func TestStartStop(t *testing.T) { n := addrmgr.New("teststartstop", lookupFunc) n.Start() err := n.Stop() if err != nil { t.Fatalf("Address Manager failed to stop: %v", err) } }
func TestAddLocalAddress(t *testing.T) { var tests = []struct { address wire.NetAddress priority addrmgr.AddressPriority valid bool }{ { wire.NetAddress{IP: net.ParseIP("192.168.0.100")}, addrmgr.InterfacePrio, false, }, { wire.NetAddress{IP: net.ParseIP("204.124.1.1")}, addrmgr.InterfacePrio, true, }, { wire.NetAddress{IP: net.ParseIP("204.124.1.1")}, addrmgr.BoundPrio, true, }, { wire.NetAddress{IP: net.ParseIP("::1")}, addrmgr.InterfacePrio, false, }, { wire.NetAddress{IP: net.ParseIP("fe80::1")}, addrmgr.InterfacePrio, false, }, { wire.NetAddress{IP: net.ParseIP("2620:100::1")}, addrmgr.InterfacePrio, true, }, } amgr := addrmgr.New("testaddlocaladdress", nil) for x, test := range tests { result := amgr.AddLocalAddress(&test.address, test.priority) if result == nil && !test.valid { t.Errorf("TestAddLocalAddress test #%d failed: %s should have "+ "been accepted", x, test.address.IP) continue } if result != nil && test.valid { t.Errorf("TestAddLocalAddress test #%d failed: %s should not have "+ "been accepted", x, test.address.IP) continue } } }
func TestConnected(t *testing.T) { n := addrmgr.New("testconnected", lookupFunc) // Add a new address and get it err := n.AddAddressByIP(someIP + ":8333") if err != nil { t.Fatalf("Adding address failed: %v", err) } ka := n.GetAddress("any") na := ka.NetAddress() na.Timestamp = time.Now().Add(time.Hour * -1) // make it an hour ago n.Connected(na) if !ka.NetAddress().Timestamp.After(na.Timestamp) { t.Errorf("Address should have a new timestamp, but does not") } }
func TestAddAddressByIP(t *testing.T) { fmtErr := fmt.Errorf("") addrErr := &net.AddrError{} var tests = []struct { addrIP string err error }{ { someIP + ":8333", nil, }, { someIP, addrErr, }, { someIP[:12] + ":8333", fmtErr, }, { someIP + ":abcd", fmtErr, }, } amgr := addrmgr.New("testaddressbyip", nil) for i, test := range tests { err := amgr.AddAddressByIP(test.addrIP) if test.err != nil && err == nil { t.Errorf("TestGood test %d failed expected an error and got none", i) continue } if test.err == nil && err != nil { t.Errorf("TestGood test %d failed expected no error and got one", i) continue } if reflect.TypeOf(err) != reflect.TypeOf(test.err) { t.Errorf("TestGood test %d failed got %v, want %v", i, reflect.TypeOf(err), reflect.TypeOf(test.err)) continue } } }
func TestAttempt(t *testing.T) { n := addrmgr.New("testattempt", lookupFunc) // Add a new address and get it err := n.AddAddressByIP(someIP + ":8333") if err != nil { t.Fatalf("Adding address failed: %v", err) } ka := n.GetAddress("any") if !ka.LastAttempt().IsZero() { t.Errorf("Address should not have attempts, but does") } na := ka.NetAddress() n.Attempt(na) if ka.LastAttempt().IsZero() { t.Errorf("Address should have an attempt, but does not") } }
func TestGood(t *testing.T) { n := addrmgr.New("testgood", lookupFunc) addrsToAdd := 64 * 64 addrs := make([]*wire.NetAddress, addrsToAdd) now := time.Now() var err error for i := 0; i < addrsToAdd; i++ { s := fmt.Sprintf("%d.173.147.%d:8333", i/64+60, i%64+60) addrs[i], err = n.DeserializeNetAddress(s) if err != nil { t.Errorf("Failed to turn %s into an address: %v", s, err) } } srcAddr := &wire.NetAddress{ Timestamp: now, Services: 0, IP: net.IPv4(173, 144, 173, 111), Port: 8333, } n.AddAddresses(addrs, srcAddr) for _, addr := range addrs { n.Good(addr) } numAddrs := n.NumAddresses() if numAddrs >= addrsToAdd { t.Errorf("Number of addresses is too many: %d vs %d", numAddrs, addrsToAdd) } numCache := len(n.AddressCache()) if numCache >= numAddrs/4 { t.Errorf("Number of addresses in cache: got %d, want %d", numCache, numAddrs/4) } }
func TestNeedMoreAddresses(t *testing.T) { n := addrmgr.New("testneedmoreaddresses", lookupFunc) addrsToAdd := 1500 b := n.NeedMoreAddresses() if b == false { t.Errorf("Expected that we need more addresses") } addrs := make([]*wire.NetAddress, addrsToAdd) now := time.Now() var err error for i := 0; i < addrsToAdd; i++ { s := fmt.Sprintf("%d.%d.173.147:8333", i/128+60, i%128+60) addrs[i], err = n.DeserializeNetAddress(s) if err != nil { t.Errorf("Failed to turn %s into an address: %v", s, err) } } srcAddr := &wire.NetAddress{ Timestamp: now, Services: 0, IP: net.IPv4(173, 144, 173, 111), Port: 8333, } n.AddAddresses(addrs, srcAddr) numAddrs := n.NumAddresses() if numAddrs > addrsToAdd { t.Errorf("Number of addresses is too many %d vs %d", numAddrs, addrsToAdd) } b = n.NeedMoreAddresses() if b == true { t.Errorf("Expected that we don't need more addresses") } }
func TestGetAddress(t *testing.T) { n := addrmgr.New("testgetaddress", lookupFunc) // Get an address from an empty set (should error) if rv := n.GetAddress("any"); rv != nil { t.Errorf("GetAddress failed: got: %v want: %v\n", rv, nil) } // Add a new address and get it err := n.AddAddressByIP(someIP + ":8333") if err != nil { t.Fatalf("Adding address failed: %v", err) } ka := n.GetAddress("any") if ka == nil { t.Fatalf("Did not get an address where there is one in the pool") } if ka.NetAddress().IP.String() != someIP { t.Errorf("Wrong IP: got %v, want %v", ka.NetAddress().IP.String(), someIP) } // Mark this as a good address and get it n.Good(ka.NetAddress()) ka = n.GetAddress("any") if ka == nil { t.Fatalf("Did not get an address where there is one in the pool") } if ka.NetAddress().IP.String() != someIP { t.Errorf("Wrong IP: got %v, want %v", ka.NetAddress().IP.String(), someIP) } numAddrs := n.NumAddresses() if numAddrs != 1 { t.Errorf("Wrong number of addresses: got %d, want %d", numAddrs, 1) } }
// newServer returns a new btcd server configured to listen on addr for the // bitcoin network type specified by chainParams. Use start to begin accepting // connections from peers. func newServer(listenAddrs []string, db database.Db, chainParams *chaincfg.Params) (*server, error) { nonce, err := wire.RandomUint64() if err != nil { return nil, err } amgr := addrmgr.New(cfg.DataDir, btcdLookup) var listeners []net.Listener var nat NAT if !cfg.DisableListen { ipv4Addrs, ipv6Addrs, wildcard, err := parseListeners(listenAddrs) if err != nil { return nil, err } listeners = make([]net.Listener, 0, len(ipv4Addrs)+len(ipv6Addrs)) discover := true if len(cfg.ExternalIPs) != 0 { discover = false // if this fails we have real issues. port, _ := strconv.ParseUint( activeNetParams.DefaultPort, 10, 16) for _, sip := range cfg.ExternalIPs { eport := uint16(port) host, portstr, err := net.SplitHostPort(sip) if err != nil { // no port, use default. host = sip } else { port, err := strconv.ParseUint( portstr, 10, 16) if err != nil { srvrLog.Warnf("Can not parse "+ "port from %s for "+ "externalip: %v", sip, err) continue } eport = uint16(port) } na, err := amgr.HostToNetAddress(host, eport, wire.SFNodeNetwork) if err != nil { srvrLog.Warnf("Not adding %s as "+ "externalip: %v", sip, err) continue } err = amgr.AddLocalAddress(na, addrmgr.ManualPrio) if err != nil { amgrLog.Warnf("Skipping specified external IP: %v", err) } } } else if discover && cfg.Upnp { nat, err = Discover() if err != nil { srvrLog.Warnf("Can't discover upnp: %v", err) } // nil nat here is fine, just means no upnp on network. } // TODO(oga) nonstandard port... if wildcard { port, err := strconv.ParseUint(activeNetParams.DefaultPort, 10, 16) if err != nil { // I can't think of a cleaner way to do this... goto nowc } addrs, err := net.InterfaceAddrs() for _, a := range addrs { ip, _, err := net.ParseCIDR(a.String()) if err != nil { continue } na := wire.NewNetAddressIPPort(ip, uint16(port), wire.SFNodeNetwork) if discover { err = amgr.AddLocalAddress(na, addrmgr.InterfacePrio) if err != nil { amgrLog.Debugf("Skipping local address: %v", err) } } } } nowc: for _, addr := range ipv4Addrs { listener, err := net.Listen("tcp4", addr) if err != nil { srvrLog.Warnf("Can't listen on %s: %v", addr, err) continue } listeners = append(listeners, listener) if discover { if na, err := amgr.DeserializeNetAddress(addr); err == nil { err = amgr.AddLocalAddress(na, addrmgr.BoundPrio) if err != nil { amgrLog.Warnf("Skipping bound address: %v", err) } } } } for _, addr := range ipv6Addrs { listener, err := net.Listen("tcp6", addr) if err != nil { srvrLog.Warnf("Can't listen on %s: %v", addr, err) continue } listeners = append(listeners, listener) if discover { if na, err := amgr.DeserializeNetAddress(addr); err == nil { err = amgr.AddLocalAddress(na, addrmgr.BoundPrio) if err != nil { amgrLog.Debugf("Skipping bound address: %v", err) } } } } if len(listeners) == 0 { return nil, errors.New("no valid listen address") } } s := server{ nonce: nonce, listeners: listeners, chainParams: chainParams, addrManager: amgr, newPeers: make(chan *peer, cfg.MaxPeers), donePeers: make(chan *peer, cfg.MaxPeers), banPeers: make(chan *peer, cfg.MaxPeers), wakeup: make(chan struct{}), query: make(chan interface{}), relayInv: make(chan relayMsg, cfg.MaxPeers), broadcast: make(chan broadcastMsg, cfg.MaxPeers), quit: make(chan struct{}), modifyRebroadcastInv: make(chan interface{}), peerHeightsUpdate: make(chan updatePeerHeightsMsg), nat: nat, db: db, timeSource: blockchain.NewMedianTime(), } bm, err := newBlockManager(&s) if err != nil { return nil, err } s.blockManager = bm s.txMemPool = newTxMemPool(&s) s.cpuMiner = newCPUMiner(&s) if cfg.AddrIndex { ai, err := newAddrIndexer(&s) if err != nil { return nil, err } s.addrIndexer = ai } if !cfg.DisableRPC { s.rpcServer, err = newRPCServer(cfg.RPCListeners, &s) if err != nil { return nil, err } } return &s, nil }
func TestGetBestLocalAddress(t *testing.T) { localAddrs := []wire.NetAddress{ {IP: net.ParseIP("192.168.0.100")}, {IP: net.ParseIP("::1")}, {IP: net.ParseIP("fe80::1")}, {IP: net.ParseIP("2001:470::1")}, } var tests = []struct { remoteAddr wire.NetAddress want0 wire.NetAddress want1 wire.NetAddress want2 wire.NetAddress want3 wire.NetAddress }{ { // Remote connection from public IPv4 wire.NetAddress{IP: net.ParseIP("204.124.8.1")}, wire.NetAddress{IP: net.IPv4zero}, wire.NetAddress{IP: net.IPv4zero}, wire.NetAddress{IP: net.ParseIP("204.124.8.100")}, wire.NetAddress{IP: net.ParseIP("fd87:d87e:eb43:25::1")}, }, { // Remote connection from private IPv4 wire.NetAddress{IP: net.ParseIP("172.16.0.254")}, wire.NetAddress{IP: net.IPv4zero}, wire.NetAddress{IP: net.IPv4zero}, wire.NetAddress{IP: net.IPv4zero}, wire.NetAddress{IP: net.IPv4zero}, }, { // Remote connection from public IPv6 wire.NetAddress{IP: net.ParseIP("2602:100:abcd::102")}, wire.NetAddress{IP: net.IPv6zero}, wire.NetAddress{IP: net.ParseIP("2001:470::1")}, wire.NetAddress{IP: net.ParseIP("2001:470::1")}, wire.NetAddress{IP: net.ParseIP("2001:470::1")}, }, /* XXX { // Remote connection from Tor wire.NetAddress{IP: net.ParseIP("fd87:d87e:eb43::100")}, wire.NetAddress{IP: net.IPv4zero}, wire.NetAddress{IP: net.ParseIP("204.124.8.100")}, wire.NetAddress{IP: net.ParseIP("fd87:d87e:eb43:25::1")}, }, */ } amgr := addrmgr.New("testgetbestlocaladdress", nil) // Test against default when there's no address for x, test := range tests { got := amgr.GetBestLocalAddress(&test.remoteAddr) if !test.want0.IP.Equal(got.IP) { t.Errorf("TestGetBestLocalAddress test1 #%d failed for remote address %s: want %s got %s", x, test.remoteAddr.IP, test.want1.IP, got.IP) continue } } for _, localAddr := range localAddrs { amgr.AddLocalAddress(&localAddr, addrmgr.InterfacePrio) } // Test against want1 for x, test := range tests { got := amgr.GetBestLocalAddress(&test.remoteAddr) if !test.want1.IP.Equal(got.IP) { t.Errorf("TestGetBestLocalAddress test1 #%d failed for remote address %s: want %s got %s", x, test.remoteAddr.IP, test.want1.IP, got.IP) continue } } // Add a public IP to the list of local addresses. localAddr := wire.NetAddress{IP: net.ParseIP("204.124.8.100")} amgr.AddLocalAddress(&localAddr, addrmgr.InterfacePrio) // Test against want2 for x, test := range tests { got := amgr.GetBestLocalAddress(&test.remoteAddr) if !test.want2.IP.Equal(got.IP) { t.Errorf("TestGetBestLocalAddress test2 #%d failed for remote address %s: want %s got %s", x, test.remoteAddr.IP, test.want2.IP, got.IP) continue } } /* // Add a tor generated IP address localAddr = wire.NetAddress{IP: net.ParseIP("fd87:d87e:eb43:25::1")} amgr.AddLocalAddress(&localAddr, addrmgr.ManualPrio) // Test against want3 for x, test := range tests { got := amgr.GetBestLocalAddress(&test.remoteAddr) if !test.want3.IP.Equal(got.IP) { t.Errorf("TestGetBestLocalAddress test3 #%d failed for remote address %s: want %s got %s", x, test.remoteAddr.IP, test.want3.IP, got.IP) continue } } */ }