Mercurial > hg > orthanc
view OrthancFramework/Sources/HttpServer/HttpServer.cpp @ 4440:eddb212b2df9
New functions in the SDK: OrthancPluginCreateMemoryBuffer64() and OrthancPluginRegisterStorageArea2()
author | Sebastien Jodogne <s.jodogne@gmail.com> |
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date | Fri, 08 Jan 2021 18:53:33 +0100 |
parents | d9473bd5ed43 |
children | 6a6017027162 |
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/** * Orthanc - A Lightweight, RESTful DICOM Store * Copyright (C) 2012-2016 Sebastien Jodogne, Medical Physics * Department, University Hospital of Liege, Belgium * Copyright (C) 2017-2021 Osimis S.A., Belgium * * This program is free software: you can redistribute it and/or * modify it under the terms of the GNU 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/>. **/ // http://en.highscore.de/cpp/boost/stringhandling.html #include "../PrecompiledHeaders.h" #include "HttpServer.h" #include "../ChunkedBuffer.h" #include "../FileBuffer.h" #include "../Logging.h" #include "../OrthancException.h" #include "../TemporaryFile.h" #include "HttpToolbox.h" #include "IHttpHandler.h" #if ORTHANC_ENABLE_PUGIXML == 1 # include "IWebDavBucket.h" #endif #if ORTHANC_ENABLE_MONGOOSE == 1 # include <mongoose.h> #elif ORTHANC_ENABLE_CIVETWEB == 1 # include <civetweb.h> # define MONGOOSE_USE_CALLBACKS 1 # if !defined(CIVETWEB_HAS_DISABLE_KEEP_ALIVE) # error Macro CIVETWEB_HAS_DISABLE_KEEP_ALIVE must be defined # endif # if !defined(CIVETWEB_HAS_WEBDAV_WRITING) # error Macro CIVETWEB_HAS_WEBDAV_WRITING must be defined # endif #else # error "Either Mongoose or Civetweb must be enabled to compile this file" #endif #include <algorithm> #include <boost/algorithm/string.hpp> #include <boost/algorithm/string/predicate.hpp> #include <boost/filesystem.hpp> #include <boost/lexical_cast.hpp> #include <boost/thread.hpp> #include <iostream> #include <stdio.h> #include <string.h> #if !defined(ORTHANC_ENABLE_SSL) # error The macro ORTHANC_ENABLE_SSL must be defined #endif #if ORTHANC_ENABLE_SSL == 1 # include <openssl/opensslv.h> # include <openssl/err.h> #endif #define ORTHANC_REALM "Orthanc Secure Area" namespace Orthanc { static const char MULTIPART_FORM[] = "multipart/form-data; boundary="; static unsigned int MULTIPART_FORM_LENGTH = sizeof(MULTIPART_FORM) / sizeof(char) - 1; namespace { // Anonymous namespace to avoid clashes between compilation modules class MongooseOutputStream : public IHttpOutputStream { private: struct mg_connection* connection_; public: explicit MongooseOutputStream(struct mg_connection* connection) : connection_(connection) { } virtual void Send(bool isHeader, const void* buffer, size_t length) { if (length > 0) { int status = mg_write(connection_, buffer, length); if (status != static_cast<int>(length)) { // status == 0 when the connection has been closed, -1 on error throw OrthancException(ErrorCode_NetworkProtocol); } } } virtual void OnHttpStatusReceived(HttpStatus status) { // Ignore this } virtual void DisableKeepAlive() { #if ORTHANC_ENABLE_MONGOOSE == 1 throw OrthancException(ErrorCode_NotImplemented, "Only available if using CivetWeb"); #elif ORTHANC_ENABLE_CIVETWEB == 1 # if CIVETWEB_HAS_DISABLE_KEEP_ALIVE == 1 mg_disable_keep_alive(connection_); # else # warning The function "mg_disable_keep_alive()" is not available, DICOMweb might run slowly throw OrthancException(ErrorCode_NotImplemented, "Only available if using a patched version of CivetWeb"); # endif #else # error Please support your embedded Web server here #endif } }; enum PostDataStatus { PostDataStatus_Success, PostDataStatus_NoLength, PostDataStatus_Pending, PostDataStatus_Failure }; } // TODO Move this to external file class ChunkedFile : public ChunkedBuffer { private: std::string filename_; public: explicit ChunkedFile(const std::string& filename) : filename_(filename) { } const std::string& GetFilename() const { return filename_; } }; class ChunkStore : public boost::noncopyable { private: typedef std::list<ChunkedFile*> Content; Content content_; unsigned int numPlaces_; boost::mutex mutex_; std::set<std::string> discardedFiles_; void Clear() { for (Content::iterator it = content_.begin(); it != content_.end(); ++it) { delete *it; } } Content::iterator Find(const std::string& filename) { for (Content::iterator it = content_.begin(); it != content_.end(); ++it) { if ((*it)->GetFilename() == filename) { return it; } } return content_.end(); } void Remove(const std::string& filename) { Content::iterator it = Find(filename); if (it != content_.end()) { delete *it; content_.erase(it); } } public: ChunkStore() { numPlaces_ = 10; } ~ChunkStore() { Clear(); } PostDataStatus Store(std::string& completed, const char* chunkData, size_t chunkSize, const std::string& filename, size_t filesize) { boost::mutex::scoped_lock lock(mutex_); std::set<std::string>::iterator wasDiscarded = discardedFiles_.find(filename); if (wasDiscarded != discardedFiles_.end()) { discardedFiles_.erase(wasDiscarded); return PostDataStatus_Failure; } ChunkedFile* f; Content::iterator it = Find(filename); if (it == content_.end()) { f = new ChunkedFile(filename); // Make some room if (content_.size() >= numPlaces_) { discardedFiles_.insert(content_.front()->GetFilename()); delete content_.front(); content_.pop_front(); } content_.push_back(f); } else { f = *it; } f->AddChunk(chunkData, chunkSize); if (f->GetNumBytes() > filesize) { Remove(filename); } else if (f->GetNumBytes() == filesize) { f->Flatten(completed); Remove(filename); return PostDataStatus_Success; } return PostDataStatus_Pending; } /*void Print() { boost::mutex::scoped_lock lock(mutex_); printf("ChunkStore status:\n"); for (Content::const_iterator i = content_.begin(); i != content_.end(); i++) { printf(" [%s]: %d\n", (*i)->GetFilename().c_str(), (*i)->GetNumBytes()); } printf("-----\n"); }*/ }; struct HttpServer::PImpl { struct mg_context *context_; ChunkStore chunkStore_; PImpl() : context_(NULL) { } }; ChunkStore& HttpServer::GetChunkStore() { return pimpl_->chunkStore_; } static PostDataStatus ReadBodyWithContentLength(std::string& body, struct mg_connection *connection, const std::string& contentLength) { size_t length; try { int64_t tmp = boost::lexical_cast<int64_t>(contentLength); if (tmp < 0) { return PostDataStatus_NoLength; } length = static_cast<size_t>(tmp); } catch (boost::bad_lexical_cast&) { return PostDataStatus_NoLength; } body.resize(length); size_t pos = 0; while (length > 0) { int r = mg_read(connection, &body[pos], length); if (r <= 0) { return PostDataStatus_Failure; } assert(static_cast<size_t>(r) <= length); length -= r; pos += r; } return PostDataStatus_Success; } static PostDataStatus ReadBodyWithoutContentLength(std::string& body, struct mg_connection *connection) { // Store the individual chunks in a temporary file, then read it // back into the memory buffer "body" FileBuffer buffer; std::string tmp(1024 * 1024, 0); for (;;) { int r = mg_read(connection, &tmp[0], tmp.size()); if (r < 0) { return PostDataStatus_Failure; } else if (r == 0) { break; } else { buffer.Append(tmp.c_str(), r); } } buffer.Read(body); return PostDataStatus_Success; } static PostDataStatus ReadBodyToString(std::string& body, struct mg_connection *connection, const HttpToolbox::Arguments& headers) { HttpToolbox::Arguments::const_iterator contentLength = headers.find("content-length"); if (contentLength != headers.end()) { // "Content-Length" is available return ReadBodyWithContentLength(body, connection, contentLength->second); } else { // No Content-Length return ReadBodyWithoutContentLength(body, connection); } } static PostDataStatus ReadBodyToStream(IHttpHandler::IChunkedRequestReader& stream, struct mg_connection *connection, const HttpToolbox::Arguments& headers) { HttpToolbox::Arguments::const_iterator contentLength = headers.find("content-length"); if (contentLength != headers.end()) { // "Content-Length" is available std::string body; PostDataStatus status = ReadBodyWithContentLength(body, connection, contentLength->second); if (status == PostDataStatus_Success && !body.empty()) { stream.AddBodyChunk(body.c_str(), body.size()); } return status; } else { // No Content-Length: This is a chunked transfer. Stream the HTTP connection. std::string tmp(1024 * 1024, 0); for (;;) { int r = mg_read(connection, &tmp[0], tmp.size()); if (r < 0) { return PostDataStatus_Failure; } else if (r == 0) { break; } else { stream.AddBodyChunk(tmp.c_str(), r); } } return PostDataStatus_Success; } } static PostDataStatus ParseMultipartForm(std::string &completedFile, struct mg_connection *connection, const HttpToolbox::Arguments& headers, const std::string& contentType, ChunkStore& chunkStore) { std::string boundary = "--" + contentType.substr(MULTIPART_FORM_LENGTH); std::string body; PostDataStatus status = ReadBodyToString(body, connection, headers); if (status != PostDataStatus_Success) { return status; } /*for (HttpToolbox::Arguments::const_iterator i = headers.begin(); i != headers.end(); i++) { std::cout << "Header [" << i->first << "] = " << i->second << "\n"; } printf("CHUNK\n");*/ typedef HttpToolbox::Arguments::const_iterator ArgumentIterator; ArgumentIterator requestedWith = headers.find("x-requested-with"); ArgumentIterator fileName = headers.find("x-file-name"); ArgumentIterator fileSizeStr = headers.find("x-file-size"); if (requestedWith != headers.end() && requestedWith->second != "XMLHttpRequest") { return PostDataStatus_Failure; } size_t fileSize = 0; if (fileSizeStr != headers.end()) { try { fileSize = boost::lexical_cast<size_t>(fileSizeStr->second); } catch (boost::bad_lexical_cast&) { return PostDataStatus_Failure; } } typedef boost::find_iterator<std::string::iterator> FindIterator; typedef boost::iterator_range<char*> Range; //chunkStore.Print(); // TODO - Refactor using class "MultipartStreamReader" try { FindIterator last; for (FindIterator it = make_find_iterator(body, boost::first_finder(boundary)); it!=FindIterator(); ++it) { if (last != FindIterator()) { Range part(&last->back(), &it->front()); Range content = boost::find_first(part, "\r\n\r\n"); if (/*content != Range()*/!content.empty()) { Range c(&content.back() + 1, &it->front() - 2); size_t chunkSize = c.size(); if (chunkSize > 0) { const char* chunkData = &c.front(); if (fileName == headers.end()) { // This file is stored in a single chunk completedFile.resize(chunkSize); memcpy(&completedFile[0], chunkData, chunkSize); return PostDataStatus_Success; } else { return chunkStore.Store(completedFile, chunkData, chunkSize, fileName->second, fileSize); } } } } last = it; } } catch (std::length_error&) { return PostDataStatus_Failure; } return PostDataStatus_Pending; } enum AccessMode { AccessMode_Forbidden, AccessMode_AuthorizationToken, AccessMode_RegisteredUser }; static AccessMode IsAccessGranted(const HttpServer& that, const HttpToolbox::Arguments& headers) { static const std::string BASIC = "Basic "; static const std::string BEARER = "Bearer "; HttpToolbox::Arguments::const_iterator auth = headers.find("authorization"); if (auth != headers.end()) { std::string s = auth->second; if (boost::starts_with(s, BASIC)) { std::string b64 = s.substr(BASIC.length()); if (that.IsValidBasicHttpAuthentication(b64)) { return AccessMode_RegisteredUser; } } else if (boost::starts_with(s, BEARER) && that.GetIncomingHttpRequestFilter() != NULL) { // New in Orthanc 1.8.1 std::string token = s.substr(BEARER.length()); if (that.GetIncomingHttpRequestFilter()->IsValidBearerToken(token)) { return AccessMode_AuthorizationToken; } } } return AccessMode_Forbidden; } static std::string GetAuthenticatedUsername(const HttpToolbox::Arguments& headers) { HttpToolbox::Arguments::const_iterator auth = headers.find("authorization"); if (auth == headers.end()) { return ""; } std::string s = auth->second; if (s.size() <= 6 || s.substr(0, 6) != "Basic ") { return ""; } std::string b64 = s.substr(6); std::string decoded; Toolbox::DecodeBase64(decoded, b64); size_t semicolons = decoded.find(':'); if (semicolons == std::string::npos) { // Bad-formatted request return ""; } else { return decoded.substr(0, semicolons); } } static bool ExtractMethod(HttpMethod& method, const struct mg_request_info *request, const HttpToolbox::Arguments& headers, const HttpToolbox::GetArguments& argumentsGET) { std::string overriden; // Check whether some PUT/DELETE faking is done // 1. Faking with Google's approach HttpToolbox::Arguments::const_iterator methodOverride = headers.find("x-http-method-override"); if (methodOverride != headers.end()) { overriden = methodOverride->second; } else if (!strcmp(request->request_method, "GET")) { // 2. Faking with Ruby on Rail's approach // GET /my/resource?_method=delete <=> DELETE /my/resource for (size_t i = 0; i < argumentsGET.size(); i++) { if (argumentsGET[i].first == "_method") { overriden = argumentsGET[i].second; break; } } } if (overriden.size() > 0) { // A faking has been done within this request Toolbox::ToUpperCase(overriden); CLOG(INFO, HTTP) << "HTTP method faking has been detected for " << overriden; if (overriden == "PUT") { method = HttpMethod_Put; return true; } else if (overriden == "DELETE") { method = HttpMethod_Delete; return true; } else { return false; } } // No PUT/DELETE faking was present if (!strcmp(request->request_method, "GET")) { method = HttpMethod_Get; } else if (!strcmp(request->request_method, "POST")) { method = HttpMethod_Post; } else if (!strcmp(request->request_method, "DELETE")) { method = HttpMethod_Delete; } else if (!strcmp(request->request_method, "PUT")) { method = HttpMethod_Put; } else { return false; } return true; } static void ConfigureHttpCompression(HttpOutput& output, const HttpToolbox::Arguments& headers) { // Look if the client wishes HTTP compression // https://en.wikipedia.org/wiki/HTTP_compression HttpToolbox::Arguments::const_iterator it = headers.find("accept-encoding"); if (it != headers.end()) { std::vector<std::string> encodings; Toolbox::TokenizeString(encodings, it->second, ','); for (size_t i = 0; i < encodings.size(); i++) { std::string s = Toolbox::StripSpaces(encodings[i]); if (s == "deflate") { output.SetDeflateAllowed(true); } else if (s == "gzip") { output.SetGzipAllowed(true); } } } } #if ORTHANC_ENABLE_PUGIXML == 1 # if CIVETWEB_HAS_WEBDAV_WRITING == 0 static void AnswerWebDavReadOnly(HttpOutput& output, const std::string& uri) { CLOG(ERROR, HTTP) << "Orthanc was compiled without support for read-write access to WebDAV: " << uri; output.SendStatus(HttpStatus_403_Forbidden); } # endif static bool HandleWebDav(HttpOutput& output, const HttpServer::WebDavBuckets& buckets, const std::string& method, const HttpToolbox::Arguments& headers, const std::string& uri, struct mg_connection *connection /* to read the PUT body if need be */) { if (buckets.empty()) { return false; // Speed up things if WebDAV is not used } /** * The "buckets" maps an URI relative to the root of the * bucket, to the content of the bucket. The root URI does *not* * contain a trailing slash. **/ if (method == "OPTIONS") { // Remove the trailing slash, if any (necessary for davfs2) std::string s = uri; if (!s.empty() && s[s.size() - 1] == '/') { s.resize(s.size() - 1); } HttpServer::WebDavBuckets::const_iterator bucket = buckets.find(s); if (bucket == buckets.end()) { return false; } else { output.AddHeader("DAV", "1,2"); // Necessary for Windows XP #if CIVETWEB_HAS_WEBDAV_WRITING == 1 output.AddHeader("Allow", "GET, PUT, DELETE, OPTIONS, PROPFIND, HEAD, LOCK, UNLOCK, PROPPATCH, MKCOL"); #else output.AddHeader("Allow", "GET, PUT, DELETE, OPTIONS, PROPFIND, HEAD"); #endif output.SendStatus(HttpStatus_200_Ok); return true; } } else if (method == "GET" || method == "PROPFIND" || method == "PROPPATCH" || method == "PUT" || method == "DELETE" || method == "HEAD" || method == "LOCK" || method == "UNLOCK" || method == "MKCOL") { // Locate the WebDAV bucket of interest, if any for (HttpServer::WebDavBuckets::const_iterator bucket = buckets.begin(); bucket != buckets.end(); ++bucket) { assert(!bucket->first.empty() && bucket->first[bucket->first.size() - 1] != '/' && bucket->second != NULL); if (uri == bucket->first || boost::starts_with(uri, bucket->first + "/")) { std::string s = uri.substr(bucket->first.size()); if (s.empty()) { s = "/"; } std::vector<std::string> path; Toolbox::SplitUriComponents(path, s); /** * WebDAV - PROPFIND **/ if (method == "PROPFIND") { HttpToolbox::Arguments::const_iterator i = headers.find("depth"); if (i == headers.end()) { throw OrthancException(ErrorCode_NetworkProtocol, "WebDAV PROPFIND without depth"); } int depth = boost::lexical_cast<int>(i->second); if (depth != 0 && depth != 1) { throw OrthancException( ErrorCode_NetworkProtocol, "WebDAV PROPFIND at unsupported depth (can only be 0 or 1): " + i->second); } std::string answer; MimeType mime; std::string content; boost::posix_time::ptime modificationTime = boost::posix_time::second_clock::universal_time(); if (bucket->second->IsExistingFolder(path)) { if (depth == 0) { IWebDavBucket::Collection c; c.Format(answer, uri); } else if (depth == 1) { IWebDavBucket::Collection c; if (!bucket->second->ListCollection(c, path)) { output.SendStatus(HttpStatus_404_NotFound); return true; } c.Format(answer, uri); } else { throw OrthancException(ErrorCode_InternalError); } } else if (!path.empty() && bucket->second->GetFileContent(mime, content, modificationTime, path)) { if (depth == 0 || depth == 1) { std::unique_ptr<IWebDavBucket::File> f(new IWebDavBucket::File(path.back())); f->SetContentLength(content.size()); f->SetModificationTime(modificationTime); f->SetMimeType(mime); IWebDavBucket::Collection c; c.AddResource(f.release()); std::vector<std::string> p; Toolbox::SplitUriComponents(p, uri); if (p.empty()) { throw OrthancException(ErrorCode_InternalError); } p.resize(p.size() - 1); c.Format(answer, Toolbox::FlattenUri(p)); } else { throw OrthancException(ErrorCode_InternalError); } } else { output.SendStatus(HttpStatus_404_NotFound); return true; } output.AddHeader("Content-Type", "application/xml; charset=UTF-8"); output.SendStatus(HttpStatus_207_MultiStatus, answer); return true; } /** * WebDAV - GET and HEAD **/ else if (method == "GET" || method == "HEAD") { MimeType mime; std::string content; boost::posix_time::ptime modificationTime; if (bucket->second->GetFileContent(mime, content, modificationTime, path)) { output.AddHeader("Content-Type", EnumerationToString(mime)); // "Last-Modified" is necessary on Windows XP. The "Z" // suffix is mandatory on Windows >= 7. output.AddHeader("Last-Modified", boost::posix_time::to_iso_extended_string(modificationTime) + "Z"); if (method == "GET") { output.Answer(content); } else { output.SendStatus(HttpStatus_200_Ok); } } else { output.SendStatus(HttpStatus_404_NotFound); } return true; } /** * WebDAV - PUT **/ else if (method == "PUT") { #if CIVETWEB_HAS_WEBDAV_WRITING == 1 std::string body; if (ReadBodyToString(body, connection, headers) == PostDataStatus_Success) { if (bucket->second->StoreFile(body, path)) { //output.SendStatus(HttpStatus_200_Ok); output.SendStatus(HttpStatus_201_Created); } else { output.SendStatus(HttpStatus_403_Forbidden); } } else { CLOG(ERROR, HTTP) << "Cannot read the content of a file to be stored in WebDAV"; output.SendStatus(HttpStatus_400_BadRequest); } #else AnswerWebDavReadOnly(output, uri); #endif return true; } /** * WebDAV - DELETE **/ else if (method == "DELETE") { if (bucket->second->DeleteItem(path)) { output.SendStatus(HttpStatus_204_NoContent); } else { output.SendStatus(HttpStatus_403_Forbidden); } return true; } /** * WebDAV - MKCOL **/ else if (method == "MKCOL") { #if CIVETWEB_HAS_WEBDAV_WRITING == 1 if (bucket->second->CreateFolder(path)) { //output.SendStatus(HttpStatus_200_Ok); output.SendStatus(HttpStatus_201_Created); } else { output.SendStatus(HttpStatus_403_Forbidden); } #else AnswerWebDavReadOnly(output, uri); #endif return true; } /** * WebDAV - Faking PROPPATCH, LOCK and UNLOCK **/ else if (method == "PROPPATCH") { #if CIVETWEB_HAS_WEBDAV_WRITING == 1 IWebDavBucket::AnswerFakedProppatch(output, uri); #else AnswerWebDavReadOnly(output, uri); #endif return true; } else if (method == "LOCK") { #if CIVETWEB_HAS_WEBDAV_WRITING == 1 IWebDavBucket::AnswerFakedLock(output, uri); #else AnswerWebDavReadOnly(output, uri); #endif return true; } else if (method == "UNLOCK") { #if CIVETWEB_HAS_WEBDAV_WRITING == 1 IWebDavBucket::AnswerFakedUnlock(output); #else AnswerWebDavReadOnly(output, uri); #endif return true; } else { throw OrthancException(ErrorCode_InternalError); } } } return false; } else { /** * WebDAV - Unapplicable method (such as POST and DELETE) **/ return false; } } #endif /* ORTHANC_ENABLE_PUGIXML == 1 */ static void InternalCallback(HttpOutput& output /* out */, HttpMethod& method /* out */, HttpServer& server, struct mg_connection *connection, const struct mg_request_info *request) { bool localhost; #if ORTHANC_ENABLE_MONGOOSE == 1 static const long LOCALHOST = (127ll << 24) + 1ll; localhost = (request->remote_ip == LOCALHOST); #elif ORTHANC_ENABLE_CIVETWEB == 1 // The "remote_ip" field of "struct mg_request_info" is tagged as // deprecated in Civetweb, using "remote_addr" instead. localhost = (std::string(request->remote_addr) == "127.0.0.1"); #else # error #endif // Check remote calls if (!server.IsRemoteAccessAllowed() && !localhost) { output.SendUnauthorized(server.GetRealm()); // 401 error return; } // Extract the HTTP headers HttpToolbox::Arguments headers; for (int i = 0; i < request->num_headers; i++) { std::string name = request->http_headers[i].name; std::string value = request->http_headers[i].value; std::transform(name.begin(), name.end(), name.begin(), ::tolower); headers.insert(std::make_pair(name, value)); CLOG(TRACE, HTTP) << "HTTP header: [" << name << "]: [" << value << "]"; } if (server.IsHttpCompressionEnabled()) { ConfigureHttpCompression(output, headers); } // Extract the GET arguments HttpToolbox::GetArguments argumentsGET; if (!strcmp(request->request_method, "GET")) { HttpToolbox::ParseGetArguments(argumentsGET, request->query_string); } AccessMode accessMode = IsAccessGranted(server, headers); // Authenticate this connection if (server.IsAuthenticationEnabled() && accessMode == AccessMode_Forbidden) { output.SendUnauthorized(server.GetRealm()); // 401 error return; } #if ORTHANC_ENABLE_MONGOOSE == 1 // Apply the filter, if it is installed char remoteIp[24]; sprintf(remoteIp, "%d.%d.%d.%d", reinterpret_cast<const uint8_t*>(&request->remote_ip) [3], reinterpret_cast<const uint8_t*>(&request->remote_ip) [2], reinterpret_cast<const uint8_t*>(&request->remote_ip) [1], reinterpret_cast<const uint8_t*>(&request->remote_ip) [0]); const char* requestUri = request->uri; #elif ORTHANC_ENABLE_CIVETWEB == 1 const char* remoteIp = request->remote_addr; const char* requestUri = request->local_uri; #else # error #endif if (requestUri == NULL) { requestUri = ""; } // Decompose the URI into its components UriComponents uri; try { Toolbox::SplitUriComponents(uri, requestUri); } catch (OrthancException&) { output.SendStatus(HttpStatus_400_BadRequest); return; } // Compute the HTTP method, taking method faking into consideration method = HttpMethod_Get; #if ORTHANC_ENABLE_PUGIXML == 1 bool isWebDav = false; #endif HttpMethod filterMethod; if (ExtractMethod(method, request, headers, argumentsGET)) { CLOG(INFO, HTTP) << EnumerationToString(method) << " " << Toolbox::FlattenUri(uri); filterMethod = method; } #if ORTHANC_ENABLE_PUGIXML == 1 else if (!strcmp(request->request_method, "OPTIONS") || !strcmp(request->request_method, "PROPFIND") || !strcmp(request->request_method, "HEAD")) { CLOG(INFO, HTTP) << "Incoming read-only WebDAV request: " << request->request_method << " " << requestUri; filterMethod = HttpMethod_Get; isWebDav = true; } else if (!strcmp(request->request_method, "PROPPATCH") || !strcmp(request->request_method, "LOCK") || !strcmp(request->request_method, "UNLOCK") || !strcmp(request->request_method, "MKCOL")) { CLOG(INFO, HTTP) << "Incoming read-write WebDAV request: " << request->request_method << " " << requestUri; filterMethod = HttpMethod_Put; isWebDav = true; } #endif /* ORTHANC_ENABLE_PUGIXML == 1 */ else { CLOG(INFO, HTTP) << "Unknown HTTP method: " << request->request_method; output.SendStatus(HttpStatus_400_BadRequest); return; } const std::string username = GetAuthenticatedUsername(headers); if (accessMode != AccessMode_AuthorizationToken) { // Check that this access is granted by the user's authorization // filter. In the case of an authorization bearer token, grant // full access to the API. assert(accessMode == AccessMode_Forbidden || // Could be the case if "!server.IsAuthenticationEnabled()" accessMode == AccessMode_RegisteredUser); IIncomingHttpRequestFilter *filter = server.GetIncomingHttpRequestFilter(); if (filter != NULL && !filter->IsAllowed(filterMethod, requestUri, remoteIp, username.c_str(), headers, argumentsGET)) { output.SendStatus(HttpStatus_403_Forbidden); return; } } #if ORTHANC_ENABLE_PUGIXML == 1 if (HandleWebDav(output, server.GetWebDavBuckets(), request->request_method, headers, requestUri, connection)) { return; } else if (isWebDav) { CLOG(INFO, HTTP) << "No WebDAV bucket is registered against URI: " << request->request_method << " " << requestUri; output.SendStatus(HttpStatus_404_NotFound); return; } #endif bool found = false; // Extract the body of the request for PUT and POST, or process // the body as a stream // TODO Avoid unneccessary memcopy of the body std::string body; if (method == HttpMethod_Post || method == HttpMethod_Put) { PostDataStatus status; bool isMultipartForm = false; HttpToolbox::Arguments::const_iterator ct = headers.find("content-type"); if (ct != headers.end() && ct->second.size() >= MULTIPART_FORM_LENGTH && !memcmp(ct->second.c_str(), MULTIPART_FORM, MULTIPART_FORM_LENGTH)) { /** * The user uses the "upload" form of Orthanc Explorer, for * file uploads through a HTML form. **/ status = ParseMultipartForm(body, connection, headers, ct->second, server.GetChunkStore()); isMultipartForm = true; } if (!isMultipartForm) { std::unique_ptr<IHttpHandler::IChunkedRequestReader> stream; if (server.HasHandler()) { found = server.GetHandler().CreateChunkedRequestReader (stream, RequestOrigin_RestApi, remoteIp, username.c_str(), method, uri, headers); } if (found) { if (stream.get() == NULL) { throw OrthancException(ErrorCode_InternalError); } status = ReadBodyToStream(*stream, connection, headers); if (status == PostDataStatus_Success) { stream->Execute(output); } } else { status = ReadBodyToString(body, connection, headers); } } switch (status) { case PostDataStatus_NoLength: output.SendStatus(HttpStatus_411_LengthRequired); return; case PostDataStatus_Failure: output.SendStatus(HttpStatus_400_BadRequest); return; case PostDataStatus_Pending: output.AnswerEmpty(); return; case PostDataStatus_Success: break; default: throw OrthancException(ErrorCode_InternalError); } } if (!found && server.HasHandler()) { found = server.GetHandler().Handle(output, RequestOrigin_RestApi, remoteIp, username.c_str(), method, uri, headers, argumentsGET, body.c_str(), body.size()); } if (!found) { throw OrthancException(ErrorCode_UnknownResource); } } static void ProtectedCallback(struct mg_connection *connection, const struct mg_request_info *request) { try { #if ORTHANC_ENABLE_MONGOOSE == 1 void *that = request->user_data; const char* requestUri = request->uri; #elif ORTHANC_ENABLE_CIVETWEB == 1 // https://github.com/civetweb/civetweb/issues/409 void *that = mg_get_user_data(mg_get_context(connection)); const char* requestUri = request->local_uri; #else # error #endif if (requestUri == NULL) { requestUri = ""; } HttpServer* server = reinterpret_cast<HttpServer*>(that); if (server == NULL) { MongooseOutputStream stream(connection); HttpOutput output(stream, false /* assume no keep-alive */); output.SendStatus(HttpStatus_500_InternalServerError); return; } MongooseOutputStream stream(connection); HttpOutput output(stream, server->IsKeepAliveEnabled()); HttpMethod method = HttpMethod_Get; try { try { InternalCallback(output, method, *server, connection, request); } catch (OrthancException&) { throw; // Pass the exception to the main handler below } // Now convert native exceptions as OrthancException catch (boost::bad_lexical_cast&) { throw OrthancException(ErrorCode_BadParameterType, "Syntax error in some user-supplied data"); } catch (boost::filesystem::filesystem_error& e) { throw OrthancException(ErrorCode_InternalError, "Error while accessing the filesystem: " + e.path1().string()); } catch (std::runtime_error&) { throw OrthancException(ErrorCode_BadRequest, "Presumably an error while parsing the JSON body"); } catch (std::bad_alloc&) { throw OrthancException(ErrorCode_NotEnoughMemory, "The server hosting Orthanc is running out of memory"); } catch (...) { throw OrthancException(ErrorCode_InternalError, "An unhandled exception was generated inside the HTTP server"); } } catch (OrthancException& e) { assert(server != NULL); // Using this candidate handler results in an exception try { if (server->GetExceptionFormatter() == NULL) { CLOG(ERROR, HTTP) << "Exception in the HTTP handler: " << e.What(); output.SendStatus(e.GetHttpStatus()); } else { server->GetExceptionFormatter()->Format(output, e, method, requestUri); } } catch (OrthancException&) { // An exception here reflects the fact that the status code // was already set by the HTTP handler. } } } catch (...) { // We should never arrive at this point, where it is even impossible to send an answer CLOG(ERROR, HTTP) << "Catastrophic error inside the HTTP server, giving up"; } } #if MONGOOSE_USE_CALLBACKS == 0 static void* Callback(enum mg_event event, struct mg_connection *connection, const struct mg_request_info *request) { if (event == MG_NEW_REQUEST) { ProtectedCallback(connection, request); // Mark as processed return (void*) ""; } else { return NULL; } } #elif MONGOOSE_USE_CALLBACKS == 1 static int Callback(struct mg_connection *connection) { const struct mg_request_info *request = mg_get_request_info(connection); ProtectedCallback(connection, request); return 1; // Do not let Mongoose handle the request by itself } #else # error Please set MONGOOSE_USE_CALLBACKS #endif bool HttpServer::IsRunning() const { return (pimpl_->context_ != NULL); } HttpServer::HttpServer() : pimpl_(new PImpl), handler_(NULL), remoteAllowed_(false), authentication_(false), sslVerifyPeers_(false), ssl_(false), sslMinimumVersion_(0), // Default to any of "SSL2+SSL3+TLS1.0+TLS1.1+TLS1.2" sslHasCiphers_(false), port_(8000), filter_(NULL), keepAlive_(false), httpCompression_(true), exceptionFormatter_(NULL), realm_(ORTHANC_REALM), threadsCount_(50), // Default value in mongoose/civetweb tcpNoDelay_(true), requestTimeout_(30) // Default value in mongoose/civetweb (30 seconds) { #if ORTHANC_ENABLE_MONGOOSE == 1 CLOG(INFO, HTTP) << "This Orthanc server uses Mongoose as its embedded HTTP server"; #endif #if ORTHANC_ENABLE_CIVETWEB == 1 CLOG(INFO, HTTP) << "This Orthanc server uses CivetWeb as its embedded HTTP server"; #endif #if ORTHANC_ENABLE_SSL == 1 // Check for the Heartbleed exploit // https://en.wikipedia.org/wiki/OpenSSL#Heartbleed_bug if (OPENSSL_VERSION_NUMBER < 0x1000107fL /* openssl-1.0.1g */ && OPENSSL_VERSION_NUMBER >= 0x1000100fL /* openssl-1.0.1 */) { CLOG(WARNING, HTTP) << "This version of OpenSSL is vulnerable to the Heartbleed exploit"; } #endif } HttpServer::~HttpServer() { Stop(); #if ORTHANC_ENABLE_PUGIXML == 1 for (WebDavBuckets::iterator it = webDavBuckets_.begin(); it != webDavBuckets_.end(); ++it) { assert(it->second != NULL); delete it->second; } #endif } void HttpServer::SetPortNumber(uint16_t port) { Stop(); port_ = port; } uint16_t HttpServer::GetPortNumber() const { return port_; } void HttpServer::Start() { #if ORTHANC_ENABLE_MONGOOSE == 1 CLOG(INFO, HTTP) << "Starting embedded Web server using Mongoose"; #elif ORTHANC_ENABLE_CIVETWEB == 1 CLOG(INFO, HTTP) << "Starting embedded Web server using Civetweb"; #else # error #endif if (!IsRunning()) { std::string port = boost::lexical_cast<std::string>(port_); std::string numThreads = boost::lexical_cast<std::string>(threadsCount_); std::string requestTimeoutMilliseconds = boost::lexical_cast<std::string>(requestTimeout_ * 1000); std::string keepAliveTimeoutMilliseconds = boost::lexical_cast<std::string>(CIVETWEB_KEEP_ALIVE_TIMEOUT_SECONDS * 1000); std::string sslMinimumVersion = boost::lexical_cast<std::string>(sslMinimumVersion_); if (ssl_) { port += "s"; } std::vector<const char*> options; // Set the TCP port for the HTTP server options.push_back("listening_ports"); options.push_back(port.c_str()); // Optimization reported by Chris Hafey // https://groups.google.com/d/msg/orthanc-users/CKueKX0pJ9E/_UCbl8T-VjIJ options.push_back("enable_keep_alive"); options.push_back(keepAlive_ ? "yes" : "no"); #if ORTHANC_ENABLE_CIVETWEB == 1 /** * The "keep_alive_timeout_ms" cannot use milliseconds, as the * value of "timeout" in the HTTP header "Keep-Alive" must be * expressed in seconds (at least for the Java client). * https://developer.mozilla.org/en-US/docs/Web/HTTP/Headers/Keep-Alive * https://github.com/civetweb/civetweb/blob/master/docs/UserManual.md#enable_keep_alive-no * https://github.com/civetweb/civetweb/blob/master/docs/UserManual.md#keep_alive_timeout_ms-500-or-0 **/ options.push_back("keep_alive_timeout_ms"); options.push_back(keepAlive_ ? keepAliveTimeoutMilliseconds.c_str() : "0"); #endif #if ORTHANC_ENABLE_CIVETWEB == 1 // Disable TCP Nagle's algorithm to maximize speed (this // option is not available in Mongoose). // https://groups.google.com/d/topic/civetweb/35HBR9seFjU/discussion // https://eklitzke.org/the-caveats-of-tcp-nodelay options.push_back("tcp_nodelay"); options.push_back(tcpNoDelay_ ? "1" : "0"); #endif // Set the number of threads options.push_back("num_threads"); options.push_back(numThreads.c_str()); // Set the timeout for the HTTP server options.push_back("request_timeout_ms"); options.push_back(requestTimeoutMilliseconds.c_str()); // Set the client authentication options.push_back("ssl_verify_peer"); options.push_back(sslVerifyPeers_ ? "yes" : "no"); if (sslVerifyPeers_) { // Set the trusted client certificates (for X509 mutual authentication) options.push_back("ssl_ca_file"); options.push_back(trustedClientCertificates_.c_str()); } if (ssl_) { // Restrict minimum SSL/TLS protocol version options.push_back("ssl_protocol_version"); options.push_back(sslMinimumVersion.c_str()); // Set the accepted ciphers list if (sslHasCiphers_) { options.push_back("ssl_cipher_list"); options.push_back(sslCiphers_.c_str()); } // Set the SSL certificate, if any options.push_back("ssl_certificate"); options.push_back(certificate_.c_str()); }; assert(options.size() % 2 == 0); options.push_back(NULL); #if MONGOOSE_USE_CALLBACKS == 0 pimpl_->context_ = mg_start(&Callback, this, &options[0]); #elif MONGOOSE_USE_CALLBACKS == 1 struct mg_callbacks callbacks; memset(&callbacks, 0, sizeof(callbacks)); callbacks.begin_request = Callback; pimpl_->context_ = mg_start(&callbacks, this, &options[0]); #else # error Please set MONGOOSE_USE_CALLBACKS #endif if (!pimpl_->context_) { bool isSslError = false; #if ORTHANC_ENABLE_SSL == 1 for (;;) { unsigned long code = ERR_get_error(); if (code == 0) { break; } else { isSslError = true; char message[1024]; ERR_error_string_n(code, message, sizeof(message) - 1); CLOG(ERROR, HTTP) << "OpenSSL error: " << message; } } #endif if (isSslError) { throw OrthancException(ErrorCode_SslInitialization); } else { throw OrthancException(ErrorCode_HttpPortInUse, " (port = " + boost::lexical_cast<std::string>(port_) + ")"); } } #if ORTHANC_ENABLE_PUGIXML == 1 for (WebDavBuckets::iterator it = webDavBuckets_.begin(); it != webDavBuckets_.end(); ++it) { assert(it->second != NULL); it->second->Start(); } #endif CLOG(WARNING, HTTP) << "HTTP server listening on port: " << GetPortNumber() << " (HTTPS encryption is " << (IsSslEnabled() ? "enabled" : "disabled") << ", remote access is " << (IsRemoteAccessAllowed() ? "" : "not ") << "allowed)"; } } void HttpServer::Stop() { if (IsRunning()) { mg_stop(pimpl_->context_); #if ORTHANC_ENABLE_PUGIXML == 1 for (WebDavBuckets::iterator it = webDavBuckets_.begin(); it != webDavBuckets_.end(); ++it) { assert(it->second != NULL); it->second->Stop(); } #endif pimpl_->context_ = NULL; } } void HttpServer::ClearUsers() { Stop(); registeredUsers_.clear(); } void HttpServer::RegisterUser(const char* username, const char* password) { Stop(); std::string tag = std::string(username) + ":" + std::string(password); std::string encoded; Toolbox::EncodeBase64(encoded, tag); registeredUsers_.insert(encoded); } bool HttpServer::IsAuthenticationEnabled() const { return authentication_; } void HttpServer::SetSslEnabled(bool enabled) { Stop(); #if ORTHANC_ENABLE_SSL == 0 if (enabled) { throw OrthancException(ErrorCode_SslDisabled); } else { ssl_ = false; } #else ssl_ = enabled; #endif } void HttpServer::SetSslVerifyPeers(bool enabled) { Stop(); #if ORTHANC_ENABLE_SSL == 0 if (enabled) { throw OrthancException(ErrorCode_SslDisabled); } else { sslVerifyPeers_ = false; } #else sslVerifyPeers_ = enabled; #endif } void HttpServer::SetSslMinimumVersion(unsigned int version) { Stop(); sslMinimumVersion_ = version; std::string info; switch (version) { case 0: info = "SSL2+SSL3+TLS1.0+TLS1.1+TLS1.2"; break; case 1: info = "SSL3+TLS1.0+TLS1.1+TLS1.2"; break; case 2: info = "TLS1.0+TLS1.1+TLS1.2"; break; case 3: info = "TLS1.1+TLS1.2"; break; case 4: info = "TLS1.2"; break; default: info = "Unknown value (" + boost::lexical_cast<std::string>(version) + ")"; break; } CLOG(INFO, HTTP) << "Minimal accepted version of SSL/TLS protocol: " << info; } void HttpServer::SetSslCiphers(const std::list<std::string>& ciphers) { Stop(); sslHasCiphers_ = true; sslCiphers_.clear(); for (std::list<std::string>::const_iterator it = ciphers.begin(); it != ciphers.end(); ++it) { if (it->empty()) { throw OrthancException(ErrorCode_ParameterOutOfRange, "Empty name for a cipher"); } if (!sslCiphers_.empty()) { sslCiphers_ += ':'; } sslCiphers_ += (*it); } CLOG(INFO, HTTP) << "List of accepted SSL ciphers: " << sslCiphers_; if (sslCiphers_.empty()) { CLOG(WARNING, HTTP) << "No cipher is accepted for SSL"; } } void HttpServer::SetKeepAliveEnabled(bool enabled) { Stop(); keepAlive_ = enabled; CLOG(INFO, HTTP) << "HTTP keep alive is " << (enabled ? "enabled" : "disabled"); #if ORTHANC_ENABLE_MONGOOSE == 1 if (enabled) { CLOG(WARNING, HTTP) << "You should disable HTTP keep alive, as you are using Mongoose"; } #endif } const std::string &HttpServer::GetSslCertificate() const { return certificate_; } void HttpServer::SetAuthenticationEnabled(bool enabled) { Stop(); authentication_ = enabled; } bool HttpServer::IsSslEnabled() const { return ssl_; } void HttpServer::SetSslCertificate(const char* path) { Stop(); certificate_ = path; } bool HttpServer::IsRemoteAccessAllowed() const { return remoteAllowed_; } void HttpServer::SetSslTrustedClientCertificates(const char* path) { Stop(); trustedClientCertificates_ = path; } bool HttpServer::IsKeepAliveEnabled() const { return keepAlive_; } void HttpServer::SetRemoteAccessAllowed(bool allowed) { Stop(); remoteAllowed_ = allowed; } bool HttpServer::IsHttpCompressionEnabled() const { return httpCompression_;; } void HttpServer::SetHttpCompressionEnabled(bool enabled) { Stop(); httpCompression_ = enabled; CLOG(WARNING, HTTP) << "HTTP compression is " << (enabled ? "enabled" : "disabled"); } IIncomingHttpRequestFilter *HttpServer::GetIncomingHttpRequestFilter() const { return filter_; } void HttpServer::SetIncomingHttpRequestFilter(IIncomingHttpRequestFilter& filter) { Stop(); filter_ = &filter; } void HttpServer::SetHttpExceptionFormatter(IHttpExceptionFormatter& formatter) { Stop(); exceptionFormatter_ = &formatter; } IHttpExceptionFormatter *HttpServer::GetExceptionFormatter() { return exceptionFormatter_; } const std::string &HttpServer::GetRealm() const { return realm_; } void HttpServer::SetRealm(const std::string &realm) { realm_ = realm; } bool HttpServer::IsValidBasicHttpAuthentication(const std::string& basic) const { return registeredUsers_.find(basic) != registeredUsers_.end(); } void HttpServer::Register(IHttpHandler& handler) { Stop(); handler_ = &handler; } bool HttpServer::HasHandler() const { return handler_ != NULL; } IHttpHandler& HttpServer::GetHandler() const { if (handler_ == NULL) { throw OrthancException(ErrorCode_InternalError); } return *handler_; } void HttpServer::SetThreadsCount(unsigned int threads) { if (threads == 0) { throw OrthancException(ErrorCode_ParameterOutOfRange); } Stop(); threadsCount_ = threads; CLOG(INFO, HTTP) << "The embedded HTTP server will use " << threads << " threads"; } unsigned int HttpServer::GetThreadsCount() const { return threadsCount_; } void HttpServer::SetTcpNoDelay(bool tcpNoDelay) { Stop(); tcpNoDelay_ = tcpNoDelay; CLOG(INFO, HTTP) << "TCP_NODELAY for the HTTP sockets is set to " << (tcpNoDelay ? "true" : "false"); } bool HttpServer::IsTcpNoDelay() const { return tcpNoDelay_; } void HttpServer::SetRequestTimeout(unsigned int seconds) { if (seconds == 0) { throw OrthancException(ErrorCode_ParameterOutOfRange, "Request timeout must be a stricly positive integer"); } Stop(); requestTimeout_ = seconds; CLOG(INFO, HTTP) << "Request timeout in the HTTP server is set to " << seconds << " seconds"; } unsigned int HttpServer::GetRequestTimeout() const { return requestTimeout_; } #if ORTHANC_ENABLE_PUGIXML == 1 HttpServer::WebDavBuckets& HttpServer::GetWebDavBuckets() { return webDavBuckets_; } #endif #if ORTHANC_ENABLE_PUGIXML == 1 void HttpServer::Register(const std::vector<std::string>& root, IWebDavBucket* bucket) { std::unique_ptr<IWebDavBucket> protection(bucket); if (bucket == NULL) { throw OrthancException(ErrorCode_NullPointer); } Stop(); #if CIVETWEB_HAS_WEBDAV_WRITING == 0 if (webDavBuckets_.size() == 0) { CLOG(WARNING, HTTP) << "Your version of the Orthanc framework was compiled " << "without support for writing into WebDAV collections"; } #endif const std::string s = Toolbox::FlattenUri(root); if (webDavBuckets_.find(s) != webDavBuckets_.end()) { throw OrthancException(ErrorCode_ParameterOutOfRange, "Cannot register two WebDAV buckets at the same root: " + s); } else { CLOG(INFO, HTTP) << "Branching WebDAV bucket at: " << s; webDavBuckets_[s] = protection.release(); } } #endif }