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/*
* TLS Channels
* (C) 2011,2012,2014,2015 Jack Lloyd
*
* Botan is released under the Simplified BSD License (see license.txt)
*/
#include <botan/tls_channel.h>
#include <botan/internal/tls_handshake_state.h>
#include <botan/internal/tls_messages.h>
#include <botan/internal/tls_record.h>
#include <botan/internal/tls_seq_numbers.h>
#include <botan/internal/rounding.h>
#include <botan/internal/stl_util.h>
#include <botan/loadstor.h>
namespace Botan {
namespace TLS {
Channel::Channel(output_fn output_fn,
data_cb data_cb,
alert_cb alert_cb,
handshake_cb handshake_cb,
handshake_msg_cb handshake_msg_cb,
Session_Manager& session_manager,
RandomNumberGenerator& rng,
const Policy& policy,
bool is_datagram,
size_t reserved_io_buffer_size) :
m_is_datagram(is_datagram),
m_data_cb(data_cb),
m_alert_cb(alert_cb),
m_output_fn(output_fn),
m_handshake_cb(handshake_cb),
m_handshake_msg_cb(handshake_msg_cb),
m_session_manager(session_manager),
m_policy(policy),
m_rng(rng)
{
/* epoch 0 is plaintext, thus null cipher state */
m_write_cipher_states[0] = nullptr;
m_read_cipher_states[0] = nullptr;
m_writebuf.reserve(reserved_io_buffer_size);
m_readbuf.reserve(reserved_io_buffer_size);
}
void Channel::reset_state()
{
m_active_state.reset();
m_pending_state.reset();
m_readbuf.clear();
m_write_cipher_states.clear();
m_read_cipher_states.clear();
}
Channel::~Channel()
{
// So unique_ptr destructors run correctly
}
Connection_Sequence_Numbers& Channel::sequence_numbers() const
{
BOTAN_ASSERT(m_sequence_numbers, "Have a sequence numbers object");
return *m_sequence_numbers;
}
std::shared_ptr<Connection_Cipher_State> Channel::read_cipher_state_epoch(u16bit epoch) const
{
auto i = m_read_cipher_states.find(epoch);
if(i == m_read_cipher_states.end())
throw Internal_Error("TLS::Channel No read cipherstate for epoch " + std::to_string(epoch));
return i->second;
}
std::shared_ptr<Connection_Cipher_State> Channel::write_cipher_state_epoch(u16bit epoch) const
{
auto i = m_write_cipher_states.find(epoch);
if(i == m_write_cipher_states.end())
throw Internal_Error("TLS::Channel No write cipherstate for epoch " + std::to_string(epoch));
return i->second;
}
std::vector<X509_Certificate> Channel::peer_cert_chain() const
{
if(auto active = active_state())
return get_peer_cert_chain(*active);
return std::vector<X509_Certificate>();
}
Handshake_State& Channel::create_handshake_state(Protocol_Version version)
{
if(pending_state())
throw Internal_Error("create_handshake_state called during handshake");
if(auto active = active_state())
{
Protocol_Version active_version = active->version();
if(active_version.is_datagram_protocol() != version.is_datagram_protocol())
throw Exception("Active state using version " +
active_version.to_string() +
" cannot change to " +
version.to_string() +
" in pending");
}
if(!m_sequence_numbers)
{
if(version.is_datagram_protocol())
m_sequence_numbers.reset(new Datagram_Sequence_Numbers);
else
m_sequence_numbers.reset(new Stream_Sequence_Numbers);
}
using namespace std::placeholders;
std::unique_ptr<Handshake_IO> io;
if(version.is_datagram_protocol())
{
io.reset(new Datagram_Handshake_IO(
std::bind(&Channel::send_record_under_epoch, this, _1, _2, _3),
sequence_numbers(),
static_cast<u16bit>(m_policy.dtls_default_mtu()),
m_policy.dtls_initial_timeout(),
m_policy.dtls_maximum_timeout()));
}
else
{
io.reset(new Stream_Handshake_IO(std::bind(&Channel::send_record, this, _1, _2)));
}
m_pending_state.reset(new_handshake_state(io.release()));
if(auto active = active_state())
m_pending_state->set_version(active->version());
return *m_pending_state.get();
}
bool Channel::timeout_check()
{
if(m_pending_state)
return m_pending_state->handshake_io().timeout_check();
//FIXME: scan cipher suites and remove epochs older than 2*MSL
return false;
}
void Channel::renegotiate(bool force_full_renegotiation)
{
if(pending_state()) // currently in handshake?
return;
if(auto active = active_state())
initiate_handshake(create_handshake_state(active->version()),
force_full_renegotiation);
else
throw Exception("Cannot renegotiate on inactive connection");
}
void Channel::change_cipher_spec_reader(Connection_Side side)
{
auto pending = pending_state();
BOTAN_ASSERT(pending && pending->server_hello(),
"Have received server hello");
if(pending->server_hello()->compression_method() != NO_COMPRESSION)
throw Internal_Error("Negotiated unknown compression algorithm");
sequence_numbers().new_read_cipher_state();
const u16bit epoch = sequence_numbers().current_read_epoch();
BOTAN_ASSERT(m_read_cipher_states.count(epoch) == 0,
"No read cipher state currently set for next epoch");
// flip side as we are reading
std::shared_ptr<Connection_Cipher_State> read_state(
new Connection_Cipher_State(pending->version(),
(side == CLIENT) ? SERVER : CLIENT,
false,
pending->ciphersuite(),
pending->session_keys(),
pending->server_hello()->supports_encrypt_then_mac()));
m_read_cipher_states[epoch] = read_state;
}
void Channel::change_cipher_spec_writer(Connection_Side side)
{
auto pending = pending_state();
BOTAN_ASSERT(pending && pending->server_hello(),
"Have received server hello");
if(pending->server_hello()->compression_method() != NO_COMPRESSION)
throw Internal_Error("Negotiated unknown compression algorithm");
sequence_numbers().new_write_cipher_state();
const u16bit epoch = sequence_numbers().current_write_epoch();
BOTAN_ASSERT(m_write_cipher_states.count(epoch) == 0,
"No write cipher state currently set for next epoch");
std::shared_ptr<Connection_Cipher_State> write_state(
new Connection_Cipher_State(pending->version(),
side,
true,
pending->ciphersuite(),
pending->session_keys(),
pending->server_hello()->supports_encrypt_then_mac()));
m_write_cipher_states[epoch] = write_state;
}
bool Channel::is_active() const
{
return (active_state() != nullptr);
}
bool Channel::is_closed() const
{
if(active_state() || pending_state())
return false;
/*
* If no active or pending state, then either we had a connection
* and it has been closed, or we are a server which has never
* received a connection. This case is detectable by also lacking
* m_sequence_numbers
*/
return (m_sequence_numbers != nullptr);
}
void Channel::activate_session()
{
std::swap(m_active_state, m_pending_state);
m_pending_state.reset();
if(!m_active_state->version().is_datagram_protocol())
{
// TLS is easy just remove all but the current state
auto current_epoch = sequence_numbers().current_write_epoch();
const auto not_current_epoch =
[current_epoch](u16bit epoch) { return (epoch != current_epoch); };
map_remove_if(not_current_epoch, m_write_cipher_states);
map_remove_if(not_current_epoch, m_read_cipher_states);
}
}
size_t Channel::received_data(const std::vector<byte>& buf)
{
return this->received_data(buf.data(), buf.size());
}
size_t Channel::received_data(const byte input[], size_t input_size)
{
try
{
while(!is_closed() && input_size)
{
secure_vector<byte> record;
u64bit record_sequence = 0;
Record_Type record_type = NO_RECORD;
Protocol_Version record_version;
size_t consumed = 0;
const size_t needed =
read_record(m_readbuf,
input,
input_size,
m_is_datagram,
consumed,
record,
&record_sequence,
&record_version,
&record_type,
m_sequence_numbers.get(),
std::bind(&TLS::Channel::read_cipher_state_epoch, this,
std::placeholders::_1));
BOTAN_ASSERT(consumed > 0, "Got to eat something");
BOTAN_ASSERT(consumed <= input_size,
"Record reader consumed sane amount");
input += consumed;
input_size -= consumed;
BOTAN_ASSERT(input_size == 0 || needed == 0,
"Got a full record or consumed all input");
if(input_size == 0 && needed != 0)
return needed; // need more data to complete record
if(record.size() > MAX_PLAINTEXT_SIZE)
throw TLS_Exception(Alert::RECORD_OVERFLOW,
"TLS plaintext record is larger than allowed maximum");
if(record_type == HANDSHAKE || record_type == CHANGE_CIPHER_SPEC)
{
if(!m_pending_state)
{
// No pending handshake, possibly new:
if(record_version.is_datagram_protocol())
{
if(m_sequence_numbers)
{
/*
* Might be a peer retransmit under epoch - 1 in which
* case we must retransmit last flight
*/
sequence_numbers().read_accept(record_sequence);
const u16bit epoch = record_sequence >> 48;
if(epoch == sequence_numbers().current_read_epoch())
{
create_handshake_state(record_version);
}
else if(epoch == sequence_numbers().current_read_epoch() - 1)
{
BOTAN_ASSERT(m_active_state, "Have active state here");
m_active_state->handshake_io().add_record(unlock(record),
record_type,
record_sequence);
}
}
else if(record_sequence == 0)
{
create_handshake_state(record_version);
}
}
else
{
create_handshake_state(record_version);
}
}
// May have been created in above conditional
if(m_pending_state)
{
m_pending_state->handshake_io().add_record(unlock(record),
record_type,
record_sequence);
while(auto pending = m_pending_state.get())
{
auto msg = pending->get_next_handshake_msg();
if(msg.first == HANDSHAKE_NONE) // no full handshake yet
break;
process_handshake_msg(active_state(), *pending,
msg.first, msg.second);
}
}
}
else if(record_type == APPLICATION_DATA)
{
if(!active_state())
throw Unexpected_Message("Application data before handshake done");
/*
* 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_data_cb(record.data(), record.size());
}
else if(record_type == ALERT)
{
Alert alert_msg(record);
if(alert_msg.type() == Alert::NO_RENEGOTIATION)
m_pending_state.reset();
m_alert_cb(alert_msg, nullptr, 0);
if(alert_msg.is_fatal())
{
if(auto active = active_state())
m_session_manager.remove_entry(active->server_hello()->session_id());
}
if(alert_msg.type() == Alert::CLOSE_NOTIFY)
send_warning_alert(Alert::CLOSE_NOTIFY); // reply in kind
if(alert_msg.type() == Alert::CLOSE_NOTIFY || alert_msg.is_fatal())
{
reset_state();
return 0;
}
}
else if(record_type != NO_RECORD)
throw Unexpected_Message("Unexpected record type " +
std::to_string(record_type) +
" from counterparty");
}
return 0; // on a record boundary
}
catch(TLS_Exception& e)
{
send_fatal_alert(e.type());
throw;
}
catch(Integrity_Failure&)
{
send_fatal_alert(Alert::BAD_RECORD_MAC);
throw;
}
catch(Decoding_Error&)
{
send_fatal_alert(Alert::DECODE_ERROR);
throw;
}
catch(...)
{
send_fatal_alert(Alert::INTERNAL_ERROR);
throw;
}
}
void Channel::write_record(Connection_Cipher_State* cipher_state, u16bit epoch,
byte record_type, const byte input[], size_t length)
{
BOTAN_ASSERT(m_pending_state || m_active_state, "Some connection state exists");
Protocol_Version record_version =
(m_pending_state) ? (m_pending_state->version()) : (m_active_state->version());
TLS::write_record(m_writebuf,
record_type,
input,
length,
record_version,
sequence_numbers().next_write_sequence(epoch),
cipher_state,
m_rng);
m_output_fn(m_writebuf.data(), m_writebuf.size());
}
void Channel::send_record_array(u16bit epoch, byte type, const byte input[], size_t length)
{
if(length == 0)
return;
/*
* If using CBC mode without an explicit IV (SSL v3 or TLS v1.0),
* send a single byte of plaintext to randomize the (implicit) IV of
* the following main block. If using a stream cipher, or TLS v1.1
* or higher, this isn't necessary.
*
* An empty record also works but apparently some implementations do
* not like this (https://bugzilla.mozilla.org/show_bug.cgi?id=665814)
*
* See http://www.openssl.org/~bodo/tls-cbc.txt for background.
*/
auto cipher_state = write_cipher_state_epoch(epoch);
if(type == APPLICATION_DATA && cipher_state->cbc_without_explicit_iv())
{
write_record(cipher_state.get(), epoch, type, input, 1);
input += 1;
length -= 1;
}
while(length)
{
const size_t sending = std::min<size_t>(length, MAX_PLAINTEXT_SIZE);
write_record(cipher_state.get(), epoch, type, input, sending);
input += sending;
length -= sending;
}
}
void Channel::send_record(byte record_type, const std::vector<byte>& record)
{
send_record_array(sequence_numbers().current_write_epoch(),
record_type, record.data(), record.size());
}
void Channel::send_record_under_epoch(u16bit epoch, byte record_type,
const std::vector<byte>& record)
{
send_record_array(epoch, record_type, record.data(), record.size());
}
void Channel::send(const byte buf[], size_t buf_size)
{
if(!is_active())
throw Exception("Data cannot be sent on inactive TLS connection");
send_record_array(sequence_numbers().current_write_epoch(),
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() && !is_closed())
{
try
{
send_record(ALERT, alert.serialize());
}
catch(...) { /* swallow it */ }
}
if(alert.type() == Alert::NO_RENEGOTIATION)
m_pending_state.reset();
if(alert.is_fatal())
if(auto active = active_state())
m_session_manager.remove_entry(active->server_hello()->session_id());
if(alert.type() == Alert::CLOSE_NOTIFY || alert.is_fatal())
reset_state();
}
void Channel::secure_renegotiation_check(const Client_Hello* client_hello)
{
const bool secure_renegotiation = client_hello->secure_renegotiation();
if(auto active = active_state())
{
const bool active_sr = active->client_hello()->secure_renegotiation();
if(active_sr != secure_renegotiation)
throw TLS_Exception(Alert::HANDSHAKE_FAILURE,
"Client changed its mind about secure renegotiation");
}
if(secure_renegotiation)
{
const std::vector<byte>& data = client_hello->renegotiation_info();
if(data != secure_renegotiation_data_for_client_hello())
throw TLS_Exception(Alert::HANDSHAKE_FAILURE,
"Client sent bad values for secure renegotiation");
}
}
void Channel::secure_renegotiation_check(const Server_Hello* server_hello)
{
const bool secure_renegotiation = server_hello->secure_renegotiation();
if(auto active = active_state())
{
const bool active_sr = active->client_hello()->secure_renegotiation();
if(active_sr != secure_renegotiation)
throw TLS_Exception(Alert::HANDSHAKE_FAILURE,
"Server changed its mind about secure renegotiation");
}
if(secure_renegotiation)
{
const std::vector<byte>& data = server_hello->renegotiation_info();
if(data != secure_renegotiation_data_for_server_hello())
throw TLS_Exception(Alert::HANDSHAKE_FAILURE,
"Server sent bad values for secure renegotiation");
}
}
std::vector<byte> Channel::secure_renegotiation_data_for_client_hello() const
{
if(auto active = active_state())
return active->client_finished()->verify_data();
return std::vector<byte>();
}
std::vector<byte> Channel::secure_renegotiation_data_for_server_hello() const
{
if(auto active = active_state())
{
std::vector<byte> buf = active->client_finished()->verify_data();
buf += active->server_finished()->verify_data();
return buf;
}
return std::vector<byte>();
}
bool Channel::secure_renegotiation_supported() const
{
if(auto active = active_state())
return active->server_hello()->secure_renegotiation();
if(auto pending = pending_state())
if(auto hello = pending->server_hello())
return hello->secure_renegotiation();
return false;
}
SymmetricKey Channel::key_material_export(const std::string& label,
const std::string& context,
size_t length) const
{
if(auto active = active_state())
{
std::unique_ptr<KDF> prf(active->protocol_specific_prf());
const secure_vector<byte>& master_secret =
active->session_keys().master_secret();
std::vector<byte> salt;
salt += to_byte_vector(label);
salt += active->client_hello()->random();
salt += active->server_hello()->random();
if(context != "")
{
size_t context_size = context.length();
if(context_size > 0xFFFF)
throw Exception("key_material_export context is too long");
salt.push_back(get_byte(0, static_cast<u16bit>(context_size)));
salt.push_back(get_byte(1, static_cast<u16bit>(context_size)));
salt += to_byte_vector(context);
}
return prf->derive_key(length, master_secret, salt);
}
else
throw Exception("Channel::key_material_export connection not active");
}
}
}
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