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Apply rustfmt-0.99.4

dtls-srtp
Takeru Ohta 2018-11-05 20:26:45 +09:00
parent 88b02115fc
commit 4cbba5358c
9 changed files with 406 additions and 309 deletions
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45
examples/srtpsrv.rs
View File

@ -6,37 +6,48 @@ extern crate trackable;
extern crate rtp;
use clap::{App, Arg};
use fibers::{Spawn, Executor, InPlaceExecutor};
use fibers::net::UdpSocket;
use fibers::net::futures::RecvFrom;
use futures::{Future, Poll, Async};
use trackable::error::ErrorKindExt;
use rtp::{Error, ErrorKind};
use rtp::traits::ReadPacket;
use fibers::net::UdpSocket;
use fibers::{Executor, InPlaceExecutor, Spawn};
use futures::{Async, Future, Poll};
use rtp::rfc3550::RtpPacketReader;
use rtp::rfc3711::{SrtpPacketReader, SrtpContext};
use rtp::rfc3711::{SrtpContext, SrtpPacketReader};
use rtp::traits::ReadPacket;
use rtp::{Error, ErrorKind};
use trackable::error::ErrorKindExt;
fn main() {
let matches = App::new("srtpsrv")
.arg(Arg::with_name("PORT").short("p").takes_value(true).default_value("6000"))
.arg(Arg::with_name("MASTER_KEY").short("k").takes_value(true)
.default_value("d34d74f37d74e75f3bdb4f76f1bdf477"))
.arg(Arg::with_name("MASTER_SALT").short("s").takes_value(true)
.default_value("7f1fe35d78f77e75e79f7beb5f7a"))
.get_matches();
.arg(
Arg::with_name("PORT")
.short("p")
.takes_value(true)
.default_value("6000"),
).arg(
Arg::with_name("MASTER_KEY")
.short("k")
.takes_value(true)
.default_value("d34d74f37d74e75f3bdb4f76f1bdf477"),
).arg(
Arg::with_name("MASTER_SALT")
.short("s")
.takes_value(true)
.default_value("7f1fe35d78f77e75e79f7beb5f7a"),
).get_matches();
let port = matches.value_of("PORT").unwrap();
let addr = format!("0.0.0.0:{}", port).parse().unwrap();
let master_key = hex_str_to_bytes(matches.value_of("MASTER_KEY").unwrap());
let master_salt = hex_str_to_bytes(matches.value_of("MASTER_SALT").unwrap());
let context = SrtpContext::new(&master_key, &master_salt);
let future = track_err!(UdpSocket::bind(addr)).and_then(move |socket| {
SrtpRecvLoop::new(socket, context)
});
let future = track_err!(UdpSocket::bind(addr))
.and_then(move |socket| SrtpRecvLoop::new(socket, context));
let mut executor = InPlaceExecutor::new().unwrap();
let monitor = executor.spawn_monitor(future);
let result = executor.run_fiber(monitor).unwrap()
let result = executor
.run_fiber(monitor)
.unwrap()
.map_err(|e| e.unwrap_or_else(|| ErrorKind::Other.cause("disconnected")));
track_try_unwrap!(result);
}

2
src/error.rs
View File

@ -1,6 +1,6 @@
use std::io;
use trackable::error::{TrackableError, IntoTrackableError};
use trackable::error::{ErrorKind as TrackableErrorKind, ErrorKindExt};
use trackable::error::{IntoTrackableError, TrackableError};
pub type Error = TrackableError<ErrorKind>;

4
src/lib.rs
View File

@ -1,18 +1,18 @@
#[macro_use]
extern crate trackable;
extern crate handy_async;
extern crate crypto;
extern crate handy_async;
extern crate num;
extern crate splay_tree;
pub use error::{Error, ErrorKind};
pub mod io;
pub mod traits;
pub mod rfc3550;
pub mod rfc3711;
pub mod rfc4585;
pub mod rfc5761;
pub mod traits;
mod error;

20
src/rfc3550/mod.rs
View File

@ -1,14 +1,14 @@
pub use self::rtp::{RtpPacket, RtpFixedHeader, RtpHeaderExtension, RtpPacketReader};
pub use self::rtp::{RtpFixedHeader, RtpHeaderExtension, RtpPacket, RtpPacketReader};
pub use self::rtcp::{RtcpPacket, RtcpSenderReport, RtcpReceiverReport, RtcpPacketReader};
pub use self::rtcp::{RtcpSourceDescription, RtcpGoodbye, RtcpApplicationDefined};
pub use self::rtcp::{RtcpCompoundPacket, ReceptionReport, SdesChunk, SdesItem};
pub use self::rtcp::{ReceptionReport, RtcpCompoundPacket, SdesChunk, SdesItem};
pub use self::rtcp::{RtcpApplicationDefined, RtcpGoodbye, RtcpSourceDescription};
pub use self::rtcp::{RtcpPacket, RtcpPacketReader, RtcpReceiverReport, RtcpSenderReport};
pub use self::rtcp::{RTCP_PACKET_TYPE_SR, RTCP_PACKET_TYPE_RR, RTCP_PACKET_TYPE_SDES};
pub use self::rtcp::{RTCP_PACKET_TYPE_BYE, RTCP_PACKET_TYPE_APP};
pub use self::rtcp::{SDES_ITEM_TYPE_END, SDES_ITEM_TYPE_CNAME, SDES_ITEM_TYPE_NAME};
pub use self::rtcp::{SDES_ITEM_TYPE_EMAIL, SDES_ITEM_TYPE_PHONE, SDES_ITEM_TYPE_LOC};
pub use self::rtcp::{SDES_ITEM_TYPE_TOOL, SDES_ITEM_TYPE_NOTE, SDES_ITEM_TYPE_PRIV};
pub use self::rtcp::{RTCP_PACKET_TYPE_APP, RTCP_PACKET_TYPE_BYE};
pub use self::rtcp::{RTCP_PACKET_TYPE_RR, RTCP_PACKET_TYPE_SDES, RTCP_PACKET_TYPE_SR};
pub use self::rtcp::{SDES_ITEM_TYPE_CNAME, SDES_ITEM_TYPE_END, SDES_ITEM_TYPE_NAME};
pub use self::rtcp::{SDES_ITEM_TYPE_EMAIL, SDES_ITEM_TYPE_LOC, SDES_ITEM_TYPE_PHONE};
pub use self::rtcp::{SDES_ITEM_TYPE_NOTE, SDES_ITEM_TYPE_PRIV, SDES_ITEM_TYPE_TOOL};
mod rtp;
mod rtcp;
mod rtp;

94
src/rfc3550/rtcp.rs
View File

@ -1,11 +1,11 @@
use std::io::{Read, Write};
use handy_async::sync_io::{ReadExt, WriteExt};
use std::io::{Read, Write};
use {Result, ErrorKind};
use constants::RTP_VERSION;
use io::{ReadFrom, WriteTo};
use traits::{self, Packet};
use types::{U5, U24, RtpTimestamp, NtpTimestamp, NtpMiddleTimetamp, Ssrc, SsrcOrCsrc};
use constants::RTP_VERSION;
use types::{NtpMiddleTimetamp, NtpTimestamp, RtpTimestamp, Ssrc, SsrcOrCsrc, U24, U5};
use {ErrorKind, Result};
pub const RTCP_PACKET_TYPE_SR: u8 = 200;
pub const RTCP_PACKET_TYPE_RR: u8 = 201;
@ -40,11 +40,11 @@ impl traits::ReadPacket for RtcpPacketReader {
}
fn supports_type(&self, ty: u8) -> bool {
match ty {
RTCP_PACKET_TYPE_SR |
RTCP_PACKET_TYPE_RR |
RTCP_PACKET_TYPE_SDES |
RTCP_PACKET_TYPE_BYE |
RTCP_PACKET_TYPE_APP => true,
RTCP_PACKET_TYPE_SR
| RTCP_PACKET_TYPE_RR
| RTCP_PACKET_TYPE_SDES
| RTCP_PACKET_TYPE_BYE
| RTCP_PACKET_TYPE_APP => true,
_ => false,
}
}
@ -103,11 +103,11 @@ impl ReadFrom for RtcpPacket {
RTCP_PACKET_TYPE_APP => {
track_err!(RtcpApplicationDefined::read_from(reader).map(From::from))
}
_ => {
track_panic!(ErrorKind::Unsupported,
_ => track_panic!(
ErrorKind::Unsupported,
"Unknown packet type: {}",
packet_type)
}
packet_type
),
}
}
}
@ -150,21 +150,25 @@ impl From<RtcpApplicationDefined> for RtcpPacket {
fn read_sctp<R: Read>(reader: &mut R, expected_type: u8) -> Result<(U5, Vec<u8>)> {
let b = track_try!(reader.read_u8());
track_assert_eq!(b >> 6,
track_assert_eq!(
b >> 6,
RTP_VERSION,
ErrorKind::Unsupported,
"Unsupported RTP version: {}",
b >> 6);
b >> 6
);
let padding = (b & 0b0010_0000) != 0;
let packet_specific = b & 0b0001_1111;
let packet_type = track_try!(reader.read_u8());
track_assert_eq!(packet_type,
track_assert_eq!(
packet_type,
expected_type,
ErrorKind::Invalid,
"Unexpected SCTP packet type: actual={}, expected={}",
packet_type,
expected_type);
expected_type
);
let word_count = track_try!(reader.read_u16be()) as usize;
let mut payload = track_try!(reader.read_bytes(word_count * 4));
@ -183,11 +187,12 @@ fn read_sctp<R: Read>(reader: &mut R, expected_type: u8) -> Result<(U5, Vec<u8>)
Ok((packet_specific, payload))
}
fn write_sctp<W: Write>(writer: &mut W,
fn write_sctp<W: Write>(
writer: &mut W,
packet_type: u8,
packet_specific: U5,
payload: &[u8])
-> Result<()> {
payload: &[u8],
) -> Result<()> {
track_assert_eq!(payload.len() % 4, 0, ErrorKind::Invalid);
track_try!(writer.write_u8(RTP_VERSION << 6 | packet_specific));
@ -270,12 +275,16 @@ impl WriteTo for RtcpSenderReport {
}
payload.extend(&self.extensions);
track_assert!(self.reception_reports.len() <= 0x0001_1111,
ErrorKind::Invalid);
track_try!(write_sctp(writer,
track_assert!(
self.reception_reports.len() <= 0x0001_1111,
ErrorKind::Invalid
);
track_try!(write_sctp(
writer,
RTCP_PACKET_TYPE_SR,
self.reception_reports.len() as u8,
&payload));
&payload
));
Ok(())
}
}
@ -387,12 +396,16 @@ impl WriteTo for RtcpReceiverReport {
}
payload.extend(&self.extensions);
track_assert!(self.reception_reports.len() <= 0b0001_1111,
ErrorKind::Invalid);
track_try!(write_sctp(writer,
track_assert!(
self.reception_reports.len() <= 0b0001_1111,
ErrorKind::Invalid
);
track_try!(write_sctp(
writer,
RTCP_PACKET_TYPE_RR,
self.reception_reports.len() as u8,
&payload));
&payload
));
Ok(())
}
}
@ -413,7 +426,11 @@ impl ReadFrom for RtcpSourceDescription {
let (source_count, payload) = track_try!(read_sctp(reader, RTCP_PACKET_TYPE_SDES));
let reader = &mut &payload[..];
let chunks = track_try!((0..source_count).map(|_| SdesChunk::read_from(reader)).collect());
let chunks = track_try!(
(0..source_count)
.map(|_| SdesChunk::read_from(reader))
.collect()
);
Ok(RtcpSourceDescription { chunks: chunks })
}
}
@ -425,10 +442,12 @@ impl WriteTo for RtcpSourceDescription {
}
track_assert!(self.chunks.len() <= 0b0001_1111, ErrorKind::Invalid);
track_try!(write_sctp(writer,
track_try!(write_sctp(
writer,
RTCP_PACKET_TYPE_SDES,
self.chunks.len() as u8,
&payload));
&payload
));
Ok(())
}
}
@ -594,10 +613,12 @@ impl WriteTo for RtcpGoodbye {
}
track_assert!(self.ssrc_csrc_list.len() <= 0b0001_1111, ErrorKind::Invalid);
track_try!(write_sctp(writer,
track_try!(write_sctp(
writer,
RTCP_PACKET_TYPE_BYE,
self.ssrc_csrc_list.len() as u8,
&payload));
&payload
));
Ok(())
}
}
@ -636,7 +657,12 @@ impl WriteTo for RtcpApplicationDefined {
payload.extend(&self.data);
track_assert!(self.subtype <= 0b0001_1111, ErrorKind::Invalid);
track_try!(write_sctp(writer, RTCP_PACKET_TYPE_APP, self.subtype, &payload));
track_try!(write_sctp(
writer,
RTCP_PACKET_TYPE_APP,
self.subtype,
&payload
));
Ok(())
}
}

26
src/rfc3550/rtp.rs
View File

@ -1,11 +1,11 @@
use std::io::{Read, Write};
use handy_async::sync_io::{ReadExt, WriteExt};
use std::io::{Read, Write};
use {Result, ErrorKind};
use constants::RTP_VERSION;
use io::{ReadFrom, WriteTo};
use traits::{self, Packet};
use types::{U7, RtpTimestamp, Ssrc, Csrc};
use constants::RTP_VERSION;
use types::{Csrc, RtpTimestamp, Ssrc, U7};
use {ErrorKind, Result};
#[derive(Debug, Clone, PartialEq, Eq)]
pub struct RtpPacketReader;
@ -62,13 +62,17 @@ impl WriteTo for RtpPacket {
track_try!(self.header.write_to(writer));
track_try!(writer.write_all(&self.payload));
track_assert_ne!(self.header.padding,
track_assert_ne!(
self.header.padding,
self.padding.is_empty(),
ErrorKind::Invalid);
ErrorKind::Invalid
);
if !self.padding.is_empty() {
track_assert_eq!(*self.padding.last().unwrap() as usize,
track_assert_eq!(
*self.padding.last().unwrap() as usize,
self.padding.len(),
ErrorKind::Invalid);
ErrorKind::Invalid
);
track_try!(writer.write_all(&self.padding));
}
Ok(())
@ -89,11 +93,13 @@ pub struct RtpFixedHeader {
impl ReadFrom for RtpFixedHeader {
fn read_from<R: Read>(reader: &mut R) -> Result<Self> {
let b = track_try!(reader.read_u8());
track_assert_eq!(b >> 6,
track_assert_eq!(
b >> 6,
RTP_VERSION,
ErrorKind::Unsupported,
"Unsupported RTP version: {}",
b >> 6);
b >> 6
);
let padding = (b & 0b0010_0000) != 0;
let extension = (b & 0b0001_0000) != 0;
let csrc_count = b & 0b0000_1111;

142
src/rfc3711.rs
View File

@ -1,14 +1,14 @@
use std::io::Read;
use crypto;
use handy_async::sync_io::{ReadExt, WriteExt};
use num::BigUint;
use splay_tree::SplaySet;
use handy_async::sync_io::{ReadExt, WriteExt};
use std::io::Read;
use {Result, ErrorKind};
use io::{ReadFrom, WriteTo};
use types::U48;
use traits::{ReadPacket, RtpPacket, RtcpPacket};
use rfc3550;
use traits::{ReadPacket, RtcpPacket, RtpPacket};
use types::U48;
use {ErrorKind, Result};
pub type PacketIndex = U48;
@ -64,15 +64,21 @@ impl SrtpContext {
let salt_key_id = BigUint::from_bytes_be(&[2, 0, 0, 0, 0, 0, 0]) + index.clone();
let master_salt = BigUint::from_bytes_be(&self.master_salt);
self.session_encr_key = prf_n(&self.master_key,
self.session_encr_key = prf_n(
&self.master_key,
enc_key_id ^ master_salt.clone(),
self.session_encr_key.len());
self.session_auth_key = prf_n(&self.master_key,
self.session_encr_key.len(),
);
self.session_auth_key = prf_n(
&self.master_key,
auth_key_id ^ master_salt.clone(),
self.session_auth_key.len());
self.session_salt_key = prf_n(&self.master_key,
self.session_auth_key.len(),
);
self.session_salt_key = prf_n(
&self.master_key,
salt_key_id ^ master_salt.clone(),
self.session_salt_key.len());
self.session_salt_key.len(),
);
}
pub fn authenticate(&self, packet: &[u8]) -> Result<()> {
let auth_portion = &packet[..packet.len() - self.auth_tag_len];
@ -151,15 +157,21 @@ impl SrtcpContext {
let salt_key_id = BigUint::from_bytes_be(&[5, 0, 0, 0, 0, 0, 0]) + index.clone();
let master_salt = BigUint::from_bytes_be(&self.master_salt);
self.session_encr_key = prf_n(&self.master_key,
self.session_encr_key = prf_n(
&self.master_key,
enc_key_id ^ master_salt.clone(),
self.session_encr_key.len());
self.session_auth_key = prf_n(&self.master_key,
self.session_encr_key.len(),
);
self.session_auth_key = prf_n(
&self.master_key,
auth_key_id ^ master_salt.clone(),
self.session_auth_key.len());
self.session_salt_key = prf_n(&self.master_key,
self.session_auth_key.len(),
);
self.session_salt_key = prf_n(
&self.master_key,
salt_key_id ^ master_salt.clone(),
self.session_salt_key.len());
self.session_salt_key.len(),
);
}
pub fn authenticate(&self, packet: &[u8]) -> Result<()> {
let auth_portion = &packet[..packet.len() - self.auth_tag_len];
@ -209,8 +221,9 @@ pub struct SrtpPacketReader<T> {
inner: T,
}
impl<T> SrtpPacketReader<T>
where T: ReadPacket,
T::Packet: RtpPacket
where
T: ReadPacket,
T::Packet: RtpPacket,
{
pub fn new(mut context: SrtpContext, inner: T) -> Self {
context.update_session_keys();
@ -221,8 +234,9 @@ impl<T> SrtpPacketReader<T>
}
}
impl<T> ReadPacket for SrtpPacketReader<T>
where T: ReadPacket,
T::Packet: RtpPacket
where
T: ReadPacket,
T::Packet: RtpPacket,
{
type Packet = T::Packet;
fn read_packet<R: Read>(&mut self, reader: &mut R) -> Result<Self::Packet> {
@ -243,8 +257,9 @@ pub struct SrtcpPacketReader<T> {
inner: T,
}
impl<T> SrtcpPacketReader<T>
where T: ReadPacket,
T::Packet: RtcpPacket
where
T: ReadPacket,
T::Packet: RtcpPacket,
{
pub fn new(mut context: SrtcpContext, inner: T) -> Self {
context.update_session_keys();
@ -255,8 +270,9 @@ impl<T> SrtcpPacketReader<T>
}
}
impl<T> ReadPacket for SrtcpPacketReader<T>
where T: ReadPacket,
T::Packet: RtcpPacket
where
T: ReadPacket,
T::Packet: RtcpPacket,
{
type Packet = T::Packet;
fn read_packet<R: Read>(&mut self, reader: &mut R) -> Result<Self::Packet> {
@ -281,9 +297,11 @@ fn hmac_hash_sha1(key: &[u8], data: &[u8]) -> Vec<u8> {
fn prf_n(master_key: &[u8], x: BigUint, n: usize) -> Vec<u8> {
// https://tools.ietf.org/html/rfc3711#section-4.1.1
let mut output = Vec::new();
let mut ctr = crypto::aes::ctr(crypto::aes::KeySize::KeySize128,
let mut ctr = crypto::aes::ctr(
crypto::aes::KeySize::KeySize128,
master_key,
&(x << 16).to_bytes_be());
&(x << 16).to_bytes_be(),
);
for i in 0.. {
let old_len = output.len();
let new_len = output.len() + 16;
@ -302,50 +320,64 @@ fn prf_n(master_key: &[u8], x: BigUint, n: usize) -> Vec<u8> {
#[cfg(test)]
mod test {
use super::*;
use rfc3550;
use rfc4585;
use super::*;
#[test]
fn rtp_decryption_works() {
let master_key = [211, 77, 116, 243, 125, 116, 231, 95, 59, 219, 79, 118, 241, 189, 244,
119];
let master_salt = [127, 31, 227, 93, 120, 247, 126, 117, 231, 159, 123, 235, 95, 122];
let master_key = [
211, 77, 116, 243, 125, 116, 231, 95, 59, 219, 79, 118, 241, 189, 244, 119,
];
let master_salt = [
127, 31, 227, 93, 120, 247, 126, 117, 231, 159, 123, 235, 95, 122,
];
let packet = [128, 0, 3, 92, 222, 161, 6, 76, 26, 163, 115, 130, 222, 0, 143, 87, 0, 227,
123, 91, 200, 238, 141, 220, 9, 191, 52, 111, 100, 62, 220, 158, 211, 79,
184, 199, 79, 182, 9, 248, 170, 82, 125, 152, 143, 206, 8, 152, 80, 207, 27,
183, 141, 77, 33, 60, 101, 180, 210, 146, 139, 170, 149, 13, 99, 75, 223,
156, 79, 71, 84, 119, 68, 236, 244, 163, 198, 175, 219, 160, 255, 9, 82,
169, 64, 112, 106, 4, 0, 246, 39, 29, 88, 15, 62, 174, 21, 253, 171, 198,
128, 61, 23, 43, 143, 255, 176, 125, 223, 23, 188, 90, 103, 139, 223, 56,
162, 35, 27, 225, 117, 243, 138, 163, 35, 79, 221, 201, 149, 154, 203, 255,
2, 23, 184, 184, 169, 32, 1, 138, 172, 60, 70, 240, 53, 11, 54, 81, 172,
214, 34, 136, 39, 152, 17, 247, 126, 199, 200, 184, 70, 7, 52, 191, 129,
239, 86, 78, 172, 229, 178, 112, 22, 125, 191, 164, 17, 193, 24, 152, 197,
146, 94, 74, 156, 171, 245, 239, 220, 205, 145, 206];
let packet = [
128, 0, 3, 92, 222, 161, 6, 76, 26, 163, 115, 130, 222, 0, 143, 87, 0, 227, 123, 91,
200, 238, 141, 220, 9, 191, 52, 111, 100, 62, 220, 158, 211, 79, 184, 199, 79, 182, 9,
248, 170, 82, 125, 152, 143, 206, 8, 152, 80, 207, 27, 183, 141, 77, 33, 60, 101, 180,
210, 146, 139, 170, 149, 13, 99, 75, 223, 156, 79, 71, 84, 119, 68, 236, 244, 163, 198,
175, 219, 160, 255, 9, 82, 169, 64, 112, 106, 4, 0, 246, 39, 29, 88, 15, 62, 174, 21,
253, 171, 198, 128, 61, 23, 43, 143, 255, 176, 125, 223, 23, 188, 90, 103, 139, 223,
56, 162, 35, 27, 225, 117, 243, 138, 163, 35, 79, 221, 201, 149, 154, 203, 255, 2, 23,
184, 184, 169, 32, 1, 138, 172, 60, 70, 240, 53, 11, 54, 81, 172, 214, 34, 136, 39,
152, 17, 247, 126, 199, 200, 184, 70, 7, 52, 191, 129, 239, 86, 78, 172, 229, 178, 112,
22, 125, 191, 164, 17, 193, 24, 152, 197, 146, 94, 74, 156, 171, 245, 239, 220, 205,
145, 206,
];
let context = SrtpContext::new(&master_key, &master_salt);
let mut rtp_reader = SrtpPacketReader::new(context, rfc3550::RtpPacketReader);
let packet = rtp_reader.read_packet(&mut &packet[..]).unwrap();
let expected_prefix = [0xbe, 0x9c, 0x8c, 0x86, 0x81, 0x80, 0x81, 0x86, 0x8d, 0x9c, 0xfd,
0x1b, 0x0d, 0x05, 0x01, 0x00, 0x01, 0x05, 0x0d, 0x1b, 0xff, 0x9b,
0x8d, 0x85, 0x81, 0x80, 0x81, 0x85, 0x8d, 0x9b, 0xff, 0x1b];
let expected_prefix = [
0xbe, 0x9c, 0x8c, 0x86, 0x81, 0x80, 0x81, 0x86, 0x8d, 0x9c, 0xfd, 0x1b, 0x0d, 0x05,
0x01, 0x00, 0x01, 0x05, 0x0d, 0x1b, 0xff, 0x9b, 0x8d, 0x85, 0x81, 0x80, 0x81, 0x85,
0x8d, 0x9b, 0xff, 0x1b,
];
assert_eq!(&packet.payload[..expected_prefix.len()],
&expected_prefix[..]);
assert_eq!(
&packet.payload[..expected_prefix.len()],
&expected_prefix[..]
);
}
#[test]
fn rtcp_decryption_works() {
let master_key = [254, 123, 44, 240, 174, 252, 53, 54, 2, 213, 123, 106, 85, 165, 5, 13];
let master_salt = [77, 202, 202, 112, 81, 101, 219, 232, 143, 131, 160, 89, 15, 141];
let packet = [128, 201, 0, 1, 194, 242, 138, 93, 67, 38, 193, 233, 60, 78, 188, 195, 230,
90, 19, 196, 152, 235, 136, 164, 15, 177, 174, 217, 207, 115, 148, 223, 109,
112, 71, 245, 16, 214, 216, 232, 87, 153, 5, 238, 72, 201, 223, 43, 69, 99,
54, 211, 118, 28, 227, 100, 161, 216, 90, 203, 99, 167, 215, 130, 151, 16,
128, 138, 128, 0, 0, 1, 126, 39, 201, 236, 161, 194, 6, 232, 194, 230];
let master_key = [
254, 123, 44, 240, 174, 252, 53, 54, 2, 213, 123, 106, 85, 165, 5, 13,
];
let master_salt = [
77, 202, 202, 112, 81, 101, 219, 232, 143, 131, 160, 89, 15, 141,
];
let packet = [
128, 201, 0, 1, 194, 242, 138, 93, 67, 38, 193, 233, 60, 78, 188, 195, 230, 90, 19,
196, 152, 235, 136, 164, 15, 177, 174, 217, 207, 115, 148, 223, 109, 112, 71, 245, 16,
214, 216, 232, 87, 153, 5, 238, 72, 201, 223, 43, 69, 99, 54, 211, 118, 28, 227, 100,
161, 216, 90, 203, 99, 167, 215, 130, 151, 16, 128, 138, 128, 0, 0, 1, 126, 39, 201,
236, 161, 194, 6, 232, 194, 230,
];
let context = SrtcpContext::new(&master_key, &master_salt);
let mut rtcp_reader = SrtcpPacketReader::new(context, rfc4585::RtcpPacketReader);

95
src/rfc4585.rs
View File

@ -1,12 +1,12 @@
use std::io::{Read, Write};
use handy_async::sync_io::{ReadExt, WriteExt};
use std::io::{Read, Write};
use {Result, ErrorKind};
use io::{ReadFrom, WriteTo};
use traits::{self, Packet};
use types::{U5, U6, U7, U13, Ssrc};
use constants::RTP_VERSION;
use io::{ReadFrom, WriteTo};
use rfc3550;
use traits::{self, Packet};
use types::{Ssrc, U13, U5, U6, U7};
use {ErrorKind, Result};
pub const RTCP_PACKET_TYPE_RTPFB: u8 = 205;
pub const RTCP_PACKET_TYPE_PSFB: u8 = 206;
@ -35,13 +35,13 @@ impl traits::ReadPacket for RtcpPacketReader {
}
fn supports_type(&self, ty: u8) -> bool {
match ty {
rfc3550::RTCP_PACKET_TYPE_SR |
rfc3550::RTCP_PACKET_TYPE_RR |
rfc3550::RTCP_PACKET_TYPE_SDES |
rfc3550::RTCP_PACKET_TYPE_BYE |
rfc3550::RTCP_PACKET_TYPE_APP |
RTCP_PACKET_TYPE_RTPFB |
RTCP_PACKET_TYPE_PSFB => true,
rfc3550::RTCP_PACKET_TYPE_SR
| rfc3550::RTCP_PACKET_TYPE_RR
| rfc3550::RTCP_PACKET_TYPE_SDES
| rfc3550::RTCP_PACKET_TYPE_BYE
| rfc3550::RTCP_PACKET_TYPE_APP
| RTCP_PACKET_TYPE_RTPFB
| RTCP_PACKET_TYPE_PSFB => true,
_ => false,
}
}
@ -102,9 +102,11 @@ impl ReadFrom for RtcpPacket {
}
_ => {
track_assert_eq!(buf[0] >> 6, RTP_VERSION, ErrorKind::Invalid);
track_panic!(ErrorKind::Unsupported,
track_panic!(
ErrorKind::Unsupported,
"Unknown packet type: {}",
packet_type)
packet_type
)
}
}
}
@ -171,11 +173,11 @@ impl ReadFrom for RtcpTransportLayerFeedback {
RTPFB_MESSAGE_TYPE_NACK => {
track_err!(GenericNack::read_from(&mut &rest[..])).map(From::from)
}
_ => {
track_panic!(ErrorKind::Unsupported,
_ => track_panic!(
ErrorKind::Unsupported,
"Unknown feedback type: {}",
fb_message_type)
}
fb_message_type
),
}
}
}
@ -184,10 +186,12 @@ impl WriteTo for RtcpTransportLayerFeedback {
match *self {
RtcpTransportLayerFeedback::Nack(ref f) => {
let payload = track_try!(f.to_bytes());
track_err!(write_common(writer,
track_err!(write_common(
writer,
RTCP_PACKET_TYPE_RTPFB,
RTPFB_MESSAGE_TYPE_NACK,
&payload))
&payload
))
}
}
}
@ -224,11 +228,11 @@ impl ReadFrom for RtcpPayloadSpecificFeedback {
PSFB_MESSAGE_TYPE_AFB => {
track_err!(ApplicationLayerFeedback::read_from(reader).map(From::from))
}
_ => {
track_panic!(ErrorKind::Unsupported,
_ => track_panic!(
ErrorKind::Unsupported,
"Unknown feedback type: {}",
fb_message_type)
}
fb_message_type
),
}
}
}
@ -237,31 +241,39 @@ impl WriteTo for RtcpPayloadSpecificFeedback {
match *self {
RtcpPayloadSpecificFeedback::Pli(ref f) => {
let payload = track_try!(f.to_bytes());
track_err!(write_common(writer,
track_err!(write_common(
writer,
RTCP_PACKET_TYPE_PSFB,
PSFB_MESSAGE_TYPE_PLI,
&payload))
&payload
))
}
RtcpPayloadSpecificFeedback::Sli(ref f) => {
let payload = track_try!(f.to_bytes());
track_err!(write_common(writer,
track_err!(write_common(
writer,
RTCP_PACKET_TYPE_PSFB,
PSFB_MESSAGE_TYPE_SLI,
&payload))
&payload
))
}
RtcpPayloadSpecificFeedback::Rpsi(ref f) => {
let payload = track_try!(f.to_bytes());
track_err!(write_common(writer,
track_err!(write_common(
writer,
RTCP_PACKET_TYPE_PSFB,
PSFB_MESSAGE_TYPE_RPSI,
&payload))
&payload
))
}
RtcpPayloadSpecificFeedback::Afb(ref f) => {
let payload = track_try!(f.to_bytes());
track_err!(write_common(writer,
track_err!(write_common(
writer,
RTCP_PACKET_TYPE_PSFB,
PSFB_MESSAGE_TYPE_AFB,
&payload))
&payload
))
}
}
}
@ -287,11 +299,12 @@ impl From<ApplicationLayerFeedback> for RtcpPayloadSpecificFeedback {
}
}
fn write_common<W: Write>(writer: &mut W,
fn write_common<W: Write>(
writer: &mut W,
packet_type: u8,
fb_message_type: U5,
payload: &[u8])
-> Result<()> {
payload: &[u8],
) -> Result<()> {
track_assert_eq!(payload.len() % 4, 0, ErrorKind::Invalid);
track_try!(writer.write_u8(RTP_VERSION << 6 | fb_message_type));
@ -308,21 +321,25 @@ fn write_common<W: Write>(writer: &mut W,
fn read_common<R: Read>(reader: &mut R, expected_type: u8) -> Result<(U5, Vec<u8>)> {
let b = track_try!(reader.read_u8());
track_assert_eq!(b >> 6,
track_assert_eq!(
b >> 6,
RTP_VERSION,
ErrorKind::Unsupported,
"Unsupported RTP version: {}",
b >> 6);
b >> 6
);
let padding = (b & 0b0010_0000) != 0;
let fb_message_type = b & 0b0001_1111;
let packet_type = track_try!(reader.read_u8());
track_assert_eq!(packet_type,
track_assert_eq!(
packet_type,
expected_type,
ErrorKind::Invalid,
"Unexpected SCTP packet type: actual={}, expected={}",
packet_type,
expected_type);
expected_type
);
let word_count = track_try!(reader.read_u16be()) as usize;
let mut payload = track_try!(reader.read_bytes(word_count * 4));

27
src/rfc5761.rs
View File

@ -1,7 +1,7 @@
use std::io::{Read, Write};
use traits::{Packet, ReadPacket, RtcpPacket, RtpPacket, WritePacket};
use Result;
use traits::{ReadPacket, WritePacket, RtpPacket, RtcpPacket, Packet};
#[derive(Debug, Clone, PartialEq, Eq)]
pub struct MuxPacketReader<T, U> {
@ -9,10 +9,11 @@ pub struct MuxPacketReader<T, U> {
rtcp_reader: U,
}
impl<T, U> MuxPacketReader<T, U>
where T: ReadPacket,
where
T: ReadPacket,
T::Packet: RtpPacket,
U: ReadPacket,
U::Packet: RtcpPacket
U::Packet: RtcpPacket,
{
pub fn new(rtp_reader: T, rtcp_reader: U) -> Self {
MuxPacketReader {
@ -22,10 +23,11 @@ impl<T, U> MuxPacketReader<T, U>
}
}
impl<T, U> ReadPacket for MuxPacketReader<T, U>
where T: ReadPacket,
where
T: ReadPacket,
T::Packet: RtpPacket,
U: ReadPacket,
U::Packet: RtcpPacket
U::Packet: RtcpPacket,
{
type Packet = MuxedPacket<T::Packet, U::Packet>;
fn read_packet<R: Read>(&mut self, reader: &mut R) -> Result<Self::Packet> {
@ -52,10 +54,11 @@ pub struct MuxPacketWriter<T, U> {
rtcp_writer: U,
}
impl<T, U> MuxPacketWriter<T, U>
where T: WritePacket,
where
T: WritePacket,
T::Packet: RtpPacket,
U: WritePacket,
U::Packet: RtcpPacket
U::Packet: RtcpPacket,
{
pub fn new(rtp_writer: T, rtcp_writer: U) -> Self {
MuxPacketWriter {
@ -65,10 +68,11 @@ impl<T, U> MuxPacketWriter<T, U>
}
}
impl<T, U> WritePacket for MuxPacketWriter<T, U>
where T: WritePacket,
where
T: WritePacket,
T::Packet: RtpPacket,
U: WritePacket,
U::Packet: RtcpPacket
U::Packet: RtcpPacket,
{
type Packet = MuxedPacket<T::Packet, U::Packet>;
fn write_packet<W: Write>(&mut self, writer: &mut W, packet: &Self::Packet) -> Result<()> {
@ -85,7 +89,8 @@ pub enum MuxedPacket<T, U> {
Rtcp(U),
}
impl<T, U> Packet for MuxedPacket<T, U>
where T: RtpPacket,
U: RtcpPacket
where
T: RtpPacket,
U: RtcpPacket,
{
}