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/*
* Copyright (c) 2011 Tobias Markmann
* Licensed under the simplified BSD license.
* See Documentation/Licenses/BSD-simplified.txt for more information.
*/
#include "SOCKS5BytestreamClientSession.h"
#include <boost/bind.hpp>
#include <boost/numeric/conversion/cast.hpp>
#include <Swiften/Base/Algorithm.h>
#include <Swiften/Base/SafeByteArray.h>
#include <Swiften/Base/Concat.h>
#include <Swiften/Base/Log.h>
#include <Swiften/StringCodecs/SHA1.h>
#include <Swiften/StringCodecs/Hexify.h>
#include <Swiften/FileTransfer/BytestreamException.h>
#include <Swiften/Network/TimerFactory.h>
#include <Swiften/Base/ByteArray.h>
namespace Swift {
SOCKS5BytestreamClientSession::SOCKS5BytestreamClientSession(boost::shared_ptr<Connection> connection, const HostAddressPort& addressPort, const std::string& destination, TimerFactory* timerFactory) :
connection(connection), addressPort(addressPort), destination(destination), state(Initial), chunkSize(131072) {
connection->onConnectFinished.connect(boost::bind(&SOCKS5BytestreamClientSession::handleConnectFinished, this, _1));
connection->onDisconnected.connect(boost::bind(&SOCKS5BytestreamClientSession::handleDisconnected, this, _1));
weFailedTimeout = timerFactory->createTimer(2000);
weFailedTimeout->onTick.connect(boost::bind(&SOCKS5BytestreamClientSession::handleWeFailedTimeout, this));
}
void SOCKS5BytestreamClientSession::start() {
assert(state == Initial);
SWIFT_LOG(debug) << "Trying to connect via TCP to " << addressPort.toString() << "." << std::endl;
weFailedTimeout->start();
connection->connect(addressPort);
}
void SOCKS5BytestreamClientSession::stop() {
connection->disconnect();
connection->onDataWritten.disconnect(boost::bind(&SOCKS5BytestreamClientSession::sendData, this));
connection->onDataRead.disconnect(boost::bind(&SOCKS5BytestreamClientSession::handleDataRead, this, _1));
readBytestream.reset();
state = Finished;
}
void SOCKS5BytestreamClientSession::process() {
SWIFT_LOG(debug) << "unprocessedData.size(): " << unprocessedData.size() << std::endl;
ByteArray bndAddress;
switch(state) {
case Initial:
hello();
break;
case Hello:
if (unprocessedData.size() > 1) {
unsigned char version = unprocessedData[0];
unsigned char authMethod = unprocessedData[1];
if (version != 5 || authMethod != 0) {
// signal failure to upper level
finish(true);
return;
}
unprocessedData.clear();
authenticate();
}
break;
case Authenticating:
if (unprocessedData.size() < 5) {
// need more data to start progressing
break;
}
if (unprocessedData[0] != '\x05') {
// wrong version
// disconnect & signal failure
finish(true);
break;
}
if (unprocessedData[1] != '\x00') {
// no success
// disconnect & signal failure
finish(true);
break;
}
if (unprocessedData[3] != '\x03') {
// we expect x'03' = DOMAINNAME here
// discconect & signal failure
finish(true);
break;
}
if (static_cast<size_t>(unprocessedData[4]) + 1 > unprocessedData.size() + 5) {
// complete domainname and port not available yet
break;
}
bndAddress = createByteArray(&vecptr(unprocessedData)[5], unprocessedData[4]);
if (unprocessedData[unprocessedData[4] + 5] != 0 && bndAddress == createByteArray(destination)) {
// we expect a 0 as port
// disconnect and fail
finish(true);
}
unprocessedData.clear();
state = Ready;
SWIFT_LOG(debug) << "session ready" << std::endl;
// issue ready signal so the bytestream can be used for reading or writing
weFailedTimeout->stop();
onSessionReady(false);
break;
case Ready:
SWIFT_LOG(debug) << "Received further data in Ready state." << std::endl;
break;
case Reading:
case Writing:
case Finished:
SWIFT_LOG(debug) << "Unexpected receive of data. Current state: " << state << std::endl;
SWIFT_LOG(debug) << "Data: " << Hexify::hexify(unprocessedData) << std::endl;
unprocessedData.clear();
//assert(false);
}
}
void SOCKS5BytestreamClientSession::hello() {
// Version 5, 1 auth method, No authentication
const SafeByteArray hello = createSafeByteArray("\x05\x01\x00", 3);
connection->write(hello);
state = Hello;
}
void SOCKS5BytestreamClientSession::authenticate() {
SWIFT_LOG(debug) << std::endl;
SafeByteArray header = createSafeByteArray("\x05\x01\x00\x03", 4);
SafeByteArray message = header;
append(message, createSafeByteArray(boost::numeric_cast<char>(destination.size())));
authenticateAddress = createByteArray(destination);
append(message, authenticateAddress);
append(message, createSafeByteArray("\x00\x00", 2)); // 2 byte for port
connection->write(message);
state = Authenticating;
}
void SOCKS5BytestreamClientSession::startReceiving(boost::shared_ptr<WriteBytestream> writeStream) {
if (state == Ready) {
state = Reading;
writeBytestream = writeStream;
writeBytestream->write(unprocessedData);
onBytesReceived(unprocessedData.size());
unprocessedData.clear();
} else {
SWIFT_LOG(debug) << "Session isn't ready for transfer yet!" << std::endl;
}
}
void SOCKS5BytestreamClientSession::startSending(boost::shared_ptr<ReadBytestream> readStream) {
if (state == Ready) {
state = Writing;
readBytestream = readStream;
connection->onDataWritten.connect(boost::bind(&SOCKS5BytestreamClientSession::sendData, this));
sendData();
} else {
SWIFT_LOG(debug) << "Session isn't ready for transfer yet!" << std::endl;
}
}
HostAddressPort SOCKS5BytestreamClientSession::getAddressPort() const {
return addressPort;
}
void SOCKS5BytestreamClientSession::sendData() {
if (!readBytestream->isFinished()) {
try {
boost::shared_ptr<ByteArray> dataToSend = readBytestream->read(chunkSize);
connection->write(createSafeByteArray(*dataToSend));
onBytesSent(dataToSend->size());
}
catch (const BytestreamException&) {
finish(true);
}
}
else {
finish(false);
}
}
void SOCKS5BytestreamClientSession::finish(bool error) {
weFailedTimeout->stop();
connection->disconnect();
connection->onDataWritten.disconnect(boost::bind(&SOCKS5BytestreamClientSession::sendData, this));
connection->onDataRead.disconnect(boost::bind(&SOCKS5BytestreamClientSession::handleDataRead, this, _1));
readBytestream.reset();
if (state == Initial || state == Hello || state == Authenticating) {
onSessionReady(true);
}
else {
state = Finished;
if (error) {
onFinished(boost::optional<FileTransferError>(FileTransferError::ReadError));
} else {
onFinished(boost::optional<FileTransferError>());
}
}
}
void SOCKS5BytestreamClientSession::handleConnectFinished(bool error) {
if (error) {
SWIFT_LOG(debug) << "Failed to connect via TCP to " << addressPort.toString() << "." << std::endl;
finish(true);
} else {
SWIFT_LOG(debug) << "Successfully connected via TCP" << addressPort.toString() << "." << std::endl;
weFailedTimeout->start();
connection->onDataRead.connect(boost::bind(&SOCKS5BytestreamClientSession::handleDataRead, this, _1));
process();
}
}
void SOCKS5BytestreamClientSession::handleDataRead(boost::shared_ptr<SafeByteArray> data) {
SWIFT_LOG(debug) << "state: " << state << " data.size() = " << data->size() << std::endl;
if (state != Reading) {
append(unprocessedData, *data);
process();
}
else {
writeBytestream->write(createByteArray(vecptr(*data), data->size()));
onBytesReceived(data->size());
}
}
void SOCKS5BytestreamClientSession::handleDisconnected(const boost::optional<Connection::Error>& error) {
SWIFT_LOG(debug) << (error ? (error == Connection::ReadError ? "Read Error" : "Write Error") : "No Error") << std::endl;
if (error) {
finish(true);
}
}
void SOCKS5BytestreamClientSession::handleWeFailedTimeout() {
SWIFT_LOG(debug) << "Failed due to timeout!" << std::endl;
finish(true);
}
}
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