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|
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
// Transport parameters. See -transport section 7.3.
use std::{
cell::RefCell,
collections::HashMap,
net::{Ipv4Addr, Ipv6Addr, SocketAddrV4, SocketAddrV6},
rc::Rc,
};
use neqo_common::{hex, qdebug, qinfo, qtrace, Decoder, Encoder, Role};
use neqo_crypto::{
constants::{TLS_HS_CLIENT_HELLO, TLS_HS_ENCRYPTED_EXTENSIONS},
ext::{ExtensionHandler, ExtensionHandlerResult, ExtensionWriterResult},
random, HandshakeMessage, ZeroRttCheckResult, ZeroRttChecker,
};
use crate::{
cid::{ConnectionId, ConnectionIdEntry, CONNECTION_ID_SEQNO_PREFERRED, MAX_CONNECTION_ID_LEN},
version::{Version, VersionConfig, WireVersion},
Error, Res,
};
pub type TransportParameterId = u64;
macro_rules! tpids {
{ $($n:ident = $v:expr),+ $(,)? } => {
$(pub const $n: TransportParameterId = $v as TransportParameterId;)+
/// A complete list of internal transport parameters.
#[cfg(not(test))]
pub(crate) const INTERNAL_TRANSPORT_PARAMETERS: &[TransportParameterId] = &[ $($n),+ ];
};
}
tpids! {
ORIGINAL_DESTINATION_CONNECTION_ID = 0x00,
IDLE_TIMEOUT = 0x01,
STATELESS_RESET_TOKEN = 0x02,
MAX_UDP_PAYLOAD_SIZE = 0x03,
INITIAL_MAX_DATA = 0x04,
INITIAL_MAX_STREAM_DATA_BIDI_LOCAL = 0x05,
INITIAL_MAX_STREAM_DATA_BIDI_REMOTE = 0x06,
INITIAL_MAX_STREAM_DATA_UNI = 0x07,
INITIAL_MAX_STREAMS_BIDI = 0x08,
INITIAL_MAX_STREAMS_UNI = 0x09,
ACK_DELAY_EXPONENT = 0x0a,
MAX_ACK_DELAY = 0x0b,
DISABLE_MIGRATION = 0x0c,
PREFERRED_ADDRESS = 0x0d,
ACTIVE_CONNECTION_ID_LIMIT = 0x0e,
INITIAL_SOURCE_CONNECTION_ID = 0x0f,
RETRY_SOURCE_CONNECTION_ID = 0x10,
VERSION_INFORMATION = 0x11,
GREASE_QUIC_BIT = 0x2ab2,
MIN_ACK_DELAY = 0xff02_de1a,
MAX_DATAGRAM_FRAME_SIZE = 0x0020,
}
#[derive(Clone, Debug)]
pub struct PreferredAddress {
v4: Option<SocketAddrV4>,
v6: Option<SocketAddrV6>,
}
impl PreferredAddress {
/// Make a new preferred address configuration.
///
/// # Panics
///
/// If neither address is provided, or if either address is of the wrong type.
#[must_use]
pub fn new(v4: Option<SocketAddrV4>, v6: Option<SocketAddrV6>) -> Self {
assert!(v4.is_some() || v6.is_some());
if let Some(a) = v4 {
assert!(!a.ip().is_unspecified());
assert_ne!(a.port(), 0);
}
if let Some(a) = v6 {
assert!(!a.ip().is_unspecified());
assert_ne!(a.port(), 0);
}
Self { v4, v6 }
}
/// A generic version of `new()` for testing.
/// # Panics
/// When the addresses are the wrong type.
#[must_use]
#[cfg(test)]
pub fn new_any(v4: Option<std::net::SocketAddr>, v6: Option<std::net::SocketAddr>) -> Self {
use std::net::SocketAddr;
let v4 = v4.map(|v4| {
let SocketAddr::V4(v4) = v4 else {
panic!("not v4");
};
v4
});
let v6 = v6.map(|v6| {
let SocketAddr::V6(v6) = v6 else {
panic!("not v6");
};
v6
});
Self::new(v4, v6)
}
#[must_use]
pub fn ipv4(&self) -> Option<SocketAddrV4> {
self.v4
}
#[must_use]
pub fn ipv6(&self) -> Option<SocketAddrV6> {
self.v6
}
}
#[derive(Clone, Debug, PartialEq, Eq)]
pub enum TransportParameter {
Bytes(Vec<u8>),
Integer(u64),
Empty,
PreferredAddress {
v4: Option<SocketAddrV4>,
v6: Option<SocketAddrV6>,
cid: ConnectionId,
srt: [u8; 16],
},
Versions {
current: WireVersion,
other: Vec<WireVersion>,
},
}
impl TransportParameter {
fn encode(&self, enc: &mut Encoder, tp: TransportParameterId) {
qdebug!("TP encoded; type 0x{:02x} val {:?}", tp, self);
enc.encode_varint(tp);
match self {
Self::Bytes(a) => {
enc.encode_vvec(a);
}
Self::Integer(a) => {
enc.encode_vvec_with(|enc_inner| {
enc_inner.encode_varint(*a);
});
}
Self::Empty => {
enc.encode_varint(0_u64);
}
Self::PreferredAddress { v4, v6, cid, srt } => {
enc.encode_vvec_with(|enc_inner| {
if let Some(v4) = v4 {
enc_inner.encode(&v4.ip().octets()[..]);
enc_inner.encode_uint(2, v4.port());
} else {
enc_inner.encode(&[0; 6]);
}
if let Some(v6) = v6 {
enc_inner.encode(&v6.ip().octets()[..]);
enc_inner.encode_uint(2, v6.port());
} else {
enc_inner.encode(&[0; 18]);
}
enc_inner.encode_vec(1, &cid[..]);
enc_inner.encode(&srt[..]);
});
}
Self::Versions { current, other } => {
enc.encode_vvec_with(|enc_inner| {
enc_inner.encode_uint(4, *current);
for v in other {
enc_inner.encode_uint(4, *v);
}
});
}
};
}
fn decode_preferred_address(d: &mut Decoder) -> Res<Self> {
// IPv4 address (maybe)
let v4ip =
Ipv4Addr::from(<[u8; 4]>::try_from(d.decode(4).ok_or(Error::NoMoreData)?).unwrap());
let v4port = u16::try_from(d.decode_uint(2).ok_or(Error::NoMoreData)?).unwrap();
// Can't have non-zero IP and zero port, or vice versa.
if v4ip.is_unspecified() ^ (v4port == 0) {
return Err(Error::TransportParameterError);
}
let v4 = if v4port == 0 {
None
} else {
Some(SocketAddrV4::new(v4ip, v4port))
};
// IPv6 address (mostly the same as v4)
let v6ip =
Ipv6Addr::from(<[u8; 16]>::try_from(d.decode(16).ok_or(Error::NoMoreData)?).unwrap());
let v6port = u16::try_from(d.decode_uint(2).ok_or(Error::NoMoreData)?).unwrap();
if v6ip.is_unspecified() ^ (v6port == 0) {
return Err(Error::TransportParameterError);
}
let v6 = if v6port == 0 {
None
} else {
Some(SocketAddrV6::new(v6ip, v6port, 0, 0))
};
// Need either v4 or v6 to be present.
if v4.is_none() && v6.is_none() {
return Err(Error::TransportParameterError);
}
// Connection ID (non-zero length)
let cid = ConnectionId::from(d.decode_vec(1).ok_or(Error::NoMoreData)?);
if cid.len() == 0 || cid.len() > MAX_CONNECTION_ID_LEN {
return Err(Error::TransportParameterError);
}
// Stateless reset token
let srtbuf = d.decode(16).ok_or(Error::NoMoreData)?;
let srt = <[u8; 16]>::try_from(srtbuf).unwrap();
Ok(Self::PreferredAddress { v4, v6, cid, srt })
}
fn decode_versions(dec: &mut Decoder) -> Res<Self> {
fn dv(dec: &mut Decoder) -> Res<WireVersion> {
let v = dec.decode_uint(4).ok_or(Error::NoMoreData)?;
if v == 0 {
Err(Error::TransportParameterError)
} else {
Ok(WireVersion::try_from(v)?)
}
}
let current = dv(dec)?;
// This rounding down is OK because `decode` checks for left over data.
let count = dec.remaining() / 4;
let mut other = Vec::with_capacity(count);
for _ in 0..count {
other.push(dv(dec)?);
}
Ok(Self::Versions { current, other })
}
fn decode(dec: &mut Decoder) -> Res<Option<(TransportParameterId, Self)>> {
let tp = dec.decode_varint().ok_or(Error::NoMoreData)?;
let content = dec.decode_vvec().ok_or(Error::NoMoreData)?;
qtrace!("TP {:x} length {:x}", tp, content.len());
let mut d = Decoder::from(content);
let value = match tp {
ORIGINAL_DESTINATION_CONNECTION_ID
| INITIAL_SOURCE_CONNECTION_ID
| RETRY_SOURCE_CONNECTION_ID => Self::Bytes(d.decode_remainder().to_vec()),
STATELESS_RESET_TOKEN => {
if d.remaining() != 16 {
return Err(Error::TransportParameterError);
}
Self::Bytes(d.decode_remainder().to_vec())
}
IDLE_TIMEOUT
| INITIAL_MAX_DATA
| INITIAL_MAX_STREAM_DATA_BIDI_LOCAL
| INITIAL_MAX_STREAM_DATA_BIDI_REMOTE
| INITIAL_MAX_STREAM_DATA_UNI
| MAX_ACK_DELAY
| MAX_DATAGRAM_FRAME_SIZE => match d.decode_varint() {
Some(v) => Self::Integer(v),
None => return Err(Error::TransportParameterError),
},
INITIAL_MAX_STREAMS_BIDI | INITIAL_MAX_STREAMS_UNI => match d.decode_varint() {
Some(v) if v <= (1 << 60) => Self::Integer(v),
_ => return Err(Error::StreamLimitError),
},
MAX_UDP_PAYLOAD_SIZE => match d.decode_varint() {
Some(v) if v >= 1200 => Self::Integer(v),
_ => return Err(Error::TransportParameterError),
},
ACK_DELAY_EXPONENT => match d.decode_varint() {
Some(v) if v <= 20 => Self::Integer(v),
_ => return Err(Error::TransportParameterError),
},
ACTIVE_CONNECTION_ID_LIMIT => match d.decode_varint() {
Some(v) if v >= 2 => Self::Integer(v),
_ => return Err(Error::TransportParameterError),
},
DISABLE_MIGRATION | GREASE_QUIC_BIT => Self::Empty,
PREFERRED_ADDRESS => Self::decode_preferred_address(&mut d)?,
MIN_ACK_DELAY => match d.decode_varint() {
Some(v) if v < (1 << 24) => Self::Integer(v),
_ => return Err(Error::TransportParameterError),
},
VERSION_INFORMATION => Self::decode_versions(&mut d)?,
// Skip.
_ => return Ok(None),
};
if d.remaining() > 0 {
return Err(Error::TooMuchData);
}
qdebug!("TP decoded; type 0x{:02x} val {:?}", tp, value);
Ok(Some((tp, value)))
}
}
#[derive(Clone, Debug, Default, PartialEq, Eq)]
pub struct TransportParameters {
params: HashMap<TransportParameterId, TransportParameter>,
}
impl TransportParameters {
/// Set a value.
pub fn set(&mut self, k: TransportParameterId, v: TransportParameter) {
self.params.insert(k, v);
}
/// Clear a key.
pub fn remove(&mut self, k: TransportParameterId) {
self.params.remove(&k);
}
/// Decode is a static function that parses transport parameters
/// using the provided decoder.
pub(crate) fn decode(d: &mut Decoder) -> Res<Self> {
let mut tps = Self::default();
qtrace!("Parsed fixed TP header");
while d.remaining() > 0 {
match TransportParameter::decode(d) {
Ok(Some((tipe, tp))) => {
tps.set(tipe, tp);
}
Ok(None) => {}
Err(e) => return Err(e),
}
}
Ok(tps)
}
pub(crate) fn encode(&self, enc: &mut Encoder) {
for (tipe, tp) in &self.params {
tp.encode(enc, *tipe);
}
}
// Get an integer type or a default.
/// # Panics
/// When the transport parameter isn't recognized as being an integer.
#[must_use]
pub fn get_integer(&self, tp: TransportParameterId) -> u64 {
let default = match tp {
IDLE_TIMEOUT
| INITIAL_MAX_DATA
| INITIAL_MAX_STREAM_DATA_BIDI_LOCAL
| INITIAL_MAX_STREAM_DATA_BIDI_REMOTE
| INITIAL_MAX_STREAM_DATA_UNI
| INITIAL_MAX_STREAMS_BIDI
| INITIAL_MAX_STREAMS_UNI
| MIN_ACK_DELAY
| MAX_DATAGRAM_FRAME_SIZE => 0,
MAX_UDP_PAYLOAD_SIZE => 65527,
ACK_DELAY_EXPONENT => 3,
MAX_ACK_DELAY => 25,
ACTIVE_CONNECTION_ID_LIMIT => 2,
_ => panic!("Transport parameter not known or not an Integer"),
};
match self.params.get(&tp) {
None => default,
Some(TransportParameter::Integer(x)) => *x,
_ => panic!("Internal error"),
}
}
// Set an integer type or a default.
/// # Panics
/// When the transport parameter isn't recognized as being an integer.
pub fn set_integer(&mut self, tp: TransportParameterId, value: u64) {
match tp {
IDLE_TIMEOUT
| INITIAL_MAX_DATA
| INITIAL_MAX_STREAM_DATA_BIDI_LOCAL
| INITIAL_MAX_STREAM_DATA_BIDI_REMOTE
| INITIAL_MAX_STREAM_DATA_UNI
| INITIAL_MAX_STREAMS_BIDI
| INITIAL_MAX_STREAMS_UNI
| MAX_UDP_PAYLOAD_SIZE
| ACK_DELAY_EXPONENT
| MAX_ACK_DELAY
| ACTIVE_CONNECTION_ID_LIMIT
| MIN_ACK_DELAY
| MAX_DATAGRAM_FRAME_SIZE => {
self.set(tp, TransportParameter::Integer(value));
}
_ => panic!("Transport parameter not known"),
}
}
/// # Panics
/// When the transport parameter isn't recognized as containing bytes.
#[must_use]
pub fn get_bytes(&self, tp: TransportParameterId) -> Option<&[u8]> {
match tp {
ORIGINAL_DESTINATION_CONNECTION_ID
| INITIAL_SOURCE_CONNECTION_ID
| RETRY_SOURCE_CONNECTION_ID
| STATELESS_RESET_TOKEN => {}
_ => panic!("Transport parameter not known or not type bytes"),
}
match self.params.get(&tp) {
None => None,
Some(TransportParameter::Bytes(x)) => Some(x),
_ => panic!("Internal error"),
}
}
/// # Panics
/// When the transport parameter isn't recognized as containing bytes.
pub fn set_bytes(&mut self, tp: TransportParameterId, value: Vec<u8>) {
match tp {
ORIGINAL_DESTINATION_CONNECTION_ID
| INITIAL_SOURCE_CONNECTION_ID
| RETRY_SOURCE_CONNECTION_ID
| STATELESS_RESET_TOKEN => {
self.set(tp, TransportParameter::Bytes(value));
}
_ => panic!("Transport parameter not known or not type bytes"),
}
}
/// # Panics
/// When the transport parameter isn't recognized as being empty.
pub fn set_empty(&mut self, tp: TransportParameterId) {
match tp {
DISABLE_MIGRATION | GREASE_QUIC_BIT => {
self.set(tp, TransportParameter::Empty);
}
_ => panic!("Transport parameter not known or not type empty"),
}
}
/// Set version information.
/// # Panics
/// Never. But rust doesn't know that.
pub fn set_versions(&mut self, role: Role, versions: &VersionConfig) {
let rbuf = random::<4>();
let mut other = Vec::with_capacity(versions.all().len() + 1);
let mut dec = Decoder::new(&rbuf);
let grease =
(u32::try_from(dec.decode_uint(4).unwrap()).unwrap()) & 0xf0f0_f0f0 | 0x0a0a_0a0a;
other.push(grease);
for &v in versions.all() {
if role == Role::Client && !versions.initial().is_compatible(v) {
continue;
}
other.push(v.wire_version());
}
let current = versions.initial().wire_version();
self.set(
VERSION_INFORMATION,
TransportParameter::Versions { current, other },
);
}
fn compatible_upgrade(&mut self, v: Version) {
if let Some(TransportParameter::Versions {
ref mut current, ..
}) = self.params.get_mut(&VERSION_INFORMATION)
{
*current = v.wire_version();
} else {
unreachable!("Compatible upgrade without transport parameters set!");
}
}
/// # Panics
/// When the indicated transport parameter is present but NOT empty.
/// This should not happen if the parsing code in `TransportParameter::decode` is correct.
#[must_use]
pub fn get_empty(&self, tipe: TransportParameterId) -> bool {
match self.params.get(&tipe) {
None => false,
Some(TransportParameter::Empty) => true,
_ => panic!("Internal error"),
}
}
/// Return true if the remembered transport parameters are OK for 0-RTT.
/// Generally this means that any value that is currently in effect is greater than
/// or equal to the promised value.
pub(crate) fn ok_for_0rtt(&self, remembered: &Self) -> bool {
for (k, v_rem) in &remembered.params {
// Skip checks for these, which don't affect 0-RTT.
if matches!(
*k,
ORIGINAL_DESTINATION_CONNECTION_ID
| INITIAL_SOURCE_CONNECTION_ID
| RETRY_SOURCE_CONNECTION_ID
| STATELESS_RESET_TOKEN
| IDLE_TIMEOUT
| ACK_DELAY_EXPONENT
| MAX_ACK_DELAY
| ACTIVE_CONNECTION_ID_LIMIT
| PREFERRED_ADDRESS
) {
continue;
}
let ok = if let Some(v_self) = self.params.get(k) {
match (v_self, v_rem) {
(TransportParameter::Integer(i_self), TransportParameter::Integer(i_rem)) => {
if *k == MIN_ACK_DELAY {
// MIN_ACK_DELAY is backwards:
// it can only be reduced safely.
*i_self <= *i_rem
} else {
*i_self >= *i_rem
}
}
(TransportParameter::Empty, TransportParameter::Empty) => true,
(
TransportParameter::Versions {
current: v_self, ..
},
TransportParameter::Versions { current: v_rem, .. },
) => v_self == v_rem,
_ => false,
}
} else {
false
};
if !ok {
return false;
}
}
true
}
/// Get the preferred address in a usable form.
#[must_use]
pub fn get_preferred_address(&self) -> Option<(PreferredAddress, ConnectionIdEntry<[u8; 16]>)> {
if let Some(TransportParameter::PreferredAddress { v4, v6, cid, srt }) =
self.params.get(&PREFERRED_ADDRESS)
{
Some((
PreferredAddress::new(*v4, *v6),
ConnectionIdEntry::new(CONNECTION_ID_SEQNO_PREFERRED, cid.clone(), *srt),
))
} else {
None
}
}
/// Get the version negotiation values for validation.
#[must_use]
pub fn get_versions(&self) -> Option<(WireVersion, &[WireVersion])> {
if let Some(TransportParameter::Versions { current, other }) =
self.params.get(&VERSION_INFORMATION)
{
Some((*current, other))
} else {
None
}
}
#[must_use]
pub fn has_value(&self, tp: TransportParameterId) -> bool {
self.params.contains_key(&tp)
}
}
#[derive(Debug)]
pub struct TransportParametersHandler {
role: Role,
versions: VersionConfig,
pub(crate) local: TransportParameters,
pub(crate) remote: Option<TransportParameters>,
pub(crate) remote_0rtt: Option<TransportParameters>,
}
impl TransportParametersHandler {
#[must_use]
pub fn new(role: Role, versions: VersionConfig) -> Self {
let mut local = TransportParameters::default();
local.set_versions(role, &versions);
Self {
role,
versions,
local,
remote: None,
remote_0rtt: None,
}
}
/// When resuming, the version is set based on the ticket.
/// That needs to be done to override the default choice from configuration.
pub fn set_version(&mut self, version: Version) {
debug_assert_eq!(self.role, Role::Client);
self.versions.set_initial(version);
self.local.set_versions(self.role, &self.versions);
}
/// # Panics
/// When this function is called before the peer has provided transport parameters.
/// Do not call this function if you are not also able to send data.
#[must_use]
pub fn remote(&self) -> &TransportParameters {
match (self.remote.as_ref(), self.remote_0rtt.as_ref()) {
(Some(tp), _) | (_, Some(tp)) => tp,
_ => panic!("no transport parameters from peer"),
}
}
/// Get the version as set (or as determined by a compatible upgrade).
#[must_use]
pub fn version(&self) -> Version {
self.versions.initial()
}
fn compatible_upgrade(&mut self, remote_tp: &TransportParameters) -> Res<()> {
if let Some((current, other)) = remote_tp.get_versions() {
qtrace!(
"Peer versions: {:x} {:x?}; config {:?}",
current,
other,
self.versions,
);
if self.role == Role::Client {
let chosen = Version::try_from(current)?;
if self.versions.compatible().any(|&v| v == chosen) {
Ok(())
} else {
qinfo!(
"Chosen version {:x} is not compatible with initial version {:x}",
current,
self.versions.initial().wire_version(),
);
Err(Error::TransportParameterError)
}
} else {
if current != self.versions.initial().wire_version() {
qinfo!(
"Current version {:x} != own version {:x}",
current,
self.versions.initial().wire_version(),
);
return Err(Error::TransportParameterError);
}
if let Some(preferred) = self.versions.preferred_compatible(other) {
if preferred != self.versions.initial() {
qinfo!(
"Compatible upgrade {:?} ==> {:?}",
self.versions.initial(),
preferred
);
self.versions.set_initial(preferred);
self.local.compatible_upgrade(preferred);
}
Ok(())
} else {
qinfo!("Unable to find any compatible version");
Err(Error::TransportParameterError)
}
}
} else {
Ok(())
}
}
}
impl ExtensionHandler for TransportParametersHandler {
fn write(&mut self, msg: HandshakeMessage, d: &mut [u8]) -> ExtensionWriterResult {
if !matches!(msg, TLS_HS_CLIENT_HELLO | TLS_HS_ENCRYPTED_EXTENSIONS) {
return ExtensionWriterResult::Skip;
}
qdebug!("Writing transport parameters, msg={:?}", msg);
// TODO(ekr@rtfm.com): Modify to avoid a copy.
let mut enc = Encoder::default();
self.local.encode(&mut enc);
assert!(enc.len() <= d.len());
d[..enc.len()].copy_from_slice(enc.as_ref());
ExtensionWriterResult::Write(enc.len())
}
fn handle(&mut self, msg: HandshakeMessage, d: &[u8]) -> ExtensionHandlerResult {
qtrace!(
"Handling transport parameters, msg={:?} value={}",
msg,
hex(d),
);
if !matches!(msg, TLS_HS_CLIENT_HELLO | TLS_HS_ENCRYPTED_EXTENSIONS) {
return ExtensionHandlerResult::Alert(110); // unsupported_extension
}
let mut dec = Decoder::from(d);
match TransportParameters::decode(&mut dec) {
Ok(tp) => {
if self.compatible_upgrade(&tp).is_ok() {
self.remote = Some(tp);
ExtensionHandlerResult::Ok
} else {
ExtensionHandlerResult::Alert(47)
}
}
_ => ExtensionHandlerResult::Alert(47), // illegal_parameter
}
}
}
#[derive(Debug)]
pub(crate) struct TpZeroRttChecker<T> {
handler: Rc<RefCell<TransportParametersHandler>>,
app_checker: T,
}
impl<T> TpZeroRttChecker<T>
where
T: ZeroRttChecker + 'static,
{
pub fn wrap(
handler: Rc<RefCell<TransportParametersHandler>>,
app_checker: T,
) -> Box<dyn ZeroRttChecker> {
Box::new(Self {
handler,
app_checker,
})
}
}
impl<T> ZeroRttChecker for TpZeroRttChecker<T>
where
T: ZeroRttChecker,
{
fn check(&self, token: &[u8]) -> ZeroRttCheckResult {
// Reject 0-RTT if there is no token.
if token.is_empty() {
qdebug!("0-RTT: no token, no 0-RTT");
return ZeroRttCheckResult::Reject;
}
let mut dec = Decoder::from(token);
let Some(tpslice) = dec.decode_vvec() else {
qinfo!("0-RTT: token code error");
return ZeroRttCheckResult::Fail;
};
let mut dec_tp = Decoder::from(tpslice);
let Ok(remembered) = TransportParameters::decode(&mut dec_tp) else {
qinfo!("0-RTT: transport parameter decode error");
return ZeroRttCheckResult::Fail;
};
if self.handler.borrow().local.ok_for_0rtt(&remembered) {
qinfo!("0-RTT: transport parameters OK, passing to application checker");
self.app_checker.check(dec.decode_remainder())
} else {
qinfo!("0-RTT: transport parameters bad, rejecting");
ZeroRttCheckResult::Reject
}
}
}
#[cfg(test)]
#[allow(unused_variables)]
mod tests {
use std::net::{Ipv4Addr, Ipv6Addr, SocketAddrV4, SocketAddrV6};
use neqo_common::{Decoder, Encoder};
use super::PreferredAddress;
use crate::{
tparams::{
TransportParameter, TransportParameterId, TransportParameters,
ACTIVE_CONNECTION_ID_LIMIT, IDLE_TIMEOUT, INITIAL_MAX_DATA, INITIAL_MAX_STREAMS_BIDI,
INITIAL_MAX_STREAMS_UNI, INITIAL_MAX_STREAM_DATA_BIDI_LOCAL,
INITIAL_MAX_STREAM_DATA_BIDI_REMOTE, INITIAL_MAX_STREAM_DATA_UNI,
INITIAL_SOURCE_CONNECTION_ID, MAX_ACK_DELAY, MAX_DATAGRAM_FRAME_SIZE,
MAX_UDP_PAYLOAD_SIZE, MIN_ACK_DELAY, ORIGINAL_DESTINATION_CONNECTION_ID,
PREFERRED_ADDRESS, RETRY_SOURCE_CONNECTION_ID, STATELESS_RESET_TOKEN,
VERSION_INFORMATION,
},
ConnectionId, Error, Version,
};
#[test]
fn basic_tps() {
const RESET_TOKEN: &[u8] = &[1, 2, 3, 4, 5, 6, 7, 8, 1, 2, 3, 4, 5, 6, 7, 8];
let mut tps = TransportParameters::default();
tps.set(
STATELESS_RESET_TOKEN,
TransportParameter::Bytes(RESET_TOKEN.to_vec()),
);
tps.params
.insert(INITIAL_MAX_STREAMS_BIDI, TransportParameter::Integer(10));
let mut enc = Encoder::default();
tps.encode(&mut enc);
let tps2 = TransportParameters::decode(&mut enc.as_decoder()).expect("Couldn't decode");
assert_eq!(tps, tps2);
println!("TPS = {tps:?}");
assert_eq!(tps2.get_integer(IDLE_TIMEOUT), 0); // Default
assert_eq!(tps2.get_integer(MAX_ACK_DELAY), 25); // Default
assert_eq!(tps2.get_integer(ACTIVE_CONNECTION_ID_LIMIT), 2); // Default
assert_eq!(tps2.get_integer(INITIAL_MAX_STREAMS_BIDI), 10); // Sent
assert_eq!(tps2.get_bytes(STATELESS_RESET_TOKEN), Some(RESET_TOKEN));
assert_eq!(tps2.get_bytes(ORIGINAL_DESTINATION_CONNECTION_ID), None);
assert_eq!(tps2.get_bytes(INITIAL_SOURCE_CONNECTION_ID), None);
assert_eq!(tps2.get_bytes(RETRY_SOURCE_CONNECTION_ID), None);
assert!(!tps2.has_value(ORIGINAL_DESTINATION_CONNECTION_ID));
assert!(!tps2.has_value(INITIAL_SOURCE_CONNECTION_ID));
assert!(!tps2.has_value(RETRY_SOURCE_CONNECTION_ID));
assert!(tps2.has_value(STATELESS_RESET_TOKEN));
let mut enc = Encoder::default();
tps.encode(&mut enc);
let tps2 = TransportParameters::decode(&mut enc.as_decoder()).expect("Couldn't decode");
}
fn make_spa() -> TransportParameter {
TransportParameter::PreferredAddress {
v4: Some(SocketAddrV4::new(Ipv4Addr::from(0xc000_0201), 443)),
v6: Some(SocketAddrV6::new(
Ipv6Addr::from(0xfe80_0000_0000_0000_0000_0000_0000_0001),
443,
0,
0,
)),
cid: ConnectionId::from(&[1, 2, 3, 4, 5]),
srt: [3; 16],
}
}
#[test]
fn preferred_address_encode_decode() {
const ENCODED: &[u8] = &[
0x0d, 0x2e, 0xc0, 0x00, 0x02, 0x01, 0x01, 0xbb, 0xfe, 0x80, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x01, 0xbb, 0x05, 0x01,
0x02, 0x03, 0x04, 0x05, 0x03, 0x03, 0x03, 0x03, 0x03, 0x03, 0x03, 0x03, 0x03, 0x03,
0x03, 0x03, 0x03, 0x03, 0x03, 0x03,
];
let spa = make_spa();
let mut enc = Encoder::new();
spa.encode(&mut enc, PREFERRED_ADDRESS);
assert_eq!(enc.as_ref(), ENCODED);
let mut dec = enc.as_decoder();
let (id, decoded) = TransportParameter::decode(&mut dec).unwrap().unwrap();
assert_eq!(id, PREFERRED_ADDRESS);
assert_eq!(decoded, spa);
}
fn mutate_spa<F>(wrecker: F) -> TransportParameter
where
F: FnOnce(&mut Option<SocketAddrV4>, &mut Option<SocketAddrV6>, &mut ConnectionId),
{
let mut spa = make_spa();
if let TransportParameter::PreferredAddress {
ref mut v4,
ref mut v6,
ref mut cid,
..
} = &mut spa
{
wrecker(v4, v6, cid);
} else {
unreachable!();
}
spa
}
/// This takes a `TransportParameter::PreferredAddress` that has been mutilated.
/// It then encodes it, working from the knowledge that the `encode` function
/// doesn't care about validity, and decodes it. The result should be failure.
fn assert_invalid_spa(spa: &TransportParameter) {
let mut enc = Encoder::new();
spa.encode(&mut enc, PREFERRED_ADDRESS);
assert_eq!(
TransportParameter::decode(&mut enc.as_decoder()).unwrap_err(),
Error::TransportParameterError
);
}
/// This is for those rare mutations that are acceptable.
fn assert_valid_spa(spa: &TransportParameter) {
let mut enc = Encoder::new();
spa.encode(&mut enc, PREFERRED_ADDRESS);
let mut dec = enc.as_decoder();
let (id, decoded) = TransportParameter::decode(&mut dec).unwrap().unwrap();
assert_eq!(id, PREFERRED_ADDRESS);
assert_eq!(&decoded, spa);
}
#[test]
fn preferred_address_zero_address() {
// Either port being zero is bad.
assert_invalid_spa(&mutate_spa(|v4, _, _| {
v4.as_mut().unwrap().set_port(0);
}));
assert_invalid_spa(&mutate_spa(|_, v6, _| {
v6.as_mut().unwrap().set_port(0);
}));
// Either IP being zero is bad.
assert_invalid_spa(&mutate_spa(|v4, _, _| {
v4.as_mut().unwrap().set_ip(Ipv4Addr::from(0));
}));
assert_invalid_spa(&mutate_spa(|_, v6, _| {
v6.as_mut().unwrap().set_ip(Ipv6Addr::from(0));
}));
// Either address being absent is OK.
assert_valid_spa(&mutate_spa(|v4, _, _| {
*v4 = None;
}));
assert_valid_spa(&mutate_spa(|_, v6, _| {
*v6 = None;
}));
// Both addresses being absent is bad.
assert_invalid_spa(&mutate_spa(|v4, v6, _| {
*v4 = None;
*v6 = None;
}));
}
#[test]
fn preferred_address_bad_cid() {
assert_invalid_spa(&mutate_spa(|_, _, cid| {
*cid = ConnectionId::from(&[]);
}));
assert_invalid_spa(&mutate_spa(|_, _, cid| {
*cid = ConnectionId::from(&[0x0c; 21]);
}));
}
#[test]
fn preferred_address_truncated() {
let spa = make_spa();
let mut enc = Encoder::new();
spa.encode(&mut enc, PREFERRED_ADDRESS);
let mut dec = Decoder::from(&enc.as_ref()[..enc.len() - 1]);
assert_eq!(
TransportParameter::decode(&mut dec).unwrap_err(),
Error::NoMoreData
);
}
#[test]
#[should_panic(expected = "v4.is_some() || v6.is_some()")]
fn preferred_address_neither() {
_ = PreferredAddress::new(None, None);
}
#[test]
#[should_panic(expected = ".is_unspecified")]
fn preferred_address_v4_unspecified() {
_ = PreferredAddress::new(Some(SocketAddrV4::new(Ipv4Addr::from(0), 443)), None);
}
#[test]
#[should_panic(expected = "left != right")]
fn preferred_address_v4_zero_port() {
_ = PreferredAddress::new(
Some(SocketAddrV4::new(Ipv4Addr::from(0xc000_0201), 0)),
None,
);
}
#[test]
#[should_panic(expected = ".is_unspecified")]
fn preferred_address_v6_unspecified() {
_ = PreferredAddress::new(None, Some(SocketAddrV6::new(Ipv6Addr::from(0), 443, 0, 0)));
}
#[test]
#[should_panic(expected = "left != right")]
fn preferred_address_v6_zero_port() {
_ = PreferredAddress::new(None, Some(SocketAddrV6::new(Ipv6Addr::from(1), 0, 0, 0)));
}
#[test]
fn compatible_0rtt_ignored_values() {
let mut tps_a = TransportParameters::default();
tps_a.set(
STATELESS_RESET_TOKEN,
TransportParameter::Bytes(vec![1, 2, 3]),
);
tps_a.set(IDLE_TIMEOUT, TransportParameter::Integer(10));
tps_a.set(MAX_ACK_DELAY, TransportParameter::Integer(22));
tps_a.set(ACTIVE_CONNECTION_ID_LIMIT, TransportParameter::Integer(33));
let mut tps_b = TransportParameters::default();
assert!(tps_a.ok_for_0rtt(&tps_b));
assert!(tps_b.ok_for_0rtt(&tps_a));
tps_b.set(
STATELESS_RESET_TOKEN,
TransportParameter::Bytes(vec![8, 9, 10]),
);
tps_b.set(IDLE_TIMEOUT, TransportParameter::Integer(100));
tps_b.set(MAX_ACK_DELAY, TransportParameter::Integer(2));
tps_b.set(ACTIVE_CONNECTION_ID_LIMIT, TransportParameter::Integer(44));
assert!(tps_a.ok_for_0rtt(&tps_b));
assert!(tps_b.ok_for_0rtt(&tps_a));
}
#[test]
fn compatible_0rtt_integers() {
const INTEGER_KEYS: &[TransportParameterId] = &[
INITIAL_MAX_DATA,
INITIAL_MAX_STREAM_DATA_BIDI_LOCAL,
INITIAL_MAX_STREAM_DATA_BIDI_REMOTE,
INITIAL_MAX_STREAM_DATA_UNI,
INITIAL_MAX_STREAMS_BIDI,
INITIAL_MAX_STREAMS_UNI,
MAX_UDP_PAYLOAD_SIZE,
MIN_ACK_DELAY,
MAX_DATAGRAM_FRAME_SIZE,
];
let mut tps_a = TransportParameters::default();
for i in INTEGER_KEYS {
tps_a.set(*i, TransportParameter::Integer(12));
}
let tps_b = tps_a.clone();
assert!(tps_a.ok_for_0rtt(&tps_b));
assert!(tps_b.ok_for_0rtt(&tps_a));
// For each integer key, choose a new value that will be accepted.
for i in INTEGER_KEYS {
let mut tps_b = tps_a.clone();
// Set a safe new value; reducing MIN_ACK_DELAY instead.
let safe_value = if *i == MIN_ACK_DELAY { 11 } else { 13 };
tps_b.set(*i, TransportParameter::Integer(safe_value));
// If the new value is not safe relative to the remembered value,
// then we can't attempt 0-RTT with these parameters.
assert!(!tps_a.ok_for_0rtt(&tps_b));
// The opposite situation is fine.
assert!(tps_b.ok_for_0rtt(&tps_a));
}
// Drop integer values and check that that is OK.
for i in INTEGER_KEYS {
let mut tps_b = tps_a.clone();
tps_b.remove(*i);
// A value that is missing from what is rememebered is OK.
assert!(tps_a.ok_for_0rtt(&tps_b));
// A value that is rememebered, but not current is not OK.
assert!(!tps_b.ok_for_0rtt(&tps_a));
}
}
/// `ACTIVE_CONNECTION_ID_LIMIT` can't be less than 2.
#[test]
fn active_connection_id_limit_min_2() {
let mut tps = TransportParameters::default();
// Intentionally set an invalid value for the ACTIVE_CONNECTION_ID_LIMIT transport
// parameter.
tps.params
.insert(ACTIVE_CONNECTION_ID_LIMIT, TransportParameter::Integer(1));
let mut enc = Encoder::default();
tps.encode(&mut enc);
// When decoding a set of transport parameters with an invalid ACTIVE_CONNECTION_ID_LIMIT
// the result should be an error.
let invalid_decode_result = TransportParameters::decode(&mut enc.as_decoder());
assert!(invalid_decode_result.is_err());
}
#[test]
fn versions_encode_decode() {
const ENCODED: &[u8] = &[
0x11, 0x0c, 0x00, 0x00, 0x00, 0x01, 0x1a, 0x2a, 0x3a, 0x4a, 0x5a, 0x6a, 0x7a, 0x8a,
];
let vn = TransportParameter::Versions {
current: Version::Version1.wire_version(),
other: vec![0x1a2a_3a4a, 0x5a6a_7a8a],
};
let mut enc = Encoder::new();
vn.encode(&mut enc, VERSION_INFORMATION);
assert_eq!(enc.as_ref(), ENCODED);
let mut dec = enc.as_decoder();
let (id, decoded) = TransportParameter::decode(&mut dec).unwrap().unwrap();
assert_eq!(id, VERSION_INFORMATION);
assert_eq!(decoded, vn);
}
#[test]
fn versions_truncated() {
const TRUNCATED: &[u8] = &[
0x80, 0xff, 0x73, 0xdb, 0x0c, 0x00, 0x00, 0x00, 0x01, 0x1a, 0x2a, 0x3a, 0x4a, 0x5a,
0x6a, 0x7a,
];
let mut dec = Decoder::from(&TRUNCATED);
assert_eq!(
TransportParameter::decode(&mut dec).unwrap_err(),
Error::NoMoreData
);
}
#[test]
fn versions_zero() {
const ZERO1: &[u8] = &[0x11, 0x04, 0x00, 0x00, 0x00, 0x00];
const ZERO2: &[u8] = &[0x11, 0x08, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x00];
let mut dec = Decoder::from(&ZERO1);
assert_eq!(
TransportParameter::decode(&mut dec).unwrap_err(),
Error::TransportParameterError
);
let mut dec = Decoder::from(&ZERO2);
assert_eq!(
TransportParameter::decode(&mut dec).unwrap_err(),
Error::TransportParameterError
);
}
#[test]
fn versions_equal_0rtt() {
let mut current = TransportParameters::default();
current.set(
VERSION_INFORMATION,
TransportParameter::Versions {
current: Version::Version1.wire_version(),
other: vec![0x1a2a_3a4a],
},
);
let mut remembered = TransportParameters::default();
// It's OK to not remember having versions.
assert!(current.ok_for_0rtt(&remembered));
// But it is bad in the opposite direction.
assert!(!remembered.ok_for_0rtt(¤t));
// If the version matches, it's OK to use 0-RTT.
remembered.set(
VERSION_INFORMATION,
TransportParameter::Versions {
current: Version::Version1.wire_version(),
other: vec![0x5a6a_7a8a, 0x9aaa_baca],
},
);
assert!(current.ok_for_0rtt(&remembered));
assert!(remembered.ok_for_0rtt(¤t));
// An apparent "upgrade" is still cause to reject 0-RTT.
remembered.set(
VERSION_INFORMATION,
TransportParameter::Versions {
current: Version::Version1.wire_version() + 1,
other: vec![],
},
);
assert!(!current.ok_for_0rtt(&remembered));
assert!(!remembered.ok_for_0rtt(¤t));
}
}
|