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// Copyright 2015, 2016 Ethcore (UK) Ltd.
// This file is part of Parity.
// Parity is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// Parity is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with Parity. If not, see <http://www.gnu.org/licenses/>.
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use std ::sync ::Arc ;
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use std ::collections ::VecDeque ;
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use std ::net ::SocketAddr ;
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use mio ::{ Handler , Token , EventSet , EventLoop , PollOpt , TryRead , TryWrite } ;
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use mio ::tcp ::* ;
use hash ::* ;
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use sha3 ::* ;
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use bytes ::* ;
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use rlp ::* ;
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use std ::io ::{ self , Cursor , Read , Write } ;
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use error ::* ;
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use io ::{ IoContext , StreamToken } ;
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use network ::error ::NetworkError ;
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use network ::handshake ::Handshake ;
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use network ::stats ::NetworkStats ;
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use crypto ;
use rcrypto ::blockmodes ::* ;
use rcrypto ::aessafe ::* ;
use rcrypto ::symmetriccipher ::* ;
use rcrypto ::buffer ::* ;
use tiny_keccak ::Keccak ;
const ENCRYPTED_HEADER_LEN : usize = 32 ;
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const RECIEVE_PAYLOAD_TIMEOUT : u64 = 30000 ;
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pub trait GenericSocket : Read + Write {
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}
impl GenericSocket for TcpStream {
}
pub struct GenericConnection < Socket : GenericSocket > {
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/// Connection id (token)
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pub token : StreamToken ,
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/// Network socket
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pub socket : Socket ,
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/// Receive buffer
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rec_buf : Bytes ,
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/// Expected size
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rec_size : usize ,
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/// Send out packets FIFO
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send_queue : VecDeque < Cursor < Bytes > > ,
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/// Event flags this connection expects
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interest : EventSet ,
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/// Shared network statistics
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stats : Arc < NetworkStats > ,
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}
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impl < Socket : GenericSocket > GenericConnection < Socket > {
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pub fn expect ( & mut self , size : usize ) {
if self . rec_size ! = self . rec_buf . len ( ) {
warn! ( target :" net " , " Unexpected connection read start " ) ;
}
unsafe { self . rec_buf . set_len ( 0 ) }
self . rec_size = size ;
}
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/// Readable IO handler. Called when there is some data to be read.
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pub fn readable ( & mut self ) -> io ::Result < Option < Bytes > > {
if self . rec_size = = 0 | | self . rec_buf . len ( ) > = self . rec_size {
warn! ( target :" net " , " Unexpected connection read " ) ;
}
let max = self . rec_size - self . rec_buf . len ( ) ;
// resolve "multiple applicable items in scope [E0034]" error
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let sock_ref = < Socket as Read > ::by_ref ( & mut self . socket ) ;
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match sock_ref . take ( max as u64 ) . try_read_buf ( & mut self . rec_buf ) {
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Ok ( Some ( size ) ) if size ! = 0 = > {
self . stats . inc_recv ( size ) ;
if self . rec_size ! = 0 & & self . rec_buf . len ( ) = = self . rec_size {
self . rec_size = 0 ;
Ok ( Some ( ::std ::mem ::replace ( & mut self . rec_buf , Bytes ::new ( ) ) ) )
} else { Ok ( None ) }
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} ,
Ok ( _ ) = > Ok ( None ) ,
Err ( e ) = > Err ( e ) ,
}
}
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/// Add a packet to send queue.
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pub fn send ( & mut self , data : Bytes ) {
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if ! data . is_empty ( ) {
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self . send_queue . push_back ( Cursor ::new ( data ) ) ;
}
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if ! self . interest . is_writable ( ) {
self . interest . insert ( EventSet ::writable ( ) ) ;
}
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}
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/// Writable IO handler. Called when the socket is ready to send.
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pub fn writable ( & mut self ) -> io ::Result < WriteStatus > {
if self . send_queue . is_empty ( ) {
return Ok ( WriteStatus ::Complete )
}
{
let buf = self . send_queue . front_mut ( ) . unwrap ( ) ;
let send_size = buf . get_ref ( ) . len ( ) ;
if ( buf . position ( ) as usize ) > = send_size {
warn! ( target :" net " , " Unexpected connection data " ) ;
return Ok ( WriteStatus ::Complete )
}
match self . socket . try_write_buf ( buf ) {
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Ok ( Some ( size ) ) if ( buf . position ( ) as usize ) < send_size = > {
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self . interest . insert ( EventSet ::writable ( ) ) ;
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self . stats . inc_send ( size ) ;
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Ok ( WriteStatus ::Ongoing )
} ,
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Ok ( Some ( size ) ) if ( buf . position ( ) as usize ) = = send_size = > {
self . stats . inc_send ( size ) ;
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Ok ( WriteStatus ::Complete )
} ,
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Ok ( Some ( _ ) ) = > { panic! ( " Wrote past buffer " ) ; } ,
Ok ( None ) = > Ok ( WriteStatus ::Ongoing ) ,
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Err ( e ) = > Err ( e )
}
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} . and_then ( | r | {
if r = = WriteStatus ::Complete {
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self . send_queue . pop_front ( ) ;
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}
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if self . send_queue . is_empty ( ) {
self . interest . remove ( EventSet ::writable ( ) ) ;
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}
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else {
self . interest . insert ( EventSet ::writable ( ) ) ;
}
Ok ( r )
} )
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}
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}
/// Low level tcp connection
pub type Connection = GenericConnection < TcpStream > ;
impl Connection {
/// Create a new connection with given id and socket.
pub fn new ( token : StreamToken , socket : TcpStream , stats : Arc < NetworkStats > ) -> Connection {
Connection {
token : token ,
socket : socket ,
send_queue : VecDeque ::new ( ) ,
rec_buf : Bytes ::new ( ) ,
rec_size : 0 ,
interest : EventSet ::hup ( ) | EventSet ::readable ( ) ,
stats : stats ,
}
}
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/// Get socket token
pub fn token ( & self ) -> StreamToken {
self . token
}
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/// Replace socket token
pub fn set_token ( & mut self , token : StreamToken ) {
self . token = token ;
}
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/// Get remote peer address
pub fn remote_addr ( & self ) -> io ::Result < SocketAddr > {
self . socket . peer_addr ( )
}
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/// Register this connection with the IO event loop.
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pub fn register_socket < Host : Handler > ( & self , reg : Token , event_loop : & mut EventLoop < Host > ) -> io ::Result < ( ) > {
trace! ( target : " net " , " connection register; token={:?} " , reg ) ;
event_loop . register ( & self . socket , reg , self . interest , PollOpt ::edge ( ) | PollOpt ::oneshot ( ) ) . or_else ( | e | {
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debug! ( " Failed to register {:?}, {:?} " , reg , e ) ;
Ok ( ( ) )
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} )
}
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/// Update connection registration. Should be called at the end of the IO handler.
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pub fn update_socket < Host : Handler > ( & self , reg : Token , event_loop : & mut EventLoop < Host > ) -> io ::Result < ( ) > {
trace! ( target : " net " , " connection reregister; token={:?} " , reg ) ;
event_loop . reregister ( & self . socket , reg , self . interest , PollOpt ::edge ( ) | PollOpt ::oneshot ( ) ) . or_else ( | e | {
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debug! ( " Failed to reregister {:?}, {:?} " , reg , e ) ;
Ok ( ( ) )
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} )
}
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/// Delete connection registration. Should be called at the end of the IO handler.
pub fn deregister_socket < Host : Handler > ( & self , event_loop : & mut EventLoop < Host > ) -> io ::Result < ( ) > {
trace! ( target : " net " , " connection deregister; token={:?} " , self . token ) ;
event_loop . deregister ( & self . socket ) . ok ( ) ; // ignore errors here
Ok ( ( ) )
}
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}
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/// Connection write status.
#[ derive(PartialEq, Eq) ]
pub enum WriteStatus {
/// Some data is still pending for current packet
Ongoing ,
/// All data sent.
Complete
}
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/// RLPx packet
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pub struct Packet {
pub protocol : u16 ,
pub data : Bytes ,
}
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/// Encrypted connection receiving state.
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enum EncryptedConnectionState {
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/// Reading a header.
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Header ,
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/// Reading the rest of the packet.
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Payload ,
}
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/// Connection implementing RLPx framing
/// https://github.com/ethereum/devp2p/blob/master/rlpx.md#framing
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pub struct EncryptedConnection {
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/// Underlying tcp connection
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connection : Connection ,
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/// Egress data encryptor
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encoder : CtrMode < AesSafe256Encryptor > ,
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/// Ingress data decryptor
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decoder : CtrMode < AesSafe256Encryptor > ,
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/// Ingress data decryptor
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mac_encoder : EcbEncryptor < AesSafe256Encryptor , EncPadding < NoPadding > > ,
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/// MAC for egress data
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egress_mac : Keccak ,
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/// MAC for ingress data
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ingress_mac : Keccak ,
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/// Read state
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read_state : EncryptedConnectionState ,
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/// Protocol id for the last received packet
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protocol_id : u16 ,
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/// Payload expected to be received for the last header.
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payload_len : usize ,
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}
impl EncryptedConnection {
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/// Get socket token
pub fn token ( & self ) -> StreamToken {
self . connection . token
}
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/// Replace socket token
pub fn set_token ( & mut self , token : StreamToken ) {
self . connection . set_token ( token ) ;
}
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/// Get remote peer address
pub fn remote_addr ( & self ) -> io ::Result < SocketAddr > {
self . connection . remote_addr ( )
}
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/// Create an encrypted connection out of the handshake. Consumes a handshake object.
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pub fn new ( mut handshake : Handshake ) -> Result < EncryptedConnection , UtilError > {
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let shared = try ! ( crypto ::ecdh ::agree ( handshake . ecdhe . secret ( ) , & handshake . remote_public ) ) ;
let mut nonce_material = H512 ::new ( ) ;
if handshake . originated {
handshake . remote_nonce . copy_to ( & mut nonce_material [ 0 .. 32 ] ) ;
handshake . nonce . copy_to ( & mut nonce_material [ 32 .. 64 ] ) ;
}
else {
handshake . nonce . copy_to ( & mut nonce_material [ 0 .. 32 ] ) ;
handshake . remote_nonce . copy_to ( & mut nonce_material [ 32 .. 64 ] ) ;
}
let mut key_material = H512 ::new ( ) ;
shared . copy_to ( & mut key_material [ 0 .. 32 ] ) ;
nonce_material . sha3_into ( & mut key_material [ 32 .. 64 ] ) ;
key_material . sha3 ( ) . copy_to ( & mut key_material [ 32 .. 64 ] ) ;
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key_material . sha3 ( ) . copy_to ( & mut key_material [ 32 .. 64 ] ) ;
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let iv = vec! [ 0 u8 ; 16 ] ;
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let encoder = CtrMode ::new ( AesSafe256Encryptor ::new ( & key_material [ 32 .. 64 ] ) , iv ) ;
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let iv = vec! [ 0 u8 ; 16 ] ;
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let decoder = CtrMode ::new ( AesSafe256Encryptor ::new ( & key_material [ 32 .. 64 ] ) , iv ) ;
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key_material . sha3 ( ) . copy_to ( & mut key_material [ 32 .. 64 ] ) ;
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let mac_encoder = EcbEncryptor ::new ( AesSafe256Encryptor ::new ( & key_material [ 32 .. 64 ] ) , NoPadding ) ;
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let mut egress_mac = Keccak ::new_keccak256 ( ) ;
let mut mac_material = & H256 ::from_slice ( & key_material [ 32 .. 64 ] ) ^ & handshake . remote_nonce ;
egress_mac . update ( & mac_material ) ;
egress_mac . update ( if handshake . originated { & handshake . auth_cipher } else { & handshake . ack_cipher } ) ;
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let mut ingress_mac = Keccak ::new_keccak256 ( ) ;
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mac_material = & H256 ::from_slice ( & key_material [ 32 .. 64 ] ) ^ & handshake . nonce ;
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ingress_mac . update ( & mac_material ) ;
ingress_mac . update ( if handshake . originated { & handshake . ack_cipher } else { & handshake . auth_cipher } ) ;
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handshake . connection . expect ( ENCRYPTED_HEADER_LEN ) ;
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Ok ( EncryptedConnection {
connection : handshake . connection ,
encoder : encoder ,
decoder : decoder ,
mac_encoder : mac_encoder ,
egress_mac : egress_mac ,
ingress_mac : ingress_mac ,
read_state : EncryptedConnectionState ::Header ,
protocol_id : 0 ,
payload_len : 0
} )
}
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/// Send a packet
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pub fn send_packet ( & mut self , payload : & [ u8 ] ) -> Result < ( ) , UtilError > {
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let mut header = RlpStream ::new ( ) ;
let len = payload . len ( ) as usize ;
header . append_raw ( & [ ( len > > 16 ) as u8 , ( len > > 8 ) as u8 , len as u8 ] , 1 ) ;
header . append_raw ( & [ 0xc2 u8 , 0x80 u8 , 0x80 u8 ] , 1 ) ;
//TODO: ger rid of vectors here
let mut header = header . out ( ) ;
let padding = ( 16 - ( payload . len ( ) % 16 ) ) % 16 ;
header . resize ( 16 , 0 u8 ) ;
let mut packet = vec! [ 0 u8 ; ( 32 + payload . len ( ) + padding + 16 ) ] ;
self . encoder . encrypt ( & mut RefReadBuffer ::new ( & header ) , & mut RefWriteBuffer ::new ( & mut packet ) , false ) . expect ( " Invalid length or padding " ) ;
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EncryptedConnection ::update_mac ( & mut self . egress_mac , & mut self . mac_encoder , & packet [ 0 .. 16 ] ) ;
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self . egress_mac . clone ( ) . finalize ( & mut packet [ 16 .. 32 ] ) ;
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self . encoder . encrypt ( & mut RefReadBuffer ::new ( & payload ) , & mut RefWriteBuffer ::new ( & mut packet [ 32 .. ( 32 + len ) ] ) , padding = = 0 ) . expect ( " Invalid length or padding " ) ;
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if padding ! = 0 {
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let pad = [ 0 u8 ; 16 ] ;
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self . encoder . encrypt ( & mut RefReadBuffer ::new ( & pad [ 0 .. padding ] ) , & mut RefWriteBuffer ::new ( & mut packet [ ( 32 + len ) .. ( 32 + len + padding ) ] ) , true ) . expect ( " Invalid length or padding " ) ;
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}
self . egress_mac . update ( & packet [ 32 .. ( 32 + len + padding ) ] ) ;
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EncryptedConnection ::update_mac ( & mut self . egress_mac , & mut self . mac_encoder , & [ 0 u8 ; 0 ] ) ;
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self . egress_mac . clone ( ) . finalize ( & mut packet [ ( 32 + len + padding ) .. ] ) ;
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self . connection . send ( packet ) ;
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Ok ( ( ) )
}
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/// Decrypt and authenticate an incoming packet header. Prepare for receiving payload.
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fn read_header ( & mut self , header : & [ u8 ] ) -> Result < ( ) , UtilError > {
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if header . len ( ) ! = ENCRYPTED_HEADER_LEN {
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return Err ( From ::from ( NetworkError ::Auth ) ) ;
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}
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EncryptedConnection ::update_mac ( & mut self . ingress_mac , & mut self . mac_encoder , & header [ 0 .. 16 ] ) ;
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let mac = & header [ 16 .. ] ;
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let mut expected = H256 ::new ( ) ;
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self . ingress_mac . clone ( ) . finalize ( & mut expected ) ;
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if mac ! = & expected [ 0 .. 16 ] {
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return Err ( From ::from ( NetworkError ::Auth ) ) ;
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}
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let mut hdec = H128 ::new ( ) ;
self . decoder . decrypt ( & mut RefReadBuffer ::new ( & header [ 0 .. 16 ] ) , & mut RefWriteBuffer ::new ( & mut hdec ) , false ) . expect ( " Invalid length or padding " ) ;
let length = ( ( ( ( hdec [ 0 ] as u32 ) < < 8 ) + ( hdec [ 1 ] as u32 ) ) < < 8 ) + ( hdec [ 2 ] as u32 ) ;
let header_rlp = UntrustedRlp ::new ( & hdec [ 3 .. 6 ] ) ;
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let protocol_id = try ! ( header_rlp . val_at ::< u16 > ( 0 ) ) ;
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self . payload_len = length as usize ;
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self . protocol_id = protocol_id ;
self . read_state = EncryptedConnectionState ::Payload ;
let padding = ( 16 - ( length % 16 ) ) % 16 ;
let full_length = length + padding + 16 ;
self . connection . expect ( full_length as usize ) ;
Ok ( ( ) )
}
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/// Decrypt and authenticate packet payload.
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fn read_payload ( & mut self , payload : & [ u8 ] ) -> Result < Packet , UtilError > {
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let padding = ( 16 - ( self . payload_len % 16 ) ) % 16 ;
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let full_length = self . payload_len + padding + 16 ;
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if payload . len ( ) ! = full_length {
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return Err ( From ::from ( NetworkError ::Auth ) ) ;
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}
self . ingress_mac . update ( & payload [ 0 .. payload . len ( ) - 16 ] ) ;
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EncryptedConnection ::update_mac ( & mut self . ingress_mac , & mut self . mac_encoder , & [ 0 u8 ; 0 ] ) ;
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let mac = & payload [ ( payload . len ( ) - 16 ) .. ] ;
let mut expected = H128 ::new ( ) ;
self . ingress_mac . clone ( ) . finalize ( & mut expected ) ;
if mac ! = & expected [ .. ] {
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return Err ( From ::from ( NetworkError ::Auth ) ) ;
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}
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let mut packet = vec! [ 0 u8 ; self . payload_len ] ;
self . decoder . decrypt ( & mut RefReadBuffer ::new ( & payload [ 0 .. self . payload_len ] ) , & mut RefWriteBuffer ::new ( & mut packet ) , false ) . expect ( " Invalid length or padding " ) ;
let mut pad_buf = [ 0 u8 ; 16 ] ;
self . decoder . decrypt ( & mut RefReadBuffer ::new ( & payload [ self . payload_len .. ( payload . len ( ) - 16 ) ] ) , & mut RefWriteBuffer ::new ( & mut pad_buf ) , false ) . expect ( " Invalid length or padding " ) ;
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Ok ( Packet {
protocol : self . protocol_id ,
data : packet
} )
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}
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/// Update MAC after reading or writing any data.
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fn update_mac ( mac : & mut Keccak , mac_encoder : & mut EcbEncryptor < AesSafe256Encryptor , EncPadding < NoPadding > > , seed : & [ u8 ] ) {
let mut prev = H128 ::new ( ) ;
mac . clone ( ) . finalize ( & mut prev ) ;
let mut enc = H128 ::new ( ) ;
mac_encoder . encrypt ( & mut RefReadBuffer ::new ( & prev ) , & mut RefWriteBuffer ::new ( & mut enc ) , true ) . unwrap ( ) ;
mac_encoder . reset ( ) ;
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enc = enc ^ if seed . is_empty ( ) { prev } else { H128 ::from_slice ( seed ) } ;
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mac . update ( & enc ) ;
}
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/// Readable IO handler. Tracker receive status and returns decoded packet if avaialable.
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pub fn readable < Message > ( & mut self , io : & IoContext < Message > ) -> Result < Option < Packet > , UtilError > where Message : Send + Clone {
io . clear_timer ( self . connection . token ) . unwrap ( ) ;
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match self . read_state {
EncryptedConnectionState ::Header = > {
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if let Some ( data ) = try ! ( self . connection . readable ( ) ) {
try ! ( self . read_header ( & data ) ) ;
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try ! ( io . register_timer ( self . connection . token , RECIEVE_PAYLOAD_TIMEOUT ) ) ;
}
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Ok ( None )
} ,
EncryptedConnectionState ::Payload = > {
match try ! ( self . connection . readable ( ) ) {
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Some ( data ) = > {
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self . read_state = EncryptedConnectionState ::Header ;
self . connection . expect ( ENCRYPTED_HEADER_LEN ) ;
Ok ( Some ( try ! ( self . read_payload ( & data ) ) ) )
} ,
None = > Ok ( None )
}
}
}
}
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/// Writable IO handler. Processes send queeue.
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pub fn writable < Message > ( & mut self , io : & IoContext < Message > ) -> Result < ( ) , UtilError > where Message : Send + Clone {
io . clear_timer ( self . connection . token ) . unwrap ( ) ;
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try ! ( self . connection . writable ( ) ) ;
Ok ( ( ) )
}
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/// Update connection registration. This should be called at the end of the event loop.
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pub fn update_socket < Host :Handler > ( & self , reg : Token , event_loop : & mut EventLoop < Host > ) -> Result < ( ) , UtilError > {
try ! ( self . connection . update_socket ( reg , event_loop ) ) ;
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Ok ( ( ) )
}
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/// Delete connection registration. This should be called at the end of the event loop.
pub fn deregister_socket < Host :Handler > ( & self , event_loop : & mut EventLoop < Host > ) -> Result < ( ) , UtilError > {
try ! ( self . connection . deregister_socket ( event_loop ) ) ;
Ok ( ( ) )
}
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}
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#[ test ]
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pub fn test_encryption ( ) {
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use hash ::* ;
use std ::str ::FromStr ;
let key = H256 ::from_str ( " 2212767d793a7a3d66f869ae324dd11bd17044b82c9f463b8a541a4d089efec5 " ) . unwrap ( ) ;
let before = H128 ::from_str ( " 12532abaec065082a3cf1da7d0136f15 " ) . unwrap ( ) ;
let before2 = H128 ::from_str ( " 7e99f682356fdfbc6b67a9562787b18a " ) . unwrap ( ) ;
let after = H128 ::from_str ( " 89464c6b04e7c99e555c81d3f7266a05 " ) . unwrap ( ) ;
let after2 = H128 ::from_str ( " 85c070030589ef9c7a2879b3a8489316 " ) . unwrap ( ) ;
let mut got = H128 ::new ( ) ;
let mut encoder = EcbEncryptor ::new ( AesSafe256Encryptor ::new ( & key ) , NoPadding ) ;
encoder . encrypt ( & mut RefReadBuffer ::new ( & before ) , & mut RefWriteBuffer ::new ( & mut got ) , true ) . unwrap ( ) ;
encoder . reset ( ) ;
assert_eq! ( got , after ) ;
got = H128 ::new ( ) ;
encoder . encrypt ( & mut RefReadBuffer ::new ( & before2 ) , & mut RefWriteBuffer ::new ( & mut got ) , true ) . unwrap ( ) ;
encoder . reset ( ) ;
assert_eq! ( got , after2 ) ;
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}
#[ cfg(test) ]
mod tests {
use super ::* ;
use std ::sync ::* ;
use super ::super ::stats ::* ;
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use std ::io ::{ Read , Write , Error , Cursor , ErrorKind } ;
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use std ::cmp ;
use mio ::{ EventSet } ;
use std ::collections ::VecDeque ;
use bytes ::* ;
struct TestSocket {
read_buffer : Vec < u8 > ,
write_buffer : Vec < u8 > ,
cursor : usize ,
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buf_size : usize ,
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}
impl TestSocket {
fn new ( ) -> TestSocket {
TestSocket {
read_buffer : vec ! [ ] ,
write_buffer : vec ! [ ] ,
cursor : 0 ,
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buf_size : 0 ,
}
}
fn new_buf ( buf_size : usize ) -> TestSocket {
TestSocket {
read_buffer : vec ! [ ] ,
write_buffer : vec ! [ ] ,
cursor : 0 ,
buf_size : buf_size ,
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}
}
}
impl Read for TestSocket {
fn read ( & mut self , buf : & mut [ u8 ] ) -> Result < usize , Error > {
let end_position = cmp ::min ( self . read_buffer . len ( ) , self . cursor + buf . len ( ) ) ;
let len = cmp ::max ( end_position - self . cursor , 0 ) ;
match len {
0 = > Ok ( 0 ) ,
_ = > {
for i in self . cursor .. end_position {
buf [ i - self . cursor ] = self . read_buffer [ i ] ;
}
self . cursor = self . cursor + buf . len ( ) ;
Ok ( len )
}
}
}
}
impl Write for TestSocket {
fn write ( & mut self , buf : & [ u8 ] ) -> Result < usize , Error > {
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if self . buf_size = = 0 | | buf . len ( ) < self . buf_size {
self . write_buffer . extend ( buf . iter ( ) . cloned ( ) ) ;
Ok ( buf . len ( ) )
}
else {
self . write_buffer . extend ( buf . iter ( ) . take ( self . buf_size ) . cloned ( ) ) ;
Ok ( self . buf_size )
}
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}
fn flush ( & mut self ) -> Result < ( ) , Error > {
unimplemented! ( ) ;
}
}
impl GenericSocket for TestSocket { }
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struct TestBrokenSocket {
error : String
}
impl Read for TestBrokenSocket {
fn read ( & mut self , _ : & mut [ u8 ] ) -> Result < usize , Error > {
Err ( Error ::new ( ErrorKind ::Other , self . error . clone ( ) ) )
}
}
impl Write for TestBrokenSocket {
fn write ( & mut self , _ : & [ u8 ] ) -> Result < usize , Error > {
Err ( Error ::new ( ErrorKind ::Other , self . error . clone ( ) ) )
}
fn flush ( & mut self ) -> Result < ( ) , Error > {
unimplemented! ( ) ;
}
}
impl GenericSocket for TestBrokenSocket { }
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type TestConnection = GenericConnection < TestSocket > ;
impl TestConnection {
pub fn new ( ) -> TestConnection {
TestConnection {
token : 999998888 usize ,
socket : TestSocket ::new ( ) ,
send_queue : VecDeque ::new ( ) ,
rec_buf : Bytes ::new ( ) ,
rec_size : 0 ,
interest : EventSet ::hup ( ) | EventSet ::readable ( ) ,
stats : Arc ::< NetworkStats > ::new ( NetworkStats ::new ( ) ) ,
}
}
}
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type TestBrokenConnection = GenericConnection < TestBrokenSocket > ;
impl TestBrokenConnection {
pub fn new ( ) -> TestBrokenConnection {
TestBrokenConnection {
token : 999998888 usize ,
socket : TestBrokenSocket { error : " test broken socket " . to_owned ( ) } ,
send_queue : VecDeque ::new ( ) ,
rec_buf : Bytes ::new ( ) ,
rec_size : 0 ,
interest : EventSet ::hup ( ) | EventSet ::readable ( ) ,
stats : Arc ::< NetworkStats > ::new ( NetworkStats ::new ( ) ) ,
}
}
}
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#[ test ]
fn connection_expect ( ) {
let mut connection = TestConnection ::new ( ) ;
connection . expect ( 1024 ) ;
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assert_eq! ( 1024 , connection . rec_size ) ;
}
#[ test ]
fn connection_write_empty ( ) {
let mut connection = TestConnection ::new ( ) ;
let status = connection . writable ( ) ;
assert! ( status . is_ok ( ) ) ;
assert! ( WriteStatus ::Complete = = status . unwrap ( ) ) ;
}
#[ test ]
fn connection_write ( ) {
let mut connection = TestConnection ::new ( ) ;
let data = Cursor ::new ( vec! [ 0 ; 10240 ] ) ;
connection . send_queue . push_back ( data ) ;
let status = connection . writable ( ) ;
assert! ( status . is_ok ( ) ) ;
assert! ( WriteStatus ::Complete = = status . unwrap ( ) ) ;
assert_eq! ( 10240 , connection . socket . write_buffer . len ( ) ) ;
}
#[ test ]
fn connection_write_is_buffered ( ) {
let mut connection = TestConnection ::new ( ) ;
connection . socket = TestSocket ::new_buf ( 1024 ) ;
let data = Cursor ::new ( vec! [ 0 ; 10240 ] ) ;
connection . send_queue . push_back ( data ) ;
let status = connection . writable ( ) ;
assert! ( status . is_ok ( ) ) ;
assert! ( WriteStatus ::Ongoing = = status . unwrap ( ) ) ;
assert_eq! ( 1024 , connection . socket . write_buffer . len ( ) ) ;
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}
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#[ test ]
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fn connection_write_to_broken ( ) {
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let mut connection = TestBrokenConnection ::new ( ) ;
let data = Cursor ::new ( vec! [ 0 ; 10240 ] ) ;
connection . send_queue . push_back ( data ) ;
let status = connection . writable ( ) ;
assert! ( ! status . is_ok ( ) ) ;
assert_eq! ( 1 , connection . send_queue . len ( ) ) ;
}
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#[ test ]
fn connection_read ( ) {
let mut connection = TestConnection ::new ( ) ;
connection . rec_size = 2048 ;
connection . rec_buf = vec! [ 10 ; 1024 ] ;
connection . socket . read_buffer = vec! [ 99 ; 2048 ] ;
let status = connection . readable ( ) ;
assert! ( status . is_ok ( ) ) ;
assert_eq! ( 1024 , connection . socket . cursor ) ;
}
#[ test ]
fn connection_read_from_broken ( ) {
let mut connection = TestBrokenConnection ::new ( ) ;
connection . rec_size = 2048 ;
let status = connection . readable ( ) ;
assert! ( ! status . is_ok ( ) ) ;
assert_eq! ( 0 , connection . rec_buf . len ( ) ) ;
}
#[ test ]
fn connection_read_nothing ( ) {
let mut connection = TestConnection ::new ( ) ;
connection . rec_size = 2048 ;
let status = connection . readable ( ) ;
assert! ( status . is_ok ( ) ) ;
assert_eq! ( 0 , connection . rec_buf . len ( ) ) ;
}
#[ test ]
fn connection_read_full ( ) {
let mut connection = TestConnection ::new ( ) ;
connection . rec_size = 1024 ;
connection . rec_buf = vec! [ 76 ; 1024 ] ;
let status = connection . readable ( ) ;
assert! ( status . is_ok ( ) ) ;
assert_eq! ( 0 , connection . socket . cursor ) ;
}
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}