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|
/*
* TLS Server
* (C) 2004-2011,2012 Jack Lloyd
*
* Released under the terms of the Botan license
*/
#include <botan/tls_server.h>
#include <botan/internal/tls_handshake_state.h>
#include <botan/internal/tls_messages.h>
#include <botan/internal/stl_util.h>
#include <botan/internal/assert.h>
#include <memory>
namespace Botan {
namespace TLS {
namespace {
class Server_Handshake_State : public Handshake_State
{
public:
// using Handshake_State::Handshake_State;
Server_Handshake_State(Handshake_IO* io) : Handshake_State(io) {}
// Used by the server only, in case of RSA key exchange. Not owned
Private_Key* server_rsa_kex_key = nullptr;
/*
* Used by the server to know if resumption should be allowed on
* a server-initiated renegotiation
*/
bool allow_session_resumption = true;
};
bool check_for_resume(Session& session_info,
Session_Manager& session_manager,
Credentials_Manager& credentials,
const Client_Hello* client_hello,
std::chrono::seconds session_ticket_lifetime)
{
const std::vector<byte>& client_session_id = client_hello->session_id();
const std::vector<byte>& session_ticket = client_hello->session_ticket();
if(session_ticket.empty())
{
if(client_session_id.empty()) // not resuming
return false;
// not found
if(!session_manager.load_from_session_id(client_session_id, session_info))
return false;
}
else
{
// If a session ticket was sent, ignore client session ID
try
{
session_info = Session::decrypt(
session_ticket,
credentials.psk("tls-server", "session-ticket", ""));
if(session_ticket_lifetime != std::chrono::seconds(0) &&
session_info.session_age() > session_ticket_lifetime)
return false; // ticket has expired
}
catch(...)
{
return false;
}
}
// wrong version
if(client_hello->version() != session_info.version())
return false;
// client didn't send original ciphersuite
if(!value_exists(client_hello->ciphersuites(),
session_info.ciphersuite_code()))
return false;
// client didn't send original compression method
if(!value_exists(client_hello->compression_methods(),
session_info.compression_method()))
return false;
// client sent a different SRP identity
if(client_hello->srp_identifier() != "")
{
if(client_hello->srp_identifier() != session_info.srp_identifier())
return false;
}
// client sent a different SNI hostname
if(client_hello->sni_hostname() != "")
{
if(client_hello->sni_hostname() != session_info.sni_hostname())
return false;
}
return true;
}
/*
* Choose which ciphersuite to use
*/
u16bit choose_ciphersuite(
const Policy& policy,
Protocol_Version version,
Credentials_Manager& creds,
const std::map<std::string, std::vector<X509_Certificate> >& cert_chains,
const Client_Hello* client_hello)
{
const bool have_srp = creds.attempt_srp("tls-server",
client_hello->sni_hostname());
const std::vector<u16bit> client_suites =
client_hello->ciphersuites();
const std::vector<u16bit> server_suites =
ciphersuite_list(policy, version, have_srp);
if(server_suites.empty())
throw TLS_Exception(Alert::HANDSHAKE_FAILURE,
"Policy forbids us from negotiating any ciphersuite");
const bool have_shared_ecc_curve =
(policy.choose_curve(client_hello->supported_ecc_curves()) != "");
// Ordering by our preferences rather than by clients
for(size_t i = 0; i != server_suites.size(); ++i)
{
const u16bit suite_id = server_suites[i];
if(!value_exists(client_suites, suite_id))
continue;
Ciphersuite suite = Ciphersuite::by_id(suite_id);
if(!have_shared_ecc_curve && suite.ecc_ciphersuite())
continue;
if(suite.sig_algo() != "" && cert_chains.count(suite.sig_algo()) == 0)
continue;
/*
The client may offer SRP cipher suites in the hello message but
omit the SRP extension. If the server would like to select an
SRP cipher suite in this case, the server SHOULD return a fatal
"unknown_psk_identity" alert immediately after processing the
client hello message.
- RFC 5054 section 2.5.1.2
*/
if(suite.kex_algo() == "SRP_SHA" && client_hello->srp_identifier() == "")
throw TLS_Exception(Alert::UNKNOWN_PSK_IDENTITY,
"Client wanted SRP but did not send username");
return suite_id;
}
throw TLS_Exception(Alert::HANDSHAKE_FAILURE,
"Can't agree on a ciphersuite with client");
}
/*
* Choose which compression algorithm to use
*/
byte choose_compression(const Policy& policy,
const std::vector<byte>& c_comp)
{
std::vector<byte> s_comp = policy.compression();
for(size_t i = 0; i != s_comp.size(); ++i)
for(size_t j = 0; j != c_comp.size(); ++j)
if(s_comp[i] == c_comp[j])
return s_comp[i];
return NO_COMPRESSION;
}
std::map<std::string, std::vector<X509_Certificate> >
get_server_certs(const std::string& hostname,
Credentials_Manager& creds)
{
const char* cert_types[] = { "RSA", "DSA", "ECDSA", nullptr };
std::map<std::string, std::vector<X509_Certificate> > cert_chains;
for(size_t i = 0; cert_types[i]; ++i)
{
std::vector<X509_Certificate> certs =
creds.cert_chain_single_type(cert_types[i], "tls-server", hostname);
if(!certs.empty())
cert_chains[cert_types[i]] = certs;
}
return cert_chains;
}
}
/*
* TLS Server Constructor
*/
Server::Server(std::function<void (const byte[], size_t)> output_fn,
std::function<void (const byte[], size_t, Alert)> proc_fn,
std::function<bool (const Session&)> handshake_fn,
Session_Manager& session_manager,
Credentials_Manager& creds,
const Policy& policy,
RandomNumberGenerator& rng,
const std::vector<std::string>& next_protocols) :
Channel(output_fn, proc_fn, handshake_fn, session_manager, rng),
m_policy(policy),
m_creds(creds),
m_possible_protocols(next_protocols)
{
}
Handshake_State* Server::new_handshake_state()
{
using namespace std::placeholders;
Handshake_State* state = new Server_Handshake_State(
new Stream_Handshake_IO(
[this](byte type, const std::vector<byte>& rec)
{ this->send_record(type, rec); }
)
);
state->set_expected_next(CLIENT_HELLO);
return state;
}
/*
* Send a hello request to the client
*/
void Server::renegotiate(bool force_full_renegotiation)
{
if(m_state)
return; // currently in handshake
m_state.reset(new_handshake_state());
dynamic_cast<Server_Handshake_State&>(*m_state).allow_session_resumption =
!force_full_renegotiation;
Hello_Request hello_req(m_state->handshake_io());
}
/*
* Process a handshake message
*/
void Server::process_handshake_msg(Handshake_State& state,
Handshake_Type type,
const std::vector<byte>& contents)
{
state.confirm_transition_to(type);
/*
* The change cipher spec message isn't technically a handshake
* message so it's not included in the hash. The finished and
* certificate verify messages are verified based on the current
* state of the hash *before* this message so we delay adding them
* to the hash computation until we've processed them below.
*/
if(type != HANDSHAKE_CCS && type != FINISHED && type != CERTIFICATE_VERIFY)
{
if(type == CLIENT_HELLO_SSLV2)
state.hash().update(contents);
else
state.hash().update(state.handshake_io().format(contents, type));
}
if(type == CLIENT_HELLO || type == CLIENT_HELLO_SSLV2)
{
if(!m_policy.allow_insecure_renegotiation() &&
!(m_secure_renegotiation.initial_handshake() || m_secure_renegotiation.supported()))
{
send_alert(Alert(Alert::NO_RENEGOTIATION));
return;
}
state.client_hello(new Client_Hello(contents, type));
if(state.client_hello()->sni_hostname() != "")
m_hostname = state.client_hello()->sni_hostname();
Protocol_Version client_version = state.client_hello()->version();
const Protocol_Version prev_version = current_protocol_version();
const bool is_renegotiation = prev_version.valid();
Protocol_Version negotiated_version;
if((is_renegotiation && client_version == prev_version) ||
(!is_renegotiation && client_version.known_version()))
{
/*
Common cases: new client hello with some known version, or a
renegotiation using the same version as previously
negotiated.
*/
negotiated_version = client_version;
}
else if(is_renegotiation && (client_version != prev_version))
{
/*
* If this is a renegotation, and the client has offered a
* later version than what it initially negotiated,
* negotiate the old version. This matches OpenSSL's
* behavior. If the client is offering a version earlier
* than what it initially negotiated, reject as a probable
* attack.
*/
if(prev_version > client_version)
{
throw TLS_Exception(Alert::PROTOCOL_VERSION,
"Client negotiated " +
prev_version.to_string() +
" then renegotiated with " +
client_version.to_string());
}
else
negotiated_version = prev_version;
}
else
{
/*
New negotiation using a version we don't know. Offer
them the best we currently know.
*/
negotiated_version = client_version.best_known_match();
}
if(!m_policy.acceptable_protocol_version(negotiated_version))
{
throw TLS_Exception(Alert::PROTOCOL_VERSION,
"Client version is unacceptable by policy");
}
m_secure_renegotiation.update(state.client_hello());
set_protocol_version(negotiated_version);
heartbeat_support(state.client_hello()->supports_heartbeats(),
state.client_hello()->peer_can_send_heartbeats());
Session session_info;
const bool resuming =
dynamic_cast<Server_Handshake_State&>(state).allow_session_resumption &&
check_for_resume(session_info,
m_session_manager,
m_creds,
state.client_hello(),
std::chrono::seconds(m_policy.session_ticket_lifetime()));
bool have_session_ticket_key = false;
try
{
have_session_ticket_key =
m_creds.psk("tls-server", "session-ticket", "").length() > 0;
}
catch(...) {}
if(resuming)
{
// resume session
const bool offer_new_session_ticket =
(state.client_hello()->supports_session_ticket() &&
state.client_hello()->session_ticket().empty() &&
have_session_ticket_key);
state.server_hello(
new Server_Hello(
state.handshake_io(),
state.hash(),
state.client_hello()->session_id(),
Protocol_Version(session_info.version()),
session_info.ciphersuite_code(),
session_info.compression_method(),
session_info.fragment_size(),
m_secure_renegotiation.supported(),
m_secure_renegotiation.for_server_hello(),
offer_new_session_ticket,
state.client_hello()->next_protocol_notification(),
m_possible_protocols,
state.client_hello()->supports_heartbeats(),
m_rng)
);
m_secure_renegotiation.update(state.server_hello());
if(session_info.fragment_size())
set_maximum_fragment_size(session_info.fragment_size());
state.compute_session_keys(session_info.master_secret());
if(!m_handshake_fn(session_info))
{
m_session_manager.remove_entry(session_info.session_id());
if(state.server_hello()->supports_session_ticket()) // send an empty ticket
{
state.new_session_ticket(
new New_Session_Ticket(state.handshake_io(),
state.hash())
);
}
}
if(state.server_hello()->supports_session_ticket() && !state.new_session_ticket())
{
try
{
const SymmetricKey ticket_key = m_creds.psk("tls-server", "session-ticket", "");
state.new_session_ticket(
new New_Session_Ticket(state.handshake_io(),
state.hash(),
session_info.encrypt(ticket_key, m_rng),
m_policy.session_ticket_lifetime())
);
}
catch(...) {}
if(!state.new_session_ticket())
{
state.new_session_ticket(
new New_Session_Ticket(state.handshake_io(), state.hash())
);
}
}
state.handshake_io().send(Change_Cipher_Spec());
change_cipher_spec_writer(SERVER);
state.server_finished(
new Finished(state.handshake_io(), state, SERVER)
);
state.set_expected_next(HANDSHAKE_CCS);
}
else // new session
{
std::map<std::string, std::vector<X509_Certificate> > cert_chains;
cert_chains = get_server_certs(m_hostname, m_creds);
if(m_hostname != "" && cert_chains.empty())
{
cert_chains = get_server_certs("", m_creds);
/*
* Only send the unrecognized_name alert if we couldn't
* find any certs for the requested name but did find at
* least one cert to use in general. That avoids sending an
* unrecognized_name when a server is configured for purely
* anonymous operation.
*/
if(!cert_chains.empty())
send_alert(Alert(Alert::UNRECOGNIZED_NAME));
}
state.server_hello(
new Server_Hello(
state.handshake_io(),
state.hash(),
make_hello_random(m_rng), // new session ID
state.version(),
choose_ciphersuite(m_policy,
state.version(),
m_creds,
cert_chains,
state.client_hello()),
choose_compression(m_policy, state.client_hello()->compression_methods()),
state.client_hello()->fragment_size(),
m_secure_renegotiation.supported(),
m_secure_renegotiation.for_server_hello(),
state.client_hello()->supports_session_ticket() && have_session_ticket_key,
state.client_hello()->next_protocol_notification(),
m_possible_protocols,
state.client_hello()->supports_heartbeats(),
m_rng)
);
m_secure_renegotiation.update(state.server_hello());
if(state.client_hello()->fragment_size())
set_maximum_fragment_size(state.client_hello()->fragment_size());
const std::string sig_algo = state.ciphersuite().sig_algo();
const std::string kex_algo = state.ciphersuite().kex_algo();
if(sig_algo != "")
{
BOTAN_ASSERT(!cert_chains[sig_algo].empty(),
"Attempting to send empty certificate chain");
state.server_certs(
new Certificate(state.handshake_io(),
state.hash(),
cert_chains[sig_algo])
);
}
Private_Key* private_key = nullptr;
if(kex_algo == "RSA" || sig_algo != "")
{
private_key = m_creds.private_key_for(
state.server_certs()->cert_chain()[0],
"tls-server",
m_hostname);
if(!private_key)
throw Internal_Error("No private key located for associated server cert");
}
if(kex_algo == "RSA")
{
dynamic_cast<Server_Handshake_State&>(state).server_rsa_kex_key = private_key;
}
else
{
state.server_kex(
new Server_Key_Exchange(state.handshake_io(),
state,
m_policy,
m_creds,
m_rng,
private_key)
);
}
std::vector<X509_Certificate> client_auth_CAs =
m_creds.trusted_certificate_authorities("tls-server", m_hostname);
if(!client_auth_CAs.empty() && state.ciphersuite().sig_algo() != "")
{
state.cert_req(
new Certificate_Req(state.handshake_io(),
state.hash(),
m_policy,
client_auth_CAs,
state.version())
);
state.set_expected_next(CERTIFICATE);
}
/*
* If the client doesn't have a cert they want to use they are
* allowed to send either an empty cert message or proceed
* directly to the client key exchange, so allow either case.
*/
state.set_expected_next(CLIENT_KEX);
state.server_hello_done(
new Server_Hello_Done(state.handshake_io(), state.hash())
);
}
}
else if(type == CERTIFICATE)
{
state.client_certs(new Certificate(contents));
state.set_expected_next(CLIENT_KEX);
}
else if(type == CLIENT_KEX)
{
if(state.received_handshake_msg(CERTIFICATE) && !state.client_certs()->empty())
state.set_expected_next(CERTIFICATE_VERIFY);
else
state.set_expected_next(HANDSHAKE_CCS);
state.client_kex(
new Client_Key_Exchange(contents, state,
dynamic_cast<Server_Handshake_State&>(state).server_rsa_kex_key,
m_creds, m_policy, m_rng)
);
state.compute_session_keys();
}
else if(type == CERTIFICATE_VERIFY)
{
state.client_verify(new Certificate_Verify(contents, state.version()));
m_peer_certs = state.client_certs()->cert_chain();
const bool sig_valid =
state.client_verify()->verify(m_peer_certs[0], state);
state.hash().update(state.handshake_io().format(contents, type));
/*
* Using DECRYPT_ERROR looks weird here, but per RFC 4346 is for
* "A handshake cryptographic operation failed, including being
* unable to correctly verify a signature, ..."
*/
if(!sig_valid)
throw TLS_Exception(Alert::DECRYPT_ERROR, "Client cert verify failed");
try
{
m_creds.verify_certificate_chain("tls-server", "", m_peer_certs);
}
catch(std::exception& e)
{
throw TLS_Exception(Alert::BAD_CERTIFICATE, e.what());
}
state.set_expected_next(HANDSHAKE_CCS);
}
else if(type == HANDSHAKE_CCS)
{
if(state.server_hello()->next_protocol_notification())
state.set_expected_next(NEXT_PROTOCOL);
else
state.set_expected_next(FINISHED);
change_cipher_spec_reader(SERVER);
}
else if(type == NEXT_PROTOCOL)
{
state.set_expected_next(FINISHED);
state.next_protocol(new Next_Protocol(contents));
// should this be a callback?
m_next_protocol = state.next_protocol()->protocol();
}
else if(type == FINISHED)
{
state.set_expected_next(HANDSHAKE_NONE);
state.client_finished(new Finished(contents));
if(!state.client_finished()->verify(state, CLIENT))
throw TLS_Exception(Alert::DECRYPT_ERROR,
"Finished message didn't verify");
if(!state.server_finished())
{
// already sent finished if resuming, so this is a new session
state.hash().update(state.handshake_io().format(contents, type));
Session session_info(
state.server_hello()->session_id(),
state.session_keys().master_secret(),
state.server_hello()->version(),
state.server_hello()->ciphersuite(),
state.server_hello()->compression_method(),
SERVER,
m_secure_renegotiation.supported(),
state.server_hello()->fragment_size(),
m_peer_certs,
std::vector<byte>(),
m_hostname,
state.srp_identifier()
);
if(m_handshake_fn(session_info))
{
if(state.server_hello()->supports_session_ticket())
{
try
{
const SymmetricKey ticket_key = m_creds.psk("tls-server", "session-ticket", "");
state.new_session_ticket(
new New_Session_Ticket(state.handshake_io(),
state.hash(),
session_info.encrypt(ticket_key, m_rng),
m_policy.session_ticket_lifetime())
);
}
catch(...) {}
}
else
m_session_manager.save(session_info);
}
if(!state.new_session_ticket() &&
state.server_hello()->supports_session_ticket())
{
state.new_session_ticket(
new New_Session_Ticket(state.handshake_io(), state.hash())
);
}
state.handshake_io().send(Change_Cipher_Spec());
change_cipher_spec_writer(SERVER);
state.server_finished(
new Finished(state.handshake_io(), state, SERVER)
);
}
activate_session(state.server_hello()->session_id());
}
else
throw Unexpected_Message("Unknown handshake message received");
}
}
}
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