Mercurial > hg > orthanc
view Core/HttpServer/MongooseServer.cpp @ 0:3959d33612cc
initial commit
author | Sebastien Jodogne <s.jodogne@gmail.com> |
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date | Thu, 19 Jul 2012 14:32:22 +0200 |
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children | 3a584803783e |
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/** * Palantir - A Lightweight, RESTful DICOM Store * Copyright (C) 2012 Medical Physics Department, CHU of Liege, * Belgium * * This program is free software: you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation, either version 3 of the * License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see <http://www.gnu.org/licenses/>. **/ // http://en.highscore.de/cpp/boost/stringhandling.html #include "MongooseServer.h" #include <algorithm> #include <string.h> #include <boost/lexical_cast.hpp> #include <boost/algorithm/string.hpp> #include <iostream> #include <string.h> #include <stdio.h> #include <boost/thread.hpp> #include "../PalantirException.h" #include "../ChunkedBuffer.h" #include "mongoose.h" namespace Palantir { static const char multipart[] = "multipart/form-data; boundary="; static unsigned int multipartLength = sizeof(multipart) / sizeof(char) - 1; namespace { // Anonymous namespace to avoid clashes between compilation modules class MongooseOutput : public HttpOutput { private: struct mg_connection* connection_; public: MongooseOutput(struct mg_connection* connection) : connection_(connection) { } virtual void Send(const void* buffer, size_t length) { mg_write(connection_, buffer, length); } }; 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: ChunkedFile(const std::string& filename) : filename_(filename) { } const std::string& GetFilename() const { return filename_; } }; class ChunkStore { 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 MongooseServer::PImpl { struct mg_context *context_; ChunkStore chunkStore_; }; ChunkStore& MongooseServer::GetChunkStore() { return pimpl_->chunkStore_; } HttpHandler* MongooseServer::FindHandler(const UriComponents& forUri) const { for (Handlers::const_iterator it = handlers_.begin(); it != handlers_.end(); it++) { if ((*it)->IsServedUri(forUri)) { return *it; } } return NULL; } static PostDataStatus ReadPostData(std::string& postData, struct mg_connection *connection, const HttpHandler::Arguments& headers) { HttpHandler::Arguments::const_iterator cs = headers.find("content-length"); if (cs == headers.end()) { return PostDataStatus_NoLength; } int length; try { length = boost::lexical_cast<int>(cs->second); } catch (boost::bad_lexical_cast) { return PostDataStatus_NoLength; } if (length < 0) { length = 0; } postData.resize(length); size_t pos = 0; while (length > 0) { int r = mg_read(connection, &postData[pos], length); if (r <= 0) { return PostDataStatus_Failure; } assert((unsigned int) r <= length); length -= r; pos += r; } return PostDataStatus_Success; } static PostDataStatus ParseMultipartPost(std::string &completedFile, struct mg_connection *connection, const HttpHandler::Arguments& headers, const std::string& contentType, ChunkStore& chunkStore) { std::string boundary = "--" + contentType.substr(multipartLength); std::string postData; PostDataStatus status = ReadPostData(postData, connection, headers); if (status != PostDataStatus_Success) { return status; } /*for (HttpHandler::Arguments::const_iterator i = headers.begin(); i != headers.end(); i++) { std::cout << "Header [" << i->first << "] = " << i->second << "\n"; } printf("CHUNK\n");*/ typedef HttpHandler::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<std::string::iterator> Range; //chunkStore.Print(); try { FindIterator last; for (FindIterator it = make_find_iterator(postData, 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()) { 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); if (chunkSize > 0) { 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; } static void* Callback(enum mg_event event, struct mg_connection *connection, const struct mg_request_info *request) { if (event == MG_NEW_REQUEST) { MongooseServer* that = (MongooseServer*) (request->user_data); HttpHandler::Arguments arguments, headers; MongooseOutput c(connection); for (int i = 0; i < request->num_headers; i++) { std::string name = request->http_headers[i].name; std::transform(name.begin(), name.end(), name.begin(), ::tolower); headers.insert(std::make_pair(name, request->http_headers[i].value)); } std::string postData; if (!strcmp(request->request_method, "GET")) { HttpHandler::ParseGetQuery(arguments, request->query_string); } else if (!strcmp(request->request_method, "POST")) { HttpHandler::Arguments::const_iterator ct = headers.find("content-type"); if (ct == headers.end()) { c.SendHeader(HttpStatus_400_BadRequest); return (void*) ""; } PostDataStatus status; std::string contentType = ct->second; if (contentType.size() >= multipartLength && !memcmp(contentType.c_str(), multipart, multipartLength)) { status = ParseMultipartPost(postData, connection, headers, contentType, that->GetChunkStore()); } else { status = ReadPostData(postData, connection, headers); } switch (status) { case PostDataStatus_NoLength: c.SendHeader(HttpStatus_411_LengthRequired); return (void*) ""; case PostDataStatus_Failure: c.SendHeader(HttpStatus_400_BadRequest); return (void*) ""; case PostDataStatus_Pending: c.AnswerBuffer(""); return (void*) ""; default: break; } } UriComponents uri; Toolbox::SplitUriComponents(uri, request->uri); HttpHandler* handler = that->FindHandler(uri); if (handler) { try { handler->Handle(c, std::string(request->request_method), uri, headers, arguments, postData); } catch (PalantirException& e) { std::cerr << "MongooseServer Exception [" << e.What() << "]" << std::endl; c.SendHeader(HttpStatus_500_InternalServerError); } } else { c.SendHeader(HttpStatus_404_NotFound); } // Mark as processed return (void*) ""; } else { return NULL; } } bool MongooseServer::IsRunning() const { return (pimpl_->context_ != NULL); } MongooseServer::MongooseServer() : pimpl_(new PImpl) { pimpl_->context_ = NULL; port_ = 8000; } MongooseServer::~MongooseServer() { Stop(); ClearHandlers(); } void MongooseServer::SetPort(uint16_t port) { Stop(); port_ = port; } void MongooseServer::Start() { if (!IsRunning()) { std::string port = boost::lexical_cast<std::string>(port_); const char *options[] = { "listening_ports", port.c_str(), NULL }; pimpl_->context_ = mg_start(&Callback, this, options); if (!pimpl_->context_) { throw PalantirException("Unable to launch the Mongoose server"); } } } void MongooseServer::Stop() { if (IsRunning()) { mg_stop(pimpl_->context_); pimpl_->context_ = NULL; } } void MongooseServer::RegisterHandler(HttpHandler* handler) { Stop(); handlers_.push_back(handler); } void MongooseServer::ClearHandlers() { Stop(); for (Handlers::iterator it = handlers_.begin(); it != handlers_.end(); it++) { delete *it; } } }