// Copyright 2006-2008 the V8 project authors. All rights reserved. // // Tests of the TokenLock class from lock.h #include <pthread.h> #include <stdlib.h> #include <unistd.h> // for usleep() #include "v8.h" #include "platform.h" #include "cctest.h" using namespace ::v8::internal; static void yield() { UNIMPLEMENTED(); } static const int kLockCounterLimit = 50; static int busy_lock_counter = 0; static void LoopIncrement(Mutex* mutex, int rem) { while (true) { int count = 0; int last_count = -1; do { CHECK_EQ(0, mutex->Lock()); count = busy_lock_counter; CHECK_EQ(0, mutex->Unlock()); yield(); } while (count % 2 == rem && count < kLockCounterLimit); if (count >= kLockCounterLimit) break; CHECK_EQ(0, mutex->Lock()); CHECK_EQ(count, busy_lock_counter); CHECK(last_count == -1 || count == last_count + 1); busy_lock_counter++; last_count = count; CHECK_EQ(0, mutex->Unlock()); yield(); } } static void* RunTestBusyLock(void* arg) { LoopIncrement(static_cast<Mutex*>(arg), 0); return 0; } // Runs two threads that repeatedly acquire the lock and conditionally // increment a variable. TEST(BusyLock) { pthread_t other; Mutex* mutex = OS::CreateMutex(); int thread_created = pthread_create(&other, NULL, &RunTestBusyLock, mutex); CHECK_EQ(0, thread_created); LoopIncrement(mutex, 1); pthread_join(other, NULL); delete mutex; } TEST(VirtualMemory) { VirtualMemory* vm = new VirtualMemory(1 * MB); CHECK(vm->IsReserved()); void* block_addr = vm->address(); size_t block_size = 4 * KB; CHECK(vm->Commit(block_addr, block_size, false)); // Check whether we can write to memory. int* addr = static_cast<int*>(block_addr); addr[KB-1] = 2; CHECK(vm->Uncommit(block_addr, block_size)); delete vm; }