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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 {
bool check_for_resume(Session& session_info,
Session_Manager& session_manager,
Client_Hello* client_hello)
{
const MemoryVector<byte>& client_session_id = client_hello->session_id();
const MemoryVector<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
{
#warning fixed key
session_info = Session::decrypt(session_ticket, SymmetricKey("ABCDEF"));
}
catch(std::exception& e)
{
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;
}
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", 0 };
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::tr1::function<void (const byte[], size_t)> output_fn,
std::tr1::function<void (const byte[], size_t, Alert)> proc_fn,
std::tr1::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),
policy(policy),
rng(rng),
session_manager(session_manager),
creds(creds),
m_possible_protocols(next_protocols)
{
}
/*
* Send a hello request to the client
*/
void Server::renegotiate()
{
if(state)
return; // currently in handshake
state = new Handshake_State(new Stream_Handshake_Reader);
state->set_expected_next(CLIENT_HELLO);
Hello_Request hello_req(writer);
}
void Server::alert_notify(const Alert& alert)
{
if(alert.type() == Alert::NO_RENEGOTIATION)
{
if(handshake_completed && state)
{
delete state;
state = 0;
}
}
}
/*
* Split up and process handshake messages
*/
void Server::read_handshake(byte rec_type,
const MemoryRegion<byte>& rec_buf)
{
if(rec_type == HANDSHAKE && !state)
{
state = new Handshake_State(new Stream_Handshake_Reader);
state->set_expected_next(CLIENT_HELLO);
}
Channel::read_handshake(rec_type, rec_buf);
}
/*
* Process a handshake message
*/
void Server::process_handshake_msg(Handshake_Type type,
const MemoryRegion<byte>& contents)
{
if(state == 0)
throw Unexpected_Message("Unexpected handshake message from client");
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(type, contents);
}
if(type == CLIENT_HELLO || type == CLIENT_HELLO_SSLV2)
{
state->client_hello = new Client_Hello(contents, type);
m_hostname = state->client_hello->sni_hostname();
Protocol_Version client_version = state->client_hello->version();
if(client_version < policy.min_version())
throw TLS_Exception(Alert::PROTOCOL_VERSION,
"Client version is unacceptable by policy");
if(client_version <= policy.pref_version())
state->set_version(client_version);
else
state->set_version(policy.pref_version());
secure_renegotiation.update(state->client_hello);
writer.set_version(state->version());
reader.set_version(state->version());
Session session_info;
const bool resuming = check_for_resume(session_info,
session_manager,
state->client_hello);
if(resuming)
{
// resume session
state->server_hello = new Server_Hello(
writer,
state->hash,
state->client_hello->session_id(),
Protocol_Version(session_info.version()),
session_info.ciphersuite_code(),
session_info.compression_method(),
session_info.fragment_size(),
secure_renegotiation.supported(),
secure_renegotiation.for_server_hello(),
state->client_hello->supports_session_ticket(),
state->client_hello->next_protocol_notification(),
m_possible_protocols,
rng);
if(session_info.fragment_size())
{
reader.set_maximum_fragment_size(session_info.fragment_size());
writer.set_maximum_fragment_size(session_info.fragment_size());
}
state->suite = Ciphersuite::by_id(state->server_hello->ciphersuite());
state->keys = Session_Keys(state, session_info.master_secret(), true);
if(!handshake_fn(session_info))
{
if(state->server_hello->supports_session_ticket())
state->new_session_ticket = new New_Session_Ticket(writer, state->hash);
else
session_manager.remove_entry(session_info.session_id());
}
// Should only send a new ticket if we need too (eg old session)
if(state->server_hello->supports_session_ticket() && !state->new_session_ticket)
{
state->new_session_ticket =
new New_Session_Ticket(writer, state->hash,
session_info.encrypt(SymmetricKey("ABCDEF"), rng));
}
writer.send(CHANGE_CIPHER_SPEC, 1);
writer.activate(SERVER, state->suite, state->keys,
state->server_hello->compression_method());
state->server_finished = new Finished(writer, 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, creds);
if(m_hostname != "" && cert_chains.empty())
{
send_alert(Alert(Alert::UNRECOGNIZED_NAME));
cert_chains = get_server_certs("", creds);
}
std::vector<std::string> available_cert_types;
for(std::map<std::string, std::vector<X509_Certificate> >::const_iterator i = cert_chains.begin();
i != cert_chains.end(); ++i)
{
if(!i->second.empty())
available_cert_types.push_back(i->first);
}
state->server_hello = new Server_Hello(
writer,
state->hash,
state->version(),
*(state->client_hello),
available_cert_types,
policy,
secure_renegotiation.supported(),
secure_renegotiation.for_server_hello(),
state->client_hello->next_protocol_notification(),
m_possible_protocols,
rng);
if(state->client_hello->fragment_size())
{
reader.set_maximum_fragment_size(state->client_hello->fragment_size());
writer.set_maximum_fragment_size(state->client_hello->fragment_size());
}
state->suite = Ciphersuite::by_id(state->server_hello->ciphersuite());
const std::string sig_algo = state->suite.sig_algo();
const std::string kex_algo = state->suite.kex_algo();
if(sig_algo != "")
{
BOTAN_ASSERT(!cert_chains[sig_algo].empty(),
"Attempting to send empty certificate chain");
state->server_certs = new Certificate(writer,
state->hash,
cert_chains[sig_algo]);
}
Private_Key* private_key = 0;
if(kex_algo == "RSA" || sig_algo != "")
{
private_key = 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")
{
state->server_rsa_kex_key = private_key;
}
else
{
state->server_kex =
new Server_Key_Exchange(writer, state, policy, creds, rng, private_key);
}
std::vector<X509_Certificate> client_auth_CAs =
creds.trusted_certificate_authorities("tls-server", m_hostname);
if(!client_auth_CAs.empty() && state->suite.sig_algo() != "")
{
state->cert_req = new Certificate_Req(writer,
state->hash,
policy,
client_auth_CAs,
state->version());
state->set_expected_next(CERTIFICATE);
}
secure_renegotiation.update(state->server_hello);
/*
* 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(writer, state->hash);
}
}
else if(type == CERTIFICATE)
{
state->client_certs = new Certificate(contents);
// Is this allowed by the protocol?
if(state->client_certs->count() > 1)
throw TLS_Exception(Alert::CERTIFICATE_UNKNOWN,
"Client sent more than one certificate");
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, creds, policy, rng);
state->keys = Session_Keys(state, state->client_kex->pre_master_secret(), false);
}
else if(type == CERTIFICATE_VERIFY)
{
state->client_verify = new Certificate_Verify(contents, state->version());
const std::vector<X509_Certificate>& client_certs =
state->client_certs->cert_chain();
const bool sig_valid =
state->client_verify->verify(client_certs[0], state);
state->hash.update(type, contents);
/*
* 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
{
creds.verify_certificate_chain("tls-server", "", client_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);
reader.activate(SERVER, state->suite, state->keys,
state->server_hello->compression_method());
}
else if(type == NEXT_PROTOCOL)
{
state->set_expected_next(FINISHED);
state->next_protocol = new Next_Protocol(contents);
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(type, contents);
Session session_info(
state->server_hello->session_id(),
state->keys.master_secret(),
state->server_hello->version(),
state->server_hello->ciphersuite(),
state->server_hello->compression_method(),
SERVER,
secure_renegotiation.supported(),
state->server_hello->fragment_size(),
peer_certs,
MemoryVector<byte>(),
m_hostname,
""
);
if(handshake_fn(session_info))
{
if(state->server_hello->supports_session_ticket())
{
state->new_session_ticket =
new New_Session_Ticket(writer, state->hash,
session_info.encrypt(SymmetricKey("ABCDEF"), rng));
}
else
session_manager.save(session_info);
}
if(state->server_hello->supports_session_ticket() && !state->new_session_ticket)
state->new_session_ticket = new New_Session_Ticket(writer, state->hash);
writer.send(CHANGE_CIPHER_SPEC, 1);
writer.activate(SERVER, state->suite, state->keys,
state->server_hello->compression_method());
state->server_finished = new Finished(writer, state, SERVER);
if(state->client_certs && state->client_verify)
peer_certs = state->client_certs->cert_chain();
}
secure_renegotiation.update(state->client_finished,
state->server_finished);
delete state;
state = 0;
handshake_completed = true;
}
else
throw Unexpected_Message("Unknown handshake message received");
}
}
}
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