Mercurial > hg > orthanc
view OrthancServer/Sources/OrthancRestApi/OrthancRestResources.cpp @ 5229:365eb5ea5492 db-protobuf
integration mainline->db-protobuf
author | Sebastien Jodogne <s.jodogne@gmail.com> |
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date | Tue, 04 Apr 2023 09:46:40 +0200 |
parents | 988dab8deb1c |
children | a7d95f951f8a |
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line source
/** * Orthanc - A Lightweight, RESTful DICOM Store * Copyright (C) 2012-2016 Sebastien Jodogne, Medical Physics * Department, University Hospital of Liege, Belgium * Copyright (C) 2017-2023 Osimis S.A., Belgium * Copyright (C) 2021-2023 Sebastien Jodogne, ICTEAM UCLouvain, Belgium * * This program is free software: you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation, either version 3 of the * License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see <http://www.gnu.org/licenses/>. **/ #include "../PrecompiledHeadersServer.h" #include "OrthancRestApi.h" #include "../../../OrthancFramework/Sources/Compression/GzipCompressor.h" #include "../../../OrthancFramework/Sources/DicomFormat/DicomImageInformation.h" #include "../../../OrthancFramework/Sources/DicomParsing/DicomWebJsonVisitor.h" #include "../../../OrthancFramework/Sources/DicomParsing/FromDcmtkBridge.h" #include "../../../OrthancFramework/Sources/DicomParsing/Internals/DicomImageDecoder.h" #include "../../../OrthancFramework/Sources/HttpServer/HttpContentNegociation.h" #include "../../../OrthancFramework/Sources/Images/Image.h" #include "../../../OrthancFramework/Sources/Images/ImageProcessing.h" #include "../../../OrthancFramework/Sources/Images/NumpyWriter.h" #include "../../../OrthancFramework/Sources/Logging.h" #include "../../../OrthancFramework/Sources/MultiThreading/Semaphore.h" #include "../../../OrthancFramework/Sources/SerializationToolbox.h" #include "../OrthancConfiguration.h" #include "../Search/DatabaseLookup.h" #include "../ServerContext.h" #include "../ServerToolbox.h" #include "../SliceOrdering.h" // This "include" is mandatory for Release builds using Linux Standard Base #include <boost/math/special_functions/round.hpp> #include <boost/shared_ptr.hpp> /** * This semaphore is used to limit the number of concurrent HTTP * requests on CPU-intensive routes of the REST API, in order to * prevent exhaustion of resources (new in Orthanc 1.7.0). **/ static Orthanc::Semaphore throttlingSemaphore_(4); // TODO => PARAMETER? static const std::string CHECK_REVISIONS = "CheckRevisions"; static const char* const IGNORE_LENGTH = "ignore-length"; static const char* const RECONSTRUCT_FILES = "ReconstructFiles"; namespace Orthanc { static std::string GetDocumentationSampleResource(ResourceType type) { switch (type) { case Orthanc::ResourceType_Instance: return "https://demo.orthanc-server.com/instances/d94d9a03-3003b047-a4affc69-322313b2-680530a2"; break; case Orthanc::ResourceType_Series: return "https://demo.orthanc-server.com/series/37836232-d13a2350-fa1dedc5-962b31aa-010f8e52"; break; case Orthanc::ResourceType_Study: return "https://demo.orthanc-server.com/studies/27f7126f-4f66fb14-03f4081b-f9341db2-53925988"; break; case Orthanc::ResourceType_Patient: return "https://demo.orthanc-server.com/patients/46e6332c-677825b6-202fcf7c-f787bc5f-7b07c382"; break; default: throw OrthancException(ErrorCode_ParameterOutOfRange); } } static void AnswerDicomAsJson(RestApiCall& call, const Json::Value& dicom, DicomToJsonFormat mode) { if (mode != DicomToJsonFormat_Full) { Json::Value simplified; Toolbox::SimplifyDicomAsJson(simplified, dicom, mode); call.GetOutput().AnswerJson(simplified); } else { call.GetOutput().AnswerJson(dicom); } } static void ParseSetOfTags(std::set<DicomTag>& target, const RestApiGetCall& call, const std::string& argument) { target.clear(); if (call.HasArgument(argument)) { std::vector<std::string> tags; Toolbox::TokenizeString(tags, call.GetArgument(argument, ""), ','); for (size_t i = 0; i < tags.size(); i++) { target.insert(FromDcmtkBridge::ParseTag(tags[i])); } } } // List all the patients, studies, series or instances ---------------------- static void AnswerListOfResources(RestApiOutput& output, ServerContext& context, const std::list<std::string>& resources, const std::map<std::string, std::string>& instancesIds, // optional: the id of an instance for each found resource. const std::map<std::string, boost::shared_ptr<DicomMap> >& resourcesMainDicomTags, // optional: all tags read from DB for a resource (current level and upper levels) const std::map<std::string, boost::shared_ptr<Json::Value> >& resourcesDicomAsJson, // optional: the dicom-as-json for each resource ResourceType level, bool expand, DicomToJsonFormat format, const std::set<DicomTag>& requestedTags, bool allowStorageAccess) { Json::Value answer = Json::arrayValue; for (std::list<std::string>::const_iterator resource = resources.begin(); resource != resources.end(); ++resource) { if (expand) { Json::Value expanded; std::map<std::string, std::string>::const_iterator instanceId = instancesIds.find(*resource); if (instanceId != instancesIds.end()) // if it is found in instancesIds, it is also in resourcesDicomAsJson and mainDicomTags { // reuse data already collected before (e.g during lookup) std::map<std::string, boost::shared_ptr<DicomMap> >::const_iterator mainDicomTags = resourcesMainDicomTags.find(*resource); std::map<std::string, boost::shared_ptr<Json::Value> >::const_iterator dicomAsJson = resourcesDicomAsJson.find(*resource); context.ExpandResource(expanded, *resource, *(mainDicomTags->second.get()), instanceId->second, dicomAsJson->second.get(), level, format, requestedTags, allowStorageAccess); } else { context.ExpandResource(expanded, *resource, level, format, requestedTags, allowStorageAccess); } if (expanded.type() == Json::objectValue) { answer.append(expanded); } } else { answer.append(*resource); } } output.AnswerJson(answer); } static void AnswerListOfResources(RestApiOutput& output, ServerContext& context, const std::list<std::string>& resources, ResourceType level, bool expand, DicomToJsonFormat format, const std::set<DicomTag>& requestedTags, bool allowStorageAccess) { std::map<std::string, std::string> unusedInstancesIds; std::map<std::string, boost::shared_ptr<DicomMap> > unusedResourcesMainDicomTags; std::map<std::string, boost::shared_ptr<Json::Value> > unusedResourcesDicomAsJson; AnswerListOfResources(output, context, resources, unusedInstancesIds, unusedResourcesMainDicomTags, unusedResourcesDicomAsJson, level, expand, format, requestedTags, allowStorageAccess); } template <enum ResourceType resourceType> static void ListResources(RestApiGetCall& call) { if (call.IsDocumentation()) { OrthancRestApi::DocumentDicomFormat(call, DicomToJsonFormat_Human); OrthancRestApi::DocumentRequestedTags(call); const std::string resources = GetResourceTypeText(resourceType, true /* plural */, false /* lower case */); call.GetDocumentation() .SetTag(GetResourceTypeText(resourceType, true /* plural */, true /* upper case */)) .SetSummary("List the available " + resources) .SetDescription("List the Orthanc identifiers of all the available DICOM " + resources) .SetHttpGetArgument("limit", RestApiCallDocumentation::Type_Number, "Limit the number of results", false) .SetHttpGetArgument("since", RestApiCallDocumentation::Type_Number, "Show only the resources since the provided index", false) .SetHttpGetArgument("expand", RestApiCallDocumentation::Type_String, "If present, retrieve detailed information about the individual " + resources, false) .AddAnswerType(MimeType_Json, "JSON array containing either the Orthanc identifiers, or detailed information " "about the reported " + resources + " (if `expand` argument is provided)") .SetHttpGetSample("https://demo.orthanc-server.com/" + resources + "?since=0&limit=2", true); return; } ServerIndex& index = OrthancRestApi::GetIndex(call); ServerContext& context = OrthancRestApi::GetContext(call); std::list<std::string> result; std::set<DicomTag> requestedTags; OrthancRestApi::GetRequestedTags(requestedTags, call); if (call.HasArgument("limit") || call.HasArgument("since")) { if (!call.HasArgument("limit")) { throw OrthancException(ErrorCode_BadRequest, "Missing \"limit\" argument for GET request against: " + call.FlattenUri()); } if (!call.HasArgument("since")) { throw OrthancException(ErrorCode_BadRequest, "Missing \"since\" argument for GET request against: " + call.FlattenUri()); } size_t since = boost::lexical_cast<size_t>(call.GetArgument("since", "")); size_t limit = boost::lexical_cast<size_t>(call.GetArgument("limit", "")); index.GetAllUuids(result, resourceType, since, limit); } else { index.GetAllUuids(result, resourceType); } AnswerListOfResources(call.GetOutput(), context, result, resourceType, call.HasArgument("expand"), OrthancRestApi::GetDicomFormat(call, DicomToJsonFormat_Human), requestedTags, true /* allowStorageAccess */); } template <enum ResourceType resourceType> static void GetSingleResource(RestApiGetCall& call) { if (call.IsDocumentation()) { OrthancRestApi::DocumentDicomFormat(call, DicomToJsonFormat_Human); OrthancRestApi::DocumentRequestedTags(call); const std::string resource = GetResourceTypeText(resourceType, false /* plural */, false /* lower case */); call.GetDocumentation() .SetTag(GetResourceTypeText(resourceType, true /* plural */, true /* upper case */)) .SetSummary("Get information about some " + resource) .SetDescription("Get detailed information about the DICOM " + resource + " whose Orthanc identifier is provided in the URL") .SetUriArgument("id", "Orthanc identifier of the " + resource + " of interest") .AddAnswerType(MimeType_Json, "Information about the DICOM " + resource) .SetHttpGetSample(GetDocumentationSampleResource(resourceType), true); return; } const DicomToJsonFormat format = OrthancRestApi::GetDicomFormat(call, DicomToJsonFormat_Human); std::set<DicomTag> requestedTags; OrthancRestApi::GetRequestedTags(requestedTags, call); Json::Value json; if (OrthancRestApi::GetContext(call).ExpandResource( json, call.GetUriComponent("id", ""), resourceType, format, requestedTags, true /* allowStorageAccess */)) { call.GetOutput().AnswerJson(json); } } template <enum ResourceType resourceType> static void DeleteSingleResource(RestApiDeleteCall& call) { if (call.IsDocumentation()) { const std::string resource = GetResourceTypeText(resourceType, false /* plural */, false /* lower case */); call.GetDocumentation() .SetTag(GetResourceTypeText(resourceType, true /* plural */, true /* upper case */)) .SetSummary("Delete some " + resource) .SetDescription("Delete the DICOM " + resource + " whose Orthanc identifier is provided in the URL") .SetUriArgument("id", "Orthanc identifier of the " + resource + " of interest"); return; } Json::Value remainingAncestor; if (OrthancRestApi::GetContext(call).DeleteResource(remainingAncestor, call.GetUriComponent("id", ""), resourceType)) { call.GetOutput().AnswerJson(remainingAncestor); } } // Get information about a single patient ----------------------------------- static void IsProtectedPatient(RestApiGetCall& call) { if (call.IsDocumentation()) { call.GetDocumentation() .SetTag("Patients") .SetSummary("Is the patient protected against recycling?") .SetUriArgument("id", "Orthanc identifier of the patient of interest") .AddAnswerType(MimeType_PlainText, "`1` if protected, `0` if not protected"); return; } std::string publicId = call.GetUriComponent("id", ""); bool isProtected = OrthancRestApi::GetIndex(call).IsProtectedPatient(publicId); call.GetOutput().AnswerBuffer(isProtected ? "1" : "0", MimeType_PlainText); } static void SetPatientProtection(RestApiPutCall& call) { if (call.IsDocumentation()) { call.GetDocumentation() .SetTag("Patients") .SetSummary("Protect one patient against recycling") .SetDescription("Check out configuration options `MaximumStorageSize` and `MaximumPatientCount`") .SetUriArgument("id", "Orthanc identifier of the patient of interest"); return; } ServerContext& context = OrthancRestApi::GetContext(call); std::string publicId = call.GetUriComponent("id", ""); context.GetIndex().SetProtectedPatient(publicId, call.ParseBooleanBody()); call.GetOutput().AnswerBuffer("", MimeType_PlainText); } // Get information about a single instance ---------------------------------- static void GetInstanceFile(RestApiGetCall& call) { if (call.IsDocumentation()) { call.GetDocumentation() .SetTag("Instances") .SetSummary("Download DICOM") .SetDescription("Download one DICOM instance") .SetUriArgument("id", "Orthanc identifier of the DICOM instance of interest") .SetHttpHeader("Accept", "This HTTP header can be set to retrieve the DICOM instance in DICOMweb format") .AddAnswerType(MimeType_Dicom, "The DICOM instance") .AddAnswerType(MimeType_DicomWebJson, "The DICOM instance, in DICOMweb JSON format") .AddAnswerType(MimeType_DicomWebXml, "The DICOM instance, in DICOMweb XML format"); return; } ServerContext& context = OrthancRestApi::GetContext(call); std::string publicId = call.GetUriComponent("id", ""); HttpToolbox::Arguments::const_iterator accept = call.GetHttpHeaders().find("accept"); if (accept != call.GetHttpHeaders().end()) { // New in Orthanc 1.5.4 try { MimeType mime = StringToMimeType(accept->second.c_str()); if (mime == MimeType_DicomWebJson || mime == MimeType_DicomWebXml) { DicomWebJsonVisitor visitor; { ServerContext::DicomCacheLocker locker(OrthancRestApi::GetContext(call), publicId); locker.GetDicom().Apply(visitor); } if (mime == MimeType_DicomWebJson) { std::string s = visitor.GetResult().toStyledString(); call.GetOutput().AnswerBuffer(s, MimeType_DicomWebJson); } else { std::string xml; visitor.FormatXml(xml); call.GetOutput().AnswerBuffer(xml, MimeType_DicomWebXml); } return; } } catch (OrthancException&) { } } context.AnswerAttachment(call.GetOutput(), publicId, FileContentType_Dicom); } static void ExportInstanceFile(RestApiPostCall& call) { if (call.IsDocumentation()) { call.GetDocumentation() .SetTag("Instances") .SetSummary("Write DICOM onto filesystem") .SetDescription("Write the DICOM file onto the filesystem where Orthanc is running. This is insecure for " "Orthanc servers that are remotely accessible since one could overwrite any system file. " "Since Orthanc 1.12.0, this route is disabled by default and can be enabled thanks to " "the `RestApiWriteToFileSystemEnabled` configuration.") .AddRequestType(MimeType_PlainText, "The Lua script to be executed") .SetUriArgument("id", "Orthanc identifier of the DICOM instance of interest") .AddRequestType(MimeType_PlainText, "Target path on the filesystem"); return; } ServerContext& context = OrthancRestApi::GetContext(call); if (!context.IsRestApiWriteToFileSystemEnabled()) { LOG(ERROR) << "The URI /instances/../export is disallowed for security, " << "check your configuration option `RestApiWriteToFileSystemEnabled`"; call.GetOutput().SignalError(HttpStatus_403_Forbidden); return; } std::string publicId = call.GetUriComponent("id", ""); std::string dicom; context.ReadDicom(dicom, publicId); std::string target; call.BodyToString(target); SystemToolbox::WriteFile(dicom, target); call.GetOutput().AnswerBuffer("{}", MimeType_Json); } template <DicomToJsonFormat format> static void GetInstanceTagsInternal(RestApiGetCall& call) { ServerContext& context = OrthancRestApi::GetContext(call); std::string publicId = call.GetUriComponent("id", ""); std::set<DicomTag> ignoreTagLength; ParseSetOfTags(ignoreTagLength, call, IGNORE_LENGTH); if (format != DicomToJsonFormat_Full || !ignoreTagLength.empty()) { Json::Value full; context.ReadDicomAsJson(full, publicId, ignoreTagLength); AnswerDicomAsJson(call, full, format); } else { // This path allows one to avoid the JSON decoding if no // simplification is asked, and if no "ignore-length" argument // is present Json::Value full; context.ReadDicomAsJson(full, publicId); call.GetOutput().AnswerJson(full); } } static void GetInstanceTags(RestApiGetCall& call) { if (call.IsDocumentation()) { OrthancRestApi::DocumentDicomFormat(call, DicomToJsonFormat_Full); call.GetDocumentation() .SetTag("Instances") .SetSummary("Get DICOM tags") .SetDescription("Get the DICOM tags in the specified format. By default, the `full` format is used, which " "combines hexadecimal tags with human-readable description.") .SetUriArgument("id", "Orthanc identifier of the DICOM instance of interest") .SetHttpGetArgument(IGNORE_LENGTH, RestApiCallDocumentation::Type_JsonListOfStrings, "Also include the DICOM tags that are provided in this list, even if their associated value is long", false) .AddAnswerType(MimeType_Json, "JSON object containing the DICOM tags and their associated value") .SetTruncatedJsonHttpGetSample("https://demo.orthanc-server.com/instances/7c92ce8e-bbf67ed2-ffa3b8c1-a3b35d94-7ff3ae26/tags", 10); return; } switch (OrthancRestApi::GetDicomFormat(call, DicomToJsonFormat_Full)) { case DicomToJsonFormat_Human: GetInstanceTagsInternal<DicomToJsonFormat_Human>(call); break; case DicomToJsonFormat_Short: GetInstanceTagsInternal<DicomToJsonFormat_Short>(call); break; case DicomToJsonFormat_Full: GetInstanceTagsInternal<DicomToJsonFormat_Full>(call); break; default: throw OrthancException(ErrorCode_InternalError); } } static void GetInstanceSimplifiedTags(RestApiGetCall& call) { if (call.IsDocumentation()) { call.GetDocumentation() .SetTag("Instances") .SetSummary("Get human-readable tags") .SetDescription("Get the DICOM tags in human-readable format (same as the `/instances/{id}/tags?simplify` route)") .SetUriArgument("id", "Orthanc identifier of the DICOM instance of interest") .SetHttpGetArgument(IGNORE_LENGTH, RestApiCallDocumentation::Type_JsonListOfStrings, "Also include the DICOM tags that are provided in this list, even if their associated value is long", false) .AddAnswerType(MimeType_Json, "JSON object containing the DICOM tags and their associated value") .SetTruncatedJsonHttpGetSample("https://demo.orthanc-server.com/instances/7c92ce8e-bbf67ed2-ffa3b8c1-a3b35d94-7ff3ae26/simplified-tags", 10); return; } else { GetInstanceTagsInternal<DicomToJsonFormat_Human>(call); } } static void ListFrames(RestApiGetCall& call) { if (call.IsDocumentation()) { call.GetDocumentation() .SetTag("Instances") .SetSummary("List available frames") .SetDescription("List the frames that are available in the DICOM instance of interest") .SetUriArgument("id", "Orthanc identifier of the DICOM instance of interest") .AddAnswerType(MimeType_Json, "The list of the indices of the available frames") .SetHttpGetSample("https://demo.orthanc-server.com/instances/7c92ce8e-bbf67ed2-ffa3b8c1-a3b35d94-7ff3ae26/frames", true); return; } std::string publicId = call.GetUriComponent("id", ""); unsigned int numberOfFrames; { ServerContext::DicomCacheLocker locker(OrthancRestApi::GetContext(call), publicId); numberOfFrames = locker.GetDicom().GetFramesCount(); } Json::Value result = Json::arrayValue; for (unsigned int i = 0; i < numberOfFrames; i++) { result.append(i); } call.GetOutput().AnswerJson(result); } namespace { class ImageToEncode { private: std::unique_ptr<ImageAccessor>& image_; ImageExtractionMode mode_; bool invert_; MimeType format_; std::string answer_; public: ImageToEncode(std::unique_ptr<ImageAccessor>& image, ImageExtractionMode mode, bool invert) : image_(image), mode_(mode), invert_(invert), format_(MimeType_Binary) { } void Answer(RestApiOutput& output) { output.AnswerBuffer(answer_, format_); } void EncodeUsingPng() { format_ = MimeType_Png; DicomImageDecoder::ExtractPngImage(answer_, image_, mode_, invert_); } void EncodeUsingPam() { format_ = MimeType_Pam; DicomImageDecoder::ExtractPamImage(answer_, image_, mode_, invert_); } void EncodeUsingJpeg(uint8_t quality) { format_ = MimeType_Jpeg; DicomImageDecoder::ExtractJpegImage(answer_, image_, mode_, invert_, quality); } }; class EncodePng : public HttpContentNegociation::IHandler { private: ImageToEncode& image_; public: explicit EncodePng(ImageToEncode& image) : image_(image) { } virtual void Handle(const std::string& type, const std::string& subtype) ORTHANC_OVERRIDE { assert(type == "image"); assert(subtype == "png"); image_.EncodeUsingPng(); } }; class EncodePam : public HttpContentNegociation::IHandler { private: ImageToEncode& image_; public: explicit EncodePam(ImageToEncode& image) : image_(image) { } virtual void Handle(const std::string& type, const std::string& subtype) ORTHANC_OVERRIDE { assert(type == "image"); assert(subtype == "x-portable-arbitrarymap"); image_.EncodeUsingPam(); } }; class EncodeJpeg : public HttpContentNegociation::IHandler { private: ImageToEncode& image_; unsigned int quality_; public: EncodeJpeg(ImageToEncode& image, const RestApiGetCall& call) : image_(image) { std::string v = call.GetArgument("quality", "90" /* default JPEG quality */); bool ok = false; try { quality_ = boost::lexical_cast<unsigned int>(v); ok = (quality_ >= 1 && quality_ <= 100); } catch (boost::bad_lexical_cast&) { } if (!ok) { throw OrthancException( ErrorCode_BadRequest, "Bad quality for a JPEG encoding (must be a number between 0 and 100): " + v); } } virtual void Handle(const std::string& type, const std::string& subtype) ORTHANC_OVERRIDE { assert(type == "image"); assert(subtype == "jpeg"); image_.EncodeUsingJpeg(quality_); } }; } namespace { class IDecodedFrameHandler : public boost::noncopyable { public: virtual ~IDecodedFrameHandler() { } // "dicom" is non-NULL iff. "RequiresDicomTags() == true" virtual void Handle(RestApiGetCall& call, std::unique_ptr<ImageAccessor>& decoded, const ParsedDicomFile* dicom, unsigned int frame) = 0; virtual bool RequiresDicomTags() const = 0; static void Apply(RestApiGetCall& call, IDecodedFrameHandler& handler, ImageExtractionMode mode /* for generation of documentation */, bool isRendered /* for generation of documentation */) { if (call.IsDocumentation()) { std::string m; if (!isRendered) { switch (mode) { case ImageExtractionMode_Preview: m = "preview"; break; case ImageExtractionMode_UInt8: m = "uint8"; break; case ImageExtractionMode_UInt16: m = "uint16"; break; case ImageExtractionMode_Int16: m = "int16"; break; default: throw OrthancException(ErrorCode_ParameterOutOfRange); } } std::string description; std::string verb = (isRendered ? "Render" : "Decode"); if (call.HasUriComponent("frame")) { description = verb + " one frame of interest from the given DICOM instance."; call.GetDocumentation() .SetSummary(verb + " a frame" + (m.empty() ? "" : " (" + m + ")")) .SetUriArgument("frame", RestApiCallDocumentation::Type_Number, "Index of the frame (starts at `0`)"); } else { description = verb + " the first frame of the given DICOM instance."; call.GetDocumentation() .SetSummary(verb + " an image" + (m.empty() ? "" : " (" + m + ")")); } if (isRendered) { description += (" This function takes scaling into account (`RescaleSlope` and `RescaleIntercept` tags), " "as well as the default windowing stored in the DICOM file (`WindowCenter` and `WindowWidth`tags), " "and can be used to resize the resulting image. Color images are not affected by windowing."); call.GetDocumentation() .SetHttpGetArgument("window-center",RestApiCallDocumentation::Type_Number, "Windowing center", false) .SetHttpGetArgument("window-width",RestApiCallDocumentation::Type_Number, "Windowing width", false) .SetHttpGetArgument("width",RestApiCallDocumentation::Type_Number, "Width of the resized image", false) .SetHttpGetArgument("height",RestApiCallDocumentation::Type_Number, "Height of the resized image", false) .SetHttpGetArgument("smooth",RestApiCallDocumentation::Type_Boolean, "Whether to smooth image on resize", false); } else { switch (mode) { case ImageExtractionMode_Preview: description += " The full dynamic range of grayscale images is rescaled to the [0,255] range."; break; case ImageExtractionMode_UInt8: description += " Pixels of grayscale images are truncated to the [0,255] range."; break; case ImageExtractionMode_UInt16: description += " Pixels of grayscale images are truncated to the [0,65535] range."; break; case ImageExtractionMode_Int16: description += (" Pixels of grayscale images are truncated to the [-32768,32767] range. " "Negative values must be interpreted according to two's complement."); break; default: throw OrthancException(ErrorCode_ParameterOutOfRange); } } call.GetDocumentation() .SetTag("Instances") .SetUriArgument("id", "Orthanc identifier of the DICOM instance of interest") .SetHttpGetArgument("quality", RestApiCallDocumentation::Type_Number, "Quality for JPEG images (between 1 and 100, defaults to 90)", false) .SetHttpGetArgument("returnUnsupportedImage", RestApiCallDocumentation::Type_Boolean, "Returns an unsupported.png placeholder image if unable to provide the image instead of returning a 415 HTTP error (defaults to false)", false) .SetHttpHeader("Accept", "Format of the resulting image. Can be `image/png` (default), `image/jpeg` or `image/x-portable-arbitrarymap`") .AddAnswerType(MimeType_Png, "PNG image") .AddAnswerType(MimeType_Jpeg, "JPEG image") .AddAnswerType(MimeType_Pam, "PAM image (Portable Arbitrary Map)") .SetDescription(description); return; } ServerContext& context = OrthancRestApi::GetContext(call); std::string frameId = call.GetUriComponent("frame", "0"); unsigned int frame; try { frame = boost::lexical_cast<unsigned int>(frameId); } catch (boost::bad_lexical_cast&) { return; } std::unique_ptr<ImageAccessor> decoded; try { std::string publicId = call.GetUriComponent("id", ""); decoded.reset(context.DecodeDicomFrame(publicId, frame)); if (decoded.get() == NULL) { throw OrthancException(ErrorCode_NotImplemented, "Cannot decode DICOM instance with ID: " + publicId); } if (handler.RequiresDicomTags()) { /** * Retrieve a summary of the DICOM tags, which is * necessary to deal with MONOCHROME1 photometric * interpretation, and with windowing parameters. **/ ServerContext::DicomCacheLocker locker(context, publicId); handler.Handle(call, decoded, &locker.GetDicom(), frame); } else { handler.Handle(call, decoded, NULL, frame); } } catch (OrthancException& e) { if (e.GetErrorCode() == ErrorCode_ParameterOutOfRange || e.GetErrorCode() == ErrorCode_UnknownResource) { // The frame number is out of the range for this DICOM // instance, the resource is not existent } else { if (call.HasArgument("returnUnsupportedImage")) { std::string root = ""; for (size_t i = 1; i < call.GetFullUri().size(); i++) { root += "../"; } call.GetOutput().Redirect(root + "app/images/unsupported.png"); } else { call.GetOutput().SignalError(HttpStatus_415_UnsupportedMediaType); } } return; } } static void DefaultHandler(RestApiGetCall& call, std::unique_ptr<ImageAccessor>& decoded, ImageExtractionMode mode, bool invert) { ImageToEncode image(decoded, mode, invert); HttpContentNegociation negociation; EncodePng png(image); negociation.Register(MIME_PNG, png); EncodeJpeg jpeg(image, call); negociation.Register(MIME_JPEG, jpeg); EncodePam pam(image); negociation.Register(MIME_PAM, pam); if (negociation.Apply(call.GetHttpHeaders())) { image.Answer(call.GetOutput()); } } }; class GetImageHandler : public IDecodedFrameHandler { private: ImageExtractionMode mode_; public: explicit GetImageHandler(ImageExtractionMode mode) : mode_(mode) { } virtual void Handle(RestApiGetCall& call, std::unique_ptr<ImageAccessor>& decoded, const ParsedDicomFile* dicom, unsigned int frame) ORTHANC_OVERRIDE { bool invert = false; if (mode_ == ImageExtractionMode_Preview) { if (dicom == NULL) { throw OrthancException(ErrorCode_InternalError); } DicomMap tags; OrthancConfiguration::DefaultExtractDicomSummary(tags, *dicom); DicomImageInformation info(tags); invert = (info.GetPhotometricInterpretation() == PhotometricInterpretation_Monochrome1); } DefaultHandler(call, decoded, mode_, invert); } virtual bool RequiresDicomTags() const ORTHANC_OVERRIDE { return mode_ == ImageExtractionMode_Preview; } }; class RenderedFrameHandler : public IDecodedFrameHandler { private: static void GetUserArguments(double& windowWidth /* inout */, double& windowCenter /* inout */, unsigned int& argWidth, unsigned int& argHeight, bool& smooth, const RestApiGetCall& call) { static const char* ARG_WINDOW_CENTER = "window-center"; static const char* ARG_WINDOW_WIDTH = "window-width"; static const char* ARG_WIDTH = "width"; static const char* ARG_HEIGHT = "height"; static const char* ARG_SMOOTH = "smooth"; if (call.HasArgument(ARG_WINDOW_WIDTH) && !SerializationToolbox::ParseDouble(windowWidth, call.GetArgument(ARG_WINDOW_WIDTH, ""))) { throw OrthancException(ErrorCode_ParameterOutOfRange, "Bad value for argument: " + std::string(ARG_WINDOW_WIDTH)); } if (call.HasArgument(ARG_WINDOW_CENTER) && !SerializationToolbox::ParseDouble(windowCenter, call.GetArgument(ARG_WINDOW_CENTER, ""))) { throw OrthancException(ErrorCode_ParameterOutOfRange, "Bad value for argument: " + std::string(ARG_WINDOW_CENTER)); } argWidth = 0; argHeight = 0; if (call.HasArgument(ARG_WIDTH)) { try { int tmp = boost::lexical_cast<int>(call.GetArgument(ARG_WIDTH, "")); if (tmp < 0) { throw OrthancException(ErrorCode_ParameterOutOfRange, "Argument cannot be negative: " + std::string(ARG_WIDTH)); } else { argWidth = static_cast<unsigned int>(tmp); } } catch (boost::bad_lexical_cast&) { throw OrthancException(ErrorCode_ParameterOutOfRange, "Bad value for argument: " + std::string(ARG_WIDTH)); } } if (call.HasArgument(ARG_HEIGHT)) { try { int tmp = boost::lexical_cast<int>(call.GetArgument(ARG_HEIGHT, "")); if (tmp < 0) { throw OrthancException(ErrorCode_ParameterOutOfRange, "Argument cannot be negative: " + std::string(ARG_HEIGHT)); } else { argHeight = static_cast<unsigned int>(tmp); } } catch (boost::bad_lexical_cast&) { throw OrthancException(ErrorCode_ParameterOutOfRange, "Bad value for argument: " + std::string(ARG_HEIGHT)); } } smooth = false; if (call.HasArgument(ARG_SMOOTH)) { smooth = RestApiCall::ParseBoolean(call.GetArgument(ARG_SMOOTH, "")); } } public: virtual void Handle(RestApiGetCall& call, std::unique_ptr<ImageAccessor>& decoded, const ParsedDicomFile* dicom, unsigned int frame) ORTHANC_OVERRIDE { if (dicom == NULL) { throw OrthancException(ErrorCode_InternalError); } PhotometricInterpretation photometric; const bool invert = (dicom->LookupPhotometricInterpretation(photometric) && photometric == PhotometricInterpretation_Monochrome1); double rescaleIntercept, rescaleSlope, windowCenter, windowWidth; dicom->GetRescale(rescaleIntercept, rescaleSlope, frame); dicom->GetDefaultWindowing(windowCenter, windowWidth, frame); unsigned int argWidth, argHeight; bool smooth; GetUserArguments(windowWidth, windowCenter, argWidth, argHeight, smooth, call); unsigned int targetWidth = decoded->GetWidth(); unsigned int targetHeight = decoded->GetHeight(); if (decoded->GetWidth() != 0 && decoded->GetHeight() != 0) { float ratio = 1; if (argWidth != 0 && argHeight != 0) { float ratioX = static_cast<float>(argWidth) / static_cast<float>(decoded->GetWidth()); float ratioY = static_cast<float>(argHeight) / static_cast<float>(decoded->GetHeight()); ratio = std::min(ratioX, ratioY); } else if (argWidth != 0) { ratio = static_cast<float>(argWidth) / static_cast<float>(decoded->GetWidth()); } else if (argHeight != 0) { ratio = static_cast<float>(argHeight) / static_cast<float>(decoded->GetHeight()); } targetWidth = boost::math::iround(ratio * static_cast<float>(decoded->GetWidth())); targetHeight = boost::math::iround(ratio * static_cast<float>(decoded->GetHeight())); } if (decoded->GetFormat() == PixelFormat_RGB24 || decoded->GetFormat() == PixelFormat_RGB48) { if (targetWidth == decoded->GetWidth() && targetHeight == decoded->GetHeight()) { DefaultHandler(call, decoded, ImageExtractionMode_Preview, false); } else { std::unique_ptr<ImageAccessor> resized( new Image(decoded->GetFormat(), targetWidth, targetHeight, false)); if (smooth && (targetWidth < decoded->GetWidth() || targetHeight < decoded->GetHeight())) { ImageProcessing::SmoothGaussian5x5(*decoded, false /* be fast, don't round */); } ImageProcessing::Resize(*resized, *decoded); DefaultHandler(call, resized, ImageExtractionMode_Preview, false); } } else { // Grayscale image: (1) convert to Float32, (2) apply // windowing to get a Grayscale8, (3) possibly resize Image converted(PixelFormat_Float32, decoded->GetWidth(), decoded->GetHeight(), false); ImageProcessing::Convert(converted, *decoded); // Avoid divisions by zero if (windowWidth <= 1.0f) { windowWidth = 1; } if (std::abs(rescaleSlope) <= 0.0001) { rescaleSlope = 0.0001; } const double scaling = 255.0 * rescaleSlope / windowWidth; const double offset = (rescaleIntercept - windowCenter + windowWidth / 2.0) / rescaleSlope; std::unique_ptr<ImageAccessor> rescaled(new Image(PixelFormat_Grayscale8, decoded->GetWidth(), decoded->GetHeight(), false)); ImageProcessing::ShiftScale(*rescaled, converted, static_cast<float>(offset), static_cast<float>(scaling), false); if (targetWidth == decoded->GetWidth() && targetHeight == decoded->GetHeight()) { DefaultHandler(call, rescaled, ImageExtractionMode_UInt8, invert); } else { std::unique_ptr<ImageAccessor> resized( new Image(PixelFormat_Grayscale8, targetWidth, targetHeight, false)); if (smooth && (targetWidth < decoded->GetWidth() || targetHeight < decoded->GetHeight())) { ImageProcessing::SmoothGaussian5x5(*rescaled, false /* be fast, don't round */); } ImageProcessing::Resize(*resized, *rescaled); DefaultHandler(call, resized, ImageExtractionMode_UInt8, invert); } } } virtual bool RequiresDicomTags() const ORTHANC_OVERRIDE { return true; } }; } template <enum ImageExtractionMode mode> static void GetImage(RestApiGetCall& call) { Semaphore::Locker locker(throttlingSemaphore_); GetImageHandler handler(mode); IDecodedFrameHandler::Apply(call, handler, mode, false /* not rendered */); } static void GetRenderedFrame(RestApiGetCall& call) { Semaphore::Locker locker(throttlingSemaphore_); RenderedFrameHandler handler; IDecodedFrameHandler::Apply(call, handler, ImageExtractionMode_Preview /* arbitrary value */, true); } static void DocumentSharedNumpy(RestApiGetCall& call) { call.GetDocumentation() .SetUriArgument("id", "Orthanc identifier of the DICOM resource of interest") .SetHttpGetArgument("compress", RestApiCallDocumentation::Type_Boolean, "Compress the file as `.npz`", false) .SetHttpGetArgument("rescale", RestApiCallDocumentation::Type_Boolean, "On grayscale images, apply the rescaling and return floating-point values", false) .AddAnswerType(MimeType_PlainText, "Numpy file: https://numpy.org/devdocs/reference/generated/numpy.lib.format.html"); } namespace { class NumpyVisitor : public boost::noncopyable { private: bool rescale_; unsigned int depth_; unsigned int currentDepth_; unsigned int width_; unsigned int height_; PixelFormat format_; ChunkedBuffer buffer_; public: NumpyVisitor(unsigned int depth /* can be zero if 2D frame */, bool rescale) : rescale_(rescale), depth_(depth), currentDepth_(0), width_(0), // dummy initialization height_(0), // dummy initialization format_(PixelFormat_Grayscale8) // dummy initialization { } void WriteFrame(const ParsedDicomFile& dicom, unsigned int frame) { std::unique_ptr<ImageAccessor> decoded(dicom.DecodeFrame(frame)); if (decoded.get() == NULL) { throw OrthancException(ErrorCode_NotImplemented, "Cannot decode DICOM instance"); } if (currentDepth_ == 0) { width_ = decoded->GetWidth(); height_ = decoded->GetHeight(); format_ = decoded->GetFormat(); } else if (width_ != decoded->GetWidth() || height_ != decoded->GetHeight()) { throw OrthancException(ErrorCode_IncompatibleImageSize, "The size of the frames varies across the instance(s)"); } else if (format_ != decoded->GetFormat()) { throw OrthancException(ErrorCode_IncompatibleImageFormat, "The pixel format of the frames varies across the instance(s)"); } if (rescale_ && decoded->GetFormat() != PixelFormat_RGB24) { if (currentDepth_ == 0) { NumpyWriter::WriteHeader(buffer_, depth_, width_, height_, PixelFormat_Float32); } double rescaleIntercept, rescaleSlope; dicom.GetRescale(rescaleIntercept, rescaleSlope, frame); Image converted(PixelFormat_Float32, decoded->GetWidth(), decoded->GetHeight(), false); ImageProcessing::Convert(converted, *decoded); ImageProcessing::ShiftScale2(converted, static_cast<float>(rescaleIntercept), static_cast<float>(rescaleSlope), false); NumpyWriter::WritePixels(buffer_, converted); } else { if (currentDepth_ == 0) { NumpyWriter::WriteHeader(buffer_, depth_, width_, height_, format_); } NumpyWriter::WritePixels(buffer_, *decoded); } currentDepth_ ++; } void Answer(RestApiOutput& output, bool compress) { if ((depth_ == 0 && currentDepth_ != 1) || (depth_ != 0 && currentDepth_ != depth_)) { throw OrthancException(ErrorCode_BadSequenceOfCalls); } else { std::string answer; NumpyWriter::Finalize(answer, buffer_, compress); output.AnswerBuffer(answer, MimeType_Binary); } } }; } static void GetNumpyFrame(RestApiGetCall& call) { if (call.IsDocumentation()) { DocumentSharedNumpy(call); call.GetDocumentation() .SetTag("Instances") .SetSummary("Decode frame for numpy") .SetDescription("Decode one frame of interest from the given DICOM instance, for use with numpy in Python. " "The numpy array has 3 dimensions: (height, width, color channel).") .SetUriArgument("frame", RestApiCallDocumentation::Type_Number, "Index of the frame (starts at `0`)"); } else { const std::string instanceId = call.GetUriComponent("id", ""); const bool compress = call.GetBooleanArgument("compress", false); const bool rescale = call.GetBooleanArgument("rescale", true); uint32_t frame; if (!SerializationToolbox::ParseUnsignedInteger32(frame, call.GetUriComponent("frame", "0"))) { throw OrthancException(ErrorCode_ParameterOutOfRange, "Expected an unsigned integer for the \"frame\" argument"); } NumpyVisitor visitor(0 /* no depth, 2D frame */, rescale); { Semaphore::Locker throttling(throttlingSemaphore_); ServerContext::DicomCacheLocker locker(OrthancRestApi::GetContext(call), instanceId); visitor.WriteFrame(locker.GetDicom(), frame); } visitor.Answer(call.GetOutput(), compress); } } static void GetNumpyInstance(RestApiGetCall& call) { if (call.IsDocumentation()) { DocumentSharedNumpy(call); call.GetDocumentation() .SetTag("Instances") .SetSummary("Decode instance for numpy") .SetDescription("Decode the given DICOM instance, for use with numpy in Python. " "The numpy array has 4 dimensions: (frame, height, width, color channel)."); } else { const std::string instanceId = call.GetUriComponent("id", ""); const bool compress = call.GetBooleanArgument("compress", false); const bool rescale = call.GetBooleanArgument("rescale", true); { Semaphore::Locker throttling(throttlingSemaphore_); ServerContext::DicomCacheLocker locker(OrthancRestApi::GetContext(call), instanceId); const unsigned int depth = locker.GetDicom().GetFramesCount(); if (depth == 0) { throw OrthancException(ErrorCode_BadFileFormat, "Empty DICOM instance"); } NumpyVisitor visitor(depth, rescale); for (unsigned int frame = 0; frame < depth; frame++) { visitor.WriteFrame(locker.GetDicom(), frame); } visitor.Answer(call.GetOutput(), compress); } } } static void GetNumpySeries(RestApiGetCall& call) { if (call.IsDocumentation()) { DocumentSharedNumpy(call); call.GetDocumentation() .SetTag("Series") .SetSummary("Decode series for numpy") .SetDescription("Decode the given DICOM series, for use with numpy in Python. " "The numpy array has 4 dimensions: (frame, height, width, color channel)."); } else { const std::string seriesId = call.GetUriComponent("id", ""); const bool compress = call.GetBooleanArgument("compress", false); const bool rescale = call.GetBooleanArgument("rescale", true); Semaphore::Locker throttling(throttlingSemaphore_); ServerIndex& index = OrthancRestApi::GetIndex(call); SliceOrdering ordering(index, seriesId); unsigned int depth = 0; for (size_t i = 0; i < ordering.GetInstancesCount(); i++) { depth += ordering.GetFramesCount(i); } ServerContext& context = OrthancRestApi::GetContext(call); NumpyVisitor visitor(depth, rescale); for (size_t i = 0; i < ordering.GetInstancesCount(); i++) { const std::string& instanceId = ordering.GetInstanceId(i); unsigned int framesCount = ordering.GetFramesCount(i); { ServerContext::DicomCacheLocker locker(context, instanceId); for (unsigned int frame = 0; frame < framesCount; frame++) { visitor.WriteFrame(locker.GetDicom(), frame); } } } visitor.Answer(call.GetOutput(), compress); } } static void GetMatlabImage(RestApiGetCall& call) { if (call.IsDocumentation()) { std::string description; if (call.HasUriComponent("frame")) { description = "Decode one frame of interest from the given DICOM instance"; call.GetDocumentation() .SetUriArgument("frame", RestApiCallDocumentation::Type_Number, "Index of the frame (starts at `0`)"); } else { description = "Decode the first frame of the given DICOM instance."; } call.GetDocumentation() .SetTag("Instances") .SetSummary("Decode frame for Matlab") .SetDescription(description + ", and export this frame as a Octave/Matlab matrix to be imported with `eval()`: " "https://book.orthanc-server.com/faq/matlab.html") .SetUriArgument("id", "Orthanc identifier of the DICOM instance of interest") .AddAnswerType(MimeType_PlainText, "Octave/Matlab matrix"); return; } Semaphore::Locker locker(throttlingSemaphore_); ServerContext& context = OrthancRestApi::GetContext(call); std::string frameId = call.GetUriComponent("frame", "0"); unsigned int frame; try { frame = boost::lexical_cast<unsigned int>(frameId); } catch (boost::bad_lexical_cast&) { return; } std::string publicId = call.GetUriComponent("id", ""); std::unique_ptr<ImageAccessor> decoded(context.DecodeDicomFrame(publicId, frame)); if (decoded.get() == NULL) { throw OrthancException(ErrorCode_NotImplemented, "Cannot decode DICOM instance with ID: " + publicId); } else { std::string result; decoded->ToMatlabString(result); call.GetOutput().AnswerBuffer(result, MimeType_PlainText); } } template <bool GzipCompression> static void GetRawFrame(RestApiGetCall& call) { if (call.IsDocumentation()) { call.GetDocumentation() .SetTag("Instances") .SetSummary("Access raw frame" + std::string(GzipCompression ? " (compressed)" : "")) .SetDescription("Access the raw content of one individual frame of the DICOM instance of interest, " "bypassing image decoding. This is notably useful to access the source files " "in compressed transfer syntaxes." + std::string(GzipCompression ? " The image is compressed using gzip" : "")) .SetUriArgument("id", "Orthanc identifier of the instance of interest") .SetUriArgument("frame", RestApiCallDocumentation::Type_Number, "Index of the frame (starts at `0`)"); if (GzipCompression) { call.GetDocumentation().AddAnswerType(MimeType_Gzip, "The raw frame, compressed using gzip"); } else { call.GetDocumentation().AddAnswerType(MimeType_Binary, "The raw frame"); } return; } std::string frameId = call.GetUriComponent("frame", "0"); unsigned int frame; try { frame = boost::lexical_cast<unsigned int>(frameId); } catch (boost::bad_lexical_cast&) { return; } std::string publicId = call.GetUriComponent("id", ""); std::string raw; MimeType mime; { ServerContext::DicomCacheLocker locker(OrthancRestApi::GetContext(call), publicId); locker.GetDicom().GetRawFrame(raw, mime, frame); } if (GzipCompression) { GzipCompressor gzip; std::string compressed; gzip.Compress(compressed, raw.empty() ? NULL : raw.c_str(), raw.size()); call.GetOutput().AnswerBuffer(compressed, MimeType_Gzip); } else { call.GetOutput().AnswerBuffer(raw, mime); } } static void GetResourceStatistics(RestApiGetCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("Get " + r + " statistics") .SetDescription("Get statistics about the given " + r) .SetUriArgument("id", "Orthanc identifier of the " + r + " of interest") .SetAnswerField("DiskSize", RestApiCallDocumentation::Type_String, "Size of the " + r + " on the disk in bytes, expressed as a string for 64bit compatibility with JSON") .SetAnswerField("DiskSizeMB", RestApiCallDocumentation::Type_Number, "Size of the " + r + " on the disk, expressed in megabytes (MB)") .SetAnswerField("UncompressedSize", RestApiCallDocumentation::Type_String, "Size of the " + r + " after decompression in bytes, expressed as a string for 64bit compatibility with JSON") .SetAnswerField("UncompressedSizeMB", RestApiCallDocumentation::Type_Number, "Size of the " + r + " after decompression, expressed in megabytes (MB). " "This is different from `DiskSizeMB` iff `StorageCompression` is `true`.") .SetAnswerField("DicomDiskSize", RestApiCallDocumentation::Type_String, "Size on the disk of the DICOM instances associated with the " + r + ", expressed in bytes") .SetAnswerField("DicomDiskSizeMB", RestApiCallDocumentation::Type_Number, "Size on the disk of the DICOM instances associated with the " + r + ", expressed in megabytes (MB)") .SetAnswerField("DicomUncompressedSize", RestApiCallDocumentation::Type_String, "Size on the disk of the uncompressed DICOM instances associated with the " + r + ", expressed in bytes") .SetAnswerField("DicomUncompressedSizeMB", RestApiCallDocumentation::Type_Number, "Size on the disk of the uncompressed DICOM instances associated with the " + r + ", expressed in megabytes (MB)") .SetHttpGetSample(GetDocumentationSampleResource(t) + "/statistics", true); switch (t) { // Do NOT add "break" below this point! case ResourceType_Patient: call.GetDocumentation().SetAnswerField("CountStudies", RestApiCallDocumentation::Type_Number, "Number of child studies within this " + r); case ResourceType_Study: call.GetDocumentation().SetAnswerField("CountSeries", RestApiCallDocumentation::Type_Number, "Number of child series within this " + r); case ResourceType_Series: call.GetDocumentation().SetAnswerField("CountInstances", RestApiCallDocumentation::Type_Number, "Number of child instances within this " + r); case ResourceType_Instance: default: break; } return; } static const uint64_t MEGA_BYTES = 1024 * 1024; std::string publicId = call.GetUriComponent("id", ""); ResourceType type; uint64_t diskSize, uncompressedSize, dicomDiskSize, dicomUncompressedSize; unsigned int countStudies, countSeries, countInstances; OrthancRestApi::GetIndex(call).GetResourceStatistics( type, diskSize, uncompressedSize, countStudies, countSeries, countInstances, dicomDiskSize, dicomUncompressedSize, publicId); Json::Value result = Json::objectValue; result["DiskSize"] = boost::lexical_cast<std::string>(diskSize); result["DiskSizeMB"] = static_cast<unsigned int>(diskSize / MEGA_BYTES); result["UncompressedSize"] = boost::lexical_cast<std::string>(uncompressedSize); result["UncompressedSizeMB"] = static_cast<unsigned int>(uncompressedSize / MEGA_BYTES); result["DicomDiskSize"] = boost::lexical_cast<std::string>(dicomDiskSize); result["DicomDiskSizeMB"] = static_cast<unsigned int>(dicomDiskSize / MEGA_BYTES); result["DicomUncompressedSize"] = boost::lexical_cast<std::string>(dicomUncompressedSize); result["DicomUncompressedSizeMB"] = static_cast<unsigned int>(dicomUncompressedSize / MEGA_BYTES); switch (type) { // Do NOT add "break" below this point! case ResourceType_Patient: result["CountStudies"] = countStudies; case ResourceType_Study: result["CountSeries"] = countSeries; case ResourceType_Series: result["CountInstances"] = countInstances; case ResourceType_Instance: default: break; } call.GetOutput().AnswerJson(result); } // Handling of metadata ----------------------------------------------------- static void CheckValidResourceType(const RestApiCall& call) { assert(!call.GetFullUri().empty()); const std::string resourceType = call.GetFullUri() [0]; StringToResourceType(resourceType.c_str()); } static void ListMetadata(RestApiGetCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("List metadata") .SetDescription("Get the list of metadata that are associated with the given " + r) .SetUriArgument("id", "Orthanc identifier of the " + r + " of interest") .SetHttpGetArgument("expand", RestApiCallDocumentation::Type_String, "If present, also retrieve the value of the individual metadata", false) .AddAnswerType(MimeType_Json, "JSON array containing the names of the available metadata, " "or JSON associative array mapping metadata to their values (if `expand` argument is provided)") .SetHttpGetSample(GetDocumentationSampleResource(t) + "/metadata", true); return; } assert(!call.GetFullUri().empty()); const std::string publicId = call.GetUriComponent("id", ""); ResourceType level = StringToResourceType(call.GetFullUri() [0].c_str()); typedef std::map<MetadataType, std::string> Metadata; Metadata metadata; OrthancRestApi::GetIndex(call).GetAllMetadata(metadata, publicId, level); Json::Value result; if (call.HasArgument("expand")) { result = Json::objectValue; for (Metadata::const_iterator it = metadata.begin(); it != metadata.end(); ++it) { std::string key = EnumerationToString(it->first); result[key] = it->second; } } else { result = Json::arrayValue; for (Metadata::const_iterator it = metadata.begin(); it != metadata.end(); ++it) { result.append(EnumerationToString(it->first)); } } call.GetOutput().AnswerJson(result); } static void SetStringContentETag(const RestApiOutput& output, int64_t revision, const std::string& value) { std::string md5; Toolbox::ComputeMD5(md5, value); const std::string etag = "\"" + boost::lexical_cast<std::string>(revision) + "-" + md5 + "\""; output.GetLowLevelOutput().AddHeader("ETag", etag); } static void SetBufferContentETag(const RestApiOutput& output, int64_t revision, const void* data, size_t size) { std::string md5; Toolbox::ComputeMD5(md5, data, size); const std::string etag = "\"" + boost::lexical_cast<std::string>(revision) + "-" + md5 + "\""; output.GetLowLevelOutput().AddHeader("ETag", etag); } static void SetAttachmentETag(const RestApiOutput& output, int64_t revision, const FileInfo& info) { const std::string etag = ("\"" + boost::lexical_cast<std::string>(revision) + "-" + info.GetUncompressedMD5() + "\""); output.GetLowLevelOutput().AddHeader("ETag", etag); } static std::string GetMD5(const std::string& value) { std::string md5; Toolbox::ComputeMD5(md5, value); return md5; } static bool GetRevisionHeader(int64_t& revision /* out */, std::string& md5 /* out */, const RestApiCall& call, const std::string& header) { std::string lower; Toolbox::ToLowerCase(lower, header); HttpToolbox::Arguments::const_iterator found = call.GetHttpHeaders().find(lower); if (found == call.GetHttpHeaders().end()) { return false; } else { std::string value = Toolbox::StripSpaces(found->second); Toolbox::RemoveSurroundingQuotes(value); try { size_t comma = value.find('-'); if (comma != std::string::npos) { revision = boost::lexical_cast<int64_t>(value.substr(0, comma)); md5 = value.substr(comma + 1); return true; } } catch (boost::bad_lexical_cast&) { } throw OrthancException(ErrorCode_ParameterOutOfRange, "The \"" + header + "\" HTTP header should contain the ETag (revision followed by MD5 hash), but found: " + value); } } static void GetMetadata(RestApiGetCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("Get metadata") .SetDescription("Get the value of a metadata that is associated with the given " + r) .SetUriArgument("id", "Orthanc identifier of the " + r + " of interest") .SetUriArgument("name", "The name of the metadata, or its index (cf. `UserMetadata` configuration option)") .AddAnswerType(MimeType_PlainText, "Value of the metadata") .SetAnswerHeader("ETag", "Revision of the metadata, to be used in further `PUT` or `DELETE` operations") .SetHttpHeader("If-None-Match", "Optional revision of the metadata, to check if its content has changed"); return; } assert(!call.GetFullUri().empty()); const std::string publicId = call.GetUriComponent("id", ""); const ResourceType level = StringToResourceType(call.GetFullUri() [0].c_str()); std::string name = call.GetUriComponent("name", ""); MetadataType metadata = StringToMetadata(name); std::string value; int64_t revision; if (OrthancRestApi::GetIndex(call).LookupMetadata(value, revision, publicId, level, metadata)) { SetStringContentETag(call.GetOutput(), revision, value); // New in Orthanc 1.9.2 int64_t userRevision; std::string userMD5; if (GetRevisionHeader(userRevision, userMD5, call, "If-None-Match") && userRevision == revision && userMD5 == GetMD5(value)) { call.GetOutput().GetLowLevelOutput().SendStatus(HttpStatus_304_NotModified); } else { call.GetOutput().AnswerBuffer(value, MimeType_PlainText); } } } static void DeleteMetadata(RestApiDeleteCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("Delete metadata") .SetDescription("Delete some metadata associated with the given DICOM " + r + ". This call will fail if trying to delete a system metadata (i.e. whose index is < 1024).") .SetUriArgument("id", "Orthanc identifier of the " + r + " of interest") .SetUriArgument("name", "The name of the metadata, or its index (cf. `UserMetadata` configuration option)") .SetHttpHeader("If-Match", "Revision of the metadata, to check if its content has not changed and can " "be deleted. This header is mandatory if `CheckRevisions` option is `true`."); return; } CheckValidResourceType(call); const std::string publicId = call.GetUriComponent("id", ""); std::string name = call.GetUriComponent("name", ""); MetadataType metadata = StringToMetadata(name); if (IsUserMetadata(metadata)) // It is forbidden to modify internal metadata { bool found; int64_t revision; std::string md5; if (GetRevisionHeader(revision, md5, call, "if-match")) { found = OrthancRestApi::GetIndex(call).DeleteMetadata(publicId, metadata, true, revision, md5); } else { OrthancConfiguration::ReaderLock lock; if (lock.GetConfiguration().GetBooleanParameter(CHECK_REVISIONS, false)) { throw OrthancException(ErrorCode_Revision, "HTTP header \"If-Match\" is missing, as \"CheckRevisions\" is \"true\""); } else { found = OrthancRestApi::GetIndex(call).DeleteMetadata(publicId, metadata, false, -1 /* dummy value */, ""); } } if (found) { call.GetOutput().AnswerBuffer("", MimeType_PlainText); } else { throw OrthancException(ErrorCode_UnknownResource); } } else { call.GetOutput().SignalError(HttpStatus_403_Forbidden); } } static void SetMetadata(RestApiPutCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("Set metadata") .SetDescription("Set the value of some metadata in the given DICOM " + r + ". This call will fail if trying to modify a system metadata (i.e. whose index is < 1024).") .SetUriArgument("id", "Orthanc identifier of the " + r + " of interest") .SetUriArgument("name", "The name of the metadata, or its index (cf. `UserMetadata` configuration option)") .AddRequestType(MimeType_PlainText, "String value of the metadata") .SetHttpHeader("If-Match", "Revision of the metadata, if this is not the first time this metadata is set."); return; } CheckValidResourceType(call); std::string publicId = call.GetUriComponent("id", ""); std::string name = call.GetUriComponent("name", ""); MetadataType metadata = StringToMetadata(name); std::string value; call.BodyToString(value); if (IsUserMetadata(metadata)) // It is forbidden to modify internal metadata { int64_t oldRevision; std::string oldMD5; bool hasOldRevision = GetRevisionHeader(oldRevision, oldMD5, call, "if-match"); if (!hasOldRevision) { OrthancConfiguration::ReaderLock lock; if (lock.GetConfiguration().GetBooleanParameter(CHECK_REVISIONS, false)) { // "StatelessDatabaseOperations::SetMetadata()" will ignore // the actual value of "oldRevision" if the metadata is // inexistent as expected hasOldRevision = true; oldRevision = -1; // dummy value oldMD5.clear(); // dummy value } } int64_t newRevision; OrthancRestApi::GetIndex(call).SetMetadata(newRevision, publicId, metadata, value, hasOldRevision, oldRevision, oldMD5); SetStringContentETag(call.GetOutput(), newRevision, value); // New in Orthanc 1.9.2 call.GetOutput().AnswerBuffer("", MimeType_PlainText); } else { call.GetOutput().SignalError(HttpStatus_403_Forbidden); } } // Handling of labels ------------------------------------------------------- static void ListLabels(RestApiGetCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("List labels (new in Orthanc 1.12.0)") .SetDescription("Get the labels that are associated with the given " + r) .SetUriArgument("id", "Orthanc identifier of the " + r + " of interest") .AddAnswerType(MimeType_Json, "JSON array containing the names of the labels") .SetHttpGetSample(GetDocumentationSampleResource(t) + "/labels", true); return; } assert(!call.GetFullUri().empty()); const std::string publicId = call.GetUriComponent("id", ""); ResourceType level = StringToResourceType(call.GetFullUri() [0].c_str()); std::set<std::string> labels; OrthancRestApi::GetIndex(call).ListLabels(labels, publicId, level); Json::Value result = Json::arrayValue; for (std::set<std::string>::const_iterator it = labels.begin(); it != labels.end(); ++it) { result.append(*it); } call.GetOutput().AnswerJson(result); } static void GetLabel(RestApiGetCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("Test label") .SetDescription("Test whether the " + r + " is associated with the given label") .SetUriArgument("id", "Orthanc identifier of the " + r + " of interest") .SetUriArgument("label", "The label of interest") .AddAnswerType(MimeType_PlainText, "Empty string is returned in the case of presence, error 404 in the case of absence"); return; } CheckValidResourceType(call); assert(!call.GetFullUri().empty()); const std::string publicId = call.GetUriComponent("id", ""); const ResourceType level = StringToResourceType(call.GetFullUri() [0].c_str()); std::string label = call.GetUriComponent("label", ""); std::set<std::string> labels; OrthancRestApi::GetIndex(call).ListLabels(labels, publicId, level); if (labels.find(label) != labels.end()) { call.GetOutput().AnswerBuffer("", MimeType_PlainText); } } static void AddLabel(RestApiPutCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("Add label") .SetDescription("Associate a label with a " + r) .SetUriArgument("id", "Orthanc identifier of the " + r + " of interest") .SetUriArgument("label", "The label to be added"); return; } CheckValidResourceType(call); std::string publicId = call.GetUriComponent("id", ""); const ResourceType level = StringToResourceType(call.GetFullUri() [0].c_str()); std::string label = call.GetUriComponent("label", ""); OrthancRestApi::GetIndex(call).ModifyLabel(publicId, level, label, StatelessDatabaseOperations::LabelOperation_Add); call.GetOutput().AnswerBuffer("", MimeType_PlainText); } static void RemoveLabel(RestApiDeleteCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("Remove label") .SetDescription("Remove a label associated with a " + r) .SetUriArgument("id", "Orthanc identifier of the " + r + " of interest") .SetUriArgument("label", "The label to be removed"); return; } CheckValidResourceType(call); std::string publicId = call.GetUriComponent("id", ""); const ResourceType level = StringToResourceType(call.GetFullUri() [0].c_str()); std::string label = call.GetUriComponent("label", ""); OrthancRestApi::GetIndex(call).ModifyLabel(publicId, level, label, StatelessDatabaseOperations::LabelOperation_Remove); call.GetOutput().AnswerBuffer("", MimeType_PlainText); } // Handling of attached files ----------------------------------------------- static void ListAttachments(RestApiGetCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("List attachments") .SetDescription("Get the list of attachments that are associated with the given " + r) .SetUriArgument("id", "Orthanc identifier of the " + r + " of interest") .SetHttpGetArgument("full", RestApiCallDocumentation::Type_String, "If present, retrieve the attachments list and their numerical ids", false) .AddAnswerType(MimeType_Json, "JSON array containing the names of the attachments") .SetHttpGetSample(GetDocumentationSampleResource(t) + "/attachments", true); return; } const std::string resourceType = call.GetFullUri() [0]; const std::string publicId = call.GetUriComponent("id", ""); std::set<FileContentType> attachments; OrthancRestApi::GetIndex(call).ListAvailableAttachments(attachments, publicId, StringToResourceType(resourceType.c_str())); Json::Value result; if (call.HasArgument("full")) { result = Json::objectValue; for (std::set<FileContentType>::const_iterator it = attachments.begin(); it != attachments.end(); ++it) { std::string key = EnumerationToString(*it); result[key] = static_cast<uint16_t>(*it); } } else { result = Json::arrayValue; for (std::set<FileContentType>::const_iterator it = attachments.begin(); it != attachments.end(); ++it) { result.append(EnumerationToString(*it)); } } call.GetOutput().AnswerJson(result); } static void AddAttachmentDocumentation(RestApiGetCall& call, const std::string& resourceType) { call.GetDocumentation() .SetUriArgument("id", "Orthanc identifier of the " + resourceType + " of interest") .SetUriArgument("name", "The name of the attachment, or its index (cf. `UserContentType` configuration option)") .SetAnswerHeader("ETag", "Revision of the attachment, to be used in further `PUT` or `DELETE` operations") .SetHttpHeader("If-None-Match", "Optional revision of the attachment, to check if its content has changed"); } static bool GetAttachmentInfo(FileInfo& info, RestApiGetCall& call) { CheckValidResourceType(call); const std::string publicId = call.GetUriComponent("id", ""); const std::string name = call.GetUriComponent("name", ""); FileContentType contentType = StringToContentType(name); int64_t revision; if (OrthancRestApi::GetIndex(call).LookupAttachment(info, revision, publicId, contentType)) { SetAttachmentETag(call.GetOutput(), revision, info); // New in Orthanc 1.9.2 int64_t userRevision; std::string userMD5; if (GetRevisionHeader(userRevision, userMD5, call, "If-None-Match") && revision == userRevision && info.GetUncompressedMD5() == userMD5) { call.GetOutput().GetLowLevelOutput().SendStatus(HttpStatus_304_NotModified); return false; } else { return true; } } else { throw OrthancException(ErrorCode_UnknownResource); } } static void GetAttachmentOperations(RestApiGetCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); AddAttachmentDocumentation(call, r); call.GetDocumentation() .SetTag("Other") .SetSummary("List operations on attachments") .SetDescription("Get the list of the operations that are available for attachments associated with the given " + r) .AddAnswerType(MimeType_Json, "List of the available operations") .SetHttpGetSample("https://demo.orthanc-server.com/instances/d94d9a03-3003b047-a4affc69-322313b2-680530a2/attachments/dicom", true); return; } FileInfo info; if (GetAttachmentInfo(info, call)) { Json::Value operations = Json::arrayValue; operations.append("compress"); operations.append("compressed-data"); if (info.GetCompressedMD5() != "") { operations.append("compressed-md5"); } operations.append("compressed-size"); operations.append("data"); operations.append("info"); operations.append("is-compressed"); if (info.GetUncompressedMD5() != "") { operations.append("md5"); } operations.append("size"); operations.append("uncompress"); if (info.GetCompressedMD5() != "" && info.GetUncompressedMD5() != "") { operations.append("verify-md5"); } operations.append("uuid"); call.GetOutput().AnswerJson(operations); } } template <int uncompress> static void GetAttachmentData(RestApiGetCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("Get attachment" + std::string(uncompress ? "" : " (no decompression)")) .SetDescription("Get the (binary) content of one attachment associated with the given " + r + std::string(uncompress ? "" : ". The attachment will not be decompressed if `StorageCompression` is `true`.")) .SetUriArgument("id", "Orthanc identifier of the " + r + " of interest") .SetUriArgument("name", "The name of the attachment, or its index (cf. `UserContentType` configuration option)") .AddAnswerType(MimeType_Binary, "The attachment") .SetAnswerHeader("ETag", "Revision of the attachment, to be used in further `PUT` or `DELETE` operations") .SetHttpHeader("If-None-Match", "Optional revision of the metadata, to check if its content has changed"); return; } ServerContext& context = OrthancRestApi::GetContext(call); CheckValidResourceType(call); std::string publicId = call.GetUriComponent("id", ""); FileContentType type = StringToContentType(call.GetUriComponent("name", "")); FileInfo info; if (GetAttachmentInfo(info, call)) { // NB: "SetAttachmentETag()" is already invoked by "GetAttachmentInfo()" if (uncompress) { context.AnswerAttachment(call.GetOutput(), publicId, type); } else { // Return the raw data (possibly compressed), as stored on the filesystem std::string content; int64_t revision; context.ReadAttachment(content, revision, publicId, type, false, true /* skipCache when you absolutely need the compressed data */); int64_t userRevision; std::string userMD5; if (GetRevisionHeader(userRevision, userMD5, call, "If-None-Match") && revision == userRevision && info.GetUncompressedMD5() == userMD5) { call.GetOutput().GetLowLevelOutput().SendStatus(HttpStatus_304_NotModified); } else { call.GetOutput().AnswerBuffer(content, MimeType_Binary); } } } } static void GetAttachmentSize(RestApiGetCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); AddAttachmentDocumentation(call, r); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("Get size of attachment") .SetDescription("Get the size of one attachment associated with the given " + r) .AddAnswerType(MimeType_PlainText, "The size of the attachment"); return; } FileInfo info; if (GetAttachmentInfo(info, call)) { call.GetOutput().AnswerBuffer(boost::lexical_cast<std::string>(info.GetUncompressedSize()), MimeType_PlainText); } } static void GetAttachmentInfo(RestApiGetCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); AddAttachmentDocumentation(call, r); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("Get info about the attachment") .SetDescription("Get all the information about the attachment associated with the given " + r) .AddAnswerType(MimeType_Json, "JSON object containing the information about the attachment") .SetHttpGetSample("https://demo.orthanc-server.com/instances/7c92ce8e-bbf67ed2-ffa3b8c1-a3b35d94-7ff3ae26/attachments/dicom/info", true); return; } FileInfo info; if (GetAttachmentInfo(info, call)) { Json::Value result = Json::objectValue; result["Uuid"] = info.GetUuid(); result["ContentType"] = info.GetContentType(); result["UncompressedSize"] = Json::Value::UInt64(info.GetUncompressedSize()); result["CompressedSize"] = Json::Value::UInt64(info.GetCompressedSize()); result["UncompressedMD5"] = info.GetUncompressedMD5(); result["CompressedMD5"] = info.GetCompressedMD5(); call.GetOutput().AnswerJson(result); } } static void GetAttachmentCompressedSize(RestApiGetCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); AddAttachmentDocumentation(call, r); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("Get size of attachment on disk") .SetDescription("Get the size of one attachment associated with the given " + r + ", as stored on the disk. " "This is different from `.../size` iff `EnableStorage` is `true`.") .AddAnswerType(MimeType_PlainText, "The size of the attachment, as stored on the disk"); return; } FileInfo info; if (GetAttachmentInfo(info, call)) { call.GetOutput().AnswerBuffer(boost::lexical_cast<std::string>(info.GetCompressedSize()), MimeType_PlainText); } } static void GetAttachmentMD5(RestApiGetCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); AddAttachmentDocumentation(call, r); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("Get MD5 of attachment") .SetDescription("Get the MD5 hash of one attachment associated with the given " + r) .AddAnswerType(MimeType_PlainText, "The MD5 of the attachment"); return; } FileInfo info; if (GetAttachmentInfo(info, call) && info.GetUncompressedMD5() != "") { call.GetOutput().AnswerBuffer(boost::lexical_cast<std::string>(info.GetUncompressedMD5()), MimeType_PlainText); } } static void GetAttachmentCompressedMD5(RestApiGetCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); AddAttachmentDocumentation(call, r); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("Get MD5 of attachment on disk") .SetDescription("Get the MD5 hash of one attachment associated with the given " + r + ", as stored on the disk. " "This is different from `.../md5` iff `EnableStorage` is `true`.") .AddAnswerType(MimeType_PlainText, "The MD5 of the attachment, as stored on the disk"); return; } FileInfo info; if (GetAttachmentInfo(info, call) && info.GetCompressedMD5() != "") { call.GetOutput().AnswerBuffer(boost::lexical_cast<std::string>(info.GetCompressedMD5()), MimeType_PlainText); } } static void VerifyAttachment(RestApiPostCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("Verify attachment") .SetDescription("Verify that the attachment is not corrupted, by validating its MD5 hash") .SetUriArgument("id", "Orthanc identifier of the " + r + " of interest") .SetUriArgument("name", "The name of the attachment, or its index (cf. `UserContentType` configuration option)") .AddAnswerType(MimeType_Json, "On success, a valid JSON object is returned"); return; } ServerContext& context = OrthancRestApi::GetContext(call); CheckValidResourceType(call); std::string publicId = call.GetUriComponent("id", ""); std::string name = call.GetUriComponent("name", ""); FileContentType contentType = StringToContentType(name); FileInfo info; int64_t revision; // Ignored if (!OrthancRestApi::GetIndex(call).LookupAttachment(info, revision, publicId, contentType) || info.GetCompressedMD5() == "" || info.GetUncompressedMD5() == "") { // Inexistent resource, or no MD5 available return; } bool ok = false; // First check whether the compressed data is correctly stored in the disk std::string data; context.ReadAttachment(data, revision, publicId, StringToContentType(name), false, true /* skipCache when you absolutely need the compressed data */); std::string actualMD5; Toolbox::ComputeMD5(actualMD5, data); if (actualMD5 == info.GetCompressedMD5()) { // The compressed data is OK. If a compression algorithm was // applied to it, now check the MD5 of the uncompressed data. if (info.GetCompressionType() == CompressionType_None) { ok = true; } else { context.ReadAttachment(data, revision, publicId, StringToContentType(name), true, true /* skipCache when you absolutely need the compressed data */); Toolbox::ComputeMD5(actualMD5, data); ok = (actualMD5 == info.GetUncompressedMD5()); } } if (ok) { CLOG(INFO, HTTP) << "The attachment " << name << " of resource " << publicId << " has the right MD5"; call.GetOutput().AnswerBuffer("{}", MimeType_Json); } else { CLOG(INFO, HTTP) << "The attachment " << name << " of resource " << publicId << " has bad MD5!"; } } static void UploadAttachment(RestApiPutCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("Set attachment") .SetDescription("Attach a file to the given DICOM " + r + ". This call will fail if trying to modify a system attachment (i.e. whose index is < 1024).") .SetUriArgument("id", "Orthanc identifier of the " + r + " of interest") .SetUriArgument("name", "The name of the attachment, or its index (cf. `UserContentType` configuration option)") .AddRequestType(MimeType_Binary, "Binary data containing the attachment") .AddAnswerType(MimeType_Json, "Empty JSON object in the case of a success") .SetHttpHeader("If-Match", "Revision of the attachment, if this is not the first time this attachment is set."); return; } ServerContext& context = OrthancRestApi::GetContext(call); CheckValidResourceType(call); std::string publicId = call.GetUriComponent("id", ""); std::string name = call.GetUriComponent("name", ""); FileContentType contentType = StringToContentType(name); if (IsUserContentType(contentType)) // It is forbidden to modify internal attachments { int64_t oldRevision; std::string oldMD5; bool hasOldRevision = GetRevisionHeader(oldRevision, oldMD5, call, "if-match"); if (!hasOldRevision) { OrthancConfiguration::ReaderLock lock; if (lock.GetConfiguration().GetBooleanParameter(CHECK_REVISIONS, false)) { // "StatelessDatabaseOperations::AddAttachment()" will ignore // the actual value of "oldRevision" if the metadata is // inexistent as expected hasOldRevision = true; oldRevision = -1; // dummy value oldMD5.clear(); // dummy value } } int64_t newRevision; context.AddAttachment(newRevision, publicId, StringToContentType(name), call.GetBodyData(), call.GetBodySize(), hasOldRevision, oldRevision, oldMD5); SetBufferContentETag(call.GetOutput(), newRevision, call.GetBodyData(), call.GetBodySize()); // New in Orthanc 1.9.2 call.GetOutput().AnswerBuffer("{}", MimeType_Json); } else { call.GetOutput().SignalError(HttpStatus_403_Forbidden); } } static void DeleteAttachment(RestApiDeleteCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("Delete attachment") .SetDescription("Delete an attachment associated with the given DICOM " + r + ". This call will fail if trying to delete a system attachment (i.e. whose index is < 1024).") .SetUriArgument("id", "Orthanc identifier of the " + r + " of interest") .SetUriArgument("name", "The name of the attachment, or its index (cf. `UserContentType` configuration option)") .SetHttpHeader("If-Match", "Revision of the attachment, to check if its content has not changed and can " "be deleted. This header is mandatory if `CheckRevisions` option is `true`."); return; } CheckValidResourceType(call); std::string publicId = call.GetUriComponent("id", ""); std::string name = call.GetUriComponent("name", ""); FileContentType contentType = StringToContentType(name); bool allowed; if (IsUserContentType(contentType)) { allowed = true; } else { OrthancConfiguration::ReaderLock lock; if (lock.GetConfiguration().GetBooleanParameter("StoreDicom", true) && contentType == FileContentType_DicomAsJson) { allowed = true; } else { // It is forbidden to delete internal attachments, except for // the "DICOM as JSON" summary as of Orthanc 1.2.0 (this summary // would be automatically reconstructed on the next GET call) allowed = false; } } if (allowed) { bool found; int64_t revision; std::string md5; if (GetRevisionHeader(revision, md5, call, "if-match")) { found = OrthancRestApi::GetIndex(call).DeleteAttachment(publicId, contentType, true, revision, md5); } else { OrthancConfiguration::ReaderLock lock; if (lock.GetConfiguration().GetBooleanParameter(CHECK_REVISIONS, false)) { throw OrthancException(ErrorCode_Revision, "HTTP header \"If-Match\" is missing, as \"CheckRevisions\" is \"true\""); } else { found = OrthancRestApi::GetIndex(call).DeleteAttachment(publicId, contentType, false, -1 /* dummy value */, "" /* dummy value */); } } if (found) { call.GetOutput().AnswerBuffer("", MimeType_PlainText); } else { throw OrthancException(ErrorCode_UnknownResource); } } else { call.GetOutput().SignalError(HttpStatus_403_Forbidden); } } template <enum CompressionType compression> static void ChangeAttachmentCompression(RestApiPostCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary(compression == CompressionType_None ? "Uncompress attachment" : "Compress attachment") .SetDescription("Change the compression scheme that is used to store an attachment.") .SetUriArgument("id", "Orthanc identifier of the " + r + " of interest") .SetUriArgument("name", "The name of the attachment, or its index (cf. `UserContentType` configuration option)"); return; } CheckValidResourceType(call); std::string publicId = call.GetUriComponent("id", ""); std::string name = call.GetUriComponent("name", ""); FileContentType contentType = StringToContentType(name); OrthancRestApi::GetContext(call).ChangeAttachmentCompression(publicId, contentType, compression); call.GetOutput().AnswerBuffer("{}", MimeType_Json); } static void IsAttachmentCompressed(RestApiGetCall& call) { if (call.IsDocumentation()) { ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); AddAttachmentDocumentation(call, r); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("Is attachment compressed?") .SetDescription("Test whether the attachment has been stored as a compressed file on the disk.") .AddAnswerType(MimeType_PlainText, "`0` if the attachment was stored uncompressed, `1` if it was compressed"); return; } FileInfo info; if (GetAttachmentInfo(info, call)) { std::string answer = (info.GetCompressionType() == CompressionType_None) ? "0" : "1"; call.GetOutput().AnswerBuffer(answer, MimeType_PlainText); } } // Raw access to the DICOM tags of an instance ------------------------------ static void GetRawContent(RestApiGetCall& call) { if (call.IsDocumentation()) { call.GetDocumentation() .SetTag("Instances") .SetSummary("Get raw tag") .SetDescription("Get the raw content of one DICOM tag in the hierarchy of DICOM dataset") .SetUriArgument("id", "Orthanc identifier of the DICOM instance of interest") .SetUriArgument("...", "Path to the DICOM tag. This is the interleaving of one DICOM tag, possibly followed " "by an index for sequences. Sequences are accessible as, for instance, `/0008-1140/1/0008-1150`") .AddAnswerType(MimeType_Binary, "The raw value of the tag of intereset " "(binary data, whose memory layout depends on the underlying transfer syntax), " "or JSON array containing the list of available tags if accessing a dataset"); return; } std::string id = call.GetUriComponent("id", ""); ServerContext::DicomCacheLocker locker(OrthancRestApi::GetContext(call), id); locker.GetDicom().SendPathValue(call.GetOutput(), call.GetTrailingUri()); } static bool ExtractSharedTags(Json::Value& shared, ServerContext& context, const std::string& publicId) { // Retrieve all the instances of this patient/study/series typedef std::list<std::string> Instances; Instances instances; context.GetIndex().GetChildInstances(instances, publicId); // (*) // Loop over the instances bool isFirst = true; shared = Json::objectValue; for (Instances::const_iterator it = instances.begin(); it != instances.end(); ++it) { // Get the tags of the current instance, in the simplified format Json::Value tags; try { context.ReadDicomAsJson(tags, *it); } catch (OrthancException&) { // Race condition: This instance has been removed since // (*). Ignore this instance. continue; } if (tags.type() != Json::objectValue) { return false; // Error } // Only keep the tags that are mapped to a string Json::Value::Members members = tags.getMemberNames(); for (size_t i = 0; i < members.size(); i++) { const Json::Value& tag = tags[members[i]]; if (tag.type() != Json::objectValue || tag["Type"].type() != Json::stringValue || tag["Type"].asString() != "String") { tags.removeMember(members[i]); } } if (isFirst) { // This is the first instance, keep its tags as such shared = tags; isFirst = false; } else { // Loop over all the members of the shared tags extracted so // far. If the value of one of these tags does not match its // value in the current instance, remove it. members = shared.getMemberNames(); for (size_t i = 0; i < members.size(); i++) { if (!tags.isMember(members[i]) || tags[members[i]]["Value"].asString() != shared[members[i]]["Value"].asString()) { shared.removeMember(members[i]); } } } } return true; } static void GetSharedTags(RestApiGetCall& call) { if (call.IsDocumentation()) { OrthancRestApi::DocumentDicomFormat(call, DicomToJsonFormat_Full); ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("Get shared tags") .SetDescription("Extract the DICOM tags whose value is constant across all the child instances of " "the DICOM " + r + " whose Orthanc identifier is provided in the URL") .SetUriArgument("id", "Orthanc identifier of the " + r + " of interest") .AddAnswerType(MimeType_Json, "JSON object containing the values of the DICOM tags") .SetTruncatedJsonHttpGetSample(GetDocumentationSampleResource(t) + "/shared-tags", 5); return; } ServerContext& context = OrthancRestApi::GetContext(call); std::string publicId = call.GetUriComponent("id", ""); Json::Value sharedTags; if (ExtractSharedTags(sharedTags, context, publicId)) { // Success: Send the value of the shared tags AnswerDicomAsJson(call, sharedTags, OrthancRestApi::GetDicomFormat(call, DicomToJsonFormat_Full)); } } template <enum ResourceType resourceType, enum DicomModule module> static void GetModule(RestApiGetCall& call) { if (call.IsDocumentation()) { const std::string resource = GetResourceTypeText(resourceType, false /* plural */, false /* lower case */); std::string m; switch (module) { case DicomModule_Patient: m = "patient"; break; case DicomModule_Study: m = "study"; break; case DicomModule_Series: m = "series"; break; case DicomModule_Instance: m = "instance"; break; default: throw OrthancException(ErrorCode_ParameterOutOfRange); } OrthancRestApi::DocumentDicomFormat(call, DicomToJsonFormat_Full); call.GetDocumentation() .SetTag(GetResourceTypeText(resourceType, true /* plural */, true /* upper case */)) .SetSummary("Get " + m + " module" + std::string(resource == m ? "" : " of " + resource)) .SetDescription("Get the " + m + " module of the DICOM " + resource + " whose Orthanc identifier is provided in the URL") .SetUriArgument("id", "Orthanc identifier of the " + resource + " of interest") .SetHttpGetArgument(IGNORE_LENGTH, RestApiCallDocumentation::Type_JsonListOfStrings, "Also include the DICOM tags that are provided in this list, even if their associated value is long", false) .AddAnswerType(MimeType_Json, "Information about the DICOM " + resource) .SetHttpGetSample(GetDocumentationSampleResource(resourceType) + "/" + (*call.GetFullUri().rbegin()), true); return; } if (!((resourceType == ResourceType_Patient && module == DicomModule_Patient) || (resourceType == ResourceType_Study && module == DicomModule_Patient) || (resourceType == ResourceType_Study && module == DicomModule_Study) || (resourceType == ResourceType_Series && module == DicomModule_Series) || (resourceType == ResourceType_Instance && module == DicomModule_Instance) || (resourceType == ResourceType_Instance && module == DicomModule_Image))) { throw OrthancException(ErrorCode_NotImplemented); } ServerContext& context = OrthancRestApi::GetContext(call); std::string publicId = call.GetUriComponent("id", ""); std::set<DicomTag> ignoreTagLength; ParseSetOfTags(ignoreTagLength, call, IGNORE_LENGTH); typedef std::set<DicomTag> ModuleTags; ModuleTags moduleTags; DicomTag::AddTagsForModule(moduleTags, module); Json::Value tags; if (resourceType != ResourceType_Instance) { // Retrieve all the instances of this patient/study/series typedef std::list<std::string> Instances; Instances instances; context.GetIndex().GetChildInstances(instances, publicId); if (instances.empty()) { return; // Error: No instance (should never happen) } // Select one child instance publicId = instances.front(); } context.ReadDicomAsJson(tags, publicId, ignoreTagLength); // Filter the tags of the instance according to the module Json::Value result = Json::objectValue; for (ModuleTags::const_iterator tag = moduleTags.begin(); tag != moduleTags.end(); ++tag) { std::string s = tag->Format(); if (tags.isMember(s)) { result[s] = tags[s]; } } AnswerDicomAsJson(call, result, OrthancRestApi::GetDicomFormat(call, DicomToJsonFormat_Full)); } namespace { typedef std::list< std::pair<ResourceType, std::string> > LookupResults; } static void AccumulateLookupResults(LookupResults& result, ServerIndex& index, const DicomTag& tag, const std::string& value, ResourceType level) { std::vector<std::string> tmp; index.LookupIdentifierExact(tmp, level, tag, value); for (size_t i = 0; i < tmp.size(); i++) { result.push_back(std::make_pair(level, tmp[i])); } } static void Lookup(RestApiPostCall& call) { if (call.IsDocumentation()) { call.GetDocumentation() .SetTag("System") .SetSummary("Look for DICOM identifiers") .SetDescription("This URI can be used to convert one DICOM identifier to a list of matching Orthanc resources") .AddRequestType(MimeType_PlainText, "The DICOM identifier of interest (i.e. the value of `PatientID`, " "`StudyInstanceUID`, `SeriesInstanceUID`, or `SOPInstanceUID`)") .AddAnswerType(MimeType_Json, "JSON array containing a list of matching Orthanc resources, each item in the " "list corresponding to a JSON object with the fields `Type`, `ID` and `Path` identifying one " "DICOM resource that is stored by Orthanc"); return; } std::string tag; call.BodyToString(tag); LookupResults resources; ServerIndex& index = OrthancRestApi::GetIndex(call); AccumulateLookupResults(resources, index, DICOM_TAG_PATIENT_ID, tag, ResourceType_Patient); AccumulateLookupResults(resources, index, DICOM_TAG_STUDY_INSTANCE_UID, tag, ResourceType_Study); AccumulateLookupResults(resources, index, DICOM_TAG_SERIES_INSTANCE_UID, tag, ResourceType_Series); AccumulateLookupResults(resources, index, DICOM_TAG_SOP_INSTANCE_UID, tag, ResourceType_Instance); Json::Value result = Json::arrayValue; for (LookupResults::const_iterator it = resources.begin(); it != resources.end(); ++it) { ResourceType type = it->first; const std::string& id = it->second; Json::Value item = Json::objectValue; item["Type"] = EnumerationToString(type); item["ID"] = id; item["Path"] = GetBasePath(type, id); result.append(item); } call.GetOutput().AnswerJson(result); } namespace { class FindVisitor : public ServerContext::ILookupVisitor { private: bool isComplete_; std::list<std::string> resources_; FindStorageAccessMode findStorageAccessMode_; // cache the data we used during lookup and that we could reuse when building the answers std::map<std::string, std::string> instancesIds_; // the id of an instance for each found resource. std::map<std::string, boost::shared_ptr<DicomMap> > resourcesMainDicomTags_; // all tags read from DB for a resource (current level and upper levels) std::map<std::string, boost::shared_ptr<Json::Value> > resourcesDicomAsJson_; // the dicom-as-json for a resource DicomToJsonFormat format_; public: explicit FindVisitor(DicomToJsonFormat format, FindStorageAccessMode findStorageAccessMode) : isComplete_(false), findStorageAccessMode_(findStorageAccessMode), format_(format) { } virtual bool IsDicomAsJsonNeeded() const ORTHANC_OVERRIDE { return false; // (*) } virtual void MarkAsComplete() ORTHANC_OVERRIDE { isComplete_ = true; // Unused information as of Orthanc 1.5.0 } virtual void Visit(const std::string& publicId, const std::string& instanceId, const DicomMap& mainDicomTags, const Json::Value* dicomAsJson) ORTHANC_OVERRIDE { resources_.push_back(publicId); instancesIds_[publicId] = instanceId; resourcesMainDicomTags_[publicId].reset(mainDicomTags.Clone()); if (dicomAsJson != NULL) { resourcesDicomAsJson_[publicId].reset(new Json::Value(*dicomAsJson)); // keep our own copy because we might reuse it between lookup and answers } else { resourcesDicomAsJson_[publicId] = boost::shared_ptr<Json::Value>(); } } void Answer(RestApiOutput& output, ServerContext& context, ResourceType level, bool expand, const std::set<DicomTag>& requestedTags) const { AnswerListOfResources(output, context, resources_, instancesIds_, resourcesMainDicomTags_, resourcesDicomAsJson_, level, expand, format_, requestedTags, IsStorageAccessAllowedForAnswers(findStorageAccessMode_)); } }; } static void Find(RestApiPostCall& call) { static const char* const KEY_CASE_SENSITIVE = "CaseSensitive"; static const char* const KEY_EXPAND = "Expand"; static const char* const KEY_LEVEL = "Level"; static const char* const KEY_LIMIT = "Limit"; static const char* const KEY_QUERY = "Query"; static const char* const KEY_REQUESTED_TAGS = "RequestedTags"; static const char* const KEY_SINCE = "Since"; static const char* const KEY_WITH_LABELS = "WithLabels"; // New in Orthanc 1.12.0 static const char* const KEY_WITHOUT_LABELS = "WithoutLabels"; // New in Orthanc 1.12.0 if (call.IsDocumentation()) { OrthancRestApi::DocumentDicomFormat(call, DicomToJsonFormat_Human); call.GetDocumentation() .SetTag("System") .SetSummary("Look for local resources") .SetDescription("This URI can be used to perform a search on the content of the local Orthanc server, " "in a way that is similar to querying remote DICOM modalities using C-FIND SCU: " "https://book.orthanc-server.com/users/rest.html#performing-finds-within-orthanc") .SetRequestField(KEY_CASE_SENSITIVE, RestApiCallDocumentation::Type_Boolean, "Enable case-sensitive search for PN value representations (defaults to configuration option `CaseSensitivePN`)", false) .SetRequestField(KEY_EXPAND, RestApiCallDocumentation::Type_Boolean, "Also retrieve the content of the matching resources, not only their Orthanc identifiers", false) .SetRequestField(KEY_LEVEL, RestApiCallDocumentation::Type_String, "Level of the query (`Patient`, `Study`, `Series` or `Instance`)", true) .SetRequestField(KEY_LIMIT, RestApiCallDocumentation::Type_Number, "Limit the number of reported resources", false) .SetRequestField(KEY_SINCE, RestApiCallDocumentation::Type_Number, "Show only the resources since the provided index (in conjunction with `Limit`)", false) .SetRequestField(KEY_REQUESTED_TAGS, RestApiCallDocumentation::Type_JsonListOfStrings, "A list of DICOM tags to include in the response (applicable only if \"Expand\" is set to true). " "The tags requested tags are returned in the 'RequestedTags' field in the response. " "Note that, if you are requesting tags that are not listed in the Main Dicom Tags stored in DB, building the response " "might be slow since Orthanc will need to access the DICOM files. If not specified, Orthanc will return " "all Main Dicom Tags to keep backward compatibility with Orthanc prior to 1.11.0.", false) .SetRequestField(KEY_QUERY, RestApiCallDocumentation::Type_JsonObject, "Associative array containing the filter on the values of the DICOM tags", true) .SetRequestField(KEY_WITH_LABELS, RestApiCallDocumentation::Type_JsonListOfStrings, "List of strings specifying which labels must be present in the resources (new in Orthanc 1.12.0)", true) .SetRequestField(KEY_WITHOUT_LABELS, RestApiCallDocumentation::Type_JsonListOfStrings, "List of strings specifying which labels must not be present in the resources (new in Orthanc 1.12.0)", true) .AddAnswerType(MimeType_Json, "JSON array containing either the Orthanc identifiers, or detailed information " "about the reported resources (if `Expand` argument is `true`)"); return; } ServerContext& context = OrthancRestApi::GetContext(call); Json::Value request; if (!call.ParseJsonRequest(request) || request.type() != Json::objectValue) { throw OrthancException(ErrorCode_BadRequest, "The body must contain a JSON object"); } else if (!request.isMember(KEY_LEVEL) || request[KEY_LEVEL].type() != Json::stringValue) { throw OrthancException(ErrorCode_BadRequest, "Field \"" + std::string(KEY_LEVEL) + "\" is missing, or should be a string"); } else if (!request.isMember(KEY_QUERY) && request[KEY_QUERY].type() != Json::objectValue) { throw OrthancException(ErrorCode_BadRequest, "Field \"" + std::string(KEY_QUERY) + "\" is missing, or should be a JSON object"); } else if (request.isMember(KEY_CASE_SENSITIVE) && request[KEY_CASE_SENSITIVE].type() != Json::booleanValue) { throw OrthancException(ErrorCode_BadRequest, "Field \"" + std::string(KEY_CASE_SENSITIVE) + "\" must be a Boolean"); } else if (request.isMember(KEY_LIMIT) && request[KEY_LIMIT].type() != Json::intValue) { throw OrthancException(ErrorCode_BadRequest, "Field \"" + std::string(KEY_LIMIT) + "\" must be an integer"); } else if (request.isMember(KEY_SINCE) && request[KEY_SINCE].type() != Json::intValue) { throw OrthancException(ErrorCode_BadRequest, "Field \"" + std::string(KEY_SINCE) + "\" must be an integer"); } else if (request.isMember(KEY_REQUESTED_TAGS) && request[KEY_REQUESTED_TAGS].type() != Json::arrayValue) { throw OrthancException(ErrorCode_BadRequest, "Field \"" + std::string(KEY_REQUESTED_TAGS) + "\" must be an array"); } else if (request.isMember(KEY_WITH_LABELS) && request[KEY_WITH_LABELS].type() != Json::arrayValue) { throw OrthancException(ErrorCode_BadRequest, "Field \"" + std::string(KEY_WITH_LABELS) + "\" must be an array of strings"); } else if (request.isMember(KEY_WITHOUT_LABELS) && request[KEY_WITHOUT_LABELS].type() != Json::arrayValue) { throw OrthancException(ErrorCode_BadRequest, "Field \"" + std::string(KEY_WITHOUT_LABELS) + "\" must be an array of strings"); } else { bool expand = false; if (request.isMember(KEY_EXPAND)) { expand = request[KEY_EXPAND].asBool(); } bool caseSensitive = false; if (request.isMember(KEY_CASE_SENSITIVE)) { caseSensitive = request[KEY_CASE_SENSITIVE].asBool(); } size_t limit = 0; if (request.isMember(KEY_LIMIT)) { int tmp = request[KEY_LIMIT].asInt(); if (tmp < 0) { throw OrthancException(ErrorCode_ParameterOutOfRange, "Field \"" + std::string(KEY_LIMIT) + "\" must be a positive integer"); } limit = static_cast<size_t>(tmp); } size_t since = 0; if (request.isMember(KEY_SINCE)) { int tmp = request[KEY_SINCE].asInt(); if (tmp < 0) { throw OrthancException(ErrorCode_ParameterOutOfRange, "Field \"" + std::string(KEY_SINCE) + "\" must be a positive integer"); } since = static_cast<size_t>(tmp); } std::set<DicomTag> requestedTags; if (request.isMember(KEY_REQUESTED_TAGS)) { FromDcmtkBridge::ParseListOfTags(requestedTags, request[KEY_REQUESTED_TAGS]); } ResourceType level = StringToResourceType(request[KEY_LEVEL].asCString()); DatabaseLookup query; Json::Value::Members members = request[KEY_QUERY].getMemberNames(); for (size_t i = 0; i < members.size(); i++) { if (request[KEY_QUERY][members[i]].type() != Json::stringValue) { throw OrthancException(ErrorCode_BadRequest, "Tag \"" + members[i] + "\" must be associated with a string"); } const std::string value = request[KEY_QUERY][members[i]].asString(); if (!value.empty()) { // An empty string corresponds to an universal constraint, // so we ignore it. This mimics the behavior of class // "OrthancFindRequestHandler" query.AddRestConstraint(FromDcmtkBridge::ParseTag(members[i]), value, caseSensitive, true); } } if (request.isMember(KEY_WITH_LABELS)) // New in Orthanc 1.12.0 { for (Json::Value::ArrayIndex i = 0; i < request[KEY_WITH_LABELS].size(); i++) { if (request[KEY_WITH_LABELS][i].type() != Json::stringValue) { throw OrthancException(ErrorCode_BadRequest, "Field \""+ std::string(KEY_WITH_LABELS) + "\" must contain strings"); } else { query.AddWithLabel(request[KEY_WITH_LABELS][i].asString()); } } } if (request.isMember(KEY_WITHOUT_LABELS)) // New in Orthanc 1.12.0 { for (Json::Value::ArrayIndex i = 0; i < request[KEY_WITHOUT_LABELS].size(); i++) { if (request[KEY_WITHOUT_LABELS][i].type() != Json::stringValue) { throw OrthancException(ErrorCode_BadRequest, "Field \""+ std::string(KEY_WITHOUT_LABELS) + "\" must contain strings"); } else { query.AddWithoutLabel(request[KEY_WITHOUT_LABELS][i].asString()); } } } FindVisitor visitor(OrthancRestApi::GetDicomFormat(request, DicomToJsonFormat_Human), context.GetFindStorageAccessMode()); context.Apply(visitor, query, level, since, limit); visitor.Answer(call.GetOutput(), context, level, expand, requestedTags); } } template <enum ResourceType start, enum ResourceType end> static void GetChildResources(RestApiGetCall& call) { if (call.IsDocumentation()) { OrthancRestApi::DocumentDicomFormat(call, DicomToJsonFormat_Human); OrthancRestApi::DocumentRequestedTags(call); const std::string children = GetResourceTypeText(end, true /* plural */, false /* lower case */); const std::string resource = GetResourceTypeText(start, false /* plural */, false /* lower case */); call.GetDocumentation() .SetTag(GetResourceTypeText(start, true /* plural */, true /* upper case */)) .SetSummary("Get child " + children) .SetDescription("Get detailed information about the child " + children + " of the DICOM " + resource + " whose Orthanc identifier is provided in the URL") .SetUriArgument("id", "Orthanc identifier of the " + resource + " of interest") .AddAnswerType(MimeType_Json, "JSON array containing information about the child DICOM " + children) .SetTruncatedJsonHttpGetSample(GetDocumentationSampleResource(start) + "/" + children, 5); return; } ServerIndex& index = OrthancRestApi::GetIndex(call); std::set<DicomTag> requestedTags; OrthancRestApi::GetRequestedTags(requestedTags, call); std::list<std::string> a, b, c; a.push_back(call.GetUriComponent("id", "")); ResourceType type = start; while (type != end) { b.clear(); for (std::list<std::string>::const_iterator it = a.begin(); it != a.end(); ++it) { index.GetChildren(c, *it); b.splice(b.begin(), c); } type = GetChildResourceType(type); a.clear(); a.splice(a.begin(), b); } Json::Value result = Json::arrayValue; const DicomToJsonFormat format = OrthancRestApi::GetDicomFormat(call, DicomToJsonFormat_Human); for (std::list<std::string>::const_iterator it = a.begin(); it != a.end(); ++it) { Json::Value resource; if (OrthancRestApi::GetContext(call).ExpandResource(resource, *it, end, format, requestedTags, true /* allowStorageAccess */)) { result.append(resource); } } call.GetOutput().AnswerJson(result); } static void GetChildInstancesTags(RestApiGetCall& call) { if (call.IsDocumentation()) { OrthancRestApi::DocumentDicomFormat(call, DicomToJsonFormat_Full); ResourceType t = StringToResourceType(call.GetFullUri()[0].c_str()); std::string r = GetResourceTypeText(t, false /* plural */, false /* upper case */); call.GetDocumentation() .SetTag(GetResourceTypeText(t, true /* plural */, true /* upper case */)) .SetSummary("Get tags of instances") .SetDescription("Get the tags of all the child instances of the DICOM " + r + " whose Orthanc identifier is provided in the URL") .SetUriArgument("id", "Orthanc identifier of the " + r + " of interest") .SetHttpGetArgument(IGNORE_LENGTH, RestApiCallDocumentation::Type_JsonListOfStrings, "Also include the DICOM tags that are provided in this list, even if their associated value is long", false) .AddAnswerType(MimeType_Json, "JSON object associating the Orthanc identifiers of the instances, with the values of their DICOM tags") .SetTruncatedJsonHttpGetSample(GetDocumentationSampleResource(t) + "/instances-tags", 5); return; } ServerContext& context = OrthancRestApi::GetContext(call); std::string publicId = call.GetUriComponent("id", ""); DicomToJsonFormat format = OrthancRestApi::GetDicomFormat(call, DicomToJsonFormat_Full); std::set<DicomTag> ignoreTagLength; ParseSetOfTags(ignoreTagLength, call, IGNORE_LENGTH); // Retrieve all the instances of this patient/study/series typedef std::list<std::string> Instances; Instances instances; context.GetIndex().GetChildInstances(instances, publicId); // (*) Json::Value result = Json::objectValue; for (Instances::const_iterator it = instances.begin(); it != instances.end(); ++it) { Json::Value full; context.ReadDicomAsJson(full, *it, ignoreTagLength); if (format != DicomToJsonFormat_Full) { Json::Value simplified; Toolbox::SimplifyDicomAsJson(simplified, full, format); result[*it] = simplified; } else { result[*it] = full; } } call.GetOutput().AnswerJson(result); } template <enum ResourceType start, enum ResourceType end> static void GetParentResource(RestApiGetCall& call) { assert(start > end); if (call.IsDocumentation()) { OrthancRestApi::DocumentDicomFormat(call, DicomToJsonFormat_Human); OrthancRestApi::DocumentRequestedTags(call); const std::string parent = GetResourceTypeText(end, false /* plural */, false /* lower case */); const std::string resource = GetResourceTypeText(start, false /* plural */, false /* lower case */); call.GetDocumentation() .SetTag(GetResourceTypeText(start, true /* plural */, true /* upper case */)) .SetSummary("Get parent " + parent) .SetDescription("Get detailed information about the parent " + parent + " of the DICOM " + resource + " whose Orthanc identifier is provided in the URL") .SetUriArgument("id", "Orthanc identifier of the " + resource + " of interest") .AddAnswerType(MimeType_Json, "Information about the parent DICOM " + parent) .SetTruncatedJsonHttpGetSample(GetDocumentationSampleResource(start) + "/" + parent, 10); return; } ServerIndex& index = OrthancRestApi::GetIndex(call); std::set<DicomTag> requestedTags; OrthancRestApi::GetRequestedTags(requestedTags, call); std::string current = call.GetUriComponent("id", ""); ResourceType currentType = start; while (currentType > end) { std::string parent; if (!index.LookupParent(parent, current)) { // Error that could happen if the resource gets deleted by // another concurrent call return; } current = parent; currentType = GetParentResourceType(currentType); } assert(currentType == end); const DicomToJsonFormat format = OrthancRestApi::GetDicomFormat(call, DicomToJsonFormat_Human); Json::Value resource; if (OrthancRestApi::GetContext(call).ExpandResource(resource, current, end, format, requestedTags, true /* allowStorageAccess */)) { call.GetOutput().AnswerJson(resource); } } static void ExtractPdf(RestApiGetCall& call) { if (call.IsDocumentation()) { call.GetDocumentation() .SetTag("Instances") .SetSummary("Get embedded PDF") .SetDescription("Get the PDF file that is embedded in one DICOM instance. " "If the DICOM instance doesn't contain the `EncapsulatedDocument` tag or if the " "`MIMETypeOfEncapsulatedDocument` tag doesn't correspond to the PDF type, a `404` HTTP error is raised.") .SetUriArgument("id", "Orthanc identifier of the instance interest") .AddAnswerType(MimeType_Pdf, "PDF file"); return; } const std::string id = call.GetUriComponent("id", ""); std::string pdf; ServerContext::DicomCacheLocker locker(OrthancRestApi::GetContext(call), id); if (locker.GetDicom().ExtractPdf(pdf)) { call.GetOutput().AnswerBuffer(pdf, MimeType_Pdf); return; } } static void OrderSlices(RestApiGetCall& call) { if (call.IsDocumentation()) { call.GetDocumentation() .SetDeprecated() .SetTag("Series") .SetSummary("Order the slices") .SetDescription("Sort the instances and frames (slices) of the DICOM series whose Orthanc identifier is provided in the URL. " "This URI is essentially used by the Orthanc Web viewer and by the Osimis Web viewer.") .SetUriArgument("id", "Orthanc identifier of the series of interest") .SetAnswerField("Dicom", RestApiCallDocumentation::Type_JsonListOfStrings, "Ordered list of paths to DICOM instances") .SetAnswerField("Slices", RestApiCallDocumentation::Type_JsonListOfStrings, "Ordered list of paths to frames. It is recommended to use this field, as it is also valid " "in the case of multiframe images.") .SetAnswerField("SlicesShort", RestApiCallDocumentation::Type_JsonListOfObjects, "Same information as the `Slices` field, but in a compact form") .SetAnswerField("Type", RestApiCallDocumentation::Type_String, "Can be `Volume` (for 3D volumes) or `Sequence` (notably for cine images)") .SetTruncatedJsonHttpGetSample("https://demo.orthanc-server.com/series/1e2c125c-411b8e86-3f4fe68e-a7584dd3-c6da78f0/ordered-slices", 10); return; } const std::string id = call.GetUriComponent("id", ""); ServerIndex& index = OrthancRestApi::GetIndex(call); SliceOrdering ordering(index, id); Json::Value result; ordering.Format(result); call.GetOutput().AnswerJson(result); } static void GetInstanceHeader(RestApiGetCall& call) { if (call.IsDocumentation()) { OrthancRestApi::DocumentDicomFormat(call, DicomToJsonFormat_Full); call.GetDocumentation() .SetTag("Instances") .SetSummary("Get DICOM meta-header") .SetDescription("Get the DICOM tags in the meta-header of the DICOM instance. By default, the `full` format is used, which " "combines hexadecimal tags with human-readable description.") .SetUriArgument("id", "Orthanc identifier of the DICOM instance of interest") .AddAnswerType(MimeType_Json, "JSON object containing the DICOM tags and their associated value") .SetHttpGetSample("https://demo.orthanc-server.com/instances/7c92ce8e-bbf67ed2-ffa3b8c1-a3b35d94-7ff3ae26/header", true); return; } ServerContext& context = OrthancRestApi::GetContext(call); std::string publicId = call.GetUriComponent("id", ""); std::string dicomContent; context.ReadDicomForHeader(dicomContent, publicId); // TODO Consider using "DicomMap::ParseDicomMetaInformation()" to // speed up things here ParsedDicomFile dicom(dicomContent); Json::Value header; OrthancConfiguration::DefaultDicomHeaderToJson(header, dicom); AnswerDicomAsJson(call, header, OrthancRestApi::GetDicomFormat(call, DicomToJsonFormat_Full)); } static void InvalidateTags(RestApiPostCall& call) { if (call.IsDocumentation()) { call.GetDocumentation() .SetTag("System") .SetSummary("Invalidate DICOM-as-JSON summaries") .SetDescription("Remove all the attachments of the type \"DICOM-as-JSON\" that are associated will all the " "DICOM instances stored in Orthanc. These summaries will be automatically re-created on the next access. " "This is notably useful after changes to the `Dictionary` configuration option. " "https://book.orthanc-server.com/faq/orthanc-storage.html#storage-area"); return; } ServerIndex& index = OrthancRestApi::GetIndex(call); // Loop over the instances, grouping them by parent studies so as // to avoid large memory consumption std::list<std::string> studies; index.GetAllUuids(studies, ResourceType_Study); for (std::list<std::string>::const_iterator study = studies.begin(); study != studies.end(); ++study) { std::list<std::string> instances; index.GetChildInstances(instances, *study); for (std::list<std::string>::const_iterator instance = instances.begin(); instance != instances.end(); ++instance) { index.DeleteAttachment(*instance, FileContentType_DicomAsJson, false /* no revision checks */, -1 /* dummy */, "" /* dummy */); } } call.GetOutput().AnswerBuffer("", MimeType_PlainText); } void DocumentReconstructFilesField(RestApiPostCall& call) { call.GetDocumentation() .SetRequestField(RECONSTRUCT_FILES, RestApiCallDocumentation::Type_Boolean, "Also reconstruct the files of the resources (e.g: apply IngestTranscoding, StorageCompression). " "'false' by default. (New in Orthanc 1.11.0)", false); } bool GetReconstructFilesField(const RestApiPostCall& call) { bool reconstructFiles = false; Json::Value request; if (call.GetBodySize() > 0 && call.ParseJsonRequest(request) && request.isMember(RECONSTRUCT_FILES)) // allow "" payload to keep backward compatibility { if (!request[RECONSTRUCT_FILES].isBool()) { throw OrthancException(ErrorCode_BadFileFormat, "The field " + std::string(RECONSTRUCT_FILES) + " must contain a Boolean"); } reconstructFiles = request[RECONSTRUCT_FILES].asBool(); } return reconstructFiles; } template <enum ResourceType type> static void ReconstructResource(RestApiPostCall& call) { if (call.IsDocumentation()) { const std::string resource = GetResourceTypeText(type, false /* plural */, false /* lower case */); call.GetDocumentation() .SetTag(GetResourceTypeText(type, true /* plural */, true /* upper case */)) .SetSummary("Reconstruct tags & optionally files of " + resource) .SetDescription("Reconstruct the main DICOM tags in DB of the " + resource + " whose Orthanc identifier is provided " "in the URL. This is useful if child studies/series/instances have inconsistent values for " "higher-level tags, in order to force Orthanc to use the value from the resource of interest. " "Beware that this is a time-consuming operation, as all the children DICOM instances will be " "parsed again, and the Orthanc index will be updated accordingly.") .SetUriArgument("id", "Orthanc identifier of the " + resource + " of interest"); DocumentReconstructFilesField(call); return; } ServerContext& context = OrthancRestApi::GetContext(call); ServerToolbox::ReconstructResource(context, call.GetUriComponent("id", ""), GetReconstructFilesField(call)); call.GetOutput().AnswerBuffer("", MimeType_PlainText); } static void ReconstructAllResources(RestApiPostCall& call) { if (call.IsDocumentation()) { call.GetDocumentation() .SetTag("System") .SetSummary("Reconstruct all the index") .SetDescription("Reconstruct the index of all the tags of all the DICOM instances that are stored in Orthanc. " "This is notably useful after the deletion of resources whose children resources have inconsistent " "values with their sibling resources. Beware that this is a highly time-consuming operation, " "as all the DICOM instances will be parsed again, and as all the Orthanc index will be regenerated. " "If you have a large database to process, it is advised to use the Housekeeper plugin to perform " "this action resource by resource"); DocumentReconstructFilesField(call); return; } ServerContext& context = OrthancRestApi::GetContext(call); std::list<std::string> studies; context.GetIndex().GetAllUuids(studies, ResourceType_Study); bool reconstructFiles = GetReconstructFilesField(call); for (std::list<std::string>::const_iterator study = studies.begin(); study != studies.end(); ++study) { ServerToolbox::ReconstructResource(context, *study, reconstructFiles); } call.GetOutput().AnswerBuffer("", MimeType_PlainText); } static void GetBulkChildren(std::set<std::string>& target, ServerIndex& index, const std::set<std::string>& source) { target.clear(); for (std::set<std::string>::const_iterator it = source.begin(); it != source.end(); ++it) { std::list<std::string> children; index.GetChildren(children, *it); for (std::list<std::string>::const_iterator child = children.begin(); child != children.end(); ++child) { target.insert(*child); } } } static void AddMetadata(Json::Value& target, ServerIndex& index, const std::string& resource, ResourceType level) { target = Json::objectValue; std::map<MetadataType, std::string> content; index.GetAllMetadata(content, resource, level); for (std::map<MetadataType, std::string>::const_iterator it = content.begin(); it != content.end(); ++it) { target[EnumerationToString(it->first)] = it->second; } } static void BulkContent(RestApiPostCall& call) { static const char* const LEVEL = "Level"; static const char* const METADATA = "Metadata"; if (call.IsDocumentation()) { OrthancRestApi::DocumentDicomFormat(call, DicomToJsonFormat_Human); call.GetDocumentation() .SetTag("System") .SetSummary("Describe a set of resources") .SetRequestField("Resources", RestApiCallDocumentation::Type_JsonListOfStrings, "List of the Orthanc identifiers of the patients/studies/series/instances of interest.", true) .SetRequestField(LEVEL, RestApiCallDocumentation::Type_String, "This optional argument specifies the level of interest (can be `Patient`, `Study`, `Series` or " "`Instance`). Orthanc will loop over the items inside `Resources`, and explore upward or " "downward in the DICOM hierarchy in order to find the level of interest.", false) .SetRequestField(METADATA, RestApiCallDocumentation::Type_Boolean, "If set to `true` (default value), the metadata associated with the resources will also be retrieved.", false) .SetDescription("Get the content all the DICOM patients, studies, series or instances " "whose identifiers are provided in the `Resources` field, in one single call."); return; } Json::Value request; if (!call.ParseJsonRequest(request) || request.type() != Json::objectValue) { throw OrthancException(ErrorCode_BadRequest, "The body must contain a JSON object"); } else { const DicomToJsonFormat format = OrthancRestApi::GetDicomFormat(request, DicomToJsonFormat_Human); bool metadata = true; if (request.isMember(METADATA)) { metadata = SerializationToolbox::ReadBoolean(request, METADATA); } ServerIndex& index = OrthancRestApi::GetIndex(call); Json::Value answer = Json::arrayValue; if (request.isMember(LEVEL)) { // Complex case: Need to explore the DICOM hierarchy ResourceType level = StringToResourceType(SerializationToolbox::ReadString(request, LEVEL).c_str()); std::set<std::string> resources; SerializationToolbox::ReadSetOfStrings(resources, request, "Resources"); std::set<std::string> interest; assert(ResourceType_Patient < ResourceType_Study && ResourceType_Study < ResourceType_Series && ResourceType_Series < ResourceType_Instance); for (std::set<std::string>::const_iterator it = resources.begin(); it != resources.end(); ++it) { ResourceType type; if (index.LookupResourceType(type, *it)) { if (type == level) { // This resource is already from the level of interest interest.insert(*it); } else if (type < level) { // Need to explore children std::set<std::string> current; current.insert(*it); for (;;) { std::set<std::string> children; GetBulkChildren(children, index, current); type = GetChildResourceType(type); if (type == level) { for (std::set<std::string>::const_iterator it2 = children.begin(); it2 != children.end(); ++it2) { interest.insert(*it2); } break; // done } else { current.swap(children); } } } else { // Need to explore parents std::string current = *it; for (;;) { std::string parent; if (index.LookupParent(parent, current)) { type = GetParentResourceType(type); if (type == level) { interest.insert(parent); break; // done } else { current = parent; } } else { break; // The resource has been deleted during the exploration } } } } else { CLOG(INFO, HTTP) << "Unknown resource during a bulk content retrieval: " << *it; } } for (std::set<std::string>::const_iterator it = interest.begin(); it != interest.end(); ++it) { Json::Value item; std::set<DicomTag> emptyRequestedTags; // not supported for bulk content if (OrthancRestApi::GetContext(call).ExpandResource(item, *it, level, format, emptyRequestedTags, true /* allowStorageAccess */)) { if (metadata) { AddMetadata(item[METADATA], index, *it, level); } answer.append(item); } } } else { // Simple case: We return the queried resources as such std::list<std::string> resources; SerializationToolbox::ReadListOfStrings(resources, request, "Resources"); for (std::list<std::string>::const_iterator it = resources.begin(); it != resources.end(); ++it) { ResourceType level; Json::Value item; std::set<DicomTag> emptyRequestedTags; // not supported for bulk content if (index.LookupResourceType(level, *it) && OrthancRestApi::GetContext(call).ExpandResource(item, *it, level, format, emptyRequestedTags, true /* allowStorageAccess */)) { if (metadata) { AddMetadata(item[METADATA], index, *it, level); } answer.append(item); } else { CLOG(INFO, HTTP) << "Unknown resource during a bulk content retrieval: " << *it; } } } call.GetOutput().AnswerJson(answer); } } static void BulkDelete(RestApiPostCall& call) { if (call.IsDocumentation()) { call.GetDocumentation() .SetTag("System") .SetSummary("Delete a set of resources") .SetRequestField("Resources", RestApiCallDocumentation::Type_JsonListOfStrings, "List of the Orthanc identifiers of the patients/studies/series/instances of interest.", true) .SetDescription("Delete all the DICOM patients, studies, series or instances " "whose identifiers are provided in the `Resources` field."); return; } ServerContext& context = OrthancRestApi::GetContext(call); Json::Value request; if (!call.ParseJsonRequest(request) || request.type() != Json::objectValue) { throw OrthancException(ErrorCode_BadRequest, "The body must contain a JSON object"); } else { std::set<std::string> resources; SerializationToolbox::ReadSetOfStrings(resources, request, "Resources"); for (std::set<std::string>::const_iterator it = resources.begin(); it != resources.end(); ++it) { ResourceType type; Json::Value remainingAncestor; // Unused if (!context.GetIndex().LookupResourceType(type, *it) || !context.DeleteResource(remainingAncestor, *it, type)) { CLOG(INFO, HTTP) << "Unknown resource during a bulk deletion: " << *it; } } call.GetOutput().AnswerBuffer("", MimeType_PlainText); } } void OrthancRestApi::RegisterResources() { Register("/instances", ListResources<ResourceType_Instance>); Register("/patients", ListResources<ResourceType_Patient>); Register("/series", ListResources<ResourceType_Series>); Register("/studies", ListResources<ResourceType_Study>); Register("/instances/{id}", DeleteSingleResource<ResourceType_Instance>); Register("/instances/{id}", GetSingleResource<ResourceType_Instance>); Register("/patients/{id}", DeleteSingleResource<ResourceType_Patient>); Register("/patients/{id}", GetSingleResource<ResourceType_Patient>); Register("/series/{id}", DeleteSingleResource<ResourceType_Series>); Register("/series/{id}", GetSingleResource<ResourceType_Series>); Register("/studies/{id}", DeleteSingleResource<ResourceType_Study>); Register("/studies/{id}", GetSingleResource<ResourceType_Study>); Register("/instances/{id}/statistics", GetResourceStatistics); Register("/patients/{id}/statistics", GetResourceStatistics); Register("/studies/{id}/statistics", GetResourceStatistics); Register("/series/{id}/statistics", GetResourceStatistics); Register("/patients/{id}/shared-tags", GetSharedTags); Register("/series/{id}/shared-tags", GetSharedTags); Register("/studies/{id}/shared-tags", GetSharedTags); Register("/instances/{id}/module", GetModule<ResourceType_Instance, DicomModule_Instance>); Register("/patients/{id}/module", GetModule<ResourceType_Patient, DicomModule_Patient>); Register("/series/{id}/module", GetModule<ResourceType_Series, DicomModule_Series>); Register("/studies/{id}/module", GetModule<ResourceType_Study, DicomModule_Study>); Register("/studies/{id}/module-patient", GetModule<ResourceType_Study, DicomModule_Patient>); Register("/instances/{id}/file", GetInstanceFile); Register("/instances/{id}/export", ExportInstanceFile); Register("/instances/{id}/tags", GetInstanceTags); Register("/instances/{id}/simplified-tags", GetInstanceSimplifiedTags); Register("/instances/{id}/frames", ListFrames); Register("/instances/{id}/frames/{frame}", RestApi::AutoListChildren); Register("/instances/{id}/frames/{frame}/preview", GetImage<ImageExtractionMode_Preview>); Register("/instances/{id}/frames/{frame}/rendered", GetRenderedFrame); Register("/instances/{id}/frames/{frame}/image-uint8", GetImage<ImageExtractionMode_UInt8>); Register("/instances/{id}/frames/{frame}/image-uint16", GetImage<ImageExtractionMode_UInt16>); Register("/instances/{id}/frames/{frame}/image-int16", GetImage<ImageExtractionMode_Int16>); Register("/instances/{id}/frames/{frame}/matlab", GetMatlabImage); Register("/instances/{id}/frames/{frame}/raw", GetRawFrame<false>); Register("/instances/{id}/frames/{frame}/raw.gz", GetRawFrame<true>); Register("/instances/{id}/frames/{frame}/numpy", GetNumpyFrame); // New in Orthanc 1.10.0 Register("/instances/{id}/pdf", ExtractPdf); Register("/instances/{id}/preview", GetImage<ImageExtractionMode_Preview>); Register("/instances/{id}/rendered", GetRenderedFrame); Register("/instances/{id}/image-uint8", GetImage<ImageExtractionMode_UInt8>); Register("/instances/{id}/image-uint16", GetImage<ImageExtractionMode_UInt16>); Register("/instances/{id}/image-int16", GetImage<ImageExtractionMode_Int16>); Register("/instances/{id}/matlab", GetMatlabImage); Register("/instances/{id}/header", GetInstanceHeader); Register("/instances/{id}/numpy", GetNumpyInstance); // New in Orthanc 1.10.0 Register("/patients/{id}/protected", IsProtectedPatient); Register("/patients/{id}/protected", SetPatientProtection); std::vector<std::string> resourceTypes; resourceTypes.push_back("patients"); resourceTypes.push_back("studies"); resourceTypes.push_back("series"); resourceTypes.push_back("instances"); for (size_t i = 0; i < resourceTypes.size(); i++) { Register("/" + resourceTypes[i] + "/{id}/metadata", ListMetadata); Register("/" + resourceTypes[i] + "/{id}/metadata/{name}", DeleteMetadata); Register("/" + resourceTypes[i] + "/{id}/metadata/{name}", GetMetadata); Register("/" + resourceTypes[i] + "/{id}/metadata/{name}", SetMetadata); // New in Orthanc 1.12.0 Register("/" + resourceTypes[i] + "/{id}/labels", ListLabels); Register("/" + resourceTypes[i] + "/{id}/labels/{label}", GetLabel); Register("/" + resourceTypes[i] + "/{id}/labels/{label}", RemoveLabel); Register("/" + resourceTypes[i] + "/{id}/labels/{label}", AddLabel); Register("/" + resourceTypes[i] + "/{id}/attachments", ListAttachments); Register("/" + resourceTypes[i] + "/{id}/attachments/{name}", DeleteAttachment); Register("/" + resourceTypes[i] + "/{id}/attachments/{name}", GetAttachmentOperations); Register("/" + resourceTypes[i] + "/{id}/attachments/{name}", UploadAttachment); Register("/" + resourceTypes[i] + "/{id}/attachments/{name}/compress", ChangeAttachmentCompression<CompressionType_ZlibWithSize>); Register("/" + resourceTypes[i] + "/{id}/attachments/{name}/compressed-data", GetAttachmentData<0>); Register("/" + resourceTypes[i] + "/{id}/attachments/{name}/compressed-md5", GetAttachmentCompressedMD5); Register("/" + resourceTypes[i] + "/{id}/attachments/{name}/compressed-size", GetAttachmentCompressedSize); Register("/" + resourceTypes[i] + "/{id}/attachments/{name}/data", GetAttachmentData<1>); Register("/" + resourceTypes[i] + "/{id}/attachments/{name}/is-compressed", IsAttachmentCompressed); Register("/" + resourceTypes[i] + "/{id}/attachments/{name}/md5", GetAttachmentMD5); Register("/" + resourceTypes[i] + "/{id}/attachments/{name}/size", GetAttachmentSize); Register("/" + resourceTypes[i] + "/{id}/attachments/{name}/uncompress", ChangeAttachmentCompression<CompressionType_None>); Register("/" + resourceTypes[i] + "/{id}/attachments/{name}/info", GetAttachmentInfo); Register("/" + resourceTypes[i] + "/{id}/attachments/{name}/verify-md5", VerifyAttachment); } Register("/tools/invalidate-tags", InvalidateTags); Register("/tools/lookup", Lookup); Register("/tools/find", Find); Register("/patients/{id}/studies", GetChildResources<ResourceType_Patient, ResourceType_Study>); Register("/patients/{id}/series", GetChildResources<ResourceType_Patient, ResourceType_Series>); Register("/patients/{id}/instances", GetChildResources<ResourceType_Patient, ResourceType_Instance>); Register("/studies/{id}/series", GetChildResources<ResourceType_Study, ResourceType_Series>); Register("/studies/{id}/instances", GetChildResources<ResourceType_Study, ResourceType_Instance>); Register("/series/{id}/instances", GetChildResources<ResourceType_Series, ResourceType_Instance>); Register("/studies/{id}/patient", GetParentResource<ResourceType_Study, ResourceType_Patient>); Register("/series/{id}/patient", GetParentResource<ResourceType_Series, ResourceType_Patient>); Register("/series/{id}/study", GetParentResource<ResourceType_Series, ResourceType_Study>); Register("/instances/{id}/patient", GetParentResource<ResourceType_Instance, ResourceType_Patient>); Register("/instances/{id}/study", GetParentResource<ResourceType_Instance, ResourceType_Study>); Register("/instances/{id}/series", GetParentResource<ResourceType_Instance, ResourceType_Series>); Register("/patients/{id}/instances-tags", GetChildInstancesTags); Register("/studies/{id}/instances-tags", GetChildInstancesTags); Register("/series/{id}/instances-tags", GetChildInstancesTags); Register("/instances/{id}/content/*", GetRawContent); Register("/series/{id}/ordered-slices", OrderSlices); Register("/series/{id}/numpy", GetNumpySeries); // New in Orthanc 1.10.0 Register("/patients/{id}/reconstruct", ReconstructResource<ResourceType_Patient>); Register("/studies/{id}/reconstruct", ReconstructResource<ResourceType_Study>); Register("/series/{id}/reconstruct", ReconstructResource<ResourceType_Series>); Register("/instances/{id}/reconstruct", ReconstructResource<ResourceType_Instance>); Register("/tools/reconstruct", ReconstructAllResources); Register("/tools/bulk-content", BulkContent); Register("/tools/bulk-delete", BulkDelete); } }