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rocksdb/thrift/lib/cpp/concurrency/test/ThreadFactoryTests.h

354 lines
7.7 KiB

/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
#include "thrift/lib/cpp/config.h"
#include "thrift/lib/cpp/concurrency/Thread.h"
#include "thrift/lib/cpp/concurrency/PosixThreadFactory.h"
#include "thrift/lib/cpp/concurrency/Monitor.h"
#include "thrift/lib/cpp/concurrency/Util.h"
#include <assert.h>
#include <unistd.h>
#include <iostream>
#include <set>
namespace apache { namespace thrift { namespace concurrency { namespace test {
using boost::shared_ptr;
using namespace apache::thrift::concurrency;
/**
* ThreadManagerTests class
*
* @version $Id:$
*/
class ThreadFactoryTests {
public:
static const double ERROR;
class Task: public Runnable {
public:
Task() {}
void run() {
std::cout << "\t\t\tHello World" << std::endl;
}
};
/**
* Hello world test
*/
bool helloWorldTest() {
PosixThreadFactory threadFactory = PosixThreadFactory();
shared_ptr<Task> task = shared_ptr<Task>(new ThreadFactoryTests::Task());
shared_ptr<Thread> thread = threadFactory.newThread(task);
thread->start();
thread->join();
std::cout << "\t\t\tSuccess!" << std::endl;
return true;
}
/**
* Reap N threads
*/
class ReapNTask: public Runnable {
public:
ReapNTask(Monitor& monitor, int& activeCount) :
_monitor(monitor),
_count(activeCount) {}
void run() {
Synchronized s(_monitor);
_count--;
//std::cout << "\t\t\tthread count: " << _count << std::endl;
if (_count == 0) {
_monitor.notify();
}
}
Monitor& _monitor;
int& _count;
};
bool reapNThreads(int loop=1, int count=10) {
PosixThreadFactory threadFactory = PosixThreadFactory();
Monitor* monitor = new Monitor();
for(int lix = 0; lix < loop; lix++) {
int* activeCount = new int(count);
std::set<shared_ptr<Thread> > threads;
int tix;
for (tix = 0; tix < count; tix++) {
try {
threads.insert(threadFactory.newThread(shared_ptr<Runnable>(new ReapNTask(*monitor, *activeCount))));
} catch(SystemResourceException& e) {
std::cout << "\t\t\tfailed to create " << lix * count + tix << " thread " << e.what() << std::endl;
throw e;
}
}
tix = 0;
for (std::set<shared_ptr<Thread> >::const_iterator thread = threads.begin(); thread != threads.end(); tix++, ++thread) {
try {
(*thread)->start();
} catch(SystemResourceException& e) {
std::cout << "\t\t\tfailed to start " << lix * count + tix << " thread " << e.what() << std::endl;
throw e;
}
}
{
Synchronized s(*monitor);
while (*activeCount > 0) {
monitor->wait(1000);
}
}
std::cout << "\t\t\treaped " << lix * count << " threads" << std::endl;
}
std::cout << "\t\t\tSuccess!" << std::endl;
return true;
}
class SynchStartTask: public Runnable {
public:
enum STATE {
UNINITIALIZED,
STARTING,
STARTED,
STOPPING,
STOPPED
};
SynchStartTask(Monitor& monitor, volatile STATE& state) :
_monitor(monitor),
_state(state) {}
void run() {
{
Synchronized s(_monitor);
if (_state == SynchStartTask::STARTING) {
_state = SynchStartTask::STARTED;
_monitor.notify();
}
}
{
Synchronized s(_monitor);
while (_state == SynchStartTask::STARTED) {
_monitor.wait();
}
if (_state == SynchStartTask::STOPPING) {
_state = SynchStartTask::STOPPED;
_monitor.notifyAll();
}
}
}
private:
Monitor& _monitor;
volatile STATE& _state;
};
bool synchStartTest() {
Monitor monitor;
SynchStartTask::STATE state = SynchStartTask::UNINITIALIZED;
shared_ptr<SynchStartTask> task = shared_ptr<SynchStartTask>(new SynchStartTask(monitor, state));
PosixThreadFactory threadFactory = PosixThreadFactory();
shared_ptr<Thread> thread = threadFactory.newThread(task);
if (state == SynchStartTask::UNINITIALIZED) {
state = SynchStartTask::STARTING;
thread->start();
}
{
Synchronized s(monitor);
while (state == SynchStartTask::STARTING) {
monitor.wait();
}
}
assert(state != SynchStartTask::STARTING);
{
Synchronized s(monitor);
try {
monitor.wait(100);
} catch(TimedOutException& e) {
}
if (state == SynchStartTask::STARTED) {
state = SynchStartTask::STOPPING;
monitor.notify();
}
while (state == SynchStartTask::STOPPING) {
monitor.wait();
}
}
assert(state == SynchStartTask::STOPPED);
bool success = true;
std::cout << "\t\t\t" << (success ? "Success" : "Failure") << "!" << std::endl;
return true;
}
/** See how accurate monitor timeout is. */
bool monitorTimeoutTest(size_t count=1000, int64_t timeout=10) {
Monitor monitor;
int64_t startTime = Util::currentTime();
for (size_t ix = 0; ix < count; ix++) {
{
Synchronized s(monitor);
try {
monitor.wait(timeout);
} catch(TimedOutException& e) {
}
}
}
int64_t endTime = Util::currentTime();
double error = ((endTime - startTime) - (count * timeout)) / (double)(count * timeout);
if (error < 0.0) {
error *= 1.0;
}
bool success = error < ThreadFactoryTests::ERROR;
std::cout << "\t\t\t" << (success ? "Success" : "Failure") << "! expected time: " << count * timeout << "ms elapsed time: "<< endTime - startTime << "ms error%: " << error * 100.0 << std::endl;
return success;
}
class FloodTask : public Runnable {
public:
FloodTask(const size_t id) :_id(id) {}
~FloodTask(){
if(_id % 1000 == 0) {
std::cout << "\t\tthread " << _id << " done" << std::endl;
}
}
void run(){
if(_id % 1000 == 0) {
std::cout << "\t\tthread " << _id << " started" << std::endl;
}
usleep(1);
}
const size_t _id;
};
void foo(PosixThreadFactory *tf) {
}
bool floodNTest(size_t loop=1, size_t count=100000) {
bool success = false;
for(size_t lix = 0; lix < loop; lix++) {
PosixThreadFactory threadFactory = PosixThreadFactory();
threadFactory.setDetached(true);
for(size_t tix = 0; tix < count; tix++) {
try {
shared_ptr<FloodTask> task(new FloodTask(lix * count + tix ));
shared_ptr<Thread> thread = threadFactory.newThread(task);
thread->start();
usleep(1);
} catch (TException& e) {
std::cout << "\t\t\tfailed to start " << lix * count + tix << " thread " << e.what() << std::endl;
return success;
}
}
std::cout << "\t\t\tflooded " << (lix + 1) * count << " threads" << std::endl;
success = true;
}
return success;
}
};
const double ThreadFactoryTests::ERROR = .20;
}}}} // apache::thrift::concurrency::test