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webrtc / src / 32b5d231775c7862da74bd817ab00a54bb85a9b8 / . / webrtc / base / sharedexclusivelock_unittest.cc
blob: c124db5c82fe1895d44236f80823b498f282974b [file] [log] [blame]
/*
* Copyright 2011 The WebRTC Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#include "webrtc/base/common.h"
#include "webrtc/base/gunit.h"
#include "webrtc/base/messagehandler.h"
#include "webrtc/base/messagequeue.h"
#include "webrtc/base/scoped_ptr.h"
#include "webrtc/base/sharedexclusivelock.h"
#include "webrtc/base/thread.h"
#include "webrtc/base/timeutils.h"
#include "webrtc/test/testsupport/gtest_disable.h"
namespace rtc {
static const uint32 kMsgRead = 0;
static const uint32 kMsgWrite = 0;
static const int kNoWaitThresholdInMs = 10;
static const int kWaitThresholdInMs = 80;
static const int kProcessTimeInMs = 100;
static const int kProcessTimeoutInMs = 5000;
class SharedExclusiveTask : public MessageHandler {
public:
SharedExclusiveTask(SharedExclusiveLock* shared_exclusive_lock,
int* value,
bool* done)
: shared_exclusive_lock_(shared_exclusive_lock),
waiting_time_in_ms_(0),
value_(value),
done_(done) {
worker_thread_.reset(new Thread());
worker_thread_->Start();
}
int waiting_time_in_ms() const { return waiting_time_in_ms_; }
protected:
scoped_ptr<Thread> worker_thread_;
SharedExclusiveLock* shared_exclusive_lock_;
int waiting_time_in_ms_;
int* value_;
bool* done_;
};
class ReadTask : public SharedExclusiveTask {
public:
ReadTask(SharedExclusiveLock* shared_exclusive_lock, int* value, bool* done)
: SharedExclusiveTask(shared_exclusive_lock, value, done) {
}
void PostRead(int* value) {
worker_thread_->Post(this, kMsgRead, new TypedMessageData<int*>(value));
}
private:
virtual void OnMessage(Message* message) {
ASSERT(rtc::Thread::Current() == worker_thread_.get());
ASSERT(message != NULL);
ASSERT(message->message_id == kMsgRead);
TypedMessageData<int*>* message_data =
static_cast<TypedMessageData<int*>*>(message->pdata);
uint32 start_time = Time();
{
SharedScope ss(shared_exclusive_lock_);
waiting_time_in_ms_ = TimeDiff(Time(), start_time);
Thread::SleepMs(kProcessTimeInMs);
*message_data->data() = *value_;
*done_ = true;
}
delete message->pdata;
message->pdata = NULL;
}
};
class WriteTask : public SharedExclusiveTask {
public:
WriteTask(SharedExclusiveLock* shared_exclusive_lock, int* value, bool* done)
: SharedExclusiveTask(shared_exclusive_lock, value, done) {
}
void PostWrite(int value) {
worker_thread_->Post(this, kMsgWrite, new TypedMessageData<int>(value));
}
private:
virtual void OnMessage(Message* message) {
ASSERT(rtc::Thread::Current() == worker_thread_.get());
ASSERT(message != NULL);
ASSERT(message->message_id == kMsgWrite);
TypedMessageData<int>* message_data =
static_cast<TypedMessageData<int>*>(message->pdata);
uint32 start_time = Time();
{
ExclusiveScope es(shared_exclusive_lock_);
waiting_time_in_ms_ = TimeDiff(Time(), start_time);
Thread::SleepMs(kProcessTimeInMs);
*value_ = message_data->data();
*done_ = true;
}
delete message->pdata;
message->pdata = NULL;
}
};
// Unit test for SharedExclusiveLock.
class SharedExclusiveLockTest
: public testing::Test {
public:
SharedExclusiveLockTest() : value_(0) {
}
virtual void SetUp() {
shared_exclusive_lock_.reset(new SharedExclusiveLock());
}
protected:
scoped_ptr<SharedExclusiveLock> shared_exclusive_lock_;
int value_;
};
// Flaky: https://code.google.com/p/webrtc/issues/detail?id=3318
TEST_F(SharedExclusiveLockTest, TestSharedShared) {
int value0, value1;
bool done0, done1;
ReadTask reader0(shared_exclusive_lock_.get(), &value_, &done0);
ReadTask reader1(shared_exclusive_lock_.get(), &value_, &done1);
// Test shared locks can be shared without waiting.
{
SharedScope ss(shared_exclusive_lock_.get());
value_ = 1;
done0 = false;
done1 = false;
reader0.PostRead(&value0);
reader1.PostRead(&value1);
Thread::SleepMs(kProcessTimeInMs);
}
EXPECT_TRUE_WAIT(done0, kProcessTimeoutInMs);
EXPECT_EQ(1, value0);
EXPECT_LE(reader0.waiting_time_in_ms(), kNoWaitThresholdInMs);
EXPECT_TRUE_WAIT(done1, kProcessTimeoutInMs);
EXPECT_EQ(1, value1);
EXPECT_LE(reader1.waiting_time_in_ms(), kNoWaitThresholdInMs);
}
TEST_F(SharedExclusiveLockTest, TestSharedExclusive) {
bool done;
WriteTask writer(shared_exclusive_lock_.get(), &value_, &done);
// Test exclusive lock needs to wait for shared lock.
{
SharedScope ss(shared_exclusive_lock_.get());
value_ = 1;
done = false;
writer.PostWrite(2);
Thread::SleepMs(kProcessTimeInMs);
EXPECT_EQ(1, value_);
}
EXPECT_TRUE_WAIT(done, kProcessTimeoutInMs);
EXPECT_EQ(2, value_);
EXPECT_GE(writer.waiting_time_in_ms(), kWaitThresholdInMs);
}
TEST_F(SharedExclusiveLockTest, TestExclusiveShared) {
int value;
bool done;
ReadTask reader(shared_exclusive_lock_.get(), &value_, &done);
// Test shared lock needs to wait for exclusive lock.
{
ExclusiveScope es(shared_exclusive_lock_.get());
value_ = 1;
done = false;
reader.PostRead(&value);
Thread::SleepMs(kProcessTimeInMs);
value_ = 2;
}
EXPECT_TRUE_WAIT(done, kProcessTimeoutInMs);
EXPECT_EQ(2, value);
EXPECT_GE(reader.waiting_time_in_ms(), kWaitThresholdInMs);
}
TEST_F(SharedExclusiveLockTest, TestExclusiveExclusive) {
bool done;
WriteTask writer(shared_exclusive_lock_.get(), &value_, &done);
// Test exclusive lock needs to wait for exclusive lock.
{
ExclusiveScope es(shared_exclusive_lock_.get());
value_ = 1;
done = false;
writer.PostWrite(2);
Thread::SleepMs(kProcessTimeInMs);
EXPECT_EQ(1, value_);
}
EXPECT_TRUE_WAIT(done, kProcessTimeoutInMs);
EXPECT_EQ(2, value_);
EXPECT_GE(writer.waiting_time_in_ms(), kWaitThresholdInMs);
}
} // namespace rtc