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packet.rs
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packet.rs
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use bincode::{deserialize, serialize};
use byteorder::{LittleEndian, ReadBytesExt, WriteBytesExt};
use counter::Counter;
#[cfg(test)]
use hash::Hash;
#[cfg(test)]
use ledger::{next_entries_mut, Block};
use log::Level;
use recvmmsg::{recv_mmsg, NUM_RCVMMSGS};
use result::{Error, Result};
use serde::Serialize;
use xpz_program_interface::pubkey::Pubkey;
use std::fmt;
use std::io;
use std::mem::size_of;
use std::net::{IpAddr, Ipv4Addr, Ipv6Addr, SocketAddr, UdpSocket};
use std::sync::atomic::AtomicUsize;
use std::sync::{Arc, RwLock};
pub type SharedPackets = Arc<RwLock<Packets>>;
pub type SharedBlob = Arc<RwLock<Blob>>;
pub type SharedBlobs = Vec<SharedBlob>;
pub const NUM_PACKETS: usize = 1024 * 8;
pub const BLOB_SIZE: usize = (64 * 1024 - 128); // wikipedia says there should be 20b for ipv4 headers
pub const BLOB_DATA_SIZE: usize = BLOB_SIZE - (BLOB_HEADER_SIZE * 2);
pub const PACKET_DATA_SIZE: usize = 512;
pub const NUM_BLOBS: usize = (NUM_PACKETS * PACKET_DATA_SIZE) / BLOB_SIZE;
#[derive(Clone, Default, Debug, PartialEq)]
#[repr(C)]
pub struct Meta {
pub size: usize,
pub num_retransmits: u64,
pub addr: [u16; 8],
pub port: u16,
pub v6: bool,
}
#[derive(Clone)]
#[repr(C)]
pub struct Packet {
pub data: [u8; PACKET_DATA_SIZE],
pub meta: Meta,
}
impl fmt::Debug for Packet {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(
f,
"Packet {{ size: {:?}, addr: {:?} }}",
self.meta.size,
self.meta.addr()
)
}
}
impl Default for Packet {
fn default() -> Packet {
Packet {
data: [0u8; PACKET_DATA_SIZE],
meta: Meta::default(),
}
}
}
impl Meta {
pub fn addr(&self) -> SocketAddr {
if !self.v6 {
let addr = [
self.addr[0] as u8,
self.addr[1] as u8,
self.addr[2] as u8,
self.addr[3] as u8,
];
let ipv4: Ipv4Addr = From::<[u8; 4]>::from(addr);
SocketAddr::new(IpAddr::V4(ipv4), self.port)
} else {
let ipv6: Ipv6Addr = From::<[u16; 8]>::from(self.addr);
SocketAddr::new(IpAddr::V6(ipv6), self.port)
}
}
pub fn set_addr(&mut self, a: &SocketAddr) {
match *a {
SocketAddr::V4(v4) => {
let ip = v4.ip().octets();
self.addr[0] = u16::from(ip[0]);
self.addr[1] = u16::from(ip[1]);
self.addr[2] = u16::from(ip[2]);
self.addr[3] = u16::from(ip[3]);
self.addr[4] = 0;
self.addr[5] = 0;
self.addr[6] = 0;
self.addr[7] = 0;
self.v6 = false;
}
SocketAddr::V6(v6) => {
self.addr = v6.ip().segments();
self.v6 = true;
}
}
self.port = a.port();
}
}
#[derive(Debug)]
pub struct Packets {
pub packets: Vec<Packet>,
}
//auto derive doesn't support large arrays
impl Default for Packets {
fn default() -> Packets {
Packets {
packets: vec![Packet::default(); NUM_PACKETS],
}
}
}
#[derive(Clone)]
pub struct Blob {
pub data: [u8; BLOB_SIZE],
pub meta: Meta,
}
impl fmt::Debug for Blob {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(
f,
"Blob {{ size: {:?}, addr: {:?} }}",
self.meta.size,
self.meta.addr()
)
}
}
//auto derive doesn't support large arrays
impl Default for Blob {
fn default() -> Blob {
Blob {
data: [0u8; BLOB_SIZE],
meta: Meta::default(),
}
}
}
#[derive(Debug)]
pub enum BlobError {
BadState,
}
impl Packets {
fn run_read_from(&mut self, socket: &UdpSocket) -> Result<usize> {
self.packets.resize(NUM_PACKETS, Packet::default());
let mut i = 0;
socket.set_nonblocking(false)?;
trace!("receiving on {}", socket.local_addr().unwrap());
loop {
match recv_mmsg(socket, &mut self.packets[i..]) {
Err(_) if i > 0 => {
inc_new_counter_info!("packets-recv_count", i);
debug!("got {:?} messages on {}", i, socket.local_addr().unwrap());
socket.set_nonblocking(true)?;
return Ok(i);
}
Err(e) => {
trace!("recv_from err {:?}", e);
return Err(Error::IO(e));
}
Ok(npkts) => {
trace!("got {} packets", npkts);
i += npkts;
if npkts != NUM_RCVMMSGS {
socket.set_nonblocking(true)?;
inc_new_counter_info!("packets-recv_count", i);
return Ok(i);
}
}
}
}
}
pub fn recv_from(&mut self, socket: &UdpSocket) -> Result<()> {
let sz = self.run_read_from(socket)?;
self.packets.resize(sz, Packet::default());
debug!("recv_from: {}", sz);
Ok(())
}
pub fn send_to(&self, socket: &UdpSocket) -> Result<()> {
for p in &self.packets {
let a = p.meta.addr();
socket.send_to(&p.data[..p.meta.size], &a)?;
}
Ok(())
}
}
pub fn to_packets_chunked<T: Serialize>(xs: &[T], chunks: usize) -> Vec<SharedPackets> {
let mut out = vec![];
for x in xs.chunks(chunks) {
let mut p = SharedPackets::default();
p.write()
.unwrap()
.packets
.resize(x.len(), Default::default());
for (i, o) in x.iter().zip(p.write().unwrap().packets.iter_mut()) {
let v = serialize(&i).expect("serialize request");
let len = v.len();
o.data[..len].copy_from_slice(&v);
o.meta.size = len;
}
out.push(p);
}
out
}
pub fn to_packets<T: Serialize>(xs: &[T]) -> Vec<SharedPackets> {
to_packets_chunked(xs, NUM_PACKETS)
}
pub fn to_blob<T: Serialize>(resp: T, rsp_addr: SocketAddr) -> Result<SharedBlob> {
let blob = SharedBlob::default();
{
let mut b = blob.write().unwrap();
let v = serialize(&resp)?;
let len = v.len();
assert!(len <= BLOB_SIZE);
b.data[..len].copy_from_slice(&v);
b.meta.size = len;
b.meta.set_addr(&rsp_addr);
}
Ok(blob)
}
pub fn to_blobs<T: Serialize>(rsps: Vec<(T, SocketAddr)>) -> Result<SharedBlobs> {
let mut blobs = Vec::new();
for (resp, rsp_addr) in rsps {
blobs.push(to_blob(resp, rsp_addr)?);
}
Ok(blobs)
}
const BLOB_INDEX_END: usize = size_of::<u64>();
const BLOB_ID_END: usize = BLOB_INDEX_END + size_of::<Pubkey>();
const BLOB_FLAGS_END: usize = BLOB_ID_END + size_of::<u32>();
const BLOB_SIZE_END: usize = BLOB_FLAGS_END + size_of::<u64>();
macro_rules! align {
($x:expr, $align:expr) => {
$x + ($align - 1) & !($align - 1)
};
}
pub const BLOB_FLAG_IS_CODING: u32 = 0x1;
pub const BLOB_HEADER_SIZE: usize = align!(BLOB_SIZE_END, 64);
impl Blob {
pub fn get_index(&self) -> Result<u64> {
let mut rdr = io::Cursor::new(&self.data[0..BLOB_INDEX_END]);
let r = rdr.read_u64::<LittleEndian>()?;
Ok(r)
}
pub fn set_index(&mut self, ix: u64) -> Result<()> {
let mut wtr = vec![];
wtr.write_u64::<LittleEndian>(ix)?;
self.data[..BLOB_INDEX_END].clone_from_slice(&wtr);
Ok(())
}
/// sender id, we use this for identifying if its a blob from the leader that we should
/// retransmit. eventually blobs should have a signature that we can use ffor spam filtering
pub fn get_id(&self) -> Result<Pubkey> {
let e = deserialize(&self.data[BLOB_INDEX_END..BLOB_ID_END])?;
Ok(e)
}
pub fn set_id(&mut self, id: Pubkey) -> Result<()> {
let wtr = serialize(&id)?;
self.data[BLOB_INDEX_END..BLOB_ID_END].clone_from_slice(&wtr);
Ok(())
}
pub fn get_flags(&self) -> Result<u32> {
let mut rdr = io::Cursor::new(&self.data[BLOB_ID_END..BLOB_FLAGS_END]);
let r = rdr.read_u32::<LittleEndian>()?;
Ok(r)
}
pub fn set_flags(&mut self, ix: u32) -> Result<()> {
let mut wtr = vec![];
wtr.write_u32::<LittleEndian>(ix)?;
self.data[BLOB_ID_END..BLOB_FLAGS_END].clone_from_slice(&wtr);
Ok(())
}
pub fn is_coding(&self) -> bool {
(self.get_flags().unwrap() & BLOB_FLAG_IS_CODING) != 0
}
pub fn set_coding(&mut self) -> Result<()> {
let flags = self.get_flags().unwrap();
self.set_flags(flags | BLOB_FLAG_IS_CODING)
}
pub fn get_data_size(&self) -> Result<u64> {
let mut rdr = io::Cursor::new(&self.data[BLOB_FLAGS_END..BLOB_SIZE_END]);
let r = rdr.read_u64::<LittleEndian>()?;
Ok(r)
}
pub fn set_data_size(&mut self, ix: u64) -> Result<()> {
let mut wtr = vec![];
wtr.write_u64::<LittleEndian>(ix)?;
self.data[BLOB_FLAGS_END..BLOB_SIZE_END].clone_from_slice(&wtr);
Ok(())
}
pub fn data(&self) -> &[u8] {
&self.data[BLOB_HEADER_SIZE..]
}
pub fn data_mut(&mut self) -> &mut [u8] {
&mut self.data[BLOB_HEADER_SIZE..]
}
pub fn get_size(&self) -> Result<usize> {
let size = self.get_data_size()? as usize;
if self.meta.size == size {
Ok(size - BLOB_HEADER_SIZE)
} else {
Err(Error::BlobError(BlobError::BadState))
}
}
pub fn set_size(&mut self, size: usize) {
let new_size = size + BLOB_HEADER_SIZE;
self.meta.size = new_size;
self.set_data_size(new_size as u64).unwrap();
}
pub fn recv_blob(socket: &UdpSocket, r: &SharedBlob) -> io::Result<()> {
let mut p = r.write().unwrap();
trace!("receiving on {}", socket.local_addr().unwrap());
let (nrecv, from) = socket.recv_from(&mut p.data)?;
p.meta.size = nrecv;
p.meta.set_addr(&from);
trace!("got {} bytes from {}", nrecv, from);
Ok(())
}
pub fn recv_from(socket: &UdpSocket) -> Result<SharedBlobs> {
let mut v = Vec::new();
socket.set_nonblocking(false)?;
for i in 0..NUM_BLOBS {
let r = SharedBlob::default();
match Blob::recv_blob(socket, &r) {
Err(_) if i > 0 => {
trace!("got {:?} messages on {}", i, socket.local_addr().unwrap());
break;
}
Err(e) => {
if e.kind() != io::ErrorKind::WouldBlock {
info!("recv_from err {:?}", e);
}
return Err(Error::IO(e));
}
Ok(()) => if i == 0 {
socket.set_nonblocking(true)?;
},
}
v.push(r);
}
Ok(v)
}
pub fn send_to(socket: &UdpSocket, v: SharedBlobs) -> Result<()> {
for r in v {
{
let p = r.read().unwrap();
let a = p.meta.addr();
if let Err(e) = socket.send_to(&p.data[..p.meta.size], &a) {
warn!(
"error sending {} byte packet to {:?}: {:?}",
p.meta.size, a, e
);
Err(e)?;
}
}
}
Ok(())
}
}
#[cfg(test)]
pub fn make_consecutive_blobs(
me_id: Pubkey,
num_blobs_to_make: u64,
start_hash: Hash,
addr: &SocketAddr,
) -> SharedBlobs {
let mut last_hash = start_hash;
let mut num_hashes = 0;
let mut all_entries = Vec::with_capacity(num_blobs_to_make as usize);
for _ in 0..num_blobs_to_make {
all_entries.extend(next_entries_mut(&mut last_hash, &mut num_hashes, vec![]));
}
let mut new_blobs = all_entries.to_blobs_with_id(me_id, 0, addr);
new_blobs.truncate(num_blobs_to_make as usize);
new_blobs
}
#[cfg(test)]
mod tests {
use packet::{
to_packets, Blob, Meta, Packet, Packets, SharedBlob, SharedPackets, NUM_PACKETS,
PACKET_DATA_SIZE,
};
use request::Request;
use std::io;
use std::io::Write;
use std::net::UdpSocket;
#[test]
pub fn packet_send_recv() {
let reader = UdpSocket::bind("127.0.0.1:0").expect("bind");
let addr = reader.local_addr().unwrap();
let sender = UdpSocket::bind("127.0.0.1:0").expect("bind");
let saddr = sender.local_addr().unwrap();
let p = SharedPackets::default();
p.write().unwrap().packets.resize(10, Packet::default());
for m in p.write().unwrap().packets.iter_mut() {
m.meta.set_addr(&addr);
m.meta.size = PACKET_DATA_SIZE;
}
p.read().unwrap().send_to(&sender).unwrap();
p.write().unwrap().recv_from(&reader).unwrap();
for m in p.write().unwrap().packets.iter_mut() {
assert_eq!(m.meta.size, PACKET_DATA_SIZE);
assert_eq!(m.meta.addr(), saddr);
}
}
#[test]
fn test_to_packets() {
let tx = Request::GetTransactionCount;
let rv = to_packets(&vec![tx.clone(); 1]);
assert_eq!(rv.len(), 1);
assert_eq!(rv[0].read().unwrap().packets.len(), 1);
let rv = to_packets(&vec![tx.clone(); NUM_PACKETS]);
assert_eq!(rv.len(), 1);
assert_eq!(rv[0].read().unwrap().packets.len(), NUM_PACKETS);
let rv = to_packets(&vec![tx.clone(); NUM_PACKETS + 1]);
assert_eq!(rv.len(), 2);
assert_eq!(rv[0].read().unwrap().packets.len(), NUM_PACKETS);
assert_eq!(rv[1].read().unwrap().packets.len(), 1);
}
#[test]
pub fn blob_send_recv() {
trace!("start");
let reader = UdpSocket::bind("127.0.0.1:0").expect("bind");
let addr = reader.local_addr().unwrap();
let sender = UdpSocket::bind("127.0.0.1:0").expect("bind");
let p = SharedBlob::default();
p.write().unwrap().meta.set_addr(&addr);
p.write().unwrap().meta.size = 1024;
let v = vec![p];
Blob::send_to(&sender, v).unwrap();
trace!("send_to");
let rv = Blob::recv_from(&reader).unwrap();
trace!("recv_from");
assert_eq!(rv.len(), 1);
assert_eq!(rv[0].read().unwrap().meta.size, 1024);
}
#[cfg(all(feature = "ipv6", test))]
#[test]
pub fn blob_ipv6_send_recv() {
let reader = UdpSocket::bind("[::1]:0").expect("bind");
let addr = reader.local_addr().unwrap();
let sender = UdpSocket::bind("[::1]:0").expect("bind");
let p = SharedBlob::default();
p.as_mut().unwrap().meta.set_addr(&addr);
p.as_mut().unwrap().meta.size = 1024;
let mut v = VecDeque::default();
v.push_back(p);
Blob::send_to(&r, &sender, &mut v).unwrap();
let mut rv = Blob::recv_from(&reader).unwrap();
let rp = rv.pop_front().unwrap();
assert_eq!(rp.as_mut().meta.size, 1024);
}
#[test]
pub fn debug_trait() {
write!(io::sink(), "{:?}", Packet::default()).unwrap();
write!(io::sink(), "{:?}", Packets::default()).unwrap();
write!(io::sink(), "{:?}", Blob::default()).unwrap();
}
#[test]
pub fn blob_test() {
let mut b = Blob::default();
b.set_index(<u64>::max_value()).unwrap();
assert_eq!(b.get_index().unwrap(), <u64>::max_value());
b.data_mut()[0] = 1;
assert_eq!(b.data()[0], 1);
assert_eq!(b.get_index().unwrap(), <u64>::max_value());
assert_eq!(b.meta, Meta::default());
}
}