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view OrthancServer/Plugins/Engine/OrthancPlugins.cpp @ 4746:0d57277aa54c
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author | Sebastien Jodogne <s.jodogne@gmail.com> |
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date | Thu, 08 Jul 2021 10:59:32 +0200 |
parents | 9804d6490872 |
children | f0038043fb97 94616af363ec |
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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) 2017-2021 Osimis S.A., Belgium * * This program is free software: you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation, either version 3 of the * License, or (at your option) any later version. * * In addition, as a special exception, the copyright holders of this * program give permission to link the code of its release with the * OpenSSL project's "OpenSSL" library (or with modified versions of it * that use the same license as the "OpenSSL" library), and distribute * the linked executables. You must obey the GNU General Public License * in all respects for all of the code used other than "OpenSSL". If you * modify file(s) with this exception, you may extend this exception to * your version of the file(s), but you are not obligated to do so. If * you do not wish to do so, delete this exception statement from your * version. If you delete this exception statement from all source files * in the program, then also delete it here. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see <http://www.gnu.org/licenses/>. **/ #include "../../Sources/PrecompiledHeadersServer.h" #include "OrthancPlugins.h" #if ORTHANC_ENABLE_PLUGINS != 1 #error The plugin support is disabled #endif #if !defined(DCMTK_VERSION_NUMBER) # error The macro DCMTK_VERSION_NUMBER must be defined #endif #include "../../../OrthancFramework/Sources/Compression/GzipCompressor.h" #include "../../../OrthancFramework/Sources/Compression/ZlibCompressor.h" #include "../../../OrthancFramework/Sources/DicomFormat/DicomArray.h" #include "../../../OrthancFramework/Sources/DicomParsing/DicomWebJsonVisitor.h" #include "../../../OrthancFramework/Sources/DicomParsing/FromDcmtkBridge.h" #include "../../../OrthancFramework/Sources/DicomParsing/Internals/DicomImageDecoder.h" #include "../../../OrthancFramework/Sources/DicomParsing/ToDcmtkBridge.h" #include "../../../OrthancFramework/Sources/HttpServer/HttpToolbox.h" #include "../../../OrthancFramework/Sources/Images/Image.h" #include "../../../OrthancFramework/Sources/Images/ImageProcessing.h" #include "../../../OrthancFramework/Sources/Images/JpegReader.h" #include "../../../OrthancFramework/Sources/Images/JpegWriter.h" #include "../../../OrthancFramework/Sources/Images/PngReader.h" #include "../../../OrthancFramework/Sources/Images/PngWriter.h" #include "../../../OrthancFramework/Sources/Logging.h" #include "../../../OrthancFramework/Sources/Lua/LuaFunctionCall.h" #include "../../../OrthancFramework/Sources/MallocMemoryBuffer.h" #include "../../../OrthancFramework/Sources/MetricsRegistry.h" #include "../../../OrthancFramework/Sources/OrthancException.h" #include "../../../OrthancFramework/Sources/SerializationToolbox.h" #include "../../../OrthancFramework/Sources/StringMemoryBuffer.h" #include "../../../OrthancFramework/Sources/Toolbox.h" #include "../../Sources/Database/VoidDatabaseListener.h" #include "../../Sources/OrthancConfiguration.h" #include "../../Sources/OrthancFindRequestHandler.h" #include "../../Sources/Search/HierarchicalMatcher.h" #include "../../Sources/ServerContext.h" #include "../../Sources/ServerToolbox.h" #include "OrthancPluginDatabase.h" #include "OrthancPluginDatabaseV3.h" #include "PluginsEnumerations.h" #include "PluginsJob.h" #include <boost/regex.hpp> #include <dcmtk/dcmdata/dcdict.h> #include <dcmtk/dcmdata/dcdicent.h> #define ERROR_MESSAGE_64BIT "A 64bit version of the Orthanc API is necessary" namespace Orthanc { static void CopyToMemoryBuffer(OrthancPluginMemoryBuffer& target, const void* data, size_t size) { if (static_cast<uint32_t>(size) != size) { throw OrthancException(ErrorCode_NotEnoughMemory, ERROR_MESSAGE_64BIT); } target.size = size; if (size == 0) { target.data = NULL; } else { target.data = malloc(size); if (target.data != NULL) { memcpy(target.data, data, size); } else { throw OrthancException(ErrorCode_NotEnoughMemory); } } } static void CopyToMemoryBuffer(OrthancPluginMemoryBuffer& target, const std::string& str) { if (str.size() == 0) { target.size = 0; target.data = NULL; } else { CopyToMemoryBuffer(target, str.c_str(), str.size()); } } static char* CopyString(const std::string& str) { if (static_cast<uint32_t>(str.size()) != str.size()) { throw OrthancException(ErrorCode_NotEnoughMemory, ERROR_MESSAGE_64BIT); } char *result = reinterpret_cast<char*>(malloc(str.size() + 1)); if (result == NULL) { throw OrthancException(ErrorCode_NotEnoughMemory); } if (str.size() == 0) { result[0] = '\0'; } else { memcpy(result, &str[0], str.size() + 1); } return result; } static void CopyDictionary(OrthancPluginMemoryBuffer& target, const std::map<std::string, std::string>& dictionary) { Json::Value json = Json::objectValue; for (HttpClient::HttpHeaders::const_iterator it = dictionary.begin(); it != dictionary.end(); ++it) { json[it->first] = it->second; } std::string s = json.toStyledString(); CopyToMemoryBuffer(target, s); } namespace { class MemoryBufferRaii : public boost::noncopyable { private: OrthancPluginMemoryBuffer buffer_; public: MemoryBufferRaii() { buffer_.size = 0; buffer_.data = NULL; } ~MemoryBufferRaii() { if (buffer_.size != 0) { free(buffer_.data); } } OrthancPluginMemoryBuffer* GetObject() { return &buffer_; } void ToString(std::string& target) const { if ((buffer_.data == NULL && buffer_.size != 0) || (buffer_.data != NULL && buffer_.size == 0)) { throw OrthancException(ErrorCode_Plugin); } else { target.resize(buffer_.size); if (buffer_.size != 0) { memcpy(&target[0], buffer_.data, buffer_.size); } } } }; class StorageAreaBase : public IStorageArea { private: OrthancPluginStorageCreate create_; OrthancPluginStorageRemove remove_; PluginsErrorDictionary& errorDictionary_; protected: PluginsErrorDictionary& GetErrorDictionary() const { return errorDictionary_; } IMemoryBuffer* RangeFromWhole(const std::string& uuid, FileContentType type, uint64_t start /* inclusive */, uint64_t end /* exclusive */) { if (start > end) { throw OrthancException(ErrorCode_BadRange); } else if (start == end) { return new StringMemoryBuffer; // Empty } else { std::unique_ptr<IMemoryBuffer> whole(Read(uuid, type)); if (start == 0 && end == whole->GetSize()) { return whole.release(); } else if (end > whole->GetSize()) { throw OrthancException(ErrorCode_BadRange); } else { std::string range; range.resize(end - start); assert(!range.empty()); memcpy(&range[0], reinterpret_cast<const char*>(whole->GetData()) + start, range.size()); whole.reset(NULL); return StringMemoryBuffer::CreateFromSwap(range); } } } public: StorageAreaBase(OrthancPluginStorageCreate create, OrthancPluginStorageRemove remove, PluginsErrorDictionary& errorDictionary) : create_(create), remove_(remove), errorDictionary_(errorDictionary) { if (create_ == NULL || remove_ == NULL) { throw OrthancException(ErrorCode_Plugin, "Storage area plugin doesn't implement all the required primitives"); } } virtual void Create(const std::string& uuid, const void* content, size_t size, FileContentType type) ORTHANC_OVERRIDE { OrthancPluginErrorCode error = create_ (uuid.c_str(), content, size, Plugins::Convert(type)); if (error != OrthancPluginErrorCode_Success) { errorDictionary_.LogError(error, true); throw OrthancException(static_cast<ErrorCode>(error)); } } virtual void Remove(const std::string& uuid, FileContentType type) ORTHANC_OVERRIDE { OrthancPluginErrorCode error = remove_ (uuid.c_str(), Plugins::Convert(type)); if (error != OrthancPluginErrorCode_Success) { errorDictionary_.LogError(error, true); throw OrthancException(static_cast<ErrorCode>(error)); } } }; class PluginStorageArea : public StorageAreaBase { private: OrthancPluginStorageRead read_; OrthancPluginFree free_; void Free(void* buffer) const { if (buffer != NULL) { free_(buffer); } } public: PluginStorageArea(const _OrthancPluginRegisterStorageArea& callbacks, PluginsErrorDictionary& errorDictionary) : StorageAreaBase(callbacks.create, callbacks.remove, errorDictionary), read_(callbacks.read), free_(callbacks.free) { if (read_ == NULL) { throw OrthancException(ErrorCode_Plugin, "Storage area plugin doesn't implement the \"Read\" primitive"); } } virtual IMemoryBuffer* Read(const std::string& uuid, FileContentType type) ORTHANC_OVERRIDE { std::unique_ptr<MallocMemoryBuffer> result(new MallocMemoryBuffer); void* buffer = NULL; int64_t size = 0; OrthancPluginErrorCode error = read_ (&buffer, &size, uuid.c_str(), Plugins::Convert(type)); if (error == OrthancPluginErrorCode_Success) { result->Assign(buffer, size, free_); return result.release(); } else { GetErrorDictionary().LogError(error, true); throw OrthancException(static_cast<ErrorCode>(error)); } } virtual IMemoryBuffer* ReadRange(const std::string& uuid, FileContentType type, uint64_t start /* inclusive */, uint64_t end /* exclusive */) ORTHANC_OVERRIDE { return RangeFromWhole(uuid, type, start, end); } virtual bool HasReadRange() const ORTHANC_OVERRIDE { return false; } }; // New in Orthanc 1.9.0 class PluginStorageArea2 : public StorageAreaBase { private: OrthancPluginStorageReadWhole readWhole_; OrthancPluginStorageReadRange readRange_; public: PluginStorageArea2(const _OrthancPluginRegisterStorageArea2& callbacks, PluginsErrorDictionary& errorDictionary) : StorageAreaBase(callbacks.create, callbacks.remove, errorDictionary), readWhole_(callbacks.readWhole), readRange_(callbacks.readRange) { if (readWhole_ == NULL) { throw OrthancException(ErrorCode_Plugin, "Storage area plugin doesn't implement the \"ReadWhole\" primitive"); } } virtual IMemoryBuffer* Read(const std::string& uuid, FileContentType type) ORTHANC_OVERRIDE { std::unique_ptr<MallocMemoryBuffer> result(new MallocMemoryBuffer); OrthancPluginMemoryBuffer64 buffer; OrthancPluginErrorCode error = readWhole_(&buffer, uuid.c_str(), Plugins::Convert(type)); if (error == OrthancPluginErrorCode_Success) { result->Assign(buffer.data, buffer.size, ::free); return result.release(); } else { GetErrorDictionary().LogError(error, true); throw OrthancException(static_cast<ErrorCode>(error)); } } virtual IMemoryBuffer* ReadRange(const std::string& uuid, FileContentType type, uint64_t start /* inclusive */, uint64_t end /* exclusive */) ORTHANC_OVERRIDE { if (readRange_ == NULL) { return RangeFromWhole(uuid, type, start, end); } else { if (start > end) { throw OrthancException(ErrorCode_BadRange); } else if (start == end) { return new StringMemoryBuffer; } else { std::string range; range.resize(end - start); assert(!range.empty()); OrthancPluginMemoryBuffer64 buffer; buffer.data = &range[0]; buffer.size = static_cast<uint64_t>(range.size()); OrthancPluginErrorCode error = readRange_(&buffer, uuid.c_str(), Plugins::Convert(type), start); if (error == OrthancPluginErrorCode_Success) { return StringMemoryBuffer::CreateFromSwap(range); } else { GetErrorDictionary().LogError(error, true); throw OrthancException(static_cast<ErrorCode>(error)); } } } } virtual bool HasReadRange() const ORTHANC_OVERRIDE { return (readRange_ != NULL); } }; class StorageAreaFactory : public boost::noncopyable { private: enum Version { Version1, Version2 }; SharedLibrary& sharedLibrary_; Version version_; _OrthancPluginRegisterStorageArea callbacks_; _OrthancPluginRegisterStorageArea2 callbacks2_; PluginsErrorDictionary& errorDictionary_; static void WarnNoReadRange() { LOG(WARNING) << "Performance warning: The storage area plugin doesn't implement reading of file ranges"; } public: StorageAreaFactory(SharedLibrary& sharedLibrary, const _OrthancPluginRegisterStorageArea& callbacks, PluginsErrorDictionary& errorDictionary) : sharedLibrary_(sharedLibrary), version_(Version1), callbacks_(callbacks), errorDictionary_(errorDictionary) { WarnNoReadRange(); } StorageAreaFactory(SharedLibrary& sharedLibrary, const _OrthancPluginRegisterStorageArea2& callbacks, PluginsErrorDictionary& errorDictionary) : sharedLibrary_(sharedLibrary), version_(Version2), callbacks2_(callbacks), errorDictionary_(errorDictionary) { if (callbacks.readRange == NULL) { WarnNoReadRange(); } } SharedLibrary& GetSharedLibrary() { return sharedLibrary_; } IStorageArea* Create() const { switch (version_) { case Version1: return new PluginStorageArea(callbacks_, errorDictionary_); case Version2: return new PluginStorageArea2(callbacks2_, errorDictionary_); default: throw OrthancException(ErrorCode_InternalError); } } }; class OrthancPeers : public boost::noncopyable { private: std::vector<std::string> names_; std::vector<WebServiceParameters> parameters_; void CheckIndex(size_t i) const { assert(names_.size() == parameters_.size()); if (i >= names_.size()) { throw OrthancException(ErrorCode_ParameterOutOfRange); } } public: OrthancPeers() { OrthancConfiguration::ReaderLock lock; std::set<std::string> peers; lock.GetConfiguration().GetListOfOrthancPeers(peers); names_.reserve(peers.size()); parameters_.reserve(peers.size()); for (std::set<std::string>::const_iterator it = peers.begin(); it != peers.end(); ++it) { WebServiceParameters peer; if (lock.GetConfiguration().LookupOrthancPeer(peer, *it)) { names_.push_back(*it); parameters_.push_back(peer); } } } size_t GetPeersCount() const { return names_.size(); } const std::string& GetPeerName(size_t i) const { CheckIndex(i); return names_[i]; } const WebServiceParameters& GetPeerParameters(size_t i) const { CheckIndex(i); return parameters_[i]; } }; class DicomWebBinaryFormatter : public DicomWebJsonVisitor::IBinaryFormatter { private: OrthancPluginDicomWebBinaryCallback oldCallback_; OrthancPluginDicomWebBinaryCallback2 newCallback_; // New in Orthanc 1.7.0 void* newPayload_; // New in Orthanc 1.7.0 DicomWebJsonVisitor::BinaryMode currentMode_; std::string currentBulkDataUri_; static void Setter(OrthancPluginDicomWebNode* node, OrthancPluginDicomWebBinaryMode mode, const char* bulkDataUri) { DicomWebBinaryFormatter& that = *reinterpret_cast<DicomWebBinaryFormatter*>(node); switch (mode) { case OrthancPluginDicomWebBinaryMode_Ignore: that.currentMode_ = DicomWebJsonVisitor::BinaryMode_Ignore; break; case OrthancPluginDicomWebBinaryMode_InlineBinary: that.currentMode_ = DicomWebJsonVisitor::BinaryMode_InlineBinary; break; case OrthancPluginDicomWebBinaryMode_BulkDataUri: if (bulkDataUri == NULL) { throw OrthancException(ErrorCode_NullPointer); } that.currentBulkDataUri_ = bulkDataUri; that.currentMode_ = DicomWebJsonVisitor::BinaryMode_BulkDataUri; break; default: throw OrthancException(ErrorCode_ParameterOutOfRange); } } public: explicit DicomWebBinaryFormatter(OrthancPluginDicomWebBinaryCallback callback) : oldCallback_(callback), newCallback_(NULL), newPayload_(NULL), currentMode_(DicomWebJsonVisitor::BinaryMode_Ignore) { } DicomWebBinaryFormatter(OrthancPluginDicomWebBinaryCallback2 callback, void* payload) : oldCallback_(NULL), newCallback_(callback), newPayload_(payload), currentMode_(DicomWebJsonVisitor::BinaryMode_Ignore) { } virtual DicomWebJsonVisitor::BinaryMode Format(std::string& bulkDataUri, const std::vector<DicomTag>& parentTags, const std::vector<size_t>& parentIndexes, const DicomTag& tag, ValueRepresentation vr) ORTHANC_OVERRIDE { if (oldCallback_ == NULL && newCallback_ == NULL) { return DicomWebJsonVisitor::BinaryMode_InlineBinary; } else { assert(parentTags.size() == parentIndexes.size()); std::vector<uint16_t> groups(parentTags.size()); std::vector<uint16_t> elements(parentTags.size()); std::vector<uint32_t> indexes(parentTags.size()); for (size_t i = 0; i < parentTags.size(); i++) { groups[i] = parentTags[i].GetGroup(); elements[i] = parentTags[i].GetElement(); indexes[i] = static_cast<uint32_t>(parentIndexes[i]); } bool empty = parentTags.empty(); currentMode_ = DicomWebJsonVisitor::BinaryMode_Ignore; if (oldCallback_ != NULL) { oldCallback_(reinterpret_cast<OrthancPluginDicomWebNode*>(this), DicomWebBinaryFormatter::Setter, static_cast<uint32_t>(parentTags.size()), (empty ? NULL : &groups[0]), (empty ? NULL : &elements[0]), (empty ? NULL : &indexes[0]), tag.GetGroup(), tag.GetElement(), Plugins::Convert(vr)); } else { assert(newCallback_ != NULL); newCallback_(reinterpret_cast<OrthancPluginDicomWebNode*>(this), DicomWebBinaryFormatter::Setter, static_cast<uint32_t>(parentTags.size()), (empty ? NULL : &groups[0]), (empty ? NULL : &elements[0]), (empty ? NULL : &indexes[0]), tag.GetGroup(), tag.GetElement(), Plugins::Convert(vr), newPayload_); } bulkDataUri = currentBulkDataUri_; return currentMode_; } } void Apply(char** target, bool isJson, const ParsedDicomFile& dicom) { DicomWebJsonVisitor visitor; visitor.SetFormatter(*this); dicom.Apply(visitor); std::string s; if (isJson) { s = visitor.GetResult().toStyledString(); } else { visitor.FormatXml(s); } *target = CopyString(s); } void Apply(char** target, bool isJson, const void* dicom, size_t dicomSize) { ParsedDicomFile parsed(dicom, dicomSize); Apply(target, isJson, parsed); } }; } class OrthancPlugins::PImpl { private: boost::mutex contextMutex_; ServerContext* context_; public: class PluginHttpOutput : public boost::noncopyable { private: enum MultipartState { MultipartState_None, MultipartState_FirstPart, MultipartState_SecondPart, MultipartState_NextParts }; HttpOutput& output_; std::unique_ptr<std::string> errorDetails_; bool logDetails_; MultipartState multipartState_; std::string multipartSubType_; std::string multipartContentType_; std::string multipartFirstPart_; std::map<std::string, std::string> multipartFirstHeaders_; public: explicit PluginHttpOutput(HttpOutput& output) : output_(output), logDetails_(false), multipartState_(MultipartState_None) { } HttpOutput& GetOutput() { if (multipartState_ == MultipartState_None) { return output_; } else { // Must use "SendMultipartItem()" on multipart streams throw OrthancException(ErrorCode_BadSequenceOfCalls); } } void SetErrorDetails(const std::string& details, bool logDetails) { errorDetails_.reset(new std::string(details)); logDetails_ = logDetails; } bool HasErrorDetails() const { return errorDetails_.get() != NULL; } bool IsLogDetails() const { return logDetails_; } const std::string& GetErrorDetails() const { if (errorDetails_.get() == NULL) { throw OrthancException(ErrorCode_BadSequenceOfCalls); } else { return *errorDetails_; } } void StartMultipart(const char* subType, const char* contentType) { if (multipartState_ != MultipartState_None) { throw OrthancException(ErrorCode_BadSequenceOfCalls); } else { multipartState_ = MultipartState_FirstPart; multipartSubType_ = subType; multipartContentType_ = contentType; } } void SendMultipartItem(const void* data, size_t size, const std::map<std::string, std::string>& headers) { if (size != 0 && data == NULL) { throw OrthancException(ErrorCode_NullPointer); } switch (multipartState_) { case MultipartState_None: // Must call "StartMultipart()" before throw OrthancException(ErrorCode_BadSequenceOfCalls); case MultipartState_FirstPart: multipartFirstPart_.assign(reinterpret_cast<const char*>(data), size); multipartFirstHeaders_ = headers; multipartState_ = MultipartState_SecondPart; break; case MultipartState_SecondPart: // Start an actual stream for chunked transfer as soon as // there are more than 2 elements in the multipart stream output_.StartMultipart(multipartSubType_, multipartContentType_); output_.SendMultipartItem(multipartFirstPart_.c_str(), multipartFirstPart_.size(), multipartFirstHeaders_); multipartFirstPart_.clear(); // Release memory output_.SendMultipartItem(data, size, headers); multipartState_ = MultipartState_NextParts; break; case MultipartState_NextParts: output_.SendMultipartItem(data, size, headers); break; default: throw OrthancException(ErrorCode_ParameterOutOfRange); } } void Close(OrthancPluginErrorCode error, PluginsErrorDictionary& dictionary) { if (error == OrthancPluginErrorCode_Success) { switch (multipartState_) { case MultipartState_None: assert(!output_.IsWritingMultipart()); break; case MultipartState_FirstPart: // Multipart started, but no part was sent case MultipartState_SecondPart: // Multipart started, first part is pending { assert(!output_.IsWritingMultipart()); std::vector<const void*> parts; std::vector<size_t> sizes; std::vector<const std::map<std::string, std::string>*> headers; if (multipartState_ == MultipartState_SecondPart) { parts.push_back(multipartFirstPart_.c_str()); sizes.push_back(multipartFirstPart_.size()); headers.push_back(&multipartFirstHeaders_); } output_.AnswerMultipartWithoutChunkedTransfer(multipartSubType_, multipartContentType_, parts, sizes, headers); break; } case MultipartState_NextParts: assert(output_.IsWritingMultipart()); output_.CloseMultipart(); default: throw OrthancException(ErrorCode_InternalError); } } else { dictionary.LogError(error, false); if (HasErrorDetails()) { throw OrthancException(static_cast<ErrorCode>(error), GetErrorDetails(), IsLogDetails()); } else { throw OrthancException(static_cast<ErrorCode>(error)); } } } }; class RestCallback : public boost::noncopyable { private: boost::regex regex_; OrthancPluginRestCallback callback_; bool mutualExclusion_; OrthancPluginErrorCode InvokeInternal(PluginHttpOutput& output, const std::string& flatUri, const OrthancPluginHttpRequest& request) { return callback_(reinterpret_cast<OrthancPluginRestOutput*>(&output), flatUri.c_str(), &request); } public: RestCallback(const char* regex, OrthancPluginRestCallback callback, bool mutualExclusion) : regex_(regex), callback_(callback), mutualExclusion_(mutualExclusion) { } const boost::regex& GetRegularExpression() const { return regex_; } OrthancPluginErrorCode Invoke(boost::recursive_mutex& invokationMutex, PluginHttpOutput& output, const std::string& flatUri, const OrthancPluginHttpRequest& request) { if (mutualExclusion_) { boost::recursive_mutex::scoped_lock lock(invokationMutex); return InvokeInternal(output, flatUri, request); } else { return InvokeInternal(output, flatUri, request); } } }; class ChunkedRestCallback : public boost::noncopyable { private: _OrthancPluginChunkedRestCallback parameters_; boost::regex regex_; public: explicit ChunkedRestCallback(const _OrthancPluginChunkedRestCallback& parameters) : parameters_(parameters), regex_(parameters.pathRegularExpression) { } const boost::regex& GetRegularExpression() const { return regex_; } const _OrthancPluginChunkedRestCallback& GetParameters() const { return parameters_; } }; class StorageCommitmentScp : public IStorageCommitmentFactory { private: class Handler : public IStorageCommitmentFactory::ILookupHandler { private: _OrthancPluginRegisterStorageCommitmentScpCallback parameters_; void* handler_; public: Handler(const _OrthancPluginRegisterStorageCommitmentScpCallback& parameters, void* handler) : parameters_(parameters), handler_(handler) { if (handler == NULL) { throw OrthancException(ErrorCode_NullPointer); } } virtual ~Handler() { assert(handler_ != NULL); parameters_.destructor(handler_); handler_ = NULL; } virtual StorageCommitmentFailureReason Lookup( const std::string& sopClassUid, const std::string& sopInstanceUid) ORTHANC_OVERRIDE { assert(handler_ != NULL); OrthancPluginStorageCommitmentFailureReason reason = OrthancPluginStorageCommitmentFailureReason_Success; OrthancPluginErrorCode error = parameters_.lookup( &reason, handler_, sopClassUid.c_str(), sopInstanceUid.c_str()); if (error == OrthancPluginErrorCode_Success) { return Plugins::Convert(reason); } else { throw OrthancException(static_cast<ErrorCode>(error)); } } }; _OrthancPluginRegisterStorageCommitmentScpCallback parameters_; public: explicit StorageCommitmentScp(const _OrthancPluginRegisterStorageCommitmentScpCallback& parameters) : parameters_(parameters) { } virtual ILookupHandler* 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) ORTHANC_OVERRIDE { const size_t n = sopClassUids.size(); if (sopInstanceUids.size() != n) { throw OrthancException(ErrorCode_ParameterOutOfRange); } std::vector<const char*> a, b; a.resize(n); b.resize(n); for (size_t i = 0; i < n; i++) { a[i] = sopClassUids[i].c_str(); b[i] = sopInstanceUids[i].c_str(); } void* handler = NULL; OrthancPluginErrorCode error = parameters_.factory( &handler, jobId.c_str(), transactionUid.c_str(), a.empty() ? NULL : &a[0], b.empty() ? NULL : &b[0], static_cast<uint32_t>(n), remoteAet.c_str(), calledAet.c_str()); if (error != OrthancPluginErrorCode_Success) { throw OrthancException(static_cast<ErrorCode>(error)); } else if (handler == NULL) { // This plugin won't handle this storage commitment request return NULL; } else { return new Handler(parameters_, handler); } } }; class ServerContextLock { private: boost::mutex::scoped_lock lock_; ServerContext* context_; public: explicit ServerContextLock(PImpl& that) : lock_(that.contextMutex_), context_(that.context_) { if (context_ == NULL) { throw OrthancException(ErrorCode_DatabaseNotInitialized); } } ServerContext& GetContext() { assert(context_ != NULL); return *context_; } }; void SetServerContext(ServerContext* context) { boost::mutex::scoped_lock lock(contextMutex_); context_ = context; } typedef std::pair<std::string, _OrthancPluginProperty> Property; typedef std::list<RestCallback*> RestCallbacks; typedef std::list<ChunkedRestCallback*> ChunkedRestCallbacks; typedef std::list<OrthancPluginOnStoredInstanceCallback> OnStoredCallbacks; typedef std::list<OrthancPluginOnChangeCallback> OnChangeCallbacks; typedef std::list<OrthancPluginIncomingHttpRequestFilter> IncomingHttpRequestFilters; typedef std::list<OrthancPluginIncomingHttpRequestFilter2> IncomingHttpRequestFilters2; typedef std::list<OrthancPluginIncomingDicomInstanceFilter> IncomingDicomInstanceFilters; typedef std::list<OrthancPluginDecodeImageCallback> DecodeImageCallbacks; typedef std::list<OrthancPluginTranscoderCallback> TranscoderCallbacks; typedef std::list<OrthancPluginJobsUnserializer> JobsUnserializers; typedef std::list<OrthancPluginRefreshMetricsCallback> RefreshMetricsCallbacks; typedef std::list<StorageCommitmentScp*> StorageCommitmentScpCallbacks; typedef std::map<Property, std::string> Properties; PluginsManager manager_; RestCallbacks restCallbacks_; ChunkedRestCallbacks chunkedRestCallbacks_; OnStoredCallbacks onStoredCallbacks_; OnChangeCallbacks onChangeCallbacks_; OrthancPluginFindCallback findCallback_; OrthancPluginWorklistCallback worklistCallback_; DecodeImageCallbacks decodeImageCallbacks_; TranscoderCallbacks transcoderCallbacks_; JobsUnserializers jobsUnserializers_; _OrthancPluginMoveCallback moveCallbacks_; IncomingHttpRequestFilters incomingHttpRequestFilters_; IncomingHttpRequestFilters2 incomingHttpRequestFilters2_; IncomingDicomInstanceFilters incomingDicomInstanceFilters_; RefreshMetricsCallbacks refreshMetricsCallbacks_; StorageCommitmentScpCallbacks storageCommitmentScpCallbacks_; std::unique_ptr<StorageAreaFactory> storageArea_; std::set<std::string> authorizationTokens_; boost::recursive_mutex restCallbackInvokationMutex_; boost::shared_mutex restCallbackRegistrationMutex_; // New in Orthanc 1.9.0 boost::recursive_mutex storedCallbackMutex_; boost::recursive_mutex changeCallbackMutex_; boost::mutex findCallbackMutex_; boost::mutex worklistCallbackMutex_; boost::shared_mutex decoderTranscoderMutex_; // Changed from "boost::mutex" in Orthanc 1.7.0 boost::mutex jobsUnserializersMutex_; boost::mutex refreshMetricsMutex_; boost::mutex storageCommitmentScpMutex_; boost::recursive_mutex invokeServiceMutex_; boost::shared_mutex incomingHttpRequestFilterMutex_; // New in Orthanc 1.8.2 Properties properties_; int argc_; char** argv_; std::unique_ptr<OrthancPluginDatabase> database_; std::unique_ptr<OrthancPluginDatabaseV3> databaseV3_; // New in Orthanc 1.9.2 PluginsErrorDictionary dictionary_; std::string databaseServerIdentifier_; // New in Orthanc 1.9.2 unsigned int maxDatabaseRetries_; // New in Orthanc 1.9.2 explicit PImpl(const std::string& databaseServerIdentifier) : context_(NULL), findCallback_(NULL), worklistCallback_(NULL), argc_(1), argv_(NULL), databaseServerIdentifier_(databaseServerIdentifier), maxDatabaseRetries_(0) { memset(&moveCallbacks_, 0, sizeof(moveCallbacks_)); } }; class OrthancPlugins::WorklistHandler : public IWorklistRequestHandler { private: OrthancPlugins& that_; std::unique_ptr<HierarchicalMatcher> matcher_; std::unique_ptr<ParsedDicomFile> filtered_; ParsedDicomFile* currentQuery_; void Reset() { matcher_.reset(); filtered_.reset(); currentQuery_ = NULL; } public: explicit WorklistHandler(OrthancPlugins& that) : that_(that) { Reset(); } virtual void Handle(DicomFindAnswers& answers, ParsedDicomFile& query, const std::string& remoteIp, const std::string& remoteAet, const std::string& calledAet, ModalityManufacturer manufacturer) ORTHANC_OVERRIDE { { static const char* LUA_CALLBACK = "IncomingWorklistRequestFilter"; PImpl::ServerContextLock lock(*that_.pimpl_); LuaScripting::Lock lua(lock.GetContext().GetLuaScripting()); if (!lua.GetLua().IsExistingFunction(LUA_CALLBACK)) { currentQuery_ = &query; } else { Json::Value source, origin; query.DatasetToJson(source, DicomToJsonFormat_Short, DicomToJsonFlags_None, 0); OrthancFindRequestHandler::FormatOrigin (origin, remoteIp, remoteAet, calledAet, manufacturer); LuaFunctionCall call(lua.GetLua(), LUA_CALLBACK); call.PushJson(source); call.PushJson(origin); Json::Value target; call.ExecuteToJson(target, true); filtered_.reset(ParsedDicomFile::CreateFromJson(target, DicomFromJsonFlags_None, "" /* no private creator */)); currentQuery_ = filtered_.get(); } } matcher_.reset(new HierarchicalMatcher(*currentQuery_)); { boost::mutex::scoped_lock lock(that_.pimpl_->worklistCallbackMutex_); if (that_.pimpl_->worklistCallback_) { OrthancPluginErrorCode error = that_.pimpl_->worklistCallback_ (reinterpret_cast<OrthancPluginWorklistAnswers*>(&answers), reinterpret_cast<const OrthancPluginWorklistQuery*>(this), remoteAet.c_str(), calledAet.c_str()); if (error != OrthancPluginErrorCode_Success) { Reset(); that_.GetErrorDictionary().LogError(error, true); throw OrthancException(static_cast<ErrorCode>(error)); } } Reset(); } } void GetDicomQuery(OrthancPluginMemoryBuffer& target) const { if (currentQuery_ == NULL) { throw OrthancException(ErrorCode_Plugin); } std::string dicom; currentQuery_->SaveToMemoryBuffer(dicom); CopyToMemoryBuffer(target, dicom.c_str(), dicom.size()); } bool IsMatch(const void* dicom, size_t size) const { if (matcher_.get() == NULL) { throw OrthancException(ErrorCode_Plugin); } ParsedDicomFile f(dicom, size); return matcher_->Match(f); } void AddAnswer(OrthancPluginWorklistAnswers* answers, const void* dicom, size_t size) const { if (matcher_.get() == NULL) { throw OrthancException(ErrorCode_Plugin); } ParsedDicomFile f(dicom, size); std::unique_ptr<ParsedDicomFile> summary(matcher_->Extract(f)); reinterpret_cast<DicomFindAnswers*>(answers)->Add(*summary); } }; class OrthancPlugins::FindHandler : public IFindRequestHandler { private: OrthancPlugins& that_; std::unique_ptr<DicomArray> currentQuery_; void Reset() { currentQuery_.reset(NULL); } public: explicit FindHandler(OrthancPlugins& that) : that_(that) { Reset(); } virtual void Handle(DicomFindAnswers& answers, const DicomMap& input, const std::list<DicomTag>& sequencesToReturn, const std::string& remoteIp, const std::string& remoteAet, const std::string& calledAet, ModalityManufacturer manufacturer) ORTHANC_OVERRIDE { DicomMap tmp; tmp.Assign(input); for (std::list<DicomTag>::const_iterator it = sequencesToReturn.begin(); it != sequencesToReturn.end(); ++it) { if (!input.HasTag(*it)) { tmp.SetValue(*it, "", false); } } { boost::mutex::scoped_lock lock(that_.pimpl_->findCallbackMutex_); currentQuery_.reset(new DicomArray(tmp)); if (that_.pimpl_->findCallback_) { OrthancPluginErrorCode error = that_.pimpl_->findCallback_ (reinterpret_cast<OrthancPluginFindAnswers*>(&answers), reinterpret_cast<const OrthancPluginFindQuery*>(this), remoteAet.c_str(), calledAet.c_str()); if (error != OrthancPluginErrorCode_Success) { Reset(); that_.GetErrorDictionary().LogError(error, true); throw OrthancException(static_cast<ErrorCode>(error)); } } Reset(); } } void Invoke(_OrthancPluginService service, const _OrthancPluginFindOperation& operation) const { if (currentQuery_.get() == NULL) { throw OrthancException(ErrorCode_Plugin); } switch (service) { case _OrthancPluginService_GetFindQuerySize: *operation.resultUint32 = currentQuery_->GetSize(); break; case _OrthancPluginService_GetFindQueryTag: { const DicomTag& tag = currentQuery_->GetElement(operation.index).GetTag(); *operation.resultGroup = tag.GetGroup(); *operation.resultElement = tag.GetElement(); break; } case _OrthancPluginService_GetFindQueryTagName: { const DicomElement& element = currentQuery_->GetElement(operation.index); *operation.resultString = CopyString(FromDcmtkBridge::GetTagName(element)); break; } case _OrthancPluginService_GetFindQueryValue: { *operation.resultString = CopyString(currentQuery_->GetElement(operation.index).GetValue().GetContent()); break; } default: throw OrthancException(ErrorCode_InternalError); } } }; class OrthancPlugins::MoveHandler : public IMoveRequestHandler { private: class Driver : public IMoveRequestIterator { private: void* driver_; unsigned int count_; unsigned int pos_; OrthancPluginApplyMove apply_; OrthancPluginFreeMove free_; public: Driver(void* driver, unsigned int count, OrthancPluginApplyMove apply, OrthancPluginFreeMove free) : driver_(driver), count_(count), pos_(0), apply_(apply), free_(free) { if (driver_ == NULL) { throw OrthancException(ErrorCode_Plugin); } } virtual ~Driver() { if (driver_ != NULL) { free_(driver_); driver_ = NULL; } } virtual unsigned int GetSubOperationCount() const ORTHANC_OVERRIDE { return count_; } virtual Status DoNext() ORTHANC_OVERRIDE { if (pos_ >= count_) { throw OrthancException(ErrorCode_BadSequenceOfCalls); } else { OrthancPluginErrorCode error = apply_(driver_); if (error != OrthancPluginErrorCode_Success) { LOG(ERROR) << "Error while doing C-Move from plugin: " << EnumerationToString(static_cast<ErrorCode>(error)); return Status_Failure; } else { pos_++; return Status_Success; } } } }; _OrthancPluginMoveCallback params_; static std::string ReadTag(const DicomMap& input, const DicomTag& tag) { const DicomValue* value = input.TestAndGetValue(tag); if (value != NULL && !value->IsBinary() && !value->IsNull()) { return value->GetContent(); } else { return std::string(); } } public: explicit MoveHandler(OrthancPlugins& that) { boost::recursive_mutex::scoped_lock lock(that.pimpl_->invokeServiceMutex_); params_ = that.pimpl_->moveCallbacks_; if (params_.callback == NULL || params_.getMoveSize == NULL || params_.applyMove == NULL || params_.freeMove == NULL) { throw OrthancException(ErrorCode_Plugin); } } virtual IMoveRequestIterator* Handle(const std::string& targetAet, const DicomMap& input, const std::string& originatorIp, const std::string& originatorAet, const std::string& calledAet, uint16_t originatorId) ORTHANC_OVERRIDE { std::string levelString = ReadTag(input, DICOM_TAG_QUERY_RETRIEVE_LEVEL); std::string patientId = ReadTag(input, DICOM_TAG_PATIENT_ID); std::string accessionNumber = ReadTag(input, DICOM_TAG_ACCESSION_NUMBER); std::string studyInstanceUid = ReadTag(input, DICOM_TAG_STUDY_INSTANCE_UID); std::string seriesInstanceUid = ReadTag(input, DICOM_TAG_SERIES_INSTANCE_UID); std::string sopInstanceUid = ReadTag(input, DICOM_TAG_SOP_INSTANCE_UID); OrthancPluginResourceType level = OrthancPluginResourceType_None; if (!levelString.empty()) { level = Plugins::Convert(StringToResourceType(levelString.c_str())); } void* driver = params_.callback(level, patientId.empty() ? NULL : patientId.c_str(), accessionNumber.empty() ? NULL : accessionNumber.c_str(), studyInstanceUid.empty() ? NULL : studyInstanceUid.c_str(), seriesInstanceUid.empty() ? NULL : seriesInstanceUid.c_str(), sopInstanceUid.empty() ? NULL : sopInstanceUid.c_str(), originatorAet.c_str(), calledAet.c_str(), targetAet.c_str(), originatorId); if (driver == NULL) { throw OrthancException(ErrorCode_Plugin, "Plugin cannot create a driver for an incoming C-MOVE request"); } unsigned int size = params_.getMoveSize(driver); return new Driver(driver, size, params_.applyMove, params_.freeMove); } }; class OrthancPlugins::HttpClientChunkedRequest : public HttpClient::IRequestBody { private: const _OrthancPluginChunkedHttpClient& params_; PluginsErrorDictionary& errorDictionary_; public: HttpClientChunkedRequest(const _OrthancPluginChunkedHttpClient& params, PluginsErrorDictionary& errorDictionary) : params_(params), errorDictionary_(errorDictionary) { } virtual bool ReadNextChunk(std::string& chunk) ORTHANC_OVERRIDE { if (params_.requestIsDone(params_.request)) { return false; } else { size_t size = params_.requestChunkSize(params_.request); chunk.resize(size); if (size != 0) { const void* data = params_.requestChunkData(params_.request); memcpy(&chunk[0], data, size); } OrthancPluginErrorCode error = params_.requestNext(params_.request); if (error != OrthancPluginErrorCode_Success) { errorDictionary_.LogError(error, true); throw OrthancException(static_cast<ErrorCode>(error)); } else { return true; } } } }; class OrthancPlugins::HttpClientChunkedAnswer : public HttpClient::IAnswer { private: const _OrthancPluginChunkedHttpClient& params_; PluginsErrorDictionary& errorDictionary_; public: HttpClientChunkedAnswer(const _OrthancPluginChunkedHttpClient& params, PluginsErrorDictionary& errorDictionary) : params_(params), errorDictionary_(errorDictionary) { } virtual void AddHeader(const std::string& key, const std::string& value) ORTHANC_OVERRIDE { OrthancPluginErrorCode error = params_.answerAddHeader(params_.answer, key.c_str(), value.c_str()); if (error != OrthancPluginErrorCode_Success) { errorDictionary_.LogError(error, true); throw OrthancException(static_cast<ErrorCode>(error)); } } virtual void AddChunk(const void* data, size_t size) ORTHANC_OVERRIDE { OrthancPluginErrorCode error = params_.answerAddChunk(params_.answer, data, size); if (error != OrthancPluginErrorCode_Success) { errorDictionary_.LogError(error, true); throw OrthancException(static_cast<ErrorCode>(error)); } } }; OrthancPlugins::OrthancPlugins(const std::string& databaseServerIdentifier) { /* Sanity check of the compiler */ if (sizeof(int32_t) != sizeof(OrthancPluginErrorCode) || sizeof(int32_t) != sizeof(OrthancPluginHttpMethod) || sizeof(int32_t) != sizeof(_OrthancPluginService) || sizeof(int32_t) != sizeof(_OrthancPluginProperty) || sizeof(int32_t) != sizeof(OrthancPluginPixelFormat) || sizeof(int32_t) != sizeof(OrthancPluginContentType) || sizeof(int32_t) != sizeof(OrthancPluginResourceType) || sizeof(int32_t) != sizeof(OrthancPluginChangeType) || sizeof(int32_t) != sizeof(OrthancPluginImageFormat) || sizeof(int32_t) != sizeof(OrthancPluginCompressionType) || sizeof(int32_t) != sizeof(OrthancPluginValueRepresentation) || sizeof(int32_t) != sizeof(OrthancPluginDicomToJsonFlags) || sizeof(int32_t) != sizeof(OrthancPluginDicomToJsonFormat) || sizeof(int32_t) != sizeof(OrthancPluginCreateDicomFlags) || sizeof(int32_t) != sizeof(_OrthancPluginDatabaseAnswerType) || sizeof(int32_t) != sizeof(OrthancPluginIdentifierConstraint) || sizeof(int32_t) != sizeof(OrthancPluginInstanceOrigin) || sizeof(int32_t) != sizeof(OrthancPluginJobStepStatus) || sizeof(int32_t) != sizeof(OrthancPluginConstraintType) || sizeof(int32_t) != sizeof(OrthancPluginMetricsType) || sizeof(int32_t) != sizeof(OrthancPluginDicomWebBinaryMode) || sizeof(int32_t) != sizeof(OrthancPluginStorageCommitmentFailureReason) || static_cast<int>(OrthancPluginDicomToJsonFlags_IncludeBinary) != static_cast<int>(DicomToJsonFlags_IncludeBinary) || static_cast<int>(OrthancPluginDicomToJsonFlags_IncludePrivateTags) != static_cast<int>(DicomToJsonFlags_IncludePrivateTags) || static_cast<int>(OrthancPluginDicomToJsonFlags_IncludeUnknownTags) != static_cast<int>(DicomToJsonFlags_IncludeUnknownTags) || static_cast<int>(OrthancPluginDicomToJsonFlags_IncludePixelData) != static_cast<int>(DicomToJsonFlags_IncludePixelData) || static_cast<int>(OrthancPluginDicomToJsonFlags_ConvertBinaryToNull) != static_cast<int>(DicomToJsonFlags_ConvertBinaryToNull) || static_cast<int>(OrthancPluginDicomToJsonFlags_ConvertBinaryToAscii) != static_cast<int>(DicomToJsonFlags_ConvertBinaryToAscii) || static_cast<int>(OrthancPluginDicomToJsonFlags_StopAfterPixelData) != static_cast<int>(DicomToJsonFlags_StopAfterPixelData) || static_cast<int>(OrthancPluginDicomToJsonFlags_SkipGroupLengths) != static_cast<int>(DicomToJsonFlags_SkipGroupLengths) || static_cast<int>(OrthancPluginCreateDicomFlags_DecodeDataUriScheme) != static_cast<int>(DicomFromJsonFlags_DecodeDataUriScheme) || static_cast<int>(OrthancPluginCreateDicomFlags_GenerateIdentifiers) != static_cast<int>(DicomFromJsonFlags_GenerateIdentifiers)) { throw OrthancException(ErrorCode_Plugin); } pimpl_.reset(new PImpl(databaseServerIdentifier)); pimpl_->manager_.RegisterServiceProvider(*this); } void OrthancPlugins::SetServerContext(ServerContext& context) { pimpl_->SetServerContext(&context); } void OrthancPlugins::ResetServerContext() { pimpl_->SetServerContext(NULL); } OrthancPlugins::~OrthancPlugins() { for (PImpl::RestCallbacks::iterator it = pimpl_->restCallbacks_.begin(); it != pimpl_->restCallbacks_.end(); ++it) { delete *it; } for (PImpl::ChunkedRestCallbacks::iterator it = pimpl_->chunkedRestCallbacks_.begin(); it != pimpl_->chunkedRestCallbacks_.end(); ++it) { delete *it; } for (PImpl::StorageCommitmentScpCallbacks::iterator it = pimpl_->storageCommitmentScpCallbacks_.begin(); it != pimpl_->storageCommitmentScpCallbacks_.end(); ++it) { delete *it; } } static void ArgumentsToPlugin(std::vector<const char*>& keys, std::vector<const char*>& values, const HttpToolbox::Arguments& arguments) { keys.resize(arguments.size()); values.resize(arguments.size()); size_t pos = 0; for (HttpToolbox::Arguments::const_iterator it = arguments.begin(); it != arguments.end(); ++it) { keys[pos] = it->first.c_str(); values[pos] = it->second.c_str(); pos++; } } static void ArgumentsToPlugin(std::vector<const char*>& keys, std::vector<const char*>& values, const HttpToolbox::GetArguments& arguments) { keys.resize(arguments.size()); values.resize(arguments.size()); for (size_t i = 0; i < arguments.size(); i++) { keys[i] = arguments[i].first.c_str(); values[i] = arguments[i].second.c_str(); } } namespace { class RestCallbackMatcher : public boost::noncopyable { private: std::string flatUri_; std::vector<std::string> groups_; std::vector<const char*> cgroups_; public: explicit RestCallbackMatcher(const UriComponents& uri) : flatUri_(Toolbox::FlattenUri(uri)) { } bool IsMatch(const boost::regex& re) { // Check whether the regular expression associated to this // callback matches the URI boost::cmatch what; if (boost::regex_match(flatUri_.c_str(), what, re)) { // Extract the value of the free parameters of the regular expression if (what.size() > 1) { groups_.resize(what.size() - 1); cgroups_.resize(what.size() - 1); for (size_t i = 1; i < what.size(); i++) { groups_[i - 1] = what[i]; cgroups_[i - 1] = groups_[i - 1].c_str(); } } return true; } else { // Not a match return false; } } uint32_t GetGroupsCount() const { return cgroups_.size(); } const char* const* GetGroups() const { return cgroups_.empty() ? NULL : &cgroups_[0]; } const std::string& GetFlatUri() const { return flatUri_; } }; // WARNING - The lifetime of this internal object must be smaller // than "matcher", "headers" and "getArguments" objects class HttpRequestConverter { private: std::vector<const char*> getKeys_; std::vector<const char*> getValues_; std::vector<const char*> headersKeys_; std::vector<const char*> headersValues_; OrthancPluginHttpRequest converted_; public: HttpRequestConverter(const RestCallbackMatcher& matcher, HttpMethod method, const HttpToolbox::Arguments& headers) { memset(&converted_, 0, sizeof(OrthancPluginHttpRequest)); ArgumentsToPlugin(headersKeys_, headersValues_, headers); assert(headersKeys_.size() == headersValues_.size()); switch (method) { case HttpMethod_Get: converted_.method = OrthancPluginHttpMethod_Get; break; case HttpMethod_Post: converted_.method = OrthancPluginHttpMethod_Post; break; case HttpMethod_Delete: converted_.method = OrthancPluginHttpMethod_Delete; break; case HttpMethod_Put: converted_.method = OrthancPluginHttpMethod_Put; break; default: throw OrthancException(ErrorCode_InternalError); } converted_.groups = matcher.GetGroups(); converted_.groupsCount = matcher.GetGroupsCount(); converted_.getCount = 0; converted_.getKeys = NULL; converted_.getValues = NULL; converted_.body = NULL; converted_.bodySize = 0; converted_.headersCount = headers.size(); if (headers.size() > 0) { converted_.headersKeys = &headersKeys_[0]; converted_.headersValues = &headersValues_[0]; } } void SetGetArguments(const HttpToolbox::GetArguments& getArguments) { ArgumentsToPlugin(getKeys_, getValues_, getArguments); assert(getKeys_.size() == getValues_.size()); converted_.getCount = getArguments.size(); if (getArguments.size() > 0) { converted_.getKeys = &getKeys_[0]; converted_.getValues = &getValues_[0]; } } OrthancPluginHttpRequest& GetRequest() { return converted_; } }; } static std::string GetAllowedMethods(_OrthancPluginChunkedRestCallback parameters) { std::string s; if (parameters.getHandler != NULL) { s += "GET"; } if (parameters.postHandler != NULL) { if (!s.empty()) { s+= ","; } s += "POST"; } if (parameters.deleteHandler != NULL) { if (!s.empty()) { s+= ","; } s += "DELETE"; } if (parameters.putHandler != NULL) { if (!s.empty()) { s+= ","; } s += "PUT"; } return s; } bool OrthancPlugins::HandleChunkedGetDelete(HttpOutput& output, HttpMethod method, const UriComponents& uri, const HttpToolbox::Arguments& headers, const HttpToolbox::GetArguments& getArguments) { RestCallbackMatcher matcher(uri); PImpl::ChunkedRestCallback* callback = NULL; // Loop over the callbacks registered by the plugins boost::shared_lock<boost::shared_mutex> lock(pimpl_->restCallbackRegistrationMutex_); for (PImpl::ChunkedRestCallbacks::const_iterator it = pimpl_->chunkedRestCallbacks_.begin(); it != pimpl_->chunkedRestCallbacks_.end(); ++it) { if (matcher.IsMatch((*it)->GetRegularExpression())) { callback = *it; break; } } if (callback == NULL) { return false; } else { CLOG(INFO, PLUGINS) << "Delegating HTTP request to plugin for URI: " << matcher.GetFlatUri(); OrthancPluginRestCallback handler; switch (method) { case HttpMethod_Get: handler = callback->GetParameters().getHandler; break; case HttpMethod_Delete: handler = callback->GetParameters().deleteHandler; break; default: handler = NULL; break; } if (handler == NULL) { output.SendMethodNotAllowed(GetAllowedMethods(callback->GetParameters())); } else { HttpRequestConverter converter(matcher, method, headers); converter.SetGetArguments(getArguments); PImpl::PluginHttpOutput pluginOutput(output); OrthancPluginErrorCode error = handler( reinterpret_cast<OrthancPluginRestOutput*>(&pluginOutput), matcher.GetFlatUri().c_str(), &converter.GetRequest()); pluginOutput.Close(error, GetErrorDictionary()); } return true; } } bool OrthancPlugins::Handle(HttpOutput& output, RequestOrigin /*origin*/, const char* /*remoteIp*/, const char* /*username*/, HttpMethod method, const UriComponents& uri, const HttpToolbox::Arguments& headers, const HttpToolbox::GetArguments& getArguments, const void* bodyData, size_t bodySize) { RestCallbackMatcher matcher(uri); PImpl::RestCallback* callback = NULL; // Loop over the callbacks registered by the plugins boost::shared_lock<boost::shared_mutex> lock(pimpl_->restCallbackRegistrationMutex_); for (PImpl::RestCallbacks::const_iterator it = pimpl_->restCallbacks_.begin(); it != pimpl_->restCallbacks_.end(); ++it) { if (matcher.IsMatch((*it)->GetRegularExpression())) { callback = *it; break; } } if (callback == NULL) { // Callback not found, try to find a chunked callback return HandleChunkedGetDelete(output, method, uri, headers, getArguments); } CLOG(INFO, PLUGINS) << "Delegating HTTP request to plugin for URI: " << matcher.GetFlatUri(); HttpRequestConverter converter(matcher, method, headers); converter.SetGetArguments(getArguments); converter.GetRequest().body = bodyData; converter.GetRequest().bodySize = bodySize; PImpl::PluginHttpOutput pluginOutput(output); assert(callback != NULL); OrthancPluginErrorCode error = callback->Invoke (pimpl_->restCallbackInvokationMutex_, pluginOutput, matcher.GetFlatUri(), converter.GetRequest()); pluginOutput.Close(error, GetErrorDictionary()); return true; } class OrthancPlugins::IDicomInstance : public boost::noncopyable { public: virtual ~IDicomInstance() { } virtual bool CanBeFreed() const = 0; virtual const DicomInstanceToStore& GetInstance() const = 0; }; class OrthancPlugins::DicomInstanceFromCallback : public IDicomInstance { private: const DicomInstanceToStore& instance_; public: explicit DicomInstanceFromCallback(const DicomInstanceToStore& instance) : instance_(instance) { } virtual bool CanBeFreed() const ORTHANC_OVERRIDE { return false; } virtual const DicomInstanceToStore& GetInstance() const ORTHANC_OVERRIDE { return instance_; }; }; class OrthancPlugins::DicomInstanceFromBuffer : public IDicomInstance { private: std::string buffer_; std::unique_ptr<DicomInstanceToStore> instance_; public: DicomInstanceFromBuffer(const void* buffer, size_t size) { buffer_.assign(reinterpret_cast<const char*>(buffer), size); instance_.reset(DicomInstanceToStore::CreateFromBuffer(buffer_)); instance_->SetOrigin(DicomInstanceOrigin::FromPlugins()); } virtual bool CanBeFreed() const ORTHANC_OVERRIDE { return true; } virtual const DicomInstanceToStore& GetInstance() const ORTHANC_OVERRIDE { return *instance_; }; }; class OrthancPlugins::DicomInstanceFromTranscoded : public IDicomInstance { private: std::unique_ptr<ParsedDicomFile> parsed_; std::unique_ptr<DicomInstanceToStore> instance_; public: explicit DicomInstanceFromTranscoded(IDicomTranscoder::DicomImage& transcoded) : parsed_(transcoded.ReleaseAsParsedDicomFile()) { if (parsed_.get() == NULL) { throw OrthancException(ErrorCode_InternalError); } instance_.reset(DicomInstanceToStore::CreateFromParsedDicomFile(*parsed_)); instance_->SetOrigin(DicomInstanceOrigin::FromPlugins()); } virtual bool CanBeFreed() const ORTHANC_OVERRIDE { return true; } virtual const DicomInstanceToStore& GetInstance() const ORTHANC_OVERRIDE { return *instance_; }; }; void OrthancPlugins::SignalStoredInstance(const std::string& instanceId, const DicomInstanceToStore& instance, const Json::Value& simplifiedTags) { DicomInstanceFromCallback wrapped(instance); boost::recursive_mutex::scoped_lock lock(pimpl_->storedCallbackMutex_); for (PImpl::OnStoredCallbacks::const_iterator callback = pimpl_->onStoredCallbacks_.begin(); callback != pimpl_->onStoredCallbacks_.end(); ++callback) { OrthancPluginErrorCode error = (*callback) ( reinterpret_cast<OrthancPluginDicomInstance*>(&wrapped), instanceId.c_str()); if (error != OrthancPluginErrorCode_Success) { GetErrorDictionary().LogError(error, true); throw OrthancException(static_cast<ErrorCode>(error)); } } } bool OrthancPlugins::FilterIncomingInstance(const DicomInstanceToStore& instance, const Json::Value& simplified) { DicomInstanceFromCallback wrapped(instance); boost::recursive_mutex::scoped_lock lock(pimpl_->invokeServiceMutex_); for (PImpl::IncomingDicomInstanceFilters::const_iterator filter = pimpl_->incomingDicomInstanceFilters_.begin(); filter != pimpl_->incomingDicomInstanceFilters_.end(); ++filter) { int32_t allowed = (*filter) (reinterpret_cast<const OrthancPluginDicomInstance*>(&wrapped)); if (allowed == 0) { return false; } else if (allowed != 1) { // The callback is only allowed to answer 0 or 1 throw OrthancException(ErrorCode_Plugin); } } return true; } void OrthancPlugins::SignalChangeInternal(OrthancPluginChangeType changeType, OrthancPluginResourceType resourceType, const char* resource) { boost::recursive_mutex::scoped_lock lock(pimpl_->changeCallbackMutex_); for (std::list<OrthancPluginOnChangeCallback>::const_iterator callback = pimpl_->onChangeCallbacks_.begin(); callback != pimpl_->onChangeCallbacks_.end(); ++callback) { OrthancPluginErrorCode error = (*callback) (changeType, resourceType, resource); if (error != OrthancPluginErrorCode_Success) { GetErrorDictionary().LogError(error, true); throw OrthancException(static_cast<ErrorCode>(error)); } } } void OrthancPlugins::SignalChange(const ServerIndexChange& change) { SignalChangeInternal(Plugins::Convert(change.GetChangeType()), Plugins::Convert(change.GetResourceType()), change.GetPublicId().c_str()); } void OrthancPlugins::RegisterRestCallback(const void* parameters, bool mutualExclusion) { const _OrthancPluginRestCallback& p = *reinterpret_cast<const _OrthancPluginRestCallback*>(parameters); CLOG(INFO, PLUGINS) << "Plugin has registered a REST callback " << (mutualExclusion ? "with" : "without") << " mutual exclusion on: " << p.pathRegularExpression; { boost::unique_lock<boost::shared_mutex> lock(pimpl_->restCallbackRegistrationMutex_); pimpl_->restCallbacks_.push_back(new PImpl::RestCallback(p.pathRegularExpression, p.callback, mutualExclusion)); } } void OrthancPlugins::RegisterChunkedRestCallback(const void* parameters) { const _OrthancPluginChunkedRestCallback& p = *reinterpret_cast<const _OrthancPluginChunkedRestCallback*>(parameters); CLOG(INFO, PLUGINS) << "Plugin has registered a REST callback for chunked streams on: " << p.pathRegularExpression; { boost::unique_lock<boost::shared_mutex> lock(pimpl_->restCallbackRegistrationMutex_); pimpl_->chunkedRestCallbacks_.push_back(new PImpl::ChunkedRestCallback(p)); } } void OrthancPlugins::RegisterOnStoredInstanceCallback(const void* parameters) { const _OrthancPluginOnStoredInstanceCallback& p = *reinterpret_cast<const _OrthancPluginOnStoredInstanceCallback*>(parameters); CLOG(INFO, PLUGINS) << "Plugin has registered an OnStoredInstance callback"; pimpl_->onStoredCallbacks_.push_back(p.callback); } void OrthancPlugins::RegisterOnChangeCallback(const void* parameters) { const _OrthancPluginOnChangeCallback& p = *reinterpret_cast<const _OrthancPluginOnChangeCallback*>(parameters); CLOG(INFO, PLUGINS) << "Plugin has registered an OnChange callback"; pimpl_->onChangeCallbacks_.push_back(p.callback); } void OrthancPlugins::RegisterWorklistCallback(const void* parameters) { const _OrthancPluginWorklistCallback& p = *reinterpret_cast<const _OrthancPluginWorklistCallback*>(parameters); boost::mutex::scoped_lock lock(pimpl_->worklistCallbackMutex_); if (pimpl_->worklistCallback_ != NULL) { throw OrthancException(ErrorCode_Plugin, "Can only register one plugin to handle modality worklists"); } else { CLOG(INFO, PLUGINS) << "Plugin has registered a callback to handle modality worklists"; pimpl_->worklistCallback_ = p.callback; } } void OrthancPlugins::RegisterFindCallback(const void* parameters) { const _OrthancPluginFindCallback& p = *reinterpret_cast<const _OrthancPluginFindCallback*>(parameters); boost::mutex::scoped_lock lock(pimpl_->findCallbackMutex_); if (pimpl_->findCallback_ != NULL) { throw OrthancException(ErrorCode_Plugin, "Can only register one plugin to handle C-FIND requests"); } else { CLOG(INFO, PLUGINS) << "Plugin has registered a callback to handle C-FIND requests"; pimpl_->findCallback_ = p.callback; } } void OrthancPlugins::RegisterMoveCallback(const void* parameters) { // invokeServiceMutex_ is assumed to be locked const _OrthancPluginMoveCallback& p = *reinterpret_cast<const _OrthancPluginMoveCallback*>(parameters); if (pimpl_->moveCallbacks_.callback != NULL) { throw OrthancException(ErrorCode_Plugin, "Can only register one plugin to handle C-MOVE requests"); } else { CLOG(INFO, PLUGINS) << "Plugin has registered a callback to handle C-MOVE requests"; pimpl_->moveCallbacks_ = p; } } void OrthancPlugins::RegisterDecodeImageCallback(const void* parameters) { const _OrthancPluginDecodeImageCallback& p = *reinterpret_cast<const _OrthancPluginDecodeImageCallback*>(parameters); boost::unique_lock<boost::shared_mutex> lock(pimpl_->decoderTranscoderMutex_); pimpl_->decodeImageCallbacks_.push_back(p.callback); CLOG(INFO, PLUGINS) << "Plugin has registered a callback to decode DICOM images (" << pimpl_->decodeImageCallbacks_.size() << " decoder(s) now active)"; } void OrthancPlugins::RegisterTranscoderCallback(const void* parameters) { const _OrthancPluginTranscoderCallback& p = *reinterpret_cast<const _OrthancPluginTranscoderCallback*>(parameters); boost::unique_lock<boost::shared_mutex> lock(pimpl_->decoderTranscoderMutex_); pimpl_->transcoderCallbacks_.push_back(p.callback); CLOG(INFO, PLUGINS) << "Plugin has registered a callback to transcode DICOM images (" << pimpl_->transcoderCallbacks_.size() << " transcoder(s) now active)"; } void OrthancPlugins::RegisterJobsUnserializer(const void* parameters) { const _OrthancPluginJobsUnserializer& p = *reinterpret_cast<const _OrthancPluginJobsUnserializer*>(parameters); boost::mutex::scoped_lock lock(pimpl_->jobsUnserializersMutex_); pimpl_->jobsUnserializers_.push_back(p.unserializer); CLOG(INFO, PLUGINS) << "Plugin has registered a callback to unserialize jobs (" << pimpl_->jobsUnserializers_.size() << " unserializer(s) now active)"; } void OrthancPlugins::RegisterIncomingHttpRequestFilter(const void* parameters) { const _OrthancPluginIncomingHttpRequestFilter& p = *reinterpret_cast<const _OrthancPluginIncomingHttpRequestFilter*>(parameters); boost::unique_lock<boost::shared_mutex> lock(pimpl_->incomingHttpRequestFilterMutex_); CLOG(INFO, PLUGINS) << "Plugin has registered a callback to filter incoming HTTP requests"; pimpl_->incomingHttpRequestFilters_.push_back(p.callback); } void OrthancPlugins::RegisterIncomingHttpRequestFilter2(const void* parameters) { const _OrthancPluginIncomingHttpRequestFilter2& p = *reinterpret_cast<const _OrthancPluginIncomingHttpRequestFilter2*>(parameters); boost::unique_lock<boost::shared_mutex> lock(pimpl_->incomingHttpRequestFilterMutex_); CLOG(INFO, PLUGINS) << "Plugin has registered a callback to filter incoming HTTP requests"; pimpl_->incomingHttpRequestFilters2_.push_back(p.callback); } void OrthancPlugins::RegisterIncomingDicomInstanceFilter(const void* parameters) { const _OrthancPluginIncomingDicomInstanceFilter& p = *reinterpret_cast<const _OrthancPluginIncomingDicomInstanceFilter*>(parameters); CLOG(INFO, PLUGINS) << "Plugin has registered a callback to filter incoming DICOM instances"; pimpl_->incomingDicomInstanceFilters_.push_back(p.callback); } void OrthancPlugins::RegisterRefreshMetricsCallback(const void* parameters) { const _OrthancPluginRegisterRefreshMetricsCallback& p = *reinterpret_cast<const _OrthancPluginRegisterRefreshMetricsCallback*>(parameters); boost::mutex::scoped_lock lock(pimpl_->refreshMetricsMutex_); CLOG(INFO, PLUGINS) << "Plugin has registered a callback to refresh its metrics"; pimpl_->refreshMetricsCallbacks_.push_back(p.callback); } void OrthancPlugins::RegisterStorageCommitmentScpCallback(const void* parameters) { const _OrthancPluginRegisterStorageCommitmentScpCallback& p = *reinterpret_cast<const _OrthancPluginRegisterStorageCommitmentScpCallback*>(parameters); boost::mutex::scoped_lock lock(pimpl_->storageCommitmentScpMutex_); CLOG(INFO, PLUGINS) << "Plugin has registered a storage commitment callback"; pimpl_->storageCommitmentScpCallbacks_.push_back(new PImpl::StorageCommitmentScp(p)); } void OrthancPlugins::AnswerBuffer(const void* parameters) { const _OrthancPluginAnswerBuffer& p = *reinterpret_cast<const _OrthancPluginAnswerBuffer*>(parameters); HttpOutput& translatedOutput = reinterpret_cast<PImpl::PluginHttpOutput*>(p.output)->GetOutput(); translatedOutput.SetContentType(p.mimeType); translatedOutput.Answer(p.answer, p.answerSize); } void OrthancPlugins::Redirect(const void* parameters) { const _OrthancPluginOutputPlusArgument& p = *reinterpret_cast<const _OrthancPluginOutputPlusArgument*>(parameters); HttpOutput& translatedOutput = reinterpret_cast<PImpl::PluginHttpOutput*>(p.output)->GetOutput(); translatedOutput.Redirect(p.argument); } void OrthancPlugins::SendHttpStatusCode(const void* parameters) { const _OrthancPluginSendHttpStatusCode& p = *reinterpret_cast<const _OrthancPluginSendHttpStatusCode*>(parameters); HttpOutput& translatedOutput = reinterpret_cast<PImpl::PluginHttpOutput*>(p.output)->GetOutput(); translatedOutput.SendStatus(static_cast<HttpStatus>(p.status)); } void OrthancPlugins::SendHttpStatus(const void* parameters) { const _OrthancPluginSendHttpStatus& p = *reinterpret_cast<const _OrthancPluginSendHttpStatus*>(parameters); HttpOutput& translatedOutput = reinterpret_cast<PImpl::PluginHttpOutput*>(p.output)->GetOutput(); HttpStatus status = static_cast<HttpStatus>(p.status); if (p.bodySize > 0 && p.body != NULL) { translatedOutput.SendStatus(status, p.body, p.bodySize); } else { translatedOutput.SendStatus(status); } } void OrthancPlugins::SendUnauthorized(const void* parameters) { const _OrthancPluginOutputPlusArgument& p = *reinterpret_cast<const _OrthancPluginOutputPlusArgument*>(parameters); HttpOutput& translatedOutput = reinterpret_cast<PImpl::PluginHttpOutput*>(p.output)->GetOutput(); translatedOutput.SendUnauthorized(p.argument); } void OrthancPlugins::SendMethodNotAllowed(const void* parameters) { const _OrthancPluginOutputPlusArgument& p = *reinterpret_cast<const _OrthancPluginOutputPlusArgument*>(parameters); HttpOutput& translatedOutput = reinterpret_cast<PImpl::PluginHttpOutput*>(p.output)->GetOutput(); translatedOutput.SendMethodNotAllowed(p.argument); } void OrthancPlugins::SetCookie(const void* parameters) { const _OrthancPluginSetHttpHeader& p = *reinterpret_cast<const _OrthancPluginSetHttpHeader*>(parameters); HttpOutput& translatedOutput = reinterpret_cast<PImpl::PluginHttpOutput*>(p.output)->GetOutput(); translatedOutput.SetCookie(p.key, p.value); } void OrthancPlugins::SetHttpHeader(const void* parameters) { const _OrthancPluginSetHttpHeader& p = *reinterpret_cast<const _OrthancPluginSetHttpHeader*>(parameters); HttpOutput& translatedOutput = reinterpret_cast<PImpl::PluginHttpOutput*>(p.output)->GetOutput(); translatedOutput.AddHeader(p.key, p.value); } void OrthancPlugins::SetHttpErrorDetails(const void* parameters) { const _OrthancPluginSetHttpErrorDetails& p = *reinterpret_cast<const _OrthancPluginSetHttpErrorDetails*>(parameters); PImpl::PluginHttpOutput* output = reinterpret_cast<PImpl::PluginHttpOutput*>(p.output); output->SetErrorDetails(p.details, (p.log != 0)); } void OrthancPlugins::CompressAndAnswerPngImage(const void* parameters) { // Bridge for backward compatibility with Orthanc <= 0.9.3 const _OrthancPluginCompressAndAnswerPngImage& p = *reinterpret_cast<const _OrthancPluginCompressAndAnswerPngImage*>(parameters); _OrthancPluginCompressAndAnswerImage p2; p2.output = p.output; p2.imageFormat = OrthancPluginImageFormat_Png; p2.pixelFormat = p.format; p2.width = p.width; p2.height = p.height; p2.pitch = p.height; p2.buffer = p.buffer; p2.quality = 0; CompressAndAnswerImage(&p2); } void OrthancPlugins::CompressAndAnswerImage(const void* parameters) { const _OrthancPluginCompressAndAnswerImage& p = *reinterpret_cast<const _OrthancPluginCompressAndAnswerImage*>(parameters); HttpOutput& translatedOutput = reinterpret_cast<PImpl::PluginHttpOutput*>(p.output)->GetOutput(); ImageAccessor accessor; accessor.AssignReadOnly(Plugins::Convert(p.pixelFormat), p.width, p.height, p.pitch, p.buffer); std::string compressed; switch (p.imageFormat) { case OrthancPluginImageFormat_Png: { PngWriter writer; IImageWriter::WriteToMemory(writer, compressed, accessor); translatedOutput.SetContentType(MimeType_Png); break; } case OrthancPluginImageFormat_Jpeg: { JpegWriter writer; writer.SetQuality(p.quality); IImageWriter::WriteToMemory(writer, compressed, accessor); translatedOutput.SetContentType(MimeType_Jpeg); break; } default: throw OrthancException(ErrorCode_ParameterOutOfRange); } translatedOutput.Answer(compressed); } void OrthancPlugins::GetDicomForInstance(const void* parameters) { const _OrthancPluginGetDicomForInstance& p = *reinterpret_cast<const _OrthancPluginGetDicomForInstance*>(parameters); std::string dicom; { PImpl::ServerContextLock lock(*pimpl_); lock.GetContext().ReadDicom(dicom, p.instanceId); } CopyToMemoryBuffer(*p.target, dicom); } void OrthancPlugins::RestApiGet(const void* parameters, bool afterPlugins) { const _OrthancPluginRestApiGet& p = *reinterpret_cast<const _OrthancPluginRestApiGet*>(parameters); CLOG(INFO, PLUGINS) << "Plugin making REST GET call on URI " << p.uri << (afterPlugins ? " (after plugins)" : " (built-in API)"); IHttpHandler* handler; { PImpl::ServerContextLock lock(*pimpl_); handler = &lock.GetContext().GetHttpHandler().RestrictToOrthancRestApi(!afterPlugins); } std::map<std::string, std::string> httpHeaders; std::string result; if (IHttpHandler::SimpleGet(result, NULL, *handler, RequestOrigin_Plugins, p.uri, httpHeaders) == HttpStatus_200_Ok) { CopyToMemoryBuffer(*p.target, result); } else { throw OrthancException(ErrorCode_UnknownResource); } } void OrthancPlugins::RestApiGet2(const void* parameters) { const _OrthancPluginRestApiGet2& p = *reinterpret_cast<const _OrthancPluginRestApiGet2*>(parameters); CLOG(INFO, PLUGINS) << "Plugin making REST GET call on URI " << p.uri << (p.afterPlugins ? " (after plugins)" : " (built-in API)"); HttpToolbox::Arguments headers; for (uint32_t i = 0; i < p.headersCount; i++) { std::string name(p.headersKeys[i]); std::transform(name.begin(), name.end(), name.begin(), ::tolower); headers[name] = p.headersValues[i]; } IHttpHandler* handler; { PImpl::ServerContextLock lock(*pimpl_); handler = &lock.GetContext().GetHttpHandler().RestrictToOrthancRestApi(!p.afterPlugins); } std::string result; if (IHttpHandler::SimpleGet(result, NULL, *handler, RequestOrigin_Plugins, p.uri, headers) == HttpStatus_200_Ok) { CopyToMemoryBuffer(*p.target, result); } else { throw OrthancException(ErrorCode_UnknownResource); } } void OrthancPlugins::RestApiPostPut(bool isPost, const void* parameters, bool afterPlugins) { const _OrthancPluginRestApiPostPut& p = *reinterpret_cast<const _OrthancPluginRestApiPostPut*>(parameters); CLOG(INFO, PLUGINS) << "Plugin making REST " << EnumerationToString(isPost ? HttpMethod_Post : HttpMethod_Put) << " call on URI " << p.uri << (afterPlugins ? " (after plugins)" : " (built-in API)"); IHttpHandler* handler; { PImpl::ServerContextLock lock(*pimpl_); handler = &lock.GetContext().GetHttpHandler().RestrictToOrthancRestApi(!afterPlugins); } std::map<std::string, std::string> httpHeaders; std::string result; if (isPost ? IHttpHandler::SimplePost(result, NULL, *handler, RequestOrigin_Plugins, p.uri, p.body, p.bodySize, httpHeaders) == HttpStatus_200_Ok : IHttpHandler::SimplePut(result, NULL, *handler, RequestOrigin_Plugins, p.uri, p.body, p.bodySize, httpHeaders) == HttpStatus_200_Ok) { CopyToMemoryBuffer(*p.target, result); } else { throw OrthancException(ErrorCode_UnknownResource); } } void OrthancPlugins::RestApiDelete(const void* parameters, bool afterPlugins) { const char* uri = reinterpret_cast<const char*>(parameters); CLOG(INFO, PLUGINS) << "Plugin making REST DELETE call on URI " << uri << (afterPlugins ? " (after plugins)" : " (built-in API)"); IHttpHandler* handler; { PImpl::ServerContextLock lock(*pimpl_); handler = &lock.GetContext().GetHttpHandler().RestrictToOrthancRestApi(!afterPlugins); } std::map<std::string, std::string> httpHeaders; if (IHttpHandler::SimpleDelete(NULL, *handler, RequestOrigin_Plugins, uri, httpHeaders) != HttpStatus_200_Ok) { throw OrthancException(ErrorCode_UnknownResource); } } void OrthancPlugins::LookupResource(_OrthancPluginService service, const void* parameters) { const _OrthancPluginRetrieveDynamicString& p = *reinterpret_cast<const _OrthancPluginRetrieveDynamicString*>(parameters); /** * The enumeration below only uses the tags that are indexed in * the Orthanc database. It reflects the * "CandidateResources::ApplyFilter()" method of the * "OrthancFindRequestHandler" class. **/ DicomTag tag(0, 0); ResourceType level; switch (service) { case _OrthancPluginService_LookupPatient: tag = DICOM_TAG_PATIENT_ID; level = ResourceType_Patient; break; case _OrthancPluginService_LookupStudy: tag = DICOM_TAG_STUDY_INSTANCE_UID; level = ResourceType_Study; break; case _OrthancPluginService_LookupStudyWithAccessionNumber: tag = DICOM_TAG_ACCESSION_NUMBER; level = ResourceType_Study; break; case _OrthancPluginService_LookupSeries: tag = DICOM_TAG_SERIES_INSTANCE_UID; level = ResourceType_Series; break; case _OrthancPluginService_LookupInstance: tag = DICOM_TAG_SOP_INSTANCE_UID; level = ResourceType_Instance; break; default: throw OrthancException(ErrorCode_InternalError); } std::vector<std::string> result; { PImpl::ServerContextLock lock(*pimpl_); lock.GetContext().GetIndex().LookupIdentifierExact(result, level, tag, p.argument); } if (result.size() == 1) { *p.result = CopyString(result[0]); } else { if (result.size() > 1) { LOG(WARNING) << "LookupResource(): Multiple resources match the query (instead of 0 or 1), which indicates " << "your DICOM database breaks the DICOM model of the real world"; } throw OrthancException(ErrorCode_UnknownResource); } } static void AccessInstanceMetadataInternal(bool checkExistence, const _OrthancPluginAccessDicomInstance& params, const DicomInstanceToStore& instance) { MetadataType metadata; try { metadata = StringToMetadata(params.key); } catch (OrthancException&) { // Unknown metadata if (checkExistence) { *params.resultInt64 = -1; } else { *params.resultString = NULL; } return; } ServerIndex::MetadataMap::const_iterator it = instance.GetMetadata().find(std::make_pair(ResourceType_Instance, metadata)); if (checkExistence) { if (it != instance.GetMetadata().end()) { *params.resultInt64 = 1; } else { *params.resultInt64 = 0; } } else { if (it != instance.GetMetadata().end()) { *params.resultString = it->second.c_str(); } else { // Error: Missing metadata *params.resultString = NULL; } } } void OrthancPlugins::AccessDicomInstance(_OrthancPluginService service, const void* parameters) { const _OrthancPluginAccessDicomInstance& p = *reinterpret_cast<const _OrthancPluginAccessDicomInstance*>(parameters); if (p.instance == NULL) { throw OrthancException(ErrorCode_NullPointer); } const DicomInstanceToStore& instance = reinterpret_cast<const IDicomInstance*>(p.instance)->GetInstance(); switch (service) { case _OrthancPluginService_GetInstanceRemoteAet: *p.resultString = instance.GetOrigin().GetRemoteAetC(); return; case _OrthancPluginService_GetInstanceSize: *p.resultInt64 = instance.GetBufferSize(); return; case _OrthancPluginService_GetInstanceData: *p.resultString = reinterpret_cast<const char*>(instance.GetBufferData()); return; case _OrthancPluginService_HasInstanceMetadata: AccessInstanceMetadataInternal(true, p, instance); return; case _OrthancPluginService_GetInstanceMetadata: AccessInstanceMetadataInternal(false, p, instance); return; case _OrthancPluginService_GetInstanceJson: case _OrthancPluginService_GetInstanceSimplifiedJson: { Json::Value dicomAsJson; instance.GetDicomAsJson(dicomAsJson); std::string s; if (service == _OrthancPluginService_GetInstanceJson) { Toolbox::WriteStyledJson(s, dicomAsJson); } else { Json::Value simplified; Toolbox::SimplifyDicomAsJson(simplified, dicomAsJson, DicomToJsonFormat_Human); Toolbox::WriteStyledJson(s, simplified); } *p.resultStringToFree = CopyString(s); return; } case _OrthancPluginService_GetInstanceOrigin: // New in Orthanc 0.9.5 *p.resultOrigin = Plugins::Convert(instance.GetOrigin().GetRequestOrigin()); return; case _OrthancPluginService_GetInstanceTransferSyntaxUid: // New in Orthanc 1.6.1 { DicomTransferSyntax s; if (instance.LookupTransferSyntax(s)) { *p.resultStringToFree = CopyString(GetTransferSyntaxUid(s)); } else { *p.resultStringToFree = CopyString(""); } return; } case _OrthancPluginService_HasInstancePixelData: // New in Orthanc 1.6.1 *p.resultInt64 = instance.HasPixelData(); return; case _OrthancPluginService_GetInstanceFramesCount: // New in Orthanc 1.7.0 *p.resultInt64 = instance.GetFramesCount(); return; default: throw OrthancException(ErrorCode_InternalError); } } void OrthancPlugins::BufferCompression(const void* parameters) { const _OrthancPluginBufferCompression& p = *reinterpret_cast<const _OrthancPluginBufferCompression*>(parameters); std::string result; { std::unique_ptr<DeflateBaseCompressor> compressor; switch (p.compression) { case OrthancPluginCompressionType_Zlib: { compressor.reset(new ZlibCompressor); compressor->SetPrefixWithUncompressedSize(false); break; } case OrthancPluginCompressionType_ZlibWithSize: { compressor.reset(new ZlibCompressor); compressor->SetPrefixWithUncompressedSize(true); break; } case OrthancPluginCompressionType_Gzip: { compressor.reset(new GzipCompressor); compressor->SetPrefixWithUncompressedSize(false); break; } case OrthancPluginCompressionType_GzipWithSize: { compressor.reset(new GzipCompressor); compressor->SetPrefixWithUncompressedSize(true); break; } default: throw OrthancException(ErrorCode_ParameterOutOfRange); } if (p.uncompress) { compressor->Uncompress(result, p.source, p.size); } else { compressor->Compress(result, p.source, p.size); } } CopyToMemoryBuffer(*p.target, result); } static OrthancPluginImage* ReturnImage(std::unique_ptr<ImageAccessor>& image) { // Images returned to plugins are assumed to be writeable. If the // input image is read-only, we return a copy so that it can be modified. if (image.get() == NULL) { throw OrthancException(ErrorCode_NullPointer); } if (image->IsReadOnly()) { std::unique_ptr<Image> copy(new Image(image->GetFormat(), image->GetWidth(), image->GetHeight(), false)); ImageProcessing::Copy(*copy, *image); image.reset(NULL); return reinterpret_cast<OrthancPluginImage*>(copy.release()); } else { return reinterpret_cast<OrthancPluginImage*>(image.release()); } } void OrthancPlugins::AccessDicomInstance2(_OrthancPluginService service, const void* parameters) { const _OrthancPluginAccessDicomInstance2& p = *reinterpret_cast<const _OrthancPluginAccessDicomInstance2*>(parameters); if (p.instance == NULL) { throw OrthancException(ErrorCode_NullPointer); } const DicomInstanceToStore& instance = reinterpret_cast<const IDicomInstance*>(p.instance)->GetInstance(); switch (service) { case _OrthancPluginService_GetInstanceFramesCount: *p.targetUint32 = instance.GetFramesCount(); return; case _OrthancPluginService_GetInstanceRawFrame: { if (p.targetBuffer == NULL) { throw OrthancException(ErrorCode_NullPointer); } p.targetBuffer->data = NULL; p.targetBuffer->size = 0; MimeType mime; std::string frame; instance.GetParsedDicomFile().GetRawFrame(frame, mime, p.frameIndex); CopyToMemoryBuffer(*p.targetBuffer, frame); return; } case _OrthancPluginService_GetInstanceDecodedFrame: { if (p.targetImage == NULL) { throw OrthancException(ErrorCode_NullPointer); } std::unique_ptr<ImageAccessor> decoded; { PImpl::ServerContextLock lock(*pimpl_); decoded.reset(lock.GetContext().DecodeDicomFrame(instance, p.frameIndex)); } *(p.targetImage) = ReturnImage(decoded); return; } case _OrthancPluginService_SerializeDicomInstance: { if (p.targetBuffer == NULL) { throw OrthancException(ErrorCode_NullPointer); } p.targetBuffer->data = NULL; p.targetBuffer->size = 0; CopyToMemoryBuffer(*p.targetBuffer, instance.GetBufferData(), instance.GetBufferSize()); return; } case _OrthancPluginService_GetInstanceAdvancedJson: { if (p.targetStringToFree == NULL) { throw OrthancException(ErrorCode_NullPointer); } Json::Value json; instance.DatasetToJson(json, Plugins::Convert(p.format), static_cast<DicomToJsonFlags>(p.flags), p.maxStringLength); std::string s; Toolbox::WriteFastJson(s, json); *p.targetStringToFree = CopyString(s); return; } case _OrthancPluginService_GetInstanceDicomWebJson: case _OrthancPluginService_GetInstanceDicomWebXml: { if (p.targetStringToFree == NULL) { throw OrthancException(ErrorCode_NullPointer); } DicomWebBinaryFormatter formatter(p.dicomWebCallback, p.dicomWebPayload); formatter.Apply(p.targetStringToFree, (service == _OrthancPluginService_GetInstanceDicomWebJson), instance.GetParsedDicomFile()); return; } default: throw OrthancException(ErrorCode_InternalError); } } void OrthancPlugins::UncompressImage(const void* parameters) { const _OrthancPluginUncompressImage& p = *reinterpret_cast<const _OrthancPluginUncompressImage*>(parameters); std::unique_ptr<ImageAccessor> image; switch (p.format) { case OrthancPluginImageFormat_Png: { image.reset(new PngReader); reinterpret_cast<PngReader&>(*image).ReadFromMemory(p.data, p.size); break; } case OrthancPluginImageFormat_Jpeg: { image.reset(new JpegReader); reinterpret_cast<JpegReader&>(*image).ReadFromMemory(p.data, p.size); break; } case OrthancPluginImageFormat_Dicom: { PImpl::ServerContextLock lock(*pimpl_); image.reset(lock.GetContext().DecodeDicomFrame(p.data, p.size, 0)); break; } default: throw OrthancException(ErrorCode_ParameterOutOfRange); } *(p.target) = ReturnImage(image); } void OrthancPlugins::CompressImage(const void* parameters) { const _OrthancPluginCompressImage& p = *reinterpret_cast<const _OrthancPluginCompressImage*>(parameters); std::string compressed; ImageAccessor accessor; accessor.AssignReadOnly(Plugins::Convert(p.pixelFormat), p.width, p.height, p.pitch, p.buffer); switch (p.imageFormat) { case OrthancPluginImageFormat_Png: { PngWriter writer; IImageWriter::WriteToMemory(writer, compressed, accessor); break; } case OrthancPluginImageFormat_Jpeg: { JpegWriter writer; writer.SetQuality(p.quality); IImageWriter::WriteToMemory(writer, compressed, accessor); break; } default: throw OrthancException(ErrorCode_ParameterOutOfRange); } CopyToMemoryBuffer(*p.target, compressed.size() > 0 ? compressed.c_str() : NULL, compressed.size()); } static void SetupHttpClient(HttpClient& client, const _OrthancPluginCallHttpClient2& parameters) { client.SetUrl(parameters.url); client.SetConvertHeadersToLowerCase(false); if (parameters.timeout != 0) { client.SetTimeout(parameters.timeout); } if (parameters.username != NULL && parameters.password != NULL) { client.SetCredentials(parameters.username, parameters.password); } if (parameters.certificateFile != NULL) { std::string certificate(parameters.certificateFile); std::string key, password; if (parameters.certificateKeyFile) { key.assign(parameters.certificateKeyFile); } if (parameters.certificateKeyPassword) { password.assign(parameters.certificateKeyPassword); } client.SetClientCertificate(certificate, key, password); } client.SetPkcs11Enabled(parameters.pkcs11 ? true : false); for (uint32_t i = 0; i < parameters.headersCount; i++) { if (parameters.headersKeys[i] == NULL || parameters.headersValues[i] == NULL) { throw OrthancException(ErrorCode_NullPointer); } client.AddHeader(parameters.headersKeys[i], parameters.headersValues[i]); } switch (parameters.method) { case OrthancPluginHttpMethod_Get: client.SetMethod(HttpMethod_Get); break; case OrthancPluginHttpMethod_Post: client.SetMethod(HttpMethod_Post); client.SetExternalBody(parameters.body, parameters.bodySize); break; case OrthancPluginHttpMethod_Put: client.SetMethod(HttpMethod_Put); client.SetExternalBody(parameters.body, parameters.bodySize); break; case OrthancPluginHttpMethod_Delete: client.SetMethod(HttpMethod_Delete); break; default: throw OrthancException(ErrorCode_ParameterOutOfRange); } } static void ExecuteHttpClientWithoutChunkedBody(uint16_t& httpStatus, OrthancPluginMemoryBuffer* answerBody, OrthancPluginMemoryBuffer* answerHeaders, HttpClient& client) { std::string body; HttpClient::HttpHeaders headers; bool success = client.Apply(body, headers); // The HTTP request has succeeded httpStatus = static_cast<uint16_t>(client.GetLastStatus()); if (!success) { HttpClient::ThrowException(client.GetLastStatus()); } // Copy the HTTP headers of the answer, if the plugin requested them if (answerHeaders != NULL) { CopyDictionary(*answerHeaders, headers); } // Copy the body of the answer if it makes sense if (client.GetMethod() != HttpMethod_Delete) { try { if (answerBody != NULL) { CopyToMemoryBuffer(*answerBody, body); } } catch (OrthancException&) { if (answerHeaders != NULL) { free(answerHeaders->data); } throw; } } } void OrthancPlugins::CallHttpClient(const void* parameters) { const _OrthancPluginCallHttpClient& p = *reinterpret_cast<const _OrthancPluginCallHttpClient*>(parameters); HttpClient client; { _OrthancPluginCallHttpClient2 converted; memset(&converted, 0, sizeof(converted)); converted.answerBody = NULL; converted.answerHeaders = NULL; converted.httpStatus = NULL; converted.method = p.method; converted.url = p.url; converted.headersCount = 0; converted.headersKeys = NULL; converted.headersValues = NULL; converted.body = p.body; converted.bodySize = p.bodySize; converted.username = p.username; converted.password = p.password; converted.timeout = 0; // Use default timeout converted.certificateFile = NULL; converted.certificateKeyFile = NULL; converted.certificateKeyPassword = NULL; converted.pkcs11 = false; SetupHttpClient(client, converted); } uint16_t status; ExecuteHttpClientWithoutChunkedBody(status, p.target, NULL, client); } void OrthancPlugins::CallHttpClient2(const void* parameters) { const _OrthancPluginCallHttpClient2& p = *reinterpret_cast<const _OrthancPluginCallHttpClient2*>(parameters); if (p.httpStatus == NULL) { throw OrthancException(ErrorCode_NullPointer); } HttpClient client; if (p.method == OrthancPluginHttpMethod_Post || p.method == OrthancPluginHttpMethod_Put) { client.SetExternalBody(p.body, p.bodySize); } SetupHttpClient(client, p); ExecuteHttpClientWithoutChunkedBody(*p.httpStatus, p.answerBody, p.answerHeaders, client); } void OrthancPlugins::ChunkedHttpClient(const void* parameters) { const _OrthancPluginChunkedHttpClient& p = *reinterpret_cast<const _OrthancPluginChunkedHttpClient*>(parameters); if (p.httpStatus == NULL) { throw OrthancException(ErrorCode_NullPointer); } HttpClient client; { _OrthancPluginCallHttpClient2 converted; memset(&converted, 0, sizeof(converted)); converted.answerBody = NULL; converted.answerHeaders = NULL; converted.httpStatus = NULL; converted.method = p.method; converted.url = p.url; converted.headersCount = p.headersCount; converted.headersKeys = p.headersKeys; converted.headersValues = p.headersValues; converted.body = NULL; converted.bodySize = 0; converted.username = p.username; converted.password = p.password; converted.timeout = p.timeout; converted.certificateFile = p.certificateFile; converted.certificateKeyFile = p.certificateKeyFile; converted.certificateKeyPassword = p.certificateKeyPassword; converted.pkcs11 = p.pkcs11; SetupHttpClient(client, converted); } HttpClientChunkedRequest body(p, pimpl_->dictionary_); client.SetBody(body); HttpClientChunkedAnswer answer(p, pimpl_->dictionary_); bool success = client.Apply(answer); *p.httpStatus = static_cast<uint16_t>(client.GetLastStatus()); if (!success) { HttpClient::ThrowException(client.GetLastStatus()); } } void OrthancPlugins::CallRestApi(const void* parameters) { const _OrthancPluginCallRestApi& p = *reinterpret_cast<const _OrthancPluginCallRestApi*>(parameters); if (p.httpStatus == NULL) { throw OrthancException(ErrorCode_NullPointer); } const char* methodString; switch (p.method) { case OrthancPluginHttpMethod_Get: methodString = "GET"; break; case OrthancPluginHttpMethod_Post: methodString = "POST"; break; case OrthancPluginHttpMethod_Put: methodString = "PUT"; break; case OrthancPluginHttpMethod_Delete: methodString = "DELETE"; break; default: throw OrthancException(ErrorCode_ParameterOutOfRange); } CLOG(INFO, PLUGINS) << "Plugin making REST " << methodString << " call to URI " << p.uri << (p.afterPlugins ? " (after plugins)" : " (built-in API)"); HttpToolbox::Arguments headers; for (uint32_t i = 0; i < p.headersCount; i++) { std::string name(p.headersKeys[i]); std::transform(name.begin(), name.end(), name.begin(), ::tolower); headers[name] = p.headersValues[i]; } IHttpHandler* handler; { PImpl::ServerContextLock lock(*pimpl_); handler = &lock.GetContext().GetHttpHandler().RestrictToOrthancRestApi(!p.afterPlugins); } std::string answerBody; std::map<std::string, std::string> answerHeaders; HttpStatus status; switch (p.method) { case OrthancPluginHttpMethod_Get: status = IHttpHandler::SimpleGet( answerBody, &answerHeaders, *handler, RequestOrigin_Plugins, p.uri, headers); break; case OrthancPluginHttpMethod_Post: status = IHttpHandler::SimplePost( answerBody, &answerHeaders, *handler, RequestOrigin_Plugins, p.uri, p.body, p.bodySize, headers); break; case OrthancPluginHttpMethod_Put: status = IHttpHandler::SimplePut( answerBody, &answerHeaders, *handler, RequestOrigin_Plugins, p.uri, p.body, p.bodySize, headers); break; case OrthancPluginHttpMethod_Delete: status = IHttpHandler::SimpleDelete( &answerHeaders, *handler, RequestOrigin_Plugins, p.uri, headers); break; default: throw OrthancException(ErrorCode_ParameterOutOfRange); } *p.httpStatus = static_cast<uint16_t>(status); if (p.answerHeaders != NULL) { CopyDictionary(*p.answerHeaders, answerHeaders); } try { if (p.answerBody != NULL) { CopyToMemoryBuffer(*p.answerBody, answerBody); } } catch (OrthancException&) { if (p.answerHeaders != NULL) { free(p.answerHeaders->data); } throw; } } void OrthancPlugins::CallPeerApi(const void* parameters) { const _OrthancPluginCallPeerApi& p = *reinterpret_cast<const _OrthancPluginCallPeerApi*>(parameters); const OrthancPeers& peers = *reinterpret_cast<const OrthancPeers*>(p.peers); HttpClient client(peers.GetPeerParameters(p.peerIndex), p.uri); client.SetConvertHeadersToLowerCase(false); if (p.timeout != 0) { client.SetTimeout(p.timeout); } for (uint32_t i = 0; i < p.additionalHeadersCount; i++) { if (p.additionalHeadersKeys[i] == NULL || p.additionalHeadersValues[i] == NULL) { throw OrthancException(ErrorCode_NullPointer); } client.AddHeader(p.additionalHeadersKeys[i], p.additionalHeadersValues[i]); } switch (p.method) { case OrthancPluginHttpMethod_Get: client.SetMethod(HttpMethod_Get); break; case OrthancPluginHttpMethod_Post: client.SetMethod(HttpMethod_Post); client.SetExternalBody(p.body, p.bodySize); break; case OrthancPluginHttpMethod_Put: client.SetMethod(HttpMethod_Put); client.SetExternalBody(p.body, p.bodySize); break; case OrthancPluginHttpMethod_Delete: client.SetMethod(HttpMethod_Delete); break; default: throw OrthancException(ErrorCode_ParameterOutOfRange); } std::string body; HttpClient::HttpHeaders headers; bool success = client.Apply(body, headers); // The HTTP request has succeeded *p.httpStatus = static_cast<uint16_t>(client.GetLastStatus()); if (!success) { HttpClient::ThrowException(client.GetLastStatus()); } // Copy the HTTP headers of the answer, if the plugin requested them if (p.answerHeaders != NULL) { CopyDictionary(*p.answerHeaders, headers); } // Copy the body of the answer if it makes sense if (p.method != OrthancPluginHttpMethod_Delete) { try { if (p.answerBody != NULL) { CopyToMemoryBuffer(*p.answerBody, body); } } catch (OrthancException&) { if (p.answerHeaders != NULL) { free(p.answerHeaders->data); } throw; } } } void OrthancPlugins::ConvertPixelFormat(const void* parameters) { const _OrthancPluginConvertPixelFormat& p = *reinterpret_cast<const _OrthancPluginConvertPixelFormat*>(parameters); const ImageAccessor& source = *reinterpret_cast<const ImageAccessor*>(p.source); std::unique_ptr<ImageAccessor> target(new Image(Plugins::Convert(p.targetFormat), source.GetWidth(), source.GetHeight(), false)); ImageProcessing::Convert(*target, source); *(p.target) = ReturnImage(target); } void OrthancPlugins::GetFontInfo(const void* parameters) { const _OrthancPluginGetFontInfo& p = *reinterpret_cast<const _OrthancPluginGetFontInfo*>(parameters); { OrthancConfiguration::ReaderLock lock; const Font& font = lock.GetConfiguration().GetFontRegistry().GetFont(p.fontIndex); if (p.name != NULL) { *(p.name) = font.GetName().c_str(); } else if (p.size != NULL) { *(p.size) = font.GetSize(); } else { throw OrthancException(ErrorCode_InternalError); } } } void OrthancPlugins::DrawText(const void* parameters) { const _OrthancPluginDrawText& p = *reinterpret_cast<const _OrthancPluginDrawText*>(parameters); { OrthancConfiguration::ReaderLock lock; const Font& font = lock.GetConfiguration().GetFontRegistry().GetFont(p.fontIndex); ImageAccessor& target = *reinterpret_cast<ImageAccessor*>(p.image); font.Draw(target, p.utf8Text, p.x, p.y, p.r, p.g, p.b); } } void OrthancPlugins::ApplyDicomToJson(_OrthancPluginService service, const void* parameters) { const _OrthancPluginDicomToJson& p = *reinterpret_cast<const _OrthancPluginDicomToJson*>(parameters); std::unique_ptr<ParsedDicomFile> dicom; if (service == _OrthancPluginService_DicomBufferToJson) { dicom.reset(new ParsedDicomFile(p.buffer, p.size)); } else { if (p.instanceId == NULL) { throw OrthancException(ErrorCode_NullPointer); } std::string content; { PImpl::ServerContextLock lock(*pimpl_); lock.GetContext().ReadDicom(content, p.instanceId); } dicom.reset(new ParsedDicomFile(content)); } Json::Value json; dicom->DatasetToJson(json, Plugins::Convert(p.format), static_cast<DicomToJsonFlags>(p.flags), p.maxStringLength); std::string s; Toolbox::WriteFastJson(s, json); *p.result = CopyString(s); } void OrthancPlugins::ApplyCreateDicom(const _OrthancPluginCreateDicom& parameters, const char* privateCreatorC) { Json::Value json; if (parameters.json == NULL) { json = Json::objectValue; } else if (!Toolbox::ReadJson(json, parameters.json)) { throw OrthancException(ErrorCode_BadJson); } std::string dicom; { // Fix issue 168 (Plugins can't read private tags from the // configuration file) // https://bugs.orthanc-server.com/show_bug.cgi?id=168 std::string privateCreator; if (privateCreatorC == NULL) { OrthancConfiguration::ReaderLock lock; privateCreator = lock.GetConfiguration().GetDefaultPrivateCreator(); } else { // New in Orthanc 1.9.0 privateCreator.assign(privateCreatorC); } std::unique_ptr<ParsedDicomFile> file (ParsedDicomFile::CreateFromJson(json, static_cast<DicomFromJsonFlags>(parameters.flags), privateCreator)); if (parameters.pixelData) { file->EmbedImage(*reinterpret_cast<const ImageAccessor*>(parameters.pixelData)); } file->SaveToMemoryBuffer(dicom); } CopyToMemoryBuffer(*parameters.target, dicom); } void OrthancPlugins::ComputeHash(_OrthancPluginService service, const void* parameters) { const _OrthancPluginComputeHash& p = *reinterpret_cast<const _OrthancPluginComputeHash*>(parameters); std::string hash; switch (service) { case _OrthancPluginService_ComputeMd5: Toolbox::ComputeMD5(hash, p.buffer, p.size); break; case _OrthancPluginService_ComputeSha1: Toolbox::ComputeSHA1(hash, p.buffer, p.size); break; default: throw OrthancException(ErrorCode_ParameterOutOfRange); } *p.result = CopyString(hash); } void OrthancPlugins::GetTagName(const void* parameters) { const _OrthancPluginGetTagName& p = *reinterpret_cast<const _OrthancPluginGetTagName*>(parameters); std::string privateCreator; if (p.privateCreator != NULL) { privateCreator = p.privateCreator; } DicomTag tag(p.group, p.element); *p.result = CopyString(FromDcmtkBridge::GetTagName(tag, privateCreator)); } void OrthancPlugins::ApplyCreateImage(_OrthancPluginService service, const void* parameters) { const _OrthancPluginCreateImage& p = *reinterpret_cast<const _OrthancPluginCreateImage*>(parameters); std::unique_ptr<ImageAccessor> result; switch (service) { case _OrthancPluginService_CreateImage: result.reset(new Image(Plugins::Convert(p.format), p.width, p.height, false)); break; case _OrthancPluginService_CreateImageAccessor: result.reset(new ImageAccessor); result->AssignWritable(Plugins::Convert(p.format), p.width, p.height, p.pitch, p.buffer); break; case _OrthancPluginService_DecodeDicomImage: { PImpl::ServerContextLock lock(*pimpl_); result.reset(lock.GetContext().DecodeDicomFrame(p.constBuffer, p.bufferSize, p.frameIndex)); break; } default: throw OrthancException(ErrorCode_InternalError); } *(p.target) = ReturnImage(result); } void OrthancPlugins::ApplySendMultipartItem(const void* parameters) { // An exception might be raised in this function if the // connection was closed by the HTTP client. const _OrthancPluginAnswerBuffer& p = *reinterpret_cast<const _OrthancPluginAnswerBuffer*>(parameters); std::map<std::string, std::string> headers; // No custom headers reinterpret_cast<PImpl::PluginHttpOutput*>(p.output)->SendMultipartItem(p.answer, p.answerSize, headers); } void OrthancPlugins::ApplySendMultipartItem2(const void* parameters) { // An exception might be raised in this function if the // connection was closed by the HTTP client. const _OrthancPluginSendMultipartItem2& p = *reinterpret_cast<const _OrthancPluginSendMultipartItem2*>(parameters); std::map<std::string, std::string> headers; for (uint32_t i = 0; i < p.headersCount; i++) { headers[p.headersKeys[i]] = p.headersValues[i]; } reinterpret_cast<PImpl::PluginHttpOutput*>(p.output)->SendMultipartItem(p.answer, p.answerSize, headers); } void OrthancPlugins::DatabaseAnswer(const void* parameters) { const _OrthancPluginDatabaseAnswer& p = *reinterpret_cast<const _OrthancPluginDatabaseAnswer*>(parameters); if (pimpl_->database_.get() != NULL) { pimpl_->database_->AnswerReceived(p); } else { throw OrthancException(ErrorCode_BadRequest, "Cannot invoke this service without a custom database back-end"); } } namespace { class DictionaryReadLocker { private: const DcmDataDictionary& dictionary_; public: DictionaryReadLocker() : dictionary_(dcmDataDict.rdlock()) { } ~DictionaryReadLocker() { #if DCMTK_VERSION_NUMBER >= 364 dcmDataDict.rdunlock(); #else dcmDataDict.unlock(); #endif } const DcmDataDictionary* operator->() { return &dictionary_; } }; } void OrthancPlugins::ApplyLookupDictionary(const void* parameters) { const _OrthancPluginLookupDictionary& p = *reinterpret_cast<const _OrthancPluginLookupDictionary*>(parameters); DicomTag tag(FromDcmtkBridge::ParseTag(p.name)); DcmTagKey tag2(tag.GetGroup(), tag.GetElement()); DictionaryReadLocker locker; const DcmDictEntry* entry = NULL; if (tag.IsPrivate()) { // Fix issue 168 (Plugins can't read private tags from the // configuration file) // https://bugs.orthanc-server.com/show_bug.cgi?id=168 std::string privateCreator; { OrthancConfiguration::ReaderLock lock; privateCreator = lock.GetConfiguration().GetDefaultPrivateCreator(); } entry = locker->findEntry(tag2, privateCreator.c_str()); } else { entry = locker->findEntry(tag2, NULL); } if (entry == NULL) { throw OrthancException(ErrorCode_UnknownDicomTag); } else { p.target->group = entry->getKey().getGroup(); p.target->element = entry->getKey().getElement(); p.target->vr = Plugins::Convert(FromDcmtkBridge::Convert(entry->getEVR())); p.target->minMultiplicity = static_cast<uint32_t>(entry->getVMMin()); p.target->maxMultiplicity = (entry->getVMMax() == DcmVariableVM ? 0 : static_cast<uint32_t>(entry->getVMMax())); } } bool OrthancPlugins::InvokeSafeService(SharedLibrary& plugin, _OrthancPluginService service, const void* parameters) { // Services that can be run without mutual exclusion switch (service) { case _OrthancPluginService_GetOrthancPath: { std::string s = SystemToolbox::GetPathToExecutable(); *reinterpret_cast<const _OrthancPluginRetrieveDynamicString*>(parameters)->result = CopyString(s); return true; } case _OrthancPluginService_GetOrthancDirectory: { std::string s = SystemToolbox::GetDirectoryOfExecutable(); *reinterpret_cast<const _OrthancPluginRetrieveDynamicString*>(parameters)->result = CopyString(s); return true; } case _OrthancPluginService_GetConfigurationPath: { std::string s; { OrthancConfiguration::ReaderLock lock; s = lock.GetConfiguration().GetConfigurationAbsolutePath(); } *reinterpret_cast<const _OrthancPluginRetrieveDynamicString*>(parameters)->result = CopyString(s); return true; } case _OrthancPluginService_GetConfiguration: { std::string s; { OrthancConfiguration::ReaderLock lock; lock.GetConfiguration().Format(s); } *reinterpret_cast<const _OrthancPluginRetrieveDynamicString*>(parameters)->result = CopyString(s); return true; } case _OrthancPluginService_BufferCompression: BufferCompression(parameters); return true; case _OrthancPluginService_AnswerBuffer: AnswerBuffer(parameters); return true; case _OrthancPluginService_CompressAndAnswerPngImage: CompressAndAnswerPngImage(parameters); return true; case _OrthancPluginService_CompressAndAnswerImage: CompressAndAnswerImage(parameters); return true; case _OrthancPluginService_GetDicomForInstance: GetDicomForInstance(parameters); return true; case _OrthancPluginService_RestApiGet: RestApiGet(parameters, false); return true; case _OrthancPluginService_RestApiGetAfterPlugins: RestApiGet(parameters, true); return true; case _OrthancPluginService_RestApiGet2: RestApiGet2(parameters); return true; case _OrthancPluginService_RestApiPost: RestApiPostPut(true, parameters, false); return true; case _OrthancPluginService_RestApiPostAfterPlugins: RestApiPostPut(true, parameters, true); return true; case _OrthancPluginService_RestApiDelete: RestApiDelete(parameters, false); return true; case _OrthancPluginService_RestApiDeleteAfterPlugins: RestApiDelete(parameters, true); return true; case _OrthancPluginService_RestApiPut: RestApiPostPut(false, parameters, false); return true; case _OrthancPluginService_RestApiPutAfterPlugins: RestApiPostPut(false, parameters, true); return true; case _OrthancPluginService_Redirect: Redirect(parameters); return true; case _OrthancPluginService_SendUnauthorized: SendUnauthorized(parameters); return true; case _OrthancPluginService_SendMethodNotAllowed: SendMethodNotAllowed(parameters); return true; case _OrthancPluginService_SendHttpStatus: SendHttpStatus(parameters); return true; case _OrthancPluginService_SendHttpStatusCode: SendHttpStatusCode(parameters); return true; case _OrthancPluginService_SetCookie: SetCookie(parameters); return true; case _OrthancPluginService_SetHttpHeader: SetHttpHeader(parameters); return true; case _OrthancPluginService_SetHttpErrorDetails: SetHttpErrorDetails(parameters); return true; case _OrthancPluginService_LookupPatient: case _OrthancPluginService_LookupStudy: case _OrthancPluginService_LookupStudyWithAccessionNumber: case _OrthancPluginService_LookupSeries: case _OrthancPluginService_LookupInstance: LookupResource(service, parameters); return true; case _OrthancPluginService_GetInstanceRemoteAet: case _OrthancPluginService_GetInstanceSize: case _OrthancPluginService_GetInstanceData: case _OrthancPluginService_GetInstanceJson: case _OrthancPluginService_GetInstanceSimplifiedJson: case _OrthancPluginService_HasInstanceMetadata: case _OrthancPluginService_GetInstanceMetadata: case _OrthancPluginService_GetInstanceOrigin: case _OrthancPluginService_GetInstanceTransferSyntaxUid: case _OrthancPluginService_HasInstancePixelData: AccessDicomInstance(service, parameters); return true; case _OrthancPluginService_GetInstanceFramesCount: case _OrthancPluginService_GetInstanceRawFrame: case _OrthancPluginService_GetInstanceDecodedFrame: case _OrthancPluginService_SerializeDicomInstance: case _OrthancPluginService_GetInstanceAdvancedJson: case _OrthancPluginService_GetInstanceDicomWebJson: case _OrthancPluginService_GetInstanceDicomWebXml: AccessDicomInstance2(service, parameters); return true; case _OrthancPluginService_SetGlobalProperty: { const _OrthancPluginGlobalProperty& p = *reinterpret_cast<const _OrthancPluginGlobalProperty*>(parameters); if (p.property < 1024) { return false; } else { // TODO - Plugins can only access global properties of their // own Orthanc server (no access to the shared global properties) PImpl::ServerContextLock lock(*pimpl_); lock.GetContext().GetIndex().SetGlobalProperty(static_cast<GlobalProperty>(p.property), false /* not shared */, p.value); return true; } } case _OrthancPluginService_GetGlobalProperty: { const _OrthancPluginGlobalProperty& p = *reinterpret_cast<const _OrthancPluginGlobalProperty*>(parameters); std::string result; { // TODO - Plugins can only access global properties of their // own Orthanc server (no access to the shared global properties) PImpl::ServerContextLock lock(*pimpl_); result = lock.GetContext().GetIndex().GetGlobalProperty(static_cast<GlobalProperty>(p.property), false /* not shared */, p.value); } *(p.result) = CopyString(result); return true; } case _OrthancPluginService_GetExpectedDatabaseVersion: { const _OrthancPluginReturnSingleValue& p = *reinterpret_cast<const _OrthancPluginReturnSingleValue*>(parameters); *(p.resultUint32) = ORTHANC_DATABASE_VERSION; return true; } case _OrthancPluginService_StartMultipartAnswer: { const _OrthancPluginStartMultipartAnswer& p = *reinterpret_cast<const _OrthancPluginStartMultipartAnswer*>(parameters); reinterpret_cast<PImpl::PluginHttpOutput*>(p.output)->StartMultipart(p.subType, p.contentType); return true; } case _OrthancPluginService_SendMultipartItem: ApplySendMultipartItem(parameters); return true; case _OrthancPluginService_SendMultipartItem2: ApplySendMultipartItem2(parameters); return true; case _OrthancPluginService_ReadFile: { const _OrthancPluginReadFile& p = *reinterpret_cast<const _OrthancPluginReadFile*>(parameters); std::string content; SystemToolbox::ReadFile(content, p.path); CopyToMemoryBuffer(*p.target, content.size() > 0 ? content.c_str() : NULL, content.size()); return true; } case _OrthancPluginService_WriteFile: { const _OrthancPluginWriteFile& p = *reinterpret_cast<const _OrthancPluginWriteFile*>(parameters); SystemToolbox::WriteFile(p.data, p.size, p.path, true /* run fsync() */); return true; } case _OrthancPluginService_GetErrorDescription: { const _OrthancPluginGetErrorDescription& p = *reinterpret_cast<const _OrthancPluginGetErrorDescription*>(parameters); *(p.target) = EnumerationToString(static_cast<ErrorCode>(p.error)); return true; } case _OrthancPluginService_GetImagePixelFormat: { const _OrthancPluginGetImageInfo& p = *reinterpret_cast<const _OrthancPluginGetImageInfo*>(parameters); *(p.resultPixelFormat) = Plugins::Convert(reinterpret_cast<const ImageAccessor*>(p.image)->GetFormat()); return true; } case _OrthancPluginService_GetImageWidth: { const _OrthancPluginGetImageInfo& p = *reinterpret_cast<const _OrthancPluginGetImageInfo*>(parameters); *(p.resultUint32) = reinterpret_cast<const ImageAccessor*>(p.image)->GetWidth(); return true; } case _OrthancPluginService_GetImageHeight: { const _OrthancPluginGetImageInfo& p = *reinterpret_cast<const _OrthancPluginGetImageInfo*>(parameters); *(p.resultUint32) = reinterpret_cast<const ImageAccessor*>(p.image)->GetHeight(); return true; } case _OrthancPluginService_GetImagePitch: { const _OrthancPluginGetImageInfo& p = *reinterpret_cast<const _OrthancPluginGetImageInfo*>(parameters); *(p.resultUint32) = reinterpret_cast<const ImageAccessor*>(p.image)->GetPitch(); return true; } case _OrthancPluginService_GetImageBuffer: { const _OrthancPluginGetImageInfo& p = *reinterpret_cast<const _OrthancPluginGetImageInfo*>(parameters); *(p.resultBuffer) = const_cast<void*>(reinterpret_cast<const ImageAccessor*>(p.image)->GetConstBuffer()); return true; } case _OrthancPluginService_FreeImage: { const _OrthancPluginFreeImage& p = *reinterpret_cast<const _OrthancPluginFreeImage*>(parameters); if (p.image != NULL) { delete reinterpret_cast<ImageAccessor*>(p.image); } return true; } case _OrthancPluginService_UncompressImage: UncompressImage(parameters); return true; case _OrthancPluginService_CompressImage: CompressImage(parameters); return true; case _OrthancPluginService_CallHttpClient: CallHttpClient(parameters); return true; case _OrthancPluginService_CallHttpClient2: CallHttpClient2(parameters); return true; case _OrthancPluginService_ChunkedHttpClient: ChunkedHttpClient(parameters); return true; case _OrthancPluginService_CallRestApi: CallRestApi(parameters); return true; case _OrthancPluginService_ConvertPixelFormat: ConvertPixelFormat(parameters); return true; case _OrthancPluginService_GetFontsCount: { const _OrthancPluginReturnSingleValue& p = *reinterpret_cast<const _OrthancPluginReturnSingleValue*>(parameters); { OrthancConfiguration::ReaderLock lock; *(p.resultUint32) = lock.GetConfiguration().GetFontRegistry().GetSize(); } return true; } case _OrthancPluginService_GetFontInfo: GetFontInfo(parameters); return true; case _OrthancPluginService_DrawText: DrawText(parameters); return true; case _OrthancPluginService_StorageAreaCreate: { const _OrthancPluginStorageAreaCreate& p = *reinterpret_cast<const _OrthancPluginStorageAreaCreate*>(parameters); IStorageArea& storage = *reinterpret_cast<IStorageArea*>(p.storageArea); storage.Create(p.uuid, p.content, static_cast<size_t>(p.size), Plugins::Convert(p.type)); return true; } case _OrthancPluginService_StorageAreaRead: { const _OrthancPluginStorageAreaRead& p = *reinterpret_cast<const _OrthancPluginStorageAreaRead*>(parameters); IStorageArea& storage = *reinterpret_cast<IStorageArea*>(p.storageArea); std::unique_ptr<IMemoryBuffer> content(storage.Read(p.uuid, Plugins::Convert(p.type))); CopyToMemoryBuffer(*p.target, content->GetData(), content->GetSize()); return true; } case _OrthancPluginService_StorageAreaRemove: { const _OrthancPluginStorageAreaRemove& p = *reinterpret_cast<const _OrthancPluginStorageAreaRemove*>(parameters); IStorageArea& storage = *reinterpret_cast<IStorageArea*>(p.storageArea); storage.Remove(p.uuid, Plugins::Convert(p.type)); return true; } case _OrthancPluginService_DicomBufferToJson: case _OrthancPluginService_DicomInstanceToJson: ApplyDicomToJson(service, parameters); return true; case _OrthancPluginService_CreateDicom: { const _OrthancPluginCreateDicom& p = *reinterpret_cast<const _OrthancPluginCreateDicom*>(parameters); ApplyCreateDicom(p, NULL); return true; } case _OrthancPluginService_CreateDicom2: { // New in Orthanc 1.9.0 const _OrthancPluginCreateDicom2& p = *reinterpret_cast<const _OrthancPluginCreateDicom2*>(parameters); ApplyCreateDicom(p.createDicom, p.privateCreator); return true; } case _OrthancPluginService_WorklistAddAnswer: { const _OrthancPluginWorklistAnswersOperation& p = *reinterpret_cast<const _OrthancPluginWorklistAnswersOperation*>(parameters); reinterpret_cast<const WorklistHandler*>(p.query)->AddAnswer(p.answers, p.dicom, p.size); return true; } case _OrthancPluginService_WorklistMarkIncomplete: { const _OrthancPluginWorklistAnswersOperation& p = *reinterpret_cast<const _OrthancPluginWorklistAnswersOperation*>(parameters); reinterpret_cast<DicomFindAnswers*>(p.answers)->SetComplete(false); return true; } case _OrthancPluginService_WorklistIsMatch: { const _OrthancPluginWorklistQueryOperation& p = *reinterpret_cast<const _OrthancPluginWorklistQueryOperation*>(parameters); *p.isMatch = reinterpret_cast<const WorklistHandler*>(p.query)->IsMatch(p.dicom, p.size); return true; } case _OrthancPluginService_WorklistGetDicomQuery: { const _OrthancPluginWorklistQueryOperation& p = *reinterpret_cast<const _OrthancPluginWorklistQueryOperation*>(parameters); reinterpret_cast<const WorklistHandler*>(p.query)->GetDicomQuery(*p.target); return true; } case _OrthancPluginService_FindAddAnswer: { const _OrthancPluginFindOperation& p = *reinterpret_cast<const _OrthancPluginFindOperation*>(parameters); reinterpret_cast<DicomFindAnswers*>(p.answers)->Add(p.dicom, p.size); return true; } case _OrthancPluginService_FindMarkIncomplete: { const _OrthancPluginFindOperation& p = *reinterpret_cast<const _OrthancPluginFindOperation*>(parameters); reinterpret_cast<DicomFindAnswers*>(p.answers)->SetComplete(false); return true; } case _OrthancPluginService_GetFindQuerySize: case _OrthancPluginService_GetFindQueryTag: case _OrthancPluginService_GetFindQueryTagName: case _OrthancPluginService_GetFindQueryValue: { const _OrthancPluginFindOperation& p = *reinterpret_cast<const _OrthancPluginFindOperation*>(parameters); reinterpret_cast<const FindHandler*>(p.query)->Invoke(service, p); return true; } case _OrthancPluginService_CreateImage: case _OrthancPluginService_CreateImageAccessor: case _OrthancPluginService_DecodeDicomImage: ApplyCreateImage(service, parameters); return true; case _OrthancPluginService_ComputeMd5: case _OrthancPluginService_ComputeSha1: ComputeHash(service, parameters); return true; case _OrthancPluginService_LookupDictionary: ApplyLookupDictionary(parameters); return true; case _OrthancPluginService_GenerateUuid: { *reinterpret_cast<const _OrthancPluginRetrieveDynamicString*>(parameters)->result = CopyString(Toolbox::GenerateUuid()); return true; } case _OrthancPluginService_CreateFindMatcher: { const _OrthancPluginCreateFindMatcher& p = *reinterpret_cast<const _OrthancPluginCreateFindMatcher*>(parameters); ParsedDicomFile query(p.query, p.size); *(p.target) = reinterpret_cast<OrthancPluginFindMatcher*>(new HierarchicalMatcher(query)); return true; } case _OrthancPluginService_FreeFindMatcher: { const _OrthancPluginFreeFindMatcher& p = *reinterpret_cast<const _OrthancPluginFreeFindMatcher*>(parameters); if (p.matcher != NULL) { delete reinterpret_cast<HierarchicalMatcher*>(p.matcher); } return true; } case _OrthancPluginService_FindMatcherIsMatch: { const _OrthancPluginFindMatcherIsMatch& p = *reinterpret_cast<const _OrthancPluginFindMatcherIsMatch*>(parameters); if (p.matcher == NULL) { throw OrthancException(ErrorCode_NullPointer); } else { ParsedDicomFile query(p.dicom, p.size); *p.isMatch = reinterpret_cast<const HierarchicalMatcher*>(p.matcher)->Match(query) ? 1 : 0; return true; } } case _OrthancPluginService_GetPeers: { const _OrthancPluginGetPeers& p = *reinterpret_cast<const _OrthancPluginGetPeers*>(parameters); *(p.peers) = reinterpret_cast<OrthancPluginPeers*>(new OrthancPeers); return true; } case _OrthancPluginService_FreePeers: { const _OrthancPluginFreePeers& p = *reinterpret_cast<const _OrthancPluginFreePeers*>(parameters); if (p.peers != NULL) { delete reinterpret_cast<OrthancPeers*>(p.peers); } return true; } case _OrthancPluginService_GetPeersCount: { const _OrthancPluginGetPeersCount& p = *reinterpret_cast<const _OrthancPluginGetPeersCount*>(parameters); if (p.peers == NULL) { throw OrthancException(ErrorCode_NullPointer); } else { *(p.target) = reinterpret_cast<const OrthancPeers*>(p.peers)->GetPeersCount(); return true; } } case _OrthancPluginService_GetPeerName: { const _OrthancPluginGetPeerProperty& p = *reinterpret_cast<const _OrthancPluginGetPeerProperty*>(parameters); if (p.peers == NULL) { throw OrthancException(ErrorCode_NullPointer); } else { *(p.target) = reinterpret_cast<const OrthancPeers*>(p.peers)->GetPeerName(p.peerIndex).c_str(); return true; } } case _OrthancPluginService_GetPeerUrl: { const _OrthancPluginGetPeerProperty& p = *reinterpret_cast<const _OrthancPluginGetPeerProperty*>(parameters); if (p.peers == NULL) { throw OrthancException(ErrorCode_NullPointer); } else { *(p.target) = reinterpret_cast<const OrthancPeers*>(p.peers)->GetPeerParameters(p.peerIndex).GetUrl().c_str(); return true; } } case _OrthancPluginService_GetPeerUserProperty: { const _OrthancPluginGetPeerProperty& p = *reinterpret_cast<const _OrthancPluginGetPeerProperty*>(parameters); if (p.peers == NULL || p.userProperty == NULL) { throw OrthancException(ErrorCode_NullPointer); } else { const WebServiceParameters::Dictionary& properties = reinterpret_cast<const OrthancPeers*>(p.peers)->GetPeerParameters(p.peerIndex).GetUserProperties(); WebServiceParameters::Dictionary::const_iterator found = properties.find(p.userProperty); if (found == properties.end()) { *(p.target) = NULL; } else { *(p.target) = found->second.c_str(); } return true; } } case _OrthancPluginService_CallPeerApi: CallPeerApi(parameters); return true; case _OrthancPluginService_CreateJob: { const _OrthancPluginCreateJob& p = *reinterpret_cast<const _OrthancPluginCreateJob*>(parameters); *(p.target) = reinterpret_cast<OrthancPluginJob*>(new PluginsJob(p)); return true; } case _OrthancPluginService_FreeJob: { const _OrthancPluginFreeJob& p = *reinterpret_cast<const _OrthancPluginFreeJob*>(parameters); if (p.job != NULL) { delete reinterpret_cast<PluginsJob*>(p.job); } return true; } case _OrthancPluginService_SubmitJob: { const _OrthancPluginSubmitJob& p = *reinterpret_cast<const _OrthancPluginSubmitJob*>(parameters); std::string uuid; PImpl::ServerContextLock lock(*pimpl_); lock.GetContext().GetJobsEngine().GetRegistry().Submit (uuid, reinterpret_cast<PluginsJob*>(p.job), p.priority); *p.resultId = CopyString(uuid); return true; } case _OrthancPluginService_AutodetectMimeType: { const _OrthancPluginRetrieveStaticString& p = *reinterpret_cast<const _OrthancPluginRetrieveStaticString*>(parameters); *p.result = EnumerationToString(SystemToolbox::AutodetectMimeType(p.argument)); return true; } case _OrthancPluginService_SetMetricsValue: { const _OrthancPluginSetMetricsValue& p = *reinterpret_cast<const _OrthancPluginSetMetricsValue*>(parameters); MetricsType type; switch (p.type) { case OrthancPluginMetricsType_Default: type = MetricsType_Default; break; case OrthancPluginMetricsType_Timer: type = MetricsType_MaxOver10Seconds; break; default: throw OrthancException(ErrorCode_ParameterOutOfRange); } { PImpl::ServerContextLock lock(*pimpl_); lock.GetContext().GetMetricsRegistry().SetValue(p.name, p.value, type); } return true; } case _OrthancPluginService_EncodeDicomWebJson: case _OrthancPluginService_EncodeDicomWebXml: { const _OrthancPluginEncodeDicomWeb& p = *reinterpret_cast<const _OrthancPluginEncodeDicomWeb*>(parameters); DicomWebBinaryFormatter formatter(p.callback); formatter.Apply(p.target, (service == _OrthancPluginService_EncodeDicomWebJson), p.dicom, p.dicomSize); return true; } case _OrthancPluginService_EncodeDicomWebJson2: case _OrthancPluginService_EncodeDicomWebXml2: { const _OrthancPluginEncodeDicomWeb2& p = *reinterpret_cast<const _OrthancPluginEncodeDicomWeb2*>(parameters); DicomWebBinaryFormatter formatter(p.callback, p.payload); formatter.Apply(p.target, (service == _OrthancPluginService_EncodeDicomWebJson2), p.dicom, p.dicomSize); return true; } case _OrthancPluginService_GetTagName: GetTagName(parameters); return true; case _OrthancPluginService_CreateDicomInstance: { const _OrthancPluginCreateDicomInstance& p = *reinterpret_cast<const _OrthancPluginCreateDicomInstance*>(parameters); *(p.target) = reinterpret_cast<OrthancPluginDicomInstance*>( new DicomInstanceFromBuffer(p.buffer, p.size)); return true; } case _OrthancPluginService_FreeDicomInstance: { const _OrthancPluginFreeDicomInstance& p = *reinterpret_cast<const _OrthancPluginFreeDicomInstance*>(parameters); if (p.dicom != NULL) { IDicomInstance* obj = reinterpret_cast<IDicomInstance*>(p.dicom); if (obj->CanBeFreed()) { delete obj; } else { throw OrthancException(ErrorCode_Plugin, "Cannot free a DICOM instance provided to a callback"); } } return true; } case _OrthancPluginService_TranscodeDicomInstance: { const _OrthancPluginCreateDicomInstance& p = *reinterpret_cast<const _OrthancPluginCreateDicomInstance*>(parameters); DicomTransferSyntax transferSyntax; if (p.transferSyntax == NULL || !LookupTransferSyntax(transferSyntax, p.transferSyntax)) { throw OrthancException(ErrorCode_ParameterOutOfRange, "Unsupported transfer syntax: " + std::string(p.transferSyntax == NULL ? "(null)" : p.transferSyntax)); } else { std::set<DicomTransferSyntax> syntaxes; syntaxes.insert(transferSyntax); IDicomTranscoder::DicomImage source; source.SetExternalBuffer(p.buffer, p.size); IDicomTranscoder::DicomImage transcoded; bool success; { PImpl::ServerContextLock lock(*pimpl_); success = lock.GetContext().Transcode( transcoded, source, syntaxes, true /* allow new sop */); } if (success) { *(p.target) = reinterpret_cast<OrthancPluginDicomInstance*>( new DicomInstanceFromTranscoded(transcoded)); return true; } else { throw OrthancException(ErrorCode_NotImplemented, "Cannot transcode image"); } } } case _OrthancPluginService_CreateMemoryBuffer: { const _OrthancPluginCreateMemoryBuffer& p = *reinterpret_cast<const _OrthancPluginCreateMemoryBuffer*>(parameters); p.target->data = NULL; p.target->size = 0; if (p.size != 0) { p.target->data = malloc(p.size); if (p.target->data == NULL) { throw OrthancException(ErrorCode_NotEnoughMemory); } p.target->size = p.size; } return true; } case _OrthancPluginService_CreateMemoryBuffer64: { const _OrthancPluginCreateMemoryBuffer64& p = *reinterpret_cast<const _OrthancPluginCreateMemoryBuffer64*>(parameters); p.target->data = NULL; p.target->size = 0; if (p.size != 0) { p.target->data = malloc(p.size); if (p.target->data == NULL) { throw OrthancException(ErrorCode_NotEnoughMemory); } p.target->size = p.size; } return true; } case _OrthancPluginService_RegisterIncomingHttpRequestFilter: RegisterIncomingHttpRequestFilter(parameters); return true; case _OrthancPluginService_RegisterIncomingHttpRequestFilter2: RegisterIncomingHttpRequestFilter2(parameters); return true; default: return false; } } bool OrthancPlugins::InvokeProtectedService(SharedLibrary& plugin, _OrthancPluginService service, const void* parameters) { // Services that must be run in mutual exclusion. Guideline: // Whenever "pimpl_" is directly accessed by the service, it // should be listed here. switch (service) { case _OrthancPluginService_RegisterRestCallback: RegisterRestCallback(parameters, true); return true; case _OrthancPluginService_RegisterRestCallbackNoLock: RegisterRestCallback(parameters, false); return true; case _OrthancPluginService_RegisterChunkedRestCallback: RegisterChunkedRestCallback(parameters); return true; case _OrthancPluginService_RegisterOnStoredInstanceCallback: RegisterOnStoredInstanceCallback(parameters); return true; case _OrthancPluginService_RegisterOnChangeCallback: RegisterOnChangeCallback(parameters); return true; case _OrthancPluginService_RegisterWorklistCallback: RegisterWorklistCallback(parameters); return true; case _OrthancPluginService_RegisterFindCallback: RegisterFindCallback(parameters); return true; case _OrthancPluginService_RegisterMoveCallback: RegisterMoveCallback(parameters); return true; case _OrthancPluginService_RegisterDecodeImageCallback: RegisterDecodeImageCallback(parameters); return true; case _OrthancPluginService_RegisterTranscoderCallback: RegisterTranscoderCallback(parameters); return true; case _OrthancPluginService_RegisterJobsUnserializer: RegisterJobsUnserializer(parameters); return true; case _OrthancPluginService_RegisterIncomingDicomInstanceFilter: RegisterIncomingDicomInstanceFilter(parameters); return true; case _OrthancPluginService_RegisterRefreshMetricsCallback: RegisterRefreshMetricsCallback(parameters); return true; case _OrthancPluginService_RegisterStorageCommitmentScpCallback: RegisterStorageCommitmentScpCallback(parameters); return true; case _OrthancPluginService_RegisterStorageArea: case _OrthancPluginService_RegisterStorageArea2: { CLOG(INFO, PLUGINS) << "Plugin has registered a custom storage area"; if (pimpl_->storageArea_.get() == NULL) { if (service == _OrthancPluginService_RegisterStorageArea) { const _OrthancPluginRegisterStorageArea& p = *reinterpret_cast<const _OrthancPluginRegisterStorageArea*>(parameters); pimpl_->storageArea_.reset(new StorageAreaFactory(plugin, p, GetErrorDictionary())); } else if (service == _OrthancPluginService_RegisterStorageArea2) { const _OrthancPluginRegisterStorageArea2& p = *reinterpret_cast<const _OrthancPluginRegisterStorageArea2*>(parameters); pimpl_->storageArea_.reset(new StorageAreaFactory(plugin, p, GetErrorDictionary())); } else { throw OrthancException(ErrorCode_InternalError); } } else { throw OrthancException(ErrorCode_StorageAreaAlreadyRegistered); } return true; } case _OrthancPluginService_SetPluginProperty: { const _OrthancPluginSetPluginProperty& p = *reinterpret_cast<const _OrthancPluginSetPluginProperty*>(parameters); pimpl_->properties_[std::make_pair(p.plugin, p.property)] = p.value; return true; } case _OrthancPluginService_GetCommandLineArgumentsCount: { const _OrthancPluginReturnSingleValue& p = *reinterpret_cast<const _OrthancPluginReturnSingleValue*>(parameters); *(p.resultUint32) = pimpl_->argc_ - 1; return true; } case _OrthancPluginService_GetCommandLineArgument: { const _OrthancPluginGlobalProperty& p = *reinterpret_cast<const _OrthancPluginGlobalProperty*>(parameters); if (p.property + 1 > pimpl_->argc_) { return false; } else { std::string arg = std::string(pimpl_->argv_[p.property + 1]); *(p.result) = CopyString(arg); return true; } } case _OrthancPluginService_RegisterDatabaseBackend: { LOG(WARNING) << "Performance warning: Plugin has registered a custom database back-end with an old API"; LOG(WARNING) << "The database backend has *no* support for revisions of metadata and attachments"; const _OrthancPluginRegisterDatabaseBackend& p = *reinterpret_cast<const _OrthancPluginRegisterDatabaseBackend*>(parameters); if (pimpl_->database_.get() == NULL && pimpl_->databaseV3_.get() == NULL) { pimpl_->database_.reset(new OrthancPluginDatabase(plugin, GetErrorDictionary(), *p.backend, NULL, 0, p.payload)); } else { throw OrthancException(ErrorCode_DatabaseBackendAlreadyRegistered); } *(p.result) = reinterpret_cast<OrthancPluginDatabaseContext*>(pimpl_->database_.get()); return true; } case _OrthancPluginService_RegisterDatabaseBackendV2: { LOG(WARNING) << "Performance warning: Plugin has registered a custom database back-end with an old API"; LOG(WARNING) << "The database backend has *no* support for revisions of metadata and attachments"; const _OrthancPluginRegisterDatabaseBackendV2& p = *reinterpret_cast<const _OrthancPluginRegisterDatabaseBackendV2*>(parameters); if (pimpl_->database_.get() == NULL && pimpl_->databaseV3_.get() == NULL) { pimpl_->database_.reset(new OrthancPluginDatabase(plugin, GetErrorDictionary(), *p.backend, p.extensions, p.extensionsSize, p.payload)); } else { throw OrthancException(ErrorCode_DatabaseBackendAlreadyRegistered); } *(p.result) = reinterpret_cast<OrthancPluginDatabaseContext*>(pimpl_->database_.get()); return true; } case _OrthancPluginService_RegisterDatabaseBackendV3: { CLOG(INFO, PLUGINS) << "Plugin has registered a custom database back-end"; const _OrthancPluginRegisterDatabaseBackendV3& p = *reinterpret_cast<const _OrthancPluginRegisterDatabaseBackendV3*>(parameters); if (pimpl_->database_.get() == NULL && pimpl_->databaseV3_.get() == NULL) { pimpl_->databaseV3_.reset(new OrthancPluginDatabaseV3(plugin, GetErrorDictionary(), p.backend, p.backendSize, p.database, pimpl_->databaseServerIdentifier_)); pimpl_->maxDatabaseRetries_ = p.maxDatabaseRetries; } else { throw OrthancException(ErrorCode_DatabaseBackendAlreadyRegistered); } return true; } case _OrthancPluginService_DatabaseAnswer: throw OrthancException(ErrorCode_InternalError); // Implemented before locking (*) case _OrthancPluginService_RegisterErrorCode: { const _OrthancPluginRegisterErrorCode& p = *reinterpret_cast<const _OrthancPluginRegisterErrorCode*>(parameters); *(p.target) = pimpl_->dictionary_.Register(plugin, p.code, p.httpStatus, p.message); return true; } case _OrthancPluginService_RegisterDictionaryTag: { const _OrthancPluginRegisterDictionaryTag& p = *reinterpret_cast<const _OrthancPluginRegisterDictionaryTag*>(parameters); FromDcmtkBridge::RegisterDictionaryTag(DicomTag(p.group, p.element), Plugins::Convert(p.vr), p.name, p.minMultiplicity, p.maxMultiplicity, ""); return true; } case _OrthancPluginService_RegisterPrivateDictionaryTag: { const _OrthancPluginRegisterPrivateDictionaryTag& p = *reinterpret_cast<const _OrthancPluginRegisterPrivateDictionaryTag*>(parameters); FromDcmtkBridge::RegisterDictionaryTag(DicomTag(p.group, p.element), Plugins::Convert(p.vr), p.name, p.minMultiplicity, p.maxMultiplicity, p.privateCreator); return true; } case _OrthancPluginService_ReconstructMainDicomTags: { const _OrthancPluginReconstructMainDicomTags& p = *reinterpret_cast<const _OrthancPluginReconstructMainDicomTags*>(parameters); if (pimpl_->database_.get() == NULL) { throw OrthancException(ErrorCode_DatabasePlugin, "The service ReconstructMainDicomTags can only be invoked by custom database plugins"); } VoidDatabaseListener listener; { IStorageArea& storage = *reinterpret_cast<IStorageArea*>(p.storageArea); std::unique_ptr<IDatabaseWrapper::ITransaction> transaction( pimpl_->database_->StartTransaction(TransactionType_ReadWrite, listener)); ServerToolbox::ReconstructMainDicomTags(*transaction, storage, Plugins::Convert(p.level)); transaction->Commit(0); } return true; } case _OrthancPluginService_GenerateRestApiAuthorizationToken: { const _OrthancPluginRetrieveDynamicString& p = *reinterpret_cast<const _OrthancPluginRetrieveDynamicString*>(parameters); const std::string token = Toolbox::GenerateUuid(); pimpl_->authorizationTokens_.insert(token); *p.result = CopyString("Bearer " + token); return true; } default: { // This service is unknown to the Orthanc plugin engine return false; } } } bool OrthancPlugins::InvokeService(SharedLibrary& plugin, _OrthancPluginService service, const void* parameters) { CLOG(TRACE, PLUGINS) << "Calling service " << service << " from plugin " << plugin.GetPath(); if (service == _OrthancPluginService_DatabaseAnswer) { // This case solves a deadlock at (*) reported by James Webster // on 2015-10-27 that was present in versions of Orthanc <= // 0.9.4 and related to database plugins implementing a custom // index. The problem was that locking the database is already // ensured by the "ServerIndex" class if the invoked service is // "DatabaseAnswer". DatabaseAnswer(parameters); return true; } if (InvokeSafeService(plugin, service, parameters)) { // The invoked service does not require locking return true; } else { // The invoked service requires locking boost::recursive_mutex::scoped_lock lock(pimpl_->invokeServiceMutex_); // (*) return InvokeProtectedService(plugin, service, parameters); } } bool OrthancPlugins::HasStorageArea() const { boost::recursive_mutex::scoped_lock lock(pimpl_->invokeServiceMutex_); return pimpl_->storageArea_.get() != NULL; } bool OrthancPlugins::HasDatabaseBackend() const { boost::recursive_mutex::scoped_lock lock(pimpl_->invokeServiceMutex_); return (pimpl_->database_.get() != NULL || pimpl_->databaseV3_.get() != NULL); } IStorageArea* OrthancPlugins::CreateStorageArea() { if (!HasStorageArea()) { throw OrthancException(ErrorCode_BadSequenceOfCalls); } else { return pimpl_->storageArea_->Create(); } } const SharedLibrary& OrthancPlugins::GetStorageAreaLibrary() const { if (!HasStorageArea()) { throw OrthancException(ErrorCode_BadSequenceOfCalls); } else { return pimpl_->storageArea_->GetSharedLibrary(); } } IDatabaseWrapper& OrthancPlugins::GetDatabaseBackend() { if (pimpl_->database_.get() != NULL) { return *pimpl_->database_; } else if (pimpl_->databaseV3_.get() != NULL) { return *pimpl_->databaseV3_; } else { throw OrthancException(ErrorCode_BadSequenceOfCalls); } } const SharedLibrary& OrthancPlugins::GetDatabaseBackendLibrary() const { if (pimpl_->database_.get() != NULL) { return pimpl_->database_->GetSharedLibrary(); } else if (pimpl_->databaseV3_.get() != NULL) { return pimpl_->databaseV3_->GetSharedLibrary(); } else { throw OrthancException(ErrorCode_BadSequenceOfCalls); } } const char* OrthancPlugins::GetProperty(const char* plugin, _OrthancPluginProperty property) const { PImpl::Property p = std::make_pair(plugin, property); PImpl::Properties::const_iterator it = pimpl_->properties_.find(p); if (it == pimpl_->properties_.end()) { return NULL; } else { return it->second.c_str(); } } void OrthancPlugins::SetCommandLineArguments(int argc, char* argv[]) { if (argc < 1 || argv == NULL) { throw OrthancException(ErrorCode_ParameterOutOfRange); } pimpl_->argc_ = argc; pimpl_->argv_ = argv; } PluginsManager& OrthancPlugins::GetManager() { return pimpl_->manager_; } const PluginsManager& OrthancPlugins::GetManager() const { return pimpl_->manager_; } PluginsErrorDictionary& OrthancPlugins::GetErrorDictionary() { return pimpl_->dictionary_; } IWorklistRequestHandler* OrthancPlugins::ConstructWorklistRequestHandler() { if (HasWorklistHandler()) { return new WorklistHandler(*this); } else { return NULL; } } bool OrthancPlugins::HasWorklistHandler() { boost::mutex::scoped_lock lock(pimpl_->worklistCallbackMutex_); return pimpl_->worklistCallback_ != NULL; } IFindRequestHandler* OrthancPlugins::ConstructFindRequestHandler() { if (HasFindHandler()) { return new FindHandler(*this); } else { return NULL; } } bool OrthancPlugins::HasFindHandler() { boost::mutex::scoped_lock lock(pimpl_->findCallbackMutex_); return pimpl_->findCallback_ != NULL; } IMoveRequestHandler* OrthancPlugins::ConstructMoveRequestHandler() { if (HasMoveHandler()) { return new MoveHandler(*this); } else { return NULL; } } bool OrthancPlugins::HasMoveHandler() { boost::recursive_mutex::scoped_lock lock(pimpl_->invokeServiceMutex_); return pimpl_->moveCallbacks_.callback != NULL; } bool OrthancPlugins::HasCustomImageDecoder() { boost::shared_lock<boost::shared_mutex> lock(pimpl_->decoderTranscoderMutex_); return !pimpl_->decodeImageCallbacks_.empty(); } bool OrthancPlugins::HasCustomTranscoder() { boost::shared_lock<boost::shared_mutex> lock(pimpl_->decoderTranscoderMutex_); return !pimpl_->transcoderCallbacks_.empty(); } ImageAccessor* OrthancPlugins::Decode(const void* dicom, size_t size, unsigned int frame) { boost::shared_lock<boost::shared_mutex> lock(pimpl_->decoderTranscoderMutex_); for (PImpl::DecodeImageCallbacks::const_iterator decoder = pimpl_->decodeImageCallbacks_.begin(); decoder != pimpl_->decodeImageCallbacks_.end(); ++decoder) { OrthancPluginImage* pluginImage = NULL; if ((*decoder) (&pluginImage, dicom, size, frame) == OrthancPluginErrorCode_Success && pluginImage != NULL) { return reinterpret_cast<ImageAccessor*>(pluginImage); } } return NULL; } bool OrthancPlugins::IsAllowed(HttpMethod method, const char* uri, const char* ip, const char* username, const HttpToolbox::Arguments& httpHeaders, const HttpToolbox::GetArguments& getArguments) { OrthancPluginHttpMethod cMethod = Plugins::Convert(method); std::vector<const char*> httpKeys(httpHeaders.size()); std::vector<const char*> httpValues(httpHeaders.size()); size_t pos = 0; for (HttpToolbox::Arguments::const_iterator it = httpHeaders.begin(); it != httpHeaders.end(); ++it, pos++) { httpKeys[pos] = it->first.c_str(); httpValues[pos] = it->second.c_str(); } std::vector<const char*> getKeys(getArguments.size()); std::vector<const char*> getValues(getArguments.size()); for (size_t i = 0; i < getArguments.size(); i++) { getKeys[i] = getArguments[i].first.c_str(); getValues[i] = getArguments[i].second.c_str(); } { boost::shared_lock<boost::shared_mutex> lock(pimpl_->incomingHttpRequestFilterMutex_); // Improved callback with support for GET arguments, since Orthanc 1.3.0 for (PImpl::IncomingHttpRequestFilters2::const_iterator filter = pimpl_->incomingHttpRequestFilters2_.begin(); filter != pimpl_->incomingHttpRequestFilters2_.end(); ++filter) { int32_t allowed = (*filter) (cMethod, uri, ip, httpKeys.size(), httpKeys.empty() ? NULL : &httpKeys[0], httpValues.empty() ? NULL : &httpValues[0], getKeys.size(), getKeys.empty() ? NULL : &getKeys[0], getValues.empty() ? NULL : &getValues[0]); if (allowed == 0) { return false; } else if (allowed != 1) { // The callback is only allowed to answer 0 or 1 throw OrthancException(ErrorCode_Plugin); } } for (PImpl::IncomingHttpRequestFilters::const_iterator filter = pimpl_->incomingHttpRequestFilters_.begin(); filter != pimpl_->incomingHttpRequestFilters_.end(); ++filter) { int32_t allowed = (*filter) (cMethod, uri, ip, httpKeys.size(), httpKeys.empty() ? NULL : &httpKeys[0], httpValues.empty() ? NULL : &httpValues[0]); if (allowed == 0) { return false; } else if (allowed != 1) { // The callback is only allowed to answer 0 or 1 throw OrthancException(ErrorCode_Plugin); } } } return true; } IJob* OrthancPlugins::UnserializeJob(const std::string& type, const Json::Value& value) { const std::string serialized = value.toStyledString(); boost::mutex::scoped_lock lock(pimpl_->jobsUnserializersMutex_); for (PImpl::JobsUnserializers::iterator unserializer = pimpl_->jobsUnserializers_.begin(); unserializer != pimpl_->jobsUnserializers_.end(); ++unserializer) { OrthancPluginJob* job = (*unserializer) (type.c_str(), serialized.c_str()); if (job != NULL) { return reinterpret_cast<PluginsJob*>(job); } } return NULL; } void OrthancPlugins::RefreshMetrics() { boost::mutex::scoped_lock lock(pimpl_->refreshMetricsMutex_); for (PImpl::RefreshMetricsCallbacks::iterator it = pimpl_->refreshMetricsCallbacks_.begin(); it != pimpl_->refreshMetricsCallbacks_.end(); ++it) { if (*it != NULL) { (*it) (); } } } class OrthancPlugins::HttpServerChunkedReader : public IHttpHandler::IChunkedRequestReader { private: OrthancPluginServerChunkedRequestReader* reader_; _OrthancPluginChunkedRestCallback parameters_; PluginsErrorDictionary& errorDictionary_; public: HttpServerChunkedReader(OrthancPluginServerChunkedRequestReader* reader, const _OrthancPluginChunkedRestCallback& parameters, PluginsErrorDictionary& errorDictionary) : reader_(reader), parameters_(parameters), errorDictionary_(errorDictionary) { assert(reader_ != NULL); } virtual ~HttpServerChunkedReader() { assert(reader_ != NULL); parameters_.finalize(reader_); } virtual void AddBodyChunk(const void* data, size_t size) ORTHANC_OVERRIDE { if (static_cast<uint32_t>(size) != size) { throw OrthancException(ErrorCode_NotEnoughMemory, ERROR_MESSAGE_64BIT); } assert(reader_ != NULL); parameters_.addChunk(reader_, data, size); } virtual void Execute(HttpOutput& output) ORTHANC_OVERRIDE { assert(reader_ != NULL); PImpl::PluginHttpOutput pluginOutput(output); OrthancPluginErrorCode error = parameters_.execute( reader_, reinterpret_cast<OrthancPluginRestOutput*>(&pluginOutput)); pluginOutput.Close(error, errorDictionary_); } }; bool OrthancPlugins::CreateChunkedRequestReader(std::unique_ptr<IChunkedRequestReader>& target, RequestOrigin origin, const char* remoteIp, const char* username, HttpMethod method, const UriComponents& uri, const HttpToolbox::Arguments& headers) { if (method != HttpMethod_Post && method != HttpMethod_Put) { throw OrthancException(ErrorCode_InternalError); } RestCallbackMatcher matcher(uri); PImpl::ChunkedRestCallback* callback = NULL; // Loop over the callbacks registered by the plugins boost::shared_lock<boost::shared_mutex> lock(pimpl_->restCallbackRegistrationMutex_); for (PImpl::ChunkedRestCallbacks::const_iterator it = pimpl_->chunkedRestCallbacks_.begin(); it != pimpl_->chunkedRestCallbacks_.end(); ++it) { if (matcher.IsMatch((*it)->GetRegularExpression())) { callback = *it; break; } } if (callback == NULL) { // Callback not found return false; } else { OrthancPluginServerChunkedRequestReaderFactory handler; switch (method) { case HttpMethod_Post: handler = callback->GetParameters().postHandler; break; case HttpMethod_Put: handler = callback->GetParameters().putHandler; break; default: handler = NULL; break; } if (handler == NULL) { return false; } else { CLOG(INFO, PLUGINS) << "Delegating chunked HTTP request to plugin for URI: " << matcher.GetFlatUri(); HttpRequestConverter converter(matcher, method, headers); converter.GetRequest().body = NULL; converter.GetRequest().bodySize = 0; OrthancPluginServerChunkedRequestReader* reader = NULL; OrthancPluginErrorCode errorCode = handler( &reader, matcher.GetFlatUri().c_str(), &converter.GetRequest()); if (errorCode != OrthancPluginErrorCode_Success) { throw OrthancException(static_cast<ErrorCode>(errorCode)); } else if (reader == NULL) { // The plugin has not created a reader for chunked body return false; } else { target.reset(new HttpServerChunkedReader(reader, callback->GetParameters(), GetErrorDictionary())); return true; } } } } IStorageCommitmentFactory::ILookupHandler* OrthancPlugins::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) { boost::mutex::scoped_lock lock(pimpl_->storageCommitmentScpMutex_); for (PImpl::StorageCommitmentScpCallbacks::iterator it = pimpl_->storageCommitmentScpCallbacks_.begin(); it != pimpl_->storageCommitmentScpCallbacks_.end(); ++it) { assert(*it != NULL); IStorageCommitmentFactory::ILookupHandler* handler = (*it)->CreateStorageCommitment (jobId, transactionUid, sopClassUids, sopInstanceUids, remoteAet, calledAet); if (handler != NULL) { return handler; } } return NULL; } bool OrthancPlugins::TranscodeBuffer(std::string& target, const void* buffer, size_t size, const std::set<DicomTransferSyntax>& allowedSyntaxes, bool allowNewSopInstanceUid) { boost::shared_lock<boost::shared_mutex> lock(pimpl_->decoderTranscoderMutex_); if (pimpl_->transcoderCallbacks_.empty()) { return false; } std::vector<const char*> uids; uids.reserve(allowedSyntaxes.size()); for (std::set<DicomTransferSyntax>::const_iterator it = allowedSyntaxes.begin(); it != allowedSyntaxes.end(); ++it) { uids.push_back(GetTransferSyntaxUid(*it)); } for (PImpl::TranscoderCallbacks::const_iterator transcoder = pimpl_->transcoderCallbacks_.begin(); transcoder != pimpl_->transcoderCallbacks_.end(); ++transcoder) { MemoryBufferRaii a; if ((*transcoder) (a.GetObject(), buffer, size, uids.empty() ? NULL : &uids[0], static_cast<uint32_t>(uids.size()), allowNewSopInstanceUid) == OrthancPluginErrorCode_Success) { a.ToString(target); return true; } } return false; } bool OrthancPlugins::IsValidAuthorizationToken(const std::string& token) const { boost::recursive_mutex::scoped_lock lock(pimpl_->invokeServiceMutex_); return (pimpl_->authorizationTokens_.find(token) != pimpl_->authorizationTokens_.end()); } unsigned int OrthancPlugins::GetMaxDatabaseRetries() const { boost::recursive_mutex::scoped_lock lock(pimpl_->invokeServiceMutex_); return pimpl_->maxDatabaseRetries_; } }