_timedjoin_np)(th, ret, abstime);
- ThreadIgnoreEnd(thr, pc);
- if (res == 0)
- ThreadJoin(thr, pc, tid);
- else
- ThreadNotJoined(thr, pc, tid, (uptr)th);
- return res;
-}
-#endif
-
-// Problem:
-// NPTL implementation of pthread_cond has 2 versions (2.2.5 and 2.3.2).
-// pthread_cond_t has different size in the different versions.
-// If call new REAL functions for old pthread_cond_t, they will corrupt memory
-// after pthread_cond_t (old cond is smaller).
-// If we call old REAL functions for new pthread_cond_t, we will lose some
-// functionality (e.g. old functions do not support waiting against
-// CLOCK_REALTIME).
-// Proper handling would require to have 2 versions of interceptors as well.
-// But this is messy, in particular requires linker scripts when sanitizer
-// runtime is linked into a shared library.
-// Instead we assume we don't have dynamic libraries built against old
-// pthread (2.2.5 is dated by 2002). And provide legacy_pthread_cond flag
-// that allows to work with old libraries (but this mode does not support
-// some features, e.g. pthread_condattr_getpshared).
-static void *init_cond(void *c, bool force = false) {
- // sizeof(pthread_cond_t) >= sizeof(uptr) in both versions.
- // So we allocate additional memory on the side large enough to hold
- // any pthread_cond_t object. Always call new REAL functions, but pass
- // the aux object to them.
- // Note: the code assumes that PTHREAD_COND_INITIALIZER initializes
- // first word of pthread_cond_t to zero.
- // It's all relevant only for linux.
- if (!common_flags()->legacy_pthread_cond)
- return c;
- atomic_uintptr_t *p = (atomic_uintptr_t*)c;
- uptr cond = atomic_load(p, memory_order_acquire);
- if (!force && cond != 0)
- return (void*)cond;
- void *newcond = WRAP(malloc)(pthread_cond_t_sz);
- internal_memset(newcond, 0, pthread_cond_t_sz);
- if (atomic_compare_exchange_strong(p, &cond, (uptr)newcond,
- memory_order_acq_rel))
- return newcond;
- WRAP(free)(newcond);
- return (void*)cond;
-}
-
-struct CondMutexUnlockCtx {
- ScopedInterceptor *si;
- ThreadState *thr;
- uptr pc;
- void *m;
-};
-
-static void cond_mutex_unlock(CondMutexUnlockCtx *arg) {
- // pthread_cond_wait interceptor has enabled async signal delivery
- // (see BlockingCall below). Disable async signals since we are running
- // tsan code. Also ScopedInterceptor and BlockingCall destructors won't run
- // since the thread is cancelled, so we have to manually execute them
- // (the thread still can run some user code due to pthread_cleanup_push).
- ThreadSignalContext *ctx = SigCtx(arg->thr);
- CHECK_EQ(atomic_load(&ctx->in_blocking_func, memory_order_relaxed), 1);
- atomic_store(&ctx->in_blocking_func, 0, memory_order_relaxed);
- MutexPostLock(arg->thr, arg->pc, (uptr)arg->m, MutexFlagDoPreLockOnPostLock);
- // Undo BlockingCall ctor effects.
- arg->thr->ignore_interceptors--;
- arg->si->~ScopedInterceptor();
-}
-
-INTERCEPTOR(int, pthread_cond_init, void *c, void *a) {
- void *cond = init_cond(c, true);
- SCOPED_TSAN_INTERCEPTOR(pthread_cond_init, cond, a);
- MemoryAccessRange(thr, pc, (uptr)c, sizeof(uptr), true);
- return REAL(pthread_cond_init)(cond, a);
-}
-
-static int cond_wait(ThreadState *thr, uptr pc, ScopedInterceptor *si,
- int (*fn)(void *c, void *m, void *abstime), void *c,
- void *m, void *t) {
- MemoryAccessRange(thr, pc, (uptr)c, sizeof(uptr), false);
- MutexUnlock(thr, pc, (uptr)m);
- CondMutexUnlockCtx arg = {si, thr, pc, m};
- int res = 0;
- // This ensures that we handle mutex lock even in case of pthread_cancel.
- // See test/tsan/cond_cancel.cpp.
- {
- // Enable signal delivery while the thread is blocked.
- BlockingCall bc(thr);
- res = call_pthread_cancel_with_cleanup(
- fn, c, m, t, (void (*)(void *arg))cond_mutex_unlock, &arg);
- }
- if (res == errno_EOWNERDEAD) MutexRepair(thr, pc, (uptr)m);
- MutexPostLock(thr, pc, (uptr)m, MutexFlagDoPreLockOnPostLock);
- return res;
-}
-
-INTERCEPTOR(int, pthread_cond_wait, void *c, void *m) {
- void *cond = init_cond(c);
- SCOPED_TSAN_INTERCEPTOR(pthread_cond_wait, cond, m);
- return cond_wait(thr, pc, &si, (int (*)(void *c, void *m, void *abstime))REAL(
- pthread_cond_wait),
- cond, m, 0);
-}
-
-INTERCEPTOR(int, pthread_cond_timedwait, void *c, void *m, void *abstime) {
- void *cond = init_cond(c);
- SCOPED_TSAN_INTERCEPTOR(pthread_cond_timedwait, cond, m, abstime);
- return cond_wait(thr, pc, &si, REAL(pthread_cond_timedwait), cond, m,
- abstime);
-}
-
-#if SANITIZER_MAC
-INTERCEPTOR(int, pthread_cond_timedwait_relative_np, void *c, void *m,
- void *reltime) {
- void *cond = init_cond(c);
- SCOPED_TSAN_INTERCEPTOR(pthread_cond_timedwait_relative_np, cond, m, reltime);
- return cond_wait(thr, pc, &si, REAL(pthread_cond_timedwait_relative_np), cond,
- m, reltime);
-}
-#endif
-
-INTERCEPTOR(int, pthread_cond_signal, void *c) {
- void *cond = init_cond(c);
- SCOPED_TSAN_INTERCEPTOR(pthread_cond_signal, cond);
- MemoryAccessRange(thr, pc, (uptr)c, sizeof(uptr), false);
- return REAL(pthread_cond_signal)(cond);
-}
-
-INTERCEPTOR(int, pthread_cond_broadcast, void *c) {
- void *cond = init_cond(c);
- SCOPED_TSAN_INTERCEPTOR(pthread_cond_broadcast, cond);
- MemoryAccessRange(thr, pc, (uptr)c, sizeof(uptr), false);
- return REAL(pthread_cond_broadcast)(cond);
-}
-
-INTERCEPTOR(int, pthread_cond_destroy, void *c) {
- void *cond = init_cond(c);
- SCOPED_TSAN_INTERCEPTOR(pthread_cond_destroy, cond);
- MemoryAccessRange(thr, pc, (uptr)c, sizeof(uptr), true);
- int res = REAL(pthread_cond_destroy)(cond);
- if (common_flags()->legacy_pthread_cond) {
- // Free our aux cond and zero the pointer to not leave dangling pointers.
- WRAP(free)(cond);
- atomic_store((atomic_uintptr_t*)c, 0, memory_order_relaxed);
- }
- return res;
-}
-
-TSAN_INTERCEPTOR(int, pthread_mutex_init, void *m, void *a) {
- SCOPED_TSAN_INTERCEPTOR(pthread_mutex_init, m, a);
- int res = REAL(pthread_mutex_init)(m, a);
- if (res == 0) {
- u32 flagz = 0;
- if (a) {
- int type = 0;
- if (REAL(pthread_mutexattr_gettype)(a, &type) == 0)
- if (type == PTHREAD_MUTEX_RECURSIVE ||
- type == PTHREAD_MUTEX_RECURSIVE_NP)
- flagz |= MutexFlagWriteReentrant;
- }
- MutexCreate(thr, pc, (uptr)m, flagz);
- }
- return res;
-}
-
-TSAN_INTERCEPTOR(int, pthread_mutex_destroy, void *m) {
- SCOPED_TSAN_INTERCEPTOR(pthread_mutex_destroy, m);
- int res = REAL(pthread_mutex_destroy)(m);
- if (res == 0 || res == errno_EBUSY) {
- MutexDestroy(thr, pc, (uptr)m);
- }
- return res;
-}
-
-TSAN_INTERCEPTOR(int, pthread_mutex_trylock, void *m) {
- SCOPED_TSAN_INTERCEPTOR(pthread_mutex_trylock, m);
- int res = REAL(pthread_mutex_trylock)(m);
- if (res == errno_EOWNERDEAD)
- MutexRepair(thr, pc, (uptr)m);
- if (res == 0 || res == errno_EOWNERDEAD)
- MutexPostLock(thr, pc, (uptr)m, MutexFlagTryLock);
- return res;
-}
-
-#if !SANITIZER_MAC
-TSAN_INTERCEPTOR(int, pthread_mutex_timedlock, void *m, void *abstime) {
- SCOPED_TSAN_INTERCEPTOR(pthread_mutex_timedlock, m, abstime);
- int res = REAL(pthread_mutex_timedlock)(m, abstime);
- if (res == 0) {
- MutexPostLock(thr, pc, (uptr)m, MutexFlagTryLock);
- }
- return res;
-}
-#endif
-
-#if !SANITIZER_MAC
-TSAN_INTERCEPTOR(int, pthread_spin_init, void *m, int pshared) {
- SCOPED_TSAN_INTERCEPTOR(pthread_spin_init, m, pshared);
- int res = REAL(pthread_spin_init)(m, pshared);
- if (res == 0) {
- MutexCreate(thr, pc, (uptr)m);
- }
- return res;
-}
-
-TSAN_INTERCEPTOR(int, pthread_spin_destroy, void *m) {
- SCOPED_TSAN_INTERCEPTOR(pthread_spin_destroy, m);
- int res = REAL(pthread_spin_destroy)(m);
- if (res == 0) {
- MutexDestroy(thr, pc, (uptr)m);
- }
- return res;
-}
-
-TSAN_INTERCEPTOR(int, pthread_spin_lock, void *m) {
- SCOPED_TSAN_INTERCEPTOR(pthread_spin_lock, m);
- MutexPreLock(thr, pc, (uptr)m);
- int res = REAL(pthread_spin_lock)(m);
- if (res == 0) {
- MutexPostLock(thr, pc, (uptr)m);
- }
- return res;
-}
-
-TSAN_INTERCEPTOR(int, pthread_spin_trylock, void *m) {
- SCOPED_TSAN_INTERCEPTOR(pthread_spin_trylock, m);
- int res = REAL(pthread_spin_trylock)(m);
- if (res == 0) {
- MutexPostLock(thr, pc, (uptr)m, MutexFlagTryLock);
- }
- return res;
-}
-
-TSAN_INTERCEPTOR(int, pthread_spin_unlock, void *m) {
- SCOPED_TSAN_INTERCEPTOR(pthread_spin_unlock, m);
- MutexUnlock(thr, pc, (uptr)m);
- int res = REAL(pthread_spin_unlock)(m);
- return res;
-}
-#endif
-
-TSAN_INTERCEPTOR(int, pthread_rwlock_init, void *m, void *a) {
- SCOPED_TSAN_INTERCEPTOR(pthread_rwlock_init, m, a);
- int res = REAL(pthread_rwlock_init)(m, a);
- if (res == 0) {
- MutexCreate(thr, pc, (uptr)m);
- }
- return res;
-}
-
-TSAN_INTERCEPTOR(int, pthread_rwlock_destroy, void *m) {
- SCOPED_TSAN_INTERCEPTOR(pthread_rwlock_destroy, m);
- int res = REAL(pthread_rwlock_destroy)(m);
- if (res == 0) {
- MutexDestroy(thr, pc, (uptr)m);
- }
- return res;
-}
-
-TSAN_INTERCEPTOR(int, pthread_rwlock_rdlock, void *m) {
- SCOPED_TSAN_INTERCEPTOR(pthread_rwlock_rdlock, m);
- MutexPreReadLock(thr, pc, (uptr)m);
- int res = REAL(pthread_rwlock_rdlock)(m);
- if (res == 0) {
- MutexPostReadLock(thr, pc, (uptr)m);
- }
- return res;
-}
-
-TSAN_INTERCEPTOR(int, pthread_rwlock_tryrdlock, void *m) {
- SCOPED_TSAN_INTERCEPTOR(pthread_rwlock_tryrdlock, m);
- int res = REAL(pthread_rwlock_tryrdlock)(m);
- if (res == 0) {
- MutexPostReadLock(thr, pc, (uptr)m, MutexFlagTryLock);
- }
- return res;
-}
-
-#if !SANITIZER_MAC
-TSAN_INTERCEPTOR(int, pthread_rwlock_timedrdlock, void *m, void *abstime) {
- SCOPED_TSAN_INTERCEPTOR(pthread_rwlock_timedrdlock, m, abstime);
- int res = REAL(pthread_rwlock_timedrdlock)(m, abstime);
- if (res == 0) {
- MutexPostReadLock(thr, pc, (uptr)m);
- }
- return res;
-}
-#endif
-
-TSAN_INTERCEPTOR(int, pthread_rwlock_wrlock, void *m) {
- SCOPED_TSAN_INTERCEPTOR(pthread_rwlock_wrlock, m);
- MutexPreLock(thr, pc, (uptr)m);
- int res = REAL(pthread_rwlock_wrlock)(m);
- if (res == 0) {
- MutexPostLock(thr, pc, (uptr)m);
- }
- return res;
-}
-
-TSAN_INTERCEPTOR(int, pthread_rwlock_trywrlock, void *m) {
- SCOPED_TSAN_INTERCEPTOR(pthread_rwlock_trywrlock, m);
- int res = REAL(pthread_rwlock_trywrlock)(m);
- if (res == 0) {
- MutexPostLock(thr, pc, (uptr)m, MutexFlagTryLock);
- }
- return res;
-}
-
-#if !SANITIZER_MAC
-TSAN_INTERCEPTOR(int, pthread_rwlock_timedwrlock, void *m, void *abstime) {
- SCOPED_TSAN_INTERCEPTOR(pthread_rwlock_timedwrlock, m, abstime);
- int res = REAL(pthread_rwlock_timedwrlock)(m, abstime);
- if (res == 0) {
- MutexPostLock(thr, pc, (uptr)m, MutexFlagTryLock);
- }
- return res;
-}
-#endif
-
-TSAN_INTERCEPTOR(int, pthread_rwlock_unlock, void *m) {
- SCOPED_TSAN_INTERCEPTOR(pthread_rwlock_unlock, m);
- MutexReadOrWriteUnlock(thr, pc, (uptr)m);
- int res = REAL(pthread_rwlock_unlock)(m);
- return res;
-}
-
-#if !SANITIZER_MAC
-TSAN_INTERCEPTOR(int, pthread_barrier_init, void *b, void *a, unsigned count) {
- SCOPED_TSAN_INTERCEPTOR(pthread_barrier_init, b, a, count);
- MemoryWrite(thr, pc, (uptr)b, kSizeLog1);
- int res = REAL(pthread_barrier_init)(b, a, count);
- return res;
-}
-
-TSAN_INTERCEPTOR(int, pthread_barrier_destroy, void *b) {
- SCOPED_TSAN_INTERCEPTOR(pthread_barrier_destroy, b);
- MemoryWrite(thr, pc, (uptr)b, kSizeLog1);
- int res = REAL(pthread_barrier_destroy)(b);
- return res;
-}
-
-TSAN_INTERCEPTOR(int, pthread_barrier_wait, void *b) {
- SCOPED_TSAN_INTERCEPTOR(pthread_barrier_wait, b);
- Release(thr, pc, (uptr)b);
- MemoryRead(thr, pc, (uptr)b, kSizeLog1);
- int res = REAL(pthread_barrier_wait)(b);
- MemoryRead(thr, pc, (uptr)b, kSizeLog1);
- if (res == 0 || res == PTHREAD_BARRIER_SERIAL_THREAD) {
- Acquire(thr, pc, (uptr)b);
- }
- return res;
-}
-#endif
-
-TSAN_INTERCEPTOR(int, pthread_once, void *o, void (*f)()) {
- SCOPED_INTERCEPTOR_RAW(pthread_once, o, f);
- if (o == 0 || f == 0)
- return errno_EINVAL;
- atomic_uint32_t *a;
-
- if (SANITIZER_MAC)
- a = static_cast<atomic_uint32_t*>((void *)((char *)o + sizeof(long_t)));
- else if (SANITIZER_NETBSD)
- a = static_cast<atomic_uint32_t*>
- ((void *)((char *)o + __sanitizer::pthread_mutex_t_sz));
- else
- a = static_cast<atomic_uint32_t*>(o);
-
- u32 v = atomic_load(a, memory_order_acquire);
- if (v == 0 && atomic_compare_exchange_strong(a, &v, 1,
- memory_order_relaxed)) {
- (*f)();
- if (!thr->in_ignored_lib)
- Release(thr, pc, (uptr)o);
- atomic_store(a, 2, memory_order_release);
- } else {
- while (v != 2) {
- internal_sched_yield();
- v = atomic_load(a, memory_order_acquire);
- }
- if (!thr->in_ignored_lib)
- Acquire(thr, pc, (uptr)o);
- }
- return 0;
-}
-
-#if SANITIZER_LINUX && !SANITIZER_ANDROID
-TSAN_INTERCEPTOR(int, __fxstat, int version, int fd, void *buf) {
- SCOPED_TSAN_INTERCEPTOR(__fxstat, version, fd, buf);
- if (fd > 0)
- FdAccess(thr, pc, fd);
- return REAL(__fxstat)(version, fd, buf);
-}
-#define TSAN_MAYBE_INTERCEPT___FXSTAT TSAN_INTERCEPT(__fxstat)
-#else
-#define TSAN_MAYBE_INTERCEPT___FXSTAT
-#endif
-
-TSAN_INTERCEPTOR(int, fstat, int fd, void *buf) {
-#if SANITIZER_FREEBSD || SANITIZER_MAC || SANITIZER_ANDROID || SANITIZER_NETBSD
- SCOPED_TSAN_INTERCEPTOR(fstat, fd, buf);
- if (fd > 0)
- FdAccess(thr, pc, fd);
- return REAL(fstat)(fd, buf);
-#else
- SCOPED_TSAN_INTERCEPTOR(__fxstat, 0, fd, buf);
- if (fd > 0)
- FdAccess(thr, pc, fd);
- return REAL(__fxstat)(0, fd, buf);
-#endif
-}
-
-#if SANITIZER_LINUX && !SANITIZER_ANDROID
-TSAN_INTERCEPTOR(int, __fxstat64, int version, int fd, void *buf) {
- SCOPED_TSAN_INTERCEPTOR(__fxstat64, version, fd, buf);
- if (fd > 0)
- FdAccess(thr, pc, fd);
- return REAL(__fxstat64)(version, fd, buf);
-}
-#define TSAN_MAYBE_INTERCEPT___FXSTAT64 TSAN_INTERCEPT(__fxstat64)
-#else
-#define TSAN_MAYBE_INTERCEPT___FXSTAT64
-#endif
-
-#if SANITIZER_LINUX && !SANITIZER_ANDROID
-TSAN_INTERCEPTOR(int, fstat64, int fd, void *buf) {
- SCOPED_TSAN_INTERCEPTOR(__fxstat64, 0, fd, buf);
- if (fd > 0)
- FdAccess(thr, pc, fd);
- return REAL(__fxstat64)(0, fd, buf);
-}
-#define TSAN_MAYBE_INTERCEPT_FSTAT64 TSAN_INTERCEPT(fstat64)
-#else
-#define TSAN_MAYBE_INTERCEPT_FSTAT64
-#endif
-
-TSAN_INTERCEPTOR(int, open, const char *name, int flags, int mode) {
- SCOPED_TSAN_INTERCEPTOR(open, name, flags, mode);
- READ_STRING(thr, pc, name, 0);
- int fd = REAL(open)(name, flags, mode);
- if (fd >= 0)
- FdFileCreate(thr, pc, fd);
- return fd;
-}
-
-#if SANITIZER_LINUX
-TSAN_INTERCEPTOR(int, open64, const char *name, int flags, int mode) {
- SCOPED_TSAN_INTERCEPTOR(open64, name, flags, mode);
- READ_STRING(thr, pc, name, 0);
- int fd = REAL(open64)(name, flags, mode);
- if (fd >= 0)
- FdFileCreate(thr, pc, fd);
- return fd;
-}
-#define TSAN_MAYBE_INTERCEPT_OPEN64 TSAN_INTERCEPT(open64)
-#else
-#define TSAN_MAYBE_INTERCEPT_OPEN64
-#endif
-
-TSAN_INTERCEPTOR(int, creat, const char *name, int mode) {
- SCOPED_TSAN_INTERCEPTOR(creat, name, mode);
- READ_STRING(thr, pc, name, 0);
- int fd = REAL(creat)(name, mode);
- if (fd >= 0)
- FdFileCreate(thr, pc, fd);
- return fd;
-}
-
-#if SANITIZER_LINUX
-TSAN_INTERCEPTOR(int, creat64, const char *name, int mode) {
- SCOPED_TSAN_INTERCEPTOR(creat64, name, mode);
- READ_STRING(thr, pc, name, 0);
- int fd = REAL(creat64)(name, mode);
- if (fd >= 0)
- FdFileCreate(thr, pc, fd);
- return fd;
-}
-#define TSAN_MAYBE_INTERCEPT_CREAT64 TSAN_INTERCEPT(creat64)
-#else
-#define TSAN_MAYBE_INTERCEPT_CREAT64
-#endif
-
-TSAN_INTERCEPTOR(int, dup, int oldfd) {
- SCOPED_TSAN_INTERCEPTOR(dup, oldfd);
- int newfd = REAL(dup)(oldfd);
- if (oldfd >= 0 && newfd >= 0 && newfd != oldfd)
- FdDup(thr, pc, oldfd, newfd, true);
- return newfd;
-}
-
-TSAN_INTERCEPTOR(int, dup2, int oldfd, int newfd) {
- SCOPED_TSAN_INTERCEPTOR(dup2, oldfd, newfd);
- int newfd2 = REAL(dup2)(oldfd, newfd);
- if (oldfd >= 0 && newfd2 >= 0 && newfd2 != oldfd)
- FdDup(thr, pc, oldfd, newfd2, false);
- return newfd2;
-}
-
-#if !SANITIZER_MAC
-TSAN_INTERCEPTOR(int, dup3, int oldfd, int newfd, int flags) {
- SCOPED_TSAN_INTERCEPTOR(dup3, oldfd, newfd, flags);
- int newfd2 = REAL(dup3)(oldfd, newfd, flags);
- if (oldfd >= 0 && newfd2 >= 0 && newfd2 != oldfd)
- FdDup(thr, pc, oldfd, newfd2, false);
- return newfd2;
-}
-#endif
-
-#if SANITIZER_LINUX
-TSAN_INTERCEPTOR(int, eventfd, unsigned initval, int flags) {
- SCOPED_TSAN_INTERCEPTOR(eventfd, initval, flags);
- int fd = REAL(eventfd)(initval, flags);
- if (fd >= 0)
- FdEventCreate(thr, pc, fd);
- return fd;
-}
-#define TSAN_MAYBE_INTERCEPT_EVENTFD TSAN_INTERCEPT(eventfd)
-#else
-#define TSAN_MAYBE_INTERCEPT_EVENTFD
-#endif
-
-#if SANITIZER_LINUX
-TSAN_INTERCEPTOR(int, signalfd, int fd, void *mask, int flags) {
- SCOPED_TSAN_INTERCEPTOR(signalfd, fd, mask, flags);
- if (fd >= 0)
- FdClose(thr, pc, fd);
- fd = REAL(signalfd)(fd, mask, flags);
- if (fd >= 0)
- FdSignalCreate(thr, pc, fd);
- return fd;
-}
-#define TSAN_MAYBE_INTERCEPT_SIGNALFD TSAN_INTERCEPT(signalfd)
-#else
-#define TSAN_MAYBE_INTERCEPT_SIGNALFD
-#endif
-
-#if SANITIZER_LINUX
-TSAN_INTERCEPTOR(int, inotify_init, int fake) {
- SCOPED_TSAN_INTERCEPTOR(inotify_init, fake);
- int fd = REAL(inotify_init)(fake);
- if (fd >= 0)
- FdInotifyCreate(thr, pc, fd);
- return fd;
-}
-#define TSAN_MAYBE_INTERCEPT_INOTIFY_INIT TSAN_INTERCEPT(inotify_init)
-#else
-#define TSAN_MAYBE_INTERCEPT_INOTIFY_INIT
-#endif
-
-#if SANITIZER_LINUX
-TSAN_INTERCEPTOR(int, inotify_init1, int flags) {
- SCOPED_TSAN_INTERCEPTOR(inotify_init1, flags);
- int fd = REAL(inotify_init1)(flags);
- if (fd >= 0)
- FdInotifyCreate(thr, pc, fd);
- return fd;
-}
-#define TSAN_MAYBE_INTERCEPT_INOTIFY_INIT1 TSAN_INTERCEPT(inotify_init1)
-#else
-#define TSAN_MAYBE_INTERCEPT_INOTIFY_INIT1
-#endif
-
-TSAN_INTERCEPTOR(int, socket, int domain, int type, int protocol) {
- SCOPED_TSAN_INTERCEPTOR(socket, domain, type, protocol);
- int fd = REAL(socket)(domain, type, protocol);
- if (fd >= 0)
- FdSocketCreate(thr, pc, fd);
- return fd;
-}
-
-TSAN_INTERCEPTOR(int, socketpair, int domain, int type, int protocol, int *fd) {
- SCOPED_TSAN_INTERCEPTOR(socketpair, domain, type, protocol, fd);
- int res = REAL(socketpair)(domain, type, protocol, fd);
- if (res == 0 && fd[0] >= 0 && fd[1] >= 0)
- FdPipeCreate(thr, pc, fd[0], fd[1]);
- return res;
-}
-
-TSAN_INTERCEPTOR(int, connect, int fd, void *addr, unsigned addrlen) {
- SCOPED_TSAN_INTERCEPTOR(connect, fd, addr, addrlen);
- FdSocketConnecting(thr, pc, fd);
- int res = REAL(connect)(fd, addr, addrlen);
- if (res == 0 && fd >= 0)
- FdSocketConnect(thr, pc, fd);
- return res;
-}
-
-TSAN_INTERCEPTOR(int, bind, int fd, void *addr, unsigned addrlen) {
- SCOPED_TSAN_INTERCEPTOR(bind, fd, addr, addrlen);
- int res = REAL(bind)(fd, addr, addrlen);
- if (fd > 0 && res == 0)
- FdAccess(thr, pc, fd);
- return res;
-}
-
-TSAN_INTERCEPTOR(int, listen, int fd, int backlog) {
- SCOPED_TSAN_INTERCEPTOR(listen, fd, backlog);
- int res = REAL(listen)(fd, backlog);
- if (fd > 0 && res == 0)
- FdAccess(thr, pc, fd);
- return res;
-}
-
-TSAN_INTERCEPTOR(int, close, int fd) {
- SCOPED_TSAN_INTERCEPTOR(close, fd);
- if (fd >= 0)
- FdClose(thr, pc, fd);
- return REAL(close)(fd);
-}
-
-#if SANITIZER_LINUX
-TSAN_INTERCEPTOR(int, __close, int fd) {
- SCOPED_TSAN_INTERCEPTOR(__close, fd);
- if (fd >= 0)
- FdClose(thr, pc, fd);
- return REAL(__close)(fd);
-}
-#define TSAN_MAYBE_INTERCEPT___CLOSE TSAN_INTERCEPT(__close)
-#else
-#define TSAN_MAYBE_INTERCEPT___CLOSE
-#endif
-
-// glibc guts
-#if SANITIZER_LINUX && !SANITIZER_ANDROID
-TSAN_INTERCEPTOR(void, __res_iclose, void *state, bool free_addr) {
- SCOPED_TSAN_INTERCEPTOR(__res_iclose, state, free_addr);
- int fds[64];
- int cnt = ExtractResolvFDs(state, fds, ARRAY_SIZE(fds));
- for (int i = 0; i < cnt; i++) {
- if (fds[i] > 0)
- FdClose(thr, pc, fds[i]);
- }
- REAL(__res_iclose)(state, free_addr);
-}
-#define TSAN_MAYBE_INTERCEPT___RES_ICLOSE TSAN_INTERCEPT(__res_iclose)
-#else
-#define TSAN_MAYBE_INTERCEPT___RES_ICLOSE
-#endif
-
-TSAN_INTERCEPTOR(int, pipe, int *pipefd) {
- SCOPED_TSAN_INTERCEPTOR(pipe, pipefd);
- int res = REAL(pipe)(pipefd);
- if (res == 0 && pipefd[0] >= 0 && pipefd[1] >= 0)
- FdPipeCreate(thr, pc, pipefd[0], pipefd[1]);
- return res;
-}
-
-#if !SANITIZER_MAC
-TSAN_INTERCEPTOR(int, pipe2, int *pipefd, int flags) {
- SCOPED_TSAN_INTERCEPTOR(pipe2, pipefd, flags);
- int res = REAL(pipe2)(pipefd, flags);
- if (res == 0 && pipefd[0] >= 0 && pipefd[1] >= 0)
- FdPipeCreate(thr, pc, pipefd[0], pipefd[1]);
- return res;
-}
-#endif
-
-TSAN_INTERCEPTOR(int, unlink, char *path) {
- SCOPED_TSAN_INTERCEPTOR(unlink, path);
- Release(thr, pc, File2addr(path));
- int res = REAL(unlink)(path);
- return res;
-}
-
-TSAN_INTERCEPTOR(void*, tmpfile, int fake) {
- SCOPED_TSAN_INTERCEPTOR(tmpfile, fake);
- void *res = REAL(tmpfile)(fake);
- if (res) {
- int fd = fileno_unlocked(res);
- if (fd >= 0)
- FdFileCreate(thr, pc, fd);
- }
- return res;
-}
-
-#if SANITIZER_LINUX
-TSAN_INTERCEPTOR(void*, tmpfile64, int fake) {
- SCOPED_TSAN_INTERCEPTOR(tmpfile64, fake);
- void *res = REAL(tmpfile64)(fake);
- if (res) {
- int fd = fileno_unlocked(res);
- if (fd >= 0)
- FdFileCreate(thr, pc, fd);
- }
- return res;
-}
-#define TSAN_MAYBE_INTERCEPT_TMPFILE64 TSAN_INTERCEPT(tmpfile64)
-#else
-#define TSAN_MAYBE_INTERCEPT_TMPFILE64
-#endif
-
-static void FlushStreams() {
- // Flushing all the streams here may freeze the process if a child thread is
- // performing file stream operations at the same time.
- REAL(fflush)(stdout);
- REAL(fflush)(stderr);
-}
-
-TSAN_INTERCEPTOR(void, abort, int fake) {
- SCOPED_TSAN_INTERCEPTOR(abort, fake);
- FlushStreams();
- REAL(abort)(fake);
-}
-
-TSAN_INTERCEPTOR(int, rmdir, char *path) {
- SCOPED_TSAN_INTERCEPTOR(rmdir, path);
- Release(thr, pc, Dir2addr(path));
- int res = REAL(rmdir)(path);
- return res;
-}
-
-TSAN_INTERCEPTOR(int, closedir, void *dirp) {
- SCOPED_TSAN_INTERCEPTOR(closedir, dirp);
- if (dirp) {
- int fd = dirfd(dirp);
- FdClose(thr, pc, fd);
- }
- return REAL(closedir)(dirp);
-}
-
-#if SANITIZER_LINUX
-TSAN_INTERCEPTOR(int, epoll_create, int size) {
- SCOPED_TSAN_INTERCEPTOR(epoll_create, size);
- int fd = REAL(epoll_create)(size);
- if (fd >= 0)
- FdPollCreate(thr, pc, fd);
- return fd;
-}
-
-TSAN_INTERCEPTOR(int, epoll_create1, int flags) {
- SCOPED_TSAN_INTERCEPTOR(epoll_create1, flags);
- int fd = REAL(epoll_create1)(flags);
- if (fd >= 0)
- FdPollCreate(thr, pc, fd);
- return fd;
-}
-
-TSAN_INTERCEPTOR(int, epoll_ctl, int epfd, int op, int fd, void *ev) {
- SCOPED_TSAN_INTERCEPTOR(epoll_ctl, epfd, op, fd, ev);
- if (epfd >= 0)
- FdAccess(thr, pc, epfd);
- if (epfd >= 0 && fd >= 0)
- FdAccess(thr, pc, fd);
- if (op == EPOLL_CTL_ADD && epfd >= 0)
- FdRelease(thr, pc, epfd);
- int res = REAL(epoll_ctl)(epfd, op, fd, ev);
- return res;
-}
-
-TSAN_INTERCEPTOR(int, epoll_wait, int epfd, void *ev, int cnt, int timeout) {
- SCOPED_TSAN_INTERCEPTOR(epoll_wait, epfd, ev, cnt, timeout);
- if (epfd >= 0)
- FdAccess(thr, pc, epfd);
- int res = BLOCK_REAL(epoll_wait)(epfd, ev, cnt, timeout);
- if (res > 0 && epfd >= 0)
- FdAcquire(thr, pc, epfd);
- return res;
-}
-
-TSAN_INTERCEPTOR(int, epoll_pwait, int epfd, void *ev, int cnt, int timeout,
- void *sigmask) {
- SCOPED_TSAN_INTERCEPTOR(epoll_pwait, epfd, ev, cnt, timeout, sigmask);
- if (epfd >= 0)
- FdAccess(thr, pc, epfd);
- int res = BLOCK_REAL(epoll_pwait)(epfd, ev, cnt, timeout, sigmask);
- if (res > 0 && epfd >= 0)
- FdAcquire(thr, pc, epfd);
- return res;
-}
-
-#define TSAN_MAYBE_INTERCEPT_EPOLL \
- TSAN_INTERCEPT(epoll_create); \
- TSAN_INTERCEPT(epoll_create1); \
- TSAN_INTERCEPT(epoll_ctl); \
- TSAN_INTERCEPT(epoll_wait); \
- TSAN_INTERCEPT(epoll_pwait)
-#else
-#define TSAN_MAYBE_INTERCEPT_EPOLL
-#endif
-
-// The following functions are intercepted merely to process pending signals.
-// If program blocks signal X, we must deliver the signal before the function
-// returns. Similarly, if program unblocks a signal (or returns from sigsuspend)
-// it's better to deliver the signal straight away.
-TSAN_INTERCEPTOR(int, sigsuspend, const __sanitizer_sigset_t *mask) {
- SCOPED_TSAN_INTERCEPTOR(sigsuspend, mask);
- return REAL(sigsuspend)(mask);
-}
-
-TSAN_INTERCEPTOR(int, sigblock, int mask) {
- SCOPED_TSAN_INTERCEPTOR(sigblock, mask);
- return REAL(sigblock)(mask);
-}
-
-TSAN_INTERCEPTOR(int, sigsetmask, int mask) {
- SCOPED_TSAN_INTERCEPTOR(sigsetmask, mask);
- return REAL(sigsetmask)(mask);
-}
-
-TSAN_INTERCEPTOR(int, pthread_sigmask, int how, const __sanitizer_sigset_t *set,
- __sanitizer_sigset_t *oldset) {
- SCOPED_TSAN_INTERCEPTOR(pthread_sigmask, how, set, oldset);
- return REAL(pthread_sigmask)(how, set, oldset);
-}
-
-namespace __tsan {
-
-static void CallUserSignalHandler(ThreadState *thr, bool sync, bool acquire,
- bool sigact, int sig,
- __sanitizer_siginfo *info, void *uctx) {
- __sanitizer_sigaction *sigactions = interceptor_ctx()->sigactions;
- if (acquire)
- Acquire(thr, 0, (uptr)&sigactions[sig]);
- // Signals are generally asynchronous, so if we receive a signals when
- // ignores are enabled we should disable ignores. This is critical for sync
- // and interceptors, because otherwise we can miss syncronization and report
- // false races.
- int ignore_reads_and_writes = thr->ignore_reads_and_writes;
- int ignore_interceptors = thr->ignore_interceptors;
- int ignore_sync = thr->ignore_sync;
- if (!ctx->after_multithreaded_fork) {
- thr->ignore_reads_and_writes = 0;
- thr->fast_state.ClearIgnoreBit();
- thr->ignore_interceptors = 0;
- thr->ignore_sync = 0;
- }
- // Ensure that the handler does not spoil errno.
- const int saved_errno = errno;
- errno = 99;
- // This code races with sigaction. Be careful to not read sa_sigaction twice.
- // Also need to remember pc for reporting before the call,
- // because the handler can reset it.
- volatile uptr pc =
- sigact ? (uptr)sigactions[sig].sigaction : (uptr)sigactions[sig].handler;
- if (pc != sig_dfl && pc != sig_ign) {
- if (sigact)
- ((__sanitizer_sigactionhandler_ptr)pc)(sig, info, uctx);
- else
- ((__sanitizer_sighandler_ptr)pc)(sig);
- }
- if (!ctx->after_multithreaded_fork) {
- thr->ignore_reads_and_writes = ignore_reads_and_writes;
- if (ignore_reads_and_writes)
- thr->fast_state.SetIgnoreBit();
- thr->ignore_interceptors = ignore_interceptors;
- thr->ignore_sync = ignore_sync;
- }
- // We do not detect errno spoiling for SIGTERM,
- // because some SIGTERM handlers do spoil errno but reraise SIGTERM,
- // tsan reports false positive in such case.
- // It's difficult to properly detect this situation (reraise),
- // because in async signal processing case (when handler is called directly
- // from rtl_generic_sighandler) we have not yet received the reraised
- // signal; and it looks too fragile to intercept all ways to reraise a signal.
- if (flags()->report_bugs && !sync && sig != SIGTERM && errno != 99) {
- VarSizeStackTrace stack;
- // StackTrace::GetNestInstructionPc(pc) is used because return address is
- // expected, OutputReport() will undo this.
- ObtainCurrentStack(thr, StackTrace::GetNextInstructionPc(pc), &stack);
- ThreadRegistryLock l(ctx->thread_registry);
- ScopedReport rep(ReportTypeErrnoInSignal);
- if (!IsFiredSuppression(ctx, ReportTypeErrnoInSignal, stack)) {
- rep.AddStack(stack, true);
- OutputReport(thr, rep);
- }
- }
- errno = saved_errno;
-}
-
-void ProcessPendingSignals(ThreadState *thr) {
- ThreadSignalContext *sctx = SigCtx(thr);
- if (sctx == 0 ||
- atomic_load(&sctx->have_pending_signals, memory_order_relaxed) == 0)
- return;
- atomic_store(&sctx->have_pending_signals, 0, memory_order_relaxed);
- atomic_fetch_add(&thr->in_signal_handler, 1, memory_order_relaxed);
- internal_sigfillset(&sctx->emptyset);
- int res = REAL(pthread_sigmask)(SIG_SETMASK, &sctx->emptyset, &sctx->oldset);
- CHECK_EQ(res, 0);
- for (int sig = 0; sig < kSigCount; sig++) {
- SignalDesc *signal = &sctx->pending_signals[sig];
- if (signal->armed) {
- signal->armed = false;
- CallUserSignalHandler(thr, false, true, signal->sigaction, sig,
- &signal->siginfo, &signal->ctx);
- }
- }
- res = REAL(pthread_sigmask)(SIG_SETMASK, &sctx->oldset, 0);
- CHECK_EQ(res, 0);
- atomic_fetch_add(&thr->in_signal_handler, -1, memory_order_relaxed);
-}
-
-} // namespace __tsan
-
-static bool is_sync_signal(ThreadSignalContext *sctx, int sig) {
- return sig == SIGSEGV || sig == SIGBUS || sig == SIGILL ||
- sig == SIGABRT || sig == SIGFPE || sig == SIGPIPE || sig == SIGSYS ||
- // If we are sending signal to ourselves, we must process it now.
- (sctx && sig == sctx->int_signal_send);
-}
-
-void ALWAYS_INLINE rtl_generic_sighandler(bool sigact, int sig,
- __sanitizer_siginfo *info,
- void *ctx) {
- cur_thread_init();
- ThreadState *thr = cur_thread();
- ThreadSignalContext *sctx = SigCtx(thr);
- if (sig < 0 || sig >= kSigCount) {
- VPrintf(1, "ThreadSanitizer: ignoring signal %d\n", sig);
- return;
- }
- // Don't mess with synchronous signals.
- const bool sync = is_sync_signal(sctx, sig);
- if (sync ||
- // If we are in blocking function, we can safely process it now
- // (but check if we are in a recursive interceptor,
- // i.e. pthread_join()->munmap()).
- (sctx && atomic_load(&sctx->in_blocking_func, memory_order_relaxed))) {
- atomic_fetch_add(&thr->in_signal_handler, 1, memory_order_relaxed);
- if (sctx && atomic_load(&sctx->in_blocking_func, memory_order_relaxed)) {
- atomic_store(&sctx->in_blocking_func, 0, memory_order_relaxed);
- CallUserSignalHandler(thr, sync, true, sigact, sig, info, ctx);
- atomic_store(&sctx->in_blocking_func, 1, memory_order_relaxed);
- } else {
- // Be very conservative with when we do acquire in this case.
- // It's unsafe to do acquire in async handlers, because ThreadState
- // can be in inconsistent state.
- // SIGSYS looks relatively safe -- it's synchronous and can actually
- // need some global state.
- bool acq = (sig == SIGSYS);
- CallUserSignalHandler(thr, sync, acq, sigact, sig, info, ctx);
- }
- atomic_fetch_add(&thr->in_signal_handler, -1, memory_order_relaxed);
- return;
- }
-
- if (sctx == 0)
- return;
- SignalDesc *signal = &sctx->pending_signals[sig];
- if (signal->armed == false) {
- signal->armed = true;
- signal->sigaction = sigact;
- if (info)
- internal_memcpy(&signal->siginfo, info, sizeof(*info));
- if (ctx)
- internal_memcpy(&signal->ctx, ctx, sizeof(signal->ctx));
- atomic_store(&sctx->have_pending_signals, 1, memory_order_relaxed);
- }
-}
-
-static void rtl_sighandler(int sig) {
- rtl_generic_sighandler(false, sig, 0, 0);
-}
-
-static void rtl_sigaction(int sig, __sanitizer_siginfo *info, void *ctx) {
- rtl_generic_sighandler(true, sig, info, ctx);
-}
-
-TSAN_INTERCEPTOR(int, raise, int sig) {
- SCOPED_TSAN_INTERCEPTOR(raise, sig);
- ThreadSignalContext *sctx = SigCtx(thr);
- CHECK_NE(sctx, 0);
- int prev = sctx->int_signal_send;
- sctx->int_signal_send = sig;
- int res = REAL(raise)(sig);
- CHECK_EQ(sctx->int_signal_send, sig);
- sctx->int_signal_send = prev;
- return res;
-}
-
-TSAN_INTERCEPTOR(int, kill, int pid, int sig) {
- SCOPED_TSAN_INTERCEPTOR(kill, pid, sig);
- ThreadSignalContext *sctx = SigCtx(thr);
- CHECK_NE(sctx, 0);
- int prev = sctx->int_signal_send;
- if (pid == (int)internal_getpid()) {
- sctx->int_signal_send = sig;
- }
- int res = REAL(kill)(pid, sig);
- if (pid == (int)internal_getpid()) {
- CHECK_EQ(sctx->int_signal_send, sig);
- sctx->int_signal_send = prev;
- }
- return res;
-}
-
-TSAN_INTERCEPTOR(int, pthread_kill, void *tid, int sig) {
- SCOPED_TSAN_INTERCEPTOR(pthread_kill, tid, sig);
- ThreadSignalContext *sctx = SigCtx(thr);
- CHECK_NE(sctx, 0);
- int prev = sctx->int_signal_send;
- if (tid == pthread_self()) {
- sctx->int_signal_send = sig;
- }
- int res = REAL(pthread_kill)(tid, sig);
- if (tid == pthread_self()) {
- CHECK_EQ(sctx->int_signal_send, sig);
- sctx->int_signal_send = prev;
- }
- return res;
-}
-
-TSAN_INTERCEPTOR(int, gettimeofday, void *tv, void *tz) {
- SCOPED_TSAN_INTERCEPTOR(gettimeofday, tv, tz);
- // It's intercepted merely to process pending signals.
- return REAL(gettimeofday)(tv, tz);
-}
-
-TSAN_INTERCEPTOR(int, getaddrinfo, void *node, void *service,
- void *hints, void *rv) {
- SCOPED_TSAN_INTERCEPTOR(getaddrinfo, node, service, hints, rv);
- // We miss atomic synchronization in getaddrinfo,
- // and can report false race between malloc and free
- // inside of getaddrinfo. So ignore memory accesses.
- ThreadIgnoreBegin(thr, pc);
- int res = REAL(getaddrinfo)(node, service, hints, rv);
- ThreadIgnoreEnd(thr, pc);
- return res;
-}
-
-TSAN_INTERCEPTOR(int, fork, int fake) {
- if (in_symbolizer())
- return REAL(fork)(fake);
- SCOPED_INTERCEPTOR_RAW(fork, fake);
- ForkBefore(thr, pc);
- int pid;
- {
- // On OS X, REAL(fork) can call intercepted functions (OSSpinLockLock), and
- // we'll assert in CheckNoLocks() unless we ignore interceptors.
- ScopedIgnoreInterceptors ignore;
- pid = REAL(fork)(fake);
- }
- if (pid == 0) {
- // child
- ForkChildAfter(thr, pc);
- FdOnFork(thr, pc);
- } else if (pid > 0) {
- // parent
- ForkParentAfter(thr, pc);
- } else {
- // error
- ForkParentAfter(thr, pc);
- }
- return pid;
-}
-
-TSAN_INTERCEPTOR(int, vfork, int fake) {
- // Some programs (e.g. openjdk) call close for all file descriptors
- // in the child process. Under tsan it leads to false positives, because
- // address space is shared, so the parent process also thinks that
- // the descriptors are closed (while they are actually not).
- // This leads to false positives due to missed synchronization.
- // Strictly saying this is undefined behavior, because vfork child is not
- // allowed to call any functions other than exec/exit. But this is what
- // openjdk does, so we want to handle it.
- // We could disable interceptors in the child process. But it's not possible
- // to simply intercept and wrap vfork, because vfork child is not allowed
- // to return from the function that calls vfork, and that's exactly what
- // we would do. So this would require some assembly trickery as well.
- // Instead we simply turn vfork into fork.
- return WRAP(fork)(fake);
-}
-
-#if !SANITIZER_MAC && !SANITIZER_ANDROID
-typedef int (*dl_iterate_phdr_cb_t)(__sanitizer_dl_phdr_info *info, SIZE_T size,
- void *data);
-struct dl_iterate_phdr_data {
- ThreadState *thr;
- uptr pc;
- dl_iterate_phdr_cb_t cb;
- void *data;
-};
-
-static bool IsAppNotRodata(uptr addr) {
- return IsAppMem(addr) && *(u64*)MemToShadow(addr) != kShadowRodata;
-}
-
-static int dl_iterate_phdr_cb(__sanitizer_dl_phdr_info *info, SIZE_T size,
- void *data) {
- dl_iterate_phdr_data *cbdata = (dl_iterate_phdr_data *)data;
- // dlopen/dlclose allocate/free dynamic-linker-internal memory, which is later
- // accessible in dl_iterate_phdr callback. But we don't see synchronization
- // inside of dynamic linker, so we "unpoison" it here in order to not
- // produce false reports. Ignoring malloc/free in dlopen/dlclose is not enough
- // because some libc functions call __libc_dlopen.
- if (info && IsAppNotRodata((uptr)info->dlpi_name))
- MemoryResetRange(cbdata->thr, cbdata->pc, (uptr)info->dlpi_name,
- internal_strlen(info->dlpi_name));
- int res = cbdata->cb(info, size, cbdata->data);
- // Perform the check one more time in case info->dlpi_name was overwritten
- // by user callback.
- if (info && IsAppNotRodata((uptr)info->dlpi_name))
- MemoryResetRange(cbdata->thr, cbdata->pc, (uptr)info->dlpi_name,
- internal_strlen(info->dlpi_name));
- return res;
-}
-
-TSAN_INTERCEPTOR(int, dl_iterate_phdr, dl_iterate_phdr_cb_t cb, void *data) {
- SCOPED_TSAN_INTERCEPTOR(dl_iterate_phdr, cb, data);
- dl_iterate_phdr_data cbdata;
- cbdata.thr = thr;
- cbdata.pc = pc;
- cbdata.cb = cb;
- cbdata.data = data;
- int res = REAL(dl_iterate_phdr)(dl_iterate_phdr_cb, &cbdata);
- return res;
-}
-#endif
-
-static int OnExit(ThreadState *thr) {
- int status = Finalize(thr);
- FlushStreams();
- return status;
-}
-
-struct TsanInterceptorContext {
- ThreadState *thr;
- const uptr caller_pc;
- const uptr pc;
-};
-
-#if !SANITIZER_MAC
-static void HandleRecvmsg(ThreadState *thr, uptr pc,
- __sanitizer_msghdr *msg) {
- int fds[64];
- int cnt = ExtractRecvmsgFDs(msg, fds, ARRAY_SIZE(fds));
- for (int i = 0; i < cnt; i++)
- FdEventCreate(thr, pc, fds[i]);
-}
-#endif
-
-#include "sanitizer_common/sanitizer_platform_interceptors.h"
-// Causes interceptor recursion (getaddrinfo() and fopen())
-#undef SANITIZER_INTERCEPT_GETADDRINFO
-// We define our own.
-#if SANITIZER_INTERCEPT_TLS_GET_ADDR
-#define NEED_TLS_GET_ADDR
-#endif
-#undef SANITIZER_INTERCEPT_TLS_GET_ADDR
-#undef SANITIZER_INTERCEPT_PTHREAD_SIGMASK
-
-#define COMMON_INTERCEPT_FUNCTION(name) INTERCEPT_FUNCTION(name)
-#define COMMON_INTERCEPT_FUNCTION_VER(name, ver) \
- INTERCEPT_FUNCTION_VER(name, ver)
-
-#define COMMON_INTERCEPTOR_WRITE_RANGE(ctx, ptr, size) \
- MemoryAccessRange(((TsanInterceptorContext *)ctx)->thr, \
- ((TsanInterceptorContext *)ctx)->pc, (uptr)ptr, size, \
- true)
-
-#define COMMON_INTERCEPTOR_READ_RANGE(ctx, ptr, size) \
- MemoryAccessRange(((TsanInterceptorContext *) ctx)->thr, \
- ((TsanInterceptorContext *) ctx)->pc, (uptr) ptr, size, \
- false)
-
-#define COMMON_INTERCEPTOR_ENTER(ctx, func, ...) \
- SCOPED_TSAN_INTERCEPTOR(func, __VA_ARGS__); \
- TsanInterceptorContext _ctx = {thr, caller_pc, pc}; \
- ctx = (void *)&_ctx; \
- (void) ctx;
-
-#define COMMON_INTERCEPTOR_ENTER_NOIGNORE(ctx, func, ...) \
- SCOPED_INTERCEPTOR_RAW(func, __VA_ARGS__); \
- TsanInterceptorContext _ctx = {thr, caller_pc, pc}; \
- ctx = (void *)&_ctx; \
- (void) ctx;
-
-#define COMMON_INTERCEPTOR_FILE_OPEN(ctx, file, path) \
- if (path) \
- Acquire(thr, pc, File2addr(path)); \
- if (file) { \
- int fd = fileno_unlocked(file); \
- if (fd >= 0) FdFileCreate(thr, pc, fd); \
- }
-
-#define COMMON_INTERCEPTOR_FILE_CLOSE(ctx, file) \
- if (file) { \
- int fd = fileno_unlocked(file); \
- if (fd >= 0) FdClose(thr, pc, fd); \
- }
-
-#define COMMON_INTERCEPTOR_LIBRARY_LOADED(filename, handle) \
- libignore()->OnLibraryLoaded(filename)
-
-#define COMMON_INTERCEPTOR_LIBRARY_UNLOADED() \
- libignore()->OnLibraryUnloaded()
-
-#define COMMON_INTERCEPTOR_ACQUIRE(ctx, u) \
- Acquire(((TsanInterceptorContext *) ctx)->thr, pc, u)
-
-#define COMMON_INTERCEPTOR_RELEASE(ctx, u) \
- Release(((TsanInterceptorContext *) ctx)->thr, pc, u)
-
-#define COMMON_INTERCEPTOR_DIR_ACQUIRE(ctx, path) \
- Acquire(((TsanInterceptorContext *) ctx)->thr, pc, Dir2addr(path))
-
-#define COMMON_INTERCEPTOR_FD_ACQUIRE(ctx, fd) \
- FdAcquire(((TsanInterceptorContext *) ctx)->thr, pc, fd)
-
-#define COMMON_INTERCEPTOR_FD_RELEASE(ctx, fd) \
- FdRelease(((TsanInterceptorContext *) ctx)->thr, pc, fd)
-
-#define COMMON_INTERCEPTOR_FD_ACCESS(ctx, fd) \
- FdAccess(((TsanInterceptorContext *) ctx)->thr, pc, fd)
-
-#define COMMON_INTERCEPTOR_FD_SOCKET_ACCEPT(ctx, fd, newfd) \
- FdSocketAccept(((TsanInterceptorContext *) ctx)->thr, pc, fd, newfd)
-
-#define COMMON_INTERCEPTOR_SET_THREAD_NAME(ctx, name) \
- ThreadSetName(((TsanInterceptorContext *) ctx)->thr, name)
-
-#define COMMON_INTERCEPTOR_SET_PTHREAD_NAME(ctx, thread, name) \
- __tsan::ctx->thread_registry->SetThreadNameByUserId(thread, name)
-
-#define COMMON_INTERCEPTOR_BLOCK_REAL(name) BLOCK_REAL(name)
-
-#define COMMON_INTERCEPTOR_ON_EXIT(ctx) \
- OnExit(((TsanInterceptorContext *) ctx)->thr)
-
-#define COMMON_INTERCEPTOR_MUTEX_PRE_LOCK(ctx, m) \
- MutexPreLock(((TsanInterceptorContext *)ctx)->thr, \
- ((TsanInterceptorContext *)ctx)->pc, (uptr)m)
-
-#define COMMON_INTERCEPTOR_MUTEX_POST_LOCK(ctx, m) \
- MutexPostLock(((TsanInterceptorContext *)ctx)->thr, \
- ((TsanInterceptorContext *)ctx)->pc, (uptr)m)
-
-#define COMMON_INTERCEPTOR_MUTEX_UNLOCK(ctx, m) \
- MutexUnlock(((TsanInterceptorContext *)ctx)->thr, \
- ((TsanInterceptorContext *)ctx)->pc, (uptr)m)
-
-#define COMMON_INTERCEPTOR_MUTEX_REPAIR(ctx, m) \
- MutexRepair(((TsanInterceptorContext *)ctx)->thr, \
- ((TsanInterceptorContext *)ctx)->pc, (uptr)m)
-
-#define COMMON_INTERCEPTOR_MUTEX_INVALID(ctx, m) \
- MutexInvalidAccess(((TsanInterceptorContext *)ctx)->thr, \
- ((TsanInterceptorContext *)ctx)->pc, (uptr)m)
-
-#define COMMON_INTERCEPTOR_MMAP_IMPL(ctx, mmap, addr, sz, prot, flags, fd, \
- off) \
- do { \
- return mmap_interceptor(thr, pc, REAL(mmap), addr, sz, prot, flags, fd, \
- off); \
- } while (false)
-
-#if !SANITIZER_MAC
-#define COMMON_INTERCEPTOR_HANDLE_RECVMSG(ctx, msg) \
- HandleRecvmsg(((TsanInterceptorContext *)ctx)->thr, \
- ((TsanInterceptorContext *)ctx)->pc, msg)
-#endif
-
-#define COMMON_INTERCEPTOR_GET_TLS_RANGE(begin, end) \
- if (TsanThread *t = GetCurrentThread()) { \
- *begin = t->tls_begin(); \
- *end = t->tls_end(); \
- } else { \
- *begin = *end = 0; \
- }
-
-#define COMMON_INTERCEPTOR_USER_CALLBACK_START() \
- SCOPED_TSAN_INTERCEPTOR_USER_CALLBACK_START()
-
-#define COMMON_INTERCEPTOR_USER_CALLBACK_END() \
- SCOPED_TSAN_INTERCEPTOR_USER_CALLBACK_END()
-
-#include "sanitizer_common/sanitizer_common_interceptors.inc"
-
-static int sigaction_impl(int sig, const __sanitizer_sigaction *act,
- __sanitizer_sigaction *old);
-static __sanitizer_sighandler_ptr signal_impl(int sig,
- __sanitizer_sighandler_ptr h);
-
-#define SIGNAL_INTERCEPTOR_SIGACTION_IMPL(signo, act, oldact) \
- { return sigaction_impl(signo, act, oldact); }
-
-#define SIGNAL_INTERCEPTOR_SIGNAL_IMPL(func, signo, handler) \
- { return (uptr)signal_impl(signo, (__sanitizer_sighandler_ptr)handler); }
-
-#include "sanitizer_common/sanitizer_signal_interceptors.inc"
-
-int sigaction_impl(int sig, const __sanitizer_sigaction *act,
- __sanitizer_sigaction *old) {
- // Note: if we call REAL(sigaction) directly for any reason without proxying
- // the signal handler through rtl_sigaction, very bad things will happen.
- // The handler will run synchronously and corrupt tsan per-thread state.
- SCOPED_INTERCEPTOR_RAW(sigaction, sig, act, old);
- __sanitizer_sigaction *sigactions = interceptor_ctx()->sigactions;
- __sanitizer_sigaction old_stored;
- if (old) internal_memcpy(&old_stored, &sigactions[sig], sizeof(old_stored));
- __sanitizer_sigaction newact;
- if (act) {
- // Copy act into sigactions[sig].
- // Can't use struct copy, because compiler can emit call to memcpy.
- // Can't use internal_memcpy, because it copies byte-by-byte,
- // and signal handler reads the handler concurrently. It it can read
- // some bytes from old value and some bytes from new value.
- // Use volatile to prevent insertion of memcpy.
- sigactions[sig].handler =
- *(volatile __sanitizer_sighandler_ptr const *)&act->handler;
- sigactions[sig].sa_flags = *(volatile int const *)&act->sa_flags;
- internal_memcpy(&sigactions[sig].sa_mask, &act->sa_mask,
- sizeof(sigactions[sig].sa_mask));
-#if !SANITIZER_FREEBSD && !SANITIZER_MAC && !SANITIZER_NETBSD
- sigactions[sig].sa_restorer = act->sa_restorer;
-#endif
- internal_memcpy(&newact, act, sizeof(newact));
- internal_sigfillset(&newact.sa_mask);
- if ((uptr)act->handler != sig_ign && (uptr)act->handler != sig_dfl) {
- if (newact.sa_flags & SA_SIGINFO)
- newact.sigaction = rtl_sigaction;
- else
- newact.handler = rtl_sighandler;
- }
- ReleaseStore(thr, pc, (uptr)&sigactions[sig]);
- act = &newact;
- }
- int res = REAL(sigaction)(sig, act, old);
- if (res == 0 && old) {
- uptr cb = (uptr)old->sigaction;
- if (cb == (uptr)rtl_sigaction || cb == (uptr)rtl_sighandler) {
- internal_memcpy(old, &old_stored, sizeof(*old));
- }
- }
- return res;
-}
-
-static __sanitizer_sighandler_ptr signal_impl(int sig,
- __sanitizer_sighandler_ptr h) {
- __sanitizer_sigaction act;
- act.handler = h;
- internal_memset(&act.sa_mask, -1, sizeof(act.sa_mask));
- act.sa_flags = 0;
- __sanitizer_sigaction old;
- int res = sigaction_symname(sig, &act, &old);
- if (res) return (__sanitizer_sighandler_ptr)sig_err;
- return old.handler;
-}
-
-#define TSAN_SYSCALL() \
- ThreadState *thr = cur_thread(); \
- if (thr->ignore_interceptors) \
- return; \
- ScopedSyscall scoped_syscall(thr) \
-/**/
-
-struct ScopedSyscall {
- ThreadState *thr;
-
- explicit ScopedSyscall(ThreadState *thr)
- : thr(thr) {
- Initialize(thr);
- }
-
- ~ScopedSyscall() {
- ProcessPendingSignals(thr);
- }
-};
-
-#if !SANITIZER_FREEBSD && !SANITIZER_MAC
-static void syscall_access_range(uptr pc, uptr p, uptr s, bool write) {
- TSAN_SYSCALL();
- MemoryAccessRange(thr, pc, p, s, write);
-}
-
-static void syscall_acquire(uptr pc, uptr addr) {
- TSAN_SYSCALL();
- Acquire(thr, pc, addr);
- DPrintf("syscall_acquire(%p)\n", addr);
-}
-
-static void syscall_release(uptr pc, uptr addr) {
- TSAN_SYSCALL();
- DPrintf("syscall_release(%p)\n", addr);
- Release(thr, pc, addr);
-}
-
-static void syscall_fd_close(uptr pc, int fd) {
- TSAN_SYSCALL();
- FdClose(thr, pc, fd);
-}
-
-static USED void syscall_fd_acquire(uptr pc, int fd) {
- TSAN_SYSCALL();
- FdAcquire(thr, pc, fd);
- DPrintf("syscall_fd_acquire(%p)\n", fd);
-}
-
-static USED void syscall_fd_release(uptr pc, int fd) {
- TSAN_SYSCALL();
- DPrintf("syscall_fd_release(%p)\n", fd);
- FdRelease(thr, pc, fd);
-}
-
-static void syscall_pre_fork(uptr pc) {
- TSAN_SYSCALL();
- ForkBefore(thr, pc);
-}
-
-static void syscall_post_fork(uptr pc, int pid) {
- TSAN_SYSCALL();
- if (pid == 0) {
- // child
- ForkChildAfter(thr, pc);
- FdOnFork(thr, pc);
- } else if (pid > 0) {
- // parent
- ForkParentAfter(thr, pc);
- } else {
- // error
- ForkParentAfter(thr, pc);
- }
-}
-#endif
-
-#define COMMON_SYSCALL_PRE_READ_RANGE(p, s) \
- syscall_access_range(GET_CALLER_PC(), (uptr)(p), (uptr)(s), false)
-
-#define COMMON_SYSCALL_PRE_WRITE_RANGE(p, s) \
- syscall_access_range(GET_CALLER_PC(), (uptr)(p), (uptr)(s), true)
-
-#define COMMON_SYSCALL_POST_READ_RANGE(p, s) \
- do { \
- (void)(p); \
- (void)(s); \
- } while (false)
-
-#define COMMON_SYSCALL_POST_WRITE_RANGE(p, s) \
- do { \
- (void)(p); \
- (void)(s); \
- } while (false)
-
-#define COMMON_SYSCALL_ACQUIRE(addr) \
- syscall_acquire(GET_CALLER_PC(), (uptr)(addr))
-
-#define COMMON_SYSCALL_RELEASE(addr) \
- syscall_release(GET_CALLER_PC(), (uptr)(addr))
-
-#define COMMON_SYSCALL_FD_CLOSE(fd) syscall_fd_close(GET_CALLER_PC(), fd)
-
-#define COMMON_SYSCALL_FD_ACQUIRE(fd) syscall_fd_acquire(GET_CALLER_PC(), fd)
-
-#define COMMON_SYSCALL_FD_RELEASE(fd) syscall_fd_release(GET_CALLER_PC(), fd)
-
-#define COMMON_SYSCALL_PRE_FORK() \
- syscall_pre_fork(GET_CALLER_PC())
-
-#define COMMON_SYSCALL_POST_FORK(res) \
- syscall_post_fork(GET_CALLER_PC(), res)
-
-#include "sanitizer_common/sanitizer_common_syscalls.inc"
-#include "sanitizer_common/sanitizer_syscalls_netbsd.inc"
-
-#ifdef NEED_TLS_GET_ADDR
-// Define own interceptor instead of sanitizer_common's for three reasons:
-// 1. It must not process pending signals.
-// Signal handlers may contain MOVDQA instruction (see below).
-// 2. It must be as simple as possible to not contain MOVDQA.
-// 3. Sanitizer_common version uses COMMON_INTERCEPTOR_INITIALIZE_RANGE which
-// is empty for tsan (meant only for msan).
-// Note: __tls_get_addr can be called with mis-aligned stack due to:
-// https://gcc.gnu.org/bugzilla/show_bug.cgi?id=58066
-// So the interceptor must work with mis-aligned stack, in particular, does not
-// execute MOVDQA with stack addresses.
-TSAN_INTERCEPTOR(void *, __tls_get_addr, void *arg) {
- void *res = REAL(__tls_get_addr)(arg);
- ThreadState *thr = cur_thread();
- if (!thr)
- return res;
- DTLS::DTV *dtv = DTLS_on_tls_get_addr(arg, res, thr->tls_addr,
- thr->tls_addr + thr->tls_size);
- if (!dtv)
- return res;
- // New DTLS block has been allocated.
- MemoryResetRange(thr, 0, dtv->beg, dtv->size);
- return res;
-}
-#endif
-
-#if SANITIZER_NETBSD
-TSAN_INTERCEPTOR(void, _lwp_exit) {
- SCOPED_TSAN_INTERCEPTOR(_lwp_exit);
- DestroyThreadState();
- REAL(_lwp_exit)();
-}
-#define TSAN_MAYBE_INTERCEPT__LWP_EXIT TSAN_INTERCEPT(_lwp_exit)
-#else
-#define TSAN_MAYBE_INTERCEPT__LWP_EXIT
-#endif
-
-#if SANITIZER_FREEBSD
-TSAN_INTERCEPTOR(void, thr_exit, tid_t *state) {
- SCOPED_TSAN_INTERCEPTOR(thr_exit, state);
- DestroyThreadState();
- REAL(thr_exit(state));
-}
-#define TSAN_MAYBE_INTERCEPT_THR_EXIT TSAN_INTERCEPT(thr_exit)
-#else
-#define TSAN_MAYBE_INTERCEPT_THR_EXIT
-#endif
-
-TSAN_INTERCEPTOR_NETBSD_ALIAS(int, cond_init, void *c, void *a)
-TSAN_INTERCEPTOR_NETBSD_ALIAS(int, cond_signal, void *c)
-TSAN_INTERCEPTOR_NETBSD_ALIAS(int, cond_broadcast, void *c)
-TSAN_INTERCEPTOR_NETBSD_ALIAS(int, cond_wait, void *c, void *m)
-TSAN_INTERCEPTOR_NETBSD_ALIAS(int, cond_destroy, void *c)
-TSAN_INTERCEPTOR_NETBSD_ALIAS(int, mutex_init, void *m, void *a)
-TSAN_INTERCEPTOR_NETBSD_ALIAS(int, mutex_destroy, void *m)
-TSAN_INTERCEPTOR_NETBSD_ALIAS(int, mutex_trylock, void *m)
-TSAN_INTERCEPTOR_NETBSD_ALIAS(int, rwlock_init, void *m, void *a)
-TSAN_INTERCEPTOR_NETBSD_ALIAS(int, rwlock_destroy, void *m)
-TSAN_INTERCEPTOR_NETBSD_ALIAS(int, rwlock_rdlock, void *m)
-TSAN_INTERCEPTOR_NETBSD_ALIAS(int, rwlock_tryrdlock, void *m)
-TSAN_INTERCEPTOR_NETBSD_ALIAS(int, rwlock_wrlock, void *m)
-TSAN_INTERCEPTOR_NETBSD_ALIAS(int, rwlock_trywrlock, void *m)
-TSAN_INTERCEPTOR_NETBSD_ALIAS(int, rwlock_unlock, void *m)
-TSAN_INTERCEPTOR_NETBSD_ALIAS_THR(int, once, void *o, void (*f)())
-TSAN_INTERCEPTOR_NETBSD_ALIAS_THR2(int, sigsetmask, sigmask, int a, void *b,
- void *c)
-
-namespace __tsan {
-
-static void finalize(void *arg) {
- ThreadState *thr = cur_thread();
- int status = Finalize(thr);
- // Make sure the output is not lost.
- FlushStreams();
- if (status)
- Die();
-}
-
-#if !SANITIZER_MAC && !SANITIZER_ANDROID
-static void unreachable() {
- Report("FATAL: ThreadSanitizer: unreachable called\n");
- Die();
-}
-#endif
-
-// Define default implementation since interception of libdispatch is optional.
-SANITIZER_WEAK_ATTRIBUTE void InitializeLibdispatchInterceptors() {}
-
-void InitializeInterceptors() {
-#if !SANITIZER_MAC
- // We need to setup it early, because functions like dlsym() can call it.
- REAL(memset) = internal_memset;
- REAL(memcpy) = internal_memcpy;
-#endif
-
- // Instruct libc malloc to consume less memory.
-#if SANITIZER_LINUX
- mallopt(1, 0); // M_MXFAST
- mallopt(-3, 32*1024); // M_MMAP_THRESHOLD
-#endif
-
- new(interceptor_ctx()) InterceptorContext();
-
- InitializeCommonInterceptors();
- InitializeSignalInterceptors();
- InitializeLibdispatchInterceptors();
-
-#if !SANITIZER_MAC
- // We can not use TSAN_INTERCEPT to get setjmp addr,
- // because it does &setjmp and setjmp is not present in some versions of libc.
- using __interception::InterceptFunction;
- InterceptFunction(TSAN_STRING_SETJMP, (uptr*)&REAL(setjmp_symname), 0, 0);
- InterceptFunction("_setjmp", (uptr*)&REAL(_setjmp), 0, 0);
- InterceptFunction(TSAN_STRING_SIGSETJMP, (uptr*)&REAL(sigsetjmp_symname), 0,
- 0);
-#if !SANITIZER_NETBSD
- InterceptFunction("__sigsetjmp", (uptr*)&REAL(__sigsetjmp), 0, 0);
-#endif
-#endif
-
- TSAN_INTERCEPT(longjmp_symname);
- TSAN_INTERCEPT(siglongjmp_symname);
-#if SANITIZER_NETBSD
- TSAN_INTERCEPT(_longjmp);
-#endif
-
- TSAN_INTERCEPT(malloc);
- TSAN_INTERCEPT(__libc_memalign);
- TSAN_INTERCEPT(calloc);
- TSAN_INTERCEPT(realloc);
- TSAN_INTERCEPT(reallocarray);
- TSAN_INTERCEPT(free);
- TSAN_INTERCEPT(cfree);
- TSAN_INTERCEPT(munmap);
- TSAN_MAYBE_INTERCEPT_MEMALIGN;
- TSAN_INTERCEPT(valloc);
- TSAN_MAYBE_INTERCEPT_PVALLOC;
- TSAN_INTERCEPT(posix_memalign);
-
- TSAN_INTERCEPT(strcpy);
- TSAN_INTERCEPT(strncpy);
- TSAN_INTERCEPT(strdup);
-
- TSAN_INTERCEPT(pthread_create);
- TSAN_INTERCEPT(pthread_join);
- TSAN_INTERCEPT(pthread_detach);
- TSAN_INTERCEPT(pthread_exit);
- #if SANITIZER_LINUX
- TSAN_INTERCEPT(pthread_tryjoin_np);
- TSAN_INTERCEPT(pthread_timedjoin_np);
- #endif
-
- TSAN_INTERCEPT_VER(pthread_cond_init, PTHREAD_ABI_BASE);
- TSAN_INTERCEPT_VER(pthread_cond_signal, PTHREAD_ABI_BASE);
- TSAN_INTERCEPT_VER(pthread_cond_broadcast, PTHREAD_ABI_BASE);
- TSAN_INTERCEPT_VER(pthread_cond_wait, PTHREAD_ABI_BASE);
- TSAN_INTERCEPT_VER(pthread_cond_timedwait, PTHREAD_ABI_BASE);
- TSAN_INTERCEPT_VER(pthread_cond_destroy, PTHREAD_ABI_BASE);
-
- TSAN_INTERCEPT(pthread_mutex_init);
- TSAN_INTERCEPT(pthread_mutex_destroy);
- TSAN_INTERCEPT(pthread_mutex_trylock);
- TSAN_INTERCEPT(pthread_mutex_timedlock);
-
- TSAN_INTERCEPT(pthread_spin_init);
- TSAN_INTERCEPT(pthread_spin_destroy);
- TSAN_INTERCEPT(pthread_spin_lock);
- TSAN_INTERCEPT(pthread_spin_trylock);
- TSAN_INTERCEPT(pthread_spin_unlock);
-
- TSAN_INTERCEPT(pthread_rwlock_init);
- TSAN_INTERCEPT(pthread_rwlock_destroy);
- TSAN_INTERCEPT(pthread_rwlock_rdlock);
- TSAN_INTERCEPT(pthread_rwlock_tryrdlock);
- TSAN_INTERCEPT(pthread_rwlock_timedrdlock);
- TSAN_INTERCEPT(pthread_rwlock_wrlock);
- TSAN_INTERCEPT(pthread_rwlock_trywrlock);
- TSAN_INTERCEPT(pthread_rwlock_timedwrlock);
- TSAN_INTERCEPT(pthread_rwlock_unlock);
-
- TSAN_INTERCEPT(pthread_barrier_init);
- TSAN_INTERCEPT(pthread_barrier_destroy);
- TSAN_INTERCEPT(pthread_barrier_wait);
-
- TSAN_INTERCEPT(pthread_once);
-
- TSAN_INTERCEPT(fstat);
- TSAN_MAYBE_INTERCEPT___FXSTAT;
- TSAN_MAYBE_INTERCEPT_FSTAT64;
- TSAN_MAYBE_INTERCEPT___FXSTAT64;
- TSAN_INTERCEPT(open);
- TSAN_MAYBE_INTERCEPT_OPEN64;
- TSAN_INTERCEPT(creat);
- TSAN_MAYBE_INTERCEPT_CREAT64;
- TSAN_INTERCEPT(dup);
- TSAN_INTERCEPT(dup2);
- TSAN_INTERCEPT(dup3);
- TSAN_MAYBE_INTERCEPT_EVENTFD;
- TSAN_MAYBE_INTERCEPT_SIGNALFD;
- TSAN_MAYBE_INTERCEPT_INOTIFY_INIT;
- TSAN_MAYBE_INTERCEPT_INOTIFY_INIT1;
- TSAN_INTERCEPT(socket);
- TSAN_INTERCEPT(socketpair);
- TSAN_INTERCEPT(connect);
- TSAN_INTERCEPT(bind);
- TSAN_INTERCEPT(listen);
- TSAN_MAYBE_INTERCEPT_EPOLL;
- TSAN_INTERCEPT(close);
- TSAN_MAYBE_INTERCEPT___CLOSE;
- TSAN_MAYBE_INTERCEPT___RES_ICLOSE;
- TSAN_INTERCEPT(pipe);
- TSAN_INTERCEPT(pipe2);
-
- TSAN_INTERCEPT(unlink);
- TSAN_INTERCEPT(tmpfile);
- TSAN_MAYBE_INTERCEPT_TMPFILE64;
- TSAN_INTERCEPT(abort);
- TSAN_INTERCEPT(rmdir);
- TSAN_INTERCEPT(closedir);
-
- TSAN_INTERCEPT(sigsuspend);
- TSAN_INTERCEPT(sigblock);
- TSAN_INTERCEPT(sigsetmask);
- TSAN_INTERCEPT(pthread_sigmask);
- TSAN_INTERCEPT(raise);
- TSAN_INTERCEPT(kill);
- TSAN_INTERCEPT(pthread_kill);
- TSAN_INTERCEPT(sleep);
- TSAN_INTERCEPT(usleep);
- TSAN_INTERCEPT(nanosleep);
- TSAN_INTERCEPT(pause);
- TSAN_INTERCEPT(gettimeofday);
- TSAN_INTERCEPT(getaddrinfo);
-
- TSAN_INTERCEPT(fork);
- TSAN_INTERCEPT(vfork);
-#if !SANITIZER_ANDROID
- TSAN_INTERCEPT(dl_iterate_phdr);
-#endif
- TSAN_MAYBE_INTERCEPT_ON_EXIT;
- TSAN_INTERCEPT(__cxa_atexit);
- TSAN_INTERCEPT(_exit);
-
-#ifdef NEED_TLS_GET_ADDR
- TSAN_INTERCEPT(__tls_get_addr);
-#endif
-
- TSAN_MAYBE_INTERCEPT__LWP_EXIT;
- TSAN_MAYBE_INTERCEPT_THR_EXIT;
-
-#if !SANITIZER_MAC && !SANITIZER_ANDROID
- // Need to setup it, because interceptors check that the function is resolved.
- // But atexit is emitted directly into the module, so can't be resolved.
- REAL(atexit) = (int(*)(void(*)()))unreachable;
-#endif
-
- if (REAL(__cxa_atexit)(&finalize, 0, 0)) {
- Printf("ThreadSanitizer: failed to setup atexit callback\n");
- Die();
- }
-
-#if !SANITIZER_MAC && !SANITIZER_NETBSD && !SANITIZER_FREEBSD
- if (pthread_key_create(&interceptor_ctx()->finalize_key, &thread_finalize)) {
- Printf("ThreadSanitizer: failed to create thread key\n");
- Die();
- }
-#endif
-
- TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(cond_init);
- TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(cond_signal);
- TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(cond_broadcast);
- TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(cond_wait);
- TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(cond_destroy);
- TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(mutex_init);
- TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(mutex_destroy);
- TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(mutex_trylock);
- TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(rwlock_init);
- TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(rwlock_destroy);
- TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(rwlock_rdlock);
- TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(rwlock_tryrdlock);
- TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(rwlock_wrlock);
- TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(rwlock_trywrlock);
- TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(rwlock_unlock);
- TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS_THR(once);
- TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS_THR(sigsetmask);
-
- FdInit();
-}
-
-} // namespace __tsan
-
-// Invisible barrier for tests.
-// There were several unsuccessful iterations for this functionality:
-// 1. Initially it was implemented in user code using
-// REAL(pthread_barrier_wait). But pthread_barrier_wait is not supported on
-// MacOS. Futexes are linux-specific for this matter.
-// 2. Then we switched to atomics+usleep(10). But usleep produced parasitic
-// "as-if synchronized via sleep" messages in reports which failed some
-// output tests.
-// 3. Then we switched to atomics+sched_yield. But this produced tons of tsan-
-// visible events, which lead to "failed to restore stack trace" failures.
-// Note that no_sanitize_thread attribute does not turn off atomic interception
-// so attaching it to the function defined in user code does not help.
-// That's why we now have what we have.
-extern "C" SANITIZER_INTERFACE_ATTRIBUTE
-void __tsan_testonly_barrier_init(u64 *barrier, u32 count) {
- if (count >= (1 << 8)) {
- Printf("barrier_init: count is too large (%d)\n", count);
- Die();
- }
- // 8 lsb is thread count, the remaining are count of entered threads.
- *barrier = count;
-}
-
-extern "C" SANITIZER_INTERFACE_ATTRIBUTE
-void __tsan_testonly_barrier_wait(u64 *barrier) {
- unsigned old = __atomic_fetch_add(barrier, 1 << 8, __ATOMIC_RELAXED);
- unsigned old_epoch = (old >> 8) / (old & 0xff);
- for (;;) {
- unsigned cur = __atomic_load_n(barrier, __ATOMIC_RELAXED);
- unsigned cur_epoch = (cur >> 8) / (cur & 0xff);
- if (cur_epoch != old_epoch)
- return;
- internal_sched_yield();
- }
-}
Added: compiler-rt/trunk/lib/tsan/rtl/tsan_interceptors_posix.cpp
URL: http://llvm.org/viewvc/llvm-project/compiler-rt/trunk/lib/tsan/rtl/tsan_interceptors_posix.cpp?rev=373282&view=auto
==============================================================================
--- compiler-rt/trunk/lib/tsan/rtl/tsan_interceptors_posix.cpp (added)
+++ compiler-rt/trunk/lib/tsan/rtl/tsan_interceptors_posix.cpp Mon Sep 30 17:58:26 2019
@@ -0,0 +1,2849 @@
+//===-- tsan_interceptors_posix.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.
+//
+// FIXME: move as many interceptors as possible into
+// sanitizer_common/sanitizer_common_interceptors.inc
+//===----------------------------------------------------------------------===//
+
+#include "sanitizer_common/sanitizer_atomic.h"
+#include "sanitizer_common/sanitizer_errno.h"
+#include "sanitizer_common/sanitizer_libc.h"
+#include "sanitizer_common/sanitizer_linux.h"
+#include "sanitizer_common/sanitizer_platform_limits_netbsd.h"
+#include "sanitizer_common/sanitizer_platform_limits_posix.h"
+#include "sanitizer_common/sanitizer_placement_new.h"
+#include "sanitizer_common/sanitizer_posix.h"
+#include "sanitizer_common/sanitizer_stacktrace.h"
+#include "sanitizer_common/sanitizer_tls_get_addr.h"
+#include "interception/interception.h"
+#include "tsan_interceptors.h"
+#include "tsan_interface.h"
+#include "tsan_platform.h"
+#include "tsan_suppressions.h"
+#include "tsan_rtl.h"
+#include "tsan_mman.h"
+#include "tsan_fd.h"
+
+using namespace __tsan;
+
+#if SANITIZER_FREEBSD || SANITIZER_MAC
+#define stdout __stdoutp
+#define stderr __stderrp
+#endif
+
+#if SANITIZER_NETBSD
+#define dirfd(dirp) (*(int *)(dirp))
+#define fileno_unlocked(fp) \
+ (((__sanitizer_FILE *)fp)->_file == -1 \
+ ? -1 \
+ : (int)(unsigned short)(((__sanitizer_FILE *)fp)->_file))
+
+#define stdout ((__sanitizer_FILE*)&__sF[1])
+#define stderr ((__sanitizer_FILE*)&__sF[2])
+
+#define nanosleep __nanosleep50
+#define vfork __vfork14
+#endif
+
+#if SANITIZER_ANDROID
+#define mallopt(a, b)
+#endif
+
+#ifdef __mips__
+const int kSigCount = 129;
+#else
+const int kSigCount = 65;
+#endif
+
+#ifdef __mips__
+struct ucontext_t {
+ u64 opaque[768 / sizeof(u64) + 1];
+};
+#else
+struct ucontext_t {
+ // The size is determined by looking at sizeof of real ucontext_t on linux.
+ u64 opaque[936 / sizeof(u64) + 1];
+};
+#endif
+
+#if defined(__x86_64__) || defined(__mips__) || SANITIZER_PPC64V1
+#define PTHREAD_ABI_BASE "GLIBC_2.3.2"
+#elif defined(__aarch64__) || SANITIZER_PPC64V2
+#define PTHREAD_ABI_BASE "GLIBC_2.17"
+#endif
+
+extern "C" int pthread_attr_init(void *attr);
+extern "C" int pthread_attr_destroy(void *attr);
+DECLARE_REAL(int, pthread_attr_getdetachstate, void *, void *)
+extern "C" int pthread_attr_setstacksize(void *attr, uptr stacksize);
+extern "C" int pthread_key_create(unsigned *key, void (*destructor)(void* v));
+extern "C" int pthread_setspecific(unsigned key, const void *v);
+DECLARE_REAL(int, pthread_mutexattr_gettype, void *, void *)
+DECLARE_REAL(int, fflush, __sanitizer_FILE *fp)
+DECLARE_REAL_AND_INTERCEPTOR(void *, malloc, uptr size)
+DECLARE_REAL_AND_INTERCEPTOR(void, free, void *ptr)
+extern "C" void *pthread_self();
+extern "C" void _exit(int status);
+#if !SANITIZER_NETBSD
+extern "C" int fileno_unlocked(void *stream);
+extern "C" int dirfd(void *dirp);
+#endif
+#if !SANITIZER_FREEBSD && !SANITIZER_ANDROID && !SANITIZER_NETBSD
+extern "C" int mallopt(int param, int value);
+#endif
+#if SANITIZER_NETBSD
+extern __sanitizer_FILE __sF[];
+#else
+extern __sanitizer_FILE *stdout, *stderr;
+#endif
+#if !SANITIZER_FREEBSD && !SANITIZER_MAC && !SANITIZER_NETBSD
+const int PTHREAD_MUTEX_RECURSIVE = 1;
+const int PTHREAD_MUTEX_RECURSIVE_NP = 1;
+#else
+const int PTHREAD_MUTEX_RECURSIVE = 2;
+const int PTHREAD_MUTEX_RECURSIVE_NP = 2;
+#endif
+#if !SANITIZER_FREEBSD && !SANITIZER_MAC && !SANITIZER_NETBSD
+const int EPOLL_CTL_ADD = 1;
+#endif
+const int SIGILL = 4;
+const int SIGABRT = 6;
+const int SIGFPE = 8;
+const int SIGSEGV = 11;
+const int SIGPIPE = 13;
+const int SIGTERM = 15;
+#if defined(__mips__) || SANITIZER_FREEBSD || SANITIZER_MAC || SANITIZER_NETBSD
+const int SIGBUS = 10;
+const int SIGSYS = 12;
+#else
+const int SIGBUS = 7;
+const int SIGSYS = 31;
+#endif
+void *const MAP_FAILED = (void*)-1;
+#if SANITIZER_NETBSD
+const int PTHREAD_BARRIER_SERIAL_THREAD = 1234567;
+#elif !SANITIZER_MAC
+const int PTHREAD_BARRIER_SERIAL_THREAD = -1;
+#endif
+const int MAP_FIXED = 0x10;
+typedef long long_t;
+
+// From /usr/include/unistd.h
+# define F_ULOCK 0 /* Unlock a previously locked region. */
+# define F_LOCK 1 /* Lock a region for exclusive use. */
+# define F_TLOCK 2 /* Test and lock a region for exclusive use. */
+# define F_TEST 3 /* Test a region for other processes locks. */
+
+#if SANITIZER_FREEBSD || SANITIZER_MAC || SANITIZER_NETBSD
+const int SA_SIGINFO = 0x40;
+const int SIG_SETMASK = 3;
+#elif defined(__mips__)
+const int SA_SIGINFO = 8;
+const int SIG_SETMASK = 3;
+#else
+const int SA_SIGINFO = 4;
+const int SIG_SETMASK = 2;
+#endif
+
+#define COMMON_INTERCEPTOR_NOTHING_IS_INITIALIZED \
+ (cur_thread_init(), !cur_thread()->is_inited)
+
+namespace __tsan {
+struct SignalDesc {
+ bool armed;
+ bool sigaction;
+ __sanitizer_siginfo siginfo;
+ ucontext_t ctx;
+};
+
+struct ThreadSignalContext {
+ int int_signal_send;
+ atomic_uintptr_t in_blocking_func;
+ atomic_uintptr_t have_pending_signals;
+ SignalDesc pending_signals[kSigCount];
+ // emptyset and oldset are too big for stack.
+ __sanitizer_sigset_t emptyset;
+ __sanitizer_sigset_t oldset;
+};
+
+// The sole reason tsan wraps atexit callbacks is to establish synchronization
+// between callback setup and callback execution.
+struct AtExitCtx {
+ void (*f)();
+ void *arg;
+};
+
+// InterceptorContext holds all global data required for interceptors.
+// It's explicitly constructed in InitializeInterceptors with placement new
+// and is never destroyed. This allows usage of members with non-trivial
+// constructors and destructors.
+struct InterceptorContext {
+ // The object is 64-byte aligned, because we want hot data to be located
+ // in a single cache line if possible (it's accessed in every interceptor).
+ ALIGNED(64) LibIgnore libignore;
+ __sanitizer_sigaction sigactions[kSigCount];
+#if !SANITIZER_MAC && !SANITIZER_NETBSD
+ unsigned finalize_key;
+#endif
+
+ BlockingMutex atexit_mu;
+ Vector<struct AtExitCtx *> AtExitStack;
+
+ InterceptorContext()
+ : libignore(LINKER_INITIALIZED), AtExitStack() {
+ }
+};
+
+static ALIGNED(64) char interceptor_placeholder[sizeof(InterceptorContext)];
+InterceptorContext *interceptor_ctx() {
+ return reinterpret_cast<InterceptorContext*>(&interceptor_placeholder[0]);
+}
+
+LibIgnore *libignore() {
+ return &interceptor_ctx()->libignore;
+}
+
+void InitializeLibIgnore() {
+ const SuppressionContext &supp = *Suppressions();
+ const uptr n = supp.SuppressionCount();
+ for (uptr i = 0; i < n; i++) {
+ const Suppression *s = supp.SuppressionAt(i);
+ if (0 == internal_strcmp(s->type, kSuppressionLib))
+ libignore()->AddIgnoredLibrary(s->templ);
+ }
+ if (flags()->ignore_noninstrumented_modules)
+ libignore()->IgnoreNoninstrumentedModules(true);
+ libignore()->OnLibraryLoaded(0);
+}
+
+// The following two hooks can be used by for cooperative scheduling when
+// locking.
+#ifdef TSAN_EXTERNAL_HOOKS
+void OnPotentiallyBlockingRegionBegin();
+void OnPotentiallyBlockingRegionEnd();
+#else
+SANITIZER_WEAK_CXX_DEFAULT_IMPL void OnPotentiallyBlockingRegionBegin() {}
+SANITIZER_WEAK_CXX_DEFAULT_IMPL void OnPotentiallyBlockingRegionEnd() {}
+#endif
+
+} // namespace __tsan
+
+static ThreadSignalContext *SigCtx(ThreadState *thr) {
+ ThreadSignalContext *ctx = (ThreadSignalContext*)thr->signal_ctx;
+ if (ctx == 0 && !thr->is_dead) {
+ ctx = (ThreadSignalContext*)MmapOrDie(sizeof(*ctx), "ThreadSignalContext");
+ MemoryResetRange(thr, (uptr)&SigCtx, (uptr)ctx, sizeof(*ctx));
+ thr->signal_ctx = ctx;
+ }
+ return ctx;
+}
+
+ScopedInterceptor::ScopedInterceptor(ThreadState *thr, const char *fname,
+ uptr pc)
+ : thr_(thr), pc_(pc), in_ignored_lib_(false), ignoring_(false) {
+ Initialize(thr);
+ if (!thr_->is_inited) return;
+ if (!thr_->ignore_interceptors) FuncEntry(thr, pc);
+ DPrintf("#%d: intercept %s()\n", thr_->tid, fname);
+ ignoring_ =
+ !thr_->in_ignored_lib && libignore()->IsIgnored(pc, &in_ignored_lib_);
+ EnableIgnores();
+}
+
+ScopedInterceptor::~ScopedInterceptor() {
+ if (!thr_->is_inited) return;
+ DisableIgnores();
+ if (!thr_->ignore_interceptors) {
+ ProcessPendingSignals(thr_);
+ FuncExit(thr_);
+ CheckNoLocks(thr_);
+ }
+}
+
+void ScopedInterceptor::EnableIgnores() {
+ if (ignoring_) {
+ ThreadIgnoreBegin(thr_, pc_, /*save_stack=*/false);
+ if (flags()->ignore_noninstrumented_modules) thr_->suppress_reports++;
+ if (in_ignored_lib_) {
+ DCHECK(!thr_->in_ignored_lib);
+ thr_->in_ignored_lib = true;
+ }
+ }
+}
+
+void ScopedInterceptor::DisableIgnores() {
+ if (ignoring_) {
+ ThreadIgnoreEnd(thr_, pc_);
+ if (flags()->ignore_noninstrumented_modules) thr_->suppress_reports--;
+ if (in_ignored_lib_) {
+ DCHECK(thr_->in_ignored_lib);
+ thr_->in_ignored_lib = false;
+ }
+ }
+}
+
+#define TSAN_INTERCEPT(func) INTERCEPT_FUNCTION(func)
+#if SANITIZER_FREEBSD
+# define TSAN_INTERCEPT_VER(func, ver) INTERCEPT_FUNCTION(func)
+# define TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(func)
+# define TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS_THR(func)
+#elif SANITIZER_NETBSD
+# define TSAN_INTERCEPT_VER(func, ver) INTERCEPT_FUNCTION(func)
+# define TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(func) \
+ INTERCEPT_FUNCTION(__libc_##func)
+# define TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS_THR(func) \
+ INTERCEPT_FUNCTION(__libc_thr_##func)
+#else
+# define TSAN_INTERCEPT_VER(func, ver) INTERCEPT_FUNCTION_VER(func, ver)
+# define TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(func)
+# define TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS_THR(func)
+#endif
+
+#define READ_STRING_OF_LEN(thr, pc, s, len, n) \
+ MemoryAccessRange((thr), (pc), (uptr)(s), \
+ common_flags()->strict_string_checks ? (len) + 1 : (n), false)
+
+#define READ_STRING(thr, pc, s, n) \
+ READ_STRING_OF_LEN((thr), (pc), (s), internal_strlen(s), (n))
+
+#define BLOCK_REAL(name) (BlockingCall(thr), REAL(name))
+
+struct BlockingCall {
+ explicit BlockingCall(ThreadState *thr)
+ : thr(thr)
+ , ctx(SigCtx(thr)) {
+ for (;;) {
+ atomic_store(&ctx->in_blocking_func, 1, memory_order_relaxed);
+ if (atomic_load(&ctx->have_pending_signals, memory_order_relaxed) == 0)
+ break;
+ atomic_store(&ctx->in_blocking_func, 0, memory_order_relaxed);
+ ProcessPendingSignals(thr);
+ }
+ // When we are in a "blocking call", we process signals asynchronously
+ // (right when they arrive). In this context we do not expect to be
+ // executing any user/runtime code. The known interceptor sequence when
+ // this is not true is: pthread_join -> munmap(stack). It's fine
+ // to ignore munmap in this case -- we handle stack shadow separately.
+ thr->ignore_interceptors++;
+ }
+
+ ~BlockingCall() {
+ thr->ignore_interceptors--;
+ atomic_store(&ctx->in_blocking_func, 0, memory_order_relaxed);
+ }
+
+ ThreadState *thr;
+ ThreadSignalContext *ctx;
+};
+
+TSAN_INTERCEPTOR(unsigned, sleep, unsigned sec) {
+ SCOPED_TSAN_INTERCEPTOR(sleep, sec);
+ unsigned res = BLOCK_REAL(sleep)(sec);
+ AfterSleep(thr, pc);
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, usleep, long_t usec) {
+ SCOPED_TSAN_INTERCEPTOR(usleep, usec);
+ int res = BLOCK_REAL(usleep)(usec);
+ AfterSleep(thr, pc);
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, nanosleep, void *req, void *rem) {
+ SCOPED_TSAN_INTERCEPTOR(nanosleep, req, rem);
+ int res = BLOCK_REAL(nanosleep)(req, rem);
+ AfterSleep(thr, pc);
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, pause, int fake) {
+ SCOPED_TSAN_INTERCEPTOR(pause, fake);
+ return BLOCK_REAL(pause)(fake);
+}
+
+static void at_exit_wrapper() {
+ AtExitCtx *ctx;
+ {
+ // Ensure thread-safety.
+ BlockingMutexLock l(&interceptor_ctx()->atexit_mu);
+
+ // Pop AtExitCtx from the top of the stack of callback functions
+ uptr element = interceptor_ctx()->AtExitStack.Size() - 1;
+ ctx = interceptor_ctx()->AtExitStack[element];
+ interceptor_ctx()->AtExitStack.PopBack();
+ }
+
+ Acquire(cur_thread(), (uptr)0, (uptr)ctx);
+ ((void(*)())ctx->f)();
+ InternalFree(ctx);
+}
+
+static void cxa_at_exit_wrapper(void *arg) {
+ Acquire(cur_thread(), 0, (uptr)arg);
+ AtExitCtx *ctx = (AtExitCtx*)arg;
+ ((void(*)(void *arg))ctx->f)(ctx->arg);
+ InternalFree(ctx);
+}
+
+static int setup_at_exit_wrapper(ThreadState *thr, uptr pc, void(*f)(),
+ void *arg, void *dso);
+
+#if !SANITIZER_ANDROID
+TSAN_INTERCEPTOR(int, atexit, void (*f)()) {
+ if (in_symbolizer())
+ return 0;
+ // We want to setup the atexit callback even if we are in ignored lib
+ // or after fork.
+ SCOPED_INTERCEPTOR_RAW(atexit, f);
+ return setup_at_exit_wrapper(thr, pc, (void(*)())f, 0, 0);
+}
+#endif
+
+TSAN_INTERCEPTOR(int, __cxa_atexit, void (*f)(void *a), void *arg, void *dso) {
+ if (in_symbolizer())
+ return 0;
+ SCOPED_TSAN_INTERCEPTOR(__cxa_atexit, f, arg, dso);
+ return setup_at_exit_wrapper(thr, pc, (void(*)())f, arg, dso);
+}
+
+static int setup_at_exit_wrapper(ThreadState *thr, uptr pc, void(*f)(),
+ void *arg, void *dso) {
+ AtExitCtx *ctx = (AtExitCtx*)InternalAlloc(sizeof(AtExitCtx));
+ ctx->f = f;
+ ctx->arg = arg;
+ Release(thr, pc, (uptr)ctx);
+ // Memory allocation in __cxa_atexit will race with free during exit,
+ // because we do not see synchronization around atexit callback list.
+ ThreadIgnoreBegin(thr, pc);
+ int res;
+ if (!dso) {
+ // NetBSD does not preserve the 2nd argument if dso is equal to 0
+ // Store ctx in a local stack-like structure
+
+ // Ensure thread-safety.
+ BlockingMutexLock l(&interceptor_ctx()->atexit_mu);
+
+ res = REAL(__cxa_atexit)((void (*)(void *a))at_exit_wrapper, 0, 0);
+ // Push AtExitCtx on the top of the stack of callback functions
+ if (!res) {
+ interceptor_ctx()->AtExitStack.PushBack(ctx);
+ }
+ } else {
+ res = REAL(__cxa_atexit)(cxa_at_exit_wrapper, ctx, dso);
+ }
+ ThreadIgnoreEnd(thr, pc);
+ return res;
+}
+
+#if !SANITIZER_MAC && !SANITIZER_NETBSD
+static void on_exit_wrapper(int status, void *arg) {
+ ThreadState *thr = cur_thread();
+ uptr pc = 0;
+ Acquire(thr, pc, (uptr)arg);
+ AtExitCtx *ctx = (AtExitCtx*)arg;
+ ((void(*)(int status, void *arg))ctx->f)(status, ctx->arg);
+ InternalFree(ctx);
+}
+
+TSAN_INTERCEPTOR(int, on_exit, void(*f)(int, void*), void *arg) {
+ if (in_symbolizer())
+ return 0;
+ SCOPED_TSAN_INTERCEPTOR(on_exit, f, arg);
+ AtExitCtx *ctx = (AtExitCtx*)InternalAlloc(sizeof(AtExitCtx));
+ ctx->f = (void(*)())f;
+ ctx->arg = arg;
+ Release(thr, pc, (uptr)ctx);
+ // Memory allocation in __cxa_atexit will race with free during exit,
+ // because we do not see synchronization around atexit callback list.
+ ThreadIgnoreBegin(thr, pc);
+ int res = REAL(on_exit)(on_exit_wrapper, ctx);
+ ThreadIgnoreEnd(thr, pc);
+ return res;
+}
+#define TSAN_MAYBE_INTERCEPT_ON_EXIT TSAN_INTERCEPT(on_exit)
+#else
+#define TSAN_MAYBE_INTERCEPT_ON_EXIT
+#endif
+
+// Cleanup old bufs.
+static void JmpBufGarbageCollect(ThreadState *thr, uptr sp) {
+ for (uptr i = 0; i < thr->jmp_bufs.Size(); i++) {
+ JmpBuf *buf = &thr->jmp_bufs[i];
+ if (buf->sp <= sp) {
+ uptr sz = thr->jmp_bufs.Size();
+ internal_memcpy(buf, &thr->jmp_bufs[sz - 1], sizeof(*buf));
+ thr->jmp_bufs.PopBack();
+ i--;
+ }
+ }
+}
+
+static void SetJmp(ThreadState *thr, uptr sp) {
+ if (!thr->is_inited) // called from libc guts during bootstrap
+ return;
+ // Cleanup old bufs.
+ JmpBufGarbageCollect(thr, sp);
+ // Remember the buf.
+ JmpBuf *buf = thr->jmp_bufs.PushBack();
+ buf->sp = sp;
+ buf->shadow_stack_pos = thr->shadow_stack_pos;
+ ThreadSignalContext *sctx = SigCtx(thr);
+ buf->int_signal_send = sctx ? sctx->int_signal_send : 0;
+ buf->in_blocking_func = sctx ?
+ atomic_load(&sctx->in_blocking_func, memory_order_relaxed) :
+ false;
+ buf->in_signal_handler = atomic_load(&thr->in_signal_handler,
+ memory_order_relaxed);
+}
+
+static void LongJmp(ThreadState *thr, uptr *env) {
+ uptr sp = ExtractLongJmpSp(env);
+ // Find the saved buf with matching sp.
+ for (uptr i = 0; i < thr->jmp_bufs.Size(); i++) {
+ JmpBuf *buf = &thr->jmp_bufs[i];
+ if (buf->sp == sp) {
+ CHECK_GE(thr->shadow_stack_pos, buf->shadow_stack_pos);
+ // Unwind the stack.
+ while (thr->shadow_stack_pos > buf->shadow_stack_pos)
+ FuncExit(thr);
+ ThreadSignalContext *sctx = SigCtx(thr);
+ if (sctx) {
+ sctx->int_signal_send = buf->int_signal_send;
+ atomic_store(&sctx->in_blocking_func, buf->in_blocking_func,
+ memory_order_relaxed);
+ }
+ atomic_store(&thr->in_signal_handler, buf->in_signal_handler,
+ memory_order_relaxed);
+ JmpBufGarbageCollect(thr, buf->sp - 1); // do not collect buf->sp
+ return;
+ }
+ }
+ Printf("ThreadSanitizer: can't find longjmp buf\n");
+ CHECK(0);
+}
+
+// FIXME: put everything below into a common extern "C" block?
+extern "C" void __tsan_setjmp(uptr sp) {
+ cur_thread_init();
+ SetJmp(cur_thread(), sp);
+}
+
+#if SANITIZER_MAC
+TSAN_INTERCEPTOR(int, setjmp, void *env);
+TSAN_INTERCEPTOR(int, _setjmp, void *env);
+TSAN_INTERCEPTOR(int, sigsetjmp, void *env);
+#else // SANITIZER_MAC
+
+#if SANITIZER_NETBSD
+#define setjmp_symname __setjmp14
+#define sigsetjmp_symname __sigsetjmp14
+#else
+#define setjmp_symname setjmp
+#define sigsetjmp_symname sigsetjmp
+#endif
+
+#define TSAN_INTERCEPTOR_SETJMP_(x) __interceptor_ ## x
+#define TSAN_INTERCEPTOR_SETJMP__(x) TSAN_INTERCEPTOR_SETJMP_(x)
+#define TSAN_INTERCEPTOR_SETJMP TSAN_INTERCEPTOR_SETJMP__(setjmp_symname)
+#define TSAN_INTERCEPTOR_SIGSETJMP TSAN_INTERCEPTOR_SETJMP__(sigsetjmp_symname)
+
+#define TSAN_STRING_SETJMP SANITIZER_STRINGIFY(setjmp_symname)
+#define TSAN_STRING_SIGSETJMP SANITIZER_STRINGIFY(sigsetjmp_symname)
+
+// Not called. Merely to satisfy TSAN_INTERCEPT().
+extern "C" SANITIZER_INTERFACE_ATTRIBUTE
+int TSAN_INTERCEPTOR_SETJMP(void *env);
+extern "C" int TSAN_INTERCEPTOR_SETJMP(void *env) {
+ CHECK(0);
+ return 0;
+}
+
+// FIXME: any reason to have a separate declaration?
+extern "C" SANITIZER_INTERFACE_ATTRIBUTE
+int __interceptor__setjmp(void *env);
+extern "C" int __interceptor__setjmp(void *env) {
+ CHECK(0);
+ return 0;
+}
+
+extern "C" SANITIZER_INTERFACE_ATTRIBUTE
+int TSAN_INTERCEPTOR_SIGSETJMP(void *env);
+extern "C" int TSAN_INTERCEPTOR_SIGSETJMP(void *env) {
+ CHECK(0);
+ return 0;
+}
+
+#if !SANITIZER_NETBSD
+extern "C" SANITIZER_INTERFACE_ATTRIBUTE
+int __interceptor___sigsetjmp(void *env);
+extern "C" int __interceptor___sigsetjmp(void *env) {
+ CHECK(0);
+ return 0;
+}
+#endif
+
+extern "C" int setjmp_symname(void *env);
+extern "C" int _setjmp(void *env);
+extern "C" int sigsetjmp_symname(void *env);
+#if !SANITIZER_NETBSD
+extern "C" int __sigsetjmp(void *env);
+#endif
+DEFINE_REAL(int, setjmp_symname, void *env)
+DEFINE_REAL(int, _setjmp, void *env)
+DEFINE_REAL(int, sigsetjmp_symname, void *env)
+#if !SANITIZER_NETBSD
+DEFINE_REAL(int, __sigsetjmp, void *env)
+#endif
+#endif // SANITIZER_MAC
+
+#if SANITIZER_NETBSD
+#define longjmp_symname __longjmp14
+#define siglongjmp_symname __siglongjmp14
+#else
+#define longjmp_symname longjmp
+#define siglongjmp_symname siglongjmp
+#endif
+
+TSAN_INTERCEPTOR(void, longjmp_symname, uptr *env, int val) {
+ // Note: if we call REAL(longjmp) in the context of ScopedInterceptor,
+ // bad things will happen. We will jump over ScopedInterceptor dtor and can
+ // leave thr->in_ignored_lib set.
+ {
+ SCOPED_INTERCEPTOR_RAW(longjmp_symname, env, val);
+ }
+ LongJmp(cur_thread(), env);
+ REAL(longjmp_symname)(env, val);
+}
+
+TSAN_INTERCEPTOR(void, siglongjmp_symname, uptr *env, int val) {
+ {
+ SCOPED_INTERCEPTOR_RAW(siglongjmp_symname, env, val);
+ }
+ LongJmp(cur_thread(), env);
+ REAL(siglongjmp_symname)(env, val);
+}
+
+#if SANITIZER_NETBSD
+TSAN_INTERCEPTOR(void, _longjmp, uptr *env, int val) {
+ {
+ SCOPED_INTERCEPTOR_RAW(_longjmp, env, val);
+ }
+ LongJmp(cur_thread(), env);
+ REAL(_longjmp)(env, val);
+}
+#endif
+
+#if !SANITIZER_MAC
+TSAN_INTERCEPTOR(void*, malloc, uptr size) {
+ if (in_symbolizer())
+ return InternalAlloc(size);
+ void *p = 0;
+ {
+ SCOPED_INTERCEPTOR_RAW(malloc, size);
+ p = user_alloc(thr, pc, size);
+ }
+ invoke_malloc_hook(p, size);
+ return p;
+}
+
+TSAN_INTERCEPTOR(void*, __libc_memalign, uptr align, uptr sz) {
+ SCOPED_TSAN_INTERCEPTOR(__libc_memalign, align, sz);
+ return user_memalign(thr, pc, align, sz);
+}
+
+TSAN_INTERCEPTOR(void*, calloc, uptr size, uptr n) {
+ if (in_symbolizer())
+ return InternalCalloc(size, n);
+ void *p = 0;
+ {
+ SCOPED_INTERCEPTOR_RAW(calloc, size, n);
+ p = user_calloc(thr, pc, size, n);
+ }
+ invoke_malloc_hook(p, n * size);
+ return p;
+}
+
+TSAN_INTERCEPTOR(void*, realloc, void *p, uptr size) {
+ if (in_symbolizer())
+ return InternalRealloc(p, size);
+ if (p)
+ invoke_free_hook(p);
+ {
+ SCOPED_INTERCEPTOR_RAW(realloc, p, size);
+ p = user_realloc(thr, pc, p, size);
+ }
+ invoke_malloc_hook(p, size);
+ return p;
+}
+
+TSAN_INTERCEPTOR(void*, reallocarray, void *p, uptr size, uptr n) {
+ if (in_symbolizer())
+ return InternalReallocArray(p, size, n);
+ if (p)
+ invoke_free_hook(p);
+ {
+ SCOPED_INTERCEPTOR_RAW(reallocarray, p, size, n);
+ p = user_reallocarray(thr, pc, p, size, n);
+ }
+ invoke_malloc_hook(p, size);
+ return p;
+}
+
+TSAN_INTERCEPTOR(void, free, void *p) {
+ if (p == 0)
+ return;
+ if (in_symbolizer())
+ return InternalFree(p);
+ invoke_free_hook(p);
+ SCOPED_INTERCEPTOR_RAW(free, p);
+ user_free(thr, pc, p);
+}
+
+TSAN_INTERCEPTOR(void, cfree, void *p) {
+ if (p == 0)
+ return;
+ if (in_symbolizer())
+ return InternalFree(p);
+ invoke_free_hook(p);
+ SCOPED_INTERCEPTOR_RAW(cfree, p);
+ user_free(thr, pc, p);
+}
+
+TSAN_INTERCEPTOR(uptr, malloc_usable_size, void *p) {
+ SCOPED_INTERCEPTOR_RAW(malloc_usable_size, p);
+ return user_alloc_usable_size(p);
+}
+#endif
+
+TSAN_INTERCEPTOR(char *, strcpy, char *dst, const char *src) {
+ SCOPED_TSAN_INTERCEPTOR(strcpy, dst, src);
+ uptr srclen = internal_strlen(src);
+ MemoryAccessRange(thr, pc, (uptr)dst, srclen + 1, true);
+ MemoryAccessRange(thr, pc, (uptr)src, srclen + 1, false);
+ return REAL(strcpy)(dst, src);
+}
+
+TSAN_INTERCEPTOR(char*, strncpy, char *dst, char *src, uptr n) {
+ SCOPED_TSAN_INTERCEPTOR(strncpy, dst, src, n);
+ uptr srclen = internal_strnlen(src, n);
+ MemoryAccessRange(thr, pc, (uptr)dst, n, true);
+ MemoryAccessRange(thr, pc, (uptr)src, min(srclen + 1, n), false);
+ return REAL(strncpy)(dst, src, n);
+}
+
+TSAN_INTERCEPTOR(char*, strdup, const char *str) {
+ SCOPED_TSAN_INTERCEPTOR(strdup, str);
+ // strdup will call malloc, so no instrumentation is required here.
+ return REAL(strdup)(str);
+}
+
+// Zero out addr if it points into shadow memory and was provided as a hint
+// only, i.e., MAP_FIXED is not set.
+static bool fix_mmap_addr(void **addr, long_t sz, int flags) {
+ if (*addr) {
+ if (!IsAppMem((uptr)*addr) || !IsAppMem((uptr)*addr + sz - 1)) {
+ if (flags & MAP_FIXED) {
+ errno = errno_EINVAL;
+ return false;
+ } else {
+ *addr = 0;
+ }
+ }
+ }
+ return true;
+}
+
+template <class Mmap>
+static void *mmap_interceptor(ThreadState *thr, uptr pc, Mmap real_mmap,
+ void *addr, SIZE_T sz, int prot, int flags,
+ int fd, OFF64_T off) {
+ if (!fix_mmap_addr(&addr, sz, flags)) return MAP_FAILED;
+ void *res = real_mmap(addr, sz, prot, flags, fd, off);
+ if (res != MAP_FAILED) {
+ if (fd > 0) FdAccess(thr, pc, fd);
+ MemoryRangeImitateWriteOrResetRange(thr, pc, (uptr)res, sz);
+ }
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, munmap, void *addr, long_t sz) {
+ SCOPED_TSAN_INTERCEPTOR(munmap, addr, sz);
+ UnmapShadow(thr, (uptr)addr, sz);
+ int res = REAL(munmap)(addr, sz);
+ return res;
+}
+
+#if SANITIZER_LINUX
+TSAN_INTERCEPTOR(void*, memalign, uptr align, uptr sz) {
+ SCOPED_INTERCEPTOR_RAW(memalign, align, sz);
+ return user_memalign(thr, pc, align, sz);
+}
+#define TSAN_MAYBE_INTERCEPT_MEMALIGN TSAN_INTERCEPT(memalign)
+#else
+#define TSAN_MAYBE_INTERCEPT_MEMALIGN
+#endif
+
+#if !SANITIZER_MAC
+TSAN_INTERCEPTOR(void*, aligned_alloc, uptr align, uptr sz) {
+ if (in_symbolizer())
+ return InternalAlloc(sz, nullptr, align);
+ SCOPED_INTERCEPTOR_RAW(aligned_alloc, align, sz);
+ return user_aligned_alloc(thr, pc, align, sz);
+}
+
+TSAN_INTERCEPTOR(void*, valloc, uptr sz) {
+ if (in_symbolizer())
+ return InternalAlloc(sz, nullptr, GetPageSizeCached());
+ SCOPED_INTERCEPTOR_RAW(valloc, sz);
+ return user_valloc(thr, pc, sz);
+}
+#endif
+
+#if SANITIZER_LINUX
+TSAN_INTERCEPTOR(void*, pvalloc, uptr sz) {
+ if (in_symbolizer()) {
+ uptr PageSize = GetPageSizeCached();
+ sz = sz ? RoundUpTo(sz, PageSize) : PageSize;
+ return InternalAlloc(sz, nullptr, PageSize);
+ }
+ SCOPED_INTERCEPTOR_RAW(pvalloc, sz);
+ return user_pvalloc(thr, pc, sz);
+}
+#define TSAN_MAYBE_INTERCEPT_PVALLOC TSAN_INTERCEPT(pvalloc)
+#else
+#define TSAN_MAYBE_INTERCEPT_PVALLOC
+#endif
+
+#if !SANITIZER_MAC
+TSAN_INTERCEPTOR(int, posix_memalign, void **memptr, uptr align, uptr sz) {
+ if (in_symbolizer()) {
+ void *p = InternalAlloc(sz, nullptr, align);
+ if (!p)
+ return errno_ENOMEM;
+ *memptr = p;
+ return 0;
+ }
+ SCOPED_INTERCEPTOR_RAW(posix_memalign, memptr, align, sz);
+ return user_posix_memalign(thr, pc, memptr, align, sz);
+}
+#endif
+
+// __cxa_guard_acquire and friends need to be intercepted in a special way -
+// regular interceptors will break statically-linked libstdc++. Linux
+// interceptors are especially defined as weak functions (so that they don't
+// cause link errors when user defines them as well). So they silently
+// auto-disable themselves when such symbol is already present in the binary. If
+// we link libstdc++ statically, it will bring own __cxa_guard_acquire which
+// will silently replace our interceptor. That's why on Linux we simply export
+// these interceptors with INTERFACE_ATTRIBUTE.
+// On OS X, we don't support statically linking, so we just use a regular
+// interceptor.
+#if SANITIZER_MAC
+#define STDCXX_INTERCEPTOR TSAN_INTERCEPTOR
+#else
+#define STDCXX_INTERCEPTOR(rettype, name, ...) \
+ extern "C" rettype INTERFACE_ATTRIBUTE name(__VA_ARGS__)
+#endif
+
+// Used in thread-safe function static initialization.
+STDCXX_INTERCEPTOR(int, __cxa_guard_acquire, atomic_uint32_t *g) {
+ SCOPED_INTERCEPTOR_RAW(__cxa_guard_acquire, g);
+ OnPotentiallyBlockingRegionBegin();
+ auto on_exit = at_scope_exit(&OnPotentiallyBlockingRegionEnd);
+ for (;;) {
+ u32 cmp = atomic_load(g, memory_order_acquire);
+ if (cmp == 0) {
+ if (atomic_compare_exchange_strong(g, &cmp, 1<<16, memory_order_relaxed))
+ return 1;
+ } else if (cmp == 1) {
+ Acquire(thr, pc, (uptr)g);
+ return 0;
+ } else {
+ internal_sched_yield();
+ }
+ }
+}
+
+STDCXX_INTERCEPTOR(void, __cxa_guard_release, atomic_uint32_t *g) {
+ SCOPED_INTERCEPTOR_RAW(__cxa_guard_release, g);
+ Release(thr, pc, (uptr)g);
+ atomic_store(g, 1, memory_order_release);
+}
+
+STDCXX_INTERCEPTOR(void, __cxa_guard_abort, atomic_uint32_t *g) {
+ SCOPED_INTERCEPTOR_RAW(__cxa_guard_abort, g);
+ atomic_store(g, 0, memory_order_relaxed);
+}
+
+namespace __tsan {
+void DestroyThreadState() {
+ ThreadState *thr = cur_thread();
+ Processor *proc = thr->proc();
+ ThreadFinish(thr);
+ ProcUnwire(proc, thr);
+ ProcDestroy(proc);
+ ThreadSignalContext *sctx = thr->signal_ctx;
+ if (sctx) {
+ thr->signal_ctx = 0;
+ UnmapOrDie(sctx, sizeof(*sctx));
+ }
+ DTLS_Destroy();
+ cur_thread_finalize();
+}
+} // namespace __tsan
+
+#if !SANITIZER_MAC && !SANITIZER_NETBSD && !SANITIZER_FREEBSD
+static void thread_finalize(void *v) {
+ uptr iter = (uptr)v;
+ if (iter > 1) {
+ if (pthread_setspecific(interceptor_ctx()->finalize_key,
+ (void*)(iter - 1))) {
+ Printf("ThreadSanitizer: failed to set thread key\n");
+ Die();
+ }
+ return;
+ }
+ DestroyThreadState();
+}
+#endif
+
+
+struct ThreadParam {
+ void* (*callback)(void *arg);
+ void *param;
+ atomic_uintptr_t tid;
+};
+
+extern "C" void *__tsan_thread_start_func(void *arg) {
+ ThreadParam *p = (ThreadParam*)arg;
+ void* (*callback)(void *arg) = p->callback;
+ void *param = p->param;
+ int tid = 0;
+ {
+ cur_thread_init();
+ ThreadState *thr = cur_thread();
+ // Thread-local state is not initialized yet.
+ ScopedIgnoreInterceptors ignore;
+#if !SANITIZER_MAC && !SANITIZER_NETBSD && !SANITIZER_FREEBSD
+ ThreadIgnoreBegin(thr, 0);
+ if (pthread_setspecific(interceptor_ctx()->finalize_key,
+ (void *)GetPthreadDestructorIterations())) {
+ Printf("ThreadSanitizer: failed to set thread key\n");
+ Die();
+ }
+ ThreadIgnoreEnd(thr, 0);
+#endif
+ while ((tid = atomic_load(&p->tid, memory_order_acquire)) == 0)
+ internal_sched_yield();
+ Processor *proc = ProcCreate();
+ ProcWire(proc, thr);
+ ThreadStart(thr, tid, GetTid(), ThreadType::Regular);
+ atomic_store(&p->tid, 0, memory_order_release);
+ }
+ void *res = callback(param);
+ // Prevent the callback from being tail called,
+ // it mixes up stack traces.
+ volatile int foo = 42;
+ foo++;
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, pthread_create,
+ void *th, void *attr, void *(*callback)(void*), void * param) {
+ SCOPED_INTERCEPTOR_RAW(pthread_create, th, attr, callback, param);
+
+ MaybeSpawnBackgroundThread();
+
+ if (ctx->after_multithreaded_fork) {
+ if (flags()->die_after_fork) {
+ Report("ThreadSanitizer: starting new threads after multi-threaded "
+ "fork is not supported. Dying (set die_after_fork=0 to override)\n");
+ Die();
+ } else {
+ VPrintf(1, "ThreadSanitizer: starting new threads after multi-threaded "
+ "fork is not supported (pid %d). Continuing because of "
+ "die_after_fork=0, but you are on your own\n", internal_getpid());
+ }
+ }
+ __sanitizer_pthread_attr_t myattr;
+ if (attr == 0) {
+ pthread_attr_init(&myattr);
+ attr = &myattr;
+ }
+ int detached = 0;
+ REAL(pthread_attr_getdetachstate)(attr, &detached);
+ AdjustStackSize(attr);
+
+ ThreadParam p;
+ p.callback = callback;
+ p.param = param;
+ atomic_store(&p.tid, 0, memory_order_relaxed);
+ int res = -1;
+ {
+ // Otherwise we see false positives in pthread stack manipulation.
+ ScopedIgnoreInterceptors ignore;
+ ThreadIgnoreBegin(thr, pc);
+ res = REAL(pthread_create)(th, attr, __tsan_thread_start_func, &p);
+ ThreadIgnoreEnd(thr, pc);
+ }
+ if (res == 0) {
+ int tid = ThreadCreate(thr, pc, *(uptr*)th, IsStateDetached(detached));
+ CHECK_NE(tid, 0);
+ // Synchronization on p.tid serves two purposes:
+ // 1. ThreadCreate must finish before the new thread starts.
+ // Otherwise the new thread can call pthread_detach, but the pthread_t
+ // identifier is not yet registered in ThreadRegistry by ThreadCreate.
+ // 2. ThreadStart must finish before this thread continues.
+ // Otherwise, this thread can call pthread_detach and reset thr->sync
+ // before the new thread got a chance to acquire from it in ThreadStart.
+ atomic_store(&p.tid, tid, memory_order_release);
+ while (atomic_load(&p.tid, memory_order_acquire) != 0)
+ internal_sched_yield();
+ }
+ if (attr == &myattr)
+ pthread_attr_destroy(&myattr);
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, pthread_join, void *th, void **ret) {
+ SCOPED_INTERCEPTOR_RAW(pthread_join, th, ret);
+ int tid = ThreadTid(thr, pc, (uptr)th);
+ ThreadIgnoreBegin(thr, pc);
+ int res = BLOCK_REAL(pthread_join)(th, ret);
+ ThreadIgnoreEnd(thr, pc);
+ if (res == 0) {
+ ThreadJoin(thr, pc, tid);
+ }
+ return res;
+}
+
+DEFINE_REAL_PTHREAD_FUNCTIONS
+
+TSAN_INTERCEPTOR(int, pthread_detach, void *th) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_detach, th);
+ int tid = ThreadTid(thr, pc, (uptr)th);
+ int res = REAL(pthread_detach)(th);
+ if (res == 0) {
+ ThreadDetach(thr, pc, tid);
+ }
+ return res;
+}
+
+TSAN_INTERCEPTOR(void, pthread_exit, void *retval) {
+ {
+ SCOPED_INTERCEPTOR_RAW(pthread_exit, retval);
+#if !SANITIZER_MAC && !SANITIZER_ANDROID
+ CHECK_EQ(thr, &cur_thread_placeholder);
+#endif
+ }
+ REAL(pthread_exit)(retval);
+}
+
+#if SANITIZER_LINUX
+TSAN_INTERCEPTOR(int, pthread_tryjoin_np, void *th, void **ret) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_tryjoin_np, th, ret);
+ int tid = ThreadTid(thr, pc, (uptr)th);
+ ThreadIgnoreBegin(thr, pc);
+ int res = REAL(pthread_tryjoin_np)(th, ret);
+ ThreadIgnoreEnd(thr, pc);
+ if (res == 0)
+ ThreadJoin(thr, pc, tid);
+ else
+ ThreadNotJoined(thr, pc, tid, (uptr)th);
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, pthread_timedjoin_np, void *th, void **ret,
+ const struct timespec *abstime) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_timedjoin_np, th, ret, abstime);
+ int tid = ThreadTid(thr, pc, (uptr)th);
+ ThreadIgnoreBegin(thr, pc);
+ int res = BLOCK_REAL(pthread_timedjoin_np)(th, ret, abstime);
+ ThreadIgnoreEnd(thr, pc);
+ if (res == 0)
+ ThreadJoin(thr, pc, tid);
+ else
+ ThreadNotJoined(thr, pc, tid, (uptr)th);
+ return res;
+}
+#endif
+
+// Problem:
+// NPTL implementation of pthread_cond has 2 versions (2.2.5 and 2.3.2).
+// pthread_cond_t has different size in the different versions.
+// If call new REAL functions for old pthread_cond_t, they will corrupt memory
+// after pthread_cond_t (old cond is smaller).
+// If we call old REAL functions for new pthread_cond_t, we will lose some
+// functionality (e.g. old functions do not support waiting against
+// CLOCK_REALTIME).
+// Proper handling would require to have 2 versions of interceptors as well.
+// But this is messy, in particular requires linker scripts when sanitizer
+// runtime is linked into a shared library.
+// Instead we assume we don't have dynamic libraries built against old
+// pthread (2.2.5 is dated by 2002). And provide legacy_pthread_cond flag
+// that allows to work with old libraries (but this mode does not support
+// some features, e.g. pthread_condattr_getpshared).
+static void *init_cond(void *c, bool force = false) {
+ // sizeof(pthread_cond_t) >= sizeof(uptr) in both versions.
+ // So we allocate additional memory on the side large enough to hold
+ // any pthread_cond_t object. Always call new REAL functions, but pass
+ // the aux object to them.
+ // Note: the code assumes that PTHREAD_COND_INITIALIZER initializes
+ // first word of pthread_cond_t to zero.
+ // It's all relevant only for linux.
+ if (!common_flags()->legacy_pthread_cond)
+ return c;
+ atomic_uintptr_t *p = (atomic_uintptr_t*)c;
+ uptr cond = atomic_load(p, memory_order_acquire);
+ if (!force && cond != 0)
+ return (void*)cond;
+ void *newcond = WRAP(malloc)(pthread_cond_t_sz);
+ internal_memset(newcond, 0, pthread_cond_t_sz);
+ if (atomic_compare_exchange_strong(p, &cond, (uptr)newcond,
+ memory_order_acq_rel))
+ return newcond;
+ WRAP(free)(newcond);
+ return (void*)cond;
+}
+
+struct CondMutexUnlockCtx {
+ ScopedInterceptor *si;
+ ThreadState *thr;
+ uptr pc;
+ void *m;
+};
+
+static void cond_mutex_unlock(CondMutexUnlockCtx *arg) {
+ // pthread_cond_wait interceptor has enabled async signal delivery
+ // (see BlockingCall below). Disable async signals since we are running
+ // tsan code. Also ScopedInterceptor and BlockingCall destructors won't run
+ // since the thread is cancelled, so we have to manually execute them
+ // (the thread still can run some user code due to pthread_cleanup_push).
+ ThreadSignalContext *ctx = SigCtx(arg->thr);
+ CHECK_EQ(atomic_load(&ctx->in_blocking_func, memory_order_relaxed), 1);
+ atomic_store(&ctx->in_blocking_func, 0, memory_order_relaxed);
+ MutexPostLock(arg->thr, arg->pc, (uptr)arg->m, MutexFlagDoPreLockOnPostLock);
+ // Undo BlockingCall ctor effects.
+ arg->thr->ignore_interceptors--;
+ arg->si->~ScopedInterceptor();
+}
+
+INTERCEPTOR(int, pthread_cond_init, void *c, void *a) {
+ void *cond = init_cond(c, true);
+ SCOPED_TSAN_INTERCEPTOR(pthread_cond_init, cond, a);
+ MemoryAccessRange(thr, pc, (uptr)c, sizeof(uptr), true);
+ return REAL(pthread_cond_init)(cond, a);
+}
+
+static int cond_wait(ThreadState *thr, uptr pc, ScopedInterceptor *si,
+ int (*fn)(void *c, void *m, void *abstime), void *c,
+ void *m, void *t) {
+ MemoryAccessRange(thr, pc, (uptr)c, sizeof(uptr), false);
+ MutexUnlock(thr, pc, (uptr)m);
+ CondMutexUnlockCtx arg = {si, thr, pc, m};
+ int res = 0;
+ // This ensures that we handle mutex lock even in case of pthread_cancel.
+ // See test/tsan/cond_cancel.cpp.
+ {
+ // Enable signal delivery while the thread is blocked.
+ BlockingCall bc(thr);
+ res = call_pthread_cancel_with_cleanup(
+ fn, c, m, t, (void (*)(void *arg))cond_mutex_unlock, &arg);
+ }
+ if (res == errno_EOWNERDEAD) MutexRepair(thr, pc, (uptr)m);
+ MutexPostLock(thr, pc, (uptr)m, MutexFlagDoPreLockOnPostLock);
+ return res;
+}
+
+INTERCEPTOR(int, pthread_cond_wait, void *c, void *m) {
+ void *cond = init_cond(c);
+ SCOPED_TSAN_INTERCEPTOR(pthread_cond_wait, cond, m);
+ return cond_wait(thr, pc, &si, (int (*)(void *c, void *m, void *abstime))REAL(
+ pthread_cond_wait),
+ cond, m, 0);
+}
+
+INTERCEPTOR(int, pthread_cond_timedwait, void *c, void *m, void *abstime) {
+ void *cond = init_cond(c);
+ SCOPED_TSAN_INTERCEPTOR(pthread_cond_timedwait, cond, m, abstime);
+ return cond_wait(thr, pc, &si, REAL(pthread_cond_timedwait), cond, m,
+ abstime);
+}
+
+#if SANITIZER_MAC
+INTERCEPTOR(int, pthread_cond_timedwait_relative_np, void *c, void *m,
+ void *reltime) {
+ void *cond = init_cond(c);
+ SCOPED_TSAN_INTERCEPTOR(pthread_cond_timedwait_relative_np, cond, m, reltime);
+ return cond_wait(thr, pc, &si, REAL(pthread_cond_timedwait_relative_np), cond,
+ m, reltime);
+}
+#endif
+
+INTERCEPTOR(int, pthread_cond_signal, void *c) {
+ void *cond = init_cond(c);
+ SCOPED_TSAN_INTERCEPTOR(pthread_cond_signal, cond);
+ MemoryAccessRange(thr, pc, (uptr)c, sizeof(uptr), false);
+ return REAL(pthread_cond_signal)(cond);
+}
+
+INTERCEPTOR(int, pthread_cond_broadcast, void *c) {
+ void *cond = init_cond(c);
+ SCOPED_TSAN_INTERCEPTOR(pthread_cond_broadcast, cond);
+ MemoryAccessRange(thr, pc, (uptr)c, sizeof(uptr), false);
+ return REAL(pthread_cond_broadcast)(cond);
+}
+
+INTERCEPTOR(int, pthread_cond_destroy, void *c) {
+ void *cond = init_cond(c);
+ SCOPED_TSAN_INTERCEPTOR(pthread_cond_destroy, cond);
+ MemoryAccessRange(thr, pc, (uptr)c, sizeof(uptr), true);
+ int res = REAL(pthread_cond_destroy)(cond);
+ if (common_flags()->legacy_pthread_cond) {
+ // Free our aux cond and zero the pointer to not leave dangling pointers.
+ WRAP(free)(cond);
+ atomic_store((atomic_uintptr_t*)c, 0, memory_order_relaxed);
+ }
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, pthread_mutex_init, void *m, void *a) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_mutex_init, m, a);
+ int res = REAL(pthread_mutex_init)(m, a);
+ if (res == 0) {
+ u32 flagz = 0;
+ if (a) {
+ int type = 0;
+ if (REAL(pthread_mutexattr_gettype)(a, &type) == 0)
+ if (type == PTHREAD_MUTEX_RECURSIVE ||
+ type == PTHREAD_MUTEX_RECURSIVE_NP)
+ flagz |= MutexFlagWriteReentrant;
+ }
+ MutexCreate(thr, pc, (uptr)m, flagz);
+ }
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, pthread_mutex_destroy, void *m) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_mutex_destroy, m);
+ int res = REAL(pthread_mutex_destroy)(m);
+ if (res == 0 || res == errno_EBUSY) {
+ MutexDestroy(thr, pc, (uptr)m);
+ }
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, pthread_mutex_trylock, void *m) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_mutex_trylock, m);
+ int res = REAL(pthread_mutex_trylock)(m);
+ if (res == errno_EOWNERDEAD)
+ MutexRepair(thr, pc, (uptr)m);
+ if (res == 0 || res == errno_EOWNERDEAD)
+ MutexPostLock(thr, pc, (uptr)m, MutexFlagTryLock);
+ return res;
+}
+
+#if !SANITIZER_MAC
+TSAN_INTERCEPTOR(int, pthread_mutex_timedlock, void *m, void *abstime) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_mutex_timedlock, m, abstime);
+ int res = REAL(pthread_mutex_timedlock)(m, abstime);
+ if (res == 0) {
+ MutexPostLock(thr, pc, (uptr)m, MutexFlagTryLock);
+ }
+ return res;
+}
+#endif
+
+#if !SANITIZER_MAC
+TSAN_INTERCEPTOR(int, pthread_spin_init, void *m, int pshared) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_spin_init, m, pshared);
+ int res = REAL(pthread_spin_init)(m, pshared);
+ if (res == 0) {
+ MutexCreate(thr, pc, (uptr)m);
+ }
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, pthread_spin_destroy, void *m) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_spin_destroy, m);
+ int res = REAL(pthread_spin_destroy)(m);
+ if (res == 0) {
+ MutexDestroy(thr, pc, (uptr)m);
+ }
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, pthread_spin_lock, void *m) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_spin_lock, m);
+ MutexPreLock(thr, pc, (uptr)m);
+ int res = REAL(pthread_spin_lock)(m);
+ if (res == 0) {
+ MutexPostLock(thr, pc, (uptr)m);
+ }
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, pthread_spin_trylock, void *m) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_spin_trylock, m);
+ int res = REAL(pthread_spin_trylock)(m);
+ if (res == 0) {
+ MutexPostLock(thr, pc, (uptr)m, MutexFlagTryLock);
+ }
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, pthread_spin_unlock, void *m) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_spin_unlock, m);
+ MutexUnlock(thr, pc, (uptr)m);
+ int res = REAL(pthread_spin_unlock)(m);
+ return res;
+}
+#endif
+
+TSAN_INTERCEPTOR(int, pthread_rwlock_init, void *m, void *a) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_rwlock_init, m, a);
+ int res = REAL(pthread_rwlock_init)(m, a);
+ if (res == 0) {
+ MutexCreate(thr, pc, (uptr)m);
+ }
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, pthread_rwlock_destroy, void *m) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_rwlock_destroy, m);
+ int res = REAL(pthread_rwlock_destroy)(m);
+ if (res == 0) {
+ MutexDestroy(thr, pc, (uptr)m);
+ }
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, pthread_rwlock_rdlock, void *m) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_rwlock_rdlock, m);
+ MutexPreReadLock(thr, pc, (uptr)m);
+ int res = REAL(pthread_rwlock_rdlock)(m);
+ if (res == 0) {
+ MutexPostReadLock(thr, pc, (uptr)m);
+ }
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, pthread_rwlock_tryrdlock, void *m) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_rwlock_tryrdlock, m);
+ int res = REAL(pthread_rwlock_tryrdlock)(m);
+ if (res == 0) {
+ MutexPostReadLock(thr, pc, (uptr)m, MutexFlagTryLock);
+ }
+ return res;
+}
+
+#if !SANITIZER_MAC
+TSAN_INTERCEPTOR(int, pthread_rwlock_timedrdlock, void *m, void *abstime) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_rwlock_timedrdlock, m, abstime);
+ int res = REAL(pthread_rwlock_timedrdlock)(m, abstime);
+ if (res == 0) {
+ MutexPostReadLock(thr, pc, (uptr)m);
+ }
+ return res;
+}
+#endif
+
+TSAN_INTERCEPTOR(int, pthread_rwlock_wrlock, void *m) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_rwlock_wrlock, m);
+ MutexPreLock(thr, pc, (uptr)m);
+ int res = REAL(pthread_rwlock_wrlock)(m);
+ if (res == 0) {
+ MutexPostLock(thr, pc, (uptr)m);
+ }
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, pthread_rwlock_trywrlock, void *m) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_rwlock_trywrlock, m);
+ int res = REAL(pthread_rwlock_trywrlock)(m);
+ if (res == 0) {
+ MutexPostLock(thr, pc, (uptr)m, MutexFlagTryLock);
+ }
+ return res;
+}
+
+#if !SANITIZER_MAC
+TSAN_INTERCEPTOR(int, pthread_rwlock_timedwrlock, void *m, void *abstime) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_rwlock_timedwrlock, m, abstime);
+ int res = REAL(pthread_rwlock_timedwrlock)(m, abstime);
+ if (res == 0) {
+ MutexPostLock(thr, pc, (uptr)m, MutexFlagTryLock);
+ }
+ return res;
+}
+#endif
+
+TSAN_INTERCEPTOR(int, pthread_rwlock_unlock, void *m) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_rwlock_unlock, m);
+ MutexReadOrWriteUnlock(thr, pc, (uptr)m);
+ int res = REAL(pthread_rwlock_unlock)(m);
+ return res;
+}
+
+#if !SANITIZER_MAC
+TSAN_INTERCEPTOR(int, pthread_barrier_init, void *b, void *a, unsigned count) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_barrier_init, b, a, count);
+ MemoryWrite(thr, pc, (uptr)b, kSizeLog1);
+ int res = REAL(pthread_barrier_init)(b, a, count);
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, pthread_barrier_destroy, void *b) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_barrier_destroy, b);
+ MemoryWrite(thr, pc, (uptr)b, kSizeLog1);
+ int res = REAL(pthread_barrier_destroy)(b);
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, pthread_barrier_wait, void *b) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_barrier_wait, b);
+ Release(thr, pc, (uptr)b);
+ MemoryRead(thr, pc, (uptr)b, kSizeLog1);
+ int res = REAL(pthread_barrier_wait)(b);
+ MemoryRead(thr, pc, (uptr)b, kSizeLog1);
+ if (res == 0 || res == PTHREAD_BARRIER_SERIAL_THREAD) {
+ Acquire(thr, pc, (uptr)b);
+ }
+ return res;
+}
+#endif
+
+TSAN_INTERCEPTOR(int, pthread_once, void *o, void (*f)()) {
+ SCOPED_INTERCEPTOR_RAW(pthread_once, o, f);
+ if (o == 0 || f == 0)
+ return errno_EINVAL;
+ atomic_uint32_t *a;
+
+ if (SANITIZER_MAC)
+ a = static_cast<atomic_uint32_t*>((void *)((char *)o + sizeof(long_t)));
+ else if (SANITIZER_NETBSD)
+ a = static_cast<atomic_uint32_t*>
+ ((void *)((char *)o + __sanitizer::pthread_mutex_t_sz));
+ else
+ a = static_cast<atomic_uint32_t*>(o);
+
+ u32 v = atomic_load(a, memory_order_acquire);
+ if (v == 0 && atomic_compare_exchange_strong(a, &v, 1,
+ memory_order_relaxed)) {
+ (*f)();
+ if (!thr->in_ignored_lib)
+ Release(thr, pc, (uptr)o);
+ atomic_store(a, 2, memory_order_release);
+ } else {
+ while (v != 2) {
+ internal_sched_yield();
+ v = atomic_load(a, memory_order_acquire);
+ }
+ if (!thr->in_ignored_lib)
+ Acquire(thr, pc, (uptr)o);
+ }
+ return 0;
+}
+
+#if SANITIZER_LINUX && !SANITIZER_ANDROID
+TSAN_INTERCEPTOR(int, __fxstat, int version, int fd, void *buf) {
+ SCOPED_TSAN_INTERCEPTOR(__fxstat, version, fd, buf);
+ if (fd > 0)
+ FdAccess(thr, pc, fd);
+ return REAL(__fxstat)(version, fd, buf);
+}
+#define TSAN_MAYBE_INTERCEPT___FXSTAT TSAN_INTERCEPT(__fxstat)
+#else
+#define TSAN_MAYBE_INTERCEPT___FXSTAT
+#endif
+
+TSAN_INTERCEPTOR(int, fstat, int fd, void *buf) {
+#if SANITIZER_FREEBSD || SANITIZER_MAC || SANITIZER_ANDROID || SANITIZER_NETBSD
+ SCOPED_TSAN_INTERCEPTOR(fstat, fd, buf);
+ if (fd > 0)
+ FdAccess(thr, pc, fd);
+ return REAL(fstat)(fd, buf);
+#else
+ SCOPED_TSAN_INTERCEPTOR(__fxstat, 0, fd, buf);
+ if (fd > 0)
+ FdAccess(thr, pc, fd);
+ return REAL(__fxstat)(0, fd, buf);
+#endif
+}
+
+#if SANITIZER_LINUX && !SANITIZER_ANDROID
+TSAN_INTERCEPTOR(int, __fxstat64, int version, int fd, void *buf) {
+ SCOPED_TSAN_INTERCEPTOR(__fxstat64, version, fd, buf);
+ if (fd > 0)
+ FdAccess(thr, pc, fd);
+ return REAL(__fxstat64)(version, fd, buf);
+}
+#define TSAN_MAYBE_INTERCEPT___FXSTAT64 TSAN_INTERCEPT(__fxstat64)
+#else
+#define TSAN_MAYBE_INTERCEPT___FXSTAT64
+#endif
+
+#if SANITIZER_LINUX && !SANITIZER_ANDROID
+TSAN_INTERCEPTOR(int, fstat64, int fd, void *buf) {
+ SCOPED_TSAN_INTERCEPTOR(__fxstat64, 0, fd, buf);
+ if (fd > 0)
+ FdAccess(thr, pc, fd);
+ return REAL(__fxstat64)(0, fd, buf);
+}
+#define TSAN_MAYBE_INTERCEPT_FSTAT64 TSAN_INTERCEPT(fstat64)
+#else
+#define TSAN_MAYBE_INTERCEPT_FSTAT64
+#endif
+
+TSAN_INTERCEPTOR(int, open, const char *name, int flags, int mode) {
+ SCOPED_TSAN_INTERCEPTOR(open, name, flags, mode);
+ READ_STRING(thr, pc, name, 0);
+ int fd = REAL(open)(name, flags, mode);
+ if (fd >= 0)
+ FdFileCreate(thr, pc, fd);
+ return fd;
+}
+
+#if SANITIZER_LINUX
+TSAN_INTERCEPTOR(int, open64, const char *name, int flags, int mode) {
+ SCOPED_TSAN_INTERCEPTOR(open64, name, flags, mode);
+ READ_STRING(thr, pc, name, 0);
+ int fd = REAL(open64)(name, flags, mode);
+ if (fd >= 0)
+ FdFileCreate(thr, pc, fd);
+ return fd;
+}
+#define TSAN_MAYBE_INTERCEPT_OPEN64 TSAN_INTERCEPT(open64)
+#else
+#define TSAN_MAYBE_INTERCEPT_OPEN64
+#endif
+
+TSAN_INTERCEPTOR(int, creat, const char *name, int mode) {
+ SCOPED_TSAN_INTERCEPTOR(creat, name, mode);
+ READ_STRING(thr, pc, name, 0);
+ int fd = REAL(creat)(name, mode);
+ if (fd >= 0)
+ FdFileCreate(thr, pc, fd);
+ return fd;
+}
+
+#if SANITIZER_LINUX
+TSAN_INTERCEPTOR(int, creat64, const char *name, int mode) {
+ SCOPED_TSAN_INTERCEPTOR(creat64, name, mode);
+ READ_STRING(thr, pc, name, 0);
+ int fd = REAL(creat64)(name, mode);
+ if (fd >= 0)
+ FdFileCreate(thr, pc, fd);
+ return fd;
+}
+#define TSAN_MAYBE_INTERCEPT_CREAT64 TSAN_INTERCEPT(creat64)
+#else
+#define TSAN_MAYBE_INTERCEPT_CREAT64
+#endif
+
+TSAN_INTERCEPTOR(int, dup, int oldfd) {
+ SCOPED_TSAN_INTERCEPTOR(dup, oldfd);
+ int newfd = REAL(dup)(oldfd);
+ if (oldfd >= 0 && newfd >= 0 && newfd != oldfd)
+ FdDup(thr, pc, oldfd, newfd, true);
+ return newfd;
+}
+
+TSAN_INTERCEPTOR(int, dup2, int oldfd, int newfd) {
+ SCOPED_TSAN_INTERCEPTOR(dup2, oldfd, newfd);
+ int newfd2 = REAL(dup2)(oldfd, newfd);
+ if (oldfd >= 0 && newfd2 >= 0 && newfd2 != oldfd)
+ FdDup(thr, pc, oldfd, newfd2, false);
+ return newfd2;
+}
+
+#if !SANITIZER_MAC
+TSAN_INTERCEPTOR(int, dup3, int oldfd, int newfd, int flags) {
+ SCOPED_TSAN_INTERCEPTOR(dup3, oldfd, newfd, flags);
+ int newfd2 = REAL(dup3)(oldfd, newfd, flags);
+ if (oldfd >= 0 && newfd2 >= 0 && newfd2 != oldfd)
+ FdDup(thr, pc, oldfd, newfd2, false);
+ return newfd2;
+}
+#endif
+
+#if SANITIZER_LINUX
+TSAN_INTERCEPTOR(int, eventfd, unsigned initval, int flags) {
+ SCOPED_TSAN_INTERCEPTOR(eventfd, initval, flags);
+ int fd = REAL(eventfd)(initval, flags);
+ if (fd >= 0)
+ FdEventCreate(thr, pc, fd);
+ return fd;
+}
+#define TSAN_MAYBE_INTERCEPT_EVENTFD TSAN_INTERCEPT(eventfd)
+#else
+#define TSAN_MAYBE_INTERCEPT_EVENTFD
+#endif
+
+#if SANITIZER_LINUX
+TSAN_INTERCEPTOR(int, signalfd, int fd, void *mask, int flags) {
+ SCOPED_TSAN_INTERCEPTOR(signalfd, fd, mask, flags);
+ if (fd >= 0)
+ FdClose(thr, pc, fd);
+ fd = REAL(signalfd)(fd, mask, flags);
+ if (fd >= 0)
+ FdSignalCreate(thr, pc, fd);
+ return fd;
+}
+#define TSAN_MAYBE_INTERCEPT_SIGNALFD TSAN_INTERCEPT(signalfd)
+#else
+#define TSAN_MAYBE_INTERCEPT_SIGNALFD
+#endif
+
+#if SANITIZER_LINUX
+TSAN_INTERCEPTOR(int, inotify_init, int fake) {
+ SCOPED_TSAN_INTERCEPTOR(inotify_init, fake);
+ int fd = REAL(inotify_init)(fake);
+ if (fd >= 0)
+ FdInotifyCreate(thr, pc, fd);
+ return fd;
+}
+#define TSAN_MAYBE_INTERCEPT_INOTIFY_INIT TSAN_INTERCEPT(inotify_init)
+#else
+#define TSAN_MAYBE_INTERCEPT_INOTIFY_INIT
+#endif
+
+#if SANITIZER_LINUX
+TSAN_INTERCEPTOR(int, inotify_init1, int flags) {
+ SCOPED_TSAN_INTERCEPTOR(inotify_init1, flags);
+ int fd = REAL(inotify_init1)(flags);
+ if (fd >= 0)
+ FdInotifyCreate(thr, pc, fd);
+ return fd;
+}
+#define TSAN_MAYBE_INTERCEPT_INOTIFY_INIT1 TSAN_INTERCEPT(inotify_init1)
+#else
+#define TSAN_MAYBE_INTERCEPT_INOTIFY_INIT1
+#endif
+
+TSAN_INTERCEPTOR(int, socket, int domain, int type, int protocol) {
+ SCOPED_TSAN_INTERCEPTOR(socket, domain, type, protocol);
+ int fd = REAL(socket)(domain, type, protocol);
+ if (fd >= 0)
+ FdSocketCreate(thr, pc, fd);
+ return fd;
+}
+
+TSAN_INTERCEPTOR(int, socketpair, int domain, int type, int protocol, int *fd) {
+ SCOPED_TSAN_INTERCEPTOR(socketpair, domain, type, protocol, fd);
+ int res = REAL(socketpair)(domain, type, protocol, fd);
+ if (res == 0 && fd[0] >= 0 && fd[1] >= 0)
+ FdPipeCreate(thr, pc, fd[0], fd[1]);
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, connect, int fd, void *addr, unsigned addrlen) {
+ SCOPED_TSAN_INTERCEPTOR(connect, fd, addr, addrlen);
+ FdSocketConnecting(thr, pc, fd);
+ int res = REAL(connect)(fd, addr, addrlen);
+ if (res == 0 && fd >= 0)
+ FdSocketConnect(thr, pc, fd);
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, bind, int fd, void *addr, unsigned addrlen) {
+ SCOPED_TSAN_INTERCEPTOR(bind, fd, addr, addrlen);
+ int res = REAL(bind)(fd, addr, addrlen);
+ if (fd > 0 && res == 0)
+ FdAccess(thr, pc, fd);
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, listen, int fd, int backlog) {
+ SCOPED_TSAN_INTERCEPTOR(listen, fd, backlog);
+ int res = REAL(listen)(fd, backlog);
+ if (fd > 0 && res == 0)
+ FdAccess(thr, pc, fd);
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, close, int fd) {
+ SCOPED_TSAN_INTERCEPTOR(close, fd);
+ if (fd >= 0)
+ FdClose(thr, pc, fd);
+ return REAL(close)(fd);
+}
+
+#if SANITIZER_LINUX
+TSAN_INTERCEPTOR(int, __close, int fd) {
+ SCOPED_TSAN_INTERCEPTOR(__close, fd);
+ if (fd >= 0)
+ FdClose(thr, pc, fd);
+ return REAL(__close)(fd);
+}
+#define TSAN_MAYBE_INTERCEPT___CLOSE TSAN_INTERCEPT(__close)
+#else
+#define TSAN_MAYBE_INTERCEPT___CLOSE
+#endif
+
+// glibc guts
+#if SANITIZER_LINUX && !SANITIZER_ANDROID
+TSAN_INTERCEPTOR(void, __res_iclose, void *state, bool free_addr) {
+ SCOPED_TSAN_INTERCEPTOR(__res_iclose, state, free_addr);
+ int fds[64];
+ int cnt = ExtractResolvFDs(state, fds, ARRAY_SIZE(fds));
+ for (int i = 0; i < cnt; i++) {
+ if (fds[i] > 0)
+ FdClose(thr, pc, fds[i]);
+ }
+ REAL(__res_iclose)(state, free_addr);
+}
+#define TSAN_MAYBE_INTERCEPT___RES_ICLOSE TSAN_INTERCEPT(__res_iclose)
+#else
+#define TSAN_MAYBE_INTERCEPT___RES_ICLOSE
+#endif
+
+TSAN_INTERCEPTOR(int, pipe, int *pipefd) {
+ SCOPED_TSAN_INTERCEPTOR(pipe, pipefd);
+ int res = REAL(pipe)(pipefd);
+ if (res == 0 && pipefd[0] >= 0 && pipefd[1] >= 0)
+ FdPipeCreate(thr, pc, pipefd[0], pipefd[1]);
+ return res;
+}
+
+#if !SANITIZER_MAC
+TSAN_INTERCEPTOR(int, pipe2, int *pipefd, int flags) {
+ SCOPED_TSAN_INTERCEPTOR(pipe2, pipefd, flags);
+ int res = REAL(pipe2)(pipefd, flags);
+ if (res == 0 && pipefd[0] >= 0 && pipefd[1] >= 0)
+ FdPipeCreate(thr, pc, pipefd[0], pipefd[1]);
+ return res;
+}
+#endif
+
+TSAN_INTERCEPTOR(int, unlink, char *path) {
+ SCOPED_TSAN_INTERCEPTOR(unlink, path);
+ Release(thr, pc, File2addr(path));
+ int res = REAL(unlink)(path);
+ return res;
+}
+
+TSAN_INTERCEPTOR(void*, tmpfile, int fake) {
+ SCOPED_TSAN_INTERCEPTOR(tmpfile, fake);
+ void *res = REAL(tmpfile)(fake);
+ if (res) {
+ int fd = fileno_unlocked(res);
+ if (fd >= 0)
+ FdFileCreate(thr, pc, fd);
+ }
+ return res;
+}
+
+#if SANITIZER_LINUX
+TSAN_INTERCEPTOR(void*, tmpfile64, int fake) {
+ SCOPED_TSAN_INTERCEPTOR(tmpfile64, fake);
+ void *res = REAL(tmpfile64)(fake);
+ if (res) {
+ int fd = fileno_unlocked(res);
+ if (fd >= 0)
+ FdFileCreate(thr, pc, fd);
+ }
+ return res;
+}
+#define TSAN_MAYBE_INTERCEPT_TMPFILE64 TSAN_INTERCEPT(tmpfile64)
+#else
+#define TSAN_MAYBE_INTERCEPT_TMPFILE64
+#endif
+
+static void FlushStreams() {
+ // Flushing all the streams here may freeze the process if a child thread is
+ // performing file stream operations at the same time.
+ REAL(fflush)(stdout);
+ REAL(fflush)(stderr);
+}
+
+TSAN_INTERCEPTOR(void, abort, int fake) {
+ SCOPED_TSAN_INTERCEPTOR(abort, fake);
+ FlushStreams();
+ REAL(abort)(fake);
+}
+
+TSAN_INTERCEPTOR(int, rmdir, char *path) {
+ SCOPED_TSAN_INTERCEPTOR(rmdir, path);
+ Release(thr, pc, Dir2addr(path));
+ int res = REAL(rmdir)(path);
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, closedir, void *dirp) {
+ SCOPED_TSAN_INTERCEPTOR(closedir, dirp);
+ if (dirp) {
+ int fd = dirfd(dirp);
+ FdClose(thr, pc, fd);
+ }
+ return REAL(closedir)(dirp);
+}
+
+#if SANITIZER_LINUX
+TSAN_INTERCEPTOR(int, epoll_create, int size) {
+ SCOPED_TSAN_INTERCEPTOR(epoll_create, size);
+ int fd = REAL(epoll_create)(size);
+ if (fd >= 0)
+ FdPollCreate(thr, pc, fd);
+ return fd;
+}
+
+TSAN_INTERCEPTOR(int, epoll_create1, int flags) {
+ SCOPED_TSAN_INTERCEPTOR(epoll_create1, flags);
+ int fd = REAL(epoll_create1)(flags);
+ if (fd >= 0)
+ FdPollCreate(thr, pc, fd);
+ return fd;
+}
+
+TSAN_INTERCEPTOR(int, epoll_ctl, int epfd, int op, int fd, void *ev) {
+ SCOPED_TSAN_INTERCEPTOR(epoll_ctl, epfd, op, fd, ev);
+ if (epfd >= 0)
+ FdAccess(thr, pc, epfd);
+ if (epfd >= 0 && fd >= 0)
+ FdAccess(thr, pc, fd);
+ if (op == EPOLL_CTL_ADD && epfd >= 0)
+ FdRelease(thr, pc, epfd);
+ int res = REAL(epoll_ctl)(epfd, op, fd, ev);
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, epoll_wait, int epfd, void *ev, int cnt, int timeout) {
+ SCOPED_TSAN_INTERCEPTOR(epoll_wait, epfd, ev, cnt, timeout);
+ if (epfd >= 0)
+ FdAccess(thr, pc, epfd);
+ int res = BLOCK_REAL(epoll_wait)(epfd, ev, cnt, timeout);
+ if (res > 0 && epfd >= 0)
+ FdAcquire(thr, pc, epfd);
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, epoll_pwait, int epfd, void *ev, int cnt, int timeout,
+ void *sigmask) {
+ SCOPED_TSAN_INTERCEPTOR(epoll_pwait, epfd, ev, cnt, timeout, sigmask);
+ if (epfd >= 0)
+ FdAccess(thr, pc, epfd);
+ int res = BLOCK_REAL(epoll_pwait)(epfd, ev, cnt, timeout, sigmask);
+ if (res > 0 && epfd >= 0)
+ FdAcquire(thr, pc, epfd);
+ return res;
+}
+
+#define TSAN_MAYBE_INTERCEPT_EPOLL \
+ TSAN_INTERCEPT(epoll_create); \
+ TSAN_INTERCEPT(epoll_create1); \
+ TSAN_INTERCEPT(epoll_ctl); \
+ TSAN_INTERCEPT(epoll_wait); \
+ TSAN_INTERCEPT(epoll_pwait)
+#else
+#define TSAN_MAYBE_INTERCEPT_EPOLL
+#endif
+
+// The following functions are intercepted merely to process pending signals.
+// If program blocks signal X, we must deliver the signal before the function
+// returns. Similarly, if program unblocks a signal (or returns from sigsuspend)
+// it's better to deliver the signal straight away.
+TSAN_INTERCEPTOR(int, sigsuspend, const __sanitizer_sigset_t *mask) {
+ SCOPED_TSAN_INTERCEPTOR(sigsuspend, mask);
+ return REAL(sigsuspend)(mask);
+}
+
+TSAN_INTERCEPTOR(int, sigblock, int mask) {
+ SCOPED_TSAN_INTERCEPTOR(sigblock, mask);
+ return REAL(sigblock)(mask);
+}
+
+TSAN_INTERCEPTOR(int, sigsetmask, int mask) {
+ SCOPED_TSAN_INTERCEPTOR(sigsetmask, mask);
+ return REAL(sigsetmask)(mask);
+}
+
+TSAN_INTERCEPTOR(int, pthread_sigmask, int how, const __sanitizer_sigset_t *set,
+ __sanitizer_sigset_t *oldset) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_sigmask, how, set, oldset);
+ return REAL(pthread_sigmask)(how, set, oldset);
+}
+
+namespace __tsan {
+
+static void CallUserSignalHandler(ThreadState *thr, bool sync, bool acquire,
+ bool sigact, int sig,
+ __sanitizer_siginfo *info, void *uctx) {
+ __sanitizer_sigaction *sigactions = interceptor_ctx()->sigactions;
+ if (acquire)
+ Acquire(thr, 0, (uptr)&sigactions[sig]);
+ // Signals are generally asynchronous, so if we receive a signals when
+ // ignores are enabled we should disable ignores. This is critical for sync
+ // and interceptors, because otherwise we can miss syncronization and report
+ // false races.
+ int ignore_reads_and_writes = thr->ignore_reads_and_writes;
+ int ignore_interceptors = thr->ignore_interceptors;
+ int ignore_sync = thr->ignore_sync;
+ if (!ctx->after_multithreaded_fork) {
+ thr->ignore_reads_and_writes = 0;
+ thr->fast_state.ClearIgnoreBit();
+ thr->ignore_interceptors = 0;
+ thr->ignore_sync = 0;
+ }
+ // Ensure that the handler does not spoil errno.
+ const int saved_errno = errno;
+ errno = 99;
+ // This code races with sigaction. Be careful to not read sa_sigaction twice.
+ // Also need to remember pc for reporting before the call,
+ // because the handler can reset it.
+ volatile uptr pc =
+ sigact ? (uptr)sigactions[sig].sigaction : (uptr)sigactions[sig].handler;
+ if (pc != sig_dfl && pc != sig_ign) {
+ if (sigact)
+ ((__sanitizer_sigactionhandler_ptr)pc)(sig, info, uctx);
+ else
+ ((__sanitizer_sighandler_ptr)pc)(sig);
+ }
+ if (!ctx->after_multithreaded_fork) {
+ thr->ignore_reads_and_writes = ignore_reads_and_writes;
+ if (ignore_reads_and_writes)
+ thr->fast_state.SetIgnoreBit();
+ thr->ignore_interceptors = ignore_interceptors;
+ thr->ignore_sync = ignore_sync;
+ }
+ // We do not detect errno spoiling for SIGTERM,
+ // because some SIGTERM handlers do spoil errno but reraise SIGTERM,
+ // tsan reports false positive in such case.
+ // It's difficult to properly detect this situation (reraise),
+ // because in async signal processing case (when handler is called directly
+ // from rtl_generic_sighandler) we have not yet received the reraised
+ // signal; and it looks too fragile to intercept all ways to reraise a signal.
+ if (flags()->report_bugs && !sync && sig != SIGTERM && errno != 99) {
+ VarSizeStackTrace stack;
+ // StackTrace::GetNestInstructionPc(pc) is used because return address is
+ // expected, OutputReport() will undo this.
+ ObtainCurrentStack(thr, StackTrace::GetNextInstructionPc(pc), &stack);
+ ThreadRegistryLock l(ctx->thread_registry);
+ ScopedReport rep(ReportTypeErrnoInSignal);
+ if (!IsFiredSuppression(ctx, ReportTypeErrnoInSignal, stack)) {
+ rep.AddStack(stack, true);
+ OutputReport(thr, rep);
+ }
+ }
+ errno = saved_errno;
+}
+
+void ProcessPendingSignals(ThreadState *thr) {
+ ThreadSignalContext *sctx = SigCtx(thr);
+ if (sctx == 0 ||
+ atomic_load(&sctx->have_pending_signals, memory_order_relaxed) == 0)
+ return;
+ atomic_store(&sctx->have_pending_signals, 0, memory_order_relaxed);
+ atomic_fetch_add(&thr->in_signal_handler, 1, memory_order_relaxed);
+ internal_sigfillset(&sctx->emptyset);
+ int res = REAL(pthread_sigmask)(SIG_SETMASK, &sctx->emptyset, &sctx->oldset);
+ CHECK_EQ(res, 0);
+ for (int sig = 0; sig < kSigCount; sig++) {
+ SignalDesc *signal = &sctx->pending_signals[sig];
+ if (signal->armed) {
+ signal->armed = false;
+ CallUserSignalHandler(thr, false, true, signal->sigaction, sig,
+ &signal->siginfo, &signal->ctx);
+ }
+ }
+ res = REAL(pthread_sigmask)(SIG_SETMASK, &sctx->oldset, 0);
+ CHECK_EQ(res, 0);
+ atomic_fetch_add(&thr->in_signal_handler, -1, memory_order_relaxed);
+}
+
+} // namespace __tsan
+
+static bool is_sync_signal(ThreadSignalContext *sctx, int sig) {
+ return sig == SIGSEGV || sig == SIGBUS || sig == SIGILL ||
+ sig == SIGABRT || sig == SIGFPE || sig == SIGPIPE || sig == SIGSYS ||
+ // If we are sending signal to ourselves, we must process it now.
+ (sctx && sig == sctx->int_signal_send);
+}
+
+void ALWAYS_INLINE rtl_generic_sighandler(bool sigact, int sig,
+ __sanitizer_siginfo *info,
+ void *ctx) {
+ cur_thread_init();
+ ThreadState *thr = cur_thread();
+ ThreadSignalContext *sctx = SigCtx(thr);
+ if (sig < 0 || sig >= kSigCount) {
+ VPrintf(1, "ThreadSanitizer: ignoring signal %d\n", sig);
+ return;
+ }
+ // Don't mess with synchronous signals.
+ const bool sync = is_sync_signal(sctx, sig);
+ if (sync ||
+ // If we are in blocking function, we can safely process it now
+ // (but check if we are in a recursive interceptor,
+ // i.e. pthread_join()->munmap()).
+ (sctx && atomic_load(&sctx->in_blocking_func, memory_order_relaxed))) {
+ atomic_fetch_add(&thr->in_signal_handler, 1, memory_order_relaxed);
+ if (sctx && atomic_load(&sctx->in_blocking_func, memory_order_relaxed)) {
+ atomic_store(&sctx->in_blocking_func, 0, memory_order_relaxed);
+ CallUserSignalHandler(thr, sync, true, sigact, sig, info, ctx);
+ atomic_store(&sctx->in_blocking_func, 1, memory_order_relaxed);
+ } else {
+ // Be very conservative with when we do acquire in this case.
+ // It's unsafe to do acquire in async handlers, because ThreadState
+ // can be in inconsistent state.
+ // SIGSYS looks relatively safe -- it's synchronous and can actually
+ // need some global state.
+ bool acq = (sig == SIGSYS);
+ CallUserSignalHandler(thr, sync, acq, sigact, sig, info, ctx);
+ }
+ atomic_fetch_add(&thr->in_signal_handler, -1, memory_order_relaxed);
+ return;
+ }
+
+ if (sctx == 0)
+ return;
+ SignalDesc *signal = &sctx->pending_signals[sig];
+ if (signal->armed == false) {
+ signal->armed = true;
+ signal->sigaction = sigact;
+ if (info)
+ internal_memcpy(&signal->siginfo, info, sizeof(*info));
+ if (ctx)
+ internal_memcpy(&signal->ctx, ctx, sizeof(signal->ctx));
+ atomic_store(&sctx->have_pending_signals, 1, memory_order_relaxed);
+ }
+}
+
+static void rtl_sighandler(int sig) {
+ rtl_generic_sighandler(false, sig, 0, 0);
+}
+
+static void rtl_sigaction(int sig, __sanitizer_siginfo *info, void *ctx) {
+ rtl_generic_sighandler(true, sig, info, ctx);
+}
+
+TSAN_INTERCEPTOR(int, raise, int sig) {
+ SCOPED_TSAN_INTERCEPTOR(raise, sig);
+ ThreadSignalContext *sctx = SigCtx(thr);
+ CHECK_NE(sctx, 0);
+ int prev = sctx->int_signal_send;
+ sctx->int_signal_send = sig;
+ int res = REAL(raise)(sig);
+ CHECK_EQ(sctx->int_signal_send, sig);
+ sctx->int_signal_send = prev;
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, kill, int pid, int sig) {
+ SCOPED_TSAN_INTERCEPTOR(kill, pid, sig);
+ ThreadSignalContext *sctx = SigCtx(thr);
+ CHECK_NE(sctx, 0);
+ int prev = sctx->int_signal_send;
+ if (pid == (int)internal_getpid()) {
+ sctx->int_signal_send = sig;
+ }
+ int res = REAL(kill)(pid, sig);
+ if (pid == (int)internal_getpid()) {
+ CHECK_EQ(sctx->int_signal_send, sig);
+ sctx->int_signal_send = prev;
+ }
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, pthread_kill, void *tid, int sig) {
+ SCOPED_TSAN_INTERCEPTOR(pthread_kill, tid, sig);
+ ThreadSignalContext *sctx = SigCtx(thr);
+ CHECK_NE(sctx, 0);
+ int prev = sctx->int_signal_send;
+ if (tid == pthread_self()) {
+ sctx->int_signal_send = sig;
+ }
+ int res = REAL(pthread_kill)(tid, sig);
+ if (tid == pthread_self()) {
+ CHECK_EQ(sctx->int_signal_send, sig);
+ sctx->int_signal_send = prev;
+ }
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, gettimeofday, void *tv, void *tz) {
+ SCOPED_TSAN_INTERCEPTOR(gettimeofday, tv, tz);
+ // It's intercepted merely to process pending signals.
+ return REAL(gettimeofday)(tv, tz);
+}
+
+TSAN_INTERCEPTOR(int, getaddrinfo, void *node, void *service,
+ void *hints, void *rv) {
+ SCOPED_TSAN_INTERCEPTOR(getaddrinfo, node, service, hints, rv);
+ // We miss atomic synchronization in getaddrinfo,
+ // and can report false race between malloc and free
+ // inside of getaddrinfo. So ignore memory accesses.
+ ThreadIgnoreBegin(thr, pc);
+ int res = REAL(getaddrinfo)(node, service, hints, rv);
+ ThreadIgnoreEnd(thr, pc);
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, fork, int fake) {
+ if (in_symbolizer())
+ return REAL(fork)(fake);
+ SCOPED_INTERCEPTOR_RAW(fork, fake);
+ ForkBefore(thr, pc);
+ int pid;
+ {
+ // On OS X, REAL(fork) can call intercepted functions (OSSpinLockLock), and
+ // we'll assert in CheckNoLocks() unless we ignore interceptors.
+ ScopedIgnoreInterceptors ignore;
+ pid = REAL(fork)(fake);
+ }
+ if (pid == 0) {
+ // child
+ ForkChildAfter(thr, pc);
+ FdOnFork(thr, pc);
+ } else if (pid > 0) {
+ // parent
+ ForkParentAfter(thr, pc);
+ } else {
+ // error
+ ForkParentAfter(thr, pc);
+ }
+ return pid;
+}
+
+TSAN_INTERCEPTOR(int, vfork, int fake) {
+ // Some programs (e.g. openjdk) call close for all file descriptors
+ // in the child process. Under tsan it leads to false positives, because
+ // address space is shared, so the parent process also thinks that
+ // the descriptors are closed (while they are actually not).
+ // This leads to false positives due to missed synchronization.
+ // Strictly saying this is undefined behavior, because vfork child is not
+ // allowed to call any functions other than exec/exit. But this is what
+ // openjdk does, so we want to handle it.
+ // We could disable interceptors in the child process. But it's not possible
+ // to simply intercept and wrap vfork, because vfork child is not allowed
+ // to return from the function that calls vfork, and that's exactly what
+ // we would do. So this would require some assembly trickery as well.
+ // Instead we simply turn vfork into fork.
+ return WRAP(fork)(fake);
+}
+
+#if !SANITIZER_MAC && !SANITIZER_ANDROID
+typedef int (*dl_iterate_phdr_cb_t)(__sanitizer_dl_phdr_info *info, SIZE_T size,
+ void *data);
+struct dl_iterate_phdr_data {
+ ThreadState *thr;
+ uptr pc;
+ dl_iterate_phdr_cb_t cb;
+ void *data;
+};
+
+static bool IsAppNotRodata(uptr addr) {
+ return IsAppMem(addr) && *(u64*)MemToShadow(addr) != kShadowRodata;
+}
+
+static int dl_iterate_phdr_cb(__sanitizer_dl_phdr_info *info, SIZE_T size,
+ void *data) {
+ dl_iterate_phdr_data *cbdata = (dl_iterate_phdr_data *)data;
+ // dlopen/dlclose allocate/free dynamic-linker-internal memory, which is later
+ // accessible in dl_iterate_phdr callback. But we don't see synchronization
+ // inside of dynamic linker, so we "unpoison" it here in order to not
+ // produce false reports. Ignoring malloc/free in dlopen/dlclose is not enough
+ // because some libc functions call __libc_dlopen.
+ if (info && IsAppNotRodata((uptr)info->dlpi_name))
+ MemoryResetRange(cbdata->thr, cbdata->pc, (uptr)info->dlpi_name,
+ internal_strlen(info->dlpi_name));
+ int res = cbdata->cb(info, size, cbdata->data);
+ // Perform the check one more time in case info->dlpi_name was overwritten
+ // by user callback.
+ if (info && IsAppNotRodata((uptr)info->dlpi_name))
+ MemoryResetRange(cbdata->thr, cbdata->pc, (uptr)info->dlpi_name,
+ internal_strlen(info->dlpi_name));
+ return res;
+}
+
+TSAN_INTERCEPTOR(int, dl_iterate_phdr, dl_iterate_phdr_cb_t cb, void *data) {
+ SCOPED_TSAN_INTERCEPTOR(dl_iterate_phdr, cb, data);
+ dl_iterate_phdr_data cbdata;
+ cbdata.thr = thr;
+ cbdata.pc = pc;
+ cbdata.cb = cb;
+ cbdata.data = data;
+ int res = REAL(dl_iterate_phdr)(dl_iterate_phdr_cb, &cbdata);
+ return res;
+}
+#endif
+
+static int OnExit(ThreadState *thr) {
+ int status = Finalize(thr);
+ FlushStreams();
+ return status;
+}
+
+struct TsanInterceptorContext {
+ ThreadState *thr;
+ const uptr caller_pc;
+ const uptr pc;
+};
+
+#if !SANITIZER_MAC
+static void HandleRecvmsg(ThreadState *thr, uptr pc,
+ __sanitizer_msghdr *msg) {
+ int fds[64];
+ int cnt = ExtractRecvmsgFDs(msg, fds, ARRAY_SIZE(fds));
+ for (int i = 0; i < cnt; i++)
+ FdEventCreate(thr, pc, fds[i]);
+}
+#endif
+
+#include "sanitizer_common/sanitizer_platform_interceptors.h"
+// Causes interceptor recursion (getaddrinfo() and fopen())
+#undef SANITIZER_INTERCEPT_GETADDRINFO
+// We define our own.
+#if SANITIZER_INTERCEPT_TLS_GET_ADDR
+#define NEED_TLS_GET_ADDR
+#endif
+#undef SANITIZER_INTERCEPT_TLS_GET_ADDR
+#undef SANITIZER_INTERCEPT_PTHREAD_SIGMASK
+
+#define COMMON_INTERCEPT_FUNCTION(name) INTERCEPT_FUNCTION(name)
+#define COMMON_INTERCEPT_FUNCTION_VER(name, ver) \
+ INTERCEPT_FUNCTION_VER(name, ver)
+
+#define COMMON_INTERCEPTOR_WRITE_RANGE(ctx, ptr, size) \
+ MemoryAccessRange(((TsanInterceptorContext *)ctx)->thr, \
+ ((TsanInterceptorContext *)ctx)->pc, (uptr)ptr, size, \
+ true)
+
+#define COMMON_INTERCEPTOR_READ_RANGE(ctx, ptr, size) \
+ MemoryAccessRange(((TsanInterceptorContext *) ctx)->thr, \
+ ((TsanInterceptorContext *) ctx)->pc, (uptr) ptr, size, \
+ false)
+
+#define COMMON_INTERCEPTOR_ENTER(ctx, func, ...) \
+ SCOPED_TSAN_INTERCEPTOR(func, __VA_ARGS__); \
+ TsanInterceptorContext _ctx = {thr, caller_pc, pc}; \
+ ctx = (void *)&_ctx; \
+ (void) ctx;
+
+#define COMMON_INTERCEPTOR_ENTER_NOIGNORE(ctx, func, ...) \
+ SCOPED_INTERCEPTOR_RAW(func, __VA_ARGS__); \
+ TsanInterceptorContext _ctx = {thr, caller_pc, pc}; \
+ ctx = (void *)&_ctx; \
+ (void) ctx;
+
+#define COMMON_INTERCEPTOR_FILE_OPEN(ctx, file, path) \
+ if (path) \
+ Acquire(thr, pc, File2addr(path)); \
+ if (file) { \
+ int fd = fileno_unlocked(file); \
+ if (fd >= 0) FdFileCreate(thr, pc, fd); \
+ }
+
+#define COMMON_INTERCEPTOR_FILE_CLOSE(ctx, file) \
+ if (file) { \
+ int fd = fileno_unlocked(file); \
+ if (fd >= 0) FdClose(thr, pc, fd); \
+ }
+
+#define COMMON_INTERCEPTOR_LIBRARY_LOADED(filename, handle) \
+ libignore()->OnLibraryLoaded(filename)
+
+#define COMMON_INTERCEPTOR_LIBRARY_UNLOADED() \
+ libignore()->OnLibraryUnloaded()
+
+#define COMMON_INTERCEPTOR_ACQUIRE(ctx, u) \
+ Acquire(((TsanInterceptorContext *) ctx)->thr, pc, u)
+
+#define COMMON_INTERCEPTOR_RELEASE(ctx, u) \
+ Release(((TsanInterceptorContext *) ctx)->thr, pc, u)
+
+#define COMMON_INTERCEPTOR_DIR_ACQUIRE(ctx, path) \
+ Acquire(((TsanInterceptorContext *) ctx)->thr, pc, Dir2addr(path))
+
+#define COMMON_INTERCEPTOR_FD_ACQUIRE(ctx, fd) \
+ FdAcquire(((TsanInterceptorContext *) ctx)->thr, pc, fd)
+
+#define COMMON_INTERCEPTOR_FD_RELEASE(ctx, fd) \
+ FdRelease(((TsanInterceptorContext *) ctx)->thr, pc, fd)
+
+#define COMMON_INTERCEPTOR_FD_ACCESS(ctx, fd) \
+ FdAccess(((TsanInterceptorContext *) ctx)->thr, pc, fd)
+
+#define COMMON_INTERCEPTOR_FD_SOCKET_ACCEPT(ctx, fd, newfd) \
+ FdSocketAccept(((TsanInterceptorContext *) ctx)->thr, pc, fd, newfd)
+
+#define COMMON_INTERCEPTOR_SET_THREAD_NAME(ctx, name) \
+ ThreadSetName(((TsanInterceptorContext *) ctx)->thr, name)
+
+#define COMMON_INTERCEPTOR_SET_PTHREAD_NAME(ctx, thread, name) \
+ __tsan::ctx->thread_registry->SetThreadNameByUserId(thread, name)
+
+#define COMMON_INTERCEPTOR_BLOCK_REAL(name) BLOCK_REAL(name)
+
+#define COMMON_INTERCEPTOR_ON_EXIT(ctx) \
+ OnExit(((TsanInterceptorContext *) ctx)->thr)
+
+#define COMMON_INTERCEPTOR_MUTEX_PRE_LOCK(ctx, m) \
+ MutexPreLock(((TsanInterceptorContext *)ctx)->thr, \
+ ((TsanInterceptorContext *)ctx)->pc, (uptr)m)
+
+#define COMMON_INTERCEPTOR_MUTEX_POST_LOCK(ctx, m) \
+ MutexPostLock(((TsanInterceptorContext *)ctx)->thr, \
+ ((TsanInterceptorContext *)ctx)->pc, (uptr)m)
+
+#define COMMON_INTERCEPTOR_MUTEX_UNLOCK(ctx, m) \
+ MutexUnlock(((TsanInterceptorContext *)ctx)->thr, \
+ ((TsanInterceptorContext *)ctx)->pc, (uptr)m)
+
+#define COMMON_INTERCEPTOR_MUTEX_REPAIR(ctx, m) \
+ MutexRepair(((TsanInterceptorContext *)ctx)->thr, \
+ ((TsanInterceptorContext *)ctx)->pc, (uptr)m)
+
+#define COMMON_INTERCEPTOR_MUTEX_INVALID(ctx, m) \
+ MutexInvalidAccess(((TsanInterceptorContext *)ctx)->thr, \
+ ((TsanInterceptorContext *)ctx)->pc, (uptr)m)
+
+#define COMMON_INTERCEPTOR_MMAP_IMPL(ctx, mmap, addr, sz, prot, flags, fd, \
+ off) \
+ do { \
+ return mmap_interceptor(thr, pc, REAL(mmap), addr, sz, prot, flags, fd, \
+ off); \
+ } while (false)
+
+#if !SANITIZER_MAC
+#define COMMON_INTERCEPTOR_HANDLE_RECVMSG(ctx, msg) \
+ HandleRecvmsg(((TsanInterceptorContext *)ctx)->thr, \
+ ((TsanInterceptorContext *)ctx)->pc, msg)
+#endif
+
+#define COMMON_INTERCEPTOR_GET_TLS_RANGE(begin, end) \
+ if (TsanThread *t = GetCurrentThread()) { \
+ *begin = t->tls_begin(); \
+ *end = t->tls_end(); \
+ } else { \
+ *begin = *end = 0; \
+ }
+
+#define COMMON_INTERCEPTOR_USER_CALLBACK_START() \
+ SCOPED_TSAN_INTERCEPTOR_USER_CALLBACK_START()
+
+#define COMMON_INTERCEPTOR_USER_CALLBACK_END() \
+ SCOPED_TSAN_INTERCEPTOR_USER_CALLBACK_END()
+
+#include "sanitizer_common/sanitizer_common_interceptors.inc"
+
+static int sigaction_impl(int sig, const __sanitizer_sigaction *act,
+ __sanitizer_sigaction *old);
+static __sanitizer_sighandler_ptr signal_impl(int sig,
+ __sanitizer_sighandler_ptr h);
+
+#define SIGNAL_INTERCEPTOR_SIGACTION_IMPL(signo, act, oldact) \
+ { return sigaction_impl(signo, act, oldact); }
+
+#define SIGNAL_INTERCEPTOR_SIGNAL_IMPL(func, signo, handler) \
+ { return (uptr)signal_impl(signo, (__sanitizer_sighandler_ptr)handler); }
+
+#include "sanitizer_common/sanitizer_signal_interceptors.inc"
+
+int sigaction_impl(int sig, const __sanitizer_sigaction *act,
+ __sanitizer_sigaction *old) {
+ // Note: if we call REAL(sigaction) directly for any reason without proxying
+ // the signal handler through rtl_sigaction, very bad things will happen.
+ // The handler will run synchronously and corrupt tsan per-thread state.
+ SCOPED_INTERCEPTOR_RAW(sigaction, sig, act, old);
+ __sanitizer_sigaction *sigactions = interceptor_ctx()->sigactions;
+ __sanitizer_sigaction old_stored;
+ if (old) internal_memcpy(&old_stored, &sigactions[sig], sizeof(old_stored));
+ __sanitizer_sigaction newact;
+ if (act) {
+ // Copy act into sigactions[sig].
+ // Can't use struct copy, because compiler can emit call to memcpy.
+ // Can't use internal_memcpy, because it copies byte-by-byte,
+ // and signal handler reads the handler concurrently. It it can read
+ // some bytes from old value and some bytes from new value.
+ // Use volatile to prevent insertion of memcpy.
+ sigactions[sig].handler =
+ *(volatile __sanitizer_sighandler_ptr const *)&act->handler;
+ sigactions[sig].sa_flags = *(volatile int const *)&act->sa_flags;
+ internal_memcpy(&sigactions[sig].sa_mask, &act->sa_mask,
+ sizeof(sigactions[sig].sa_mask));
+#if !SANITIZER_FREEBSD && !SANITIZER_MAC && !SANITIZER_NETBSD
+ sigactions[sig].sa_restorer = act->sa_restorer;
+#endif
+ internal_memcpy(&newact, act, sizeof(newact));
+ internal_sigfillset(&newact.sa_mask);
+ if ((uptr)act->handler != sig_ign && (uptr)act->handler != sig_dfl) {
+ if (newact.sa_flags & SA_SIGINFO)
+ newact.sigaction = rtl_sigaction;
+ else
+ newact.handler = rtl_sighandler;
+ }
+ ReleaseStore(thr, pc, (uptr)&sigactions[sig]);
+ act = &newact;
+ }
+ int res = REAL(sigaction)(sig, act, old);
+ if (res == 0 && old) {
+ uptr cb = (uptr)old->sigaction;
+ if (cb == (uptr)rtl_sigaction || cb == (uptr)rtl_sighandler) {
+ internal_memcpy(old, &old_stored, sizeof(*old));
+ }
+ }
+ return res;
+}
+
+static __sanitizer_sighandler_ptr signal_impl(int sig,
+ __sanitizer_sighandler_ptr h) {
+ __sanitizer_sigaction act;
+ act.handler = h;
+ internal_memset(&act.sa_mask, -1, sizeof(act.sa_mask));
+ act.sa_flags = 0;
+ __sanitizer_sigaction old;
+ int res = sigaction_symname(sig, &act, &old);
+ if (res) return (__sanitizer_sighandler_ptr)sig_err;
+ return old.handler;
+}
+
+#define TSAN_SYSCALL() \
+ ThreadState *thr = cur_thread(); \
+ if (thr->ignore_interceptors) \
+ return; \
+ ScopedSyscall scoped_syscall(thr) \
+/**/
+
+struct ScopedSyscall {
+ ThreadState *thr;
+
+ explicit ScopedSyscall(ThreadState *thr)
+ : thr(thr) {
+ Initialize(thr);
+ }
+
+ ~ScopedSyscall() {
+ ProcessPendingSignals(thr);
+ }
+};
+
+#if !SANITIZER_FREEBSD && !SANITIZER_MAC
+static void syscall_access_range(uptr pc, uptr p, uptr s, bool write) {
+ TSAN_SYSCALL();
+ MemoryAccessRange(thr, pc, p, s, write);
+}
+
+static void syscall_acquire(uptr pc, uptr addr) {
+ TSAN_SYSCALL();
+ Acquire(thr, pc, addr);
+ DPrintf("syscall_acquire(%p)\n", addr);
+}
+
+static void syscall_release(uptr pc, uptr addr) {
+ TSAN_SYSCALL();
+ DPrintf("syscall_release(%p)\n", addr);
+ Release(thr, pc, addr);
+}
+
+static void syscall_fd_close(uptr pc, int fd) {
+ TSAN_SYSCALL();
+ FdClose(thr, pc, fd);
+}
+
+static USED void syscall_fd_acquire(uptr pc, int fd) {
+ TSAN_SYSCALL();
+ FdAcquire(thr, pc, fd);
+ DPrintf("syscall_fd_acquire(%p)\n", fd);
+}
+
+static USED void syscall_fd_release(uptr pc, int fd) {
+ TSAN_SYSCALL();
+ DPrintf("syscall_fd_release(%p)\n", fd);
+ FdRelease(thr, pc, fd);
+}
+
+static void syscall_pre_fork(uptr pc) {
+ TSAN_SYSCALL();
+ ForkBefore(thr, pc);
+}
+
+static void syscall_post_fork(uptr pc, int pid) {
+ TSAN_SYSCALL();
+ if (pid == 0) {
+ // child
+ ForkChildAfter(thr, pc);
+ FdOnFork(thr, pc);
+ } else if (pid > 0) {
+ // parent
+ ForkParentAfter(thr, pc);
+ } else {
+ // error
+ ForkParentAfter(thr, pc);
+ }
+}
+#endif
+
+#define COMMON_SYSCALL_PRE_READ_RANGE(p, s) \
+ syscall_access_range(GET_CALLER_PC(), (uptr)(p), (uptr)(s), false)
+
+#define COMMON_SYSCALL_PRE_WRITE_RANGE(p, s) \
+ syscall_access_range(GET_CALLER_PC(), (uptr)(p), (uptr)(s), true)
+
+#define COMMON_SYSCALL_POST_READ_RANGE(p, s) \
+ do { \
+ (void)(p); \
+ (void)(s); \
+ } while (false)
+
+#define COMMON_SYSCALL_POST_WRITE_RANGE(p, s) \
+ do { \
+ (void)(p); \
+ (void)(s); \
+ } while (false)
+
+#define COMMON_SYSCALL_ACQUIRE(addr) \
+ syscall_acquire(GET_CALLER_PC(), (uptr)(addr))
+
+#define COMMON_SYSCALL_RELEASE(addr) \
+ syscall_release(GET_CALLER_PC(), (uptr)(addr))
+
+#define COMMON_SYSCALL_FD_CLOSE(fd) syscall_fd_close(GET_CALLER_PC(), fd)
+
+#define COMMON_SYSCALL_FD_ACQUIRE(fd) syscall_fd_acquire(GET_CALLER_PC(), fd)
+
+#define COMMON_SYSCALL_FD_RELEASE(fd) syscall_fd_release(GET_CALLER_PC(), fd)
+
+#define COMMON_SYSCALL_PRE_FORK() \
+ syscall_pre_fork(GET_CALLER_PC())
+
+#define COMMON_SYSCALL_POST_FORK(res) \
+ syscall_post_fork(GET_CALLER_PC(), res)
+
+#include "sanitizer_common/sanitizer_common_syscalls.inc"
+#include "sanitizer_common/sanitizer_syscalls_netbsd.inc"
+
+#ifdef NEED_TLS_GET_ADDR
+// Define own interceptor instead of sanitizer_common's for three reasons:
+// 1. It must not process pending signals.
+// Signal handlers may contain MOVDQA instruction (see below).
+// 2. It must be as simple as possible to not contain MOVDQA.
+// 3. Sanitizer_common version uses COMMON_INTERCEPTOR_INITIALIZE_RANGE which
+// is empty for tsan (meant only for msan).
+// Note: __tls_get_addr can be called with mis-aligned stack due to:
+// https://gcc.gnu.org/bugzilla/show_bug.cgi?id=58066
+// So the interceptor must work with mis-aligned stack, in particular, does not
+// execute MOVDQA with stack addresses.
+TSAN_INTERCEPTOR(void *, __tls_get_addr, void *arg) {
+ void *res = REAL(__tls_get_addr)(arg);
+ ThreadState *thr = cur_thread();
+ if (!thr)
+ return res;
+ DTLS::DTV *dtv = DTLS_on_tls_get_addr(arg, res, thr->tls_addr,
+ thr->tls_addr + thr->tls_size);
+ if (!dtv)
+ return res;
+ // New DTLS block has been allocated.
+ MemoryResetRange(thr, 0, dtv->beg, dtv->size);
+ return res;
+}
+#endif
+
+#if SANITIZER_NETBSD
+TSAN_INTERCEPTOR(void, _lwp_exit) {
+ SCOPED_TSAN_INTERCEPTOR(_lwp_exit);
+ DestroyThreadState();
+ REAL(_lwp_exit)();
+}
+#define TSAN_MAYBE_INTERCEPT__LWP_EXIT TSAN_INTERCEPT(_lwp_exit)
+#else
+#define TSAN_MAYBE_INTERCEPT__LWP_EXIT
+#endif
+
+#if SANITIZER_FREEBSD
+TSAN_INTERCEPTOR(void, thr_exit, tid_t *state) {
+ SCOPED_TSAN_INTERCEPTOR(thr_exit, state);
+ DestroyThreadState();
+ REAL(thr_exit(state));
+}
+#define TSAN_MAYBE_INTERCEPT_THR_EXIT TSAN_INTERCEPT(thr_exit)
+#else
+#define TSAN_MAYBE_INTERCEPT_THR_EXIT
+#endif
+
+TSAN_INTERCEPTOR_NETBSD_ALIAS(int, cond_init, void *c, void *a)
+TSAN_INTERCEPTOR_NETBSD_ALIAS(int, cond_signal, void *c)
+TSAN_INTERCEPTOR_NETBSD_ALIAS(int, cond_broadcast, void *c)
+TSAN_INTERCEPTOR_NETBSD_ALIAS(int, cond_wait, void *c, void *m)
+TSAN_INTERCEPTOR_NETBSD_ALIAS(int, cond_destroy, void *c)
+TSAN_INTERCEPTOR_NETBSD_ALIAS(int, mutex_init, void *m, void *a)
+TSAN_INTERCEPTOR_NETBSD_ALIAS(int, mutex_destroy, void *m)
+TSAN_INTERCEPTOR_NETBSD_ALIAS(int, mutex_trylock, void *m)
+TSAN_INTERCEPTOR_NETBSD_ALIAS(int, rwlock_init, void *m, void *a)
+TSAN_INTERCEPTOR_NETBSD_ALIAS(int, rwlock_destroy, void *m)
+TSAN_INTERCEPTOR_NETBSD_ALIAS(int, rwlock_rdlock, void *m)
+TSAN_INTERCEPTOR_NETBSD_ALIAS(int, rwlock_tryrdlock, void *m)
+TSAN_INTERCEPTOR_NETBSD_ALIAS(int, rwlock_wrlock, void *m)
+TSAN_INTERCEPTOR_NETBSD_ALIAS(int, rwlock_trywrlock, void *m)
+TSAN_INTERCEPTOR_NETBSD_ALIAS(int, rwlock_unlock, void *m)
+TSAN_INTERCEPTOR_NETBSD_ALIAS_THR(int, once, void *o, void (*f)())
+TSAN_INTERCEPTOR_NETBSD_ALIAS_THR2(int, sigsetmask, sigmask, int a, void *b,
+ void *c)
+
+namespace __tsan {
+
+static void finalize(void *arg) {
+ ThreadState *thr = cur_thread();
+ int status = Finalize(thr);
+ // Make sure the output is not lost.
+ FlushStreams();
+ if (status)
+ Die();
+}
+
+#if !SANITIZER_MAC && !SANITIZER_ANDROID
+static void unreachable() {
+ Report("FATAL: ThreadSanitizer: unreachable called\n");
+ Die();
+}
+#endif
+
+// Define default implementation since interception of libdispatch is optional.
+SANITIZER_WEAK_ATTRIBUTE void InitializeLibdispatchInterceptors() {}
+
+void InitializeInterceptors() {
+#if !SANITIZER_MAC
+ // We need to setup it early, because functions like dlsym() can call it.
+ REAL(memset) = internal_memset;
+ REAL(memcpy) = internal_memcpy;
+#endif
+
+ // Instruct libc malloc to consume less memory.
+#if SANITIZER_LINUX
+ mallopt(1, 0); // M_MXFAST
+ mallopt(-3, 32*1024); // M_MMAP_THRESHOLD
+#endif
+
+ new(interceptor_ctx()) InterceptorContext();
+
+ InitializeCommonInterceptors();
+ InitializeSignalInterceptors();
+ InitializeLibdispatchInterceptors();
+
+#if !SANITIZER_MAC
+ // We can not use TSAN_INTERCEPT to get setjmp addr,
+ // because it does &setjmp and setjmp is not present in some versions of libc.
+ using __interception::InterceptFunction;
+ InterceptFunction(TSAN_STRING_SETJMP, (uptr*)&REAL(setjmp_symname), 0, 0);
+ InterceptFunction("_setjmp", (uptr*)&REAL(_setjmp), 0, 0);
+ InterceptFunction(TSAN_STRING_SIGSETJMP, (uptr*)&REAL(sigsetjmp_symname), 0,
+ 0);
+#if !SANITIZER_NETBSD
+ InterceptFunction("__sigsetjmp", (uptr*)&REAL(__sigsetjmp), 0, 0);
+#endif
+#endif
+
+ TSAN_INTERCEPT(longjmp_symname);
+ TSAN_INTERCEPT(siglongjmp_symname);
+#if SANITIZER_NETBSD
+ TSAN_INTERCEPT(_longjmp);
+#endif
+
+ TSAN_INTERCEPT(malloc);
+ TSAN_INTERCEPT(__libc_memalign);
+ TSAN_INTERCEPT(calloc);
+ TSAN_INTERCEPT(realloc);
+ TSAN_INTERCEPT(reallocarray);
+ TSAN_INTERCEPT(free);
+ TSAN_INTERCEPT(cfree);
+ TSAN_INTERCEPT(munmap);
+ TSAN_MAYBE_INTERCEPT_MEMALIGN;
+ TSAN_INTERCEPT(valloc);
+ TSAN_MAYBE_INTERCEPT_PVALLOC;
+ TSAN_INTERCEPT(posix_memalign);
+
+ TSAN_INTERCEPT(strcpy);
+ TSAN_INTERCEPT(strncpy);
+ TSAN_INTERCEPT(strdup);
+
+ TSAN_INTERCEPT(pthread_create);
+ TSAN_INTERCEPT(pthread_join);
+ TSAN_INTERCEPT(pthread_detach);
+ TSAN_INTERCEPT(pthread_exit);
+ #if SANITIZER_LINUX
+ TSAN_INTERCEPT(pthread_tryjoin_np);
+ TSAN_INTERCEPT(pthread_timedjoin_np);
+ #endif
+
+ TSAN_INTERCEPT_VER(pthread_cond_init, PTHREAD_ABI_BASE);
+ TSAN_INTERCEPT_VER(pthread_cond_signal, PTHREAD_ABI_BASE);
+ TSAN_INTERCEPT_VER(pthread_cond_broadcast, PTHREAD_ABI_BASE);
+ TSAN_INTERCEPT_VER(pthread_cond_wait, PTHREAD_ABI_BASE);
+ TSAN_INTERCEPT_VER(pthread_cond_timedwait, PTHREAD_ABI_BASE);
+ TSAN_INTERCEPT_VER(pthread_cond_destroy, PTHREAD_ABI_BASE);
+
+ TSAN_INTERCEPT(pthread_mutex_init);
+ TSAN_INTERCEPT(pthread_mutex_destroy);
+ TSAN_INTERCEPT(pthread_mutex_trylock);
+ TSAN_INTERCEPT(pthread_mutex_timedlock);
+
+ TSAN_INTERCEPT(pthread_spin_init);
+ TSAN_INTERCEPT(pthread_spin_destroy);
+ TSAN_INTERCEPT(pthread_spin_lock);
+ TSAN_INTERCEPT(pthread_spin_trylock);
+ TSAN_INTERCEPT(pthread_spin_unlock);
+
+ TSAN_INTERCEPT(pthread_rwlock_init);
+ TSAN_INTERCEPT(pthread_rwlock_destroy);
+ TSAN_INTERCEPT(pthread_rwlock_rdlock);
+ TSAN_INTERCEPT(pthread_rwlock_tryrdlock);
+ TSAN_INTERCEPT(pthread_rwlock_timedrdlock);
+ TSAN_INTERCEPT(pthread_rwlock_wrlock);
+ TSAN_INTERCEPT(pthread_rwlock_trywrlock);
+ TSAN_INTERCEPT(pthread_rwlock_timedwrlock);
+ TSAN_INTERCEPT(pthread_rwlock_unlock);
+
+ TSAN_INTERCEPT(pthread_barrier_init);
+ TSAN_INTERCEPT(pthread_barrier_destroy);
+ TSAN_INTERCEPT(pthread_barrier_wait);
+
+ TSAN_INTERCEPT(pthread_once);
+
+ TSAN_INTERCEPT(fstat);
+ TSAN_MAYBE_INTERCEPT___FXSTAT;
+ TSAN_MAYBE_INTERCEPT_FSTAT64;
+ TSAN_MAYBE_INTERCEPT___FXSTAT64;
+ TSAN_INTERCEPT(open);
+ TSAN_MAYBE_INTERCEPT_OPEN64;
+ TSAN_INTERCEPT(creat);
+ TSAN_MAYBE_INTERCEPT_CREAT64;
+ TSAN_INTERCEPT(dup);
+ TSAN_INTERCEPT(dup2);
+ TSAN_INTERCEPT(dup3);
+ TSAN_MAYBE_INTERCEPT_EVENTFD;
+ TSAN_MAYBE_INTERCEPT_SIGNALFD;
+ TSAN_MAYBE_INTERCEPT_INOTIFY_INIT;
+ TSAN_MAYBE_INTERCEPT_INOTIFY_INIT1;
+ TSAN_INTERCEPT(socket);
+ TSAN_INTERCEPT(socketpair);
+ TSAN_INTERCEPT(connect);
+ TSAN_INTERCEPT(bind);
+ TSAN_INTERCEPT(listen);
+ TSAN_MAYBE_INTERCEPT_EPOLL;
+ TSAN_INTERCEPT(close);
+ TSAN_MAYBE_INTERCEPT___CLOSE;
+ TSAN_MAYBE_INTERCEPT___RES_ICLOSE;
+ TSAN_INTERCEPT(pipe);
+ TSAN_INTERCEPT(pipe2);
+
+ TSAN_INTERCEPT(unlink);
+ TSAN_INTERCEPT(tmpfile);
+ TSAN_MAYBE_INTERCEPT_TMPFILE64;
+ TSAN_INTERCEPT(abort);
+ TSAN_INTERCEPT(rmdir);
+ TSAN_INTERCEPT(closedir);
+
+ TSAN_INTERCEPT(sigsuspend);
+ TSAN_INTERCEPT(sigblock);
+ TSAN_INTERCEPT(sigsetmask);
+ TSAN_INTERCEPT(pthread_sigmask);
+ TSAN_INTERCEPT(raise);
+ TSAN_INTERCEPT(kill);
+ TSAN_INTERCEPT(pthread_kill);
+ TSAN_INTERCEPT(sleep);
+ TSAN_INTERCEPT(usleep);
+ TSAN_INTERCEPT(nanosleep);
+ TSAN_INTERCEPT(pause);
+ TSAN_INTERCEPT(gettimeofday);
+ TSAN_INTERCEPT(getaddrinfo);
+
+ TSAN_INTERCEPT(fork);
+ TSAN_INTERCEPT(vfork);
+#if !SANITIZER_ANDROID
+ TSAN_INTERCEPT(dl_iterate_phdr);
+#endif
+ TSAN_MAYBE_INTERCEPT_ON_EXIT;
+ TSAN_INTERCEPT(__cxa_atexit);
+ TSAN_INTERCEPT(_exit);
+
+#ifdef NEED_TLS_GET_ADDR
+ TSAN_INTERCEPT(__tls_get_addr);
+#endif
+
+ TSAN_MAYBE_INTERCEPT__LWP_EXIT;
+ TSAN_MAYBE_INTERCEPT_THR_EXIT;
+
+#if !SANITIZER_MAC && !SANITIZER_ANDROID
+ // Need to setup it, because interceptors check that the function is resolved.
+ // But atexit is emitted directly into the module, so can't be resolved.
+ REAL(atexit) = (int(*)(void(*)()))unreachable;
+#endif
+
+ if (REAL(__cxa_atexit)(&finalize, 0, 0)) {
+ Printf("ThreadSanitizer: failed to setup atexit callback\n");
+ Die();
+ }
+
+#if !SANITIZER_MAC && !SANITIZER_NETBSD && !SANITIZER_FREEBSD
+ if (pthread_key_create(&interceptor_ctx()->finalize_key, &thread_finalize)) {
+ Printf("ThreadSanitizer: failed to create thread key\n");
+ Die();
+ }
+#endif
+
+ TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(cond_init);
+ TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(cond_signal);
+ TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(cond_broadcast);
+ TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(cond_wait);
+ TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(cond_destroy);
+ TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(mutex_init);
+ TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(mutex_destroy);
+ TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(mutex_trylock);
+ TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(rwlock_init);
+ TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(rwlock_destroy);
+ TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(rwlock_rdlock);
+ TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(rwlock_tryrdlock);
+ TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(rwlock_wrlock);
+ TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(rwlock_trywrlock);
+ TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS(rwlock_unlock);
+ TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS_THR(once);
+ TSAN_MAYBE_INTERCEPT_NETBSD_ALIAS_THR(sigsetmask);
+
+ FdInit();
+}
+
+} // namespace __tsan
+
+// Invisible barrier for tests.
+// There were several unsuccessful iterations for this functionality:
+// 1. Initially it was implemented in user code using
+// REAL(pthread_barrier_wait). But pthread_barrier_wait is not supported on
+// MacOS. Futexes are linux-specific for this matter.
+// 2. Then we switched to atomics+usleep(10). But usleep produced parasitic
+// "as-if synchronized via sleep" messages in reports which failed some
+// output tests.
+// 3. Then we switched to atomics+sched_yield. But this produced tons of tsan-
+// visible events, which lead to "failed to restore stack trace" failures.
+// Note that no_sanitize_thread attribute does not turn off atomic interception
+// so attaching it to the function defined in user code does not help.
+// That's why we now have what we have.
+extern "C" SANITIZER_INTERFACE_ATTRIBUTE
+void __tsan_testonly_barrier_init(u64 *barrier, u32 count) {
+ if (count >= (1 << 8)) {
+ Printf("barrier_init: count is too large (%d)\n", count);
+ Die();
+ }
+ // 8 lsb is thread count, the remaining are count of entered threads.
+ *barrier = count;
+}
+
+extern "C" SANITIZER_INTERFACE_ATTRIBUTE
+void __tsan_testonly_barrier_wait(u64 *barrier) {
+ unsigned old = __atomic_fetch_add(barrier, 1 << 8, __ATOMIC_RELAXED);
+ unsigned old_epoch = (old >> 8) / (old & 0xff);
+ for (;;) {
+ unsigned cur = __atomic_load_n(barrier, __ATOMIC_RELAXED);
+ unsigned cur_epoch = (cur >> 8) / (cur & 0xff);
+ if (cur_epoch != old_epoch)
+ return;
+ internal_sched_yield();
+ }
+}
Modified: compiler-rt/trunk/lib/tsan/rtl/tsan_report.cpp
URL: http://llvm.org/viewvc/llvm-project/compiler-rt/trunk/lib/tsan/rtl/tsan_report.cpp?rev=373282&r1=373281&r2=373282&view=diff
==============================================================================
--- compiler-rt/trunk/lib/tsan/rtl/tsan_report.cpp (original)
+++ compiler-rt/trunk/lib/tsan/rtl/tsan_report.cpp Mon Sep 30 17:58:26 2019
@@ -298,7 +298,7 @@ static bool FrameIsInternal(const Symbol
const char *file = frame->info.file;
const char *module = frame->info.module;
if (file != 0 &&
- (internal_strstr(file, "tsan_interceptors.cpp") ||
+ (internal_strstr(file, "tsan_interceptors_posix.cpp") ||
internal_strstr(file, "sanitizer_common_interceptors.inc") ||
internal_strstr(file, "tsan_interface_")))
return true;
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