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46aa22e949
kubo/net/conn/conn.go
Juan Batiz-Benet c84a714b16 peer change: peer.Peer -> peer.ID 
this is a major refactor of the entire codebase
it changes the monolithic peer.Peer into using
a peer.ID and a peer.Peerstore.

Other changes:
- removed handshake3.
-	testutil vastly simplified peer
-	secio bugfix + debugging logs
-	testutil: RandKeyPair
-	backpressure bugfix: w.o.w.
-	peer: added hex enc/dec
-	peer: added a PeerInfo struct
  PeerInfo is a small struct used to pass around a peer with
 	a set of addresses and keys. This is not meant to be a
 	complete view of the system, but rather to model updates to
 	the peerstore. It is used by things like the routing system.
-	updated peer/queue + peerset
-	latency metrics
-	testutil: use crand for PeerID gen
 	RandPeerID generates random "valid" peer IDs. it does not
 	NEED to generate keys because it is as if we lost the key
 	right away. fine to read some randomness and hash it. to
 	generate proper keys and an ID, use:
 	  sk, pk, _ := testutil.RandKeyPair()
 	  id, _ := peer.IDFromPublicKey(pk)
 	Also added RandPeerIDFatal helper
- removed old spipe
- updated seccat
- core: cleanup initIdentity
- removed old getFromPeerList
2014-12-23 08:33:32 -08:00

170 lines
4.4 KiB
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package conn
import (
"fmt"
"net"
"time"
context "github.com/jbenet/go-ipfs/Godeps/_workspace/src/code.google.com/p/go.net/context"
msgio "github.com/jbenet/go-ipfs/Godeps/_workspace/src/github.com/jbenet/go-msgio"
mpool "github.com/jbenet/go-ipfs/Godeps/_workspace/src/github.com/jbenet/go-msgio/mpool"
ma "github.com/jbenet/go-ipfs/Godeps/_workspace/src/github.com/jbenet/go-multiaddr"
manet "github.com/jbenet/go-ipfs/Godeps/_workspace/src/github.com/jbenet/go-multiaddr-net"
ic "github.com/jbenet/go-ipfs/crypto"
peer "github.com/jbenet/go-ipfs/peer"
u "github.com/jbenet/go-ipfs/util"
eventlog "github.com/jbenet/go-ipfs/util/eventlog"
)
var log = eventlog.Logger("conn")
const (
// MaxMessageSize is the size of the largest single message. (4MB)
MaxMessageSize = 1 << 22
)
// ReleaseBuffer puts the given byte array back into the buffer pool,
// first verifying that it is the correct size
func ReleaseBuffer(b []byte) {
log.Debugf("Releasing buffer! (cap,size = %d, %d)", cap(b), len(b))
mpool.ByteSlicePool.Put(uint32(cap(b)), b)
}
// singleConn represents a single connection to another Peer (IPFS Node).
type singleConn struct {
local peer.ID
remote peer.ID
maconn manet.Conn
msgrw msgio.ReadWriteCloser
}
// newConn constructs a new connection
func newSingleConn(ctx context.Context, local, remote peer.ID, maconn manet.Conn) (Conn, error) {
conn := &singleConn{
local: local,
remote: remote,
maconn: maconn,
msgrw: msgio.NewReadWriter(maconn),
}
log.Debugf("newSingleConn %p: %v to %v", conn, local, remote)
// version handshake
if err := Handshake1(ctx, conn); err != nil {
conn.Close()
return nil, fmt.Errorf("Handshake1 failed: %s", err)
}
log.Debugf("newSingleConn %p: %v to %v finished", conn, local, remote)
return conn, nil
}
// close is the internal close function, called by ContextCloser.Close
func (c *singleConn) Close() error {
log.Debugf("%s closing Conn with %s", c.local, c.remote)
// close underlying connection
return c.msgrw.Close()
}
// ID is an identifier unique to this connection.
func (c *singleConn) ID() string {
return ID(c)
}
func (c *singleConn) String() string {
return String(c, "singleConn")
}
func (c *singleConn) LocalAddr() net.Addr {
return c.maconn.LocalAddr()
}
func (c *singleConn) RemoteAddr() net.Addr {
return c.maconn.RemoteAddr()
}
func (c *singleConn) LocalPrivateKey() ic.PrivKey {
return nil
}
func (c *singleConn) RemotePublicKey() ic.PubKey {
return nil
}
func (c *singleConn) SetDeadline(t time.Time) error {
return c.maconn.SetDeadline(t)
}
func (c *singleConn) SetReadDeadline(t time.Time) error {
return c.maconn.SetReadDeadline(t)
}
func (c *singleConn) SetWriteDeadline(t time.Time) error {
return c.maconn.SetWriteDeadline(t)
}
// LocalMultiaddr is the Multiaddr on this side
func (c *singleConn) LocalMultiaddr() ma.Multiaddr {
return c.maconn.LocalMultiaddr()
}
// RemoteMultiaddr is the Multiaddr on the remote side
func (c *singleConn) RemoteMultiaddr() ma.Multiaddr {
return c.maconn.RemoteMultiaddr()
}
// LocalPeer is the Peer on this side
func (c *singleConn) LocalPeer() peer.ID {
return c.local
}
// RemotePeer is the Peer on the remote side
func (c *singleConn) RemotePeer() peer.ID {
return c.remote
}
// Read reads data, net.Conn style
func (c *singleConn) Read(buf []byte) (int, error) {
return c.msgrw.Read(buf)
}
// Write writes data, net.Conn style
func (c *singleConn) Write(buf []byte) (int, error) {
return c.msgrw.Write(buf)
}
func (c *singleConn) NextMsgLen() (int, error) {
return c.msgrw.NextMsgLen()
}
// ReadMsg reads data, net.Conn style
func (c *singleConn) ReadMsg() ([]byte, error) {
return c.msgrw.ReadMsg()
}
// WriteMsg writes data, net.Conn style
func (c *singleConn) WriteMsg(buf []byte) error {
return c.msgrw.WriteMsg(buf)
}
// ReleaseMsg releases a buffer
func (c *singleConn) ReleaseMsg(m []byte) {
c.msgrw.ReleaseMsg(m)
}
// ID returns the ID of a given Conn.
func ID(c Conn) string {
l := fmt.Sprintf("%s/%s", c.LocalMultiaddr(), c.LocalPeer().Pretty())
r := fmt.Sprintf("%s/%s", c.RemoteMultiaddr(), c.RemotePeer().Pretty())
lh := u.Hash([]byte(l))
rh := u.Hash([]byte(r))
ch := u.XOR(lh, rh)
return u.Key(ch).Pretty()
}
// String returns the user-friendly String representation of a conn
func String(c Conn, typ string) string {
return fmt.Sprintf("%s (%s) <-- %s %p --> (%s) %s",
c.LocalPeer(), c.LocalMultiaddr(), typ, c, c.RemoteMultiaddr(), c.RemotePeer())
}
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