Mercurial > hg > orthanc
view Core/JobsEngine/JobsRegistry.cpp @ 2583:1b6a6d80b6f2 jobs
OrthancPeerStoreJob
| author | Sebastien Jodogne <s.jodogne@gmail.com> |
|---|---|
| date | Mon, 14 May 2018 20:43:16 +0200 |
| parents | 8da2cffc2378 |
| children | 140a539b4eba |
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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 "../PrecompiledHeaders.h" #include "JobsRegistry.h" #include "../Logging.h" #include "../OrthancException.h" #include "../Toolbox.h" namespace Orthanc { class JobsRegistry::JobHandler : public boost::noncopyable { private: std::string id_; JobState state_; std::auto_ptr<IJob> job_; int priority_; // "+inf()" means highest priority boost::posix_time::ptime creationTime_; boost::posix_time::ptime lastStateChangeTime_; boost::posix_time::time_duration runtime_; boost::posix_time::ptime retryTime_; bool pauseScheduled_; bool cancelScheduled_; JobStatus lastStatus_; void Touch() { const boost::posix_time::ptime now = boost::posix_time::microsec_clock::universal_time(); if (state_ == JobState_Running) { runtime_ += (now - lastStateChangeTime_); } lastStateChangeTime_ = now; } void SetStateInternal(JobState state) { state_ = state; pauseScheduled_ = false; cancelScheduled_ = false; Touch(); } public: JobHandler(IJob* job, int priority) : id_(Toolbox::GenerateUuid()), state_(JobState_Pending), job_(job), priority_(priority), creationTime_(boost::posix_time::microsec_clock::universal_time()), lastStateChangeTime_(creationTime_), runtime_(boost::posix_time::milliseconds(0)), retryTime_(creationTime_), pauseScheduled_(false), cancelScheduled_(false) { if (job == NULL) { throw OrthancException(ErrorCode_NullPointer); } lastStatus_ = JobStatus(ErrorCode_Success, *job); job->Start(); } const std::string& GetId() const { return id_; } IJob& GetJob() const { assert(job_.get() != NULL); return *job_; } void SetPriority(int priority) { priority_ = priority; } int GetPriority() const { return priority_; } JobState GetState() const { return state_; } void SetState(JobState state) { if (state == JobState_Retry) { // Use "SetRetryState()" throw OrthancException(ErrorCode_BadSequenceOfCalls); } else { SetStateInternal(state); } } void SetRetryState(unsigned int timeout) { if (state_ == JobState_Running) { SetStateInternal(JobState_Retry); retryTime_ = (boost::posix_time::microsec_clock::universal_time() + boost::posix_time::milliseconds(timeout)); } else { // Only valid for running jobs throw OrthancException(ErrorCode_BadSequenceOfCalls); } } void SchedulePause() { if (state_ == JobState_Running) { pauseScheduled_ = true; } else { // Only valid for running jobs throw OrthancException(ErrorCode_BadSequenceOfCalls); } } void ScheduleCancel() { if (state_ == JobState_Running) { cancelScheduled_ = true; } else { // Only valid for running jobs throw OrthancException(ErrorCode_BadSequenceOfCalls); } } bool IsPauseScheduled() { return pauseScheduled_; } bool IsCancelScheduled() { return cancelScheduled_; } bool IsRetryReady(const boost::posix_time::ptime& now) const { if (state_ != JobState_Retry) { throw OrthancException(ErrorCode_BadSequenceOfCalls); } else { return retryTime_ <= now; } } const boost::posix_time::ptime& GetCreationTime() const { return creationTime_; } const boost::posix_time::ptime& GetLastStateChangeTime() const { return lastStateChangeTime_; } const boost::posix_time::time_duration& GetRuntime() const { return runtime_; } const JobStatus& GetLastStatus() const { return lastStatus_; } void SetLastStatus(const JobStatus& status) { lastStatus_ = status; Touch(); } void SetLastErrorCode(ErrorCode code) { lastStatus_.SetErrorCode(code); } }; bool JobsRegistry::PriorityComparator::operator() (JobHandler*& a, JobHandler*& b) const { return a->GetPriority() < b->GetPriority(); } #if defined(NDEBUG) void JobsRegistry::CheckInvariants() const { } #else bool JobsRegistry::IsPendingJob(const JobHandler& job) const { PendingJobs copy = pendingJobs_; while (!copy.empty()) { if (copy.top() == &job) { return true; } copy.pop(); } return false; } bool JobsRegistry::IsCompletedJob(JobHandler& job) const { for (CompletedJobs::const_iterator it = completedJobs_.begin(); it != completedJobs_.end(); ++it) { if (*it == &job) { return true; } } return false; } bool JobsRegistry::IsRetryJob(JobHandler& job) const { return retryJobs_.find(&job) != retryJobs_.end(); } void JobsRegistry::CheckInvariants() const { { PendingJobs copy = pendingJobs_; while (!copy.empty()) { assert(copy.top()->GetState() == JobState_Pending); copy.pop(); } } assert(completedJobs_.size() <= maxCompletedJobs_); for (CompletedJobs::const_iterator it = completedJobs_.begin(); it != completedJobs_.end(); ++it) { assert((*it)->GetState() == JobState_Success || (*it)->GetState() == JobState_Failure); } for (RetryJobs::const_iterator it = retryJobs_.begin(); it != retryJobs_.end(); ++it) { assert((*it)->GetState() == JobState_Retry); } for (JobsIndex::const_iterator it = jobsIndex_.begin(); it != jobsIndex_.end(); ++it) { JobHandler& job = *it->second; assert(job.GetId() == it->first); switch (job.GetState()) { case JobState_Pending: assert(!IsRetryJob(job) && IsPendingJob(job) && !IsCompletedJob(job)); break; case JobState_Success: case JobState_Failure: assert(!IsRetryJob(job) && !IsPendingJob(job) && IsCompletedJob(job)); break; case JobState_Retry: assert(IsRetryJob(job) && !IsPendingJob(job) && !IsCompletedJob(job)); break; case JobState_Running: case JobState_Paused: assert(!IsRetryJob(job) && !IsPendingJob(job) && !IsCompletedJob(job)); break; default: throw OrthancException(ErrorCode_InternalError); } } } #endif void JobsRegistry::ForgetOldCompletedJobs() { if (maxCompletedJobs_ != 0) { while (completedJobs_.size() > maxCompletedJobs_) { assert(completedJobs_.front() != NULL); std::string id = completedJobs_.front()->GetId(); assert(jobsIndex_.find(id) != jobsIndex_.end()); jobsIndex_.erase(id); delete(completedJobs_.front()); completedJobs_.pop_front(); } } } void JobsRegistry::SetCompletedJob(JobHandler& job, bool success) { job.SetState(success ? JobState_Success : JobState_Failure); completedJobs_.push_back(&job); ForgetOldCompletedJobs(); someJobComplete_.notify_all(); } void JobsRegistry::MarkRunningAsCompleted(JobHandler& job, bool success) { LOG(INFO) << "Job has completed with " << (success ? "success" : "failure") << ": " << job.GetId(); CheckInvariants(); assert(job.GetState() == JobState_Running); SetCompletedJob(job, success); CheckInvariants(); } void JobsRegistry::MarkRunningAsRetry(JobHandler& job, unsigned int timeout) { LOG(INFO) << "Job scheduled for retry in " << timeout << "ms: " << job.GetId(); CheckInvariants(); assert(job.GetState() == JobState_Running && retryJobs_.find(&job) == retryJobs_.end()); retryJobs_.insert(&job); job.SetRetryState(timeout); CheckInvariants(); } void JobsRegistry::MarkRunningAsPaused(JobHandler& job) { LOG(INFO) << "Job paused: " << job.GetId(); CheckInvariants(); assert(job.GetState() == JobState_Running); job.SetState(JobState_Paused); CheckInvariants(); } bool JobsRegistry::GetStateInternal(JobState& state, const std::string& id) { CheckInvariants(); JobsIndex::const_iterator it = jobsIndex_.find(id); if (it == jobsIndex_.end()) { return false; } else { state = it->second->GetState(); return true; } } JobsRegistry::~JobsRegistry() { for (JobsIndex::iterator it = jobsIndex_.begin(); it != jobsIndex_.end(); ++it) { assert(it->second != NULL); delete it->second; } } void JobsRegistry::SetMaxCompletedJobs(size_t i) { boost::mutex::scoped_lock lock(mutex_); CheckInvariants(); maxCompletedJobs_ = i; ForgetOldCompletedJobs(); CheckInvariants(); } void JobsRegistry::ListJobs(std::set<std::string>& target) { boost::mutex::scoped_lock lock(mutex_); CheckInvariants(); for (JobsIndex::const_iterator it = jobsIndex_.begin(); it != jobsIndex_.end(); ++it) { target.insert(it->first); } } bool JobsRegistry::GetJobInfo(JobInfo& target, const std::string& id) { boost::mutex::scoped_lock lock(mutex_); CheckInvariants(); JobsIndex::const_iterator found = jobsIndex_.find(id); if (found == jobsIndex_.end()) { return false; } else { const JobHandler& handler = *found->second; target = JobInfo(handler.GetId(), handler.GetPriority(), handler.GetState(), handler.GetLastStatus(), handler.GetCreationTime(), handler.GetLastStateChangeTime(), handler.GetRuntime()); return true; } } void JobsRegistry::Submit(std::string& id, IJob* job, // Takes ownership int priority) { std::auto_ptr<JobHandler> handler(new JobHandler(job, priority)); boost::mutex::scoped_lock lock(mutex_); CheckInvariants(); id = handler->GetId(); pendingJobs_.push(handler.get()); pendingJobAvailable_.notify_one(); jobsIndex_.insert(std::make_pair(id, handler.release())); LOG(INFO) << "New job submitted with priority " << priority << ": " << id; CheckInvariants(); } void JobsRegistry::Submit(IJob* job, // Takes ownership int priority) { std::string id; Submit(id, job, priority); } bool JobsRegistry::SubmitAndWait(IJob* job, // Takes ownership int priority) { std::string id; Submit(id, job, priority); JobState state; { boost::mutex::scoped_lock lock(mutex_); while (GetStateInternal(state, id) && state != JobState_Success && state != JobState_Failure) { someJobComplete_.wait(lock); } } return (state == JobState_Success); } bool JobsRegistry::SetPriority(const std::string& id, int priority) { LOG(INFO) << "Changing priority to " << priority << " for job: " << id; boost::mutex::scoped_lock lock(mutex_); CheckInvariants(); JobsIndex::iterator found = jobsIndex_.find(id); if (found == jobsIndex_.end()) { LOG(WARNING) << "Unknown job: " << id; return false; } else { found->second->SetPriority(priority); if (found->second->GetState() == JobState_Pending) { // If the job is pending, we need to reconstruct the // priority queue, as the heap condition has changed PendingJobs copy; std::swap(copy, pendingJobs_); assert(pendingJobs_.empty()); while (!copy.empty()) { pendingJobs_.push(copy.top()); copy.pop(); } } CheckInvariants(); return true; } } void JobsRegistry::RemovePendingJob(const std::string& id) { // If the job is pending, we need to reconstruct the priority // queue to remove it PendingJobs copy; std::swap(copy, pendingJobs_); assert(pendingJobs_.empty()); while (!copy.empty()) { if (copy.top()->GetId() != id) { pendingJobs_.push(copy.top()); } copy.pop(); } } void JobsRegistry::RemoveRetryJob(JobHandler* handler) { RetryJobs::iterator item = retryJobs_.find(handler); assert(item != retryJobs_.end()); retryJobs_.erase(item); } bool JobsRegistry::Pause(const std::string& id) { LOG(INFO) << "Pausing job: " << id; boost::mutex::scoped_lock lock(mutex_); CheckInvariants(); JobsIndex::iterator found = jobsIndex_.find(id); if (found == jobsIndex_.end()) { LOG(WARNING) << "Unknown job: " << id; return false; } else { switch (found->second->GetState()) { case JobState_Pending: RemovePendingJob(id); found->second->SetState(JobState_Paused); break; case JobState_Retry: RemoveRetryJob(found->second); found->second->SetState(JobState_Paused); break; case JobState_Paused: case JobState_Success: case JobState_Failure: // Nothing to be done break; case JobState_Running: found->second->SchedulePause(); break; default: throw OrthancException(ErrorCode_InternalError); } CheckInvariants(); return true; } } bool JobsRegistry::Cancel(const std::string& id) { LOG(INFO) << "Canceling job: " << id; boost::mutex::scoped_lock lock(mutex_); CheckInvariants(); JobsIndex::iterator found = jobsIndex_.find(id); if (found == jobsIndex_.end()) { LOG(WARNING) << "Unknown job: " << id; return false; } else { switch (found->second->GetState()) { case JobState_Pending: RemovePendingJob(id); SetCompletedJob(*found->second, false); found->second->SetLastErrorCode(ErrorCode_CanceledJob); break; case JobState_Retry: RemoveRetryJob(found->second); SetCompletedJob(*found->second, false); found->second->SetLastErrorCode(ErrorCode_CanceledJob); break; case JobState_Paused: SetCompletedJob(*found->second, false); found->second->SetLastErrorCode(ErrorCode_CanceledJob); break; case JobState_Success: case JobState_Failure: // Nothing to be done break; case JobState_Running: found->second->ScheduleCancel(); break; default: throw OrthancException(ErrorCode_InternalError); } CheckInvariants(); return true; } } bool JobsRegistry::Resume(const std::string& id) { LOG(INFO) << "Resuming job: " << id; boost::mutex::scoped_lock lock(mutex_); CheckInvariants(); JobsIndex::iterator found = jobsIndex_.find(id); if (found == jobsIndex_.end()) { LOG(WARNING) << "Unknown job: " << id; return false; } else if (found->second->GetState() != JobState_Paused) { LOG(WARNING) << "Cannot resume a job that is not paused: " << id; return false; } else { found->second->SetState(JobState_Pending); pendingJobs_.push(found->second); pendingJobAvailable_.notify_one(); CheckInvariants(); return true; } } bool JobsRegistry::Resubmit(const std::string& id) { LOG(INFO) << "Resubmitting failed job: " << id; boost::mutex::scoped_lock lock(mutex_); CheckInvariants(); JobsIndex::iterator found = jobsIndex_.find(id); if (found == jobsIndex_.end()) { LOG(WARNING) << "Unknown job: " << id; return false; } else if (found->second->GetState() != JobState_Failure) { LOG(WARNING) << "Cannot resubmit a job that has not failed: " << id; return false; } else { found->second->GetJob().SignalResubmit(); bool ok = false; for (CompletedJobs::iterator it = completedJobs_.begin(); it != completedJobs_.end(); ++it) { if (*it == found->second) { ok = true; completedJobs_.erase(it); break; } } assert(ok); found->second->SetState(JobState_Pending); pendingJobs_.push(found->second); pendingJobAvailable_.notify_one(); CheckInvariants(); return true; } } void JobsRegistry::ScheduleRetries() { boost::mutex::scoped_lock lock(mutex_); CheckInvariants(); RetryJobs copy; std::swap(copy, retryJobs_); const boost::posix_time::ptime now = boost::posix_time::microsec_clock::universal_time(); assert(retryJobs_.empty()); for (RetryJobs::iterator it = copy.begin(); it != copy.end(); ++it) { if ((*it)->IsRetryReady(now)) { LOG(INFO) << "Retrying job: " << (*it)->GetId(); (*it)->SetState(JobState_Pending); pendingJobs_.push(*it); pendingJobAvailable_.notify_one(); } else { retryJobs_.insert(*it); } } CheckInvariants(); } bool JobsRegistry::GetState(JobState& state, const std::string& id) { boost::mutex::scoped_lock lock(mutex_); return GetStateInternal(state, id); } JobsRegistry::RunningJob::RunningJob(JobsRegistry& registry, unsigned int timeout) : registry_(registry), handler_(NULL), targetState_(JobState_Failure), targetRetryTimeout_(0), canceled_(false) { { boost::mutex::scoped_lock lock(registry_.mutex_); while (registry_.pendingJobs_.empty()) { if (timeout == 0) { registry_.pendingJobAvailable_.wait(lock); } else { bool success = registry_.pendingJobAvailable_.timed_wait (lock, boost::posix_time::milliseconds(timeout)); if (!success) { // No pending job return; } } } handler_ = registry_.pendingJobs_.top(); registry_.pendingJobs_.pop(); assert(handler_->GetState() == JobState_Pending); handler_->SetState(JobState_Running); handler_->SetLastErrorCode(ErrorCode_Success); job_ = &handler_->GetJob(); id_ = handler_->GetId(); priority_ = handler_->GetPriority(); } } JobsRegistry::RunningJob::~RunningJob() { if (IsValid()) { boost::mutex::scoped_lock lock(registry_.mutex_); switch (targetState_) { case JobState_Failure: registry_.MarkRunningAsCompleted(*handler_, false); if (canceled_) { handler_->SetLastErrorCode(ErrorCode_CanceledJob); } break; case JobState_Success: registry_.MarkRunningAsCompleted(*handler_, true); break; case JobState_Paused: registry_.MarkRunningAsPaused(*handler_); break; case JobState_Retry: registry_.MarkRunningAsRetry(*handler_, targetRetryTimeout_); break; default: assert(0); } } } bool JobsRegistry::RunningJob::IsValid() const { return (handler_ != NULL && job_ != NULL); } const std::string& JobsRegistry::RunningJob::GetId() const { if (!IsValid()) { throw OrthancException(ErrorCode_BadSequenceOfCalls); } else { return id_; } } int JobsRegistry::RunningJob::GetPriority() const { if (!IsValid()) { throw OrthancException(ErrorCode_BadSequenceOfCalls); } else { return priority_; } } IJob& JobsRegistry::RunningJob::GetJob() { if (!IsValid()) { throw OrthancException(ErrorCode_BadSequenceOfCalls); } else { return *job_; } } bool JobsRegistry::RunningJob::IsPauseScheduled() { if (!IsValid()) { throw OrthancException(ErrorCode_BadSequenceOfCalls); } else { boost::mutex::scoped_lock lock(registry_.mutex_); registry_.CheckInvariants(); assert(handler_->GetState() == JobState_Running); return handler_->IsPauseScheduled(); } } bool JobsRegistry::RunningJob::IsCancelScheduled() { if (!IsValid()) { throw OrthancException(ErrorCode_BadSequenceOfCalls); } else { boost::mutex::scoped_lock lock(registry_.mutex_); registry_.CheckInvariants(); assert(handler_->GetState() == JobState_Running); return handler_->IsCancelScheduled(); } } void JobsRegistry::RunningJob::MarkSuccess() { if (!IsValid()) { throw OrthancException(ErrorCode_BadSequenceOfCalls); } else { targetState_ = JobState_Success; } } void JobsRegistry::RunningJob::MarkFailure() { if (!IsValid()) { throw OrthancException(ErrorCode_BadSequenceOfCalls); } else { targetState_ = JobState_Failure; } } void JobsRegistry::RunningJob::MarkCanceled() { if (!IsValid()) { throw OrthancException(ErrorCode_BadSequenceOfCalls); } else { targetState_ = JobState_Failure; canceled_ = true; } } void JobsRegistry::RunningJob::MarkPause() { if (!IsValid()) { throw OrthancException(ErrorCode_BadSequenceOfCalls); } else { targetState_ = JobState_Paused; } } void JobsRegistry::RunningJob::MarkRetry(unsigned int timeout) { if (!IsValid()) { throw OrthancException(ErrorCode_BadSequenceOfCalls); } else { targetState_ = JobState_Retry; targetRetryTimeout_ = timeout; } } void JobsRegistry::RunningJob::UpdateStatus(ErrorCode code) { if (!IsValid()) { throw OrthancException(ErrorCode_BadSequenceOfCalls); } else { JobStatus status(code, *job_); boost::mutex::scoped_lock lock(registry_.mutex_); registry_.CheckInvariants(); assert(handler_->GetState() == JobState_Running); handler_->SetLastStatus(status); } } }