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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/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_convert_exceptions.h>
#include <botan/internal/asio_includes.h>
#include <botan/internal/asio_stream_base.h>
#include <botan/internal/asio_stream_core.h>
#include <algorithm>
#include <memory>
#include <thread>
#include <type_traits>
namespace boost {
namespace asio {
namespace ssl {
class context;
}
}
}
namespace Botan {
namespace TLS {
/**
* boost::asio compatible SSL/TLS stream based on TLS::Client or TLS::Server.
*/
template <class StreamLayer, class Channel>
class Stream final : public StreamBase<Channel>
{
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<Channel>::type;
using StreamBase<Channel>::validate_handshake_type;
public:
template <typename... Args>
Stream(StreamLayer&& nextLayer, Args&& ... args)
: StreamBase<Channel>(std::forward<Args>(args)...),
m_nextLayer(std::forward<StreamLayer>(nextLayer)) {}
Stream(StreamLayer&& nextLayer, boost::asio::ssl::context&)
: StreamBase<Channel>(Botan::TLS::Session_Manager_Noop(), Botan::Credentials_Manager()),
m_nextLayer(std::forward<StreamLayer>(nextLayer))
{
// Configuring a TLS stream via asio::ssl::context is not supported.
// The corresponding configuration objects for Botan are:
// * TLS::Session_Manager
// * Credentials_Manager
// * TLS::Policy
// * TLS::Server_Information
// It would be nice to have a masquarading wrapper that exposes an API
// compatible with asio::ssl::context for convenient drop-in replacement.
// For now, base your TLS configurations on the above mentioned classes.
throw Not_Implemented("cannot handle an asio::ssl::context");
}
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 &this->m_channel; }
//
// -- -- configuration and callback setters
//
template<
typename VerifyCallback>
void set_verify_callback(VerifyCallback callback)
{
BOTAN_UNUSED(callback);
throw Not_Implemented("set_verify_callback is not implemented");
}
template<
typename VerifyCallback>
void set_verify_callback(VerifyCallback callback,
boost::system::error_code& ec)
{
BOTAN_UNUSED(callback);
ec = Botan::TLS::error::not_implemented;
}
void set_verify_depth(int depth)
{
BOTAN_UNUSED(depth);
throw Not_Implemented("set_verify_depth is not implemented");
}
void set_verify_depth(int depth,
boost::system::error_code& ec)
{
BOTAN_UNUSED(depth);
ec = Botan::TLS::error::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");
}
template <typename verify_mode>
void set_verify_mode(verify_mode v,
boost::system::error_code& ec)
{
BOTAN_UNUSED(v);
ec = Botan::TLS::error::not_implemented;
}
//
// -- -- handshake methods
//
void handshake()
{
boost::system::error_code ec;
handshake(ec);
boost::asio::detail::throw_error(ec, "handshake");
}
void handshake(boost::system::error_code& ec)
{
while(!native_handle()->is_active())
{
writePendingTlsData(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 std::exception& ex)
{
ec = Botan::TLS::convertException();
return;
}
writePendingTlsData(ec);
}
}
template <typename HandshakeHandler>
BOOST_ASIO_INITFN_RESULT_TYPE(HandshakeHandler,
void(boost::system::error_code))
async_handshake(HandshakeHandler&& handler)
{
BOOST_ASIO_HANDSHAKE_HANDLER_CHECK(HandshakeHandler, handler) type_check;
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};
op({}, 0, false);
return init.result.get();
}
//
// -- -- asio::ssl::stream compatibility methods
//
// The OpenSSL-based stream contains an operation flag that tells
// the stream to either impersonate a TLS server or client. This
// implementation defines those modes at compile time (via template
// specialization of the StreamBase class) and merely checks the
// flag's consistency before performing the respective handshakes.
//
void handshake(handshake_type type)
{
validate_handshake_type(type);
handshake();
}
void handshake(handshake_type type, boost::system::error_code& ec)
{
if(validate_handshake_type(type, ec))
{ handshake(ec); }
}
template <typename HandshakeHandler>
BOOST_ASIO_INITFN_RESULT_TYPE(HandshakeHandler,
void(boost::system::error_code))
async_handshake(handshake_type type, HandshakeHandler&& handler)
{
validate_handshake_type(type);
return async_handshake(std::forward<HandshakeHandler>(handler));
}
template<typename ConstBufferSequence>
void handshake(handshake_type type, const ConstBufferSequence& buffers)
{
BOTAN_UNUSED(buffers);
validate_handshake_type(type);
throw Not_Implemented("buffered handshake is not implemented");
}
template<typename ConstBufferSequence>
void handshake(handshake_type type,
const ConstBufferSequence& buffers,
boost::system::error_code& ec)
{
BOTAN_UNUSED(buffers);
if(validate_handshake_type(type, ec))
{ ec = Botan::TLS::error::not_implemented; }
}
template <typename ConstBufferSequence, typename BufferedHandshakeHandler>
BOOST_ASIO_INITFN_RESULT_TYPE(BufferedHandshakeHandler,
void(boost::system::error_code, std::size_t))
async_handshake(handshake_type type, const ConstBufferSequence& buffers,
BufferedHandshakeHandler&& handler)
{
BOTAN_UNUSED(buffers, handler);
BOOST_ASIO_HANDSHAKE_HANDLER_CHECK(BufferedHandshakeHandler, handler) type_check;
validate_handshake_type(type);
throw Not_Implemented("buffered async handshake is not implemented");
}
//
// -- -- shutdown methods
//
void shutdown(boost::system::error_code& ec)
{
try
{
native_handle()->close();
}
catch(const std::exception& ex)
{
ec = Botan::TLS::convertException();
return;
}
writePendingTlsData(ec);
}
void shutdown()
{
boost::system::error_code ec;
shutdown(ec);
boost::asio::detail::throw_error(ec, "shutdown");
}
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");
}
//
// -- -- I/O methods
//
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); }
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 0; }
try
{
native_handle()->received_data(static_cast<const uint8_t*>(read_buffer.data()),
read_buffer.size());
}
catch(const std::exception& ex)
{
ec = Botan::TLS::convertException();
return 0;
}
return this->m_core.copyReceivedData(buffers);
}
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;
}
template <typename ConstBufferSequence>
std::size_t write_some(const ConstBufferSequence& buffers,
boost::system::error_code& ec)
{
std::size_t sent = 0;
try
{
for(auto it = boost::asio::buffer_sequence_begin(buffers);
sent < MAX_PLAINTEXT_SIZE && it != boost::asio::buffer_sequence_end(buffers);
it++)
{
const std::size_t to_send =
std::min<std::size_t>(MAX_PLAINTEXT_SIZE - sent, boost::asio::buffer_size(*it));
native_handle()->send(static_cast<const uint8_t*>(it->data()), to_send);
sent += to_send;
}
}
catch(const std::exception& ex)
{
ec = Botan::TLS::convertException();
return 0;
}
writePendingTlsData(ec);
if(ec)
{ return 0; }
return sent;
}
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;
}
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);
std::size_t sent = 0;
try
{
// NOTE: This is not asynchronous: it encrypts the data synchronously.
// Only writing on the socket is asynchronous.
for(auto it = boost::asio::buffer_sequence_begin(buffers);
sent < MAX_PLAINTEXT_SIZE && it != boost::asio::buffer_sequence_end(buffers);
it++)
{
const std::size_t to_send =
std::min<std::size_t>(MAX_PLAINTEXT_SIZE - sent, boost::asio::buffer_size(*it));
native_handle()->send(static_cast<const uint8_t*>(it->data()), to_send);
sent += to_send;
}
}
catch(const std::exception&)
{
init.completion_handler(Botan::TLS::convertException(), 0);
return init.result.get();
}
Botan::TLS::AsyncWriteOperation<typename std::decay<WriteHandler>::type, Stream>
op{std::move(init.completion_handler),
*this,
this->m_core,
sent};
boost::asio::async_write(m_nextLayer, this->m_core.sendBuffer(), std::move(op));
return init.result.get();
}
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};
op({}, 0, false);
return init.result.get();
}
protected:
size_t writePendingTlsData(boost::system::error_code& ec)
{
auto writtenBytes = boost::asio::write(m_nextLayer, this->m_core.sendBuffer(), ec);
this->m_core.consumeSendBuffer(writtenBytes);
return writtenBytes;
}
protected:
StreamLayer m_nextLayer;
};
} // TLS
} // namespace Botan
#endif
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