Mercurial > hg > orthanc
view OrthancServer/Sources/ServerContext.cpp @ 5887:1625fa53a6a3 find-refactoring
refactoring StatelessDatabaseOperations::LookupIdentifierExact()
author | Sebastien Jodogne <s.jodogne@gmail.com> |
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date | Fri, 29 Nov 2024 17:18:44 +0100 |
parents | a8cf4c659e9c |
children |
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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) 2017-2023 Osimis S.A., Belgium * Copyright (C) 2024-2024 Orthanc Team SRL, Belgium * Copyright (C) 2021-2024 Sebastien Jodogne, ICTEAM UCLouvain, 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. * * 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 "PrecompiledHeadersServer.h" #include "ServerContext.h" #include "../../OrthancFramework/Sources/Cache/SharedArchive.h" #include "../../OrthancFramework/Sources/DicomFormat/DicomElement.h" #include "../../OrthancFramework/Sources/DicomFormat/DicomStreamReader.h" #include "../../OrthancFramework/Sources/DicomParsing/DcmtkTranscoder.h" #include "../../OrthancFramework/Sources/DicomParsing/DicomModification.h" #include "../../OrthancFramework/Sources/DicomParsing/FromDcmtkBridge.h" #include "../../OrthancFramework/Sources/DicomParsing/Internals/DicomImageDecoder.h" #include "../../OrthancFramework/Sources/FileStorage/StorageAccessor.h" #include "../../OrthancFramework/Sources/HttpServer/FilesystemHttpSender.h" #include "../../OrthancFramework/Sources/HttpServer/HttpStreamTranscoder.h" #include "../../OrthancFramework/Sources/JobsEngine/SetOfInstancesJob.h" #include "../../OrthancFramework/Sources/Logging.h" #include "../../OrthancFramework/Sources/MallocMemoryBuffer.h" #include "../../OrthancFramework/Sources/MetricsRegistry.h" #include "../Plugins/Engine/OrthancPlugins.h" #include "OrthancConfiguration.h" #include "OrthancRestApi/OrthancRestApi.h" #include "ResourceFinder.h" #include "Search/DatabaseLookup.h" #include "ServerJobs/OrthancJobUnserializer.h" #include "ServerToolbox.h" #include "StorageCommitmentReports.h" #include <dcmtk/dcmdata/dcfilefo.h> #include <dcmtk/dcmnet/dimse.h> #if HAVE_MALLOC_TRIM == 1 # include <malloc.h> #endif static size_t DICOM_CACHE_SIZE = 128 * 1024 * 1024; // 128 MB /** * IMPORTANT: We make the assumption that the same instance of * FileStorage can be accessed from multiple threads. This seems OK * since the filesystem implements the required locking mechanisms, * but maybe a read-writer lock on the "FileStorage" could be * useful. Conversely, "ServerIndex" already implements mutex-based * locking. **/ namespace Orthanc { static bool IsUncompressedTransferSyntax(DicomTransferSyntax transferSyntax) { return (transferSyntax == DicomTransferSyntax_LittleEndianImplicit || transferSyntax == DicomTransferSyntax_LittleEndianExplicit || transferSyntax == DicomTransferSyntax_BigEndianExplicit); } static bool IsTranscodableTransferSyntax(DicomTransferSyntax transferSyntax) { return ( // Do not try to transcode DICOM videos (new in Orthanc 1.8.2) transferSyntax != DicomTransferSyntax_MPEG2MainProfileAtMainLevel && transferSyntax != DicomTransferSyntax_MPEG2MainProfileAtHighLevel && transferSyntax != DicomTransferSyntax_MPEG4HighProfileLevel4_1 && transferSyntax != DicomTransferSyntax_MPEG4BDcompatibleHighProfileLevel4_1 && transferSyntax != DicomTransferSyntax_MPEG4HighProfileLevel4_2_For2DVideo && transferSyntax != DicomTransferSyntax_MPEG4HighProfileLevel4_2_For3DVideo && transferSyntax != DicomTransferSyntax_MPEG4StereoHighProfileLevel4_2 && transferSyntax != DicomTransferSyntax_HEVCMainProfileLevel5_1 && transferSyntax != DicomTransferSyntax_HEVCMain10ProfileLevel5_1 && // Do not try to transcode special transfer syntaxes transferSyntax != DicomTransferSyntax_RFC2557MimeEncapsulation && transferSyntax != DicomTransferSyntax_XML); } ServerContext::StoreResult::StoreResult() : status_(StoreStatus_Failure), cstoreStatusCode_(0) { } #if HAVE_MALLOC_TRIM == 1 void ServerContext::MemoryTrimmingThread(ServerContext* that, unsigned int intervalInSeconds) { Logging::SetCurrentThreadName("MEMORY-TRIM"); boost::posix_time::ptime lastExecution = boost::posix_time::second_clock::universal_time(); // This thread is started only if malloc_trim is defined while (!that->done_) { boost::posix_time::ptime now = boost::posix_time::second_clock::universal_time(); boost::posix_time::time_duration elapsed = now - lastExecution; if (elapsed.total_seconds() > intervalInSeconds) { // If possible, gives memory back to the system // (see OrthancServer/Resources/ImplementationNotes/memory_consumption.txt) { MetricsRegistry::Timer timer(that->GetMetricsRegistry(), "orthanc_memory_trimming_duration_ms"); malloc_trim(128*1024); } lastExecution = boost::posix_time::second_clock::universal_time(); } boost::this_thread::sleep(boost::posix_time::milliseconds(100)); } } #endif void ServerContext::ChangeThread(ServerContext* that, unsigned int sleepDelay) { Logging::SetCurrentThreadName("CHANGES"); while (!that->done_) { std::unique_ptr<IDynamicObject> obj(that->pendingChanges_.Dequeue(sleepDelay)); if (obj.get() != NULL) { const ServerIndexChange& change = dynamic_cast<const ServerIndexChange&>(*obj.get()); boost::shared_lock<boost::shared_mutex> lock(that->listenersMutex_); for (ServerListeners::iterator it = that->listeners_.begin(); it != that->listeners_.end(); ++it) { try { try { it->GetListener().SignalChange(change); } catch (std::bad_alloc&) { LOG(ERROR) << "Not enough memory while signaling a change"; } catch (...) { throw OrthancException(ErrorCode_InternalError, "Error while signaling a change"); } } catch (OrthancException& e) { LOG(ERROR) << "Error in the " << it->GetDescription() << " callback while signaling a change: " << e.What() << " (code " << e.GetErrorCode() << ")"; } } } } } void ServerContext::JobEventsThread(ServerContext* that, unsigned int sleepDelay) { Logging::SetCurrentThreadName("JOB-EVENTS"); while (!that->done_) { std::unique_ptr<IDynamicObject> obj(that->pendingJobEvents_.Dequeue(sleepDelay)); if (obj.get() != NULL) { const JobEvent& event = dynamic_cast<const JobEvent&>(*obj.get()); boost::shared_lock<boost::shared_mutex> lock(that->listenersMutex_); for (ServerListeners::iterator it = that->listeners_.begin(); it != that->listeners_.end(); ++it) { try { try { it->GetListener().SignalJobEvent(event); } catch (std::bad_alloc&) { LOG(ERROR) << "Not enough memory while signaling a job event"; } catch (...) { throw OrthancException(ErrorCode_InternalError, "Error while signaling a job event"); } } catch (OrthancException& e) { LOG(ERROR) << "Error in the " << it->GetDescription() << " callback while signaling a job event: " << e.What() << " (code " << e.GetErrorCode() << ")"; } } } } } void ServerContext::SaveJobsThread(ServerContext* that, unsigned int sleepDelay) { Logging::SetCurrentThreadName("SAVE-JOBS"); static const boost::posix_time::time_duration PERIODICITY = boost::posix_time::seconds(10); boost::posix_time::ptime next = boost::posix_time::microsec_clock::universal_time() + PERIODICITY; while (!that->done_) { boost::this_thread::sleep(boost::posix_time::milliseconds(sleepDelay)); if (that->haveJobsChanged_ || boost::posix_time::microsec_clock::universal_time() >= next) { that->haveJobsChanged_ = false; that->SaveJobsEngine(); next = boost::posix_time::microsec_clock::universal_time() + PERIODICITY; } } } void ServerContext::SignalJobSubmitted(const std::string& jobId) { haveJobsChanged_ = true; pendingJobEvents_.Enqueue(new JobEvent(JobEventType_Submitted, jobId)); } void ServerContext::SignalJobSuccess(const std::string& jobId) { haveJobsChanged_ = true; pendingJobEvents_.Enqueue(new JobEvent(JobEventType_Success, jobId)); } void ServerContext::SignalJobFailure(const std::string& jobId) { haveJobsChanged_ = true; pendingJobEvents_.Enqueue(new JobEvent(JobEventType_Failure, jobId)); } void ServerContext::SetupJobsEngine(bool unitTesting, bool loadJobsFromDatabase) { if (loadJobsFromDatabase) { std::string serialized; if (index_.LookupGlobalProperty(serialized, GlobalProperty_JobsRegistry, false /* not shared */)) { LOG(WARNING) << "Reloading the jobs from the last execution of Orthanc"; try { OrthancJobUnserializer unserializer(*this); jobsEngine_.LoadRegistryFromString(unserializer, serialized); } catch (OrthancException& e) { LOG(WARNING) << "Cannot unserialize the jobs engine, starting anyway: " << e.What(); } catch (const std::string& s) { LOG(WARNING) << "Cannot unserialize the jobs engine, starting anyway: \"" << s << "\""; } catch (...) { LOG(WARNING) << "Cannot unserialize the jobs engine, starting anyway"; } } else { LOG(INFO) << "The last execution of Orthanc has archived no job"; } } else { LOG(INFO) << "Not reloading the jobs from the last execution of Orthanc"; } jobsEngine_.GetRegistry().SetObserver(*this); jobsEngine_.Start(); isJobsEngineUnserialized_ = true; saveJobsThread_ = boost::thread(SaveJobsThread, this, (unitTesting ? 20 : 100)); } void ServerContext::SaveJobsEngine() { if (saveJobs_) { LOG(TRACE) << "Serializing the content of the jobs engine"; try { Json::Value value; jobsEngine_.GetRegistry().Serialize(value); std::string serialized; Toolbox::WriteFastJson(serialized, value); index_.SetGlobalProperty(GlobalProperty_JobsRegistry, false /* not shared */, serialized); } catch (OrthancException& e) { LOG(ERROR) << "Cannot serialize the jobs engine: " << e.What(); } } } void ServerContext::PublishCacheMetrics() { metricsRegistry_->SetFloatValue("orthanc_dicom_cache_size_mb", static_cast<float>(dicomCache_.GetCurrentSize()) / static_cast<float>(1024 * 1024)); metricsRegistry_->SetIntegerValue("orthanc_dicom_cache_count", dicomCache_.GetNumberOfItems()); metricsRegistry_->SetFloatValue("orthanc_storage_cache_size_mb", static_cast<float>(storageCache_.GetCurrentSize()) / static_cast<float>(1024 * 1024)); metricsRegistry_->SetIntegerValue("orthanc_storage_cache_count", storageCache_.GetNumberOfItems()); } ServerContext::ServerContext(IDatabaseWrapper& database, IStorageArea& area, bool unitTesting, size_t maxCompletedJobs, bool readOnly) : index_(*this, database, (unitTesting ? 20 : 500), readOnly), area_(area), compressionEnabled_(false), storeMD5_(true), largeDicomThrottler_(1), dicomCache_(DICOM_CACHE_SIZE), mainLua_(*this), filterLua_(*this), luaListener_(*this), jobsEngine_(maxCompletedJobs), #if ORTHANC_ENABLE_PLUGINS == 1 plugins_(NULL), #endif done_(false), haveJobsChanged_(false), isJobsEngineUnserialized_(false), metricsRegistry_(new MetricsRegistry), isHttpServerSecure_(true), isExecuteLuaEnabled_(false), isRestApiWriteToFileSystemEnabled_(false), overwriteInstances_(false), dcmtkTranscoder_(new DcmtkTranscoder), isIngestTranscoding_(false), ingestTranscodingOfUncompressed_(true), ingestTranscodingOfCompressed_(true), preferredTransferSyntax_(DicomTransferSyntax_LittleEndianExplicit), readOnly_(readOnly), deidentifyLogs_(false), serverStartTimeUtc_(boost::posix_time::second_clock::universal_time()) { try { unsigned int lossyQuality; { OrthancConfiguration::ReaderLock lock; queryRetrieveArchive_.reset( new SharedArchive(lock.GetConfiguration().GetUnsignedIntegerParameter("QueryRetrieveSize", 100))); mediaArchive_.reset( new SharedArchive(lock.GetConfiguration().GetUnsignedIntegerParameter("MediaArchiveSize", 1))); defaultLocalAet_ = lock.GetConfiguration().GetOrthancAET(); jobsEngine_.SetWorkersCount(lock.GetConfiguration().GetUnsignedIntegerParameter("ConcurrentJobs", 2)); saveJobs_ = lock.GetConfiguration().GetBooleanParameter("SaveJobs", true); if (readOnly_ && saveJobs_) { LOG(WARNING) << "READ-ONLY SYSTEM: SaveJobs = true is incompatible with a ReadOnly system, ignoring this configuration"; saveJobs_ = false; } metricsRegistry_->SetEnabled(lock.GetConfiguration().GetBooleanParameter("MetricsEnabled", true)); // New configuration options in Orthanc 1.5.1 findStorageAccessMode_ = StringToFindStorageAccessMode(lock.GetConfiguration().GetStringParameter("StorageAccessOnFind", "Always")); limitFindInstances_ = lock.GetConfiguration().GetUnsignedIntegerParameter("LimitFindInstances", 0); limitFindResults_ = lock.GetConfiguration().GetUnsignedIntegerParameter("LimitFindResults", 0); // New configuration option in Orthanc 1.6.0 storageCommitmentReports_.reset(new StorageCommitmentReports(lock.GetConfiguration().GetUnsignedIntegerParameter("StorageCommitmentReportsSize", 100))); // New options in Orthanc 1.7.0 transcodeDicomProtocol_ = lock.GetConfiguration().GetBooleanParameter("TranscodeDicomProtocol", true); builtinDecoderTranscoderOrder_ = StringToBuiltinDecoderTranscoderOrder(lock.GetConfiguration().GetStringParameter("BuiltinDecoderTranscoderOrder", "After")); lossyQuality = lock.GetConfiguration().GetUnsignedIntegerParameter("DicomLossyTranscodingQuality", 90); std::string s; if (lock.GetConfiguration().LookupStringParameter(s, "IngestTranscoding")) { if (LookupTransferSyntax(ingestTransferSyntax_, s)) { isIngestTranscoding_ = true; LOG(WARNING) << "Incoming DICOM instances will automatically be transcoded to " << "transfer syntax: " << GetTransferSyntaxUid(ingestTransferSyntax_); // New options in Orthanc 1.8.2 ingestTranscodingOfUncompressed_ = lock.GetConfiguration().GetBooleanParameter("IngestTranscodingOfUncompressed", true); ingestTranscodingOfCompressed_ = lock.GetConfiguration().GetBooleanParameter("IngestTranscodingOfCompressed", true); LOG(WARNING) << " Ingest transcoding will " << (ingestTranscodingOfUncompressed_ ? "be applied" : "*not* be applied") << " to uncompressed transfer syntaxes (Little Endian Implicit/Explicit, Big Endian Explicit)"; LOG(WARNING) << " Ingest transcoding will " << (ingestTranscodingOfCompressed_ ? "be applied" : "*not* be applied") << " to compressed transfer syntaxes"; } else { throw OrthancException(ErrorCode_ParameterOutOfRange, "Unknown transfer syntax for ingest transcoding: " + s); } } else { isIngestTranscoding_ = false; LOG(INFO) << "Automated transcoding of incoming DICOM instances is disabled"; } // New options in Orthanc 1.8.2 if (lock.GetConfiguration().GetBooleanParameter("DeidentifyLogs", true)) { deidentifyLogs_ = true; CLOG(INFO, DICOM) << "Deidentification of log contents (notably for DIMSE queries) is enabled"; DicomVersion version = StringToDicomVersion( lock.GetConfiguration().GetStringParameter("DeidentifyLogsDicomVersion", "2023b")); CLOG(INFO, DICOM) << "Version of DICOM standard used for deidentification is " << EnumerationToString(version); logsDeidentifierRules_.SetupAnonymization(version); } else { deidentifyLogs_ = false; CLOG(INFO, DICOM) << "Deidentification of log contents (notably for DIMSE queries) is disabled"; } // New options in Orthanc 1.9.0 if (lock.GetConfiguration().LookupStringParameter(s, "DicomScuPreferredTransferSyntax") && !LookupTransferSyntax(preferredTransferSyntax_, s)) { throw OrthancException(ErrorCode_ParameterOutOfRange, "Unknown preferred transfer syntax: " + s); } CLOG(INFO, DICOM) << "Preferred transfer syntax for Orthanc C-STORE SCU: " << GetTransferSyntaxUid(preferredTransferSyntax_); lock.GetConfiguration().GetAcceptedTransferSyntaxes(acceptedTransferSyntaxes_); isUnknownSopClassAccepted_ = lock.GetConfiguration().GetBooleanParameter("UnknownSopClassAccepted", false); } jobsEngine_.SetThreadSleep(unitTesting ? 20 : 200); listeners_.push_back(ServerListener(luaListener_, "Lua")); changeThread_ = boost::thread(ChangeThread, this, (unitTesting ? 20 : 100)); jobEventsThread_ = boost::thread(JobEventsThread, this, (unitTesting ? 20 : 100)); #if HAVE_MALLOC_TRIM == 1 LOG(INFO) << "Starting memory trimming thread at 30 seconds interval"; memoryTrimmingThread_ = boost::thread(MemoryTrimmingThread, this, 30); #else LOG(INFO) << "Your platform does not support malloc_trim(), not starting the memory trimming thread"; #endif dynamic_cast<DcmtkTranscoder&>(*dcmtkTranscoder_).SetLossyQuality(lossyQuality); } catch (OrthancException&) { Stop(); throw; } } ServerContext::~ServerContext() { if (!done_) { LOG(ERROR) << "INTERNAL ERROR: ServerContext::Stop() should be invoked manually to avoid mess in the destruction order!"; Stop(); } } void ServerContext::Stop() { if (!done_) { { boost::unique_lock<boost::shared_mutex> lock(listenersMutex_); listeners_.clear(); } done_ = true; if (changeThread_.joinable()) { changeThread_.join(); } if (jobEventsThread_.joinable()) { jobEventsThread_.join(); } if (saveJobsThread_.joinable()) { saveJobsThread_.join(); } if (memoryTrimmingThread_.joinable()) { memoryTrimmingThread_.join(); } jobsEngine_.GetRegistry().ResetObserver(); if (isJobsEngineUnserialized_) { // Avoid losing jobs if the JobsRegistry cannot be unserialized SaveJobsEngine(); } // Do not change the order below! jobsEngine_.Stop(); index_.Stop(); } } void ServerContext::SetCompressionEnabled(bool enabled) { if (enabled) LOG(WARNING) << "Disk compression is enabled"; else LOG(WARNING) << "Disk compression is disabled"; compressionEnabled_ = enabled; } void ServerContext::RemoveFile(const std::string& fileUuid, FileContentType type) { StorageAccessor accessor(area_, storageCache_, GetMetricsRegistry()); accessor.Remove(fileUuid, type); } ServerContext::StoreResult ServerContext::StoreAfterTranscoding(std::string& resultPublicId, DicomInstanceToStore& dicom, StoreInstanceMode mode, bool isReconstruct) { bool overwrite; switch (mode) { case StoreInstanceMode_Default: overwrite = overwriteInstances_; break; case StoreInstanceMode_OverwriteDuplicate: overwrite = true; break; case StoreInstanceMode_IgnoreDuplicate: overwrite = false; break; default: throw OrthancException(ErrorCode_ParameterOutOfRange); } bool hasPixelDataOffset; uint64_t pixelDataOffset; ValueRepresentation pixelDataVR; hasPixelDataOffset = DicomStreamReader::LookupPixelDataOffset( pixelDataOffset, pixelDataVR, dicom.GetBufferData(), dicom.GetBufferSize()); DicomTransferSyntax transferSyntax; bool hasTransferSyntax = dicom.LookupTransferSyntax(transferSyntax); DicomMap summary; dicom.GetSummary(summary); // -> from Orthanc 1.11.1, this includes the leaf nodes and sequences std::set<DicomTag> allMainDicomTags; DicomMap::GetAllMainDicomTags(allMainDicomTags); try { MetricsRegistry::Timer timer(GetMetricsRegistry(), "orthanc_store_dicom_duration_ms"); StorageAccessor accessor(area_, storageCache_, GetMetricsRegistry()); DicomInstanceHasher hasher(summary); resultPublicId = hasher.HashInstance(); Json::Value dicomAsJson; dicom.GetDicomAsJson(dicomAsJson, allMainDicomTags); // don't crop any main dicom tags Json::Value simplifiedTags; Toolbox::SimplifyDicomAsJson(simplifiedTags, dicomAsJson, DicomToJsonFormat_Human); // Test if the instance must be filtered out StoreResult result; if (!isReconstruct) // skip all filters if this is a reconstruction { boost::shared_lock<boost::shared_mutex> lock(listenersMutex_); for (ServerListeners::iterator it = listeners_.begin(); it != listeners_.end(); ++it) { try { if (!it->GetListener().FilterIncomingInstance(dicom, simplifiedTags)) { result.SetStatus(StoreStatus_FilteredOut); result.SetCStoreStatusCode(STATUS_Success); // to keep backward compatibility, we still return 'success' break; } if (dicom.GetOrigin().GetRequestOrigin() == Orthanc::RequestOrigin_DicomProtocol) { uint16_t filterResult = STATUS_Success; if (!it->GetListener().FilterIncomingCStoreInstance(filterResult, dicom, simplifiedTags)) { // The instance is to be discarded result.SetStatus(StoreStatus_FilteredOut); result.SetCStoreStatusCode(filterResult); break; } } } catch (OrthancException& e) { LOG(ERROR) << "Error in the " << it->GetDescription() << " callback while receiving an instance: " << e.What() << " (code " << e.GetErrorCode() << ")"; throw; } } } if (result.GetStatus() == StoreStatus_FilteredOut) { LOG(INFO) << "An incoming instance has been discarded by the filter"; return result; } // Remove the file from the DicomCache (useful if // "OverwriteInstances" is set to "true") dicomCache_.Invalidate(resultPublicId); // TODO Should we use "gzip" instead? CompressionType compression = (compressionEnabled_ ? CompressionType_ZlibWithSize : CompressionType_None); FileInfo dicomInfo = accessor.Write(dicom.GetBufferData(), dicom.GetBufferSize(), FileContentType_Dicom, compression, storeMD5_); ServerIndex::Attachments attachments; attachments.push_back(dicomInfo); FileInfo dicomUntilPixelData; if (hasPixelDataOffset && (!area_.HasReadRange() || compressionEnabled_)) { dicomUntilPixelData = accessor.Write(dicom.GetBufferData(), pixelDataOffset, FileContentType_DicomUntilPixelData, compression, storeMD5_); attachments.push_back(dicomUntilPixelData); } typedef std::map<MetadataType, std::string> InstanceMetadata; InstanceMetadata instanceMetadata; try { result.SetStatus(index_.Store( instanceMetadata, summary, attachments, dicom.GetMetadata(), dicom.GetOrigin(), overwrite, hasTransferSyntax, transferSyntax, hasPixelDataOffset, pixelDataOffset, pixelDataVR, isReconstruct)); } catch (OrthancException& ex) { if (ex.GetErrorCode() == ErrorCode_DuplicateResource) { LOG(WARNING) << "Duplicate instance, deleting the attachments"; } else { LOG(ERROR) << "Unexpected error while storing an instance in DB, cancelling and deleting the attachments: " << ex.GetDetails(); } accessor.Remove(dicomInfo); if (dicomUntilPixelData.IsValid()) { accessor.Remove(dicomUntilPixelData); } throw; } // Only keep the metadata for the "instance" level dicom.ClearMetadata(); for (InstanceMetadata::const_iterator it = instanceMetadata.begin(); it != instanceMetadata.end(); ++it) { dicom.AddMetadata(ResourceType_Instance, it->first, it->second); } if (result.GetStatus() != StoreStatus_Success) { accessor.Remove(dicomInfo); if (dicomUntilPixelData.IsValid()) { accessor.Remove(dicomUntilPixelData); } } if (!isReconstruct) { // skip logs in case of reconstruction switch (result.GetStatus()) { case StoreStatus_Success: LOG(INFO) << "New instance stored (" << resultPublicId << ")"; break; case StoreStatus_AlreadyStored: LOG(INFO) << "Instance already stored (" << resultPublicId << ")"; break; case StoreStatus_Failure: LOG(ERROR) << "Unknown store failure while storing instance " << resultPublicId; throw OrthancException(ErrorCode_InternalError, HttpStatus_500_InternalServerError); case StoreStatus_StorageFull: LOG(ERROR) << "Storage full while storing instance " << resultPublicId; throw OrthancException(ErrorCode_FullStorage, HttpStatus_507_InsufficientStorage); default: // This should never happen break; } // skip all signals if this is a reconstruction if (result.GetStatus() == StoreStatus_Success || result.GetStatus() == StoreStatus_AlreadyStored) { boost::shared_lock<boost::shared_mutex> lock(listenersMutex_); for (ServerListeners::iterator it = listeners_.begin(); it != listeners_.end(); ++it) { try { it->GetListener().SignalStoredInstance(resultPublicId, dicom, simplifiedTags); } catch (OrthancException& e) { LOG(ERROR) << "Error in the " << it->GetDescription() << " callback while receiving an instance: " << e.What() << " (code " << e.GetErrorCode() << ")"; } } } } return result; } catch (OrthancException& e) { if (e.GetErrorCode() == ErrorCode_InexistentTag) { summary.LogMissingTagsForStore(); } throw; } } ServerContext::StoreResult ServerContext::Store(std::string& resultPublicId, DicomInstanceToStore& receivedDicom, StoreInstanceMode mode) { DicomInstanceToStore* dicom = &receivedDicom; // WARNING: The scope of "modifiedBuffer" and "modifiedDicom" must // be the same as that of "dicom" MallocMemoryBuffer modifiedBuffer; std::unique_ptr<DicomInstanceToStore> modifiedDicom; #if ORTHANC_ENABLE_PLUGINS == 1 if (HasPlugins()) { // New in Orthanc 1.10.0 OrthancPluginReceivedInstanceAction action = GetPlugins().ApplyReceivedInstanceCallbacks( modifiedBuffer, receivedDicom.GetBufferData(), receivedDicom.GetBufferSize(), receivedDicom.GetOrigin().GetRequestOrigin()); switch (action) { case OrthancPluginReceivedInstanceAction_Discard: { CLOG(INFO, PLUGINS) << "A plugin has discarded the instance in its ReceivedInstanceCallback"; StoreResult result; result.SetStatus(StoreStatus_FilteredOut); return result; } case OrthancPluginReceivedInstanceAction_KeepAsIs: // This path is also used when no ReceivedInstanceCallback is installed by the plugins break; case OrthancPluginReceivedInstanceAction_Modify: if (modifiedBuffer.GetSize() > 0 && modifiedBuffer.GetData() != NULL) { CLOG(INFO, PLUGINS) << "A plugin has modified the instance in its ReceivedInstanceCallback"; modifiedDicom.reset(DicomInstanceToStore::CreateFromBuffer(modifiedBuffer.GetData(), modifiedBuffer.GetSize())); modifiedDicom->SetOrigin(receivedDicom.GetOrigin()); dicom = modifiedDicom.get(); } else { throw OrthancException(ErrorCode_Plugin, "The ReceivedInstanceCallback plugin is not returning a modified buffer while it has modified the instance"); } break; default: throw OrthancException(ErrorCode_Plugin, "The ReceivedInstanceCallback has returned an invalid value"); } } #endif return TranscodeAndStore(resultPublicId, dicom, mode); } ServerContext::StoreResult ServerContext::TranscodeAndStore(std::string& resultPublicId, DicomInstanceToStore* dicom, StoreInstanceMode mode, bool isReconstruct) { if (!isIngestTranscoding_ || dicom->SkipIngestTranscoding()) { // No automated transcoding. This was the only path in Orthanc <= 1.6.1. return StoreAfterTranscoding(resultPublicId, *dicom, mode, isReconstruct); } else { // Automated transcoding of incoming DICOM instance bool transcode = false; DicomTransferSyntax sourceSyntax; if (!dicom->LookupTransferSyntax(sourceSyntax) || sourceSyntax == ingestTransferSyntax_) { // Don't transcode if the incoming DICOM is already in the proper transfer syntax transcode = false; } else if (!IsTranscodableTransferSyntax(sourceSyntax)) { // Don't try to transcode video files, this is useless (new in // Orthanc 1.8.2). This could be accepted in the future if // video transcoding gets implemented. transcode = false; } else if (IsUncompressedTransferSyntax(sourceSyntax)) { // This is an uncompressed transfer syntax (new in Orthanc 1.8.2) transcode = ingestTranscodingOfUncompressed_; } else { // This is an compressed transfer syntax (new in Orthanc 1.8.2) transcode = ingestTranscodingOfCompressed_; } if (!transcode) { // No transcoding return StoreAfterTranscoding(resultPublicId, *dicom, mode, isReconstruct); } else { // Trancoding std::set<DicomTransferSyntax> syntaxes; syntaxes.insert(ingestTransferSyntax_); IDicomTranscoder::DicomImage source; source.SetExternalBuffer(dicom->GetBufferData(), dicom->GetBufferSize()); IDicomTranscoder::DicomImage transcoded; if (Transcode(transcoded, source, syntaxes, true /* allow new SOP instance UID */)) { std::unique_ptr<ParsedDicomFile> tmp(transcoded.ReleaseAsParsedDicomFile()); std::unique_ptr<DicomInstanceToStore> toStore(DicomInstanceToStore::CreateFromParsedDicomFile(*tmp)); toStore->SetOrigin(dicom->GetOrigin()); toStore->CopyMetadata(dicom->GetMetadata()); StoreResult result = StoreAfterTranscoding(resultPublicId, *toStore, mode, isReconstruct); assert(resultPublicId == tmp->GetHasher().HashInstance()); return result; } else { // Cannot transcode => store the original file return StoreAfterTranscoding(resultPublicId, *dicom, mode, isReconstruct); } } } } void ServerContext::AnswerAttachment(RestApiOutput& output, ResourceType level, const std::string& resourceId, FileContentType content) { FileInfo attachment; int64_t revision; if (!index_.LookupAttachment(attachment, revision, level, resourceId, content)) { throw OrthancException(ErrorCode_UnknownResource); } else { StorageAccessor accessor(area_, storageCache_, GetMetricsRegistry()); accessor.AnswerFile(output, attachment, GetFileContentMime(content)); } } void ServerContext::ChangeAttachmentCompression(ResourceType level, const std::string& resourceId, FileContentType attachmentType, CompressionType compression) { LOG(INFO) << "Changing compression type for attachment " << EnumerationToString(attachmentType) << " of resource " << resourceId << " to " << compression; FileInfo attachment; int64_t revision; if (!index_.LookupAttachment(attachment, revision, level, resourceId, attachmentType)) { throw OrthancException(ErrorCode_UnknownResource); } if (attachment.GetCompressionType() == compression) { // Nothing to do return; } std::string content; StorageAccessor accessor(area_, storageCache_, GetMetricsRegistry()); accessor.Read(content, attachment); FileInfo modified = accessor.Write(content.empty() ? NULL : content.c_str(), content.size(), attachmentType, compression, storeMD5_); try { int64_t newRevision; // ignored StoreStatus status = index_.AddAttachment(newRevision, modified, resourceId, true, revision, modified.GetUncompressedMD5()); if (status != StoreStatus_Success) { accessor.Remove(modified); throw OrthancException(ErrorCode_Database); } } catch (OrthancException&) { accessor.Remove(modified); throw; } } static void InjectEmptyPixelData(Json::Value& dicomAsJson) { // This is for backward compatibility with Orthanc <= 1.9.0 Json::Value pixelData = Json::objectValue; pixelData["Name"] = "PixelData"; pixelData["Type"] = "Null"; pixelData["Value"] = Json::nullValue; dicomAsJson["7fe0,0010"] = pixelData; } static bool LookupMetadata(std::string& value, MetadataType key, const std::map<MetadataType, std::string>& instanceMetadata) { std::map<MetadataType, std::string>::const_iterator found = instanceMetadata.find(key); if (found == instanceMetadata.end()) { return false; } else { value = found->second; return true; } } static bool LookupAttachment(FileInfo& target, FileContentType type, const std::map<FileContentType, FileInfo>& attachments) { std::map<FileContentType, FileInfo>::const_iterator found = attachments.find(type); if (found == attachments.end()) { return false; } else if (found->second.GetContentType() == type) { target = found->second; return true; } else { throw OrthancException(ErrorCode_DatabasePlugin); } } void ServerContext::ReadDicomAsJson(Json::Value& result, const std::string& instancePublicId, const std::set<DicomTag>& ignoreTagLength) { // TODO-FIND: This is a compatibility method, should be removed std::map<MetadataType, std::string> metadata; std::map<FileContentType, FileInfo> attachments; FileInfo attachment; int64_t revision; // Ignored if (index_.LookupAttachment(attachment, revision, ResourceType_Instance, instancePublicId, FileContentType_Dicom)) { attachments[FileContentType_Dicom] = attachment; } if (index_.LookupAttachment(attachment, revision, ResourceType_Instance, instancePublicId, FileContentType_DicomUntilPixelData)) { attachments[FileContentType_DicomUntilPixelData] = attachment; } if (index_.LookupAttachment(attachment, revision, ResourceType_Instance, instancePublicId, FileContentType_DicomAsJson)) { attachments[FileContentType_DicomAsJson] = attachment; } std::string s; if (index_.LookupMetadata(s, instancePublicId, ResourceType_Instance, MetadataType_Instance_PixelDataOffset)) { metadata[MetadataType_Instance_PixelDataOffset] = s; } ReadDicomAsJson(result, instancePublicId, metadata, attachments, ignoreTagLength); } void ServerContext::ReadDicomAsJson(Json::Value& result, const std::string& instancePublicId, const std::map<MetadataType, std::string>& instanceMetadata, const std::map<FileContentType, FileInfo>& instanceAttachments, const std::set<DicomTag>& ignoreTagLength) { /** * CASE 1: The DICOM file, truncated at pixel data, is available * as an attachment (it was created either because the storage * area does not support range reads, or if "StorageCompression" * is enabled). Simply return this attachment. **/ FileInfo attachment; if (LookupAttachment(attachment, FileContentType_DicomUntilPixelData, instanceAttachments)) { std::string dicom; { StorageAccessor accessor(area_, storageCache_, GetMetricsRegistry()); accessor.Read(dicom, attachment); } ParsedDicomFile parsed(dicom); OrthancConfiguration::DefaultDicomDatasetToJson(result, parsed, ignoreTagLength); InjectEmptyPixelData(result); } else { /** * The truncated DICOM file is not stored as a standalone * attachment. Lookup whether the pixel data offset has already * been computed for this instance. **/ bool hasPixelDataOffset; uint64_t pixelDataOffset = 0; // dummy initialization { std::string s; if (LookupMetadata(s, MetadataType_Instance_PixelDataOffset, instanceMetadata)) { hasPixelDataOffset = false; if (!s.empty()) { try { pixelDataOffset = boost::lexical_cast<uint64_t>(s); hasPixelDataOffset = true; } catch (boost::bad_lexical_cast&) { } } if (!hasPixelDataOffset) { LOG(ERROR) << "Metadata \"PixelDataOffset\" is corrupted for instance: " << instancePublicId; } } else { // This instance was created by a version of Orthanc <= 1.9.0 hasPixelDataOffset = false; } } if (hasPixelDataOffset && area_.HasReadRange() && LookupAttachment(attachment, FileContentType_Dicom, instanceAttachments) && attachment.GetCompressionType() == CompressionType_None) { /** * CASE 2: The pixel data offset is known, AND that a range read * can be used to retrieve the truncated DICOM file. Note that * this case cannot be used if "StorageCompression" option is * "true". **/ std::string dicom; { StorageAccessor accessor(area_, storageCache_, GetMetricsRegistry()); accessor.ReadStartRange(dicom, attachment, pixelDataOffset); } assert(dicom.size() == pixelDataOffset); ParsedDicomFile parsed(dicom); OrthancConfiguration::DefaultDicomDatasetToJson(result, parsed, ignoreTagLength); InjectEmptyPixelData(result); } else if (ignoreTagLength.empty() && LookupAttachment(attachment, FileContentType_DicomAsJson, instanceAttachments)) { /** * CASE 3: This instance was created using Orthanc <= * 1.9.0. Reuse the old "DICOM-as-JSON" attachment if available. * This is for backward compatibility: A call to * "/tools/invalidate-tags" or to one flavors of * "/.../.../reconstruct" will disable this case. **/ std::string dicomAsJson; { StorageAccessor accessor(area_, storageCache_, GetMetricsRegistry()); accessor.Read(dicomAsJson, attachment); } if (!Toolbox::ReadJson(result, dicomAsJson)) { throw OrthancException(ErrorCode_CorruptedFile, "Corrupted DICOM-as-JSON attachment of instance: " + instancePublicId); } } else { /** * CASE 4: Neither the truncated DICOM file is accessible, nor * the DICOM-as-JSON summary. We have to retrieve the full DICOM * file from the storage area. **/ std::string dicom; ReadDicom(dicom, instancePublicId); ParsedDicomFile parsed(dicom); OrthancConfiguration::DefaultDicomDatasetToJson(result, parsed, ignoreTagLength); if (!hasPixelDataOffset) { /** * The pixel data offset was never computed for this * instance, which indicates that it was created using * Orthanc <= 1.9.0, or that calls to * "LookupPixelDataOffset()" from earlier versions of * Orthanc have failed. Try again this precomputation now * for future calls. **/ ValueRepresentation pixelDataVR; if (DicomStreamReader::LookupPixelDataOffset(pixelDataOffset, pixelDataVR, dicom) && pixelDataOffset < dicom.size()) { index_.OverwriteMetadata(instancePublicId, MetadataType_Instance_PixelDataOffset, boost::lexical_cast<std::string>(pixelDataOffset)); if (!area_.HasReadRange() || compressionEnabled_) { int64_t newRevision; AddAttachment(newRevision, instancePublicId, FileContentType_DicomUntilPixelData, dicom.empty() ? NULL: dicom.c_str(), pixelDataOffset, false /* no old revision */, -1 /* dummy revision */, "" /* dummy MD5 */); } } } } } } void ServerContext::ReadDicomAsJson(Json::Value& result, const std::string& instancePublicId) { std::set<DicomTag> ignoreTagLength; ReadDicomAsJson(result, instancePublicId, ignoreTagLength); } void ServerContext::ReadDicom(std::string& dicom, std::string& attachmentId, const std::string& instancePublicId) { int64_t revision; ReadAttachment(dicom, revision, attachmentId, ResourceType_Instance, instancePublicId, FileContentType_Dicom, true /* uncompress */); } void ServerContext::ReadDicom(std::string& dicom, const std::string& instancePublicId) { std::string attachmentId; ReadDicom(dicom, attachmentId, instancePublicId); } void ServerContext::ReadDicomForHeader(std::string& dicom, const std::string& instancePublicId) { if (!ReadDicomUntilPixelData(dicom, instancePublicId)) { ReadDicom(dicom, instancePublicId); } } bool ServerContext::ReadDicomUntilPixelData(std::string& dicom, const std::string& instancePublicId) { FileInfo attachment; int64_t revision; // Ignored if (index_.LookupAttachment(attachment, revision, ResourceType_Instance, instancePublicId, FileContentType_DicomUntilPixelData)) { StorageAccessor accessor(area_, storageCache_, GetMetricsRegistry()); accessor.Read(dicom, attachment); assert(dicom.size() == attachment.GetUncompressedSize()); return true; } if (!area_.HasReadRange()) { return false; } if (!index_.LookupAttachment(attachment, revision, ResourceType_Instance, instancePublicId, FileContentType_Dicom)) { throw OrthancException(ErrorCode_InternalError, "Unable to read the DICOM file of instance " + instancePublicId); } std::string s; if (attachment.GetCompressionType() == CompressionType_None && index_.LookupMetadata(s, instancePublicId, ResourceType_Instance, MetadataType_Instance_PixelDataOffset) && !s.empty()) { try { uint64_t pixelDataOffset = boost::lexical_cast<uint64_t>(s); StorageAccessor accessor(area_, storageCache_, GetMetricsRegistry()); accessor.ReadStartRange(dicom, attachment, pixelDataOffset); assert(dicom.size() == pixelDataOffset); return true; // Success } catch (boost::bad_lexical_cast&) { LOG(ERROR) << "Metadata \"PixelDataOffset\" is corrupted for instance: " << instancePublicId; } } return false; } void ServerContext::ReadAttachment(std::string& result, int64_t& revision, std::string& attachmentId, ResourceType level, const std::string& instancePublicId, FileContentType content, bool uncompressIfNeeded, bool skipCache) { FileInfo attachment; if (!index_.LookupAttachment(attachment, revision, level, instancePublicId, content)) { throw OrthancException(ErrorCode_InternalError, "Unable to read attachment " + EnumerationToString(content) + " of instance " + instancePublicId); } assert(attachment.GetContentType() == content); attachmentId = attachment.GetUuid(); { std::unique_ptr<StorageAccessor> accessor; if (skipCache) { accessor.reset(new StorageAccessor(area_, GetMetricsRegistry())); } else { accessor.reset(new StorageAccessor(area_, storageCache_, GetMetricsRegistry())); } if (uncompressIfNeeded) { accessor->Read(result, attachment); } else { // Do not uncompress the content of the storage area, return the // raw data accessor->ReadRaw(result, attachment); } } } ServerContext::DicomCacheLocker::DicomCacheLocker(ServerContext& context, const std::string& instancePublicId) : context_(context), instancePublicId_(instancePublicId) { accessor_.reset(new ParsedDicomCache::Accessor(context_.dicomCache_, instancePublicId)); if (!accessor_->IsValid()) { accessor_.reset(NULL); // Throttle to avoid loading several large DICOM files simultaneously largeDicomLocker_.reset(new Semaphore::Locker(context.largeDicomThrottler_)); context_.ReadDicom(buffer_, instancePublicId_); // Release the throttle if loading "small" DICOM files (under // 50MB, which is an arbitrary value) if (buffer_.size() < 50 * 1024 * 1024) { largeDicomLocker_.reset(NULL); } dicom_.reset(new ParsedDicomFile(buffer_)); dicomSize_ = buffer_.size(); } assert(accessor_.get() != NULL || dicom_.get() != NULL); } ServerContext::DicomCacheLocker::~DicomCacheLocker() { if (dicom_.get() != NULL) { try { context_.dicomCache_.Acquire(instancePublicId_, dicom_.release(), dicomSize_); } catch (OrthancException&) { } } } ParsedDicomFile& ServerContext::DicomCacheLocker::GetDicom() const { if (dicom_.get() != NULL) { return *dicom_; } else { assert(accessor_.get() != NULL); return accessor_->GetDicom(); } } const std::string& ServerContext::DicomCacheLocker::GetBuffer() { if (buffer_.size() > 0) { return buffer_; } else { context_.ReadDicom(buffer_, instancePublicId_); return buffer_; } } void ServerContext::SetStoreMD5ForAttachments(bool storeMD5) { LOG(INFO) << "Storing MD5 for attachments: " << (storeMD5 ? "yes" : "no"); storeMD5_ = storeMD5; } bool ServerContext::AddAttachment(int64_t& newRevision, const std::string& resourceId, FileContentType attachmentType, const void* data, size_t size, bool hasOldRevision, int64_t oldRevision, const std::string& oldMD5) { LOG(INFO) << "Adding attachment " << EnumerationToString(attachmentType) << " to resource " << resourceId; // TODO Should we use "gzip" instead? CompressionType compression = (compressionEnabled_ ? CompressionType_ZlibWithSize : CompressionType_None); StorageAccessor accessor(area_, storageCache_, GetMetricsRegistry()); FileInfo attachment = accessor.Write(data, size, attachmentType, compression, storeMD5_); try { StoreStatus status = index_.AddAttachment( newRevision, attachment, resourceId, hasOldRevision, oldRevision, oldMD5); if (status != StoreStatus_Success) { accessor.Remove(attachment); return false; } else { return true; } } catch (OrthancException&) { // Fixed in Orthanc 1.9.6 accessor.Remove(attachment); throw; } } bool ServerContext::DeleteResource(Json::Value& remainingAncestor, const std::string& uuid, ResourceType expectedType) { if (expectedType == ResourceType_Instance) { // remove the file from the DicomCache dicomCache_.Invalidate(uuid); } return index_.DeleteResource(remainingAncestor, uuid, expectedType); } void ServerContext::SignalChange(const ServerIndexChange& change) { if (change.GetResourceType() == ResourceType_Instance && change.GetChangeType() == ChangeType_Deleted) { dicomCache_.Invalidate(change.GetPublicId()); } pendingChanges_.Enqueue(change.Clone()); } #if ORTHANC_ENABLE_PLUGINS == 1 void ServerContext::SetPlugins(OrthancPlugins& plugins) { boost::unique_lock<boost::shared_mutex> lock(listenersMutex_); plugins_ = &plugins; // TODO REFACTOR THIS listeners_.clear(); listeners_.push_back(ServerListener(luaListener_, "Lua")); listeners_.push_back(ServerListener(plugins, "plugin")); } void ServerContext::ResetPlugins() { boost::unique_lock<boost::shared_mutex> lock(listenersMutex_); plugins_ = NULL; // TODO REFACTOR THIS listeners_.clear(); listeners_.push_back(ServerListener(luaListener_, "Lua")); } const OrthancPlugins& ServerContext::GetPlugins() const { if (HasPlugins()) { return *plugins_; } else { throw OrthancException(ErrorCode_InternalError); } } OrthancPlugins& ServerContext::GetPlugins() { if (HasPlugins()) { return *plugins_; } else { throw OrthancException(ErrorCode_InternalError); } } #endif bool ServerContext::HasPlugins() const { #if ORTHANC_ENABLE_PLUGINS == 1 return (plugins_ != NULL); #else return false; #endif } bool ServerContext::LookupOrReconstructMetadata(std::string& target, const std::string& publicId, ResourceType level, MetadataType metadata) { // This is a backwards-compatibility function, that can // reconstruct metadata that were not generated by an older // release of Orthanc if (metadata == MetadataType_Instance_SopClassUid || metadata == MetadataType_Instance_TransferSyntax) { if (index_.LookupMetadata(target, publicId, level, metadata)) { return true; } else { // These metadata are mandatory in DICOM instances, and were // introduced in Orthanc 1.2.0. The fact that // "LookupMetadata()" has failed indicates that this database // comes from an older release of Orthanc. DicomTag tag(0, 0); switch (metadata) { case MetadataType_Instance_SopClassUid: tag = DICOM_TAG_SOP_CLASS_UID; break; case MetadataType_Instance_TransferSyntax: tag = DICOM_TAG_TRANSFER_SYNTAX_UID; break; default: throw OrthancException(ErrorCode_InternalError); } Json::Value dicomAsJson; ReadDicomAsJson(dicomAsJson, publicId); DicomMap tags; tags.FromDicomAsJson(dicomAsJson); const DicomValue* value = tags.TestAndGetValue(tag); if (value != NULL && !value->IsNull() && !value->IsBinary()) { target = value->GetContent(); // Store for reuse index_.OverwriteMetadata(publicId, metadata, target); return true; } else { // Should never happen return false; } } } else { // No backward return index_.LookupMetadata(target, publicId, level, metadata); } } void ServerContext::AddChildInstances(SetOfInstancesJob& job, const std::string& publicId) { std::list<std::string> instances; GetIndex().GetChildInstances(instances, publicId); job.Reserve(job.GetInstancesCount() + instances.size()); for (std::list<std::string>::const_iterator it = instances.begin(); it != instances.end(); ++it) { job.AddInstance(*it); } } void ServerContext::SignalUpdatedModalities() { #if ORTHANC_ENABLE_PLUGINS == 1 if (HasPlugins()) { GetPlugins().SignalUpdatedModalities(); } #endif } void ServerContext::SignalUpdatedPeers() { #if ORTHANC_ENABLE_PLUGINS == 1 if (HasPlugins()) { GetPlugins().SignalUpdatedPeers(); } #endif } IStorageCommitmentFactory::ILookupHandler* ServerContext::CreateStorageCommitment(const std::string& jobId, const std::string& transactionUid, const std::vector<std::string>& sopClassUids, const std::vector<std::string>& sopInstanceUids, const std::string& remoteAet, const std::string& calledAet) { #if ORTHANC_ENABLE_PLUGINS == 1 if (HasPlugins()) { return GetPlugins().CreateStorageCommitment( jobId, transactionUid, sopClassUids, sopInstanceUids, remoteAet, calledAet); } #endif return NULL; } ImageAccessor* ServerContext::DecodeDicomFrame(const std::string& publicId, unsigned int frameIndex) { ServerContext::DicomCacheLocker locker(*this, publicId); std::unique_ptr<ImageAccessor> decoded(DecodeDicomFrame(locker.GetDicom(), locker.GetBuffer().c_str(), locker.GetBuffer().size(), frameIndex)); if (decoded.get() == NULL) { OrthancConfiguration::ReaderLock configLock; if (configLock.GetConfiguration().IsWarningEnabled(Warnings_003_DecoderFailure)) { LOG(WARNING) << "W003: Unable to decode frame " << frameIndex << " from instance " << publicId; } return NULL; } return decoded.release(); } ImageAccessor* ServerContext::DecodeDicomFrame(const ParsedDicomFile& parsedDicom, const void* buffer, // actually the buffer that is the source of the ParsedDicomFile size_t size, unsigned int frameIndex) { std::unique_ptr<ImageAccessor> decoded; if (builtinDecoderTranscoderOrder_ == BuiltinDecoderTranscoderOrder_Before) { // Use Orthanc's built-in decoder try { decoded.reset(parsedDicom.DecodeFrame(frameIndex)); if (decoded.get() != NULL) { return decoded.release(); } } catch (OrthancException& e) { // ignore, we'll try other alternatives } } #if ORTHANC_ENABLE_PLUGINS == 1 if (HasPlugins() && GetPlugins().HasCustomImageDecoder()) { try { decoded.reset(GetPlugins().Decode(buffer, size, frameIndex)); } catch (OrthancException& e) { } if (decoded.get() != NULL) { return decoded.release(); } else if (builtinDecoderTranscoderOrder_ == BuiltinDecoderTranscoderOrder_After) { LOG(INFO) << "The installed image decoding plugins cannot handle an image, " << "fallback to the built-in DCMTK decoder"; } } #endif if (builtinDecoderTranscoderOrder_ == BuiltinDecoderTranscoderOrder_After) { try { decoded.reset(parsedDicom.DecodeFrame(frameIndex)); if (decoded.get() != NULL) { return decoded.release(); } } catch (OrthancException& e) { LOG(INFO) << e.GetDetails(); } } #if ORTHANC_ENABLE_PLUGINS == 1 if (HasPlugins() && GetPlugins().HasCustomTranscoder()) { LOG(INFO) << "The plugins and built-in image decoders failed to decode a frame, " << "trying to transcode the file to LittleEndianExplicit using the plugins."; DicomImage explicitTemporaryImage; DicomImage source; std::set<DicomTransferSyntax> allowedSyntaxes; source.SetExternalBuffer(buffer, size); allowedSyntaxes.insert(DicomTransferSyntax_LittleEndianExplicit); if (Transcode(explicitTemporaryImage, source, allowedSyntaxes, true)) { std::unique_ptr<ParsedDicomFile> file(explicitTemporaryImage.ReleaseAsParsedDicomFile()); return file->DecodeFrame(frameIndex); } } #endif return NULL; } ImageAccessor* ServerContext::DecodeDicomFrame(const DicomInstanceToStore& dicom, unsigned int frameIndex) { return DecodeDicomFrame(dicom.GetParsedDicomFile(), dicom.GetBufferData(), dicom.GetBufferSize(), frameIndex); } ImageAccessor* ServerContext::DecodeDicomFrame(const void* dicom, size_t size, unsigned int frameIndex) { std::unique_ptr<ParsedDicomFile> instance(new ParsedDicomFile(dicom, size)); return DecodeDicomFrame(*instance, dicom, size, frameIndex); } void ServerContext::StoreWithTranscoding(std::string& sopClassUid, std::string& sopInstanceUid, DicomStoreUserConnection& connection, const std::string& dicom, bool hasMoveOriginator, const std::string& moveOriginatorAet, uint16_t moveOriginatorId) { const void* data = dicom.empty() ? NULL : dicom.c_str(); const RemoteModalityParameters& modality = connection.GetParameters().GetRemoteModality(); if (!transcodeDicomProtocol_ || !modality.IsTranscodingAllowed()) { connection.Store(sopClassUid, sopInstanceUid, data, dicom.size(), hasMoveOriginator, moveOriginatorAet, moveOriginatorId); } else { connection.Transcode(sopClassUid, sopInstanceUid, *this, data, dicom.size(), preferredTransferSyntax_, hasMoveOriginator, moveOriginatorAet, moveOriginatorId); } } bool ServerContext::TranscodeWithCache(std::string& target, const std::string& source, const std::string& sourceInstanceId, const std::string& attachmentId, DicomTransferSyntax targetSyntax) { StorageCache::Accessor cacheAccessor(storageCache_); if (!cacheAccessor.FetchTranscodedInstance(target, attachmentId, targetSyntax)) { IDicomTranscoder::DicomImage sourceDicom; sourceDicom.SetExternalBuffer(source); IDicomTranscoder::DicomImage targetDicom; std::set<DicomTransferSyntax> syntaxes; syntaxes.insert(targetSyntax); if (Transcode(targetDicom, sourceDicom, syntaxes, true)) { cacheAccessor.AddTranscodedInstance(attachmentId, targetSyntax, reinterpret_cast<const char*>(targetDicom.GetBufferData()), targetDicom.GetBufferSize()); target = std::string(reinterpret_cast<const char*>(targetDicom.GetBufferData()), targetDicom.GetBufferSize()); return true; } return false; } return true; } bool ServerContext::Transcode(DicomImage& target, DicomImage& source /* in, "GetParsed()" possibly modified */, const std::set<DicomTransferSyntax>& allowedSyntaxes, bool allowNewSopInstanceUid) { if (builtinDecoderTranscoderOrder_ == BuiltinDecoderTranscoderOrder_Before) { if (dcmtkTranscoder_->Transcode(target, source, allowedSyntaxes, allowNewSopInstanceUid)) { return true; } } #if ORTHANC_ENABLE_PLUGINS == 1 if (HasPlugins() && GetPlugins().HasCustomTranscoder()) { if (GetPlugins().Transcode(target, source, allowedSyntaxes, allowNewSopInstanceUid)) { return true; } else if (builtinDecoderTranscoderOrder_ == BuiltinDecoderTranscoderOrder_After) { LOG(INFO) << "The installed transcoding plugins cannot handle an image, " << "fallback to the built-in DCMTK transcoder"; } } #endif if (builtinDecoderTranscoderOrder_ == BuiltinDecoderTranscoderOrder_After) { return dcmtkTranscoder_->Transcode(target, source, allowedSyntaxes, allowNewSopInstanceUid); } else { return false; } } const std::string& ServerContext::GetDeidentifiedContent(const DicomElement &element) const { static const std::string redactedContent = "*** POTENTIAL PHI ***"; static const std::string emptyContent = ""; const DicomTag& tag = element.GetTag(); if (element.GetValue().IsSequence()) { return emptyContent; } if (deidentifyLogs_ && !element.GetValue().GetContent().empty() && logsDeidentifierRules_.IsAlteredTag(tag)) { return redactedContent; } else { return element.GetValue().GetContent(); } } void ServerContext::GetAcceptedTransferSyntaxes(std::set<DicomTransferSyntax>& syntaxes) { boost::mutex::scoped_lock lock(dynamicOptionsMutex_); syntaxes = acceptedTransferSyntaxes_; } void ServerContext::SetAcceptedTransferSyntaxes(const std::set<DicomTransferSyntax>& syntaxes) { boost::mutex::scoped_lock lock(dynamicOptionsMutex_); acceptedTransferSyntaxes_ = syntaxes; } bool ServerContext::IsUnknownSopClassAccepted() { boost::mutex::scoped_lock lock(dynamicOptionsMutex_); return isUnknownSopClassAccepted_; } void ServerContext::SetUnknownSopClassAccepted(bool accepted) { boost::mutex::scoped_lock lock(dynamicOptionsMutex_); isUnknownSopClassAccepted_ = accepted; } int64_t ServerContext::GetServerUpTime() const { boost::posix_time::ptime nowUtc = boost::posix_time::second_clock::universal_time(); boost::posix_time::time_duration elapsed = nowUtc - serverStartTimeUtc_; return elapsed.total_seconds(); } }