// FromIP converts a net.IP type to a Multiaddr. func FromIP(ip net.IP) (ma.Multiaddr, error) { switch { case ip.To4() != nil: return ma.NewMultiaddr("/ip4/" + ip.String()) case ip.To16() != nil: return ma.NewMultiaddr("/ip6/" + ip.String()) default: return nil, errIncorrectNetAddr } }
func MA(t *testing.T, m string) ma.Multiaddr { maddr, err := ma.NewMultiaddr(m) if err != nil { t.Fatal(err) } return maddr }
func TestDialArgs(t *testing.T) { test := func(e_maddr, e_nw, e_host string) { m, err := ma.NewMultiaddr(e_maddr) if err != nil { t.Fatal("failed to construct", "/ip4/127.0.0.1/udp/1234", e_maddr) } nw, host, err := DialArgs(m) if err != nil { t.Fatal("failed to get dial args", e_maddr, m, err) } if nw != e_nw { t.Error("failed to get udp network Dial Arg", e_nw, nw) } if host != e_host { t.Error("failed to get host:port Dial Arg", e_host, host) } } test("/ip4/127.0.0.1/udp/1234", "udp4", "127.0.0.1:1234") test("/ip4/127.0.0.1/tcp/4321", "tcp4", "127.0.0.1:4321") test("/ip4/127.0.0.1/udp/1234/utp", "utp4", "127.0.0.1:1234") test("/ip6/::1/udp/1234", "udp6", "[::1]:1234") test("/ip6/::1/tcp/4321", "tcp6", "[::1]:4321") test("/ip6/::1/udp/1234/utp", "utp6", "[::1]:1234") }
func newMultiaddr(t *testing.T, s string) ma.Multiaddr { maddr, err := ma.NewMultiaddr(s) if err != nil { t.Fatal(err) } return maddr }
func TestDialBadAddrs(t *testing.T) { m := func(s string) ma.Multiaddr { maddr, err := ma.NewMultiaddr(s) if err != nil { t.Fatal(err) } return maddr } ctx := context.Background() s := makeSwarms(ctx, t, 1)[0] test := func(a ma.Multiaddr) { p := testutil.RandPeerIDFatal(t) s.peers.AddAddr(p, a, peer.PermanentAddrTTL) if _, err := s.Dial(ctx, p); err == nil { t.Error("swarm should not dial: %s", m) } } test(m("/ip6/fe80::1")) // link local test(m("/ip6/fe80::100")) // link local test(m("/ip4/127.0.0.1/udp/1234/utp")) // utp }
func newMultiaddr(t *testing.T, m string) ma.Multiaddr { maddr, err := ma.NewMultiaddr(m) if err != nil { t.Fatal("failed to construct multiaddr:", m, err) } return maddr }
func TestThinWaist(t *testing.T) { addrs := map[string]bool{ "/ip4/127.0.0.1/udp/1234": true, "/ip4/127.0.0.1/tcp/1234": true, "/ip4/127.0.0.1/udp/1234/utp": true, "/ip4/127.0.0.1/udp/1234/tcp/1234": true, "/ip4/127.0.0.1/tcp/12345/ip4/1.2.3.4": true, "/ip6/::1/tcp/80": true, "/ip6/::1/udp/80": true, "/ip6/::1": true, "/ip6/::1/utp": false, "/tcp/1234/ip4/1.2.3.4": false, "/tcp/1234": false, "/tcp/1234/utp": false, "/tcp/1234/udp/1234": false, "/ip4/1.2.3.4/ip4/2.3.4.5": true, "/ip6/::1/ip4/2.3.4.5": true, } for a, res := range addrs { m, err := ma.NewMultiaddr(a) if err != nil { t.Fatalf("failed to construct Multiaddr: %s", a) } if IsThinWaist(m) != res { t.Fatalf("IsThinWaist(%s) != %v", a, res) } } }
func newAddrOrFatal(t *testing.T, s string) ma.Multiaddr { a, err := ma.NewMultiaddr(s) if err != nil { t.Fatal("error parsing multiaddr", err) } return a }
func mkAddr(t *testing.T, s string) ma.Multiaddr { a, err := ma.NewMultiaddr(s) if err != nil { t.Fatal(err) } return a }
func address(addr string) ma.Multiaddr { m, err := ma.NewMultiaddr(addr) if err != nil { die(err) } return m }
func init() { // initialize ZeroLocalTCPAddress maddr, err := ma.NewMultiaddr("/ip4/127.0.0.1/tcp/0") if err != nil { panic(err) } ZeroLocalTCPAddress = maddr }
// serveHTTPGateway collects options, creates listener, prints status message and starts serving requests func serveHTTPGateway(req cmds.Request) (error, <-chan error) { cfg, err := req.InvocContext().GetConfig() if err != nil { return fmt.Errorf("serveHTTPGateway: GetConfig() failed: %s", err), nil } gatewayMaddr, err := ma.NewMultiaddr(cfg.Addresses.Gateway) if err != nil { return fmt.Errorf("serveHTTPGateway: invalid gateway address: %q (err: %s)", cfg.Addresses.Gateway, err), nil } writable, writableOptionFound, err := req.Option(writableKwd).Bool() if err != nil { return fmt.Errorf("serveHTTPGateway: req.Option(%s) failed: %s", writableKwd, err), nil } if !writableOptionFound { writable = cfg.Gateway.Writable } gwLis, err := manet.Listen(gatewayMaddr) if err != nil { return fmt.Errorf("serveHTTPGateway: manet.Listen(%s) failed: %s", gatewayMaddr, err), nil } // we might have listened to /tcp/0 - lets see what we are listing on gatewayMaddr = gwLis.Multiaddr() if writable { fmt.Printf("Gateway (writable) server listening on %s\n", gatewayMaddr) } else { fmt.Printf("Gateway (readonly) server listening on %s\n", gatewayMaddr) } var opts = []corehttp.ServeOption{ corehttp.PrometheusCollectorOption("gateway"), corehttp.CommandsROOption(*req.InvocContext()), corehttp.VersionOption(), corehttp.IPNSHostnameOption(), corehttp.GatewayOption(writable), } if len(cfg.Gateway.RootRedirect) > 0 { opts = append(opts, corehttp.RedirectOption("", cfg.Gateway.RootRedirect)) } node, err := req.InvocContext().ConstructNode() if err != nil { return fmt.Errorf("serveHTTPGateway: ConstructNode() failed: %s", err), nil } errc := make(chan error) go func() { errc <- corehttp.Serve(node, gwLis.NetListener(), opts...) close(errc) }() return nil, errc }
func listenAddresses(cfg *config.Config) ([]ma.Multiaddr, error) { var listen []ma.Multiaddr for _, addr := range cfg.Addresses.Swarm { maddr, err := ma.NewMultiaddr(addr) if err != nil { return nil, fmt.Errorf("Failure to parse config.Addresses.Swarm: %s", cfg.Addresses.Swarm) } listen = append(listen, maddr) } return listen, nil }
func TestParseMultiaddrBad(t *testing.T) { for _, b := range bad { m, err := ma.NewMultiaddr(b) if err != nil { continue // skip these. } if _, err := ParseMultiaddr(m); err == nil { t.Error("succeeded in parsing", m) } } }
// ParseString parses a string representation of an address into an IPFSAddr func ParseString(str string) (a IPFSAddr, err error) { if str == "" { return nil, ErrInvalidAddr } m, err := ma.NewMultiaddr(str) if err != nil { return nil, err } return ParseMultiaddr(m) }
// getApiClient checks the repo, and the given options, checking for // a running API service. if there is one, it returns a client. // otherwise, it returns errApiNotRunning, or another error. func getApiClient(repoPath, apiAddrStr string) (cmdsHttp.Client, error) { if apiAddrStr == "" { var err error if apiAddrStr, err = fsrepo.APIAddr(repoPath); err != nil { return nil, err } } addr, err := ma.NewMultiaddr(apiAddrStr) if err != nil { return nil, err } return apiClientForAddr(addr) }
func main() { flag.Parse() // extract address from host flag addr, err := ma.NewMultiaddr(*host) if err != nil { log.Fatal("NewMultiaddr() failed: ", err) } p := addr.Protocols() if len(p) < 2 { log.Fatal("need two protocols in host flag (/ip/tcp): ", addr) } _, host, err := manet.DialArgs(addr) if err != nil { log.Fatal("manet.DialArgs() failed: ", err) } if *verbose { // lower log level logging.SetDebugLogging() } // construct url to dial var u url.URL u.Scheme = "http" u.Host = host u.Path = *endpoint // show what we got start := time.Now() log.Debug("starting at %s, tries: %d, timeout: %s, url: %s", start, *tries, *timeout, u) for *tries > 0 { err := checkOK(http.Get(u.String())) if err == nil { log.Debugf("ok - endpoint reachable with %d tries remaining, took %s", *tries, time.Since(start)) os.Exit(0) } log.Debug("get failed: ", err) time.Sleep(*timeout) *tries-- } log.Error("failed.") os.Exit(1) }
// ListenAndServe runs an HTTP server listening at |listeningMultiAddr| with // the given serve options. The address must be provided in multiaddr format. // // TODO intelligently parse address strings in other formats so long as they // unambiguously map to a valid multiaddr. e.g. for convenience, ":8080" should // map to "/ip4/0.0.0.0/tcp/8080". func ListenAndServe(n *core.IpfsNode, listeningMultiAddr string, options ...ServeOption) error { addr, err := ma.NewMultiaddr(listeningMultiAddr) if err != nil { return err } list, err := manet.Listen(addr) if err != nil { return err } // we might have listened to /tcp/0 - lets see what we are listing on addr = list.Multiaddr() fmt.Printf("API server listening on %s\n", addr) return Serve(n, list.NetListener(), options...) }
// RandLocalTCPAddress returns a random multiaddr. it suppresses errors // for nice composability-- do check the address isn't nil. // // Note: for real network tests, use ZeroLocalTCPAddress so the kernel // assigns an unused TCP port. otherwise you may get clashes. This // function remains here so that p2p/net/mock (which does not touch the // real network) can assign different addresses to peers. func RandLocalTCPAddress() ma.Multiaddr { // chances are it will work out, but it **might** fail if the port is in use // most ports above 10000 aren't in use by long running processes, so yay. // (maybe there should be a range of "loopback" ports that are guaranteed // to be open for the process, but naturally can only talk to self.) lastPort.Lock() if lastPort.port == 0 { lastPort.port = 10000 + SeededRand.Intn(50000) } port := lastPort.port lastPort.port++ lastPort.Unlock() addr := fmt.Sprintf("/ip4/127.0.0.1/tcp/%d", port) maddr, _ := ma.NewMultiaddr(addr) return maddr }
func getNodesAPIAddr(nnum int) (string, error) { addrb, err := ioutil.ReadFile(path.Join(IpfsDirN(nnum), "api")) if err != nil { return "", err } maddr, err := ma.NewMultiaddr(string(addrb)) if err != nil { fmt.Println("error parsing multiaddr: ", err) return "", err } _, addr, err := manet.DialArgs(maddr) if err != nil { fmt.Println("error on multiaddr dialargs: ", err) return "", err } return addr, nil }
func testToNetAddr(t *testing.T, maddr, ntwk, addr string) { m, err := ma.NewMultiaddr(maddr) if err != nil { t.Fatal("failed to generate.") } naddr, err := ToNetAddr(m) if addr == "" { // should fail if err == nil { t.Fatalf("failed to error: %s", m) } return } // shouldn't fail if err != nil { t.Fatalf("failed to convert to net addr: %s", m) } if naddr.String() != addr { t.Fatalf("naddr.Address() == %s != %s", naddr, addr) } if naddr.Network() != ntwk { t.Fatalf("naddr.Network() == %s != %s", naddr.Network(), ntwk) } // should convert properly switch ntwk { case "tcp": _ = naddr.(*net.TCPAddr) case "udp": _ = naddr.(*net.UDPAddr) case "ip": _ = naddr.(*net.IPAddr) } }
func ParsePeerParam(text string) (ma.Multiaddr, peer.ID, error) { // to be replaced with just multiaddr parsing, once ptp is a multiaddr protocol idx := strings.LastIndex(text, "/") if idx == -1 { pid, err := peer.IDB58Decode(text) if err != nil { return nil, "", err } return nil, pid, nil } addrS := text[:idx] peeridS := text[idx+1:] var maddr ma.Multiaddr var pid peer.ID // make sure addrS parses as a multiaddr. if len(addrS) > 0 { var err error maddr, err = ma.NewMultiaddr(addrS) if err != nil { return nil, "", err } } // make sure idS parses as a peer.ID var err error pid, err = peer.IDB58Decode(peeridS) if err != nil { return nil, "", err } return maddr, pid, nil }
func (m *mapping) ExternalAddr() (ma.Multiaddr, error) { if time.Now().Sub(m.cacheTime) < CacheTime { return m.cached, nil } if m.ExternalPort() == 0 { // dont even try right now. return nil, ErrNoMapping } ip, err := m.nat.nat.GetExternalAddress() if err != nil { return nil, err } ipmaddr, err := manet.FromIP(ip) if err != nil { return nil, fmt.Errorf("error parsing ip") } // call m.ExternalPort again, as mapping may have changed under our feet. (tocttou) extport := m.ExternalPort() if extport == 0 { return nil, ErrNoMapping } tcp, err := ma.NewMultiaddr(fmt.Sprintf("/%s/%d", m.Protocol(), extport)) if err != nil { return nil, err } maddr2 := ipmaddr.Encapsulate(tcp) m.cached = maddr2 m.cacheTime = time.Now() return maddr2, nil }
// FromNetAddr converts a net.Addr type to a Multiaddr. func FromNetAddr(a net.Addr) (ma.Multiaddr, error) { if a == nil { return nil, fmt.Errorf("nil multiaddr") } switch a.Network() { case "tcp", "tcp4", "tcp6": ac, ok := a.(*net.TCPAddr) if !ok { return nil, errIncorrectNetAddr } // Get IP Addr ipm, err := FromIP(ac.IP) if err != nil { return nil, errIncorrectNetAddr } // Get TCP Addr tcpm, err := ma.NewMultiaddr(fmt.Sprintf("/tcp/%d", ac.Port)) if err != nil { return nil, errIncorrectNetAddr } // Encapsulate return ipm.Encapsulate(tcpm), nil case "udp", "upd4", "udp6": ac, ok := a.(*net.UDPAddr) if !ok { return nil, errIncorrectNetAddr } // Get IP Addr ipm, err := FromIP(ac.IP) if err != nil { return nil, errIncorrectNetAddr } // Get UDP Addr udpm, err := ma.NewMultiaddr(fmt.Sprintf("/udp/%d", ac.Port)) if err != nil { return nil, errIncorrectNetAddr } // Encapsulate return ipm.Encapsulate(udpm), nil case "utp", "utp4", "utp6": acc, ok := a.(*utp.Addr) if !ok { return nil, errIncorrectNetAddr } // Get UDP Addr ac, ok := acc.Child().(*net.UDPAddr) if !ok { return nil, errIncorrectNetAddr } // Get IP Addr ipm, err := FromIP(ac.IP) if err != nil { return nil, errIncorrectNetAddr } // Get UDP Addr utpm, err := ma.NewMultiaddr(fmt.Sprintf("/udp/%d/utp", ac.Port)) if err != nil { return nil, errIncorrectNetAddr } // Encapsulate return ipm.Encapsulate(utpm), nil case "ip", "ip4", "ip6": ac, ok := a.(*net.IPAddr) if !ok { return nil, errIncorrectNetAddr } return FromIP(ac.IP) case "ip+net": ac, ok := a.(*net.IPNet) if !ok { return nil, errIncorrectNetAddr } return FromIP(ac.IP) default: return nil, fmt.Errorf("unknown network %v", a.Network()) } }
// TestObsAddrSet func TestObsAddrSet(t *testing.T) { m := func(s string) ma.Multiaddr { m, err := ma.NewMultiaddr(s) if err != nil { t.Error(err) } return m } addrsMarch := func(a, b []ma.Multiaddr) bool { for _, aa := range a { found := false for _, bb := range b { if aa.Equal(bb) { found = true break } } if !found { return false } } return true } a1 := m("/ip4/1.2.3.4/tcp/1231") a2 := m("/ip4/1.2.3.4/tcp/1232") a3 := m("/ip4/1.2.3.4/tcp/1233") a4 := m("/ip4/1.2.3.4/tcp/1234") a5 := m("/ip4/1.2.3.4/tcp/1235") a6 := m("/ip4/1.2.3.6/tcp/1236") a7 := m("/ip4/1.2.3.7/tcp/1237") oas := ObservedAddrSet{} if !addrsMarch(oas.Addrs(), nil) { t.Error("addrs should be empty") } oas.Add(a1, a4) oas.Add(a2, a4) oas.Add(a3, a4) // these are all different so we should not yet get them. if !addrsMarch(oas.Addrs(), nil) { t.Error("addrs should _still_ be empty (once)") } // same observer, so should not yet get them. oas.Add(a1, a4) oas.Add(a2, a4) oas.Add(a3, a4) if !addrsMarch(oas.Addrs(), nil) { t.Error("addrs should _still_ be empty (same obs)") } // different observer, but same observer group. oas.Add(a1, a5) oas.Add(a2, a5) oas.Add(a3, a5) if !addrsMarch(oas.Addrs(), nil) { t.Error("addrs should _still_ be empty (same obs group)") } oas.Add(a1, a6) if !addrsMarch(oas.Addrs(), []ma.Multiaddr{a1}) { t.Error("addrs should only have a1") } oas.Add(a2, a5) oas.Add(a1, a5) oas.Add(a1, a5) oas.Add(a2, a6) oas.Add(a1, a6) oas.Add(a1, a6) oas.Add(a2, a7) oas.Add(a1, a7) oas.Add(a1, a7) if !addrsMarch(oas.Addrs(), []ma.Multiaddr{a1, a2}) { t.Error("addrs should only have a1, a2") } // change the timeout constant so we can time it out. oas.SetTTL(time.Millisecond * 200) <-time.After(time.Millisecond * 210) if !addrsMarch(oas.Addrs(), []ma.Multiaddr{nil}) { t.Error("addrs should have timed out") } }
func TestFilterAddrs(t *testing.T) { m := func(s string) ma.Multiaddr { maddr, err := ma.NewMultiaddr(s) if err != nil { t.Fatal(err) } return maddr } bad := []ma.Multiaddr{ m("/ip4/1.2.3.4/udp/1234"), // unreliable m("/ip4/1.2.3.4/udp/1234/sctp/1234"), // not in manet m("/ip4/1.2.3.4/udp/1234/utp"), // utp is broken m("/ip4/1.2.3.4/udp/1234/udt"), // udt is broken on arm m("/ip6/fe80::1/tcp/0"), // link local m("/ip6/fe80::100/tcp/1234"), // link local } good := []ma.Multiaddr{ m("/ip4/127.0.0.1/tcp/0"), m("/ip6/::1/tcp/0"), } goodAndBad := append(good, bad...) // test filters for _, a := range bad { if addrutil.AddrUsable(a, true) { t.Errorf("addr %s should be unusable", a) } } for _, a := range good { if !addrutil.AddrUsable(a, true) { t.Errorf("addr %s should be usable", a) } } subtestAddrsEqual(t, addrutil.FilterUsableAddrs(bad), []ma.Multiaddr{}) subtestAddrsEqual(t, addrutil.FilterUsableAddrs(good), good) subtestAddrsEqual(t, addrutil.FilterUsableAddrs(goodAndBad), good) // now test it with swarm id, err := testutil.RandPeerID() if err != nil { t.Fatal(err) } ps := peer.NewPeerstore() ctx := context.Background() if _, err := NewNetwork(ctx, bad, id, ps, metrics.NewBandwidthCounter()); err == nil { t.Fatal("should have failed to create swarm") } if _, err := NewNetwork(ctx, goodAndBad, id, ps, metrics.NewBandwidthCounter()); err != nil { t.Fatal("should have succeeded in creating swarm", err) } }
// serveHTTPApi collects options, creates listener, prints status message and starts serving requests func serveHTTPApi(req cmds.Request) (error, <-chan error) { cfg, err := req.InvocContext().GetConfig() if err != nil { return fmt.Errorf("serveHTTPApi: GetConfig() failed: %s", err), nil } apiAddr, _, err := req.Option(commands.ApiOption).String() if err != nil { return fmt.Errorf("serveHTTPApi: %s", err), nil } if apiAddr == "" { apiAddr = cfg.Addresses.API } apiMaddr, err := ma.NewMultiaddr(apiAddr) if err != nil { return fmt.Errorf("serveHTTPApi: invalid API address: %q (err: %s)", apiAddr, err), nil } apiLis, err := manet.Listen(apiMaddr) if err != nil { return fmt.Errorf("serveHTTPApi: manet.Listen(%s) failed: %s", apiMaddr, err), nil } // we might have listened to /tcp/0 - lets see what we are listing on apiMaddr = apiLis.Multiaddr() fmt.Printf("API server listening on %s\n", apiMaddr) unrestricted, _, err := req.Option(unrestrictedApiAccessKwd).Bool() if err != nil { return fmt.Errorf("serveHTTPApi: Option(%s) failed: %s", unrestrictedApiAccessKwd, err), nil } apiGw := corehttp.NewGateway(corehttp.GatewayConfig{ Writable: true, BlockList: &corehttp.BlockList{ Decider: func(s string) bool { if unrestricted { return true } // for now, only allow paths in the WebUI path for _, webuipath := range corehttp.WebUIPaths { if strings.HasPrefix(s, webuipath) { return true } } return false }, }, }) var opts = []corehttp.ServeOption{ corehttp.PrometheusCollectorOption("api"), corehttp.CommandsOption(*req.InvocContext()), corehttp.WebUIOption, apiGw.ServeOption(), corehttp.VersionOption(), defaultMux("/debug/vars"), defaultMux("/debug/pprof/"), corehttp.LogOption(), corehttp.PrometheusOption("/debug/metrics/prometheus"), } if len(cfg.Gateway.RootRedirect) > 0 { opts = append(opts, corehttp.RedirectOption("", cfg.Gateway.RootRedirect)) } node, err := req.InvocContext().ConstructNode() if err != nil { return fmt.Errorf("serveHTTPApi: ConstructNode() failed: %s", err), nil } if err := node.Repo.SetAPIAddr(apiMaddr.String()); err != nil { return fmt.Errorf("serveHTTPApi: SetAPIAddr() failed: %s", err), nil } errc := make(chan error) go func() { errc <- corehttp.Serve(node, apiLis.NetListener(), opts...) close(errc) }() return nil, errc }