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/*
* TLS Channels
* (C) 2011-2012 Jack Lloyd
*
* Released under the terms of the Botan license
*/
#include <botan/tls_channel.h>
#include <botan/internal/tls_handshake_state.h>
#include <botan/internal/tls_messages.h>
#include <botan/internal/tls_heartbeats.h>
#include <botan/internal/assert.h>
#include <botan/loadstor.h>
namespace Botan {
namespace TLS {
Channel::Channel(std::function<void (const byte[], size_t)> socket_output_fn,
std::function<void (const byte[], size_t, Alert)> proc_fn,
std::function<bool (const Session&)> handshake_complete,
Session_Manager& session_manager,
RandomNumberGenerator& rng) :
m_proc_fn(proc_fn),
m_handshake_fn(handshake_complete),
m_state(nullptr),
m_session_manager(session_manager),
m_writer(socket_output_fn, rng),
m_handshake_completed(false),
m_connection_closed(false),
m_peer_supports_heartbeats(false),
m_heartbeat_sending_allowed(false)
{
}
Channel::~Channel()
{
delete m_state;
m_state = nullptr;
}
size_t Channel::received_data(const byte buf[], size_t buf_size)
{
try
{
while(buf_size)
{
byte rec_type = CONNECTION_CLOSED;
std::vector<byte> record;
size_t consumed = 0;
const size_t needed = m_reader.add_input(buf, buf_size,
consumed,
rec_type, record);
BOTAN_ASSERT(consumed <= buf_size,
"Record reader consumed sane amount");
buf += consumed;
buf_size -= consumed;
BOTAN_ASSERT(buf_size == 0 || needed == 0,
"Got a full record or consumed all input");
if(buf_size == 0 && needed != 0)
return needed; // need more data to complete record
if(rec_type == HANDSHAKE || rec_type == CHANGE_CIPHER_SPEC)
{
read_handshake(rec_type, record);
}
else if(rec_type == HEARTBEAT && m_peer_supports_heartbeats)
{
Heartbeat_Message heartbeat(record);
const std::vector<byte>& payload = heartbeat.payload();
if(heartbeat.is_request() && !m_state)
{
Heartbeat_Message response(Heartbeat_Message::RESPONSE,
&payload[0], payload.size());
m_writer.send(HEARTBEAT, response.contents());
}
else
{
// pass up to the application
m_proc_fn(&payload[0], payload.size(), Alert(Alert::HEARTBEAT_PAYLOAD));
}
}
else if(rec_type == APPLICATION_DATA)
{
if(m_handshake_completed)
{
/*
* OpenSSL among others sends empty records in versions
* before TLS v1.1 in order to randomize the IV of the
* following record. Avoid spurious callbacks.
*/
if(record.size() > 0)
m_proc_fn(&record[0], record.size(), Alert());
}
else
{
throw Unexpected_Message("Application data before handshake done");
}
}
else if(rec_type == ALERT)
{
Alert alert_msg(record);
alert_notify(alert_msg);
m_proc_fn(nullptr, 0, alert_msg);
if(alert_msg.type() == Alert::CLOSE_NOTIFY)
{
if(m_connection_closed)
m_reader.reset();
else
send_alert(Alert(Alert::CLOSE_NOTIFY)); // reply in kind
}
else if(alert_msg.is_fatal())
{
// delete state immediately
if(!m_active_session.empty())
{
m_session_manager.remove_entry(m_active_session);
m_active_session.clear();
}
m_connection_closed = true;
delete m_state;
m_state = nullptr;
m_writer.reset();
m_reader.reset();
}
}
else
throw Unexpected_Message("Unknown TLS message type " +
std::to_string(rec_type) + " received");
}
return 0; // on a record boundary
}
catch(TLS_Exception& e)
{
send_alert(Alert(e.type(), true));
throw;
}
catch(Decoding_Error& e)
{
send_alert(Alert(Alert::DECODE_ERROR, true));
throw;
}
catch(Internal_Error& e)
{
send_alert(Alert(Alert::INTERNAL_ERROR, true));
throw;
}
catch(std::exception& e)
{
send_alert(Alert(Alert::INTERNAL_ERROR, true));
throw;
}
}
/*
* Split up and process handshake messages
*/
void Channel::read_handshake(byte rec_type,
const std::vector<byte>& rec_buf)
{
if(rec_type == HANDSHAKE)
{
if(!m_state)
m_state = new_handshake_state();
m_state->handshake_reader().add_input(&rec_buf[0], rec_buf.size());
}
BOTAN_ASSERT_NONNULL(m_state);
while(true)
{
Handshake_Type type = HANDSHAKE_NONE;
if(rec_type == HANDSHAKE)
{
if(m_state->handshake_reader().have_full_record())
{
std::pair<Handshake_Type, std::vector<byte> > msg =
m_state->handshake_reader().get_next_record();
process_handshake_msg(msg.first, msg.second);
}
else
break;
}
else if(rec_type == CHANGE_CIPHER_SPEC)
{
if(m_state->handshake_reader().empty() && rec_buf.size() == 1 && rec_buf[0] == 1)
process_handshake_msg(HANDSHAKE_CCS, std::vector<byte>());
else
throw Decoding_Error("Malformed ChangeCipherSpec message");
}
else
throw Decoding_Error("Unknown message type in handshake processing");
if(type == HANDSHAKE_CCS || !m_state || !m_state->handshake_reader().have_full_record())
break;
}
}
void Channel::heartbeat(const byte payload[], size_t payload_size)
{
if(!is_active())
throw std::runtime_error("Heartbeat cannot be sent on inactive TLS connection");
if(m_heartbeat_sending_allowed)
{
Heartbeat_Message heartbeat(Heartbeat_Message::REQUEST,
payload, payload_size);
m_writer.send(HEARTBEAT, heartbeat.contents());
}
}
void Channel::send(const byte buf[], size_t buf_size)
{
if(!is_active())
throw std::runtime_error("Data cannot be sent on inactive TLS connection");
m_writer.send(APPLICATION_DATA, buf, buf_size);
}
void Channel::send(const std::string& string)
{
this->send(reinterpret_cast<const byte*>(string.c_str()), string.size());
}
void Channel::send_alert(const Alert& alert)
{
if(alert.is_valid() && !m_connection_closed)
{
try
{
m_writer.send_alert(alert);
}
catch(...) { /* swallow it */ }
}
if(alert.is_fatal() && !m_active_session.empty())
{
m_session_manager.remove_entry(m_active_session);
m_active_session.clear();
}
if(!m_connection_closed && (alert.type() == Alert::CLOSE_NOTIFY || alert.is_fatal()))
{
m_connection_closed = true;
delete m_state;
m_state = nullptr;
m_writer.reset();
}
}
void Channel::Secure_Renegotiation_State::update(Client_Hello* client_hello)
{
if(initial_handshake())
{
m_secure_renegotiation = client_hello->secure_renegotiation();
}
else
{
if(supported() && !client_hello->secure_renegotiation())
throw TLS_Exception(Alert::HANDSHAKE_FAILURE,
"Client changed its mind about secure renegotiation");
}
if(client_hello->secure_renegotiation())
{
const std::vector<byte>& data = client_hello->renegotiation_info();
if(initial_handshake())
{
if(!data.empty())
throw TLS_Exception(Alert::HANDSHAKE_FAILURE,
"Client sent renegotiation data on initial handshake");
}
else
{
if(data != for_client_hello())
throw TLS_Exception(Alert::HANDSHAKE_FAILURE,
"Client sent bad renegotiation data");
}
}
}
void Channel::Secure_Renegotiation_State::update(Server_Hello* server_hello)
{
if(initial_handshake())
{
/* If the client offered but server rejected, then this toggles
* secure_renegotiation to off
*/
if(m_secure_renegotiation)
m_secure_renegotiation = server_hello->secure_renegotiation();
}
else
{
if(supported() != server_hello->secure_renegotiation())
throw TLS_Exception(Alert::HANDSHAKE_FAILURE,
"Server changed its mind about secure renegotiation");
}
if(supported())
{
const std::vector<byte>& data = server_hello->renegotiation_info();
if(initial_handshake())
{
if(!data.empty())
throw TLS_Exception(Alert::HANDSHAKE_FAILURE,
"Server sent renegotiation data on initial handshake");
}
else
{
if(data != for_server_hello())
throw TLS_Exception(Alert::HANDSHAKE_FAILURE,
"Server sent bad renegotiation data");
}
}
m_initial_handshake = false;
}
void Channel::Secure_Renegotiation_State::update(Finished* client_finished,
Finished* server_finished)
{
m_client_verify = client_finished->verify_data();
m_server_verify = server_finished->verify_data();
}
}
}
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