Ejemplos de get_i2p_category en C++ (Cpp)

Ejemplo n.º 1

Archivo: StaticHelpers.cpp Proyecto: solonix/CuteTorrent

QString StaticHelpers::translateLibTorrentError(error_code const& ec)
{
#if LIBTORRENT_VERSION_NUM >= 10000

	if (ec.category() == get_libtorrent_category())
	{
		return translateSessionError(ec);
	}

	if (ec.category() == get_bdecode_category())
	{
		return translateBEncodeError(ec);
	}

	if (ec.category() == get_gzip_category())
	{
		return translateGzipError(ec);
	}

	if (ec.category() == get_i2p_category())
	{
		return translateI2PError(ec);
	}

	if (ec.category() == get_socks_category())
	{
		return translateSocksError(ec);
	}

	if (ec.category() == get_upnp_category())
	{
		return translateUpnpError(ec);
	}

#endif
	return QString::fromLocal8Bit(ec.message().c_str());
}

Ejemplo n.º 2

Archivo: i2p_stream.cpp Proyecto: aresch/libtorrent

	void i2p_stream::read_line(error_code const& e, boost::shared_ptr<handler_type> h)
	{
		TORRENT_ASSERT(m_magic == 0x1337);
#if defined TORRENT_ASIO_DEBUGGING
		complete_async("i2p_stream::read_line");
#endif
		if (handle_error(e, h)) return;

		int read_pos = m_buffer.size();

		// look for \n which means end of the response
		if (m_buffer[read_pos - 1] != '\n')
		{
#if defined TORRENT_ASIO_DEBUGGING
			add_outstanding_async("i2p_stream::read_line");
#endif
			// read another byte from the socket
			m_buffer.resize(read_pos + 1);
			async_read(m_sock, boost::asio::buffer(&m_buffer[read_pos], 1)
				, boost::bind(&i2p_stream::read_line, this, _1, h));
			return;
		}
		m_buffer[read_pos - 1] = 0;

		if (m_command == cmd_incoming)
		{
			// this is the line containing the destination
			// of the incoming connection in an accept call
			m_dest = &m_buffer[0];
			(*h)(e);
			std::vector<char>().swap(m_buffer);
			return;
		}

		error_code invalid_response(i2p_error::parse_failed
			, get_i2p_category());

		// null-terminate the string and parse it
		m_buffer.push_back(0);
		char* ptr = &m_buffer[0];
		char* next = ptr;

		char const* expect1 = 0;
		char const* expect2 = 0;

		switch (m_state)
		{
			case read_hello_response:
				expect1 = "HELLO";
				expect2 = "REPLY";
				break;
			case read_connect_response:
			case read_accept_response:
				expect1 = "STREAM";
				expect2 = "STATUS";
				break;
			case read_session_create_response:
				expect1 = "SESSION";
				expect2 = "STATUS";
				break;
			case read_name_lookup_response:
				expect1 = "NAMING";
				expect2 = "REPLY";
				break;
		}

//		fprintf(stderr, "<<< %s\n", &m_buffer[0]);
		ptr = string_tokenize(next, ' ', &next);
		if (ptr == 0 || expect1 == 0 || strcmp(expect1, ptr)) { handle_error(invalid_response, h); return; }
		ptr = string_tokenize(next, ' ', &next);
		if (ptr == 0 || expect2 == 0 || strcmp(expect2, ptr)) { handle_error(invalid_response, h); return; }

		int result = 0;
//		char const* message = 0;
//		float version = 3.0f;

		for(;;)
		{
			char* name = string_tokenize(next, '=', &next);
			if (name == 0) break;
//			fprintf(stderr, "name=\"%s\"\n", name);
			char* ptr2 = string_tokenize(next, ' ', &next);
			if (ptr2 == 0) { handle_error(invalid_response, h); return; }
//			fprintf(stderr, "value=\"%s\"\n", ptr2);

			if (strcmp("RESULT", name) == 0)
			{
				if (strcmp("OK", ptr2) == 0)
					result = i2p_error::no_error;
				else if (strcmp("CANT_REACH_PEER", ptr2) == 0)
					result = i2p_error::cant_reach_peer;
				else if (strcmp("I2P_ERROR", ptr2) == 0)
					result = i2p_error::i2p_error;
				else if (strcmp("INVALID_KEY", ptr2) == 0)
					result = i2p_error::invalid_key;
				else if (strcmp("INVALID_ID", ptr2) == 0)
					result = i2p_error::invalid_id;
				else if (strcmp("TIMEOUT", ptr2) == 0)
					result = i2p_error::timeout;
				else if (strcmp("KEY_NOT_FOUND", ptr2) == 0)
					result = i2p_error::key_not_found;
				else if (strcmp("DUPLICATED_ID", ptr2) == 0)
					result = i2p_error::duplicated_id;
				else
					result = i2p_error::num_errors; // unknown error
			}
			else if (strcmp("MESSAGE", name) == 0)
			{
//				message = ptr2;
			}
			else if (strcmp("VERSION", name) == 0)
			{
//				version = float(atof(ptr2));
			}
			else if (strcmp("VALUE", name) == 0)
			{
				m_name_lookup = ptr2;
			}
			else if (strcmp("DESTINATION", name) == 0)
			{
				m_dest = ptr2;
			}
		}

		error_code ec(result, get_i2p_category());
		switch (result)
		{
			case i2p_error::no_error:
			case i2p_error::invalid_key:
				break;
			default:
			{
				handle_error (ec, h);
				return;
			}
		}

		switch (m_state)
		{
		case read_hello_response:
			switch (m_command)
			{
				case cmd_create_session:
					send_session_create(h);
					break;
				case cmd_accept:
					send_accept(h);
					break;
				case cmd_connect:
					send_connect(h);
					break;
				default:
					(*h)(e);
					std::vector<char>().swap(m_buffer);
			}
			break;
		case read_connect_response:
		case read_session_create_response:
		case read_name_lookup_response:
			(*h)(ec);
			std::vector<char>().swap(m_buffer);
			break;
		case read_accept_response:
			// the SAM bridge is waiting for an incoming
			// connection.
			// wait for one more line containing
			// the destination of the remote peer
			m_command = cmd_incoming;
			m_buffer.resize(1);
#if defined TORRENT_ASIO_DEBUGGING
			add_outstanding_async("i2p_stream::read_line");
#endif
			async_read(m_sock, boost::asio::buffer(m_buffer)
				, boost::bind(&i2p_stream::read_line, this, _1, h));
			break;
		}

		return;
	}