libsanitizer/lsan/lsan_thread.cc - gcc - Git at Google

 //=-- lsan_thread.cc ------------------------------------------------------===//
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This file is a part of LeakSanitizer.
 // See lsan_thread.h for details.
 //
 //===----------------------------------------------------------------------===//

 #include "lsan_thread.h"

 #include "sanitizer_common/sanitizer_common.h"
 #include "sanitizer_common/sanitizer_placement_new.h"
 #include "sanitizer_common/sanitizer_thread_registry.h"
 #include "sanitizer_common/sanitizer_tls_get_addr.h"
 #include "lsan_allocator.h"
 #include "lsan_common.h"

 namespace __lsan {

 static ThreadRegistry *thread_registry;

 static ThreadContextBase *CreateThreadContext(u32 tid) {
   void *mem = MmapOrDie(sizeof(ThreadContext), "ThreadContext");
   return new(mem) ThreadContext(tid);
 }

 static const uptr kMaxThreads = 1 << 13;
 static const uptr kThreadQuarantineSize = 64;

 void InitializeThreadRegistry() {
   static ALIGNED(64) char thread_registry_placeholder[sizeof(ThreadRegistry)];
   thread_registry = new(thread_registry_placeholder)
     ThreadRegistry(CreateThreadContext, kMaxThreads, kThreadQuarantineSize);
 }

 ThreadContext::ThreadContext(int tid)
     : ThreadContextBase(tid),
       stack_begin_(0),
       stack_end_(0),
       cache_begin_(0),
       cache_end_(0),
       tls_begin_(0),
       tls_end_(0),
       dtls_(nullptr) {}

 struct OnStartedArgs {
   uptr stack_begin, stack_end,
        cache_begin, cache_end,
        tls_begin, tls_end;
   DTLS *dtls;
 };

 void ThreadContext::OnStarted(void *arg) {
   OnStartedArgs *args = reinterpret_cast<OnStartedArgs *>(arg);
   stack_begin_ = args->stack_begin;
   stack_end_ = args->stack_end;
   tls_begin_ = args->tls_begin;
   tls_end_ = args->tls_end;
   cache_begin_ = args->cache_begin;
   cache_end_ = args->cache_end;
   dtls_ = args->dtls;
 }

 void ThreadContext::OnFinished() {
   AllocatorThreadFinish();
   DTLS_Destroy();
 }

 u32 ThreadCreate(u32 parent_tid, uptr user_id, bool detached) {
   return thread_registry->CreateThread(user_id, detached, parent_tid,
                                        /* arg */ nullptr);
 }

 void ThreadStart(u32 tid, tid_t os_id, bool workerthread) {
   OnStartedArgs args;
   uptr stack_size = 0;
   uptr tls_size = 0;
   GetThreadStackAndTls(tid == 0, &args.stack_begin, &stack_size,
                        &args.tls_begin, &tls_size);
   args.stack_end = args.stack_begin + stack_size;
   args.tls_end = args.tls_begin + tls_size;
   GetAllocatorCacheRange(&args.cache_begin, &args.cache_end);
   args.dtls = DTLS_Get();
   thread_registry->StartThread(tid, os_id, workerthread, &args);
 }

 void ThreadFinish() {
   thread_registry->FinishThread(GetCurrentThread());
   SetCurrentThread(kInvalidTid);
 }

 ThreadContext *CurrentThreadContext() {
   if (!thread_registry) return nullptr;
   if (GetCurrentThread() == kInvalidTid)
     return nullptr;
   // No lock needed when getting current thread.
   return (ThreadContext *)thread_registry->GetThreadLocked(GetCurrentThread());
 }

 static bool FindThreadByUid(ThreadContextBase *tctx, void *arg) {
   uptr uid = (uptr)arg;
   if (tctx->user_id == uid && tctx->status != ThreadStatusInvalid) {
     return true;
   }
   return false;
 }

 u32 ThreadTid(uptr uid) {
   return thread_registry->FindThread(FindThreadByUid, (void*)uid);
 }

 void ThreadJoin(u32 tid) {
   CHECK_NE(tid, kInvalidTid);
   thread_registry->JoinThread(tid, /* arg */nullptr);
 }

 void EnsureMainThreadIDIsCorrect() {
   if (GetCurrentThread() == 0)
     CurrentThreadContext()->os_id = GetTid();
 }

 ///// Interface to the common LSan module. /////

 bool GetThreadRangesLocked(tid_t os_id, uptr *stack_begin, uptr *stack_end,
                            uptr *tls_begin, uptr *tls_end, uptr *cache_begin,
                            uptr *cache_end, DTLS **dtls) {
   ThreadContext *context = static_cast<ThreadContext *>(
       thread_registry->FindThreadContextByOsIDLocked(os_id));
   if (!context) return false;
   *stack_begin = context->stack_begin();
   *stack_end = context->stack_end();
   *tls_begin = context->tls_begin();
   *tls_end = context->tls_end();
   *cache_begin = context->cache_begin();
   *cache_end = context->cache_end();
   *dtls = context->dtls();
   return true;
 }

 void ForEachExtraStackRange(tid_t os_id, RangeIteratorCallback callback,
                             void *arg) {
 }

 void LockThreadRegistry() {
   thread_registry->Lock();
 }

 void UnlockThreadRegistry() {
   thread_registry->Unlock();
 }

 } // namespace __lsan
	//=-- lsan_thread.cc ------------------------------------------------------===//
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file is a part of LeakSanitizer.
	// See lsan_thread.h for details.
	//
	//===----------------------------------------------------------------------===//

	#include "lsan_thread.h"

	#include "sanitizer_common/sanitizer_common.h"
	#include "sanitizer_common/sanitizer_placement_new.h"
	#include "sanitizer_common/sanitizer_thread_registry.h"
	#include "sanitizer_common/sanitizer_tls_get_addr.h"
	#include "lsan_allocator.h"
	#include "lsan_common.h"

	namespace __lsan {

	static ThreadRegistry *thread_registry;

	static ThreadContextBase *CreateThreadContext(u32 tid) {
	void *mem = MmapOrDie(sizeof(ThreadContext), "ThreadContext");
	return new(mem) ThreadContext(tid);
	}

	static const uptr kMaxThreads = 1 << 13;
	static const uptr kThreadQuarantineSize = 64;

	void InitializeThreadRegistry() {
	static ALIGNED(64) char thread_registry_placeholder[sizeof(ThreadRegistry)];
	thread_registry = new(thread_registry_placeholder)
	ThreadRegistry(CreateThreadContext, kMaxThreads, kThreadQuarantineSize);
	}

	ThreadContext::ThreadContext(int tid)
	: ThreadContextBase(tid),
	stack_begin_(0),
	stack_end_(0),
	cache_begin_(0),
	cache_end_(0),
	tls_begin_(0),
	tls_end_(0),
	dtls_(nullptr) {}

	struct OnStartedArgs {
	uptr stack_begin, stack_end,
	cache_begin, cache_end,
	tls_begin, tls_end;
	DTLS *dtls;
	};

	void ThreadContext::OnStarted(void *arg) {
	OnStartedArgs args = reinterpret_cast<OnStartedArgs >(arg);
	stack_begin_ = args->stack_begin;
	stack_end_ = args->stack_end;
	tls_begin_ = args->tls_begin;
	tls_end_ = args->tls_end;
	cache_begin_ = args->cache_begin;
	cache_end_ = args->cache_end;
	dtls_ = args->dtls;
	}

	void ThreadContext::OnFinished() {
	AllocatorThreadFinish();
	DTLS_Destroy();
	}

	u32 ThreadCreate(u32 parent_tid, uptr user_id, bool detached) {
	return thread_registry->CreateThread(user_id, detached, parent_tid,
	/* arg */ nullptr);
	}

	void ThreadStart(u32 tid, tid_t os_id, bool workerthread) {
	OnStartedArgs args;
	uptr stack_size = 0;
	uptr tls_size = 0;
	GetThreadStackAndTls(tid == 0, &args.stack_begin, &stack_size,
	&args.tls_begin, &tls_size);
	args.stack_end = args.stack_begin + stack_size;
	args.tls_end = args.tls_begin + tls_size;
	GetAllocatorCacheRange(&args.cache_begin, &args.cache_end);
	args.dtls = DTLS_Get();
	thread_registry->StartThread(tid, os_id, workerthread, &args);
	}

	void ThreadFinish() {
	thread_registry->FinishThread(GetCurrentThread());
	SetCurrentThread(kInvalidTid);
	}

	ThreadContext *CurrentThreadContext() {
	if (!thread_registry) return nullptr;
	if (GetCurrentThread() == kInvalidTid)
	return nullptr;
	// No lock needed when getting current thread.
	return (ThreadContext *)thread_registry->GetThreadLocked(GetCurrentThread());
	}

	static bool FindThreadByUid(ThreadContextBase tctx, void arg) {
	uptr uid = (uptr)arg;
	if (tctx->user_id == uid && tctx->status != ThreadStatusInvalid) {
	return true;
	}
	return false;
	}

	u32 ThreadTid(uptr uid) {
	return thread_registry->FindThread(FindThreadByUid, (void*)uid);
	}

	void ThreadJoin(u32 tid) {
	CHECK_NE(tid, kInvalidTid);
	thread_registry->JoinThread(tid, /* arg */nullptr);
	}

	void EnsureMainThreadIDIsCorrect() {
	if (GetCurrentThread() == 0)
	CurrentThreadContext()->os_id = GetTid();
	}

	///// Interface to the common LSan module. /////

	bool GetThreadRangesLocked(tid_t os_id, uptr stack_begin, uptr stack_end,
	uptr tls_begin, uptr tls_end, uptr *cache_begin,
	uptr cache_end, DTLS *dtls) {
	ThreadContext context = static_cast<ThreadContext >(
	thread_registry->FindThreadContextByOsIDLocked(os_id));
	if (!context) return false;
	*stack_begin = context->stack_begin();
	*stack_end = context->stack_end();
	*tls_begin = context->tls_begin();
	*tls_end = context->tls_end();
	*cache_begin = context->cache_begin();
	*cache_end = context->cache_end();
	*dtls = context->dtls();
	return true;
	}

	void ForEachExtraStackRange(tid_t os_id, RangeIteratorCallback callback,
	void *arg) {
	}

	void LockThreadRegistry() {
	thread_registry->Lock();
	}

	void UnlockThreadRegistry() {
	thread_registry->Unlock();
	}

	} // namespace __lsan