コード例 #1
0
		/// <summary>
		/// Archive the specified <see cref="ArchiveQueue"/> item.
		/// </summary>
		/// <param name="queueItem">The ArchiveQueue item to archive.</param>
		public void Run(ArchiveQueue queueItem)
		{
            using (ArchiveProcessorContext executionContext = new ArchiveProcessorContext(queueItem))
            {
                try
                {
				    if (!_nasArchive.CheckStudyDiskSpace())
                    {
                        queueItem.FailureDescription = "Not enough free disk space.";
                        _nasArchive.UpdateArchiveQueue(queueItem, ArchiveQueueStatusEnum.Pending, Platform.Time.AddMinutes(60));
                        return;
                    }                    
					
                    if (!GetStudyStorageLocation(queueItem))
                    {
                        Platform.Log(LogLevel.Error,
                                     "Unable to find readable study storage location for archival queue request {0}.  Delaying request.",
                                     queueItem.Key);
                        queueItem.FailureDescription = "Unable to find readable study storage location for archival queue request.";
                        _nasArchive.UpdateArchiveQueue(queueItem, ArchiveQueueStatusEnum.Pending, Platform.Time.AddMinutes(2));
                        return;
                    }

                    // First, check to see if we can lock the study, if not just reschedule the queue entry.
                    if (!_storageLocation.QueueStudyStateEnum.Equals(QueueStudyStateEnum.Idle))
                    {
                        Platform.Log(LogLevel.Info, "Study {0} on partition {1} is currently locked, delaying archival.", _storageLocation.StudyInstanceUid, _nasArchive.ServerPartition.Description);
                        queueItem.FailureDescription = "Study is currently locked, delaying archival.";
                        _nasArchive.UpdateArchiveQueue(queueItem, ArchiveQueueStatusEnum.Pending, Platform.Time.AddMinutes(2));
                        return;
                    }

                    StudyIntegrityValidator validator = new StudyIntegrityValidator();
                    validator.ValidateStudyState("Archive", _storageLocation, StudyIntegrityValidationModes.Default);

                    using (IUpdateContext update = PersistentStoreRegistry.GetDefaultStore().OpenUpdateContext(UpdateContextSyncMode.Flush))
                    {
                        ILockStudy studyLock = update.GetBroker<ILockStudy>();
                        LockStudyParameters parms = new LockStudyParameters
                                                    	{
                                                    		StudyStorageKey = queueItem.StudyStorageKey,
                                                    		QueueStudyStateEnum = QueueStudyStateEnum.ArchiveScheduled
                                                    	};
                    	bool retVal = studyLock.Execute(parms);
                        if (!parms.Successful || !retVal)
                        {
                            Platform.Log(LogLevel.Info, "Study {0} on partition {1} failed to lock, delaying archival.", _storageLocation.StudyInstanceUid, _nasArchive.ServerPartition.Description);
                            queueItem.FailureDescription = "Study failed to lock, delaying archival.";
                            _nasArchive.UpdateArchiveQueue(queueItem, ArchiveQueueStatusEnum.Pending, Platform.Time.AddMinutes(2));
                            return;
                        }
                        update.Commit();
                    }

                    string studyFolder = _storageLocation.GetStudyPath();

                    string studyXmlFile = _storageLocation.GetStudyXmlPath(); 
                    
                    // Load the study Xml file, this is used to generate the list of dicom files to archive.
                    LoadStudyXml(studyXmlFile);

                    DicomFile file = LoadFileFromStudyXml();

                	string patientsName = file.DataSet[DicomTags.PatientsName].GetString(0, string.Empty);
					string patientId = file.DataSet[DicomTags.PatientId].GetString(0, string.Empty);
					string accessionNumber = file.DataSet[DicomTags.AccessionNumber].GetString(0, string.Empty);

                	Platform.Log(LogLevel.Info,
                	             "Starting archival of study {0} for Patient {1} (PatientId:{2} A#:{3}) on Partition {4} on archive {5}",
                	             _storageLocation.StudyInstanceUid, patientsName, patientId,
                	             accessionNumber, _nasArchive.ServerPartition.Description,
                	             _nasArchive.PartitionArchive.Description);

                    // Use the command processor to do the archival.
                    using (ServerCommandProcessor commandProcessor = new ServerCommandProcessor("Archive"))
                    {
                        _archiveXml = new XmlDocument();

                        // Create the study date folder
                        string zipFilename = Path.Combine(_nasArchive.NasPath, _storageLocation.StudyFolder);
                        commandProcessor.AddCommand(new CreateDirectoryCommand(zipFilename));

                        // Create a folder for the study
                        zipFilename = Path.Combine(zipFilename, _storageLocation.StudyInstanceUid);
                        commandProcessor.AddCommand(new CreateDirectoryCommand(zipFilename));

                        // Save the archive data in the study folder, based on a filename with a date / time stamp
                        string filename = String.Format("{0}.zip", Platform.Time.ToString("yyyy-MM-dd-HHmm"));
                        zipFilename = Path.Combine(zipFilename, filename);


                        // Create the Xml data to store in the ArchiveStudyStorage table telling
                        // where the archived study is located.
                        XmlElement nasArchiveElement = _archiveXml.CreateElement("NasArchive");
                        _archiveXml.AppendChild(nasArchiveElement);
                        XmlElement studyFolderElement = _archiveXml.CreateElement("StudyFolder");
                        nasArchiveElement.AppendChild(studyFolderElement);
                        studyFolderElement.InnerText = _storageLocation.StudyFolder;
                        XmlElement filenameElement = _archiveXml.CreateElement("Filename");
                        nasArchiveElement.AppendChild(filenameElement);
                        filenameElement.InnerText = filename;
                        XmlElement studyInstanceUidElement = _archiveXml.CreateElement("Uid");
                        nasArchiveElement.AppendChild(studyInstanceUidElement);
                        studyInstanceUidElement.InnerText = _storageLocation.StudyInstanceUid;


                        // Create the Zip file
                    	commandProcessor.AddCommand(
                    		new CreateStudyZipCommand(zipFilename, _studyXml, studyFolder, executionContext.TempDirectory));

                        // Update the database.
                        commandProcessor.AddCommand(new InsertArchiveStudyStorageCommand(queueItem.StudyStorageKey, queueItem.PartitionArchiveKey, queueItem.GetKey(), _storageLocation.ServerTransferSyntaxKey, _archiveXml));


                    	StudyRulesEngine studyEngine =
                    		new StudyRulesEngine(_storageLocation, _nasArchive.ServerPartition, _studyXml);
                    	studyEngine.Apply(ServerRuleApplyTimeEnum.StudyArchived, commandProcessor);
						

                        if (!commandProcessor.Execute())
                        {
                            Platform.Log(LogLevel.Error, "Unexpected failure archiving study: {0}", commandProcessor.FailureReason);

                            queueItem.FailureDescription = commandProcessor.FailureReason;
                            _nasArchive.UpdateArchiveQueue(queueItem, ArchiveQueueStatusEnum.Failed, Platform.Time);
                        }
                        else
                            Platform.Log(LogLevel.Info, "Successfully archived study {0} on {1}", _storageLocation.StudyInstanceUid,
                                         _nasArchive.PartitionArchive.Description);

						// Log the current FilesystemQueue settings
						_storageLocation.LogFilesystemQueue();
                    }
                }
                catch (StudyIntegrityValidationFailure ex)
                {
                    StringBuilder error = new StringBuilder();
                    error.AppendLine(String.Format("Partition  : {0}", ex.ValidationStudyInfo.ServerAE));
                    error.AppendLine(String.Format("Patient    : {0}", ex.ValidationStudyInfo.PatientsName));
                    error.AppendLine(String.Format("Study Uid  : {0}", ex.ValidationStudyInfo.StudyInstaneUid));
                    error.AppendLine(String.Format("Accession# : {0}", ex.ValidationStudyInfo.AccessionNumber));
                    error.AppendLine(String.Format("Study Date : {0}", ex.ValidationStudyInfo.StudyDate));

                    queueItem.FailureDescription = error.ToString();
                    _nasArchive.UpdateArchiveQueue(queueItem, ArchiveQueueStatusEnum.Failed, Platform.Time);
                }
                catch (Exception e)
                {
                    String msg = String.Format("Unexpected exception archiving study: {0} on {1}: {2}",
                                 _storageLocation.StudyInstanceUid, _nasArchive.PartitionArchive.Description, e.Message);

                    Platform.Log(LogLevel.Error, e, msg);
                    queueItem.FailureDescription = msg;
                    _nasArchive.UpdateArchiveQueue(queueItem, ArchiveQueueStatusEnum.Failed, Platform.Time);
                }
                finally
                {
                    // Unlock the Queue Entry
                    using (IUpdateContext update = PersistentStoreRegistry.GetDefaultStore().OpenUpdateContext(UpdateContextSyncMode.Flush))
                    {
                        ILockStudy studyLock = update.GetBroker<ILockStudy>();
                        LockStudyParameters parms = new LockStudyParameters
                                                    	{
                                                    		StudyStorageKey = queueItem.StudyStorageKey,
                                                    		QueueStudyStateEnum = QueueStudyStateEnum.Idle
                                                    	};
                    	bool retVal = studyLock.Execute(parms);
                        if (!parms.Successful || !retVal)
                        {
                            Platform.Log(LogLevel.Info, "Study {0} on partition {1} is failed to unlock.", _storageLocation.StudyInstanceUid, _nasArchive.ServerPartition.Description);
                        }
                        update.Commit();
                    }
                }
            }			
		}
コード例 #2
0
        /// <summary>
        /// Archive the specified <see cref="ArchiveQueue"/> item.
        /// </summary>
        /// <param name="queueItem">The ArchiveQueue item to archive.</param>
        public void Run(ArchiveQueue queueItem)
        {
            using (ArchiveProcessorContext executionContext = new ArchiveProcessorContext(queueItem))
            {
                try
                {
                    if (!_nasArchive.CheckStudyDiskSpace())
                    {
                        queueItem.FailureDescription = "Not enough free disk space.";
                        _nasArchive.UpdateArchiveQueue(queueItem, ArchiveQueueStatusEnum.Pending, Platform.Time.AddMinutes(60));
                        return;
                    }

                    if (!GetStudyStorageLocation(queueItem))
                    {
                        Platform.Log(LogLevel.Error,
                                     "Unable to find readable study storage location for archival queue request {0}.  Delaying request.",
                                     queueItem.Key);
                        queueItem.FailureDescription = "Unable to find readable study storage location for archival queue request.";
                        _nasArchive.UpdateArchiveQueue(queueItem, ArchiveQueueStatusEnum.Pending, Platform.Time.AddMinutes(2));
                        return;
                    }

                    // First, check to see if we can lock the study, if not just reschedule the queue entry.
                    if (!_storageLocation.QueueStudyStateEnum.Equals(QueueStudyStateEnum.Idle))
                    {
                        Platform.Log(LogLevel.Info, "Study {0} on partition {1} is currently locked, delaying archival.", _storageLocation.StudyInstanceUid, _nasArchive.ServerPartition.Description);
                        queueItem.FailureDescription = "Study is currently locked, delaying archival.";
                        _nasArchive.UpdateArchiveQueue(queueItem, ArchiveQueueStatusEnum.Pending, Platform.Time.AddMinutes(2));
                        return;
                    }

                    StudyIntegrityValidator validator = new StudyIntegrityValidator();
                    validator.ValidateStudyState("Archive", _storageLocation, StudyIntegrityValidationModes.Default);

                    using (IUpdateContext update = PersistentStoreRegistry.GetDefaultStore().OpenUpdateContext(UpdateContextSyncMode.Flush))
                    {
                        ILockStudy          studyLock = update.GetBroker <ILockStudy>();
                        LockStudyParameters parms     = new LockStudyParameters
                        {
                            StudyStorageKey     = queueItem.StudyStorageKey,
                            QueueStudyStateEnum = QueueStudyStateEnum.ArchiveScheduled
                        };
                        bool retVal = studyLock.Execute(parms);
                        if (!parms.Successful || !retVal)
                        {
                            Platform.Log(LogLevel.Info, "Study {0} on partition {1} failed to lock, delaying archival.", _storageLocation.StudyInstanceUid, _nasArchive.ServerPartition.Description);
                            queueItem.FailureDescription = "Study failed to lock, delaying archival.";
                            _nasArchive.UpdateArchiveQueue(queueItem, ArchiveQueueStatusEnum.Pending, Platform.Time.AddMinutes(2));
                            return;
                        }
                        update.Commit();
                    }

                    string studyFolder = _storageLocation.GetStudyPath();

                    string studyXmlFile = _storageLocation.GetStudyXmlPath();

                    // Load the study Xml file, this is used to generate the list of dicom files to archive.
                    LoadStudyXml(studyXmlFile);

                    DicomFile file = LoadFileFromStudyXml();

                    string patientsName    = file.DataSet[DicomTags.PatientsName].GetString(0, string.Empty);
                    string patientId       = file.DataSet[DicomTags.PatientId].GetString(0, string.Empty);
                    string accessionNumber = file.DataSet[DicomTags.AccessionNumber].GetString(0, string.Empty);

                    Platform.Log(LogLevel.Info,
                                 "Starting archival of study {0} for Patient {1} (PatientId:{2} A#:{3}) on Partition {4} on archive {5}",
                                 _storageLocation.StudyInstanceUid, patientsName, patientId,
                                 accessionNumber, _nasArchive.ServerPartition.Description,
                                 _nasArchive.PartitionArchive.Description);

                    // Use the command processor to do the archival.
                    using (ServerCommandProcessor commandProcessor = new ServerCommandProcessor("Archive"))
                    {
                        _archiveXml = new XmlDocument();

                        // Create the study date folder
                        string zipFilename = Path.Combine(_nasArchive.NasPath, _storageLocation.StudyFolder);
                        commandProcessor.AddCommand(new CreateDirectoryCommand(zipFilename));

                        // Create a folder for the study
                        zipFilename = Path.Combine(zipFilename, _storageLocation.StudyInstanceUid);
                        commandProcessor.AddCommand(new CreateDirectoryCommand(zipFilename));

                        // Save the archive data in the study folder, based on a filename with a date / time stamp
                        string filename = String.Format("{0}.zip", Platform.Time.ToString("yyyy-MM-dd-HHmm"));
                        zipFilename = Path.Combine(zipFilename, filename);


                        // Create the Xml data to store in the ArchiveStudyStorage table telling
                        // where the archived study is located.
                        XmlElement nasArchiveElement = _archiveXml.CreateElement("NasArchive");
                        _archiveXml.AppendChild(nasArchiveElement);
                        XmlElement studyFolderElement = _archiveXml.CreateElement("StudyFolder");
                        nasArchiveElement.AppendChild(studyFolderElement);
                        studyFolderElement.InnerText = _storageLocation.StudyFolder;
                        XmlElement filenameElement = _archiveXml.CreateElement("Filename");
                        nasArchiveElement.AppendChild(filenameElement);
                        filenameElement.InnerText = filename;
                        XmlElement studyInstanceUidElement = _archiveXml.CreateElement("Uid");
                        nasArchiveElement.AppendChild(studyInstanceUidElement);
                        studyInstanceUidElement.InnerText = _storageLocation.StudyInstanceUid;


                        // Create the Zip file
                        commandProcessor.AddCommand(
                            new CreateStudyZipCommand(zipFilename, _studyXml, studyFolder, executionContext.TempDirectory));

                        // Update the database.
                        commandProcessor.AddCommand(new InsertArchiveStudyStorageCommand(queueItem.StudyStorageKey, queueItem.PartitionArchiveKey, queueItem.GetKey(), _storageLocation.ServerTransferSyntaxKey, _archiveXml));


                        StudyRulesEngine studyEngine =
                            new StudyRulesEngine(_storageLocation, _nasArchive.ServerPartition, _studyXml);
                        studyEngine.Apply(ServerRuleApplyTimeEnum.StudyArchived, commandProcessor);


                        if (!commandProcessor.Execute())
                        {
                            Platform.Log(LogLevel.Error, "Unexpected failure archiving study: {0}", commandProcessor.FailureReason);

                            queueItem.FailureDescription = commandProcessor.FailureReason;
                            _nasArchive.UpdateArchiveQueue(queueItem, ArchiveQueueStatusEnum.Failed, Platform.Time);
                        }
                        else
                        {
                            Platform.Log(LogLevel.Info, "Successfully archived study {0} on {1}", _storageLocation.StudyInstanceUid,
                                         _nasArchive.PartitionArchive.Description);
                        }

                        // Log the current FilesystemQueue settings
                        _storageLocation.LogFilesystemQueue();
                    }
                }
                catch (StudyIntegrityValidationFailure ex)
                {
                    StringBuilder error = new StringBuilder();
                    error.AppendLine(String.Format("Partition  : {0}", ex.ValidationStudyInfo.ServerAE));
                    error.AppendLine(String.Format("Patient    : {0}", ex.ValidationStudyInfo.PatientsName));
                    error.AppendLine(String.Format("Study Uid  : {0}", ex.ValidationStudyInfo.StudyInstaneUid));
                    error.AppendLine(String.Format("Accession# : {0}", ex.ValidationStudyInfo.AccessionNumber));
                    error.AppendLine(String.Format("Study Date : {0}", ex.ValidationStudyInfo.StudyDate));

                    queueItem.FailureDescription = error.ToString();
                    _nasArchive.UpdateArchiveQueue(queueItem, ArchiveQueueStatusEnum.Failed, Platform.Time);
                }
                catch (Exception e)
                {
                    String msg = String.Format("Unexpected exception archiving study: {0} on {1}: {2}",
                                               _storageLocation.StudyInstanceUid, _nasArchive.PartitionArchive.Description, e.Message);

                    Platform.Log(LogLevel.Error, e, msg);
                    queueItem.FailureDescription = msg;
                    _nasArchive.UpdateArchiveQueue(queueItem, ArchiveQueueStatusEnum.Failed, Platform.Time);
                }
                finally
                {
                    // Unlock the Queue Entry
                    using (IUpdateContext update = PersistentStoreRegistry.GetDefaultStore().OpenUpdateContext(UpdateContextSyncMode.Flush))
                    {
                        ILockStudy          studyLock = update.GetBroker <ILockStudy>();
                        LockStudyParameters parms     = new LockStudyParameters
                        {
                            StudyStorageKey     = queueItem.StudyStorageKey,
                            QueueStudyStateEnum = QueueStudyStateEnum.Idle
                        };
                        bool retVal = studyLock.Execute(parms);
                        if (!parms.Successful || !retVal)
                        {
                            Platform.Log(LogLevel.Info, "Study {0} on partition {1} is failed to unlock.", _storageLocation.StudyInstanceUid, _nasArchive.ServerPartition.Description);
                        }
                        update.Commit();
                    }
                }
            }
        }