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|
/*
* TLS ASIO Stream Wrapper
* (C) 2018-2019 Jack Lloyd
* 2018-2019 Hannes Rantzsch, Tim Oesterreich, Rene Meusel
*
* Botan is released under the Simplified BSD License (see license.txt)
*/
#ifndef BOTAN_ASIO_STREAM_H_
#define BOTAN_ASIO_STREAM_H_
#include <botan/build.h>
// first version to be compatible with Networking TS (N4656) and boost::beast
#include <boost/version.hpp>
#if BOOST_VERSION >= 106600
#include <botan/asio_error.h>
#include <botan/internal/asio_async_handshake_op.h>
#include <botan/internal/asio_async_read_op.h>
#include <botan/internal/asio_async_write_op.h>
#include <botan/internal/asio_includes.h>
#include <botan/asio_context.h>
#include <botan/tls_callbacks.h>
#include <botan/tls_channel.h>
#include <botan/tls_client.h>
#include <botan/tls_magic.h>
#include <boost/beast/core/flat_buffer.hpp>
#include <algorithm>
#include <memory>
#include <thread>
#include <type_traits>
namespace Botan {
namespace TLS {
/**
* boost::asio compatible SSL/TLS stream
*
* Currently only the TLS::Client specialization is implemented.
*
* \tparam StreamLayer type of the next layer, usually a network socket
* \tparam ChannelT type of the native_handle, defaults to Botan::TLS::Channel, only needed for testing purposes
*/
template <class StreamLayer, class ChannelT = Channel>
class Stream
{
public:
using next_layer_type = typename std::remove_reference<StreamLayer>::type;
using lowest_layer_type = typename next_layer_type::lowest_layer_type;
using executor_type = typename next_layer_type::executor_type;
using native_handle_type = typename std::add_pointer<ChannelT>::type;
public:
template <typename... Args>
explicit Stream(Context& context, Args&& ... args)
: m_context(context), m_nextLayer(std::forward<Args>(args)...) {}
// overload for boost::asio::ssl::stream compatibility
template <typename Arg>
explicit Stream(Arg&& arg, Context& context)
: m_context(context), m_nextLayer(std::forward<Arg>(arg)) {}
virtual ~Stream() = default;
Stream(Stream&& other) = default;
Stream& operator=(Stream&& other) = default;
Stream(const Stream& other) = delete;
Stream& operator=(const Stream& other) = delete;
//
// -- -- accessor methods
//
executor_type get_executor() noexcept { return m_nextLayer.get_executor(); }
const next_layer_type& next_layer() const { return m_nextLayer; }
next_layer_type& next_layer() { return m_nextLayer; }
lowest_layer_type& lowest_layer() { return m_nextLayer.lowest_layer(); }
const lowest_layer_type& lowest_layer() const { return m_nextLayer.lowest_layer(); }
native_handle_type native_handle() { return m_channel.get(); }
//
// -- -- configuration and callback setters
//
/**
* @throws Not_Implemented
*/
template<typename VerifyCallback>
void set_verify_callback(VerifyCallback callback)
{
BOTAN_UNUSED(callback);
throw Not_Implemented("set_verify_callback is not implemented");
}
/**
* Not Implemented.
* @param ec Will be set to `Botan::ErrorType::NotImplemented`
*/
template<typename VerifyCallback>
void set_verify_callback(VerifyCallback callback,
boost::system::error_code& ec)
{
BOTAN_UNUSED(callback);
ec = Botan::ErrorType::NotImplemented;
}
/**
* @throws Not_Implemented
*/
void set_verify_depth(int depth)
{
BOTAN_UNUSED(depth);
throw Not_Implemented("set_verify_depth is not implemented");
}
/**
* Not Implemented.
* @param ec Will be set to `Botan::ErrorType::NotImplemented`
*/
void set_verify_depth(int depth,
boost::system::error_code& ec)
{
BOTAN_UNUSED(depth);
ec = Botan::ErrorType::NotImplemented;
}
/**
* @throws Not_Implemented
*/
template <typename verify_mode>
void set_verify_mode(verify_mode v)
{
BOTAN_UNUSED(v);
throw Not_Implemented("set_verify_mode is not implemented");
}
/**
* Not Implemented.
* @param ec Will be set to `Botan::ErrorType::NotImplemented`
*/
template <typename verify_mode>
void set_verify_mode(verify_mode v,
boost::system::error_code& ec)
{
BOTAN_UNUSED(v);
ec = Botan::ErrorType::NotImplemented;
}
//
// -- -- handshake methods
//
/**
* Performs SSL handshaking.
* The function call will block until handshaking is complete or an error occurs.
* @param type The type of handshaking to be performed, i.e. as a client or as a server.
* @throws boost::system::system_error if error occured
* @throws Invalid_Argument if Connection_Side could not be validated
*/
void handshake(Connection_Side side)
{
boost::system::error_code ec;
handshake(side, ec);
boost::asio::detail::throw_error(ec, "handshake");
}
/**
* Performs SSL handshaking.
* The function call will block until handshaking is complete or an error occurs.
* @param type The type of handshaking to be performed, i.e. as a client or as a server.
* @param ec Set to indicate what error occurred, if any.
*/
void handshake(Connection_Side side, boost::system::error_code& ec)
{
setup_channel(side);
while(!native_handle()->is_active())
{
sendPendingEncryptedData(ec);
if(ec)
{ return; }
boost::asio::const_buffer read_buffer
{
this->m_core.input_buffer.data(),
m_nextLayer.read_some(this->m_core.input_buffer, ec)
};
if(ec)
{ return; }
try
{
native_handle()->received_data(static_cast<const uint8_t*>(read_buffer.data()),
read_buffer.size());
}
catch(const TLS_Exception& e)
{
ec = e.type();
return;
}
catch(const Botan::Exception& e)
{
ec = e.error_type();
return;
}
catch(const std::exception&)
{
ec = Botan::ErrorType::Unknown;
return;
}
sendPendingEncryptedData(ec);
}
}
/**
* Starts an asynchronous SSL handshake.
* This function call always returns immediately.
* @param type The type of handshaking to be performed, i.e. as a client or as a server.
* @param handler The handler to be called when the handshake operation completes.
* The equivalent function signature of the handler must be: void(boost::system::error_code)
* @throws Invalid_Argument if Connection_Side could not be validated
*/
template <typename HandshakeHandler>
BOOST_ASIO_INITFN_RESULT_TYPE(HandshakeHandler,
void(boost::system::error_code))
async_handshake(Connection_Side side, HandshakeHandler&& handler)
{
BOOST_ASIO_HANDSHAKE_HANDLER_CHECK(HandshakeHandler, handler) type_check;
setup_channel(side);
boost::asio::async_completion<HandshakeHandler, void(boost::system::error_code)> init(handler);
AsyncHandshakeOperation<typename std::decay<HandshakeHandler>::type, Stream>
op{std::move(init.completion_handler), *this, this->m_core};
return init.result.get();
}
/**
* @throws Not_Implemented
*/
template <typename ConstBufferSequence, typename BufferedHandshakeHandler>
BOOST_ASIO_INITFN_RESULT_TYPE(BufferedHandshakeHandler,
void(boost::system::error_code, std::size_t))
async_handshake(Connection_Side side, const ConstBufferSequence& buffers,
BufferedHandshakeHandler&& handler)
{
BOTAN_UNUSED(buffers, handler);
BOOST_ASIO_HANDSHAKE_HANDLER_CHECK(BufferedHandshakeHandler, handler) type_check;
validate_connection_side(side);
throw Not_Implemented("buffered async handshake is not implemented");
}
//
// -- -- shutdown methods
//
/**
* Shut down SSL on the stream.
* The function call will block until SSL has been shut down or an error occurs.
* @param ec Set to indicate what error occured, if any.
*/
void shutdown(boost::system::error_code& ec)
{
try
{
native_handle()->close();
}
catch(const TLS_Exception& e)
{
ec = e.type();
return;
}
catch(const Botan::Exception& e)
{
ec = e.error_type();
return;
}
catch(const std::exception&)
{
ec = Botan::ErrorType::Unknown;
return;
}
sendPendingEncryptedData(ec);
}
/**
* Shut down SSL on the stream.
* The function call will block until SSL has been shut down or an error occurs.
* @throws boost::system::system_error if error occured
*/
void shutdown()
{
boost::system::error_code ec;
shutdown(ec);
boost::asio::detail::throw_error(ec, "shutdown");
}
/**
* Asynchronously shut down SSL on the stream.
* This function call always returns immediately.
* @param handler The handler to be called when the handshake operation completes.
* The equivalent function signature of the handler must be: void(boost::system::error_code)
*/
template <typename ShutdownHandler>
void async_shutdown(ShutdownHandler&& handler)
{
BOOST_ASIO_HANDSHAKE_HANDLER_CHECK(ShutdownHandler, handler) type_check;
BOTAN_UNUSED(handler);
throw Not_Implemented("async shutdown is not implemented");
// TODO: Implement a subclass of AsyncBase that calls native_handle()->close() and writes pending data from
// the core to the network, e.g. using AsyncWriteOperation.
}
//
// -- -- I/O methods
//
/**
* Read some data from the stream. The function call will block until one or more bytes of data has
* been read successfully, or until an error occurs.
* @param buffers The buffers into which the data will be read.
* @param ec Set to indicate what error occured, if any.
* @return The number of bytes read. Returns 0 if an error occurred.
*/
template <typename MutableBufferSequence>
std::size_t read_some(const MutableBufferSequence& buffers,
boost::system::error_code& ec)
{
if(this->m_core.hasReceivedData())
{ return this->m_core.copyReceivedData(buffers); }
tls_receive_some(ec);
if(ec)
{ return 0; }
return this->m_core.copyReceivedData(buffers);
}
/**
* Read some data from the stream. The function call will block until one or more bytes of data has
* been read successfully, or until an error occurs.
*
* @param buffers The buffers into which the data will be read.
* @return The number of bytes read. Returns 0 if an error occurred.
* @throws boost::system::system_error if error occured
*/
template <typename MutableBufferSequence>
std::size_t read_some(const MutableBufferSequence& buffers)
{
boost::system::error_code ec;
auto const n = read_some(buffers, ec);
boost::asio::detail::throw_error(ec, "read_some");
return n;
}
/**
* Write some data to the stream. The function call will block until one or more bytes of data has been written
* successfully, or until an error occurs.
*
* @param buffers The data to be written.
* @param ec Set to indicate what error occurred, if any.
* @return The number of bytes written.
*/
template <typename ConstBufferSequence>
std::size_t write_some(const ConstBufferSequence& buffers,
boost::system::error_code& ec)
{
std::size_t sent = tls_encrypt_some(buffers, ec);
if(ec)
{ return 0; }
sendPendingEncryptedData(ec);
if(ec)
{ return 0; }
return sent;
}
/**
* Write some data to the stream. The function call will block until one or more bytes of data has been written
* successfully, or until an error occurs.
*
* @param buffers The data to be written.
* @return The number of bytes written.
* @throws boost::system::system_error if error occured
*/
template <typename ConstBufferSequence>
std::size_t write_some(const ConstBufferSequence& buffers)
{
boost::system::error_code ec;
auto const n = write_some(buffers, ec);
boost::asio::detail::throw_error(ec, "write_some");
return n;
}
/**
* Start an asynchronous write. The function call always returns immediately.
*
* @param buffers The data to be written.
* @param handler The handler to be called when the write operation completes. Copies will be made of the handler
* as required. The equivalent function signature of the handler must be:
* void(boost::system::error_code, std::size_t)
*/
template <typename ConstBufferSequence, typename WriteHandler>
BOOST_ASIO_INITFN_RESULT_TYPE(WriteHandler,
void(boost::system::error_code, std::size_t))
async_write_some(const ConstBufferSequence& buffers, WriteHandler&& handler)
{
BOOST_ASIO_WRITE_HANDLER_CHECK(WriteHandler, handler) type_check;
boost::asio::async_completion<WriteHandler, void(boost::system::error_code, std::size_t)> init(handler);
boost::system::error_code ec;
std::size_t sent = tls_encrypt_some(buffers, ec);
if(ec)
{
// we cannot be sure how many bytes were committed here
// so clear the send_buffer and let the AsyncWriteOperation call the handler with the error_code set
this->m_core.clearSendBuffer();
Botan::TLS::AsyncWriteOperation<typename std::decay<WriteHandler>::type, Stream>
op{std::move(init.completion_handler), *this, this->m_core, std::size_t(0), ec};
return init.result.get();
}
Botan::TLS::AsyncWriteOperation<typename std::decay<WriteHandler>::type, Stream>
op{std::move(init.completion_handler), *this, this->m_core, sent};
return init.result.get();
}
/**
* Start an asynchronous read. The function call always returns immediately.
*
* @param buffers The buffers into which the data will be read. Although the buffers object may be copied as
* necessary, ownership of the underlying buffers is retained by the caller, which must guarantee
* that they remain valid until the handler is called.
* @param handler The handler to be called when the read operation completes. The equivalent function signature of
* the handler must be:
* void(boost::system::error_code, std::size_t)
*/
template <typename MutableBufferSequence, typename ReadHandler>
BOOST_ASIO_INITFN_RESULT_TYPE(ReadHandler,
void(boost::system::error_code, std::size_t))
async_read_some(const MutableBufferSequence& buffers, ReadHandler&& handler)
{
BOOST_ASIO_READ_HANDLER_CHECK(ReadHandler, handler) type_check;
boost::asio::async_completion<ReadHandler, void(boost::system::error_code, std::size_t)> init(handler);
AsyncReadOperation<typename std::decay<ReadHandler>::type, Stream, MutableBufferSequence>
op{std::move(init.completion_handler), *this, this->m_core, buffers};
return init.result.get();
}
// TODO: remove StreamCore from public interface
/**
* Contains the buffers for reading/sending, and the needed botan callbacks
*/
class StreamCore : public Botan::TLS::Callbacks
{
public:
StreamCore()
: m_input_buffer_space(MAX_CIPHERTEXT_SIZE, '\0'),
input_buffer(m_input_buffer_space.data(), m_input_buffer_space.size()) {}
virtual ~StreamCore() = default;
void tls_emit_data(const uint8_t data[], std::size_t size) override
{
// Provide the encrypted TLS data in the sendBuffer. Actually sending the data is done
// using (async_)write_some either in the stream or in an async operation.
m_send_buffer.commit(
boost::asio::buffer_copy(m_send_buffer.prepare(size), boost::asio::buffer(data, size)));
}
void tls_record_received(uint64_t, const uint8_t data[], std::size_t size) override
{
// TODO: It would be nice to avoid this buffer copy. However, we need to deal with the case
// that the receive buffer provided by the caller is smaller than the decrypted record.
auto buffer = m_receive_buffer.prepare(size);
auto copySize =
boost::asio::buffer_copy(buffer, boost::asio::const_buffer(data, size));
m_receive_buffer.commit(copySize);
}
void tls_alert(Botan::TLS::Alert alert) override
{
if(alert.type() == Botan::TLS::Alert::CLOSE_NOTIFY)
{
// TODO
}
}
std::chrono::milliseconds tls_verify_cert_chain_ocsp_timeout() const override
{
return std::chrono::milliseconds(1000);
}
bool tls_session_established(const Botan::TLS::Session&) override
{
// TODO: it should be possible to configure this in the using application (via callback?)
return true;
}
bool hasReceivedData() const
{
return m_receive_buffer.size() > 0;
}
template <typename MutableBufferSequence>
std::size_t copyReceivedData(MutableBufferSequence buffers)
{
const auto copiedBytes =
boost::asio::buffer_copy(buffers, m_receive_buffer.data());
m_receive_buffer.consume(copiedBytes);
return copiedBytes;
}
bool hasDataToSend() const { return m_send_buffer.size() > 0; }
boost::asio::const_buffer sendBuffer() const
{
return m_send_buffer.data();
}
void consumeSendBuffer(std::size_t bytesConsumed)
{
m_send_buffer.consume(bytesConsumed);
}
void clearSendBuffer()
{
consumeSendBuffer(m_send_buffer.size());
}
private:
// Buffer space used to read input intended for the engine.
std::vector<uint8_t> m_input_buffer_space;
boost::beast::flat_buffer m_receive_buffer;
boost::beast::flat_buffer m_send_buffer;
public:
// A buffer that may be used to read input intended for the engine.
const boost::asio::mutable_buffer input_buffer;
};
protected:
// TODO: explain, note: c++17 makes this much better with constexpr if
template<class T = ChannelT>
typename std::enable_if<!std::is_same<Channel, T>::value>::type
setup_channel(Connection_Side) {}
template<class T = ChannelT>
typename std::enable_if<std::is_same<Channel, T>::value>::type
setup_channel(Connection_Side side)
{
assert(side == CLIENT);
m_channel = std::unique_ptr<Client>(new Client(m_core,
*m_context.sessionManager,
*m_context.credentialsManager,
*m_context.policy,
*m_context.randomNumberGenerator,
m_context.serverInfo));
}
//! \brief validate the connection side (OpenSSL compatibility)
void validate_connection_side(Connection_Side side)
{
if(side != CLIENT)
{
throw Invalid_Argument("wrong connection_side");
}
}
//! \brief validate the connection side (OpenSSL compatibility)
bool validate_connection_side(Connection_Side side, boost::system::error_code& ec)
{
if(side != CLIENT)
{
ec = Botan::ErrorType::InvalidArgument;
return false;
}
return true;
}
size_t sendPendingEncryptedData(boost::system::error_code& ec)
{
auto writtenBytes = boost::asio::write(m_nextLayer, this->m_core.sendBuffer(), ec);
this->m_core.consumeSendBuffer(writtenBytes);
return writtenBytes;
}
void tls_receive_some(boost::system::error_code& ec)
{
boost::asio::const_buffer read_buffer =
{
this->m_core.input_buffer.data(),
m_nextLayer.read_some(this->m_core.input_buffer, ec)
};
if(ec)
{ return; }
try
{
native_handle()->received_data(static_cast<const uint8_t*>(read_buffer.data()),
read_buffer.size());
}
catch(const TLS_Exception& e)
{
ec = e.type();
return;
}
catch(const Botan::Exception& e)
{
ec = e.error_type();
return;
}
catch(const std::exception&)
{
ec = Botan::ErrorType::Unknown;
return;
}
}
template <typename ConstBufferSequence>
std::size_t tls_encrypt_some(const ConstBufferSequence& buffers,
boost::system::error_code& ec)
{
std::size_t sent = 0;
// NOTE: This is not asynchronous: it encrypts the data synchronously.
// The data encrypted by native_handle()->send() is synchronously stored in the send_buffer of m_core,
// but is not actually written to the wire, yet.
for(auto it = boost::asio::buffer_sequence_begin(buffers);
it != boost::asio::buffer_sequence_end(buffers);
it++)
{
if(sent >= MAX_PLAINTEXT_SIZE)
{ return 0; }
boost::asio::const_buffer buffer = *it;
const auto amount =
std::min<std::size_t>(MAX_PLAINTEXT_SIZE - sent, buffer.size());
try
{
native_handle()->send(static_cast<const uint8_t*>(buffer.data()), amount);
}
catch(const TLS_Exception& e)
{
ec = e.type();
return 0;
}
catch(const Botan::Exception& e)
{
ec = e.error_type();
return 0;
}
catch(const std::exception&)
{
ec = Botan::ErrorType::Unknown;
return 0;
}
sent += amount;
}
return sent;
}
Context m_context;
StreamLayer m_nextLayer;
StreamCore m_core;
std::unique_ptr<ChannelT> m_channel;
};
} // namespace TLS
} // namespace Botan
#endif // BOOST_VERSION
#endif // BOTAN_ASIO_STREAM_H_
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