use crate::msgs::enums::{ProtocolVersion, HandshakeType};
use crate::msgs::enums::{CipherSuite, Compression, ExtensionType, ECPointFormat};
use crate::msgs::enums::{HashAlgorithm, SignatureAlgorithm, ServerNameType};
use crate::msgs::enums::{SignatureScheme, KeyUpdateRequest, NamedGroup};
use crate::msgs::enums::{ClientCertificateType, CertificateStatusType};
use crate::msgs::enums::ECCurveType;
use crate::msgs::enums::PSKKeyExchangeMode;
use crate::msgs::base::{Payload, PayloadU8, PayloadU16, PayloadU24};
use crate::msgs::codec;
use crate::msgs::codec::{Codec, Reader};
use crate::key;
#[cfg(feature = "logging")]
use crate::log::warn;
use std::fmt;
use std::io::Write;
use std::collections;
use std::mem;
use untrusted;
use webpki;
macro_rules! declare_u8_vec(
($name:ident, $itemtype:ty) => {
pub type $name = Vec<$itemtype>;
impl Codec for $name {
fn encode(&self, bytes: &mut Vec<u8>) {
codec::encode_vec_u8(bytes, self);
}
fn read(r: &mut Reader) -> Option<$name> {
codec::read_vec_u8::<$itemtype>(r)
}
}
}
);
macro_rules! declare_u16_vec(
($name:ident, $itemtype:ty) => {
pub type $name = Vec<$itemtype>;
impl Codec for $name {
fn encode(&self, bytes: &mut Vec<u8>) {
codec::encode_vec_u16(bytes, self);
}
fn read(r: &mut Reader) -> Option<$name> {
codec::read_vec_u16::<$itemtype>(r)
}
}
}
);
declare_u16_vec!(VecU16OfPayloadU8, PayloadU8);
declare_u16_vec!(VecU16OfPayloadU16, PayloadU16);
#[derive(Debug, PartialEq, Clone)]
pub struct Random([u8; 32]);
static HELLO_RETRY_REQUEST_RANDOM: Random = Random([
0xcf, 0x21, 0xad, 0x74, 0xe5, 0x9a, 0x61, 0x11,
0xbe, 0x1d, 0x8c, 0x02, 0x1e, 0x65, 0xb8, 0x91,
0xc2, 0xa2, 0x11, 0x16, 0x7a, 0xbb, 0x8c, 0x5e,
0x07, 0x9e, 0x09, 0xe2, 0xc8, 0xa8, 0x33, 0x9c,
]);
static ZERO_RANDOM: Random = Random([0u8; 32]);
impl Codec for Random {
fn encode(&self, bytes: &mut Vec<u8>) {
bytes.extend_from_slice(&self.0);
}
fn read(r: &mut Reader) -> Option<Random> {
let bytes = r.take(32)?;
let mut opaque = [0; 32];
opaque.clone_from_slice(bytes);
Some(Random(opaque))
}
}
impl Random {
pub fn from_slice(bytes: &[u8]) -> Random {
let mut rd = Reader::init(bytes);
Random::read(&mut rd).unwrap()
}
pub fn write_slice(&self, mut bytes: &mut [u8]) {
let buf = self.get_encoding();
bytes.write_all(&buf).unwrap();
}
}
#[derive(Copy, Clone)]
pub struct SessionID {
len: usize,
data: [u8; 32],
}
impl fmt::Debug for SessionID {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let mut t = f.debug_tuple("SessionID");
for i in 0..self.len() {
t.field(&self.data[i]);
}
t.finish()
}
}
impl PartialEq for SessionID {
fn eq(&self, other: &Self) -> bool {
if self.len != other.len {
return false;
}
let mut diff = 0u8;
for i in 0..self.len {
diff |= self.data[i] ^ other.data[i]
}
diff == 0u8
}
}
impl Codec for SessionID {
fn encode(&self, bytes: &mut Vec<u8>) {
debug_assert!(self.len <= 32);
bytes.push(self.len as u8);
bytes.extend_from_slice(&self.data[..self.len]);
}
fn read(r: &mut Reader) -> Option<SessionID> {
let len = u8::read(r)? as usize;
if len > 32 {
return None;
}
let bytes = r.take(len)?;
let mut out = [0u8; 32];
out[..len].clone_from_slice(&bytes[..len]);
Some(SessionID {
data: out,
len,
})
}
}
impl SessionID {
pub fn new(bytes: &[u8]) -> SessionID {
debug_assert!(bytes.len() <= 32);
let mut d = [0u8; 32];
d[..bytes.len()].clone_from_slice(&bytes[..]);
SessionID {
data: d,
len: bytes.len(),
}
}
pub fn empty() -> SessionID {
SessionID {
data: [0u8; 32],
len: 0,
}
}
pub fn len(&self) -> usize {
self.len
}
pub fn is_empty(&self) -> bool {
self.len == 0
}
}
#[derive(Clone, Debug)]
pub struct UnknownExtension {
pub typ: ExtensionType,
pub payload: Payload,
}
impl UnknownExtension {
fn encode(&self, bytes: &mut Vec<u8>) {
self.payload.encode(bytes);
}
fn read(typ: ExtensionType, r: &mut Reader) -> Option<UnknownExtension> {
let payload = Payload::read(r)?;
Some(UnknownExtension {
typ,
payload,
})
}
}
declare_u8_vec!(ECPointFormatList, ECPointFormat);
pub trait SupportedPointFormats {
fn supported() -> ECPointFormatList;
}
impl SupportedPointFormats for ECPointFormatList {
fn supported() -> ECPointFormatList {
vec![ECPointFormat::Uncompressed]
}
}
declare_u16_vec!(NamedGroups, NamedGroup);
pub trait SupportedGroups {
fn supported() -> NamedGroups;
}
impl SupportedGroups for NamedGroups {
fn supported() -> NamedGroups {
vec![ NamedGroup::X25519, NamedGroup::secp384r1, NamedGroup::secp256r1 ]
}
}
declare_u16_vec!(SupportedSignatureSchemes, SignatureScheme);
pub trait DecomposedSignatureScheme {
fn sign(&self) -> SignatureAlgorithm;
fn make(alg: SignatureAlgorithm, hash: HashAlgorithm) -> SignatureScheme;
}
impl DecomposedSignatureScheme for SignatureScheme {
fn sign(&self) -> SignatureAlgorithm {
match *self {
SignatureScheme::RSA_PKCS1_SHA1 |
SignatureScheme::RSA_PKCS1_SHA256 |
SignatureScheme::RSA_PKCS1_SHA384 |
SignatureScheme::RSA_PKCS1_SHA512 |
SignatureScheme::RSA_PSS_SHA256 |
SignatureScheme::RSA_PSS_SHA384 |
SignatureScheme::RSA_PSS_SHA512 => SignatureAlgorithm::RSA,
SignatureScheme::ECDSA_NISTP256_SHA256 |
SignatureScheme::ECDSA_NISTP384_SHA384 |
SignatureScheme::ECDSA_NISTP521_SHA512 => SignatureAlgorithm::ECDSA,
_ => SignatureAlgorithm::Unknown(0),
}
}
fn make(alg: SignatureAlgorithm, hash: HashAlgorithm) -> SignatureScheme {
use crate::msgs::enums::SignatureAlgorithm::{RSA, ECDSA};
use crate::msgs::enums::HashAlgorithm::{SHA1, SHA256, SHA384, SHA512};
match (alg, hash) {
(RSA, SHA1) => SignatureScheme::RSA_PKCS1_SHA1,
(RSA, SHA256) => SignatureScheme::RSA_PKCS1_SHA256,
(RSA, SHA384) => SignatureScheme::RSA_PKCS1_SHA384,
(RSA, SHA512) => SignatureScheme::RSA_PKCS1_SHA512,
(ECDSA, SHA256) => SignatureScheme::ECDSA_NISTP256_SHA256,
(ECDSA, SHA384) => SignatureScheme::ECDSA_NISTP384_SHA384,
(ECDSA, SHA512) => SignatureScheme::ECDSA_NISTP521_SHA512,
(_, _) => unreachable!(),
}
}
}
pub trait SupportedMandatedSignatureSchemes {
fn supported_verify() -> SupportedSignatureSchemes;
fn supported_sign_tls13() -> SupportedSignatureSchemes;
}
impl SupportedMandatedSignatureSchemes for SupportedSignatureSchemes {
fn supported_verify() -> SupportedSignatureSchemes {
vec![
SignatureScheme::ECDSA_NISTP384_SHA384,
SignatureScheme::ECDSA_NISTP256_SHA256,
SignatureScheme::RSA_PSS_SHA512,
SignatureScheme::RSA_PSS_SHA384,
SignatureScheme::RSA_PSS_SHA256,
SignatureScheme::RSA_PKCS1_SHA512,
SignatureScheme::RSA_PKCS1_SHA384,
SignatureScheme::RSA_PKCS1_SHA256,
SignatureScheme::RSA_PKCS1_SHA1,
]
}
fn supported_sign_tls13() -> SupportedSignatureSchemes {
vec![
SignatureScheme::ECDSA_NISTP384_SHA384,
SignatureScheme::ECDSA_NISTP256_SHA256,
SignatureScheme::RSA_PSS_SHA512,
SignatureScheme::RSA_PSS_SHA384,
SignatureScheme::RSA_PSS_SHA256,
]
}
}
#[derive(Clone, Debug)]
pub enum ServerNamePayload {
HostName(webpki::DNSName),
Unknown(Payload),
}
impl ServerNamePayload {
fn read_hostname(r: &mut Reader) -> Option<ServerNamePayload> {
let len = u16::read(r)? as usize;
let name = r.take(len)?;
let dns_name = match webpki::DNSNameRef::try_from_ascii(
untrusted::Input::from(name)) {
Ok(dns_name) => dns_name,
Err(_) => {
warn!("Illegal SNI hostname received {:?}", name);
return None;
}
};
Some(ServerNamePayload::HostName(dns_name.into()))
}
fn encode_hostname(name: webpki::DNSNameRef, bytes: &mut Vec<u8>) {
let dns_name_str: &str = name.into();
(dns_name_str.len() as u16).encode(bytes);
bytes.extend_from_slice(dns_name_str.as_bytes());
}
fn encode(&self, bytes: &mut Vec<u8>) {
match *self {
ServerNamePayload::HostName(ref r) => ServerNamePayload::encode_hostname(r.as_ref(), bytes),
ServerNamePayload::Unknown(ref r) => r.encode(bytes),
}
}
}
#[derive(Clone, Debug)]
pub struct ServerName {
pub typ: ServerNameType,
pub payload: ServerNamePayload,
}
impl Codec for ServerName {
fn encode(&self, bytes: &mut Vec<u8>) {
self.typ.encode(bytes);
self.payload.encode(bytes);
}
fn read(r: &mut Reader) -> Option<ServerName> {
let typ = ServerNameType::read(r)?;
let payload = match typ {
ServerNameType::HostName => ServerNamePayload::read_hostname(r)?,
_ => ServerNamePayload::Unknown(Payload::read(r)?),
};
Some(ServerName {
typ,
payload,
})
}
}
declare_u16_vec!(ServerNameRequest, ServerName);
pub trait ConvertServerNameList {
fn get_hostname(&self) -> Option<webpki::DNSNameRef>;
}
impl ConvertServerNameList for ServerNameRequest {
fn get_hostname(&self) -> Option<webpki::DNSNameRef> {
for name in self {
if let ServerNamePayload::HostName(ref dns_name) = name.payload {
return Some(dns_name.as_ref());
}
}
None
}
}
pub type ProtocolNameList = VecU16OfPayloadU8;
pub trait ConvertProtocolNameList {
fn from_slices(names: &[&[u8]]) -> Self;
fn to_vecs(&self) -> Vec<Vec<u8>>;
fn as_single_slice(&self) -> Option<&[u8]>;
}
impl ConvertProtocolNameList for ProtocolNameList {
fn from_slices(names: &[&[u8]]) -> ProtocolNameList {
let mut ret = Vec::new();
for name in names {
ret.push(PayloadU8::new(name.to_vec()));
}
ret
}
fn to_vecs(&self) -> Vec<Vec<u8>> {
let mut ret = Vec::new();
for proto in self {
ret.push(proto.0.clone());
}
ret
}
fn as_single_slice(&self) -> Option<&[u8]> {
if self.len() == 1 {
Some(&self[0].0)
} else {
None
}
}
}
#[derive(Clone, Debug)]
pub struct KeyShareEntry {
pub group: NamedGroup,
pub payload: PayloadU16,
}
impl KeyShareEntry {
pub fn new(group: NamedGroup, payload: &[u8]) -> KeyShareEntry {
KeyShareEntry {
group,
payload: PayloadU16::new(payload.to_vec()),
}
}
}
impl Codec for KeyShareEntry {
fn encode(&self, bytes: &mut Vec<u8>) {
self.group.encode(bytes);
self.payload.encode(bytes);
}
fn read(r: &mut Reader) -> Option<KeyShareEntry> {
let group = NamedGroup::read(r)?;
let payload = PayloadU16::read(r)?;
Some(KeyShareEntry {
group,
payload,
})
}
}
#[derive(Clone, Debug)]
pub struct PresharedKeyIdentity {
pub identity: PayloadU16,
pub obfuscated_ticket_age: u32,
}
impl PresharedKeyIdentity {
pub fn new(id: Vec<u8>, age: u32) -> PresharedKeyIdentity {
PresharedKeyIdentity {
identity: PayloadU16::new(id),
obfuscated_ticket_age: age,
}
}
}
impl Codec for PresharedKeyIdentity {
fn encode(&self, bytes: &mut Vec<u8>) {
self.identity.encode(bytes);
self.obfuscated_ticket_age.encode(bytes);
}
fn read(r: &mut Reader) -> Option<PresharedKeyIdentity> {
Some(PresharedKeyIdentity {
identity: PayloadU16::read(r)?,
obfuscated_ticket_age: u32::read(r)?,
})
}
}
declare_u16_vec!(PresharedKeyIdentities, PresharedKeyIdentity);
pub type PresharedKeyBinder = PayloadU8;
pub type PresharedKeyBinders = VecU16OfPayloadU8;
#[derive(Clone, Debug)]
pub struct PresharedKeyOffer {
pub identities: PresharedKeyIdentities,
pub binders: PresharedKeyBinders,
}
impl PresharedKeyOffer {
pub fn new(id: PresharedKeyIdentity, binder: Vec<u8>) -> PresharedKeyOffer {
PresharedKeyOffer {
identities: vec![ id ],
binders: vec![ PresharedKeyBinder::new(binder) ],
}
}
}
impl Codec for PresharedKeyOffer {
fn encode(&self, bytes: &mut Vec<u8>) {
self.identities.encode(bytes);
self.binders.encode(bytes);
}
fn read(r: &mut Reader) -> Option<PresharedKeyOffer> {
Some(PresharedKeyOffer {
identities: PresharedKeyIdentities::read(r)?,
binders: PresharedKeyBinders::read(r)?,
})
}
}
type ResponderIDs = VecU16OfPayloadU16;
#[derive(Clone, Debug)]
pub struct OCSPCertificateStatusRequest {
pub responder_ids: ResponderIDs,
pub extensions: PayloadU16,
}
impl Codec for OCSPCertificateStatusRequest {
fn encode(&self, bytes: &mut Vec<u8>) {
CertificateStatusType::OCSP.encode(bytes);
self.responder_ids.encode(bytes);
self.extensions.encode(bytes);
}
fn read(r: &mut Reader) -> Option<OCSPCertificateStatusRequest> {
Some(OCSPCertificateStatusRequest {
responder_ids: ResponderIDs::read(r)?,
extensions: PayloadU16::read(r)?,
})
}
}
#[derive(Clone, Debug)]
pub enum CertificateStatusRequest {
OCSP(OCSPCertificateStatusRequest),
Unknown((CertificateStatusType, Payload))
}
impl Codec for CertificateStatusRequest {
fn encode(&self, bytes: &mut Vec<u8>) {
match *self {
CertificateStatusRequest::OCSP(ref r) => r.encode(bytes),
CertificateStatusRequest::Unknown((typ, ref payload)) => {
typ.encode(bytes);
payload.encode(bytes);
}
}
}
fn read(r: &mut Reader) -> Option<CertificateStatusRequest> {
let typ = CertificateStatusType::read(r)?;
match typ {
CertificateStatusType::OCSP => {
let ocsp_req = OCSPCertificateStatusRequest::read(r)?;
Some(CertificateStatusRequest::OCSP(ocsp_req))
}
_ => {
let data = Payload::read(r)?;
Some(CertificateStatusRequest::Unknown((typ, data)))
}
}
}
}
impl CertificateStatusRequest {
pub fn build_ocsp() -> CertificateStatusRequest {
let ocsp = OCSPCertificateStatusRequest {
responder_ids: ResponderIDs::new(),
extensions: PayloadU16::empty(),
};
CertificateStatusRequest::OCSP(ocsp)
}
}
pub type SCTList = VecU16OfPayloadU16;
declare_u8_vec!(PSKKeyExchangeModes, PSKKeyExchangeMode);
declare_u16_vec!(KeyShareEntries, KeyShareEntry);
declare_u8_vec!(ProtocolVersions, ProtocolVersion);
#[derive(Clone, Debug)]
pub enum ClientExtension {
ECPointFormats(ECPointFormatList),
NamedGroups(NamedGroups),
SignatureAlgorithms(SupportedSignatureSchemes),
ServerName(ServerNameRequest),
SessionTicketRequest,
SessionTicketOffer(Payload),
Protocols(ProtocolNameList),
SupportedVersions(ProtocolVersions),
KeyShare(KeyShareEntries),
PresharedKeyModes(PSKKeyExchangeModes),
PresharedKey(PresharedKeyOffer),
Cookie(PayloadU16),
ExtendedMasterSecretRequest,
CertificateStatusRequest(CertificateStatusRequest),
SignedCertificateTimestampRequest,
TransportParameters(Vec<u8>),
EarlyData,
Unknown(UnknownExtension),
}
impl ClientExtension {
pub fn get_type(&self) -> ExtensionType {
match *self {
ClientExtension::ECPointFormats(_) => ExtensionType::ECPointFormats,
ClientExtension::NamedGroups(_) => ExtensionType::EllipticCurves,
ClientExtension::SignatureAlgorithms(_) => ExtensionType::SignatureAlgorithms,
ClientExtension::ServerName(_) => ExtensionType::ServerName,
ClientExtension::SessionTicketRequest |
ClientExtension::SessionTicketOffer(_) => ExtensionType::SessionTicket,
ClientExtension::Protocols(_) => ExtensionType::ALProtocolNegotiation,
ClientExtension::SupportedVersions(_) => ExtensionType::SupportedVersions,
ClientExtension::KeyShare(_) => ExtensionType::KeyShare,
ClientExtension::PresharedKeyModes(_) => ExtensionType::PSKKeyExchangeModes,
ClientExtension::PresharedKey(_) => ExtensionType::PreSharedKey,
ClientExtension::Cookie(_) => ExtensionType::Cookie,
ClientExtension::ExtendedMasterSecretRequest => ExtensionType::ExtendedMasterSecret,
ClientExtension::CertificateStatusRequest(_) => ExtensionType::StatusRequest,
ClientExtension::SignedCertificateTimestampRequest => ExtensionType::SCT,
ClientExtension::TransportParameters(_) => ExtensionType::TransportParameters,
ClientExtension::EarlyData => ExtensionType::EarlyData,
ClientExtension::Unknown(ref r) => r.typ,
}
}
}
impl Codec for ClientExtension {
fn encode(&self, bytes: &mut Vec<u8>) {
self.get_type().encode(bytes);
let mut sub: Vec<u8> = Vec::new();
match *self {
ClientExtension::ECPointFormats(ref r) => r.encode(&mut sub),
ClientExtension::NamedGroups(ref r) => r.encode(&mut sub),
ClientExtension::SignatureAlgorithms(ref r) => r.encode(&mut sub),
ClientExtension::ServerName(ref r) => r.encode(&mut sub),
ClientExtension::SessionTicketRequest |
ClientExtension::ExtendedMasterSecretRequest |
ClientExtension::SignedCertificateTimestampRequest |
ClientExtension::EarlyData => (),
ClientExtension::SessionTicketOffer(ref r) => r.encode(&mut sub),
ClientExtension::Protocols(ref r) => r.encode(&mut sub),
ClientExtension::SupportedVersions(ref r) => r.encode(&mut sub),
ClientExtension::KeyShare(ref r) => r.encode(&mut sub),
ClientExtension::PresharedKeyModes(ref r) => r.encode(&mut sub),
ClientExtension::PresharedKey(ref r) => r.encode(&mut sub),
ClientExtension::Cookie(ref r) => r.encode(&mut sub),
ClientExtension::CertificateStatusRequest(ref r) => r.encode(&mut sub),
ClientExtension::TransportParameters(ref r) => sub.extend_from_slice(r),
ClientExtension::Unknown(ref r) => r.encode(&mut sub),
}
(sub.len() as u16).encode(bytes);
bytes.append(&mut sub);
}
fn read(r: &mut Reader) -> Option<ClientExtension> {
let typ = ExtensionType::read(r)?;
let len = u16::read(r)? as usize;
let mut sub = r.sub(len)?;
Some(match typ {
ExtensionType::ECPointFormats => {
ClientExtension::ECPointFormats(ECPointFormatList::read(&mut sub)?)
}
ExtensionType::EllipticCurves => {
ClientExtension::NamedGroups(NamedGroups::read(&mut sub)?)
}
ExtensionType::SignatureAlgorithms => {
let schemes = SupportedSignatureSchemes::read(&mut sub)?;
ClientExtension::SignatureAlgorithms(schemes)
}
ExtensionType::ServerName => {
ClientExtension::ServerName(ServerNameRequest::read(&mut sub)?)
}
ExtensionType::SessionTicket => {
if sub.any_left() {
ClientExtension::SessionTicketOffer(Payload::read(&mut sub)?)
} else {
ClientExtension::SessionTicketRequest
}
}
ExtensionType::ALProtocolNegotiation => {
ClientExtension::Protocols(ProtocolNameList::read(&mut sub)?)
}
ExtensionType::SupportedVersions => {
ClientExtension::SupportedVersions(ProtocolVersions::read(&mut sub)?)
}
ExtensionType::KeyShare => {
ClientExtension::KeyShare(KeyShareEntries::read(&mut sub)?)
}
ExtensionType::PSKKeyExchangeModes => {
ClientExtension::PresharedKeyModes(PSKKeyExchangeModes::read(&mut sub)?)
}
ExtensionType::PreSharedKey => {
ClientExtension::PresharedKey(PresharedKeyOffer::read(&mut sub)?)
}
ExtensionType::Cookie => ClientExtension::Cookie(PayloadU16::read(&mut sub)?),
ExtensionType::ExtendedMasterSecret if !sub.any_left() => {
ClientExtension::ExtendedMasterSecretRequest
}
ExtensionType::StatusRequest => {
let csr = CertificateStatusRequest::read(&mut sub)?;
ClientExtension::CertificateStatusRequest(csr)
}
ExtensionType::SCT if !sub.any_left() => {
ClientExtension::SignedCertificateTimestampRequest
}
ExtensionType::TransportParameters => {
ClientExtension::TransportParameters(sub.rest().to_vec())
}
ExtensionType::EarlyData if !sub.any_left() => {
ClientExtension::EarlyData
}
_ => ClientExtension::Unknown(UnknownExtension::read(typ, &mut sub)?),
})
}
}
impl ClientExtension {
pub fn make_sni(dns_name: webpki::DNSNameRef) -> ClientExtension {
let name = ServerName {
typ: ServerNameType::HostName,
payload: ServerNamePayload::HostName(dns_name.into()),
};
ClientExtension::ServerName(vec![ name ])
}
}
#[derive(Clone, Debug)]
pub enum ServerExtension {
ECPointFormats(ECPointFormatList),
ServerNameAck,
SessionTicketAck,
RenegotiationInfo(PayloadU8),
Protocols(ProtocolNameList),
KeyShare(KeyShareEntry),
PresharedKey(u16),
ExtendedMasterSecretAck,
CertificateStatusAck,
SignedCertificateTimestamp(SCTList),
SupportedVersions(ProtocolVersion),
TransportParameters(Vec<u8>),
EarlyData,
Unknown(UnknownExtension),
}
impl ServerExtension {
pub fn get_type(&self) -> ExtensionType {
match *self {
ServerExtension::ECPointFormats(_) => ExtensionType::ECPointFormats,
ServerExtension::ServerNameAck => ExtensionType::ServerName,
ServerExtension::SessionTicketAck => ExtensionType::SessionTicket,
ServerExtension::RenegotiationInfo(_) => ExtensionType::RenegotiationInfo,
ServerExtension::Protocols(_) => ExtensionType::ALProtocolNegotiation,
ServerExtension::KeyShare(_) => ExtensionType::KeyShare,
ServerExtension::PresharedKey(_) => ExtensionType::PreSharedKey,
ServerExtension::ExtendedMasterSecretAck => ExtensionType::ExtendedMasterSecret,
ServerExtension::CertificateStatusAck => ExtensionType::StatusRequest,
ServerExtension::SignedCertificateTimestamp(_) => ExtensionType::SCT,
ServerExtension::SupportedVersions(_) => ExtensionType::SupportedVersions,
ServerExtension::TransportParameters(_) => ExtensionType::TransportParameters,
ServerExtension::EarlyData => ExtensionType::EarlyData,
ServerExtension::Unknown(ref r) => r.typ,
}
}
}
impl Codec for ServerExtension {
fn encode(&self, bytes: &mut Vec<u8>) {
self.get_type().encode(bytes);
let mut sub: Vec<u8> = Vec::new();
match *self {
ServerExtension::ECPointFormats(ref r) => r.encode(&mut sub),
ServerExtension::ServerNameAck |
ServerExtension::SessionTicketAck |
ServerExtension::ExtendedMasterSecretAck |
ServerExtension::CertificateStatusAck |
ServerExtension::EarlyData => (),
ServerExtension::RenegotiationInfo(ref r) => r.encode(&mut sub),
ServerExtension::Protocols(ref r) => r.encode(&mut sub),
ServerExtension::KeyShare(ref r) => r.encode(&mut sub),
ServerExtension::PresharedKey(r) => r.encode(&mut sub),
ServerExtension::SignedCertificateTimestamp(ref r) => r.encode(&mut sub),
ServerExtension::SupportedVersions(ref r) => r.encode(&mut sub),
ServerExtension::TransportParameters(ref r) => sub.extend_from_slice(r),
ServerExtension::Unknown(ref r) => r.encode(&mut sub),
}
(sub.len() as u16).encode(bytes);
bytes.append(&mut sub);
}
fn read(r: &mut Reader) -> Option<ServerExtension> {
let typ = ExtensionType::read(r)?;
let len = u16::read(r)? as usize;
let mut sub = r.sub(len)?;
Some(match typ {
ExtensionType::ECPointFormats => {
ServerExtension::ECPointFormats(ECPointFormatList::read(&mut sub)?)
}
ExtensionType::ServerName => ServerExtension::ServerNameAck,
ExtensionType::SessionTicket => ServerExtension::SessionTicketAck,
ExtensionType::StatusRequest => ServerExtension::CertificateStatusAck,
ExtensionType::RenegotiationInfo => {
ServerExtension::RenegotiationInfo(PayloadU8::read(&mut sub)?)
}
ExtensionType::ALProtocolNegotiation => {
ServerExtension::Protocols(ProtocolNameList::read(&mut sub)?)
}
ExtensionType::KeyShare => {
ServerExtension::KeyShare(KeyShareEntry::read(&mut sub)?)
}
ExtensionType::PreSharedKey => {
ServerExtension::PresharedKey(u16::read(&mut sub)?)
}
ExtensionType::ExtendedMasterSecret => ServerExtension::ExtendedMasterSecretAck,
ExtensionType::SCT => {
let scts = SCTList::read(&mut sub)?;
ServerExtension::SignedCertificateTimestamp(scts)
}
ExtensionType::SupportedVersions => {
ServerExtension::SupportedVersions(ProtocolVersion::read(&mut sub)?)
}
ExtensionType::TransportParameters => {
ServerExtension::TransportParameters(sub.rest().to_vec())
}
ExtensionType::EarlyData => ServerExtension::EarlyData,
_ => ServerExtension::Unknown(UnknownExtension::read(typ, &mut sub)?),
})
}
}
impl ServerExtension {
pub fn make_alpn(proto: &[&[u8]]) -> ServerExtension {
ServerExtension::Protocols(ProtocolNameList::from_slices(proto))
}
pub fn make_empty_renegotiation_info() -> ServerExtension {
let empty = Vec::new();
ServerExtension::RenegotiationInfo(PayloadU8::new(empty))
}
pub fn make_sct(sctl: Vec<u8>) -> ServerExtension {
let scts = SCTList::read_bytes(&sctl)
.expect("invalid SCT list");
ServerExtension::SignedCertificateTimestamp(scts)
}
}
#[derive(Debug)]
pub struct ClientHelloPayload {
pub client_version: ProtocolVersion,
pub random: Random,
pub session_id: SessionID,
pub cipher_suites: Vec<CipherSuite>,
pub compression_methods: Vec<Compression>,
pub extensions: Vec<ClientExtension>,
}
impl Codec for ClientHelloPayload {
fn encode(&self, bytes: &mut Vec<u8>) {
self.client_version.encode(bytes);
self.random.encode(bytes);
self.session_id.encode(bytes);
codec::encode_vec_u16(bytes, &self.cipher_suites);
codec::encode_vec_u8(bytes, &self.compression_methods);
if !self.extensions.is_empty() {
codec::encode_vec_u16(bytes, &self.extensions);
}
}
fn read(r: &mut Reader) -> Option<ClientHelloPayload> {
let mut ret = ClientHelloPayload {
client_version: ProtocolVersion::read(r)?,
random: Random::read(r)?,
session_id: SessionID::read(r)?,
cipher_suites: codec::read_vec_u16::<CipherSuite>(r)?,
compression_methods: codec::read_vec_u8::<Compression>(r)?,
extensions: Vec::new(),
};
if r.any_left() {
ret.extensions = codec::read_vec_u16::<ClientExtension>(r)?;
}
Some(ret)
}
}
impl ClientHelloPayload {
pub fn has_duplicate_extension(&self) -> bool {
let mut seen = collections::HashSet::new();
for ext in &self.extensions {
let typ = ext.get_type().get_u16();
if seen.contains(&typ) {
return true;
}
seen.insert(typ);
}
false
}
pub fn find_extension(&self, ext: ExtensionType) -> Option<&ClientExtension> {
self.extensions.iter().find(|x| x.get_type() == ext)
}
pub fn get_sni_extension(&self) -> Option<&ServerNameRequest> {
let ext = self.find_extension(ExtensionType::ServerName)?;
match *ext {
ClientExtension::ServerName(ref req) => Some(req),
_ => None,
}
}
pub fn get_sigalgs_extension(&self) -> Option<&SupportedSignatureSchemes> {
let ext = self.find_extension(ExtensionType::SignatureAlgorithms)?;
match *ext {
ClientExtension::SignatureAlgorithms(ref req) => Some(req),
_ => None,
}
}
pub fn get_namedgroups_extension(&self) -> Option<&NamedGroups> {
let ext = self.find_extension(ExtensionType::EllipticCurves)?;
match *ext {
ClientExtension::NamedGroups(ref req) => Some(req),
_ => None,
}
}
pub fn get_ecpoints_extension(&self) -> Option<&ECPointFormatList> {
let ext = self.find_extension(ExtensionType::ECPointFormats)?;
match *ext {
ClientExtension::ECPointFormats(ref req) => Some(req),
_ => None,
}
}
pub fn get_alpn_extension(&self) -> Option<&ProtocolNameList> {
let ext = self.find_extension(ExtensionType::ALProtocolNegotiation)?;
match *ext {
ClientExtension::Protocols(ref req) => Some(req),
_ => None,
}
}
pub fn get_quic_params_extension(&self) -> Option<Vec<u8>> {
let ext = self.find_extension(ExtensionType::TransportParameters)?;
match *ext {
ClientExtension::TransportParameters(ref bytes) => Some(bytes.to_vec()),
_ => None,
}
}
pub fn get_ticket_extension(&self) -> Option<&ClientExtension> {
self.find_extension(ExtensionType::SessionTicket)
}
pub fn get_versions_extension(&self) -> Option<&ProtocolVersions> {
let ext = self.find_extension(ExtensionType::SupportedVersions)?;
match *ext {
ClientExtension::SupportedVersions(ref vers) => Some(vers),
_ => None,
}
}
pub fn get_keyshare_extension(&self) -> Option<&KeyShareEntries> {
let ext = self.find_extension(ExtensionType::KeyShare)?;
match *ext {
ClientExtension::KeyShare(ref shares) => Some(shares),
_ => None,
}
}
pub fn has_keyshare_extension_with_duplicates(&self) -> bool {
let entries = self.get_keyshare_extension();
if entries.is_none() {
return false;
}
let mut seen = collections::HashSet::new();
for kse in entries.unwrap() {
let grp = kse.group.get_u16();
if seen.contains(&grp) {
return true;
}
seen.insert(grp);
}
false
}
pub fn get_psk(&self) -> Option<&PresharedKeyOffer> {
let ext = self.find_extension(ExtensionType::PreSharedKey)?;
match *ext {
ClientExtension::PresharedKey(ref psk) => Some(psk),
_ => None,
}
}
pub fn check_psk_ext_is_last(&self) -> bool {
self.extensions
.last()
.map_or(false, |ext| ext.get_type() == ExtensionType::PreSharedKey)
}
pub fn get_psk_modes(&self) -> Option<&PSKKeyExchangeModes> {
let ext = self.find_extension(ExtensionType::PSKKeyExchangeModes)?;
match *ext {
ClientExtension::PresharedKeyModes(ref psk_modes) => Some(psk_modes),
_ => None,
}
}
pub fn psk_mode_offered(&self, mode: PSKKeyExchangeMode) -> bool {
self.get_psk_modes()
.and_then(|modes| Some(modes.contains(&mode)))
.or(Some(false))
.unwrap()
}
pub fn set_psk_binder(&mut self, binder: Vec<u8>) {
let last_extension = self.extensions.last_mut().unwrap();
if let ClientExtension::PresharedKey(ref mut offer) = *last_extension {
offer.binders[0] = PresharedKeyBinder::new(binder);
}
}
pub fn ems_support_offered(&self) -> bool {
self.find_extension(ExtensionType::ExtendedMasterSecret)
.is_some()
}
pub fn early_data_extension_offered(&self) -> bool {
self.find_extension(ExtensionType::EarlyData).is_some()
}
}
#[derive(Debug)]
pub enum HelloRetryExtension {
KeyShare(NamedGroup),
Cookie(PayloadU16),
SupportedVersions(ProtocolVersion),
Unknown(UnknownExtension),
}
impl HelloRetryExtension {
pub fn get_type(&self) -> ExtensionType {
match *self {
HelloRetryExtension::KeyShare(_) => ExtensionType::KeyShare,
HelloRetryExtension::Cookie(_) => ExtensionType::Cookie,
HelloRetryExtension::SupportedVersions(_) => ExtensionType::SupportedVersions,
HelloRetryExtension::Unknown(ref r) => r.typ,
}
}
}
impl Codec for HelloRetryExtension {
fn encode(&self, bytes: &mut Vec<u8>) {
self.get_type().encode(bytes);
let mut sub: Vec<u8> = Vec::new();
match *self {
HelloRetryExtension::KeyShare(ref r) => r.encode(&mut sub),
HelloRetryExtension::Cookie(ref r) => r.encode(&mut sub),
HelloRetryExtension::SupportedVersions(ref r) => r.encode(&mut sub),
HelloRetryExtension::Unknown(ref r) => r.encode(&mut sub),
}
(sub.len() as u16).encode(bytes);
bytes.append(&mut sub);
}
fn read(r: &mut Reader) -> Option<HelloRetryExtension> {
let typ = ExtensionType::read(r)?;
let len = u16::read(r)? as usize;
let mut sub = r.sub(len)?;
Some(match typ {
ExtensionType::KeyShare => {
HelloRetryExtension::KeyShare(NamedGroup::read(&mut sub)?)
}
ExtensionType::Cookie => {
HelloRetryExtension::Cookie(PayloadU16::read(&mut sub)?)
}
ExtensionType::SupportedVersions => {
HelloRetryExtension::SupportedVersions(ProtocolVersion::read(&mut sub)?)
}
_ => HelloRetryExtension::Unknown(UnknownExtension::read(typ, &mut sub)?),
})
}
}
#[derive(Debug)]
pub struct HelloRetryRequest {
pub legacy_version: ProtocolVersion,
pub session_id: SessionID,
pub cipher_suite: CipherSuite,
pub extensions: Vec<HelloRetryExtension>,
}
impl Codec for HelloRetryRequest {
fn encode(&self, bytes: &mut Vec<u8>) {
self.legacy_version.encode(bytes);
HELLO_RETRY_REQUEST_RANDOM.encode(bytes);
self.session_id.encode(bytes);
self.cipher_suite.encode(bytes);
Compression::Null.encode(bytes);
codec::encode_vec_u16(bytes, &self.extensions);
}
fn read(r: &mut Reader) -> Option<HelloRetryRequest> {
let session_id = SessionID::read(r)?;
let cipher_suite = CipherSuite::read(r)?;
let compression = Compression::read(r)?;
if compression != Compression::Null {
return None;
}
Some(HelloRetryRequest {
legacy_version: ProtocolVersion::Unknown(0),
session_id,
cipher_suite,
extensions: codec::read_vec_u16::<HelloRetryExtension>(r)?,
})
}
}
impl HelloRetryRequest {
pub fn has_duplicate_extension(&self) -> bool {
let mut seen = collections::HashSet::new();
for ext in &self.extensions {
let typ = ext.get_type().get_u16();
if seen.contains(&typ) {
return true;
}
seen.insert(typ);
}
false
}
pub fn has_unknown_extension(&self) -> bool {
self.extensions
.iter()
.any(|ext| {
ext.get_type() != ExtensionType::KeyShare &&
ext.get_type() != ExtensionType::SupportedVersions &&
ext.get_type() != ExtensionType::Cookie
})
}
fn find_extension(&self, ext: ExtensionType) -> Option<&HelloRetryExtension> {
self.extensions.iter().find(|x| x.get_type() == ext)
}
pub fn get_requested_key_share_group(&self) -> Option<NamedGroup> {
let ext = self.find_extension(ExtensionType::KeyShare)?;
match *ext {
HelloRetryExtension::KeyShare(grp) => Some(grp),
_ => None,
}
}
pub fn get_cookie(&self) -> Option<&PayloadU16> {
let ext = self.find_extension(ExtensionType::Cookie)?;
match *ext {
HelloRetryExtension::Cookie(ref ck) => Some(ck),
_ => None,
}
}
pub fn get_supported_versions(&self) -> Option<ProtocolVersion> {
let ext = self.find_extension(ExtensionType::SupportedVersions)?;
match *ext {
HelloRetryExtension::SupportedVersions(ver) => Some(ver),
_ => None,
}
}
}
#[derive(Debug)]
pub struct ServerHelloPayload {
pub legacy_version: ProtocolVersion,
pub random: Random,
pub session_id: SessionID,
pub cipher_suite: CipherSuite,
pub compression_method: Compression,
pub extensions: Vec<ServerExtension>,
}
impl Codec for ServerHelloPayload {
fn encode(&self, bytes: &mut Vec<u8>) {
self.legacy_version.encode(bytes);
self.random.encode(bytes);
self.session_id.encode(bytes);
self.cipher_suite.encode(bytes);
self.compression_method.encode(bytes);
if !self.extensions.is_empty() {
codec::encode_vec_u16(bytes, &self.extensions);
}
}
fn read(r: &mut Reader) -> Option<ServerHelloPayload> {
let session_id = SessionID::read(r)?;
let suite = CipherSuite::read(r)?;
let compression = Compression::read(r)?;
let mut ret = ServerHelloPayload {
legacy_version: ProtocolVersion::Unknown(0),
random: ZERO_RANDOM.clone(),
session_id,
cipher_suite: suite,
compression_method: compression,
extensions: Vec::new(),
};
if r.any_left() {
ret.extensions = codec::read_vec_u16::<ServerExtension>(r)?;
}
Some(ret)
}
}
impl HasServerExtensions for ServerHelloPayload {
fn get_extensions(&self) -> &[ServerExtension] {
&self.extensions
}
}
impl ServerHelloPayload {
pub fn get_key_share(&self) -> Option<&KeyShareEntry> {
let ext = self.find_extension(ExtensionType::KeyShare)?;
match *ext {
ServerExtension::KeyShare(ref share) => Some(share),
_ => None,
}
}
pub fn get_psk_index(&self) -> Option<u16> {
let ext = self.find_extension(ExtensionType::PreSharedKey)?;
match *ext {
ServerExtension::PresharedKey(ref index) => Some(*index),
_ => None,
}
}
pub fn get_ecpoints_extension(&self) -> Option<&ECPointFormatList> {
let ext = self.find_extension(ExtensionType::ECPointFormats)?;
match *ext {
ServerExtension::ECPointFormats(ref fmts) => Some(fmts),
_ => None,
}
}
pub fn ems_support_acked(&self) -> bool {
self.find_extension(ExtensionType::ExtendedMasterSecret)
.is_some()
}
pub fn get_sct_list(&self) -> Option<&SCTList> {
let ext = self.find_extension(ExtensionType::SCT)?;
match *ext {
ServerExtension::SignedCertificateTimestamp(ref sctl) => Some(sctl),
_ => None,
}
}
pub fn get_supported_versions(&self) -> Option<ProtocolVersion> {
let ext = self.find_extension(ExtensionType::SupportedVersions)?;
match *ext {
ServerExtension::SupportedVersions(vers) => Some(vers),
_ => None,
}
}
}
pub type CertificatePayload = Vec<key::Certificate>;
impl Codec for CertificatePayload {
fn encode(&self, bytes: &mut Vec<u8>) {
codec::encode_vec_u24(bytes, self);
}
fn read(r: &mut Reader) -> Option<CertificatePayload> {
codec::read_vec_u24_limited(r, 0x10000)
}
}
#[derive(Debug)]
pub enum CertificateExtension {
CertificateStatus(CertificateStatus),
SignedCertificateTimestamp(SCTList),
Unknown(UnknownExtension),
}
impl CertificateExtension {
pub fn get_type(&self) -> ExtensionType {
match *self {
CertificateExtension::CertificateStatus(_) => ExtensionType::StatusRequest,
CertificateExtension::SignedCertificateTimestamp(_) => ExtensionType::SCT,
CertificateExtension::Unknown(ref r) => r.typ,
}
}
pub fn make_sct(sct_list: Vec<u8>) -> CertificateExtension {
let sctl = SCTList::read_bytes(&sct_list)
.expect("invalid SCT list");
CertificateExtension::SignedCertificateTimestamp(sctl)
}
pub fn get_cert_status(&self) -> Option<&Vec<u8>> {
match *self {
CertificateExtension::CertificateStatus(ref cs) => Some(&cs.ocsp_response.0),
_ => None
}
}
pub fn get_sct_list(&self) -> Option<&SCTList> {
match *self {
CertificateExtension::SignedCertificateTimestamp(ref sctl) => Some(sctl),
_ => None
}
}
}
impl Codec for CertificateExtension {
fn encode(&self, bytes: &mut Vec<u8>) {
self.get_type().encode(bytes);
let mut sub: Vec<u8> = Vec::new();
match *self {
CertificateExtension::CertificateStatus(ref r) => r.encode(&mut sub),
CertificateExtension::SignedCertificateTimestamp(ref r) => r.encode(&mut sub),
CertificateExtension::Unknown(ref r) => r.encode(&mut sub),
}
(sub.len() as u16).encode(bytes);
bytes.append(&mut sub);
}
fn read(r: &mut Reader) -> Option<CertificateExtension> {
let typ = ExtensionType::read(r)?;
let len = u16::read(r)? as usize;
let mut sub = r.sub(len)?;
Some(match typ {
ExtensionType::StatusRequest => {
let st = CertificateStatus::read(&mut sub)?;
CertificateExtension::CertificateStatus(st)
}
ExtensionType::SCT => {
let scts = SCTList::read(&mut sub)?;
CertificateExtension::SignedCertificateTimestamp(scts)
}
_ => CertificateExtension::Unknown(UnknownExtension::read(typ, &mut sub)?),
})
}
}
declare_u16_vec!(CertificateExtensions, CertificateExtension);
#[derive(Debug)]
pub struct CertificateEntry {
pub cert: key::Certificate,
pub exts: CertificateExtensions,
}
impl Codec for CertificateEntry {
fn encode(&self, bytes: &mut Vec<u8>) {
self.cert.encode(bytes);
self.exts.encode(bytes);
}
fn read(r: &mut Reader) -> Option<CertificateEntry> {
Some(CertificateEntry {
cert: key::Certificate::read(r)?,
exts: CertificateExtensions::read(r)?,
})
}
}
impl CertificateEntry {
pub fn new(cert: key::Certificate) -> CertificateEntry {
CertificateEntry {
cert,
exts: Vec::new(),
}
}
pub fn has_duplicate_extension(&self) -> bool {
let mut seen = collections::HashSet::new();
for ext in &self.exts {
let typ = ext.get_type().get_u16();
if seen.contains(&typ) {
return true;
}
seen.insert(typ);
}
false
}
pub fn has_unknown_extension(&self) -> bool {
self.exts
.iter()
.any(|ext| {
ext.get_type() != ExtensionType::StatusRequest &&
ext.get_type() != ExtensionType::SCT
})
}
pub fn get_ocsp_response(&self) -> Option<&Vec<u8>> {
self.exts
.iter()
.find(|ext| ext.get_type() == ExtensionType::StatusRequest)
.and_then(|ext| ext.get_cert_status())
}
pub fn get_scts(&self) -> Option<&SCTList> {
self.exts
.iter()
.find(|ext| ext.get_type() == ExtensionType::SCT)
.and_then(|ext| ext.get_sct_list())
}
}
#[derive(Debug)]
pub struct CertificatePayloadTLS13 {
pub context: PayloadU8,
pub list: Vec<CertificateEntry>,
}
impl Codec for CertificatePayloadTLS13 {
fn encode(&self, bytes: &mut Vec<u8>) {
self.context.encode(bytes);
codec::encode_vec_u24(bytes, &self.list);
}
fn read(r: &mut Reader) -> Option<CertificatePayloadTLS13> {
Some(CertificatePayloadTLS13 {
context: PayloadU8::read(r)?,
list: codec::read_vec_u24_limited::<CertificateEntry>(r, 0x10000)?,
})
}
}
impl CertificatePayloadTLS13 {
pub fn new() -> CertificatePayloadTLS13 {
CertificatePayloadTLS13 {
context: PayloadU8::empty(),
list: Vec::new(),
}
}
pub fn any_entry_has_duplicate_extension(&self) -> bool {
for ent in &self.list {
if ent.has_duplicate_extension() {
return true;
}
}
false
}
pub fn any_entry_has_unknown_extension(&self) -> bool {
for ent in &self.list {
if ent.has_unknown_extension() {
return true;
}
}
false
}
pub fn any_entry_has_extension(&self) -> bool {
for ent in &self.list {
if !ent.exts.is_empty() {
return true;
}
}
false
}
pub fn get_end_entity_ocsp(&self) -> Vec<u8> {
self.list.first()
.and_then(|ent| ent.get_ocsp_response())
.cloned()
.unwrap_or_else( Vec::new)
}
pub fn get_end_entity_scts(&self) -> Option<SCTList> {
self.list.first()
.and_then(|ent| ent.get_scts())
.cloned()
}
pub fn convert(&self) -> CertificatePayload {
let mut ret = Vec::new();
for entry in &self.list {
ret.push(entry.cert.clone());
}
ret
}
}
#[derive(Debug)]
pub enum KeyExchangeAlgorithm {
BulkOnly,
DH,
DHE,
RSA,
ECDH,
ECDHE,
}
#[derive(Debug)]
pub struct ECParameters {
pub curve_type: ECCurveType,
pub named_group: NamedGroup,
}
impl Codec for ECParameters {
fn encode(&self, bytes: &mut Vec<u8>) {
self.curve_type.encode(bytes);
self.named_group.encode(bytes);
}
fn read(r: &mut Reader) -> Option<ECParameters> {
let ct = ECCurveType::read(r)?;
if ct != ECCurveType::NamedCurve {
return None;
}
let grp = NamedGroup::read(r)?;
Some(ECParameters {
curve_type: ct,
named_group: grp,
})
}
}
#[derive(Debug, Clone)]
pub struct DigitallySignedStruct {
pub scheme: SignatureScheme,
pub sig: PayloadU16,
}
impl DigitallySignedStruct {
pub fn new(scheme: SignatureScheme, sig: Vec<u8>) -> DigitallySignedStruct {
DigitallySignedStruct {
scheme,
sig: PayloadU16::new(sig),
}
}
}
impl Codec for DigitallySignedStruct {
fn encode(&self, bytes: &mut Vec<u8>) {
self.scheme.encode(bytes);
self.sig.encode(bytes);
}
fn read(r: &mut Reader) -> Option<DigitallySignedStruct> {
let scheme = SignatureScheme::read(r)?;
let sig = PayloadU16::read(r)?;
Some(DigitallySignedStruct {
scheme,
sig,
})
}
}
#[derive(Debug)]
pub struct ClientECDHParams {
pub public: PayloadU8,
}
impl Codec for ClientECDHParams {
fn encode(&self, bytes: &mut Vec<u8>) {
self.public.encode(bytes);
}
fn read(r: &mut Reader) -> Option<ClientECDHParams> {
let pb = PayloadU8::read(r)?;
Some(ClientECDHParams { public: pb })
}
}
#[derive(Debug)]
pub struct ServerECDHParams {
pub curve_params: ECParameters,
pub public: PayloadU8,
}
impl ServerECDHParams {
pub fn new(named_group: &NamedGroup, pubkey: &[u8]) -> ServerECDHParams {
ServerECDHParams {
curve_params: ECParameters {
curve_type: ECCurveType::NamedCurve,
named_group: *named_group,
},
public: PayloadU8::new(pubkey.to_vec()),
}
}
}
impl Codec for ServerECDHParams {
fn encode(&self, bytes: &mut Vec<u8>) {
self.curve_params.encode(bytes);
self.public.encode(bytes);
}
fn read(r: &mut Reader) -> Option<ServerECDHParams> {
let cp = ECParameters::read(r)?;
let pb = PayloadU8::read(r)?;
Some(ServerECDHParams {
curve_params: cp,
public: pb,
})
}
}
#[derive(Debug)]
pub struct ECDHEServerKeyExchange {
pub params: ServerECDHParams,
pub dss: DigitallySignedStruct,
}
impl Codec for ECDHEServerKeyExchange {
fn encode(&self, bytes: &mut Vec<u8>) {
self.params.encode(bytes);
self.dss.encode(bytes);
}
fn read(r: &mut Reader) -> Option<ECDHEServerKeyExchange> {
let params = ServerECDHParams::read(r)?;
let dss = DigitallySignedStruct::read(r)?;
Some(ECDHEServerKeyExchange {
params,
dss,
})
}
}
#[derive(Debug)]
pub enum ServerKeyExchangePayload {
ECDHE(ECDHEServerKeyExchange),
Unknown(Payload),
}
impl Codec for ServerKeyExchangePayload {
fn encode(&self, bytes: &mut Vec<u8>) {
match *self {
ServerKeyExchangePayload::ECDHE(ref x) => x.encode(bytes),
ServerKeyExchangePayload::Unknown(ref x) => x.encode(bytes),
}
}
fn read(r: &mut Reader) -> Option<ServerKeyExchangePayload> {
Payload::read(r).and_then(|x| Some(ServerKeyExchangePayload::Unknown(x)))
}
}
impl ServerKeyExchangePayload {
pub fn unwrap_given_kxa(&self, kxa: &KeyExchangeAlgorithm) -> Option<ServerKeyExchangePayload> {
if let ServerKeyExchangePayload::Unknown(ref unk) = *self {
let mut rd = Reader::init(&unk.0);
let result = match *kxa {
KeyExchangeAlgorithm::ECDHE => {
ECDHEServerKeyExchange::read(&mut rd)
.and_then(|x| Some(ServerKeyExchangePayload::ECDHE(x)))
}
_ => None,
};
if !rd.any_left() {
return result;
};
}
None
}
pub fn encode_params(&self, bytes: &mut Vec<u8>) {
bytes.clear();
if let ServerKeyExchangePayload::ECDHE(ref x) = *self {
x.params.encode(bytes);
}
}
pub fn get_sig(&self) -> Option<DigitallySignedStruct> {
match *self {
ServerKeyExchangePayload::ECDHE(ref x) => Some(x.dss.clone()),
_ => None,
}
}
}
declare_u16_vec!(EncryptedExtensions, ServerExtension);
pub trait HasServerExtensions {
fn get_extensions(&self) -> &[ServerExtension];
fn has_duplicate_extension(&self) -> bool {
let mut seen = collections::HashSet::new();
for ext in self.get_extensions() {
let typ = ext.get_type().get_u16();
if seen.contains(&typ) {
return true;
}
seen.insert(typ);
}
false
}
fn find_extension(&self, ext: ExtensionType) -> Option<&ServerExtension> {
self.get_extensions().iter().find(|x| x.get_type() == ext)
}
fn get_alpn_protocol(&self) -> Option<&[u8]> {
let ext = self.find_extension(ExtensionType::ALProtocolNegotiation)?;
match *ext {
ServerExtension::Protocols(ref protos) => protos.as_single_slice(),
_ => None,
}
}
fn get_quic_params_extension(&self) -> Option<Vec<u8>> {
let ext = self.find_extension(ExtensionType::TransportParameters)?;
match *ext {
ServerExtension::TransportParameters(ref bytes) => Some(bytes.to_vec()),
_ => None,
}
}
fn early_data_extension_offered(&self) -> bool {
self.find_extension(ExtensionType::EarlyData).is_some()
}
}
impl HasServerExtensions for EncryptedExtensions {
fn get_extensions(&self) -> &[ServerExtension] {
self
}
}
declare_u8_vec!(ClientCertificateTypes, ClientCertificateType);
pub type DistinguishedName = PayloadU16;
pub type DistinguishedNames = VecU16OfPayloadU16;
#[derive(Debug)]
pub struct CertificateRequestPayload {
pub certtypes: ClientCertificateTypes,
pub sigschemes: SupportedSignatureSchemes,
pub canames: DistinguishedNames,
}
impl Codec for CertificateRequestPayload {
fn encode(&self, bytes: &mut Vec<u8>) {
self.certtypes.encode(bytes);
self.sigschemes.encode(bytes);
self.canames.encode(bytes);
}
fn read(r: &mut Reader) -> Option<CertificateRequestPayload> {
let certtypes = ClientCertificateTypes::read(r)?;
let sigschemes = SupportedSignatureSchemes::read(r)?;
let canames = DistinguishedNames::read(r)?;
Some(CertificateRequestPayload {
certtypes,
sigschemes,
canames,
})
}
}
#[derive(Debug)]
pub enum CertReqExtension {
SignatureAlgorithms(SupportedSignatureSchemes),
AuthorityNames(DistinguishedNames),
Unknown(UnknownExtension),
}
impl CertReqExtension {
pub fn get_type(&self) -> ExtensionType {
match *self {
CertReqExtension::SignatureAlgorithms(_) => ExtensionType::SignatureAlgorithms,
CertReqExtension::AuthorityNames(_) => ExtensionType::CertificateAuthorities,
CertReqExtension::Unknown(ref r) => r.typ,
}
}
}
impl Codec for CertReqExtension {
fn encode(&self, bytes: &mut Vec<u8>) {
self.get_type().encode(bytes);
let mut sub: Vec<u8> = Vec::new();
match *self {
CertReqExtension::SignatureAlgorithms(ref r) => r.encode(&mut sub),
CertReqExtension::AuthorityNames(ref r) => r.encode(&mut sub),
CertReqExtension::Unknown(ref r) => r.encode(&mut sub),
}
(sub.len() as u16).encode(bytes);
bytes.append(&mut sub);
}
fn read(r: &mut Reader) -> Option<CertReqExtension> {
let typ = ExtensionType::read(r)?;
let len = u16::read(r)? as usize;
let mut sub = r.sub(len)?;
Some(match typ {
ExtensionType::SignatureAlgorithms => {
let schemes = SupportedSignatureSchemes::read(&mut sub)?;
if schemes.is_empty() {
return None;
}
CertReqExtension::SignatureAlgorithms(schemes)
}
ExtensionType::CertificateAuthorities => {
let cas = DistinguishedNames::read(&mut sub)?;
CertReqExtension::AuthorityNames(cas)
}
_ => CertReqExtension::Unknown(UnknownExtension::read(typ, &mut sub)?),
})
}
}
declare_u16_vec!(CertReqExtensions, CertReqExtension);
#[derive(Debug)]
pub struct CertificateRequestPayloadTLS13 {
pub context: PayloadU8,
pub extensions: CertReqExtensions,
}
impl Codec for CertificateRequestPayloadTLS13 {
fn encode(&self, bytes: &mut Vec<u8>) {
self.context.encode(bytes);
self.extensions.encode(bytes);
}
fn read(r: &mut Reader) -> Option<CertificateRequestPayloadTLS13> {
let context = PayloadU8::read(r)?;
let extensions = CertReqExtensions::read(r)?;
Some(CertificateRequestPayloadTLS13 {
context,
extensions,
})
}
}
impl CertificateRequestPayloadTLS13 {
pub fn find_extension(&self, ext: ExtensionType) -> Option<&CertReqExtension> {
self.extensions.iter().find(|x| x.get_type() == ext)
}
pub fn get_sigalgs_extension(&self) -> Option<&SupportedSignatureSchemes> {
let ext = self.find_extension(ExtensionType::SignatureAlgorithms)?;
match *ext {
CertReqExtension::SignatureAlgorithms(ref sa) => Some(sa),
_ => None,
}
}
pub fn get_authorities_extension(&self) -> Option<&DistinguishedNames> {
let ext = self.find_extension(ExtensionType::CertificateAuthorities)?;
match *ext {
CertReqExtension::AuthorityNames(ref an) => Some(an),
_ => None,
}
}
}
#[derive(Debug)]
pub struct NewSessionTicketPayload {
pub lifetime_hint: u32,
pub ticket: PayloadU16,
}
impl NewSessionTicketPayload {
pub fn new(lifetime_hint: u32, ticket: Vec<u8>) -> NewSessionTicketPayload {
NewSessionTicketPayload {
lifetime_hint,
ticket: PayloadU16::new(ticket),
}
}
}
impl Codec for NewSessionTicketPayload {
fn encode(&self, bytes: &mut Vec<u8>) {
self.lifetime_hint.encode(bytes);
self.ticket.encode(bytes);
}
fn read(r: &mut Reader) -> Option<NewSessionTicketPayload> {
let lifetime = u32::read(r)?;
let ticket = PayloadU16::read(r)?;
Some(NewSessionTicketPayload {
lifetime_hint: lifetime,
ticket,
})
}
}
#[derive(Debug)]
pub enum NewSessionTicketExtension {
EarlyData(u32),
Unknown(UnknownExtension),
}
impl NewSessionTicketExtension {
pub fn get_type(&self) -> ExtensionType {
match *self {
NewSessionTicketExtension::EarlyData(_) => ExtensionType::EarlyData,
NewSessionTicketExtension::Unknown(ref r) => r.typ,
}
}
}
impl Codec for NewSessionTicketExtension {
fn encode(&self, bytes: &mut Vec<u8>) {
self.get_type().encode(bytes);
let mut sub: Vec<u8> = Vec::new();
match *self {
NewSessionTicketExtension::EarlyData(r) => r.encode(&mut sub),
NewSessionTicketExtension::Unknown(ref r) => r.encode(&mut sub),
}
(sub.len() as u16).encode(bytes);
bytes.append(&mut sub);
}
fn read(r: &mut Reader) -> Option<NewSessionTicketExtension> {
let typ = ExtensionType::read(r)?;
let len = u16::read(r)? as usize;
let mut sub = r.sub(len)?;
Some(match typ {
ExtensionType::EarlyData => NewSessionTicketExtension::EarlyData(u32::read(&mut sub)?),
_ => {
NewSessionTicketExtension::Unknown(UnknownExtension::read(typ, &mut sub)?)
}
})
}
}
declare_u16_vec!(NewSessionTicketExtensions, NewSessionTicketExtension);
#[derive(Debug)]
pub struct NewSessionTicketPayloadTLS13 {
pub lifetime: u32,
pub age_add: u32,
pub nonce: PayloadU8,
pub ticket: PayloadU16,
pub exts: NewSessionTicketExtensions,
}
impl NewSessionTicketPayloadTLS13 {
pub fn new(lifetime: u32,
age_add: u32,
nonce: Vec<u8>,
ticket: Vec<u8>) -> NewSessionTicketPayloadTLS13 {
NewSessionTicketPayloadTLS13 {
lifetime,
age_add,
nonce: PayloadU8::new(nonce),
ticket: PayloadU16::new(ticket),
exts: vec![],
}
}
pub fn find_extension(&self, ext: ExtensionType) -> Option<&NewSessionTicketExtension> {
self.exts.iter().find(|x| x.get_type() == ext)
}
pub fn get_max_early_data_size(&self) -> Option<u32> {
let ext = self.find_extension(ExtensionType::EarlyData)?;
match *ext {
NewSessionTicketExtension::EarlyData(ref sz) => Some(*sz),
_ => None
}
}
}
impl Codec for NewSessionTicketPayloadTLS13 {
fn encode(&self, bytes: &mut Vec<u8>) {
self.lifetime.encode(bytes);
self.age_add.encode(bytes);
self.nonce.encode(bytes);
self.ticket.encode(bytes);
self.exts.encode(bytes);
}
fn read(r: &mut Reader) -> Option<NewSessionTicketPayloadTLS13> {
let lifetime = u32::read(r)?;
let age_add = u32::read(r)?;
let nonce = PayloadU8::read(r)?;
let ticket = PayloadU16::read(r)?;
let exts = NewSessionTicketExtensions::read(r)?;
Some(NewSessionTicketPayloadTLS13 {
lifetime,
age_add,
nonce,
ticket,
exts,
})
}
}
#[derive(Debug)]
pub struct CertificateStatus {
pub ocsp_response: PayloadU24
}
impl Codec for CertificateStatus {
fn encode(&self, bytes: &mut Vec<u8>) {
CertificateStatusType::OCSP.encode(bytes);
self.ocsp_response.encode(bytes);
}
fn read(r: &mut Reader) -> Option<CertificateStatus> {
let typ = CertificateStatusType::read(r)?;
match typ {
CertificateStatusType::OCSP => {
Some(CertificateStatus {
ocsp_response: PayloadU24::read(r)?
})
}
_ => None
}
}
}
impl CertificateStatus {
pub fn new(ocsp: Vec<u8>) -> CertificateStatus {
CertificateStatus { ocsp_response: PayloadU24::new(ocsp) }
}
pub fn take_ocsp_response(&mut self) -> Vec<u8> {
let new = PayloadU24::new(Vec::new());
mem::replace(&mut self.ocsp_response, new).0
}
}
#[derive(Debug)]
pub enum HandshakePayload {
HelloRequest,
ClientHello(ClientHelloPayload),
ServerHello(ServerHelloPayload),
HelloRetryRequest(HelloRetryRequest),
Certificate(CertificatePayload),
CertificateTLS13(CertificatePayloadTLS13),
ServerKeyExchange(ServerKeyExchangePayload),
CertificateRequest(CertificateRequestPayload),
CertificateRequestTLS13(CertificateRequestPayloadTLS13),
CertificateVerify(DigitallySignedStruct),
ServerHelloDone,
EarlyData,
EndOfEarlyData,
ClientKeyExchange(Payload),
NewSessionTicket(NewSessionTicketPayload),
NewSessionTicketTLS13(NewSessionTicketPayloadTLS13),
EncryptedExtensions(EncryptedExtensions),
KeyUpdate(KeyUpdateRequest),
Finished(Payload),
CertificateStatus(CertificateStatus),
MessageHash(Payload),
Unknown(Payload),
}
impl HandshakePayload {
fn encode(&self, bytes: &mut Vec<u8>) {
match *self {
HandshakePayload::HelloRequest |
HandshakePayload::ServerHelloDone |
HandshakePayload::EarlyData |
HandshakePayload::EndOfEarlyData => {}
HandshakePayload::ClientHello(ref x) => x.encode(bytes),
HandshakePayload::ServerHello(ref x) => x.encode(bytes),
HandshakePayload::HelloRetryRequest(ref x) => x.encode(bytes),
HandshakePayload::Certificate(ref x) => x.encode(bytes),
HandshakePayload::CertificateTLS13(ref x) => x.encode(bytes),
HandshakePayload::ServerKeyExchange(ref x) => x.encode(bytes),
HandshakePayload::ClientKeyExchange(ref x) => x.encode(bytes),
HandshakePayload::CertificateRequest(ref x) => x.encode(bytes),
HandshakePayload::CertificateRequestTLS13(ref x) => x.encode(bytes),
HandshakePayload::CertificateVerify(ref x) => x.encode(bytes),
HandshakePayload::NewSessionTicket(ref x) => x.encode(bytes),
HandshakePayload::NewSessionTicketTLS13(ref x) => x.encode(bytes),
HandshakePayload::EncryptedExtensions(ref x) => x.encode(bytes),
HandshakePayload::KeyUpdate(ref x) => x.encode(bytes),
HandshakePayload::Finished(ref x) => x.encode(bytes),
HandshakePayload::CertificateStatus(ref x) => x.encode(bytes),
HandshakePayload::MessageHash(ref x) => x.encode(bytes),
HandshakePayload::Unknown(ref x) => x.encode(bytes),
}
}
}
#[derive(Debug)]
pub struct HandshakeMessagePayload {
pub typ: HandshakeType,
pub payload: HandshakePayload,
}
impl Codec for HandshakeMessagePayload {
fn encode(&self, bytes: &mut Vec<u8>) {
let mut sub: Vec<u8> = Vec::new();
self.payload.encode(&mut sub);
match self.typ {
HandshakeType::HelloRetryRequest => HandshakeType::ServerHello,
_ => self.typ,
}.encode(bytes);
codec::u24(sub.len() as u32).encode(bytes);
bytes.append(&mut sub);
}
fn read(r: &mut Reader) -> Option<HandshakeMessagePayload> {
HandshakeMessagePayload::read_version(r, ProtocolVersion::TLSv1_2)
}
}
impl HandshakeMessagePayload {
pub fn length(&self) -> usize {
let mut buf = Vec::new();
self.encode(&mut buf);
buf.len()
}
pub fn read_version(r: &mut Reader, vers: ProtocolVersion) -> Option<HandshakeMessagePayload> {
let mut typ = HandshakeType::read(r)?;
let len = codec::u24::read(r)?.0 as usize;
let mut sub = r.sub(len)?;
let payload = match typ {
HandshakeType::HelloRequest if sub.left() == 0 => HandshakePayload::HelloRequest,
HandshakeType::ClientHello => {
HandshakePayload::ClientHello(ClientHelloPayload::read(&mut sub)?)
}
HandshakeType::ServerHello => {
let version = ProtocolVersion::read(&mut sub)?;
let random = Random::read(&mut sub)?;
if random == HELLO_RETRY_REQUEST_RANDOM {
let mut hrr = HelloRetryRequest::read(&mut sub)?;
hrr.legacy_version = version;
typ = HandshakeType::HelloRetryRequest;
HandshakePayload::HelloRetryRequest(hrr)
} else {
let mut shp = ServerHelloPayload::read(&mut sub)?;
shp.legacy_version = version;
shp.random = random;
HandshakePayload::ServerHello(shp)
}
}
HandshakeType::Certificate if vers == ProtocolVersion::TLSv1_3 => {
let p = CertificatePayloadTLS13::read(&mut sub)?;
HandshakePayload::CertificateTLS13(p)
}
HandshakeType::Certificate => {
HandshakePayload::Certificate(CertificatePayload::read(&mut sub)?)
}
HandshakeType::ServerKeyExchange => {
let p = ServerKeyExchangePayload::read(&mut sub)?;
HandshakePayload::ServerKeyExchange(p)
}
HandshakeType::ServerHelloDone => {
if sub.any_left() {
return None;
}
HandshakePayload::ServerHelloDone
}
HandshakeType::ClientKeyExchange => {
HandshakePayload::ClientKeyExchange(Payload::read(&mut sub)?)
}
HandshakeType::CertificateRequest if vers == ProtocolVersion::TLSv1_3 => {
let p = CertificateRequestPayloadTLS13::read(&mut sub)?;
HandshakePayload::CertificateRequestTLS13(p)
}
HandshakeType::CertificateRequest => {
let p = CertificateRequestPayload::read(&mut sub)?;
HandshakePayload::CertificateRequest(p)
}
HandshakeType::CertificateVerify => {
HandshakePayload::CertificateVerify(DigitallySignedStruct::read(&mut sub)?)
}
HandshakeType::NewSessionTicket if vers == ProtocolVersion::TLSv1_3 => {
let p = NewSessionTicketPayloadTLS13::read(&mut sub)?;
HandshakePayload::NewSessionTicketTLS13(p)
}
HandshakeType::NewSessionTicket => {
let p = NewSessionTicketPayload::read(&mut sub)?;
HandshakePayload::NewSessionTicket(p)
}
HandshakeType::EncryptedExtensions => {
HandshakePayload::EncryptedExtensions(EncryptedExtensions::read(&mut sub)?)
}
HandshakeType::KeyUpdate => {
HandshakePayload::KeyUpdate(KeyUpdateRequest::read(&mut sub)?)
}
HandshakeType::Finished => {
HandshakePayload::Finished(Payload::read(&mut sub)?)
}
HandshakeType::CertificateStatus => {
HandshakePayload::CertificateStatus(CertificateStatus::read(&mut sub)?)
}
HandshakeType::MessageHash => {
return None;
}
HandshakeType::HelloRetryRequest => {
return None;
}
_ => HandshakePayload::Unknown(Payload::read(&mut sub)?),
};
if sub.any_left() {
None
} else {
Some(HandshakeMessagePayload {
typ,
payload,
})
}
}
pub fn build_key_update_notify() -> HandshakeMessagePayload {
HandshakeMessagePayload {
typ: HandshakeType::KeyUpdate,
payload: HandshakePayload::KeyUpdate(KeyUpdateRequest::UpdateNotRequested),
}
}
pub fn get_encoding_for_binder_signing(&self) -> Vec<u8> {
let mut ret = self.get_encoding();
let binder_len = match self.payload {
HandshakePayload::ClientHello(ref ch) => {
let offer = ch.get_psk().unwrap();
let mut binders_encoding = Vec::new();
offer.binders.encode(&mut binders_encoding);
binders_encoding.len()
}
_ => 0,
};
let ret_len = ret.len() - binder_len;
ret.truncate(ret_len);
ret
}
pub fn build_handshake_hash(hash: &[u8]) -> HandshakeMessagePayload {
HandshakeMessagePayload {
typ: HandshakeType::MessageHash,
payload: HandshakePayload::MessageHash(Payload::new(hash.to_vec()))
}
}
}