use msgs::enums::{ContentType, HandshakeType, ProtocolVersion};
use msgs::enums::{Compression, NamedGroup, ECPointFormat, CipherSuite};
use msgs::enums::{ExtensionType, AlertDescription};
use msgs::enums::{ClientCertificateType, SignatureScheme, PSKKeyExchangeMode};
use msgs::message::{Message, MessagePayload};
use msgs::base::{Payload, PayloadU8};
use msgs::handshake::{HandshakePayload, SupportedSignatureSchemes};
use msgs::handshake::{HandshakeMessagePayload, ServerHelloPayload, Random};
use msgs::handshake::{ClientHelloPayload, ServerExtension, SessionID};
use msgs::handshake::{ConvertProtocolNameList, ConvertServerNameList};
use msgs::handshake::{NamedGroups, SupportedGroups, ClientExtension};
use msgs::handshake::{ECPointFormatList, SupportedPointFormats};
use msgs::handshake::{ServerECDHParams, DigitallySignedStruct};
use msgs::handshake::{ServerKeyExchangePayload, ECDHEServerKeyExchange};
use msgs::handshake::{CertificateRequestPayload, NewSessionTicketPayload};
use msgs::handshake::{CertificateRequestPayloadTLS13, NewSessionTicketPayloadTLS13};
use msgs::handshake::{HelloRetryRequest, HelloRetryExtension, KeyShareEntry};
use msgs::handshake::{CertificatePayloadTLS13, CertificateEntry};
use msgs::handshake::{CertificateStatus, CertificateExtension};
use msgs::handshake::SupportedMandatedSignatureSchemes;
use msgs::ccs::ChangeCipherSpecPayload;
use msgs::codec::Codec;
use msgs::persist;
use session::SessionSecrets;
use cipher;
use server::ServerSessionImpl;
use key_schedule::{KeySchedule, SecretKind};
use suites;
use hash_hs;
use verify;
use util;
use rand;
use sign;
use error::TLSError;
use handshake::{check_handshake_message, check_message};
use server::common::{HandshakeDetails, ServerKXDetails, ClientCertDetails};
use ring::constant_time;
macro_rules! extract_handshake(
( $m:expr, $t:path ) => (
match $m.payload {
MessagePayload::Handshake(ref hsp) => match hsp.payload {
$t(ref hm) => Some(hm),
_ => None
},
_ => None
}
)
);
type CheckResult = Result<(), TLSError>;
type StateResult = Result<Box<State + Send>, TLSError>;
pub trait State {
fn check_message(&self, m: &Message) -> CheckResult;
fn handle(self: Box<Self>, sess: &mut ServerSessionImpl, m: Message) -> StateResult;
}
fn incompatible(sess: &mut ServerSessionImpl, why: &str) -> TLSError {
sess.common.send_fatal_alert(AlertDescription::HandshakeFailure);
TLSError::PeerIncompatibleError(why.to_string())
}
fn illegal_param(sess: &mut ServerSessionImpl, why: &str) -> TLSError {
sess.common.send_fatal_alert(AlertDescription::IllegalParameter);
TLSError::PeerMisbehavedError(why.to_string())
}
fn decode_error(sess: &mut ServerSessionImpl, why: &str) -> TLSError {
sess.common.send_fatal_alert(AlertDescription::DecodeError);
TLSError::PeerMisbehavedError(why.to_string())
}
fn can_resume(sess: &ServerSessionImpl,
handshake: &HandshakeDetails,
resumedata: &Option<persist::ServerSessionValue>) -> bool {
if let Some(ref resume) = *resumedata {
resume.cipher_suite == sess.common.get_suite().suite &&
(resume.extended_ms == handshake.using_ems ||
(resume.extended_ms && !handshake.using_ems))
} else {
false
}
}
fn check_aligned_handshake(sess: &mut ServerSessionImpl) -> Result<(), TLSError> {
if !sess.common.handshake_joiner.is_empty() {
Err(illegal_param(sess, "keys changed with pending hs fragment"))
} else {
Ok(())
}
}
pub struct ExpectClientHello {
handshake: HandshakeDetails,
done_retry: bool,
send_cert_status: bool,
send_sct: bool,
send_ticket: bool,
}
impl ExpectClientHello {
pub fn new(perhaps_client_auth: bool) -> ExpectClientHello {
let mut ret = ExpectClientHello {
handshake: HandshakeDetails::new(),
done_retry: false,
send_cert_status: false,
send_sct: false,
send_ticket: false,
};
if perhaps_client_auth {
ret.handshake.transcript.set_client_auth_enabled();
}
ret
}
fn into_expect_tls12_ccs(self) -> Box<State + Send> {
Box::new(ExpectTLS12CCS {
handshake: self.handshake,
resuming: true,
send_ticket: self.send_ticket,
})
}
fn into_expect_retried_client_hello(self) -> Box<State + Send> {
Box::new(ExpectClientHello {
handshake: self.handshake,
done_retry: true,
send_cert_status: self.send_cert_status,
send_sct: self.send_sct,
send_ticket: self.send_ticket,
})
}
fn into_expect_tls13_certificate(self) -> Box<State + Send> {
Box::new(ExpectTLS13Certificate {
handshake: self.handshake,
send_ticket: self.send_ticket,
})
}
fn into_expect_tls13_finished(self) -> Box<State + Send> {
Box::new(ExpectTLS13Finished {
handshake: self.handshake,
send_ticket: self.send_ticket,
})
}
fn into_expect_tls12_certificate(self, kx: suites::KeyExchange) -> Box<State + Send> {
Box::new(ExpectTLS12Certificate {
handshake: self.handshake,
server_kx: ServerKXDetails::new(kx),
send_ticket: self.send_ticket,
})
}
fn into_expect_tls12_client_kx(self, kx: suites::KeyExchange) -> Box<State + Send> {
Box::new(ExpectTLS12ClientKX {
handshake: self.handshake,
server_kx: ServerKXDetails::new(kx),
client_cert: None,
send_ticket: self.send_ticket,
})
}
fn process_extensions(&mut self,
sess: &mut ServerSessionImpl,
server_key: Option<&mut sign::CertifiedKey>,
hello: &ClientHelloPayload,
for_resume: bool)
-> Result<Vec<ServerExtension>, TLSError> {
let mut ret = Vec::new();
let our_protocols = &sess.config.alpn_protocols;
let maybe_their_protocols = hello.get_alpn_extension();
if let Some(their_protocols) = maybe_their_protocols {
let their_proto_strings = their_protocols.to_strings();
if their_proto_strings.contains(&"".to_string()) {
return Err(TLSError::PeerMisbehavedError("client offered empty ALPN protocol"
.to_string()));
}
sess.alpn_protocol = util::first_in_both(our_protocols, &their_proto_strings);
if let Some(ref selected_protocol) = sess.alpn_protocol {
info!("Chosen ALPN protocol {:?}", selected_protocol);
ret.push(ServerExtension::make_alpn(selected_protocol.clone()));
}
}
if !for_resume && hello.get_sni_extension().is_some() {
ret.push(ServerExtension::ServerNameAck);
}
if !for_resume &&
hello.find_extension(ExtensionType::StatusRequest).is_some() &&
server_key.is_some() &&
server_key.as_ref().unwrap().has_ocsp() {
self.send_cert_status = true;
if !sess.common.is_tls13() {
ret.push(ServerExtension::CertificateStatusAck);
}
}
if !for_resume &&
hello.find_extension(ExtensionType::SCT).is_some() &&
server_key.is_some() &&
server_key.as_ref().unwrap().has_sct_list() {
self.send_sct = true;
if !sess.common.is_tls13() {
let sct_list = server_key
.unwrap()
.take_sct_list()
.unwrap();
ret.push(ServerExtension::make_sct(sct_list));
}
}
if !sess.common.is_tls13() {
let secure_reneg_offered =
hello.find_extension(ExtensionType::RenegotiationInfo).is_some() ||
hello.cipher_suites.contains(&CipherSuite::TLS_EMPTY_RENEGOTIATION_INFO_SCSV);
if secure_reneg_offered {
ret.push(ServerExtension::make_empty_renegotiation_info());
}
if hello.find_extension(ExtensionType::SessionTicket).is_some() &&
sess.config.ticketer.enabled() {
self.send_ticket = true;
ret.push(ServerExtension::SessionTicketAck);
}
if self.handshake.using_ems {
ret.push(ServerExtension::ExtendedMasterSecretAck);
}
}
Ok(ret)
}
fn check_binder(&self,
sess: &mut ServerSessionImpl,
client_hello: &Message,
psk: &[u8],
binder: &[u8])
-> bool {
let binder_plaintext = match client_hello.payload {
MessagePayload::Handshake(ref hmp) => hmp.get_encoding_for_binder_signing(),
_ => unreachable!(),
};
let suite_hash = sess.common.get_suite().get_hash();
let handshake_hash = self.handshake.transcript.get_hash_given(suite_hash, &binder_plaintext);
let mut empty_hash_ctx = hash_hs::HandshakeHash::new();
empty_hash_ctx.start_hash(suite_hash);
let empty_hash = empty_hash_ctx.get_current_hash();
let mut key_schedule = KeySchedule::new(suite_hash);
key_schedule.input_secret(psk);
let base_key = key_schedule.derive(SecretKind::ResumptionPSKBinderKey, &empty_hash);
let real_binder = key_schedule.sign_verify_data(&base_key, &handshake_hash);
constant_time::verify_slices_are_equal(&real_binder, binder).is_ok()
}
fn emit_server_hello_tls13(&mut self,
sess: &mut ServerSessionImpl,
share: &KeyShareEntry,
chosen_psk_idx: Option<usize>,
resuming_psk: Option<Vec<u8>>)
-> Result<(), TLSError> {
let mut extensions = Vec::new();
let kxr = suites::KeyExchange::start_ecdhe(share.group)
.and_then(|kx| kx.complete(&share.payload.0))
.ok_or_else(|| TLSError::PeerMisbehavedError("key exchange failed".to_string()))?;
let kse = KeyShareEntry::new(share.group, &kxr.pubkey);
extensions.push(ServerExtension::KeyShare(kse));
if let Some(psk_idx) = chosen_psk_idx {
extensions.push(ServerExtension::PresharedKey(psk_idx as u16));
}
let sh = Message {
typ: ContentType::Handshake,
version: ProtocolVersion::TLSv1_0,
payload: MessagePayload::Handshake(HandshakeMessagePayload {
typ: HandshakeType::ServerHello,
payload: HandshakePayload::ServerHello(ServerHelloPayload {
server_version: ProtocolVersion::Unknown(0x7f12),
random: Random::from_slice(&self.handshake.randoms.server),
session_id: SessionID::empty(),
cipher_suite: sess.common.get_suite().suite,
compression_method: Compression::Null,
extensions: extensions,
}),
}),
};
check_aligned_handshake(sess)?;
debug!("sending server hello {:?}", sh);
self.handshake.transcript.add_message(&sh);
sess.common.send_msg(sh, false);
let suite = sess.common.get_suite();
let mut key_schedule = KeySchedule::new(suite.get_hash());
if let Some(psk) = resuming_psk {
key_schedule.input_secret(&psk);
} else {
key_schedule.input_empty();
}
key_schedule.input_secret(&kxr.premaster_secret);
let handshake_hash = self.handshake.transcript.get_current_hash();
let write_key = key_schedule.derive(SecretKind::ServerHandshakeTrafficSecret, &handshake_hash);
let read_key = key_schedule.derive(SecretKind::ClientHandshakeTrafficSecret, &handshake_hash);
sess.common.set_message_encrypter(cipher::new_tls13_write(suite, &write_key));
sess.common.set_message_decrypter(cipher::new_tls13_read(suite, &read_key));
key_schedule.current_client_traffic_secret = read_key;
key_schedule.current_server_traffic_secret = write_key;
sess.common.set_key_schedule(key_schedule);
Ok(())
}
fn emit_hello_retry_request(&mut self,
sess: &mut ServerSessionImpl,
group: NamedGroup) {
let mut req = HelloRetryRequest {
server_version: ProtocolVersion::Unknown(0x7f12),
extensions: Vec::new(),
};
req.extensions.push(HelloRetryExtension::KeyShare(group));
let m = Message {
typ: ContentType::Handshake,
version: ProtocolVersion::TLSv1_0,
payload: MessagePayload::Handshake(HandshakeMessagePayload {
typ: HandshakeType::HelloRetryRequest,
payload: HandshakePayload::HelloRetryRequest(req),
}),
};
debug!("Requesting retry {:?}", m);
self.handshake.transcript.add_message(&m);
sess.common.send_msg(m, false);
}
fn emit_encrypted_extensions(&mut self,
sess: &mut ServerSessionImpl,
server_key: Option<&mut sign::CertifiedKey>,
hello: &ClientHelloPayload,
for_resume: bool)
-> Result<(), TLSError> {
let encrypted_exts = self.process_extensions(sess, server_key, hello, for_resume)?;
let ee = Message {
typ: ContentType::Handshake,
version: ProtocolVersion::TLSv1_3,
payload: MessagePayload::Handshake(HandshakeMessagePayload {
typ: HandshakeType::EncryptedExtensions,
payload: HandshakePayload::EncryptedExtensions(encrypted_exts),
}),
};
debug!("sending encrypted extensions {:?}", ee);
self.handshake.transcript.add_message(&ee);
sess.common.send_msg(ee, true);
Ok(())
}
fn emit_certificate_req_tls13(&mut self, sess: &mut ServerSessionImpl) -> bool {
if !sess.config.client_auth_offer {
return false;
}
let names = sess.config.client_auth_roots.get_subjects();
let cr = CertificateRequestPayloadTLS13 {
context: PayloadU8::empty(),
sigschemes: SupportedSignatureSchemes::supported_verify(),
canames: names,
extensions: Vec::new(),
};
let m = Message {
typ: ContentType::Handshake,
version: ProtocolVersion::TLSv1_3,
payload: MessagePayload::Handshake(HandshakeMessagePayload {
typ: HandshakeType::CertificateRequest,
payload: HandshakePayload::CertificateRequestTLS13(cr),
}),
};
debug!("Sending CertificateRequest {:?}", m);
self.handshake.transcript.add_message(&m);
sess.common.send_msg(m, true);
true
}
fn emit_certificate_tls13(&mut self,
sess: &mut ServerSessionImpl,
server_key: &mut sign::CertifiedKey) {
let mut cert_body = CertificatePayloadTLS13::new();
let (certs, ocsp, sct_list) = {
let ck = server_key;
(ck.take_cert(), ck.take_ocsp(), ck.take_sct_list())
};
for cert in certs {
let entry = CertificateEntry {
cert: cert,
exts: Vec::new(),
};
cert_body.list.push(entry);
}
if self.send_cert_status &&
ocsp.is_some() &&
!cert_body.list.is_empty() {
let first_entry = cert_body.list.first_mut().unwrap();
let cst = CertificateStatus::new(ocsp.unwrap());
first_entry.exts.push(CertificateExtension::CertificateStatus(cst));
}
if self.send_sct &&
sct_list.is_some() &&
!cert_body.list.is_empty() {
let first_entry = cert_body.list.first_mut().unwrap();
first_entry.exts.push(CertificateExtension::make_sct(sct_list.unwrap()));
}
let c = Message {
typ: ContentType::Handshake,
version: ProtocolVersion::TLSv1_3,
payload: MessagePayload::Handshake(HandshakeMessagePayload {
typ: HandshakeType::Certificate,
payload: HandshakePayload::CertificateTLS13(cert_body),
}),
};
debug!("sending certificate {:?}", c);
self.handshake.transcript.add_message(&c);
sess.common.send_msg(c, true);
}
fn emit_certificate_verify_tls13(&mut self,
sess: &mut ServerSessionImpl,
server_key: &mut sign::CertifiedKey,
schemes: &[SignatureScheme])
-> Result<(), TLSError> {
let mut message = Vec::new();
message.resize(64, 0x20u8);
message.extend_from_slice(b"TLS 1.3, server CertificateVerify\x00");
message.extend_from_slice(&self.handshake.transcript.get_current_hash());
let signing_key = &server_key.key;
let signer = signing_key.choose_scheme(schemes)
.ok_or_else(|| TLSError::PeerIncompatibleError("no overlapping sigschemes".to_string()))?;
let scheme = signer.get_scheme();
let sig = signer.sign(&message)?;
let cv = DigitallySignedStruct::new(scheme, sig);
let m = Message {
typ: ContentType::Handshake,
version: ProtocolVersion::TLSv1_3,
payload: MessagePayload::Handshake(HandshakeMessagePayload {
typ: HandshakeType::CertificateVerify,
payload: HandshakePayload::CertificateVerify(cv),
}),
};
debug!("sending certificate-verify {:?}", m);
self.handshake.transcript.add_message(&m);
sess.common.send_msg(m, true);
Ok(())
}
fn emit_finished_tls13(&mut self, sess: &mut ServerSessionImpl) {
let handshake_hash = self.handshake.transcript.get_current_hash();
let verify_data = sess.common
.get_key_schedule()
.sign_finish(SecretKind::ServerHandshakeTrafficSecret, &handshake_hash);
let verify_data_payload = Payload::new(verify_data);
let m = Message {
typ: ContentType::Handshake,
version: ProtocolVersion::TLSv1_3,
payload: MessagePayload::Handshake(HandshakeMessagePayload {
typ: HandshakeType::Finished,
payload: HandshakePayload::Finished(verify_data_payload),
}),
};
debug!("sending finished {:?}", m);
self.handshake.transcript.add_message(&m);
self.handshake.hash_at_server_fin = self.handshake.transcript.get_current_hash();
sess.common.send_msg(m, true);
sess.common.get_mut_key_schedule().input_empty();
let write_key = sess.common
.get_key_schedule()
.derive(SecretKind::ServerApplicationTrafficSecret,
&self.handshake.hash_at_server_fin);
let suite = sess.common.get_suite();
sess.common.set_message_encrypter(cipher::new_tls13_write(suite, &write_key));
sess.common
.get_mut_key_schedule()
.current_server_traffic_secret = write_key;
}
fn emit_server_hello(&mut self,
sess: &mut ServerSessionImpl,
server_key: Option<&mut sign::CertifiedKey>,
hello: &ClientHelloPayload,
for_resume: bool)
-> Result<(), TLSError> {
let extensions = self.process_extensions(sess, server_key, hello, for_resume)?;
if self.handshake.session_id.is_empty() {
let sessid = sess.config
.session_storage
.generate();
self.handshake.session_id = sessid;
}
let sh = Message {
typ: ContentType::Handshake,
version: ProtocolVersion::TLSv1_2,
payload: MessagePayload::Handshake(HandshakeMessagePayload {
typ: HandshakeType::ServerHello,
payload: HandshakePayload::ServerHello(ServerHelloPayload {
server_version: ProtocolVersion::TLSv1_2,
random: Random::from_slice(&self.handshake.randoms.server),
session_id: self.handshake.session_id,
cipher_suite: sess.common.get_suite().suite,
compression_method: Compression::Null,
extensions: extensions,
}),
}),
};
debug!("sending server hello {:?}", sh);
self.handshake.transcript.add_message(&sh);
sess.common.send_msg(sh, false);
Ok(())
}
fn emit_certificate(&mut self,
sess: &mut ServerSessionImpl,
server_certkey: &mut sign::CertifiedKey) {
let cert_chain = server_certkey.take_cert();
let c = Message {
typ: ContentType::Handshake,
version: ProtocolVersion::TLSv1_2,
payload: MessagePayload::Handshake(HandshakeMessagePayload {
typ: HandshakeType::Certificate,
payload: HandshakePayload::Certificate(cert_chain),
}),
};
self.handshake.transcript.add_message(&c);
sess.common.send_msg(c, false);
}
fn emit_cert_status(&mut self,
sess: &mut ServerSessionImpl,
server_certkey: &mut sign::CertifiedKey) {
if !self.send_cert_status ||
!server_certkey.has_ocsp() {
return;
}
let ocsp = server_certkey.take_ocsp();
let st = CertificateStatus::new(ocsp.unwrap());
let c = Message {
typ: ContentType::Handshake,
version: ProtocolVersion::TLSv1_2,
payload: MessagePayload::Handshake(HandshakeMessagePayload {
typ: HandshakeType::CertificateStatus,
payload: HandshakePayload::CertificateStatus(st)
}),
};
self.handshake.transcript.add_message(&c);
sess.common.send_msg(c, false);
}
fn emit_server_kx(&mut self,
sess: &mut ServerSessionImpl,
sigscheme: SignatureScheme,
group: &NamedGroup,
server_certkey: &mut sign::CertifiedKey)
-> Result<suites::KeyExchange, TLSError> {
let kx = sess.common.get_suite()
.start_server_kx(*group)
.ok_or_else(|| TLSError::PeerMisbehavedError("key exchange failed".to_string()))?;
let secdh = ServerECDHParams::new(group, &kx.pubkey);
let mut msg = Vec::new();
msg.extend(&self.handshake.randoms.client);
msg.extend(&self.handshake.randoms.server);
secdh.encode(&mut msg);
let signing_key = &server_certkey.key;
let sig = signing_key.choose_scheme(&[sigscheme])
.ok_or_else(|| TLSError::General("incompatible signing key".to_string()))
.and_then(|signer| signer.sign(&msg))?;
let skx = ServerKeyExchangePayload::ECDHE(ECDHEServerKeyExchange {
params: secdh,
dss: DigitallySignedStruct::new(sigscheme, sig),
});
let m = Message {
typ: ContentType::Handshake,
version: ProtocolVersion::TLSv1_2,
payload: MessagePayload::Handshake(HandshakeMessagePayload {
typ: HandshakeType::ServerKeyExchange,
payload: HandshakePayload::ServerKeyExchange(skx),
}),
};
self.handshake.transcript.add_message(&m);
sess.common.send_msg(m, false);
Ok(kx)
}
fn emit_certificate_req(&mut self, sess: &mut ServerSessionImpl) -> bool {
if !sess.config.client_auth_offer {
return false;
}
let names = sess.config.client_auth_roots.get_subjects();
let cr = CertificateRequestPayload {
certtypes: vec![ ClientCertificateType::RSASign,
ClientCertificateType::ECDSASign ],
sigschemes: SupportedSignatureSchemes::supported_verify(),
canames: names,
};
let m = Message {
typ: ContentType::Handshake,
version: ProtocolVersion::TLSv1_2,
payload: MessagePayload::Handshake(HandshakeMessagePayload {
typ: HandshakeType::CertificateRequest,
payload: HandshakePayload::CertificateRequest(cr),
}),
};
debug!("Sending CertificateRequest {:?}", m);
self.handshake.transcript.add_message(&m);
sess.common.send_msg(m, false);
true
}
fn emit_server_hello_done(&mut self, sess: &mut ServerSessionImpl) {
let m = Message {
typ: ContentType::Handshake,
version: ProtocolVersion::TLSv1_2,
payload: MessagePayload::Handshake(HandshakeMessagePayload {
typ: HandshakeType::ServerHelloDone,
payload: HandshakePayload::ServerHelloDone,
}),
};
self.handshake.transcript.add_message(&m);
sess.common.send_msg(m, false);
}
fn start_resumption(mut self,
sess: &mut ServerSessionImpl,
client_hello: &ClientHelloPayload,
id: &SessionID,
resumedata: persist::ServerSessionValue)
-> StateResult {
info!("Resuming session");
if resumedata.extended_ms && !self.handshake.using_ems {
return Err(illegal_param(sess, "refusing to resume without ems"));
}
self.handshake.session_id = *id;
self.emit_server_hello(sess, None, client_hello, true)?;
let hashalg = sess.common.get_suite().get_hash();
sess.secrets = Some(SessionSecrets::new_resume(&self.handshake.randoms,
hashalg,
&resumedata.master_secret.0));
sess.start_encryption_tls12();
sess.client_cert_chain = resumedata.client_cert_chain;
if self.send_ticket {
emit_ticket(&mut self.handshake, sess);
}
emit_ccs(sess);
emit_finished(&mut self.handshake, sess);
Ok(self.into_expect_tls12_ccs())
}
fn handle_client_hello_tls13(mut self,
sess: &mut ServerSessionImpl,
mut server_key: Option<sign::CertifiedKey>,
chm: &Message)
-> StateResult {
let client_hello = extract_handshake!(chm, HandshakePayload::ClientHello).unwrap();
if client_hello.compression_methods.len() != 1 {
return Err(illegal_param(sess, "client offered wrong compressions"));
}
let groups_ext = client_hello.get_namedgroups_extension()
.ok_or_else(|| incompatible(sess, "client didn't describe groups"))?;
let mut sigschemes_ext = client_hello.get_sigalgs_extension()
.ok_or_else(|| incompatible(sess, "client didn't describe sigschemes"))?
.clone();
let tls13_schemes = SupportedSignatureSchemes::supported_sign_tls13();
sigschemes_ext.retain(|scheme| tls13_schemes.contains(scheme));
let shares_ext = client_hello.get_keyshare_extension()
.ok_or_else(|| incompatible(sess, "client didn't send keyshares"))?;
if client_hello.has_keyshare_extension_with_duplicates() {
return Err(illegal_param(sess, "client sent duplicate keyshares"));
}
let share_groups: Vec<NamedGroup> = shares_ext.iter()
.map(|share| share.group)
.collect();
let chosen_group = util::first_in_both(&NamedGroups::supported(), &share_groups);
if chosen_group.is_none() {
let retry_group_maybe = util::first_in_both(&NamedGroups::supported(), groups_ext);
self.handshake.transcript.add_message(chm);
if let Some(group) = retry_group_maybe {
if self.done_retry {
return Err(illegal_param(sess, "did not follow retry request"));
} else {
self.emit_hello_retry_request(sess, group);
return Ok(self.into_expect_retried_client_hello());
}
} else {
return Err(incompatible(sess, "no kx group overlap with client"));
}
}
let chosen_group = chosen_group.unwrap();
let chosen_share = shares_ext.iter()
.find(|share| share.group == chosen_group)
.unwrap();
let mut chosen_psk_index = None;
let mut resuming_psk = None;
if let Some(psk_offer) = client_hello.get_psk() {
if !client_hello.check_psk_ext_is_last() {
return Err(illegal_param(sess, "psk extension in wrong position"));
}
if psk_offer.binders.is_empty() {
return Err(decode_error(sess, "psk extension missing binder"));
}
if psk_offer.binders.len() != psk_offer.identities.len() {
return Err(illegal_param(sess, "psk extension mismatched ids/binders"));
}
for (i, psk_id) in psk_offer.identities.iter().enumerate() {
let maybe_resume = sess.config
.ticketer
.decrypt(&psk_id.identity.0)
.and_then(|plain| persist::ServerSessionValue::read_bytes(&plain));
if !can_resume(sess, &self.handshake, &maybe_resume) {
continue;
}
let resume = maybe_resume.unwrap();
if !self.check_binder(sess, chm, &resume.master_secret.0, &psk_offer.binders[i].0) {
sess.common.send_fatal_alert(AlertDescription::DecryptError);
return Err(TLSError::PeerMisbehavedError("client sent wrong binder".to_string()));
}
chosen_psk_index = Some(i);
resuming_psk = Some(resume.master_secret.0);
break;
}
}
if !client_hello.psk_mode_offered(PSKKeyExchangeMode::PSK_DHE_KE) {
warn!("Resumption ignored, DHE_KE not offered");
self.send_ticket = false;
chosen_psk_index = None;
resuming_psk = None;
} else {
self.send_ticket = true;
}
let full_handshake = resuming_psk.is_none();
self.handshake.transcript.add_message(chm);
self.emit_server_hello_tls13(sess, chosen_share, chosen_psk_index, resuming_psk)?;
self.emit_encrypted_extensions(sess, server_key.as_mut(), client_hello, !full_handshake)?;
let doing_client_auth = if full_handshake {
let mut key = server_key.unwrap();
let client_auth = self.emit_certificate_req_tls13(sess);
self.emit_certificate_tls13(sess, &mut key);
self.emit_certificate_verify_tls13(sess, &mut key, &sigschemes_ext)?;
client_auth
} else {
false
};
check_aligned_handshake(sess)?;
self.emit_finished_tls13(sess);
if doing_client_auth {
Ok(self.into_expect_tls13_certificate())
} else {
Ok(self.into_expect_tls13_finished())
}
}
}
impl State for ExpectClientHello {
fn check_message(&self, m: &Message) -> CheckResult {
check_handshake_message(m, &[HandshakeType::ClientHello])
}
fn handle(mut self: Box<Self>, sess: &mut ServerSessionImpl, m: Message) -> StateResult {
let client_hello = extract_handshake!(m, HandshakePayload::ClientHello).unwrap();
let tls13_enabled = sess.config.versions.contains(&ProtocolVersion::TLSv1_3);
let tls12_enabled = sess.config.versions.contains(&ProtocolVersion::TLSv1_2);
debug!("we got a clienthello {:?}", client_hello);
if client_hello.client_version.get_u16() < ProtocolVersion::TLSv1_2.get_u16() {
sess.common.send_fatal_alert(AlertDescription::ProtocolVersion);
return Err(TLSError::PeerIncompatibleError("client does not support TLSv1_2".to_string()));
}
if !client_hello.compression_methods.contains(&Compression::Null) {
sess.common.send_fatal_alert(AlertDescription::IllegalParameter);
return Err(TLSError::PeerIncompatibleError("client did not offer Null compression"
.to_string()));
}
if client_hello.has_duplicate_extension() {
return Err(decode_error(sess, "client sent duplicate extensions"));
}
let maybe_versions_ext = client_hello.get_versions_extension();
if let Some(versions) = maybe_versions_ext {
if versions.contains(&ProtocolVersion::Unknown(0x7f12)) && tls13_enabled {
sess.common.negotiated_version = Some(ProtocolVersion::TLSv1_3);
} else if !versions.contains(&ProtocolVersion::TLSv1_2) || !tls12_enabled {
sess.common.send_fatal_alert(AlertDescription::ProtocolVersion);
return Err(incompatible(sess, "TLS1.2 not offered/enabled"));
}
} else if !tls12_enabled && tls13_enabled {
sess.common.send_fatal_alert(AlertDescription::ProtocolVersion);
return Err(incompatible(sess, "Server requires TLS1.3, but client omitted versions ext"));
}
if sess.common.negotiated_version == None {
sess.common.negotiated_version = Some(ProtocolVersion::TLSv1_2);
}
let default_sigschemes_ext = SupportedSignatureSchemes::default();
let sni_ext = client_hello.get_sni_extension()
.and_then(|sni| sni.get_hostname());
let sigschemes_ext = client_hello.get_sigalgs_extension()
.unwrap_or(&default_sigschemes_ext);
debug!("sni {:?}", sni_ext);
debug!("sig schemes {:?}", sigschemes_ext);
let maybe_certkey = sess.config.cert_resolver.resolve(sni_ext, sigschemes_ext);
if maybe_certkey.is_none() {
sess.common.send_fatal_alert(AlertDescription::AccessDenied);
return Err(TLSError::General("no server certificate chain resolved".to_string()));
}
let mut certkey = maybe_certkey.unwrap();
let suitable_suites = suites::reduce_given_sigalg(&sess.config.ciphersuites,
&certkey.key.algorithm());
let protocol_version = sess.common.negotiated_version.unwrap();
let suitable_suites = suites::reduce_given_version(&suitable_suites, protocol_version);
let maybe_ciphersuite = if sess.config.ignore_client_order {
suites::choose_ciphersuite_preferring_server(&client_hello.cipher_suites, &suitable_suites)
} else {
suites::choose_ciphersuite_preferring_client(&client_hello.cipher_suites, &suitable_suites)
};
if maybe_ciphersuite.is_none() {
return Err(incompatible(sess, "no ciphersuites in common"));
}
info!("decided upon suite {:?}", maybe_ciphersuite.as_ref().unwrap());
sess.common.set_suite(maybe_ciphersuite.unwrap());
if !self.handshake.transcript.start_hash(sess.common.get_suite().get_hash()) {
sess.common.send_fatal_alert(AlertDescription::IllegalParameter);
return Err(TLSError::PeerIncompatibleError("hash differed on retry"
.to_string()));
}
if sess.common.is_tls13() {
return self.handle_client_hello_tls13(sess, Some(certkey), &m);
}
self.handshake.transcript.add_message(&m);
client_hello.random.write_slice(&mut self.handshake.randoms.client);
if client_hello.ems_support_offered() {
self.handshake.using_ems = true;
}
let groups_ext = client_hello.get_namedgroups_extension()
.ok_or_else(|| incompatible(sess, "client didn't describe groups"))?;
let ecpoints_ext = client_hello.get_ecpoints_extension()
.ok_or_else(|| incompatible(sess, "client didn't describe ec points"))?;
debug!("namedgroups {:?}", groups_ext);
debug!("ecpoints {:?}", ecpoints_ext);
if !ecpoints_ext.contains(&ECPointFormat::Uncompressed) {
sess.common.send_fatal_alert(AlertDescription::IllegalParameter);
return Err(TLSError::PeerIncompatibleError("client didn't support uncompressed ec points"
.to_string()));
}
let mut ticket_received = false;
if let Some(ticket_ext) = client_hello.get_ticket_extension() {
if let ClientExtension::SessionTicketOffer(ref ticket) = *ticket_ext {
ticket_received = true;
info!("Ticket received");
let maybe_resume = sess.config
.ticketer
.decrypt(&ticket.0)
.and_then(|plain| persist::ServerSessionValue::read_bytes(&plain));
if can_resume(sess, &self.handshake, &maybe_resume) {
return self.start_resumption(sess,
client_hello,
&client_hello.session_id,
maybe_resume.unwrap());
} else {
info!("Ticket didn't decrypt");
}
}
}
if !client_hello.session_id.is_empty() && !ticket_received {
let maybe_resume = sess.config.session_storage
.get(&client_hello.session_id)
.and_then(|x| persist::ServerSessionValue::read_bytes(&x));
if can_resume(sess, &self.handshake, &maybe_resume) {
return self.start_resumption(sess,
client_hello,
&client_hello.session_id,
maybe_resume.unwrap());
}
}
let sigscheme = sess.common.get_suite()
.resolve_sig_scheme(sigschemes_ext)
.ok_or_else(|| incompatible(sess, "no supported sig scheme"))?;
let group = util::first_in_both(NamedGroups::supported().as_slice(),
groups_ext.as_slice())
.ok_or_else(|| incompatible(sess, "no supported group"))?;
let ecpoint = util::first_in_both(ECPointFormatList::supported().as_slice(),
ecpoints_ext.as_slice())
.ok_or_else(|| incompatible(sess, "no supported point format"))?;
debug_assert_eq!(ecpoint, ECPointFormat::Uncompressed);
self.emit_server_hello(sess, Some(&mut certkey), client_hello, false)?;
self.emit_certificate(sess, &mut certkey);
self.emit_cert_status(sess, &mut certkey);
let kx = self.emit_server_kx(sess, sigscheme, &group, &mut certkey)?;
let doing_client_auth = self.emit_certificate_req(sess);
self.emit_server_hello_done(sess);
if doing_client_auth {
Ok(self.into_expect_tls12_certificate(kx))
} else {
Ok(self.into_expect_tls12_client_kx(kx))
}
}
}
pub struct ExpectTLS12Certificate {
handshake: HandshakeDetails,
server_kx: ServerKXDetails,
send_ticket: bool,
}
impl ExpectTLS12Certificate {
fn into_expect_tls12_client_kx(self, cert: Option<ClientCertDetails>) -> Box<State + Send> {
Box::new(ExpectTLS12ClientKX {
handshake: self.handshake,
server_kx: self.server_kx,
client_cert: cert,
send_ticket: self.send_ticket,
})
}
}
impl State for ExpectTLS12Certificate {
fn check_message(&self, m: &Message) -> CheckResult {
check_handshake_message(m, &[HandshakeType::Certificate])
}
fn handle(mut self: Box<Self>, sess: &mut ServerSessionImpl, m: Message) -> StateResult {
let cert_chain = extract_handshake!(m, HandshakePayload::Certificate).unwrap();
self.handshake.transcript.add_message(&m);
if cert_chain.is_empty() && !sess.config.client_auth_mandatory {
info!("client auth requested but no certificate supplied");
self.handshake.transcript.abandon_client_auth();
return Ok(self.into_expect_tls12_client_kx(None));
}
debug!("certs {:?}", cert_chain);
sess.config.get_verifier().verify_client_cert(&sess.config.client_auth_roots,
cert_chain)
.or_else(|err| {
incompatible(sess, "certificate invalid");
Err(err)
})?;
let cert = ClientCertDetails::new(cert_chain.clone());
Ok(self.into_expect_tls12_client_kx(Some(cert)))
}
}
pub struct ExpectTLS13Certificate {
handshake: HandshakeDetails,
send_ticket: bool,
}
impl ExpectTLS13Certificate {
fn into_expect_tls13_finished(self) -> Box<State + Send> {
Box::new(ExpectTLS13Finished {
handshake: self.handshake,
send_ticket: self.send_ticket,
})
}
fn into_expect_tls13_certificate_verify(self,
cert: ClientCertDetails) -> Box<State + Send> {
Box::new(ExpectTLS13CertificateVerify {
handshake: self.handshake,
client_cert: cert,
send_ticket: self.send_ticket,
})
}
}
impl State for ExpectTLS13Certificate {
fn check_message(&self, m: &Message) -> CheckResult {
check_handshake_message(m, &[HandshakeType::Certificate])
}
fn handle(mut self: Box<Self>, sess: &mut ServerSessionImpl, m: Message) -> StateResult {
let certp = extract_handshake!(m, HandshakePayload::CertificateTLS13).unwrap();
self.handshake.transcript.add_message(&m);
if certp.any_entry_has_extension() {
return Err(TLSError::PeerMisbehavedError("client sent unsolicited cert extension"
.to_string()));
}
let cert_chain = certp.convert();
if cert_chain.is_empty() {
if !sess.config.client_auth_mandatory {
info!("client auth requested but no certificate supplied");
self.handshake.transcript.abandon_client_auth();
return Ok(self.into_expect_tls13_finished());
}
sess.common.send_fatal_alert(AlertDescription::CertificateRequired);
return Err(TLSError::NoCertificatesPresented);
}
sess.config.get_verifier().verify_client_cert(&sess.config.client_auth_roots,
&cert_chain)?;
let cert = ClientCertDetails::new(cert_chain);
Ok(self.into_expect_tls13_certificate_verify(cert))
}
}
pub struct ExpectTLS12ClientKX {
handshake: HandshakeDetails,
server_kx: ServerKXDetails,
client_cert: Option<ClientCertDetails>,
send_ticket: bool,
}
impl ExpectTLS12ClientKX {
fn into_expect_tls12_certificate_verify(self) -> Box<State + Send> {
Box::new(ExpectTLS12CertificateVerify {
handshake: self.handshake,
client_cert: self.client_cert.unwrap(),
send_ticket: self.send_ticket,
})
}
fn into_expect_tls12_ccs(self) -> Box<State + Send> {
Box::new(ExpectTLS12CCS {
handshake: self.handshake,
resuming: false,
send_ticket: self.send_ticket,
})
}
}
impl State for ExpectTLS12ClientKX {
fn check_message(&self, m: &Message) -> CheckResult {
check_handshake_message(m, &[HandshakeType::ClientKeyExchange])
}
fn handle(mut self: Box<Self>, sess: &mut ServerSessionImpl, m: Message) -> StateResult {
let client_kx = extract_handshake!(m, HandshakePayload::ClientKeyExchange).unwrap();
self.handshake.transcript.add_message(&m);
let kx = self.server_kx.take_kx();
if !kx.check_client_params(&client_kx.0) {
sess.common.send_fatal_alert(AlertDescription::DecodeError);
return Err(TLSError::CorruptMessagePayload(ContentType::Handshake));
}
let kxd = kx.server_complete(&client_kx.0)
.ok_or_else(|| TLSError::PeerMisbehavedError("key exchange completion failed"
.to_string()))?;
let hashalg = sess.common.get_suite().get_hash();
if self.handshake.using_ems {
let handshake_hash = self.handshake.transcript.get_current_hash();
sess.secrets = Some(SessionSecrets::new_ems(&self.handshake.randoms,
&handshake_hash,
hashalg,
&kxd.premaster_secret));
} else {
sess.secrets = Some(SessionSecrets::new(&self.handshake.randoms,
hashalg,
&kxd.premaster_secret));
}
sess.start_encryption_tls12();
if self.client_cert.is_some() {
Ok(self.into_expect_tls12_certificate_verify())
} else {
Ok(self.into_expect_tls12_ccs())
}
}
}
pub struct ExpectTLS12CertificateVerify {
handshake: HandshakeDetails,
client_cert: ClientCertDetails,
send_ticket: bool,
}
impl ExpectTLS12CertificateVerify {
fn into_expect_tls12_ccs(self) -> Box<State + Send> {
Box::new(ExpectTLS12CCS {
handshake: self.handshake,
resuming: false,
send_ticket: self.send_ticket,
})
}
}
impl State for ExpectTLS12CertificateVerify {
fn check_message(&self, m: &Message) -> CheckResult {
check_handshake_message(m, &[HandshakeType::CertificateVerify])
}
fn handle(mut self: Box<Self>, sess: &mut ServerSessionImpl, m: Message) -> StateResult {
let rc = {
let sig = extract_handshake!(m, HandshakePayload::CertificateVerify).unwrap();
let handshake_msgs = self.handshake.transcript.take_handshake_buf();
let certs = &self.client_cert.cert_chain;
verify::verify_signed_struct(&handshake_msgs, &certs[0], sig)
};
if let Err(e) = rc {
sess.common.send_fatal_alert(AlertDescription::AccessDenied);
return Err(e);
} else {
debug!("client CertificateVerify OK");
sess.client_cert_chain = Some(self.client_cert.take_chain());
}
self.handshake.transcript.add_message(&m);
Ok(self.into_expect_tls12_ccs())
}
}
pub struct ExpectTLS13CertificateVerify {
handshake: HandshakeDetails,
client_cert: ClientCertDetails,
send_ticket: bool,
}
impl ExpectTLS13CertificateVerify {
fn into_expect_tls13_finished(self) -> Box<State + Send> {
Box::new(ExpectTLS13Finished {
handshake: self.handshake,
send_ticket: self.send_ticket,
})
}
}
impl State for ExpectTLS13CertificateVerify {
fn check_message(&self, m: &Message) -> CheckResult {
check_handshake_message(m, &[HandshakeType::CertificateVerify])
}
fn handle(mut self: Box<Self>, sess: &mut ServerSessionImpl, m: Message) -> StateResult {
let rc = {
let sig = extract_handshake!(m, HandshakePayload::CertificateVerify).unwrap();
let handshake_hash = self.handshake.transcript.get_current_hash();
self.handshake.transcript.abandon_client_auth();
let certs = &self.client_cert.cert_chain;
verify::verify_tls13(&certs[0],
sig,
&handshake_hash,
b"TLS 1.3, client CertificateVerify\x00")
};
if let Err(e) = rc {
sess.common.send_fatal_alert(AlertDescription::AccessDenied);
return Err(e);
} else {
debug!("client CertificateVerify OK");
sess.client_cert_chain = Some(self.client_cert.take_chain());
}
self.handshake.transcript.add_message(&m);
Ok(self.into_expect_tls13_finished())
}
}
pub struct ExpectTLS12CCS {
handshake: HandshakeDetails,
resuming: bool,
send_ticket: bool,
}
impl ExpectTLS12CCS {
fn into_expect_tls12_finished(self) -> Box<State + Send> {
Box::new(ExpectTLS12Finished {
handshake: self.handshake,
resuming: self.resuming,
send_ticket: self.send_ticket,
})
}
}
impl State for ExpectTLS12CCS {
fn check_message(&self, m: &Message) -> CheckResult {
check_message(m, &[ContentType::ChangeCipherSpec], &[])
}
fn handle(self: Box<Self>, sess: &mut ServerSessionImpl, _m: Message) -> StateResult {
if !sess.common.handshake_joiner.is_empty() {
warn!("CCS received interleaved with fragmented handshake");
return Err(TLSError::InappropriateMessage {
expect_types: vec![ ContentType::Handshake ],
got_type: ContentType::ChangeCipherSpec,
});
}
sess.common.peer_now_encrypting();
Ok(self.into_expect_tls12_finished())
}
}
fn get_server_session_value(handshake: &HandshakeDetails,
sess: &ServerSessionImpl) -> persist::ServerSessionValue {
let scs = sess.common.get_suite();
let (version, secret) = if sess.common.is_tls13() {
let handshake_hash = handshake
.transcript
.get_current_hash();
let resume_secret = sess.common
.get_key_schedule()
.derive(SecretKind::ResumptionMasterSecret, &handshake_hash);
(ProtocolVersion::TLSv1_3, resume_secret)
} else {
(ProtocolVersion::TLSv1_2, sess.secrets.as_ref().unwrap().get_master_secret())
};
let mut v = persist::ServerSessionValue::new(version, scs.suite, secret,
&sess.client_cert_chain);
if handshake.using_ems {
v.set_extended_ms_used();
}
v
}
fn emit_ticket(handshake: &mut HandshakeDetails,
sess: &mut ServerSessionImpl) {
let plain = get_server_session_value(handshake, sess)
.get_encoding();
let ticket = sess.config
.ticketer
.encrypt(&plain)
.unwrap_or_else(Vec::new);
let ticket_lifetime = sess.config.ticketer.get_lifetime();
let m = Message {
typ: ContentType::Handshake,
version: ProtocolVersion::TLSv1_2,
payload: MessagePayload::Handshake(HandshakeMessagePayload {
typ: HandshakeType::NewSessionTicket,
payload:
HandshakePayload::NewSessionTicket(NewSessionTicketPayload::new(ticket_lifetime,
ticket)),
}),
};
handshake.transcript.add_message(&m);
sess.common.send_msg(m, false);
}
fn emit_ccs(sess: &mut ServerSessionImpl) {
let m = Message {
typ: ContentType::ChangeCipherSpec,
version: ProtocolVersion::TLSv1_2,
payload: MessagePayload::ChangeCipherSpec(ChangeCipherSpecPayload {}),
};
sess.common.send_msg(m, false);
sess.common.we_now_encrypting();
}
fn emit_finished(handshake: &mut HandshakeDetails, sess: &mut ServerSessionImpl) {
let vh = handshake.transcript.get_current_hash();
let verify_data = sess.secrets.as_ref().unwrap().server_verify_data(&vh);
let verify_data_payload = Payload::new(verify_data);
let f = Message {
typ: ContentType::Handshake,
version: ProtocolVersion::TLSv1_2,
payload: MessagePayload::Handshake(HandshakeMessagePayload {
typ: HandshakeType::Finished,
payload: HandshakePayload::Finished(verify_data_payload),
}),
};
handshake.transcript.add_message(&f);
sess.common.send_msg(f, true);
}
pub struct ExpectTLS12Finished {
handshake: HandshakeDetails,
resuming: bool,
send_ticket: bool,
}
impl ExpectTLS12Finished {
fn into_expect_tls12_traffic(self, fin: verify::FinishedMessageVerified) -> Box<State + Send> {
Box::new(ExpectTLS12Traffic {
_fin_verified: fin,
})
}
}
impl State for ExpectTLS12Finished {
fn check_message(&self, m: &Message) -> CheckResult {
check_handshake_message(m, &[HandshakeType::Finished])
}
fn handle(mut self: Box<Self>, sess: &mut ServerSessionImpl, m: Message) -> StateResult {
let finished = extract_handshake!(m, HandshakePayload::Finished).unwrap();
let vh = self.handshake.transcript.get_current_hash();
let expect_verify_data = sess.secrets.as_ref().unwrap().client_verify_data(&vh);
let fin = constant_time::verify_slices_are_equal(&expect_verify_data, &finished.0)
.map_err(|_| {
sess.common.send_fatal_alert(AlertDescription::DecryptError);
TLSError::DecryptError
})
.map(|_| verify::FinishedMessageVerified::assertion())?;
if !self.resuming && !self.handshake.session_id.is_empty() {
let value = get_server_session_value(&self.handshake, sess);
let worked = sess.config.session_storage
.put(&self.handshake.session_id, value.get_encoding());
if worked {
info!("Session saved");
} else {
info!("Session not saved");
}
}
self.handshake.transcript.add_message(&m);
if !self.resuming {
if self.send_ticket {
emit_ticket(&mut self.handshake,
sess);
}
emit_ccs(sess);
emit_finished(&mut self.handshake,
sess);
}
sess.common.we_now_encrypting();
sess.common.start_traffic();
Ok(self.into_expect_tls12_traffic(fin))
}
}
pub struct ExpectTLS13Finished {
handshake: HandshakeDetails,
send_ticket: bool,
}
impl ExpectTLS13Finished {
fn into_expect_tls13_traffic(self, fin: verify::FinishedMessageVerified) -> Box<State + Send> {
Box::new(ExpectTLS13Traffic {
_fin_verified: fin,
})
}
fn emit_ticket_tls13(&mut self, sess: &mut ServerSessionImpl) {
if !self.send_ticket {
return;
}
let plain = get_server_session_value(&self.handshake, sess)
.get_encoding();
let maybe_ticket = sess.config
.ticketer
.encrypt(&plain);
let ticket_lifetime = sess.config.ticketer.get_lifetime();
if maybe_ticket.is_none() {
return;
}
let ticket = maybe_ticket.unwrap();
let age_add = rand::random_u32(); let payload = NewSessionTicketPayloadTLS13::new(ticket_lifetime, age_add, ticket);
let m = Message {
typ: ContentType::Handshake,
version: ProtocolVersion::TLSv1_3,
payload: MessagePayload::Handshake(HandshakeMessagePayload {
typ: HandshakeType::NewSessionTicket,
payload: HandshakePayload::NewSessionTicketTLS13(payload),
}),
};
debug!("sending new ticket {:?}", m);
self.handshake.transcript.add_message(&m);
sess.common.send_msg(m, true);
}
}
impl State for ExpectTLS13Finished {
fn check_message(&self, m: &Message) -> CheckResult {
check_handshake_message(m, &[HandshakeType::Finished])
}
fn handle(mut self: Box<Self>, sess: &mut ServerSessionImpl, m: Message) -> StateResult {
let finished = extract_handshake!(m, HandshakePayload::Finished).unwrap();
let handshake_hash = self.handshake.transcript.get_current_hash();
let expect_verify_data = sess.common
.get_key_schedule()
.sign_finish(SecretKind::ClientHandshakeTrafficSecret, &handshake_hash);
let fin = constant_time::verify_slices_are_equal(&expect_verify_data, &finished.0)
.map_err(|_| {
sess.common.send_fatal_alert(AlertDescription::DecryptError);
warn!("Finished wrong");
TLSError::DecryptError
})
.map(|_| verify::FinishedMessageVerified::assertion())?;
self.handshake.transcript.add_message(&m);
let read_key = sess.common
.get_key_schedule()
.derive(SecretKind::ClientApplicationTrafficSecret,
&self.handshake.hash_at_server_fin);
let suite = sess.common.get_suite();
check_aligned_handshake(sess)?;
sess.common.set_message_decrypter(cipher::new_tls13_read(suite, &read_key));
sess.common
.get_mut_key_schedule()
.current_client_traffic_secret = read_key;
if sess.config.ticketer.enabled() {
self.emit_ticket_tls13(sess);
}
sess.common.we_now_encrypting();
sess.common.start_traffic();
Ok(self.into_expect_tls13_traffic(fin))
}
}
pub struct ExpectTLS12Traffic {
_fin_verified: verify::FinishedMessageVerified,
}
impl ExpectTLS12Traffic {
}
impl State for ExpectTLS12Traffic {
fn check_message(&self, m: &Message) -> CheckResult {
check_message(m, &[ContentType::ApplicationData], &[])
}
fn handle(self: Box<Self>, sess: &mut ServerSessionImpl, mut m: Message) -> StateResult {
sess.common.take_received_plaintext(m.take_opaque_payload().unwrap());
Ok(self)
}
}
pub struct ExpectTLS13Traffic {
_fin_verified: verify::FinishedMessageVerified,
}
impl ExpectTLS13Traffic {
fn handle_traffic(&self, sess: &mut ServerSessionImpl, mut m: Message) -> Result<(), TLSError> {
sess.common.take_received_plaintext(m.take_opaque_payload().unwrap());
Ok(())
}
fn handle_key_update(&self, sess: &mut ServerSessionImpl, m: Message) -> Result<(), TLSError> {
let kur = extract_handshake!(m, HandshakePayload::KeyUpdate).unwrap();
sess.common.process_key_update(kur, SecretKind::ClientApplicationTrafficSecret)
}
}
impl State for ExpectTLS13Traffic {
fn check_message(&self, m: &Message) -> CheckResult {
check_message(m,
&[ContentType::ApplicationData, ContentType::Handshake],
&[HandshakeType::KeyUpdate])
}
fn handle(self: Box<Self>, sess: &mut ServerSessionImpl, m: Message) -> StateResult {
if m.is_content_type(ContentType::ApplicationData) {
self.handle_traffic(sess, m)?;
} else if m.is_handshake_type(HandshakeType::KeyUpdate) {
self.handle_key_update(sess, m)?;
}
Ok(self)
}
}