Mercurial > hg > orthanc
view UnitTestsSources/MultiThreadingTests.cpp @ 2606:f2b9d3256060 jobs
SystemCallOperation
author | Sebastien Jodogne <s.jodogne@gmail.com> |
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date | Sat, 19 May 2018 15:10:26 +0200 |
parents | 76ef12fa136c |
children | 3ff4c50647ea |
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/** * Orthanc - A Lightweight, RESTful DICOM Store * Copyright (C) 2012-2016 Sebastien Jodogne, Medical Physics * Department, University Hospital of Liege, Belgium * Copyright (C) 2017-2018 Osimis S.A., Belgium * * This program is free software: you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation, either version 3 of the * License, or (at your option) any later version. * * In addition, as a special exception, the copyright holders of this * program give permission to link the code of its release with the * OpenSSL project's "OpenSSL" library (or with modified versions of it * that use the same license as the "OpenSSL" library), and distribute * the linked executables. You must obey the GNU General Public License * in all respects for all of the code used other than "OpenSSL". If you * modify file(s) with this exception, you may extend this exception to * your version of the file(s), but you are not obligated to do so. If * you do not wish to do so, delete this exception statement from your * version. If you delete this exception statement from all source files * in the program, then also delete it here. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see <http://www.gnu.org/licenses/>. **/ #include "PrecompiledHeadersUnitTests.h" #include "gtest/gtest.h" #include "../Core/JobsEngine/JobsEngine.h" #include "../Core/MultiThreading/Locker.h" #include "../Core/OrthancException.h" #include "../Core/SystemToolbox.h" #include "../Core/Toolbox.h" #include "../OrthancServer/Scheduler/ServerScheduler.h" using namespace Orthanc; namespace { class DynamicInteger : public IDynamicObject { private: int value_; std::set<int>& target_; public: DynamicInteger(int value, std::set<int>& target) : value_(value), target_(target) { } int GetValue() const { return value_; } }; } TEST(MultiThreading, SharedMessageQueueBasic) { std::set<int> s; SharedMessageQueue q; ASSERT_TRUE(q.WaitEmpty(0)); q.Enqueue(new DynamicInteger(10, s)); ASSERT_FALSE(q.WaitEmpty(1)); q.Enqueue(new DynamicInteger(20, s)); q.Enqueue(new DynamicInteger(30, s)); q.Enqueue(new DynamicInteger(40, s)); std::auto_ptr<DynamicInteger> i; i.reset(dynamic_cast<DynamicInteger*>(q.Dequeue(1))); ASSERT_EQ(10, i->GetValue()); i.reset(dynamic_cast<DynamicInteger*>(q.Dequeue(1))); ASSERT_EQ(20, i->GetValue()); i.reset(dynamic_cast<DynamicInteger*>(q.Dequeue(1))); ASSERT_EQ(30, i->GetValue()); ASSERT_FALSE(q.WaitEmpty(1)); i.reset(dynamic_cast<DynamicInteger*>(q.Dequeue(1))); ASSERT_EQ(40, i->GetValue()); ASSERT_TRUE(q.WaitEmpty(0)); ASSERT_EQ(NULL, q.Dequeue(1)); } TEST(MultiThreading, SharedMessageQueueClean) { std::set<int> s; try { SharedMessageQueue q; q.Enqueue(new DynamicInteger(10, s)); q.Enqueue(new DynamicInteger(20, s)); throw OrthancException(ErrorCode_InternalError); } catch (OrthancException&) { } } #include "../Core/DicomNetworking/ReusableDicomUserConnection.h" TEST(ReusableDicomUserConnection, DISABLED_Basic) { ReusableDicomUserConnection c; c.SetMillisecondsBeforeClose(200); printf("START\n"); fflush(stdout); { RemoteModalityParameters remote("STORESCP", "localhost", 2000, ModalityManufacturer_Generic); ReusableDicomUserConnection::Locker lock(c, "ORTHANC", remote); lock.GetConnection().StoreFile("/home/jodogne/DICOM/Cardiac/MR.X.1.2.276.0.7230010.3.1.4.2831157719.2256.1336386844.676281"); } printf("**\n"); fflush(stdout); SystemToolbox::USleep(1000000); printf("**\n"); fflush(stdout); { RemoteModalityParameters remote("STORESCP", "localhost", 2000, ModalityManufacturer_Generic); ReusableDicomUserConnection::Locker lock(c, "ORTHANC", remote); lock.GetConnection().StoreFile("/home/jodogne/DICOM/Cardiac/MR.X.1.2.276.0.7230010.3.1.4.2831157719.2256.1336386844.676277"); } SystemToolbox::ServerBarrier(); printf("DONE\n"); fflush(stdout); } class Tutu : public IServerCommand { private: int factor_; public: Tutu(int f) : factor_(f) { } virtual bool Apply(ListOfStrings& outputs, const ListOfStrings& inputs) { for (ListOfStrings::const_iterator it = inputs.begin(); it != inputs.end(); ++it) { int a = boost::lexical_cast<int>(*it); int b = factor_ * a; printf("%d * %d = %d\n", a, factor_, b); //if (a == 84) { printf("BREAK\n"); return false; } outputs.push_back(boost::lexical_cast<std::string>(b)); } SystemToolbox::USleep(30000); return true; } }; static void Tata(ServerScheduler* s, ServerJob* j, bool* done) { typedef IServerCommand::ListOfStrings ListOfStrings; while (!(*done)) { ListOfStrings l; s->GetListOfJobs(l); for (ListOfStrings::iterator it = l.begin(); it != l.end(); ++it) { printf(">> %s: %0.1f\n", it->c_str(), 100.0f * s->GetProgress(*it)); } SystemToolbox::USleep(3000); } } TEST(MultiThreading, ServerScheduler) { ServerScheduler scheduler(10); ServerJob job; ServerCommandInstance& f2 = job.AddCommand(new Tutu(2)); ServerCommandInstance& f3 = job.AddCommand(new Tutu(3)); ServerCommandInstance& f4 = job.AddCommand(new Tutu(4)); ServerCommandInstance& f5 = job.AddCommand(new Tutu(5)); f2.AddInput(boost::lexical_cast<std::string>(42)); //f3.AddInput(boost::lexical_cast<std::string>(42)); //f4.AddInput(boost::lexical_cast<std::string>(42)); f2.ConnectOutput(f3); f3.ConnectOutput(f4); f4.ConnectOutput(f5); f3.SetConnectedToSink(true); f5.SetConnectedToSink(true); job.SetDescription("tutu"); bool done = false; boost::thread t(Tata, &scheduler, &job, &done); //scheduler.Submit(job); IServerCommand::ListOfStrings l; scheduler.SubmitAndWait(l, job); ASSERT_EQ(2u, l.size()); ASSERT_EQ(42 * 2 * 3, boost::lexical_cast<int>(l.front())); ASSERT_EQ(42 * 2 * 3 * 4 * 5, boost::lexical_cast<int>(l.back())); for (IServerCommand::ListOfStrings::iterator i = l.begin(); i != l.end(); i++) { printf("** %s\n", i->c_str()); } //SystemToolbox::ServerBarrier(); //SystemToolbox::USleep(3000000); scheduler.Stop(); done = true; if (t.joinable()) { t.join(); } } class DummyJob : public Orthanc::IJob { private: bool fails_; unsigned int count_; unsigned int steps_; public: DummyJob() : fails_(false), count_(0), steps_(4) { } explicit DummyJob(bool fails) : fails_(fails), count_(0), steps_(4) { } virtual void Start() { } virtual void SignalResubmit() { } virtual JobStepResult ExecuteStep() { if (fails_) { return JobStepResult::Failure(ErrorCode_ParameterOutOfRange); } else if (count_ == steps_ - 1) { return JobStepResult::Success(); } else { count_++; return JobStepResult::Continue(); } } virtual void ReleaseResources() { } virtual float GetProgress() { return static_cast<float>(count_) / static_cast<float>(steps_ - 1); } virtual void GetJobType(std::string& type) { type = "DummyJob"; } virtual void GetInternalContent(Json::Value& value) { } virtual void GetPublicContent(Json::Value& value) { value["hello"] = "world"; } }; static bool CheckState(Orthanc::JobsRegistry& registry, const std::string& id, Orthanc::JobState state) { Orthanc::JobState s; if (registry.GetState(s, id)) { return state == s; } else { return false; } } static bool CheckErrorCode(Orthanc::JobsRegistry& registry, const std::string& id, Orthanc::ErrorCode code) { Orthanc::JobInfo s; if (registry.GetJobInfo(s, id)) { return code == s.GetStatus().GetErrorCode(); } else { return false; } } TEST(JobsRegistry, Priority) { JobsRegistry registry; std::string i1, i2, i3, i4; registry.Submit(i1, new DummyJob(), 10); registry.Submit(i2, new DummyJob(), 30); registry.Submit(i3, new DummyJob(), 20); registry.Submit(i4, new DummyJob(), 5); registry.SetMaxCompletedJobs(2); std::set<std::string> id; registry.ListJobs(id); ASSERT_EQ(4u, id.size()); ASSERT_TRUE(id.find(i1) != id.end()); ASSERT_TRUE(id.find(i2) != id.end()); ASSERT_TRUE(id.find(i3) != id.end()); ASSERT_TRUE(id.find(i4) != id.end()); ASSERT_TRUE(CheckState(registry, i2, Orthanc::JobState_Pending)); { JobsRegistry::RunningJob job(registry, 0); ASSERT_TRUE(job.IsValid()); ASSERT_EQ(30, job.GetPriority()); ASSERT_EQ(i2, job.GetId()); ASSERT_TRUE(CheckState(registry, i2, Orthanc::JobState_Running)); } ASSERT_TRUE(CheckState(registry, i2, Orthanc::JobState_Failure)); ASSERT_TRUE(CheckState(registry, i3, Orthanc::JobState_Pending)); { JobsRegistry::RunningJob job(registry, 0); ASSERT_TRUE(job.IsValid()); ASSERT_EQ(20, job.GetPriority()); ASSERT_EQ(i3, job.GetId()); job.MarkSuccess(); ASSERT_TRUE(CheckState(registry, i3, Orthanc::JobState_Running)); } ASSERT_TRUE(CheckState(registry, i3, Orthanc::JobState_Success)); { JobsRegistry::RunningJob job(registry, 0); ASSERT_TRUE(job.IsValid()); ASSERT_EQ(10, job.GetPriority()); ASSERT_EQ(i1, job.GetId()); } { JobsRegistry::RunningJob job(registry, 0); ASSERT_TRUE(job.IsValid()); ASSERT_EQ(5, job.GetPriority()); ASSERT_EQ(i4, job.GetId()); } { JobsRegistry::RunningJob job(registry, 1); ASSERT_FALSE(job.IsValid()); } Orthanc::JobState s; ASSERT_TRUE(registry.GetState(s, i1)); ASSERT_FALSE(registry.GetState(s, i2)); // Removed because oldest ASSERT_FALSE(registry.GetState(s, i3)); // Removed because second oldest ASSERT_TRUE(registry.GetState(s, i4)); registry.SetMaxCompletedJobs(1); // (*) ASSERT_FALSE(registry.GetState(s, i1)); // Just discarded by (*) ASSERT_TRUE(registry.GetState(s, i4)); } TEST(JobsRegistry, Simultaneous) { JobsRegistry registry; std::string i1, i2; registry.Submit(i1, new DummyJob(), 20); registry.Submit(i2, new DummyJob(), 10); ASSERT_TRUE(CheckState(registry, i1, Orthanc::JobState_Pending)); ASSERT_TRUE(CheckState(registry, i2, Orthanc::JobState_Pending)); { JobsRegistry::RunningJob job1(registry, 0); JobsRegistry::RunningJob job2(registry, 0); ASSERT_TRUE(job1.IsValid()); ASSERT_TRUE(job2.IsValid()); job1.MarkFailure(); job2.MarkSuccess(); ASSERT_TRUE(CheckState(registry, i1, Orthanc::JobState_Running)); ASSERT_TRUE(CheckState(registry, i2, Orthanc::JobState_Running)); } ASSERT_TRUE(CheckState(registry, i1, Orthanc::JobState_Failure)); ASSERT_TRUE(CheckState(registry, i2, Orthanc::JobState_Success)); } TEST(JobsRegistry, Resubmit) { JobsRegistry registry; std::string id; registry.Submit(id, new DummyJob(), 10); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Pending)); registry.Resubmit(id); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Pending)); { JobsRegistry::RunningJob job(registry, 0); ASSERT_TRUE(job.IsValid()); job.MarkFailure(); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Running)); registry.Resubmit(id); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Running)); } ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Failure)); registry.Resubmit(id); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Pending)); { JobsRegistry::RunningJob job(registry, 0); ASSERT_TRUE(job.IsValid()); ASSERT_EQ(id, job.GetId()); job.MarkSuccess(); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Running)); } ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Success)); registry.Resubmit(id); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Success)); } TEST(JobsRegistry, Retry) { JobsRegistry registry; std::string id; registry.Submit(id, new DummyJob(), 10); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Pending)); { JobsRegistry::RunningJob job(registry, 0); ASSERT_TRUE(job.IsValid()); job.MarkRetry(0); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Running)); } ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Retry)); registry.Resubmit(id); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Retry)); registry.ScheduleRetries(); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Pending)); { JobsRegistry::RunningJob job(registry, 0); ASSERT_TRUE(job.IsValid()); job.MarkSuccess(); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Running)); } ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Success)); } TEST(JobsRegistry, PausePending) { JobsRegistry registry; std::string id; registry.Submit(id, new DummyJob(), 10); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Pending)); registry.Pause(id); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Paused)); registry.Pause(id); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Paused)); registry.Resubmit(id); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Paused)); registry.Resume(id); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Pending)); } TEST(JobsRegistry, PauseRunning) { JobsRegistry registry; std::string id; registry.Submit(id, new DummyJob(), 10); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Pending)); { JobsRegistry::RunningJob job(registry, 0); ASSERT_TRUE(job.IsValid()); registry.Resubmit(id); job.MarkPause(); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Running)); } ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Paused)); registry.Resubmit(id); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Paused)); registry.Resume(id); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Pending)); { JobsRegistry::RunningJob job(registry, 0); ASSERT_TRUE(job.IsValid()); job.MarkSuccess(); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Running)); } ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Success)); } TEST(JobsRegistry, PauseRetry) { JobsRegistry registry; std::string id; registry.Submit(id, new DummyJob(), 10); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Pending)); { JobsRegistry::RunningJob job(registry, 0); ASSERT_TRUE(job.IsValid()); job.MarkRetry(0); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Running)); } ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Retry)); registry.Pause(id); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Paused)); registry.Resume(id); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Pending)); { JobsRegistry::RunningJob job(registry, 0); ASSERT_TRUE(job.IsValid()); job.MarkSuccess(); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Running)); } ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Success)); } TEST(JobsRegistry, Cancel) { JobsRegistry registry; std::string id; registry.Submit(id, new DummyJob(), 10); ASSERT_FALSE(registry.Cancel("nope")); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Pending)); ASSERT_TRUE(CheckErrorCode(registry, id, ErrorCode_Success)); ASSERT_TRUE(registry.Cancel(id)); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Failure)); ASSERT_TRUE(CheckErrorCode(registry, id, ErrorCode_CanceledJob)); ASSERT_TRUE(registry.Cancel(id)); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Failure)); ASSERT_TRUE(CheckErrorCode(registry, id, ErrorCode_CanceledJob)); ASSERT_TRUE(registry.Resubmit(id)); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Pending)); ASSERT_TRUE(CheckErrorCode(registry, id, ErrorCode_CanceledJob)); { JobsRegistry::RunningJob job(registry, 0); ASSERT_TRUE(job.IsValid()); ASSERT_TRUE(CheckErrorCode(registry, id, ErrorCode_Success)); job.MarkSuccess(); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Running)); } ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Success)); ASSERT_TRUE(CheckErrorCode(registry, id, ErrorCode_Success)); ASSERT_TRUE(registry.Cancel(id)); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Success)); ASSERT_TRUE(CheckErrorCode(registry, id, ErrorCode_Success)); registry.Submit(id, new DummyJob(), 10); { JobsRegistry::RunningJob job(registry, 0); ASSERT_TRUE(job.IsValid()); ASSERT_EQ(id, job.GetId()); ASSERT_TRUE(CheckErrorCode(registry, id, ErrorCode_Success)); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Running)); job.MarkCanceled(); } ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Failure)); ASSERT_TRUE(CheckErrorCode(registry, id, ErrorCode_CanceledJob)); ASSERT_TRUE(registry.Resubmit(id)); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Pending)); ASSERT_TRUE(CheckErrorCode(registry, id, ErrorCode_CanceledJob)); ASSERT_TRUE(registry.Pause(id)); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Paused)); ASSERT_TRUE(CheckErrorCode(registry, id, ErrorCode_CanceledJob)); ASSERT_TRUE(registry.Cancel(id)); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Failure)); ASSERT_TRUE(CheckErrorCode(registry, id, ErrorCode_CanceledJob)); ASSERT_TRUE(registry.Resubmit(id)); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Pending)); ASSERT_TRUE(CheckErrorCode(registry, id, ErrorCode_CanceledJob)); { JobsRegistry::RunningJob job(registry, 0); ASSERT_TRUE(job.IsValid()); ASSERT_EQ(id, job.GetId()); ASSERT_TRUE(CheckErrorCode(registry, id, ErrorCode_Success)); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Running)); job.MarkRetry(500); } ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Retry)); ASSERT_TRUE(CheckErrorCode(registry, id, ErrorCode_Success)); ASSERT_TRUE(registry.Cancel(id)); ASSERT_TRUE(CheckState(registry, id, Orthanc::JobState_Failure)); ASSERT_TRUE(CheckErrorCode(registry, id, ErrorCode_CanceledJob)); } TEST(JobsEngine, SubmitAndWait) { JobsEngine engine; engine.SetWorkersCount(3); engine.Start(); ASSERT_TRUE(engine.GetRegistry().SubmitAndWait(new DummyJob(), rand() % 10)); ASSERT_FALSE(engine.GetRegistry().SubmitAndWait(new DummyJob(true), rand() % 10)); engine.Stop(); } #include "../OrthancServer/ServerJobs/LuaJobManager.h" #include "../Core/JobsEngine/Operations/StringOperationValue.h" #include "../Core/JobsEngine/Operations/LogJobOperation.h" TEST(JobsEngine, DISABLED_SequenceOfOperationsJob) { JobsEngine engine; engine.SetWorkersCount(3); engine.Start(); std::string id; SequenceOfOperationsJob* job = NULL; { std::auto_ptr<SequenceOfOperationsJob> a(new SequenceOfOperationsJob); job = a.get(); engine.GetRegistry().Submit(id, a.release(), 0); } boost::this_thread::sleep(boost::posix_time::milliseconds(500)); { SequenceOfOperationsJob::Lock lock(*job); size_t i = lock.AddOperation(new LogJobOperation); size_t j = lock.AddOperation(new LogJobOperation); size_t k = lock.AddOperation(new LogJobOperation); lock.AddInput(i, StringOperationValue("Hello")); lock.AddInput(i, StringOperationValue("World")); lock.Connect(i, j); lock.Connect(j, k); } boost::this_thread::sleep(boost::posix_time::milliseconds(2000)); engine.Stop(); } TEST(JobsEngine, Lua) { JobsEngine engine; engine.SetWorkersCount(2); engine.Start(); LuaJobManager lua; lua.SetMaxOperationsPerJob(5); lua.SetTrailingOperationTimeout(200); for (size_t i = 0; i < 30; i++) { boost::this_thread::sleep(boost::posix_time::milliseconds(150)); LuaJobManager::Lock lock(lua, engine); size_t a = lock.AddLogOperation(); size_t b = lock.AddLogOperation(); size_t c = lock.AddSystemCallOperation("echo"); lock.AddStringInput(a, boost::lexical_cast<std::string>(i)); lock.AddNullInput(a); lock.Connect(a, b); lock.Connect(a, c); } boost::this_thread::sleep(boost::posix_time::milliseconds(2000)); engine.Stop(); }