Mercurial > hg > orthanc
view OrthancFramework/Sources/RestApi/RestApi.cpp @ 5593:862b54b4cfe2 find-refactoring
implemented the default multi-stage find/expand
author | Sebastien Jodogne <s.jodogne@gmail.com> |
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date | Sat, 04 May 2024 11:35:34 +0200 |
parents | 48b8dae6dc77 |
children | f7adfb22e20e |
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/** * Orthanc - A Lightweight, RESTful DICOM Store * Copyright (C) 2012-2016 Sebastien Jodogne, Medical Physics * Department, University Hospital of Liege, Belgium * Copyright (C) 2017-2024 Osimis S.A., Belgium * Copyright (C) 2021-2024 Sebastien Jodogne, ICTEAM UCLouvain, Belgium * * This program is free software: you can redistribute it and/or * modify it under the terms of the GNU Lesser 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this program. If not, see * <http://www.gnu.org/licenses/>. **/ #include "../PrecompiledHeaders.h" #include "RestApi.h" #include "../HttpServer/StringHttpOutput.h" #include "../Logging.h" #include "../OrthancException.h" #include <boost/algorithm/string/replace.hpp> #include <boost/math/special_functions/round.hpp> #include <stdlib.h> // To define "_exit()" under Windows #include <stdio.h> namespace Orthanc { namespace { // Anonymous namespace to avoid clashes between compilation modules class HttpHandlerVisitor : public RestApiHierarchy::IVisitor { private: RestApi& api_; RestApiOutput& output_; RequestOrigin origin_; const char* remoteIp_; const char* username_; HttpMethod method_; const HttpToolbox::Arguments& headers_; const HttpToolbox::Arguments& getArguments_; const void* bodyData_; size_t bodySize_; public: HttpHandlerVisitor(RestApi& api, RestApiOutput& output, RequestOrigin origin, const char* remoteIp, const char* username, HttpMethod method, const HttpToolbox::Arguments& headers, const HttpToolbox::Arguments& getArguments, const void* bodyData, size_t bodySize) : api_(api), output_(output), origin_(origin), remoteIp_(remoteIp), username_(username), method_(method), headers_(headers), getArguments_(getArguments), bodyData_(bodyData), bodySize_(bodySize) { } virtual bool Visit(const RestApiHierarchy::Resource& resource, const UriComponents& uri, bool hasTrailing, const HttpToolbox::Arguments& components, const UriComponents& trailing) { if (resource.HasHandler(method_)) { switch (method_) { case HttpMethod_Get: { RestApiGetCall call(output_, api_, origin_, remoteIp_, username_, headers_, components, trailing, uri, getArguments_); resource.Handle(call); return true; } case HttpMethod_Post: { RestApiPostCall call(output_, api_, origin_, remoteIp_, username_, headers_, components, trailing, uri, bodyData_, bodySize_); resource.Handle(call); return true; } case HttpMethod_Delete: { RestApiDeleteCall call(output_, api_, origin_, remoteIp_, username_, headers_, components, trailing, uri); resource.Handle(call); return true; } case HttpMethod_Put: { RestApiPutCall call(output_, api_, origin_, remoteIp_, username_, headers_, components, trailing, uri, bodyData_, bodySize_); resource.Handle(call); return true; } default: return false; } } return false; } }; class DocumentationVisitor : public RestApiHierarchy::IVisitor { private: RestApi& restApi_; size_t successPathsCount_; size_t totalPathsCount_; protected: virtual bool HandleCall(RestApiCall& call, const std::string& path, const std::set<std::string>& uriArgumentsNames) = 0; public: explicit DocumentationVisitor(RestApi& restApi) : restApi_(restApi), successPathsCount_(0), totalPathsCount_(0) { } virtual bool Visit(const RestApiHierarchy::Resource& resource, const UriComponents& uri, bool hasTrailing, const HttpToolbox::Arguments& components, const UriComponents& trailing) { std::string path = Toolbox::FlattenUri(uri); if (hasTrailing) { path += "/{path}"; } std::set<std::string> uriArgumentsNames; HttpToolbox::Arguments uriArguments; for (HttpToolbox::Arguments::const_iterator it = components.begin(); it != components.end(); ++it) { assert(it->second.empty()); uriArgumentsNames.insert(it->first.c_str()); uriArguments[it->first] = ""; } if (hasTrailing) { uriArgumentsNames.insert("path"); uriArguments["path"] = ""; } if (resource.HasHandler(HttpMethod_Get)) { totalPathsCount_ ++; StringHttpOutput o1; HttpOutput o2(o1, false /* assume no keep-alive */, 0); RestApiOutput o3(o2, HttpMethod_Get); RestApiGetCall call(o3, restApi_, RequestOrigin_Documentation, "" /* remote IP */, "" /* username */, HttpToolbox::Arguments() /* HTTP headers */, uriArguments, UriComponents() /* trailing */, uri, HttpToolbox::Arguments() /* GET arguments */); bool ok = false; try { ok = (resource.Handle(call) && HandleCall(call, path, uriArgumentsNames)); } catch (OrthancException& e) { LOG(ERROR) << "Exception while documenting GET " << path << ": " << e.What(); } catch (boost::bad_lexical_cast&) { LOG(ERROR) << "Bad lexical cast while documenting GET " << path; } if (ok) { successPathsCount_ ++; } else { LOG(WARNING) << "Ignoring URI without API documentation: GET " << path; } } if (resource.HasHandler(HttpMethod_Post)) { totalPathsCount_ ++; StringHttpOutput o1; HttpOutput o2(o1, false /* assume no keep-alive */, 0); RestApiOutput o3(o2, HttpMethod_Post); RestApiPostCall call(o3, restApi_, RequestOrigin_Documentation, "" /* remote IP */, "" /* username */, HttpToolbox::Arguments() /* HTTP headers */, uriArguments, UriComponents() /* trailing */, uri, NULL /* body */, 0 /* body size */); bool ok = false; try { ok = (resource.Handle(call) && HandleCall(call, path, uriArgumentsNames)); } catch (OrthancException& e) { LOG(ERROR) << "Exception while documenting POST " << path << ": " << e.What(); } catch (boost::bad_lexical_cast&) { LOG(ERROR) << "Bad lexical cast while documenting POST " << path; } if (ok) { successPathsCount_ ++; } else { LOG(WARNING) << "Ignoring URI without API documentation: POST " << path; } } if (resource.HasHandler(HttpMethod_Delete)) { totalPathsCount_ ++; StringHttpOutput o1; HttpOutput o2(o1, false /* assume no keep-alive */, 0); RestApiOutput o3(o2, HttpMethod_Delete); RestApiDeleteCall call(o3, restApi_, RequestOrigin_Documentation, "" /* remote IP */, "" /* username */, HttpToolbox::Arguments() /* HTTP headers */, uriArguments, UriComponents() /* trailing */, uri); bool ok = false; try { ok = (resource.Handle(call) && HandleCall(call, path, uriArgumentsNames)); } catch (OrthancException& e) { LOG(ERROR) << "Exception while documenting DELETE " << path << ": " << e.What(); } catch (boost::bad_lexical_cast&) { LOG(ERROR) << "Bad lexical cast while documenting DELETE " << path; } if (ok) { successPathsCount_ ++; } else { LOG(WARNING) << "Ignoring URI without API documentation: DELETE " << path; } } if (resource.HasHandler(HttpMethod_Put)) { totalPathsCount_ ++; StringHttpOutput o1; HttpOutput o2(o1, false /* assume no keep-alive */, 0); RestApiOutput o3(o2, HttpMethod_Put); RestApiPutCall call(o3, restApi_, RequestOrigin_Documentation, "" /* remote IP */, "" /* username */, HttpToolbox::Arguments() /* HTTP headers */, uriArguments, UriComponents() /* trailing */, uri, NULL /* body */, 0 /* body size */); bool ok = false; try { ok = (resource.Handle(call) && HandleCall(call, path, uriArgumentsNames)); } catch (OrthancException& e) { LOG(ERROR) << "Exception while documenting PUT " << path << ": " << e.What(); } catch (boost::bad_lexical_cast&) { LOG(ERROR) << "Bad lexical cast while documenting PUT " << path; } if (ok) { successPathsCount_ ++; } else { LOG(WARNING) << "Ignoring URI without API documentation: PUT " << path; } } return true; } size_t GetSuccessPathsCount() const { return successPathsCount_; } size_t GetTotalPathsCount() const { return totalPathsCount_; } void LogStatistics() const { assert(GetSuccessPathsCount() <= GetTotalPathsCount()); size_t total = GetTotalPathsCount(); if (total == 0) { total = 1; // Avoid division by zero } float coverage = (100.0f * static_cast<float>(GetSuccessPathsCount()) / static_cast<float>(total)); LOG(WARNING) << "The documentation of the REST API contains " << GetSuccessPathsCount() << " paths over a total of " << GetTotalPathsCount() << " paths " << "(coverage: " << static_cast<unsigned int>(boost::math::iround(coverage)) << "%)"; } }; class OpenApiVisitor : public DocumentationVisitor { private: Json::Value paths_; protected: virtual bool HandleCall(RestApiCall& call, const std::string& path, const std::set<std::string>& uriArgumentsNames) ORTHANC_OVERRIDE { Json::Value v; if (call.GetDocumentation().FormatOpenApi(v, uriArgumentsNames, path)) { std::string method; switch (call.GetMethod()) { case HttpMethod_Get: method = "get"; break; case HttpMethod_Post: method = "post"; break; case HttpMethod_Delete: method = "delete"; break; case HttpMethod_Put: method = "put"; break; default: throw OrthancException(ErrorCode_ParameterOutOfRange); } if ((paths_.isMember(path) && paths_[path].type() != Json::objectValue) || paths_[path].isMember(method)) { throw OrthancException(ErrorCode_InternalError); } paths_[path][method] = v; return true; } else { return false; } } public: explicit OpenApiVisitor(RestApi& restApi) : DocumentationVisitor(restApi), paths_(Json::objectValue) { } const Json::Value& GetPaths() const { return paths_; } }; class ReStructuredTextCheatSheet : public DocumentationVisitor { private: class Path { private: bool hasGet_; bool hasPost_; bool hasDelete_; bool hasPut_; std::string getTag_; std::string postTag_; std::string deleteTag_; std::string putTag_; std::string summary_; bool getDeprecated_; bool postDeprecated_; bool deleteDeprecated_; bool putDeprecated_; HttpMethod summaryOrigin_; public: Path() : hasGet_(false), hasPost_(false), hasDelete_(false), hasPut_(false), getDeprecated_(false), postDeprecated_(false), deleteDeprecated_(false), putDeprecated_(false), summaryOrigin_(HttpMethod_Get) // Dummy initialization { } void AddMethod(HttpMethod method, const std::string& tag, bool deprecated) { switch (method) { case HttpMethod_Get: if (hasGet_) { throw OrthancException(ErrorCode_InternalError); } hasGet_ = true; getTag_ = tag; getDeprecated_ = deprecated; break; case HttpMethod_Post: if (hasPost_) { throw OrthancException(ErrorCode_InternalError); } hasPost_ = true; postTag_ = tag; postDeprecated_ = deprecated; break; case HttpMethod_Delete: if (hasDelete_) { throw OrthancException(ErrorCode_InternalError); } hasDelete_ = true; deleteTag_ = tag; deleteDeprecated_ = deprecated; break; case HttpMethod_Put: if (hasPut_) { throw OrthancException(ErrorCode_InternalError); } hasPut_ = true; putTag_ = tag; putDeprecated_ = deprecated; break; default: throw OrthancException(ErrorCode_ParameterOutOfRange); } } void SetSummary(const std::string& summary, HttpMethod newOrigin) { if (!summary.empty()) { bool replace; if (summary_.empty()) { // We don't have a summary so far replace = true; } else { // We already have a summary. Replace it if the new // summary is associated with a HTTP method of higher // weight (GET > POST > DELETE > PUT) switch (summaryOrigin_) { case HttpMethod_Get: replace = false; break; case HttpMethod_Post: replace = (newOrigin == HttpMethod_Get); break; case HttpMethod_Delete: replace = (newOrigin == HttpMethod_Get || newOrigin == HttpMethod_Post); break; case HttpMethod_Put: replace = (newOrigin == HttpMethod_Get || newOrigin == HttpMethod_Post || newOrigin == HttpMethod_Delete); break; default: throw OrthancException(ErrorCode_ParameterOutOfRange); } } if (replace) { summary_ = summary; summaryOrigin_ = newOrigin; } } } const std::string& GetSummary() const { return summary_; } static std::string FormatTag(const std::string& tag) { if (tag.empty()) { return tag; } else { std::string s; s.reserve(tag.size()); s.push_back(tag[0]); for (size_t i = 1; i < tag.size(); i++) { if (tag[i] == ' ') { s.push_back('-'); } else if (isupper(tag[i]) && tag[i - 1] == ' ') { s.push_back(tolower(tag[i])); } else { s.push_back(tag[i]); } } return s; } } std::string Format(const std::string& openApiUrl, HttpMethod method, const std::string& uri) const { std::string p = uri; boost::replace_all(p, "/", "~1"); std::string verb; std::string url; switch (method) { case HttpMethod_Get: if (hasGet_) { verb = (getDeprecated_ ? "(get)" : "GET"); url = openApiUrl + "#tag/" + FormatTag(getTag_) + "/paths/" + p + "/get"; } break; case HttpMethod_Post: if (hasPost_) { verb = (postDeprecated_ ? "(post)" : "POST"); url = openApiUrl + "#tag/" + FormatTag(postTag_) + "/paths/" + p + "/post"; } break; case HttpMethod_Delete: if (hasDelete_) { verb = (deleteDeprecated_ ? "(delete)" : "DELETE"); url = openApiUrl + "#tag/" + FormatTag(deleteTag_) + "/paths/" + p + "/delete"; } break; case HttpMethod_Put: if (hasPut_) { verb = (putDeprecated_ ? "(put)" : "PUT"); url = openApiUrl + "#tag/" + FormatTag(putTag_) + "/paths/" + p + "/put"; } break; default: throw OrthancException(ErrorCode_InternalError); } if (verb.empty()) { return ""; } else if (openApiUrl.empty()) { return verb; } else { return "`" + verb + " <" + url + ">`__"; } } bool HasDeprecated() const { return ((hasGet_ && getDeprecated_) || (hasPost_ && postDeprecated_) || (hasDelete_ && deleteDeprecated_) || (hasPut_ && putDeprecated_)); } }; typedef std::map<std::string, Path> Paths; Paths paths_; protected: virtual bool HandleCall(RestApiCall& call, const std::string& _path, const std::set<std::string>& uriArgumentsNames) ORTHANC_OVERRIDE { Path& path = paths_[ _path ]; path.AddMethod(call.GetMethod(), call.GetDocumentation().GetTag(), call.GetDocumentation().IsDeprecated()); if (call.GetDocumentation().HasSummary()) { path.SetSummary(call.GetDocumentation().GetSummary(), call.GetMethod()); } return true; } public: explicit ReStructuredTextCheatSheet(RestApi& restApi) : DocumentationVisitor(restApi) { } void Format(std::string& target, const std::string& openApiUrl) const { target += "Path,GET,POST,DELETE,PUT,Summary\n"; for (Paths::const_iterator it = paths_.begin(); it != paths_.end(); ++it) { target += "``" + it->first + "``,"; target += it->second.Format(openApiUrl, HttpMethod_Get, it->first) + ","; target += it->second.Format(openApiUrl, HttpMethod_Post, it->first) + ","; target += it->second.Format(openApiUrl, HttpMethod_Delete, it->first) + ","; target += it->second.Format(openApiUrl, HttpMethod_Put, it->first) + ","; if (it->second.HasDeprecated()) { target += "*(deprecated)* "; } target += it->second.GetSummary() + "\n"; } } }; } static void AddMethod(std::string& target, const std::string& method) { if (target.size() > 0) target += "," + method; else target = method; } static std::string MethodsToString(const std::set<HttpMethod>& methods) { std::string s; if (methods.find(HttpMethod_Get) != methods.end()) { AddMethod(s, "GET"); } if (methods.find(HttpMethod_Post) != methods.end()) { AddMethod(s, "POST"); } if (methods.find(HttpMethod_Put) != methods.end()) { AddMethod(s, "PUT"); } if (methods.find(HttpMethod_Delete) != methods.end()) { AddMethod(s, "DELETE"); } return s; } bool RestApi::CreateChunkedRequestReader(std::unique_ptr<IChunkedRequestReader>& target, RequestOrigin origin, const char* remoteIp, const char* username, HttpMethod method, const UriComponents& uri, const HttpToolbox::Arguments& headers) { return false; } bool RestApi::Handle(HttpOutput& output, RequestOrigin origin, const char* remoteIp, const char* username, HttpMethod method, const UriComponents& uri, const HttpToolbox::Arguments& headers, const HttpToolbox::GetArguments& getArguments, const void* bodyData, size_t bodySize) { RestApiOutput wrappedOutput(output, method); #if ORTHANC_ENABLE_PUGIXML == 1 { // Look if the client wishes XML answers instead of JSON // http://www.w3.org/Protocols/HTTP/HTRQ_Headers.html#z3 HttpToolbox::Arguments::const_iterator it = headers.find("accept"); if (it != headers.end()) { std::vector<std::string> accepted; Toolbox::TokenizeString(accepted, it->second, ';'); for (size_t i = 0; i < accepted.size(); i++) { if (accepted[i] == MIME_XML) { wrappedOutput.SetConvertJsonToXml(true); } if (accepted[i] == MIME_JSON) { wrappedOutput.SetConvertJsonToXml(false); } } } } #endif HttpToolbox::Arguments compiled; HttpToolbox::CompileGetArguments(compiled, getArguments); HttpHandlerVisitor visitor(*this, wrappedOutput, origin, remoteIp, username, method, headers, compiled, bodyData, bodySize); if (root_.LookupResource(uri, visitor)) { wrappedOutput.Finalize(); return true; } std::set<HttpMethod> methods; root_.GetAcceptedMethods(methods, uri); if (methods.empty()) { return false; // This URI is not served by this REST API } else { LOG(INFO) << "REST method " << EnumerationToString(method) << " not allowed on: " << Toolbox::FlattenUri(uri); output.SendMethodNotAllowed(MethodsToString(methods)); return true; } } void RestApi::Register(const std::string& path, RestApiGetCall::Handler handler) { root_.Register(path, handler); } void RestApi::Register(const std::string& path, RestApiPutCall::Handler handler) { root_.Register(path, handler); } void RestApi::Register(const std::string& path, RestApiPostCall::Handler handler) { root_.Register(path, handler); } void RestApi::Register(const std::string& path, RestApiDeleteCall::Handler handler) { root_.Register(path, handler); } void RestApi::AutoListChildren(RestApiGetCall& call) { call.GetDocumentation() .SetTag("Other") .SetSummary("List operations") .SetDescription("List the available operations under URI `" + call.FlattenUri() + "`") .AddAnswerType(MimeType_Json, "List of the available operations"); RestApi& context = call.GetContext(); Json::Value directory; if (context.root_.GetDirectory(directory, call.GetFullUri())) { if (call.IsDocumentation()) { call.GetDocumentation().SetSample(directory); std::set<std::string> c; call.GetUriComponentsNames(c); for (std::set<std::string>::const_iterator it = c.begin(); it != c.end(); ++it) { call.GetDocumentation().SetUriArgument(*it, RestApiCallDocumentation::Type_String, ""); } } else { call.GetOutput().AnswerJson(directory); } } } void RestApi::GenerateOpenApiDocumentation(Json::Value& target) { OpenApiVisitor visitor(*this); UriComponents root; std::set<std::string> uriArgumentsNames; root_.ExploreAllResources(visitor, root, uriArgumentsNames); target = Json::objectValue; target["info"] = Json::objectValue; target["openapi"] = "3.0.0"; target["servers"] = Json::arrayValue; target["paths"] = visitor.GetPaths(); visitor.LogStatistics(); } void RestApi::GenerateReStructuredTextCheatSheet(std::string& target, const std::string& openApiUrl) { ReStructuredTextCheatSheet visitor(*this); UriComponents root; std::set<std::string> uriArgumentsNames; root_.ExploreAllResources(visitor, root, uriArgumentsNames); visitor.Format(target, openApiUrl); visitor.LogStatistics(); } }