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/*
 * Copyright (c) 2014-2016 Isode Limited.
 * All rights reserved.
 * See the COPYING file for more information.
 */

#include <fstream>

#include <boost/algorithm/string.hpp>
#include <boost/filesystem.hpp>
#include <boost/numeric/conversion/cast.hpp>

#include <Swiften/Base/BoostRandomGenerator.h>
#include <Swiften/Base/Debug.h>
#include <Swiften/Base/Log.h>
#include <Swiften/Base/foreach.h>
#include <Swiften/Base/sleep.h>
#include <Swiften/Client/Client.h>
#include <Swiften/Client/ClientXMLTracer.h>
#include <Swiften/Disco/ClientDiscoManager.h>
#include <Swiften/Disco/EntityCapsProvider.h>
#include <Swiften/Elements/Presence.h>
#include <Swiften/EventLoop/SimpleEventLoop.h>
#include <Swiften/FileTransfer/FileReadBytestream.h>
#include <Swiften/FileTransfer/FileTransferManager.h>
#include <Swiften/FileTransfer/FileWriteBytestream.h>
#include <Swiften/FileTransfer/OutgoingFileTransfer.h>
#include <Swiften/FileTransfer/ReadBytestream.h>
#include <Swiften/Network/BoostNetworkFactories.h>
#include <Swiften/Network/Timer.h>
#include <Swiften/Network/TimerFactory.h>

using namespace Swift;

static const std::string CLIENT_NAME = "Swiften FT Test";
static const std::string CLIENT_NODE = "http://swift.im";

static boost::shared_ptr<SimpleEventLoop> eventLoop;
static boost::shared_ptr<BoostNetworkFactories> networkFactories;

BoostRandomGenerator randGen;

enum Candidate {
	InBandBytestream = 1,
	S5B_Direct = 2,
	S5B_Proxied = 4,
	S5B_Assisted = 8,
};

class FileTransferTest {
	public:
		FileTransferTest(int senderCandidates, int receiverCandidates) : senderCandidates_(senderCandidates), senderIsDone_(false), receiverCandidates_(receiverCandidates), receiverIsDone_(false) {
			sender_ = boost::make_shared<Client>(JID(getenv("SWIFT_FILETRANSFERTEST_JID")), getenv("SWIFT_FILETRANSFERTEST_PASS"), networkFactories.get());
			sender_->onDisconnected.connect(boost::bind(&FileTransferTest::handleSenderDisconnected, this, _1));
			sender_->onConnected.connect(boost::bind(&FileTransferTest::handleSenderConnected, this));
			sender_->getEntityCapsProvider()->onCapsChanged.connect(boost::bind(&FileTransferTest::handleSenderCapsChanged, this, _1));

			receiver_ = boost::make_shared<Client>(JID(getenv("SWIFT_FILETRANSFERTEST2_JID")), getenv("SWIFT_FILETRANSFERTEST2_PASS"), networkFactories.get());
			receiver_->onConnected.connect(boost::bind(&FileTransferTest::handleReceiverConnected, this));
			receiver_->onDisconnected.connect(boost::bind(&FileTransferTest::handleReceiverDisconnected, this, _1));

			senderTracer_ = new ClientXMLTracer(sender_.get());
			receiverTracer_ = new ClientXMLTracer(receiver_.get());

			ClientOptions options;
			options.useTLS = ClientOptions::NeverUseTLS;
			options.useStreamCompression = false;
			options.useStreamResumption = false;
			options.useAcks = false;

			sender_->connect(options);
			receiver_->connect(options);

			timeOut_ = networkFactories->getTimerFactory()->createTimer(60000);
			timeOut_->onTick.connect(boost::bind(&FileTransferTest::handleTimeOut, this));

			// Create randomly sized data to exchange.
			sendFilePath_ = boost::filesystem::unique_path("ft_send_%%%%%%%%%%%%%%%%.bin");
			receiveFilePath_ = boost::filesystem::unique_path("ft_receive_%%%%%%%%%%%%%%%%.bin");

			size_t size = 1024 + boost::numeric_cast<size_t>(randGen.generateRandomInteger(1024 * 10));
			sendData_.resize(size);
			for (size_t n = 0; n < sendData_.size(); n++) {
				sendData_[n] = boost::numeric_cast<unsigned char>(randGen.generateRandomInteger(255));
			}

			std::ofstream outfile(sendFilePath_.native().c_str(), std::ios::out | std::ios::binary);
			outfile.write(reinterpret_cast<char *>(&sendData_[0]), boost::numeric_cast<ptrdiff_t>(sendData_.size()));
			outfile.close();
		}

		~FileTransferTest() {
			timeOut_->stop();

			delete senderTracer_;
			delete receiverTracer_;

			// Free file-transfer objects so file handles are closed and files can be removed afterwards.
			incomingFileTransfers_.clear();
			outgoingFileTransfer_.reset();

			if(boost::filesystem::exists(sendFilePath_)) {
				boost::filesystem::remove(sendFilePath_);
			}

			if(boost::filesystem::exists(receiveFilePath_)) {
				boost::filesystem::remove(receiveFilePath_);
			}
		}

		void handleSenderConnected() {
			sender_->sendPresence(Presence::create());
		}

		void handleReceiverConnected() {
			receiver_->getFileTransferManager()->onIncomingFileTransfer.connect(boost::bind(&FileTransferTest::handleReceiverIncomingFileTransfer, this, _1));

			DiscoInfo discoInfo;
			discoInfo.addIdentity(DiscoInfo::Identity(CLIENT_NAME, "client", "pc"));
			discoInfo.addFeature(DiscoInfo::JingleFeature);
			discoInfo.addFeature(DiscoInfo::JingleFTFeature);
			discoInfo.addFeature(DiscoInfo::Bytestream);
			discoInfo.addFeature(DiscoInfo::JingleTransportsIBBFeature);
			discoInfo.addFeature(DiscoInfo::JingleTransportsS5BFeature);
			receiver_->getDiscoManager()->setCapsNode(CLIENT_NODE);
			receiver_->getDiscoManager()->setDiscoInfo(discoInfo);
			receiver_->getPresenceSender()->sendPresence(Presence::create());
		}

		void handleReceiverIncomingFileTransfer(IncomingFileTransfer::ref transfer) {
			incomingFileTransfers_.push_back(transfer);
			boost::shared_ptr<FileWriteBytestream> out = boost::make_shared<FileWriteBytestream>(receiveFilePath_.native());
			transfer->onFinished.connect(boost::bind(&FileTransferTest::handleReceiverFileTransferFinished, this, _1, out));

			FileTransferOptions options;
			options = options.withInBandAllowed(receiverCandidates_ & InBandBytestream);
			options = options.withDirectAllowed(receiverCandidates_ & S5B_Direct);
			options = options.withAssistedAllowed(receiverCandidates_ & S5B_Assisted);
			options = options.withProxiedAllowed(receiverCandidates_ & S5B_Proxied);

			std::cout << "Incoming transfer options: " << "IBB (" << options.isInBandAllowed() << ")" << ", ";
			std::cout << "S5B Direct (" << options.isDirectAllowed() << ")" << ", ";
			std::cout << "S5B Assisted (" << options.isAssistedAllowed() << ")" << ", ";
			std::cout << "S5B Proxied (" << options.isProxiedAllowed() << ")" << std::endl;

			transfer->accept(out, options);
		}

		void handleSenderCapsChanged(const JID &jid) {
			if (receiver_ && (receiver_->getJID().toBare() == jid.toBare())) {
				boost::shared_ptr<FileReadBytestream> fileStream = boost::make_shared<FileReadBytestream>(sendFilePath_);

				FileTransferOptions options;
				options = options.withInBandAllowed(senderCandidates_ & InBandBytestream);
				options = options.withDirectAllowed(senderCandidates_ & S5B_Direct);
				options = options.withAssistedAllowed(senderCandidates_ & S5B_Assisted);
				options = options.withProxiedAllowed(senderCandidates_ & S5B_Proxied);

				std::cout << "Outgoing transfer options: " << "IBB (" << options.isInBandAllowed() << ")" << ", ";
				std::cout << "S5B Direct (" << options.isDirectAllowed() << ")" << ", ";
				std::cout << "S5B Assisted (" << options.isAssistedAllowed() << ")" << ", ";
				std::cout << "S5B Proxied (" << options.isProxiedAllowed() << ")" << std::endl;

				outgoingFileTransfer_ = sender_->getFileTransferManager()->createOutgoingFileTransfer(jid.toBare(), sendFilePath_, "Some File!", fileStream, options);

				if (outgoingFileTransfer_) {
					outgoingFileTransfer_->onFinished.connect(boost::bind(&FileTransferTest::handleSenderFileTransferFinished, this, _1));
					outgoingFileTransfer_->start();
				} else {
					std::cout << "ERROR: No outgoing file transfer returned." << std::endl;
					endTest();
				}
			}
		}

		void handleReceiverFileTransferFinished(const boost::optional<FileTransferError>& error, boost::shared_ptr<FileWriteBytestream> out) {
			out->close();
			receiverError_ = error;
			receiverIsDone_ = true;
			if (senderIsDone_) {
				timeOut_->stop();
				timeOut_ = networkFactories->getTimerFactory()->createTimer(1000);
				timeOut_->onTick.connect(boost::bind(&FileTransferTest::endTest, this));
				timeOut_->start();
			}
		}

		void handleSenderDisconnected(const boost::optional<ClientError>& error) {
			if (error) {
				std::cout << this << " " << "handleSenderDisconnected: error: " << error.get() << std::endl;
			}
			sender_.reset();
			if (!sender_ && !receiver_) {
				eventLoop->stop();
			}
		}

		void handleReceiverDisconnected(const boost::optional<ClientError>& error) {
			if (error) {
				std::cout << this << " " << "handleReceiverDisconnected: error: " << error.get() << std::endl;
			}
			receiver_.reset();
			if (!sender_ && !receiver_) {
				eventLoop->stop();
			}
		}

		void handleSenderFileTransferFinished(const boost::optional<FileTransferError>& error) {
			senderError_ = error;
			senderIsDone_ = true;
			if (receiverIsDone_) {
				timeOut_->stop();
				timeOut_ = networkFactories->getTimerFactory()->createTimer(1000);
				timeOut_->onTick.connect(boost::bind(&FileTransferTest::endTest, this));
				timeOut_->start();
			}
		}

		void run() {
			timeOut_->start();
			eventLoop->run();
		}

		void endTest() {
			if (sender_) {
				sender_->disconnect();
			}
			if (receiver_) {
				receiver_->disconnect();
			}
		}

		void handleTimeOut() {
			std::cout << "Test timed out!!!" << std::endl;
			endTest();
		}

		bool isDone() const {
			return senderIsDone_ && receiverIsDone_;
		}

		bool wasSuccessful() const {
			return !senderError_ && !receiverError_;
		}

	private:
		int senderCandidates_;
		boost::shared_ptr<Client> sender_;
		ClientXMLTracer* senderTracer_;
		ByteArray sendData_;
		OutgoingFileTransfer::ref outgoingFileTransfer_;
		boost::filesystem::path sendFilePath_;
		boost::optional<FileTransferError> senderError_;
		bool senderIsDone_;

		int receiverCandidates_;
		boost::shared_ptr<Client> receiver_;
		ClientXMLTracer* receiverTracer_;
		ByteArray receiveData_;
		std::vector<IncomingFileTransfer::ref> incomingFileTransfers_;
		boost::filesystem::path receiveFilePath_;
		boost::optional<FileTransferError> receiverError_;
		bool receiverIsDone_;

		Timer::ref timeOut_;
};

static bool runTest(int senderCandidates, int receiverCandidates) {
	bool success = false;

	std::cout << "senderCandidates: " << senderCandidates << ", receiverCandidates: " << receiverCandidates << std::endl;
	bool expectSuccess = (senderCandidates & receiverCandidates) > 0;

	eventLoop = boost::make_shared<SimpleEventLoop>();
	networkFactories = boost::make_shared<BoostNetworkFactories>(eventLoop.get());

	boost::shared_ptr<FileTransferTest> testRun = boost::make_shared<FileTransferTest>(senderCandidates, receiverCandidates);

	testRun->run();

	if (testRun->isDone()) {
		bool wasSuccessful = testRun->wasSuccessful();
		if (expectSuccess == wasSuccessful) {
			success = true;
		} else {
			std::cout << "expected success: " << expectSuccess << ", wasSuccessful: " << wasSuccessful << std::endl;
		}
	} else {
		std::cout << "Failed to run test! Sender candidates = " << senderCandidates << ", receiver candidates = " << receiverCandidates << "." << std::endl;
	}

	testRun.reset();
	networkFactories.reset();
	eventLoop->runUntilEvents();

	eventLoop->stop();
	eventLoop.reset();

	return success;
}

/**
 *	This program test file-transfer	 interop between Swift and itself with various connection candidates.
 *	The all combinations of the candidates, IBB, S5B (direct) and S5B (proxied), on sender and receiver side are tested.
 */
int main(int argc, char** argv) {
	int failedTests = 0;

	std::vector<std::pair<int, int> > failedTestPairs;
	std::cout << "Swiften File-Transfer Connectivity Test Suite" << std::endl;
	if (argc == 1) {
		if (getenv("SWIFT_FILETRANSFERTEST_CONFIG")) {
			// test configuration described in SWIFT_FILETRANSFERTEST_CONFIG environment variable, e.g. "1:1|2:2"
			std::vector<std::string> configurations;
			std::string configs_env = std::string(getenv("SWIFT_FILETRANSFERTEST_CONFIG"));
			boost::split(configurations, configs_env, boost::is_any_of("|"));
			foreach(const std::string& config, configurations) {
				std::vector<std::string> split_config;
				boost::split(split_config, config, boost::is_any_of(":"));
				assert(split_config.size() == 2);

				int senderCandidates = atoi(split_config[0].c_str());
				int receiverCandidates = atoi(split_config[1].c_str());

				if (!runTest(senderCandidates, receiverCandidates)) {
					failedTests++;
					failedTestPairs.push_back(std::pair<int, int>(senderCandidates, receiverCandidates));
				}
			}

			typedef std::pair<int, int> IntPair;
			foreach(IntPair failedTest, failedTestPairs) {
				std::cout << "Failed test: " << "( " << failedTest.first << ", " << failedTest.second << ") " << std::endl;
			}
		}
		else {
			// test all configurations
			for (int n = 0; n < (1 << 7); n++) {
				int senderCandidates = n & 0xF;
				int receiverCandidates = (n >> 4) & 0xF;
				std::cout << "Run test " << n + 1 << " of " << (1 << 7) << ", (" << senderCandidates << ", " << receiverCandidates << ")" << std::endl;
				if (!runTest(senderCandidates, receiverCandidates)) {
					failedTests++;
					failedTestPairs.push_back(std::pair<int, int>(senderCandidates, receiverCandidates));
				}
			}

			typedef std::pair<int, int> IntPair;
			foreach(IntPair failedTest, failedTestPairs) {
				std::cout << "Failed test: " << "( " << failedTest.first << ", " << failedTest.second << ") " << std::endl;
			}
		}
	}
	else if (argc == 3) {
		Log::setLogLevel(Log::debug);
		int senderCandidates = atoi(argv[1]);
		int receiverCandidates = atoi(argv[2]);
		if (!runTest(senderCandidates, receiverCandidates)) {
			failedTests++;
		}
	}
	else {
		std::cout << "Usage:" << std::endl;
		std::cout << "\t- to test all combinations pass no arguments" << std::endl;
		std::cout << "\t- to test a specific combination pass two integers describing sender and receiver candidates" << std::endl;
	}
	return failedTests;
}