compiler-rt/lib/tsan/tests/unit/tsan_sync_test.cpp - llvm-project - Git at Google

 //===-- tsan_sync_test.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.
 //
 //===----------------------------------------------------------------------===//
 #include "tsan_sync.h"
 #include "tsan_rtl.h"
 #include "gtest/gtest.h"

 namespace __tsan {

 TEST(MetaMap, Basic) {
   ThreadState *thr = cur_thread();
   SlotLocker locker(thr);
   MetaMap *m = &ctx->metamap;
   u64 block[1] = {};  // fake malloc block
   m->AllocBlock(thr, 0, (uptr)&block[0], 1 * sizeof(u64));
   MBlock *mb = m->GetBlock((uptr)&block[0]);
   CHECK_NE(mb, (MBlock *)0);
   CHECK_EQ(mb->siz, 1 * sizeof(u64));
   CHECK_EQ(mb->tid, thr->tid);
   uptr sz = m->FreeBlock(thr->proc(), (uptr)&block[0], true);
   CHECK_EQ(sz, 1 * sizeof(u64));
   mb = m->GetBlock((uptr)&block[0]);
   CHECK_EQ(mb, (MBlock *)0);
 }

 TEST(MetaMap, FreeRange) {
   ThreadState *thr = cur_thread();
   SlotLocker locker(thr);
   MetaMap *m = &ctx->metamap;
   u64 block[4] = {};  // fake malloc block
   m->AllocBlock(thr, 0, (uptr)&block[0], 1 * sizeof(u64));
   m->AllocBlock(thr, 0, (uptr)&block[1], 3 * sizeof(u64));
   MBlock *mb1 = m->GetBlock((uptr)&block[0]);
   CHECK_EQ(mb1->siz, 1 * sizeof(u64));
   MBlock *mb2 = m->GetBlock((uptr)&block[1]);
   CHECK_EQ(mb2->siz, 3 * sizeof(u64));
   m->FreeRange(thr->proc(), (uptr)&block[0], 4 * sizeof(u64), true);
   mb1 = m->GetBlock((uptr)&block[0]);
   CHECK_EQ(mb1, (MBlock *)0);
   mb2 = m->GetBlock((uptr)&block[1]);
   CHECK_EQ(mb2, (MBlock *)0);
 }

 TEST(MetaMap, Sync) {
   // CHECK can call memset/etc. Disable interceptors to prevent
   // them from detecting that we exit runtime with mutexes held.
   ScopedIgnoreInterceptors ignore;
   ThreadState *thr = cur_thread();
   SlotLocker locker(thr);
   MetaMap *m = &ctx->metamap;
   u64 block[4] = {};  // fake malloc block
   m->AllocBlock(thr, 0, (uptr)&block[0], 4 * sizeof(u64));
   SyncVar *s1 = m->GetSyncIfExists((uptr)&block[0]);
   CHECK_EQ(s1, (SyncVar *)0);
   s1 = m->GetSyncOrCreate(thr, 0, (uptr)&block[0], false);
   CHECK_NE(s1, (SyncVar *)0);
   CHECK_EQ(s1->addr, (uptr)&block[0]);
   SyncVar *s2 = m->GetSyncOrCreate(thr, 0, (uptr)&block[1], false);
   CHECK_NE(s2, (SyncVar *)0);
   CHECK_EQ(s2->addr, (uptr)&block[1]);
   m->FreeBlock(thr->proc(), (uptr)&block[0], true);
   s1 = m->GetSyncIfExists((uptr)&block[0]);
   CHECK_EQ(s1, (SyncVar *)0);
   s2 = m->GetSyncIfExists((uptr)&block[1]);
   CHECK_EQ(s2, (SyncVar *)0);
   m->OnProcIdle(thr->proc());
 }

 TEST(MetaMap, MoveMemory) {
   ScopedIgnoreInterceptors ignore;
   ThreadState *thr = cur_thread();
   SlotLocker locker(thr);
   MetaMap *m = &ctx->metamap;
   u64 block1[4] = {};  // fake malloc block
   u64 block2[4] = {};  // fake malloc block
   m->AllocBlock(thr, 0, (uptr)&block1[0], 3 * sizeof(u64));
   m->AllocBlock(thr, 0, (uptr)&block1[3], 1 * sizeof(u64));
   SyncVar *s1 = m->GetSyncOrCreate(thr, 0, (uptr)&block1[0], false);
   SyncVar *s2 = m->GetSyncOrCreate(thr, 0, (uptr)&block1[1], false);
   m->MoveMemory((uptr)&block1[0], (uptr)&block2[0], 4 * sizeof(u64));
   MBlock *mb1 = m->GetBlock((uptr)&block1[0]);
   CHECK_EQ(mb1, (MBlock *)0);
   MBlock *mb2 = m->GetBlock((uptr)&block1[3]);
   CHECK_EQ(mb2, (MBlock *)0);
   mb1 = m->GetBlock((uptr)&block2[0]);
   CHECK_NE(mb1, (MBlock *)0);
   CHECK_EQ(mb1->siz, 3 * sizeof(u64));
   mb2 = m->GetBlock((uptr)&block2[3]);
   CHECK_NE(mb2, (MBlock *)0);
   CHECK_EQ(mb2->siz, 1 * sizeof(u64));
   s1 = m->GetSyncIfExists((uptr)&block1[0]);
   CHECK_EQ(s1, (SyncVar *)0);
   s2 = m->GetSyncIfExists((uptr)&block1[1]);
   CHECK_EQ(s2, (SyncVar *)0);
   s1 = m->GetSyncIfExists((uptr)&block2[0]);
   CHECK_NE(s1, (SyncVar *)0);
   CHECK_EQ(s1->addr, (uptr)&block2[0]);
   s2 = m->GetSyncIfExists((uptr)&block2[1]);
   CHECK_NE(s2, (SyncVar *)0);
   CHECK_EQ(s2->addr, (uptr)&block2[1]);
   m->FreeRange(thr->proc(), (uptr)&block2[0], 4 * sizeof(u64), true);
 }

 TEST(MetaMap, ResetSync) {
   ScopedIgnoreInterceptors ignore;
   ThreadState *thr = cur_thread();
   SlotLocker locker(thr);
   MetaMap *m = &ctx->metamap;
   u64 block[1] = {};  // fake malloc block
   m->AllocBlock(thr, 0, (uptr)&block[0], 1 * sizeof(u64));
   SyncVar *s = m->GetSyncOrCreate(thr, 0, (uptr)&block[0], false);
   s->Reset();
   uptr sz = m->FreeBlock(thr->proc(), (uptr)&block[0], true);
   CHECK_EQ(sz, 1 * sizeof(u64));
 }

 }  // namespace __tsan
	//===-- tsan_sync_test.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.
	//
	//===----------------------------------------------------------------------===//
	#include "tsan_sync.h"
	#include "tsan_rtl.h"
	#include "gtest/gtest.h"

	namespace __tsan {

	TEST(MetaMap, Basic) {
	ThreadState *thr = cur_thread();
	SlotLocker locker(thr);
	MetaMap *m = &ctx->metamap;
	u64 block[1] = {}; // fake malloc block
	m->AllocBlock(thr, 0, (uptr)&block[0], 1 * sizeof(u64));
	MBlock *mb = m->GetBlock((uptr)&block[0]);
	CHECK_NE(mb, (MBlock *)0);
	CHECK_EQ(mb->siz, 1 * sizeof(u64));
	CHECK_EQ(mb->tid, thr->tid);
	uptr sz = m->FreeBlock(thr->proc(), (uptr)&block[0], true);
	CHECK_EQ(sz, 1 * sizeof(u64));
	mb = m->GetBlock((uptr)&block[0]);
	CHECK_EQ(mb, (MBlock *)0);
	}

	TEST(MetaMap, FreeRange) {
	ThreadState *thr = cur_thread();
	SlotLocker locker(thr);
	MetaMap *m = &ctx->metamap;
	u64 block[4] = {}; // fake malloc block
	m->AllocBlock(thr, 0, (uptr)&block[0], 1 * sizeof(u64));
	m->AllocBlock(thr, 0, (uptr)&block[1], 3 * sizeof(u64));
	MBlock *mb1 = m->GetBlock((uptr)&block[0]);
	CHECK_EQ(mb1->siz, 1 * sizeof(u64));
	MBlock *mb2 = m->GetBlock((uptr)&block[1]);
	CHECK_EQ(mb2->siz, 3 * sizeof(u64));
	m->FreeRange(thr->proc(), (uptr)&block[0], 4 * sizeof(u64), true);
	mb1 = m->GetBlock((uptr)&block[0]);
	CHECK_EQ(mb1, (MBlock *)0);
	mb2 = m->GetBlock((uptr)&block[1]);
	CHECK_EQ(mb2, (MBlock *)0);
	}

	TEST(MetaMap, Sync) {
	// CHECK can call memset/etc. Disable interceptors to prevent
	// them from detecting that we exit runtime with mutexes held.
	ScopedIgnoreInterceptors ignore;
	ThreadState *thr = cur_thread();
	SlotLocker locker(thr);
	MetaMap *m = &ctx->metamap;
	u64 block[4] = {}; // fake malloc block
	m->AllocBlock(thr, 0, (uptr)&block[0], 4 * sizeof(u64));
	SyncVar *s1 = m->GetSyncIfExists((uptr)&block[0]);
	CHECK_EQ(s1, (SyncVar *)0);
	s1 = m->GetSyncOrCreate(thr, 0, (uptr)&block[0], false);
	CHECK_NE(s1, (SyncVar *)0);
	CHECK_EQ(s1->addr, (uptr)&block[0]);
	SyncVar *s2 = m->GetSyncOrCreate(thr, 0, (uptr)&block[1], false);
	CHECK_NE(s2, (SyncVar *)0);
	CHECK_EQ(s2->addr, (uptr)&block[1]);
	m->FreeBlock(thr->proc(), (uptr)&block[0], true);
	s1 = m->GetSyncIfExists((uptr)&block[0]);
	CHECK_EQ(s1, (SyncVar *)0);
	s2 = m->GetSyncIfExists((uptr)&block[1]);
	CHECK_EQ(s2, (SyncVar *)0);
	m->OnProcIdle(thr->proc());
	}

	TEST(MetaMap, MoveMemory) {
	ScopedIgnoreInterceptors ignore;
	ThreadState *thr = cur_thread();
	SlotLocker locker(thr);
	MetaMap *m = &ctx->metamap;
	u64 block1[4] = {}; // fake malloc block
	u64 block2[4] = {}; // fake malloc block
	m->AllocBlock(thr, 0, (uptr)&block1[0], 3 * sizeof(u64));
	m->AllocBlock(thr, 0, (uptr)&block1[3], 1 * sizeof(u64));
	SyncVar *s1 = m->GetSyncOrCreate(thr, 0, (uptr)&block1[0], false);
	SyncVar *s2 = m->GetSyncOrCreate(thr, 0, (uptr)&block1[1], false);
	m->MoveMemory((uptr)&block1[0], (uptr)&block2[0], 4 * sizeof(u64));
	MBlock *mb1 = m->GetBlock((uptr)&block1[0]);
	CHECK_EQ(mb1, (MBlock *)0);
	MBlock *mb2 = m->GetBlock((uptr)&block1[3]);
	CHECK_EQ(mb2, (MBlock *)0);
	mb1 = m->GetBlock((uptr)&block2[0]);
	CHECK_NE(mb1, (MBlock *)0);
	CHECK_EQ(mb1->siz, 3 * sizeof(u64));
	mb2 = m->GetBlock((uptr)&block2[3]);
	CHECK_NE(mb2, (MBlock *)0);
	CHECK_EQ(mb2->siz, 1 * sizeof(u64));
	s1 = m->GetSyncIfExists((uptr)&block1[0]);
	CHECK_EQ(s1, (SyncVar *)0);
	s2 = m->GetSyncIfExists((uptr)&block1[1]);
	CHECK_EQ(s2, (SyncVar *)0);
	s1 = m->GetSyncIfExists((uptr)&block2[0]);
	CHECK_NE(s1, (SyncVar *)0);
	CHECK_EQ(s1->addr, (uptr)&block2[0]);
	s2 = m->GetSyncIfExists((uptr)&block2[1]);
	CHECK_NE(s2, (SyncVar *)0);
	CHECK_EQ(s2->addr, (uptr)&block2[1]);
	m->FreeRange(thr->proc(), (uptr)&block2[0], 4 * sizeof(u64), true);
	}

	TEST(MetaMap, ResetSync) {
	ScopedIgnoreInterceptors ignore;
	ThreadState *thr = cur_thread();
	SlotLocker locker(thr);
	MetaMap *m = &ctx->metamap;
	u64 block[1] = {}; // fake malloc block
	m->AllocBlock(thr, 0, (uptr)&block[0], 1 * sizeof(u64));
	SyncVar *s = m->GetSyncOrCreate(thr, 0, (uptr)&block[0], false);
	s->Reset();
	uptr sz = m->FreeBlock(thr->proc(), (uptr)&block[0], true);
	CHECK_EQ(sz, 1 * sizeof(u64));
	}

	} // namespace __tsan