package conn import ( "fmt" "math/rand" "net" "strings" "syscall" ma "github.com/ipfs/go-ipfs/Godeps/_workspace/src/github.com/jbenet/go-multiaddr" manet "github.com/ipfs/go-ipfs/Godeps/_workspace/src/github.com/jbenet/go-multiaddr-net" reuseport "github.com/ipfs/go-ipfs/Godeps/_workspace/src/github.com/jbenet/go-reuseport" context "github.com/ipfs/go-ipfs/Godeps/_workspace/src/golang.org/x/net/context" lgbl "github.com/ipfs/go-libp2p/util/eventlog/loggables" addrutil "github.com/ipfs/go-libp2p/p2p/net/swarm/addr" peer "github.com/ipfs/go-libp2p/p2p/peer" ) // String returns the string rep of d. func (d *Dialer) String() string { return fmt.Sprintf("", d.LocalPeer, d.LocalAddrs[0]) } // Dial connects to a peer over a particular address // Ensures raddr is part of peer.Addresses() // Example: d.DialAddr(ctx, peer.Addresses()[0], peer) func (d *Dialer) Dial(ctx context.Context, raddr ma.Multiaddr, remote peer.ID) (Conn, error) { logdial := lgbl.Dial("conn", d.LocalPeer, remote, nil, raddr) logdial["encrypted"] = (d.PrivateKey != nil) // log wether this will be an encrypted dial or not. defer log.EventBegin(ctx, "connDial", logdial).Done() var connOut Conn var errOut error done := make(chan struct{}) // do it async to ensure we respect don contexteone go func() { defer func() { select { case done <- struct{}{}: case <-ctx.Done(): } }() maconn, err := d.rawConnDial(ctx, raddr, remote) if err != nil { errOut = err return } if d.Wrapper != nil { maconn = d.Wrapper(maconn) } c, err := newSingleConn(ctx, d.LocalPeer, remote, maconn) if err != nil { maconn.Close() errOut = err return } if d.PrivateKey == nil || EncryptConnections == false { log.Warning("dialer %s dialing INSECURELY %s at %s!", d, remote, raddr) connOut = c return } c2, err := newSecureConn(ctx, d.PrivateKey, c) if err != nil { errOut = err c.Close() return } connOut = c2 }() select { case <-ctx.Done(): logdial["error"] = ctx.Err() logdial["dial"] = "failure" return nil, ctx.Err() case <-done: // whew, finished. } if errOut != nil { logdial["error"] = errOut logdial["dial"] = "failure" return nil, errOut } logdial["dial"] = "success" return connOut, nil } // rawConnDial dials the underlying net.Conn + manet.Conns func (d *Dialer) rawConnDial(ctx context.Context, raddr ma.Multiaddr, remote peer.ID) (manet.Conn, error) { // before doing anything, check we're going to be able to dial. // we may not support the given address. if _, _, err := manet.DialArgs(raddr); err != nil { return nil, err } if strings.HasPrefix(raddr.String(), "/ip4/0.0.0.0") { log.Event(ctx, "connDialZeroAddr", lgbl.Dial("conn", d.LocalPeer, remote, nil, raddr)) return nil, fmt.Errorf("Attempted to connect to zero address: %s", raddr) } // get local addr to use. laddr := pickLocalAddr(d.LocalAddrs, raddr) logdial := lgbl.Dial("conn", d.LocalPeer, remote, laddr, raddr) defer log.EventBegin(ctx, "connDialRawConn", logdial).Done() // make a copy of the manet.Dialer, we may need to change its timeout. madialer := d.Dialer if laddr != nil && reuseportIsAvailable() { // we're perhaps going to dial twice. half the timeout, so we can afford to. // otherwise our context would expire right after the first dial. madialer.Dialer.Timeout = (madialer.Dialer.Timeout / 2) // dial using reuseport.Dialer, because we're probably reusing addrs. // this is optimistic, as the reuseDial may fail to bind the port. rpev := log.EventBegin(ctx, "connDialReusePort", logdial) if nconn, retry, reuseErr := reuseDial(madialer.Dialer, laddr, raddr); reuseErr == nil { // if it worked, wrap the raw net.Conn with our manet.Conn logdial["reuseport"] = "success" rpev.Done() return manet.WrapNetConn(nconn) } else if !retry { // reuseDial is sure this is a legitimate dial failure, not a reuseport failure. logdial["reuseport"] = "failure" logdial["error"] = reuseErr rpev.Done() return nil, reuseErr } else { // this is a failure to reuse port. log it. logdial["reuseport"] = "retry" logdial["error"] = reuseErr rpev.Done() } } defer log.EventBegin(ctx, "connDialManet", logdial).Done() return madialer.Dial(raddr) } func reuseDial(dialer net.Dialer, laddr, raddr ma.Multiaddr) (conn net.Conn, retry bool, err error) { if laddr == nil { // if we're given no local address no sense in using reuseport to dial, dial out as usual. return nil, true, reuseport.ErrReuseFailed } // give reuse.Dialer the manet.Dialer's Dialer. // (wow, Dialer should've so been an interface...) rd := reuseport.Dialer{dialer} // get the local net.Addr manually rd.D.LocalAddr, err = manet.ToNetAddr(laddr) if err != nil { return nil, true, err // something wrong with laddr. retry without. } // get the raddr dial args for rd.dial network, netraddr, err := manet.DialArgs(raddr) if err != nil { return nil, true, err // something wrong with laddr. retry without. } // rd.Dial gets us a net.Conn with SO_REUSEPORT and SO_REUSEADDR set. conn, err = rd.Dial(network, netraddr) return conn, reuseErrShouldRetry(err), err // hey! it worked! } // reuseErrShouldRetry diagnoses whether to retry after a reuse error. // if we failed to bind, we should retry. if bind worked and this is a // real dial error (remote end didnt answer) then we should not retry. func reuseErrShouldRetry(err error) bool { if err == nil { return false // hey, it worked! no need to retry. } // if it's a network timeout error, it's a legitimate failure. if nerr, ok := err.(net.Error); ok && nerr.Timeout() { return false } errno, ok := err.(syscall.Errno) if !ok { // not an errno? who knows what this is. retry. return true } switch errno { case syscall.EADDRINUSE, syscall.EADDRNOTAVAIL: return true // failure to bind. retry. case syscall.ECONNREFUSED: return false // real dial error default: return true // optimistically default to retry. } } func pickLocalAddr(laddrs []ma.Multiaddr, raddr ma.Multiaddr) (laddr ma.Multiaddr) { if len(laddrs) < 1 { return nil } // make sure that we ONLY use local addrs that match the remote addr. laddrs = manet.AddrMatch(raddr, laddrs) if len(laddrs) < 1 { return nil } // make sure that we ONLY use local addrs that CAN dial the remote addr. // filter out all the local addrs that aren't capable raddrIPLayer := ma.Split(raddr)[0] raddrIsLoopback := manet.IsIPLoopback(raddrIPLayer) raddrIsLinkLocal := manet.IsIP6LinkLocal(raddrIPLayer) laddrs = addrutil.FilterAddrs(laddrs, func(a ma.Multiaddr) bool { laddrIPLayer := ma.Split(a)[0] laddrIsLoopback := manet.IsIPLoopback(laddrIPLayer) laddrIsLinkLocal := manet.IsIP6LinkLocal(laddrIPLayer) if laddrIsLoopback { // our loopback addrs can only dial loopbacks. return raddrIsLoopback } if laddrIsLinkLocal { return raddrIsLinkLocal // out linklocal addrs can only dial link locals. } return true }) // TODO pick with a good heuristic // we use a random one for now to prevent bad addresses from making nodes unreachable // with a random selection, multiple tries may work. return laddrs[rand.Intn(len(laddrs))] } // MultiaddrProtocolsMatch returns whether two multiaddrs match in protocol stacks. func MultiaddrProtocolsMatch(a, b ma.Multiaddr) bool { ap := a.Protocols() bp := b.Protocols() if len(ap) != len(bp) { return false } for i, api := range ap { if api.Code != bp[i].Code { return false } } return true } // MultiaddrNetMatch returns the first Multiaddr found to match network. func MultiaddrNetMatch(tgt ma.Multiaddr, srcs []ma.Multiaddr) ma.Multiaddr { for _, a := range srcs { if MultiaddrProtocolsMatch(tgt, a) { return a } } return nil }