use std::{mem, net};
use bytes::Buf;
use bytes::BufMut;
#[cfg(feature = "i2p")]
use cypheraddr::i2p;
#[cfg(feature = "tor")]
use cypheraddr::tor;
use cypheraddr::{HostName, NetAddr};
use radicle::crypto::Signature;
use radicle::git::Oid;
use radicle::identity::RepoId;
use radicle::node::Address;
use radicle::node::NodeId;
use radicle::node::Timestamp;
use crate::bounded::BoundedVec;
use crate::service::filter::Filter;
use crate::service::message::*;
use crate::wire;
#[repr(u16)]
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub enum MessageType {
NodeAnnouncement = 2,
InventoryAnnouncement = 4,
RefsAnnouncement = 6,
Subscribe = 8,
Ping = 10,
Pong = 12,
Info = 14,
}
impl From<MessageType> for u16 {
fn from(other: MessageType) -> Self {
other as u16
}
}
impl TryFrom<u16> for MessageType {
type Error = u16;
fn try_from(other: u16) -> Result<Self, Self::Error> {
match other {
2 => Ok(MessageType::NodeAnnouncement),
4 => Ok(MessageType::InventoryAnnouncement),
6 => Ok(MessageType::RefsAnnouncement),
8 => Ok(MessageType::Subscribe),
10 => Ok(MessageType::Ping),
12 => Ok(MessageType::Pong),
14 => Ok(MessageType::Info),
_ => Err(other),
}
}
}
impl Message {
pub const MAX_SIZE: wire::Size =
wire::Size::MAX - (mem::size_of::<MessageType>() as wire::Size);
pub fn type_id(&self) -> u16 {
match self {
Self::Subscribe { .. } => MessageType::Subscribe,
Self::Announcement(Announcement { message, .. }) => match message {
AnnouncementMessage::Node(_) => MessageType::NodeAnnouncement,
AnnouncementMessage::Inventory(_) => MessageType::InventoryAnnouncement,
AnnouncementMessage::Refs(_) => MessageType::RefsAnnouncement,
},
Self::Info(_) => MessageType::Info,
Self::Ping { .. } => MessageType::Ping,
Self::Pong { .. } => MessageType::Pong,
}
.into()
}
}
#[repr(u8)]
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub enum AddressType {
Ipv4 = 1,
Ipv6 = 2,
Dns = 3,
#[cfg(feature = "tor")]
Onion = 4,
#[cfg(feature = "i2p")]
I2p = 5,
}
impl From<AddressType> for u8 {
fn from(other: AddressType) -> Self {
other as u8
}
}
impl From<&Address> for AddressType {
fn from(a: &Address) -> Self {
match a.host {
HostName::Ip(net::IpAddr::V4(_)) => AddressType::Ipv4,
HostName::Ip(net::IpAddr::V6(_)) => AddressType::Ipv6,
HostName::Dns(_) => AddressType::Dns,
#[cfg(feature = "tor")]
HostName::Tor(_) => AddressType::Onion,
#[cfg(feature = "i2p")]
HostName::I2p(_) => AddressType::I2p,
_ => todo!(), }
}
}
impl TryFrom<u8> for AddressType {
type Error = u8;
fn try_from(other: u8) -> Result<Self, Self::Error> {
match other {
1 => Ok(AddressType::Ipv4),
2 => Ok(AddressType::Ipv6),
3 => Ok(AddressType::Dns),
#[cfg(feature = "tor")]
4 => Ok(AddressType::Onion),
#[cfg(feature = "i2p")]
5 => Ok(AddressType::I2p),
_ => Err(other),
}
}
}
impl wire::Encode for AnnouncementMessage {
fn encode(&self, buf: &mut impl BufMut) {
match self {
Self::Node(ann) => ann.encode(buf),
Self::Inventory(ann) => ann.encode(buf),
Self::Refs(ann) => ann.encode(buf),
}
}
}
impl wire::Encode for RefsAnnouncement {
fn encode(&self, buf: &mut impl BufMut) {
self.rid.encode(buf);
self.refs.encode(buf);
self.timestamp.encode(buf);
}
}
impl wire::Decode for RefsAnnouncement {
fn decode(buf: &mut impl Buf) -> Result<Self, wire::Error> {
let rid = RepoId::decode(buf)?;
let refs = BoundedVec::<_, REF_REMOTE_LIMIT>::decode(buf)?;
let timestamp = Timestamp::decode(buf)?;
Ok(Self {
rid,
refs,
timestamp,
})
}
}
impl wire::Encode for InventoryAnnouncement {
fn encode(&self, buf: &mut impl BufMut) {
self.inventory.encode(buf);
self.timestamp.encode(buf);
}
}
impl wire::Decode for InventoryAnnouncement {
fn decode(buf: &mut impl Buf) -> Result<Self, wire::Error> {
let inventory = BoundedVec::decode(buf)?;
let timestamp = Timestamp::decode(buf)?;
Ok(Self {
inventory,
timestamp,
})
}
}
#[repr(u8)]
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub enum InfoType {
RefsAlreadySynced = 1,
}
impl From<InfoType> for u16 {
fn from(other: InfoType) -> Self {
other as u16
}
}
impl TryFrom<u16> for InfoType {
type Error = u16;
fn try_from(other: u16) -> Result<Self, Self::Error> {
match other {
1 => Ok(Self::RefsAlreadySynced),
n => Err(n),
}
}
}
impl From<Info> for InfoType {
fn from(info: Info) -> Self {
(&info).into()
}
}
impl From<&Info> for InfoType {
fn from(info: &Info) -> Self {
match info {
Info::RefsAlreadySynced { .. } => Self::RefsAlreadySynced,
}
}
}
impl wire::Encode for Info {
fn encode(&self, buf: &mut impl BufMut) {
u16::from(InfoType::from(self)).encode(buf);
match self {
Info::RefsAlreadySynced { rid, at } => {
rid.encode(buf);
at.encode(buf);
}
}
}
}
impl wire::Decode for Info {
fn decode(buf: &mut impl Buf) -> Result<Self, wire::Error> {
let info_type = buf.try_get_u16()?;
match InfoType::try_from(info_type) {
Ok(InfoType::RefsAlreadySynced) => {
let rid = RepoId::decode(buf)?;
let at = Oid::decode(buf)?;
Ok(Self::RefsAlreadySynced { rid, at })
}
Err(other) => Err(wire::Invalid::InfoMessageType { actual: other }.into()),
}
}
}
impl wire::Encode for Message {
fn encode(&self, buf: &mut impl BufMut) {
let buf = &mut buf.limit(wire::Size::MAX as usize);
self.type_id().encode(buf);
match self {
Self::Subscribe(Subscribe {
filter,
since,
until,
}) => {
filter.encode(buf);
since.encode(buf);
until.encode(buf);
}
Self::Announcement(Announcement {
node,
message,
signature,
}) => {
node.encode(buf);
signature.encode(buf);
message.encode(buf);
}
Self::Info(info) => {
info.encode(buf);
}
Self::Ping(Ping { ponglen, zeroes }) => {
ponglen.encode(buf);
zeroes.encode(buf);
}
Self::Pong { zeroes } => {
zeroes.encode(buf);
}
}
}
}
impl wire::Decode for Message {
fn decode(buf: &mut impl Buf) -> Result<Self, wire::Error> {
let type_id = buf.try_get_u16()?;
match MessageType::try_from(type_id) {
Ok(MessageType::Subscribe) => {
let filter = Filter::decode(buf)?;
let since = Timestamp::decode(buf)?;
let until = Timestamp::decode(buf)?;
Ok(Self::Subscribe(Subscribe {
filter,
since,
until,
}))
}
Ok(MessageType::NodeAnnouncement) => {
let node = NodeId::decode(buf)?;
let signature = Signature::decode(buf)?;
let message = NodeAnnouncement::decode(buf)?.into();
Ok(Announcement {
node,
message,
signature,
}
.into())
}
Ok(MessageType::InventoryAnnouncement) => {
let node = NodeId::decode(buf)?;
let signature = Signature::decode(buf)?;
let message = InventoryAnnouncement::decode(buf)?.into();
Ok(Announcement {
node,
message,
signature,
}
.into())
}
Ok(MessageType::RefsAnnouncement) => {
let node = NodeId::decode(buf)?;
let signature = Signature::decode(buf)?;
let message = RefsAnnouncement::decode(buf)?.into();
Ok(Announcement {
node,
message,
signature,
}
.into())
}
Ok(MessageType::Info) => {
let info = Info::decode(buf)?;
Ok(Self::Info(info))
}
Ok(MessageType::Ping) => {
let ponglen = u16::decode(buf)?;
let zeroes = ZeroBytes::decode(buf)?;
Ok(Self::Ping(Ping { ponglen, zeroes }))
}
Ok(MessageType::Pong) => {
let zeroes = ZeroBytes::decode(buf)?;
Ok(Self::Pong { zeroes })
}
Err(other) => Err(wire::Invalid::MessageType { actual: other }.into()),
}
}
}
impl wire::Encode for Address {
fn encode(&self, buf: &mut impl BufMut) {
match self.host {
HostName::Ip(net::IpAddr::V4(ip)) => {
u8::from(AddressType::Ipv4).encode(buf);
ip.octets().encode(buf);
}
HostName::Ip(net::IpAddr::V6(ip)) => {
u8::from(AddressType::Ipv6).encode(buf);
ip.octets().encode(buf);
}
HostName::Dns(ref dns) => {
u8::from(AddressType::Dns).encode(buf);
dns.encode(buf);
}
#[cfg(feature = "tor")]
HostName::Tor(addr) => {
u8::from(AddressType::Onion).encode(buf);
addr.encode(buf);
}
#[cfg(feature = "i2p")]
HostName::I2p(ref addr) => {
u8::from(AddressType::I2p).encode(buf);
addr.encode(buf);
}
_ => {
unimplemented!(
"Encoding not defined for addresses of the same type as the following: {:?}",
self.host
);
}
}
self.port().encode(buf);
}
}
impl wire::Decode for Address {
fn decode(buf: &mut impl Buf) -> Result<Self, wire::Error> {
let addrtype = buf.try_get_u8()?;
let host = match AddressType::try_from(addrtype) {
Ok(AddressType::Ipv4) => {
let octets: [u8; 4] = wire::Decode::decode(buf)?;
let ip = net::Ipv4Addr::from(octets);
HostName::Ip(net::IpAddr::V4(ip))
}
Ok(AddressType::Ipv6) => {
let octets: [u8; 16] = wire::Decode::decode(buf)?;
let ip = net::Ipv6Addr::from(octets);
HostName::Ip(net::IpAddr::V6(ip))
}
Ok(AddressType::Dns) => {
let dns: String = wire::Decode::decode(buf)?;
HostName::Dns(dns)
}
#[cfg(feature = "tor")]
Ok(AddressType::Onion) => {
let onion: tor::OnionAddrV3 = wire::Decode::decode(buf)?;
HostName::Tor(onion)
}
#[cfg(feature = "i2p")]
Ok(AddressType::I2p) => {
let i2p: i2p::I2pAddr = wire::Decode::decode(buf)?;
HostName::I2p(i2p)
}
Err(other) => return Err(wire::Invalid::AddressType { actual: other }.into()),
};
let port = u16::decode(buf)?;
Ok(Self::from(NetAddr { host, port }))
}
}
impl wire::Encode for ZeroBytes {
fn encode(&self, buf: &mut impl BufMut) {
(self.len() as u16).encode(buf);
buf.put_bytes(0u8, self.len());
}
}
impl wire::Decode for ZeroBytes {
fn decode(buf: &mut impl Buf) -> Result<Self, wire::Error> {
let zeroes = u16::decode(buf)?;
for _ in 0..zeroes {
_ = u8::decode(buf)?;
}
Ok(ZeroBytes::new(zeroes))
}
}
#[cfg(test)]
mod tests {
use qcheck_macros::quickcheck;
use radicle::node::UserAgent;
use radicle::node::device::Device;
use radicle::storage::refs::RefsAt;
use radicle::test::arbitrary;
use crate::deserializer::Deserializer;
use crate::prop_roundtrip;
use crate::wire::{Encode as _, roundtrip};
use super::*;
prop_roundtrip!(Address);
prop_roundtrip!(Message);
#[test]
fn test_refs_ann_max_size() {
let signer = Device::mock();
let refs: [RefsAt; REF_REMOTE_LIMIT] = arbitrary::r#gen(1);
let ann = AnnouncementMessage::Refs(RefsAnnouncement {
rid: arbitrary::r#gen(1),
refs: BoundedVec::collect_from(&mut refs.into_iter()),
timestamp: arbitrary::r#gen(1),
});
let ann = ann.signed(&signer);
let msg = Message::Announcement(ann);
let data = msg.encode_to_vec();
assert!(data.len() < wire::Size::MAX as usize);
}
#[test]
fn test_inv_ann_max_size() {
let signer = Device::mock();
let inv: [RepoId; INVENTORY_LIMIT] = arbitrary::r#gen(1);
let ann = AnnouncementMessage::Inventory(InventoryAnnouncement {
inventory: BoundedVec::collect_from(&mut inv.into_iter()),
timestamp: arbitrary::r#gen(1),
});
let ann = ann.signed(&signer);
let msg = Message::Announcement(ann);
let data = msg.encode_to_vec();
assert!(data.len() < wire::Size::MAX as usize);
}
#[test]
fn test_node_ann_max_size() {
let signer = Device::mock();
let addrs: [Address; ADDRESS_LIMIT] = arbitrary::r#gen(1);
let alias = ['@'; radicle::node::MAX_ALIAS_LENGTH];
let ann = AnnouncementMessage::Node(NodeAnnouncement {
version: 1,
features: Default::default(),
alias: radicle::node::Alias::new(String::from_iter(alias)),
addresses: BoundedVec::collect_from(&mut addrs.into_iter()),
timestamp: arbitrary::r#gen(1),
nonce: u64::MAX,
agent: UserAgent::default(),
});
let ann = ann.signed(&signer);
let msg = Message::Announcement(ann);
let data = msg.encode_to_vec();
assert!(data.len() < wire::Size::MAX as usize);
}
#[test]
fn test_pingpong_encode_max_size() {
Message::Ping(Ping {
ponglen: 0,
zeroes: ZeroBytes::new(Ping::MAX_PING_ZEROES),
})
.encode_to_vec();
(Message::Pong {
zeroes: ZeroBytes::new(Ping::MAX_PONG_ZEROES),
})
.encode_to_vec();
}
#[test]
#[should_panic(expected = "advance out of bounds")]
fn test_ping_encode_size_overflow() {
Message::Ping(Ping {
ponglen: 0,
zeroes: ZeroBytes::new(Ping::MAX_PING_ZEROES + 1),
})
.encode_to_vec();
}
#[test]
#[should_panic(expected = "advance out of bounds")]
fn test_pong_encode_size_overflow() {
Message::Pong {
zeroes: ZeroBytes::new(Ping::MAX_PONG_ZEROES + 1),
}
.encode_to_vec();
}
#[test]
fn prop_message_decoder() {
fn property(items: Vec<Message>) {
let mut decoder = Deserializer::<1048576, Message>::new(8);
for item in &items {
item.encode(&mut decoder);
}
for item in items {
assert_eq!(decoder.next().unwrap().unwrap(), item);
}
}
qcheck::QuickCheck::new()
.r#gen(qcheck::Gen::new(16))
.quickcheck(property as fn(items: Vec<Message>));
}
#[quickcheck]
fn prop_zero_bytes_encode_decode(zeroes: wire::Size) -> qcheck::TestResult {
if zeroes > Ping::MAX_PING_ZEROES {
return qcheck::TestResult::discard();
}
roundtrip(ZeroBytes::new(zeroes));
qcheck::TestResult::passed()
}
}