Mercurial > hg > orthanc
view OrthancServer/ServerIndex.cpp @ 57:4bc019d2f969 orthanc-renaming
renaming
author | Sebastien Jodogne <s.jodogne@gmail.com> |
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date | Sun, 16 Sep 2012 09:22:48 +0200 |
parents | PalanthirServer/ServerIndex.cpp@a15e90e5d6fc |
children | a70bb32802ae |
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/** * Palanthir - A Lightweight, RESTful DICOM Store * Copyright (C) 2012 Medical Physics Department, CHU of Liege, * 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 "ServerIndex.h" using namespace Palanthir; #ifndef NOMINMAX #define NOMINMAX #endif #include "EmbeddedResources.h" #include "../Core/Toolbox.h" #include "../Core/Uuid.h" #include "../Core/DicomFormat/DicomArray.h" #include "../Core/SQLite/Transaction.h" #include "FromDcmtkBridge.h" #include <boost/lexical_cast.hpp> #include <stdio.h> namespace Palanthir { namespace Internals { class DeleteFromFileStorageFunction : public SQLite::IScalarFunction { private: FileStorage fileStorage_; public: DeleteFromFileStorageFunction(const std::string& path) : fileStorage_(path) { } virtual const char* GetName() const { return "DeleteFromFileStorage"; } virtual unsigned int GetCardinality() const { return 1; } virtual void Compute(SQLite::FunctionContext& context) { std::string fileUuid = context.GetStringValue(0); printf("Removing file [%s]\n", fileUuid.c_str()); if (Toolbox::IsUuid(fileUuid)) { fileStorage_.Remove(fileUuid); } } }; class SignalDeletedLevelFunction : public SQLite::IScalarFunction { private: int remainingLevel_; std::string remainingLevelUuid_; public: void Clear() { remainingLevel_ = std::numeric_limits<int>::max(); } bool HasRemainingLevel() const { return (remainingLevel_ != 0 && remainingLevel_ != std::numeric_limits<int>::max()); } const std::string& GetRemainingLevelUuid() const { assert(HasRemainingLevel()); return remainingLevelUuid_; } const char* GetRemainingLevelType() const { assert(HasRemainingLevel()); switch (remainingLevel_) { case 1: return "patient"; case 2: return "study"; case 3: return "series"; default: throw PalanthirException(ErrorCode_InternalError); } } virtual const char* GetName() const { return "SignalDeletedLevel"; } virtual unsigned int GetCardinality() const { return 2; } virtual void Compute(SQLite::FunctionContext& context) { int level = context.GetIntValue(0); if (level < remainingLevel_) { remainingLevel_ = level; remainingLevelUuid_ = context.GetStringValue(1); } //printf("deleted level [%d] [%s]\n", level, context.GetStringValue(1).c_str()); } }; } void ServerIndex::StoreMainDicomTags(const std::string& uuid, const DicomMap& map) { SQLite::Statement s(db_, SQLITE_FROM_HERE, "INSERT INTO MainDicomTags VALUES(?, ?, ?, ?)"); DicomArray flattened(map); for (size_t i = 0; i < flattened.GetSize(); i++) { s.Reset(); s.BindString(0, uuid); s.BindInt(1, flattened.GetElement(i).GetTag().GetGroup()); s.BindInt(2, flattened.GetElement(i).GetTag().GetElement()); s.BindString(3, flattened.GetElement(i).GetValue().AsString()); s.Run(); } } bool ServerIndex::GetMainDicomStringTag(std::string& result, const std::string& uuid, const DicomTag& tag) { SQLite::Statement s(db_, SQLITE_FROM_HERE, "SELECT * FROM MainDicomTags WHERE uuid=? AND tagGroup=? AND tagElement=?"); s.BindString(0, uuid); s.BindInt(1, tag.GetGroup()); s.BindInt(2, tag.GetElement()); if (!s.Step()) { return false; } result = s.ColumnString(0); return true; } bool ServerIndex::GetMainDicomIntTag(int& result, const std::string& uuid, const DicomTag& tag) { std::string s; if (!GetMainDicomStringTag(s, uuid, tag)) { return false; } try { result = boost::lexical_cast<int>(s); return true; } catch (boost::bad_lexical_cast) { return false; } } bool ServerIndex::HasInstance(std::string& instanceUuid, const std::string& dicomInstance) { SQLite::Statement s(db_, SQLITE_FROM_HERE, "SELECT uuid FROM Instances WHERE dicomInstance=?"); s.BindString(0, dicomInstance); if (s.Step()) { instanceUuid = s.ColumnString(0); return true; } else { return false; } } void ServerIndex::RecordChange(const std::string& resourceType, const std::string& uuid) { SQLite::Statement s(db_, SQLITE_FROM_HERE, "INSERT INTO Changes VALUES(NULL, ?, ?)"); s.BindString(0, resourceType); s.BindString(1, uuid); s.Run(); } std::string ServerIndex::CreateInstance(const std::string& parentSeriesUuid, const std::string& dicomInstance, const DicomMap& dicomSummary, const std::string& fileUuid, uint64_t fileSize, const std::string& jsonUuid, const std::string& distantAet) { std::string instanceUuid = Toolbox::GenerateUuid(); SQLite::Statement s(db_, SQLITE_FROM_HERE, "INSERT INTO Instances VALUES(?, ?, ?, ?, ?, ?, ?)"); s.BindString(0, instanceUuid); s.BindString(1, parentSeriesUuid); s.BindString(2, dicomInstance); s.BindString(3, fileUuid); s.BindInt64(4, fileSize); s.BindString(5, jsonUuid); s.BindString(6, distantAet); s.Run(); RecordChange("instances", instanceUuid); DicomMap dicom; dicomSummary.ExtractInstanceInformation(dicom); StoreMainDicomTags(instanceUuid, dicom); return instanceUuid; } void ServerIndex::RemoveInstance(const std::string& uuid) { SQLite::Statement s(db_, SQLITE_FROM_HERE, "DELETE FROM Instances WHERE uuid=?"); s.BindString(0, uuid); s.Run(); } bool ServerIndex::HasSeries(std::string& seriesUuid, const std::string& dicomSeries) { SQLite::Statement s(db_, SQLITE_FROM_HERE, "SELECT uuid FROM Series WHERE dicomSeries=?"); s.BindString(0, dicomSeries); if (s.Step()) { seriesUuid = s.ColumnString(0); return true; } else { return false; } } std::string ServerIndex::CreateSeries(const std::string& parentStudyUuid, const std::string& dicomSeries, const DicomMap& dicomSummary) { std::string seriesUuid = Toolbox::GenerateUuid(); SQLite::Statement s(db_, SQLITE_FROM_HERE, "INSERT INTO Series VALUES(?, ?, ?)"); s.BindString(0, seriesUuid); s.BindString(1, parentStudyUuid); s.BindString(2, dicomSeries); s.Run(); RecordChange("series", seriesUuid); DicomMap dicom; dicomSummary.ExtractSeriesInformation(dicom); StoreMainDicomTags(seriesUuid, dicom); return seriesUuid; } bool ServerIndex::HasStudy(std::string& studyUuid, const std::string& dicomStudy) { SQLite::Statement s(db_, SQLITE_FROM_HERE, "SELECT uuid FROM Studies WHERE dicomStudy=?"); s.BindString(0, dicomStudy); if (s.Step()) { studyUuid = s.ColumnString(0); return true; } else { return false; } } std::string ServerIndex::CreateStudy(const std::string& parentPatientUuid, const std::string& dicomStudy, const DicomMap& dicomSummary) { std::string studyUuid = Toolbox::GenerateUuid(); SQLite::Statement s(db_, SQLITE_FROM_HERE, "INSERT INTO Studies VALUES(?, ?, ?)"); s.BindString(0, studyUuid); s.BindString(1, parentPatientUuid); s.BindString(2, dicomStudy); s.Run(); RecordChange("studies", studyUuid); DicomMap dicom; dicomSummary.ExtractStudyInformation(dicom); StoreMainDicomTags(studyUuid, dicom); return studyUuid; } bool ServerIndex::HasPatient(std::string& patientUuid, const std::string& dicomPatientId) { SQLite::Statement s(db_, SQLITE_FROM_HERE, "SELECT uuid FROM Patients WHERE dicomPatientId=?"); s.BindString(0, dicomPatientId); if (s.Step()) { patientUuid = s.ColumnString(0); return true; } else { return false; } } std::string ServerIndex::CreatePatient(const std::string& patientId, const DicomMap& dicomSummary) { std::string patientUuid = Toolbox::GenerateUuid(); std::string dicomPatientId = dicomSummary.GetValue(DicomTag::PATIENT_ID).AsString(); SQLite::Statement s(db_, SQLITE_FROM_HERE, "INSERT INTO Patients VALUES(?, ?)"); s.BindString(0, patientUuid); s.BindString(1, dicomPatientId); s.Run(); RecordChange("patients", patientUuid); DicomMap dicom; dicomSummary.ExtractPatientInformation(dicom); StoreMainDicomTags(patientUuid, dicom); return patientUuid; } void ServerIndex::GetMainDicomTags(DicomMap& map, const std::string& uuid) { map.Clear(); SQLite::Statement s(db_, SQLITE_FROM_HERE, "SELECT * FROM MainDicomTags WHERE uuid=?"); s.BindString(0, uuid); while (s.Step()) { map.SetValue(s.ColumnInt(1), s.ColumnInt(2), s.ColumnString(3)); } } void ServerIndex::MainDicomTagsToJson(Json::Value& target, const std::string& uuid) { DicomMap map; GetMainDicomTags(map, uuid); target["MainDicomTags"] = Json::objectValue; FromDcmtkBridge::ToJson(target["MainDicomTags"], map); } bool ServerIndex::DeleteInternal(Json::Value& target, const std::string& uuid, const std::string& tableName) { boost::mutex::scoped_lock scoped_lock(mutex_); deletedLevels_->Clear(); SQLite::Statement s(db_, "DELETE FROM " + tableName + " WHERE uuid=?"); s.BindString(0, uuid); if (!s.Run()) { return false; } if (db_.GetLastChangeCount() == 0) { // Nothing was deleted, inexistent UUID return false; } if (deletedLevels_->HasRemainingLevel()) { std::string type(deletedLevels_->GetRemainingLevelType()); const std::string& uuid = deletedLevels_->GetRemainingLevelUuid(); target["RemainingAncestor"] = Json::Value(Json::objectValue); target["RemainingAncestor"]["Path"] = "/" + type + "/" + uuid; target["RemainingAncestor"]["Type"] = type; target["RemainingAncestor"]["ID"] = uuid; } else { target["RemainingAncestor"] = Json::nullValue; } return true; } ServerIndex::ServerIndex(const std::string& storagePath) { boost::filesystem::path p = storagePath; try { boost::filesystem::create_directories(storagePath); } catch (boost::filesystem::filesystem_error) { } p /= "index"; db_.Open(p.string()); db_.Register(new Internals::DeleteFromFileStorageFunction(storagePath)); deletedLevels_ = (Internals::SignalDeletedLevelFunction*) db_.Register(new Internals::SignalDeletedLevelFunction); if (!db_.DoesTableExist("GlobalProperties")) { printf("Creating the database\n"); std::string query; EmbeddedResources::GetFileResource(query, EmbeddedResources::PREPARE_DATABASE); db_.Execute(query); } } StoreStatus ServerIndex::Store(std::string& instanceUuid, const DicomMap& dicomSummary, const std::string& fileUuid, uint64_t uncompressedFileSize, const std::string& jsonUuid, const std::string& distantAet) { boost::mutex::scoped_lock scoped_lock(mutex_); std::string dicomPatientId = dicomSummary.GetValue(DicomTag::PATIENT_ID).AsString(); std::string dicomInstance = dicomSummary.GetValue(DicomTag::INSTANCE_UID).AsString(); std::string dicomSeries = dicomSummary.GetValue(DicomTag::SERIES_UID).AsString(); std::string dicomStudy = dicomSummary.GetValue(DicomTag::STUDY_UID).AsString(); try { SQLite::Transaction t(db_); t.Begin(); if (HasInstance(instanceUuid, dicomInstance)) { return StoreStatus_AlreadyStored; // TODO: Check consistency? } std::string patientUuid; if (HasPatient(patientUuid, dicomPatientId)) { // TODO: Check consistency? } else { patientUuid = CreatePatient(dicomPatientId, dicomSummary); } std::string studyUuid; if (HasStudy(studyUuid, dicomStudy)) { // TODO: Check consistency? } else { studyUuid = CreateStudy(patientUuid, dicomStudy, dicomSummary); } std::string seriesUuid; if (HasSeries(seriesUuid, dicomSeries)) { // TODO: Check consistency? } else { seriesUuid = CreateSeries(studyUuid, dicomSeries, dicomSummary); } instanceUuid = CreateInstance(seriesUuid, dicomInstance, dicomSummary, fileUuid, uncompressedFileSize, jsonUuid, distantAet); t.Commit(); return StoreStatus_Success; //t.Rollback(); } catch (PalanthirException& e) { std::cout << "EXCEPT2 [" << e.What() << "]" << " " << db_.GetErrorMessage() << std::endl; } return StoreStatus_Failure; } StoreStatus ServerIndex::Store(std::string& instanceUuid, FileStorage& storage, const char* dicomFile, size_t dicomSize, const DicomMap& dicomSummary, const Json::Value& dicomJson, const std::string& distantAet) { std::string fileUuid = storage.Create(dicomFile, dicomSize); std::string jsonUuid = storage.Create(dicomJson.toStyledString()); StoreStatus status = Store(instanceUuid, dicomSummary, fileUuid, dicomSize, jsonUuid, distantAet); if (status != StoreStatus_Success) { storage.Remove(fileUuid); storage.Remove(jsonUuid); } switch (status) { case StoreStatus_Success: std::cout << "New instance stored: " << GetTotalSize() << std::endl; break; case StoreStatus_AlreadyStored: std::cout << "Already stored" << std::endl; break; case StoreStatus_Failure: std::cout << "Store failure" << std::endl; break; } return status; } uint64_t ServerIndex::GetTotalSize() { boost::mutex::scoped_lock scoped_lock(mutex_); SQLite::Statement s(db_, SQLITE_FROM_HERE, "SELECT SUM(fileSize) FROM Instances"); s.Run(); return s.ColumnInt64(0); } SeriesStatus ServerIndex::GetSeriesStatus(const std::string& seriesUuid) { int numberOfSlices; if (!GetMainDicomIntTag(numberOfSlices, seriesUuid, DicomTag::NUMBER_OF_SLICES) || numberOfSlices < 0) { return SeriesStatus_Unknown; } // Loop over the instances of the series //std::set< // TODO return SeriesStatus_Unknown; } bool ServerIndex::GetInstance(Json::Value& result, const std::string& instanceUuid) { assert(result.type() == Json::objectValue); boost::mutex::scoped_lock scoped_lock(mutex_); SQLite::Statement s(db_, SQLITE_FROM_HERE, "SELECT parentSeries, dicomInstance, fileSize, fileUuid FROM Instances WHERE uuid=?"); s.BindString(0, instanceUuid); if (!s.Step()) { return false; } else { result["ID"] = instanceUuid; result["ParentSeries"] = s.ColumnString(0); result["FileSize"] = s.ColumnInt(2); // TODO switch to 64bit with JsonCpp 0.6? result["FileUuid"] = s.ColumnString(3); MainDicomTagsToJson(result, instanceUuid); return true; } } bool ServerIndex::GetSeries(Json::Value& result, const std::string& seriesUuid) { assert(result.type() == Json::objectValue); boost::mutex::scoped_lock scoped_lock(mutex_); SQLite::Statement s1(db_, SQLITE_FROM_HERE, "SELECT parentStudy, dicomSeries FROM Series WHERE uuid=?"); s1.BindString(0, seriesUuid); if (!s1.Step()) { return false; } result["ID"] = seriesUuid; result["ParentStudy"] = s1.ColumnString(0); MainDicomTagsToJson(result, seriesUuid); Json::Value instances(Json::arrayValue); SQLite::Statement s2(db_, SQLITE_FROM_HERE, "SELECT uuid FROM Instances WHERE parentSeries=?"); s2.BindString(0, seriesUuid); while (s2.Step()) { instances.append(s2.ColumnString(0)); } result["Instances"] = instances; return true; } bool ServerIndex::GetStudy(Json::Value& result, const std::string& studyUuid) { assert(result.type() == Json::objectValue); boost::mutex::scoped_lock scoped_lock(mutex_); SQLite::Statement s1(db_, SQLITE_FROM_HERE, "SELECT parentPatient, dicomStudy FROM Studies WHERE uuid=?"); s1.BindString(0, studyUuid); if (!s1.Step()) { return false; } result["ID"] = studyUuid; result["ParentPatient"] = s1.ColumnString(0); MainDicomTagsToJson(result, studyUuid); Json::Value series(Json::arrayValue); SQLite::Statement s2(db_, SQLITE_FROM_HERE, "SELECT uuid FROM Series WHERE parentStudy=?"); s2.BindString(0, studyUuid); while (s2.Step()) { series.append(s2.ColumnString(0)); } result["Series"] = series; return true; } bool ServerIndex::GetPatient(Json::Value& result, const std::string& patientUuid) { assert(result.type() == Json::objectValue); boost::mutex::scoped_lock scoped_lock(mutex_); SQLite::Statement s1(db_, SQLITE_FROM_HERE, "SELECT dicomPatientId FROM Patients WHERE uuid=?"); s1.BindString(0, patientUuid); if (!s1.Step()) { return false; } result["ID"] = patientUuid; MainDicomTagsToJson(result, patientUuid); Json::Value studies(Json::arrayValue); SQLite::Statement s2(db_, SQLITE_FROM_HERE, "SELECT uuid FROM Studies WHERE parentPatient=?"); s2.BindString(0, patientUuid); while (s2.Step()) { studies.append(s2.ColumnString(0)); } result["Studies"] = studies; return true; } bool ServerIndex::GetJsonFile(std::string& fileUuid, const std::string& instanceUuid) { boost::mutex::scoped_lock scoped_lock(mutex_); SQLite::Statement s(db_, SQLITE_FROM_HERE, "SELECT jsonUuid FROM Instances WHERE uuid=?"); s.BindString(0, instanceUuid); if (s.Step()) { fileUuid = s.ColumnString(0); return true; } else { return false; } } bool ServerIndex::GetDicomFile(std::string& fileUuid, const std::string& instanceUuid) { boost::mutex::scoped_lock scoped_lock(mutex_); SQLite::Statement s(db_, SQLITE_FROM_HERE, "SELECT fileUuid FROM Instances WHERE uuid=?"); s.BindString(0, instanceUuid); if (s.Step()) { fileUuid = s.ColumnString(0); return true; } else { return false; } } void ServerIndex::GetAllUuids(Json::Value& target, const std::string& tableName) { assert(target.type() == Json::arrayValue); boost::mutex::scoped_lock scoped_lock(mutex_); std::string query = "SELECT uuid FROM " + tableName; SQLite::Statement s(db_, query); while (s.Step()) { target.append(s.ColumnString(0)); } } bool ServerIndex::GetChanges(Json::Value& target, int64_t since, const std::string& filter, unsigned int maxResults) { assert(target.type() == Json::objectValue); boost::mutex::scoped_lock scoped_lock(mutex_); if (filter.size() != 0 && filter != "instances" && filter != "series" && filter != "studies" && filter != "patients") { return false; } std::auto_ptr<SQLite::Statement> s; if (filter.size() == 0) { s.reset(new SQLite::Statement(db_, SQLITE_FROM_HERE, "SELECT * FROM Changes WHERE seq>? " "ORDER BY seq LIMIT ?")); s->BindInt64(0, since); s->BindInt(1, maxResults); } else { s.reset(new SQLite::Statement(db_, SQLITE_FROM_HERE, "SELECT * FROM Changes WHERE seq>? " "AND basePath=? ORDER BY seq LIMIT ?")); s->BindInt64(0, since); s->BindString(1, filter); s->BindInt(2, maxResults); } int64_t lastSeq = 0; Json::Value results(Json::arrayValue); while (s->Step()) { int64_t seq = s->ColumnInt64(0); std::string basePath = s->ColumnString(1); std::string uuid = s->ColumnString(2); if (filter.size() == 0 || filter == basePath) { Json::Value change(Json::objectValue); change["Seq"] = static_cast<int>(seq); // TODO JsonCpp in 64bit change["BasePath"] = basePath; change["ID"] = uuid; results.append(change); } if (seq > lastSeq) { lastSeq = seq; } } target["Results"] = results; target["LastSeq"] = static_cast<int>(lastSeq); // TODO JsonCpp in 64bit return true; } }