Exemplo n.º 1
0
Arquivo: main.go Projeto: n054/weave
func main() {
	procs := runtime.NumCPU()
	// packet sniffing can block an OS thread, so we need one thread
	// for that plus at least one more.
	if procs < 2 {
		procs = 2
	}
	runtime.GOMAXPROCS(procs)

	var (
		justVersion        bool
		config             mesh.Config
		networkConfig      weave.NetworkConfig
		protocolMinVersion int
		resume             bool
		ifaceName          string
		routerName         string
		nickName           string
		password           string
		pktdebug           bool
		logLevel           string
		prof               string
		bufSzMB            int
		noDiscovery        bool
		httpAddr           string
		ipamConfig         ipamConfig
		dockerAPI          string
		peers              []string
		noDNS              bool
		dnsConfig          dnsConfig
		datapathName       string
		trustedSubnetStr   string
		dbPrefix           string
		isAWSVPC           bool

		defaultDockerHost = "unix:///var/run/docker.sock"
	)

	if val := os.Getenv("DOCKER_HOST"); val != "" {
		defaultDockerHost = val
	}

	mflag.BoolVar(&justVersion, []string{"#version", "-version"}, false, "print version and exit")
	mflag.StringVar(&config.Host, []string{"-host"}, "", "router host")
	mflag.IntVar(&config.Port, []string{"#port", "-port"}, mesh.Port, "router port")
	mflag.IntVar(&protocolMinVersion, []string{"-min-protocol-version"}, mesh.ProtocolMinVersion, "minimum weave protocol version")
	mflag.BoolVar(&resume, []string{"-resume"}, false, "resume connections to previous peers")
	mflag.StringVar(&ifaceName, []string{"#iface", "-iface"}, "", "name of interface to capture/inject from (disabled if blank)")
	mflag.StringVar(&routerName, []string{"#name", "-name"}, "", "name of router (defaults to MAC of interface)")
	mflag.StringVar(&nickName, []string{"#nickname", "-nickname"}, "", "nickname of peer (defaults to hostname)")
	mflag.StringVar(&password, []string{"#password", "-password"}, "", "network password")
	mflag.StringVar(&logLevel, []string{"-log-level"}, "info", "logging level (debug, info, warning, error)")
	mflag.BoolVar(&pktdebug, []string{"#pktdebug", "#-pktdebug", "-pkt-debug"}, false, "enable per-packet debug logging")
	mflag.StringVar(&prof, []string{"#profile", "-profile"}, "", "enable profiling and write profiles to given path")
	mflag.IntVar(&config.ConnLimit, []string{"#connlimit", "#-connlimit", "-conn-limit"}, 30, "connection limit (0 for unlimited)")
	mflag.BoolVar(&noDiscovery, []string{"#nodiscovery", "#-nodiscovery", "-no-discovery"}, false, "disable peer discovery")
	mflag.IntVar(&bufSzMB, []string{"#bufsz", "-bufsz"}, 8, "capture buffer size in MB")
	mflag.StringVar(&httpAddr, []string{"#httpaddr", "#-httpaddr", "-http-addr"}, "", "address to bind HTTP interface to (disabled if blank, absolute path indicates unix domain socket)")
	mflag.StringVar(&ipamConfig.Mode, []string{"-ipalloc-init"}, "", "allocator initialisation strategy (consensus, seed or observer)")
	mflag.StringVar(&ipamConfig.IPRangeCIDR, []string{"#iprange", "#-iprange", "-ipalloc-range"}, "", "IP address range reserved for automatic allocation, in CIDR notation")
	mflag.StringVar(&ipamConfig.IPSubnetCIDR, []string{"#ipsubnet", "#-ipsubnet", "-ipalloc-default-subnet"}, "", "subnet to allocate within by default, in CIDR notation")
	mflag.IntVar(&ipamConfig.PeerCount, []string{"#initpeercount", "#-initpeercount", "-init-peer-count"}, 0, "number of peers in network (for IP address allocation)")
	mflag.StringVar(&dockerAPI, []string{"#api", "#-api", "-docker-api"}, defaultDockerHost, "Docker API endpoint")
	mflag.BoolVar(&noDNS, []string{"-no-dns"}, false, "disable DNS server")
	mflag.StringVar(&dnsConfig.Domain, []string{"-dns-domain"}, nameserver.DefaultDomain, "local domain to server requests for")
	mflag.StringVar(&dnsConfig.ListenAddress, []string{"-dns-listen-address"}, nameserver.DefaultListenAddress, "address to listen on for DNS requests")
	mflag.IntVar(&dnsConfig.TTL, []string{"-dns-ttl"}, nameserver.DefaultTTL, "TTL for DNS request from our domain")
	mflag.DurationVar(&dnsConfig.ClientTimeout, []string{"-dns-fallback-timeout"}, nameserver.DefaultClientTimeout, "timeout for fallback DNS requests")
	mflag.StringVar(&dnsConfig.EffectiveListenAddress, []string{"-dns-effective-listen-address"}, "", "address DNS will actually be listening, after Docker port mapping")
	mflag.StringVar(&dnsConfig.ResolvConf, []string{"-resolv-conf"}, "", "path to resolver configuration for fallback DNS lookups")
	mflag.StringVar(&datapathName, []string{"-datapath"}, "", "ODP datapath name")
	mflag.StringVar(&trustedSubnetStr, []string{"-trusted-subnets"}, "", "comma-separated list of trusted subnets in CIDR notation")
	mflag.StringVar(&dbPrefix, []string{"-db-prefix"}, "/weavedb/weave", "pathname/prefix of filename to store data")
	mflag.BoolVar(&isAWSVPC, []string{"-awsvpc"}, false, "use AWS VPC for routing")

	// crude way of detecting that we probably have been started in a
	// container, with `weave launch` --> suppress misleading paths in
	// mflags error messages.
	if os.Args[0] == "/home/weave/weaver" { // matches the Dockerfile ENTRYPOINT
		os.Args[0] = "weave"
		mflag.CommandLine.Init("weave", mflag.ExitOnError)
	}

	mflag.Parse()

	peers = mflag.Args()
	if resume && len(peers) > 0 {
		Log.Fatalf("You must not specify an initial peer list in conjunction with --resume")
	}

	common.SetLogLevel(logLevel)

	if justVersion {
		fmt.Printf("weave router %s\n", version)
		os.Exit(0)
	}

	Log.Println("Command line options:", options())

	if prof != "" {
		defer profile.Start(profile.CPUProfile, profile.ProfilePath(prof), profile.NoShutdownHook).Stop()
	}

	if protocolMinVersion < mesh.ProtocolMinVersion || protocolMinVersion > mesh.ProtocolMaxVersion {
		Log.Fatalf("--min-protocol-version must be in range [%d,%d]", mesh.ProtocolMinVersion, mesh.ProtocolMaxVersion)
	}
	config.ProtocolMinVersion = byte(protocolMinVersion)

	if pktdebug {
		networkConfig.PacketLogging = packetLogging{}
	} else {
		networkConfig.PacketLogging = nopPacketLogging{}
	}

	overlay, bridge := createOverlay(datapathName, ifaceName, isAWSVPC, config.Host, config.Port, bufSzMB)
	networkConfig.Bridge = bridge

	name := peerName(routerName, bridge.Interface())

	if nickName == "" {
		var err error
		nickName, err = os.Hostname()
		checkFatal(err)
	}

	config.Password = determinePassword(password)
	config.TrustedSubnets = parseTrustedSubnets(trustedSubnetStr)
	config.PeerDiscovery = !noDiscovery

	if isAWSVPC && len(config.Password) > 0 {
		Log.Fatalf("--awsvpc mode is not compatible with the --password option")
	}

	db, err := db.NewBoltDB(dbPrefix + "data.db")
	checkFatal(err)
	defer db.Close()

	router := weave.NewNetworkRouter(config, networkConfig, name, nickName, overlay, db)
	Log.Println("Our name is", router.Ourself)

	if peers, err = router.InitialPeers(resume, peers); err != nil {
		Log.Fatal("Unable to get initial peer set: ", err)
	}

	var dockerCli *docker.Client
	dockerVersion := "none"
	if dockerAPI != "" {
		dc, err := docker.NewClient(dockerAPI)
		if err != nil {
			Log.Fatal("Unable to start docker client: ", err)
		} else {
			Log.Info(dc.Info())
		}
		dockerCli = dc
		dockerVersion = dockerCli.DockerVersion()
	}

	network := ""
	if isAWSVPC {
		network = "awsvpc"
	}
	checkForUpdates(dockerVersion, network)

	observeContainers := func(o docker.ContainerObserver) {
		if dockerCli != nil {
			if err := dockerCli.AddObserver(o); err != nil {
				Log.Fatal("Unable to start watcher", err)
			}
		}
	}
	isKnownPeer := func(name mesh.PeerName) bool {
		return router.Peers.Fetch(name) != nil
	}

	var (
		allocator     *ipam.Allocator
		defaultSubnet address.CIDR
		trackerName   string
	)
	if ipamConfig.Enabled() {
		var t tracker.LocalRangeTracker
		if isAWSVPC {
			Log.Infoln("Creating AWSVPC LocalRangeTracker")
			t, err = tracker.NewAWSVPCTracker()
			if err != nil {
				Log.Fatalf("Cannot create AWSVPC LocalRangeTracker: %s", err)
			}
			trackerName = "awsvpc"
		}
		allocator, defaultSubnet = createAllocator(router, ipamConfig, db, t, isKnownPeer)
		observeContainers(allocator)
		if dockerCli != nil {
			ids, err := dockerCli.AllContainerIDs()
			checkFatal(err)
			allocator.PruneOwned(ids)
		}
	}

	var (
		ns        *nameserver.Nameserver
		dnsserver *nameserver.DNSServer
	)
	if !noDNS {
		ns, dnsserver = createDNSServer(dnsConfig, router.Router, isKnownPeer)
		observeContainers(ns)
		ns.Start()
		defer ns.Stop()
		dnsserver.ActivateAndServe()
		defer dnsserver.Stop()
	}

	router.Start()
	if errors := router.InitiateConnections(peers, false); len(errors) > 0 {
		Log.Fatal(common.ErrorMessages(errors))
	}

	// The weave script always waits for a status call to succeed,
	// so there is no point in doing "weave launch --http-addr ''".
	// This is here to support stand-alone use of weaver.
	if httpAddr != "" {
		muxRouter := mux.NewRouter()
		if allocator != nil {
			allocator.HandleHTTP(muxRouter, defaultSubnet, trackerName, dockerCli)
		}
		if ns != nil {
			ns.HandleHTTP(muxRouter, dockerCli)
		}
		router.HandleHTTP(muxRouter)
		HandleHTTP(muxRouter, version, router, allocator, defaultSubnet, ns, dnsserver)
		http.Handle("/", common.LoggingHTTPHandler(muxRouter))
		Log.Println("Listening for HTTP control messages on", httpAddr)
		go listenAndServeHTTP(httpAddr)
	}

	common.SignalHandlerLoop(router)
}
Exemplo n.º 2
0
func main() {
	procs := runtime.NumCPU()
	// packet sniffing can block an OS thread, so we need one thread
	// for that plus at least one more.
	if procs < 2 {
		procs = 2
	}
	runtime.GOMAXPROCS(procs)

	var (
		// flags that cause immediate exit
		justVersion          bool
		createDatapath       bool
		deleteDatapath       bool
		addDatapathInterface string

		config                    mesh.Config
		networkConfig             weave.NetworkConfig
		protocolMinVersion        int
		ifaceName                 string
		routerName                string
		nickName                  string
		password                  string
		pktdebug                  bool
		logLevel                  string
		prof                      string
		bufSzMB                   int
		noDiscovery               bool
		httpAddr                  string
		iprangeCIDR               string
		ipsubnetCIDR              string
		peerCount                 int
		dockerAPI                 string
		peers                     []string
		noDNS                     bool
		dnsDomain                 string
		dnsListenAddress          string
		dnsTTL                    int
		dnsClientTimeout          time.Duration
		dnsEffectiveListenAddress string
		iface                     *net.Interface
		datapathName              string
		trustedSubnetStr          string

		defaultDockerHost = "unix:///var/run/docker.sock"
	)

	if val := os.Getenv("DOCKER_HOST"); val != "" {
		defaultDockerHost = val
	}

	mflag.BoolVar(&justVersion, []string{"#version", "-version"}, false, "print version and exit")
	mflag.BoolVar(&createDatapath, []string{"-create-datapath"}, false, "create ODP datapath and exit")
	mflag.BoolVar(&deleteDatapath, []string{"-delete-datapath"}, false, "delete ODP datapath and exit")
	mflag.StringVar(&addDatapathInterface, []string{"-add-datapath-iface"}, "", "add a network interface to the ODP datapath and exit")

	mflag.IntVar(&config.Port, []string{"#port", "-port"}, mesh.Port, "router port")
	mflag.IntVar(&protocolMinVersion, []string{"-min-protocol-version"}, mesh.ProtocolMinVersion, "minimum weave protocol version")
	mflag.StringVar(&ifaceName, []string{"#iface", "-iface"}, "", "name of interface to capture/inject from (disabled if blank)")
	mflag.StringVar(&routerName, []string{"#name", "-name"}, "", "name of router (defaults to MAC of interface)")
	mflag.StringVar(&nickName, []string{"#nickname", "-nickname"}, "", "nickname of peer (defaults to hostname)")
	mflag.StringVar(&password, []string{"#password", "-password"}, "", "network password")
	mflag.StringVar(&logLevel, []string{"-log-level"}, "info", "logging level (debug, info, warning, error)")
	mflag.BoolVar(&pktdebug, []string{"#pktdebug", "#-pktdebug", "-pkt-debug"}, false, "enable per-packet debug logging")
	mflag.StringVar(&prof, []string{"#profile", "-profile"}, "", "enable profiling and write profiles to given path")
	mflag.IntVar(&config.ConnLimit, []string{"#connlimit", "#-connlimit", "-conn-limit"}, 30, "connection limit (0 for unlimited)")
	mflag.BoolVar(&noDiscovery, []string{"#nodiscovery", "#-nodiscovery", "-no-discovery"}, false, "disable peer discovery")
	mflag.IntVar(&bufSzMB, []string{"#bufsz", "-bufsz"}, 8, "capture buffer size in MB")
	mflag.StringVar(&httpAddr, []string{"#httpaddr", "#-httpaddr", "-http-addr"}, "", "address to bind HTTP interface to (disabled if blank, absolute path indicates unix domain socket)")
	mflag.StringVar(&iprangeCIDR, []string{"#iprange", "#-iprange", "-ipalloc-range"}, "", "IP address range reserved for automatic allocation, in CIDR notation")
	mflag.StringVar(&ipsubnetCIDR, []string{"#ipsubnet", "#-ipsubnet", "-ipalloc-default-subnet"}, "", "subnet to allocate within by default, in CIDR notation")
	mflag.IntVar(&peerCount, []string{"#initpeercount", "#-initpeercount", "-init-peer-count"}, 0, "number of peers in network (for IP address allocation)")
	mflag.StringVar(&dockerAPI, []string{"#api", "#-api", "-docker-api"}, defaultDockerHost, "Docker API endpoint")
	mflag.BoolVar(&noDNS, []string{"-no-dns"}, false, "disable DNS server")
	mflag.StringVar(&dnsDomain, []string{"-dns-domain"}, nameserver.DefaultDomain, "local domain to server requests for")
	mflag.StringVar(&dnsListenAddress, []string{"-dns-listen-address"}, nameserver.DefaultListenAddress, "address to listen on for DNS requests")
	mflag.IntVar(&dnsTTL, []string{"-dns-ttl"}, nameserver.DefaultTTL, "TTL for DNS request from our domain")
	mflag.DurationVar(&dnsClientTimeout, []string{"-dns-fallback-timeout"}, nameserver.DefaultClientTimeout, "timeout for fallback DNS requests")
	mflag.StringVar(&dnsEffectiveListenAddress, []string{"-dns-effective-listen-address"}, "", "address DNS will actually be listening, after Docker port mapping")
	mflag.StringVar(&datapathName, []string{"-datapath"}, "", "ODP datapath name")

	mflag.StringVar(&trustedSubnetStr, []string{"-trusted-subnets"}, "", "Command separated list of trusted subnets in CIDR notation")

	// crude way of detecting that we probably have been started in a
	// container, with `weave launch` --> suppress misleading paths in
	// mflags error messages.
	if os.Args[0] == "/home/weave/weaver" { // matches the Dockerfile ENTRYPOINT
		os.Args[0] = "weave"
		mflag.CommandLine.Init("weave", mflag.ExitOnError)
	}

	mflag.Parse()

	peers = mflag.Args()

	SetLogLevel(logLevel)

	switch {
	case justVersion:
		fmt.Printf("weave router %s\n", version)
		os.Exit(0)

	case createDatapath:
		odpSupported, err := odp.CreateDatapath(datapathName)
		if !odpSupported {
			if err != nil {
				Log.Error(err)
			}

			// When the kernel lacks ODP support, exit
			// with a special status to distinguish it for
			// the weave script.
			os.Exit(17)
		}

		checkFatal(err)
		os.Exit(0)

	case deleteDatapath:
		checkFatal(odp.DeleteDatapath(datapathName))
		os.Exit(0)

	case addDatapathInterface != "":
		checkFatal(odp.AddDatapathInterface(datapathName, addDatapathInterface))
		os.Exit(0)
	}

	Log.Println("Command line options:", options())
	Log.Println("Command line peers:", peers)

	if protocolMinVersion < mesh.ProtocolMinVersion || protocolMinVersion > mesh.ProtocolMaxVersion {
		Log.Fatalf("--min-protocol-version must be in range [%d,%d]", mesh.ProtocolMinVersion, mesh.ProtocolMaxVersion)
	}
	config.ProtocolMinVersion = byte(protocolMinVersion)

	overlays := weave.NewOverlaySwitch()
	if datapathName != "" {
		// A datapath name implies that "Bridge" and "Overlay"
		// packet handling use fast datapath, although other
		// options can override that below.  Even if both
		// things are overridden, we might need bridging on
		// the datapath.
		fastdp, err := weave.NewFastDatapath(datapathName, config.Port)
		checkFatal(err)
		networkConfig.Bridge = fastdp.Bridge()
		overlays.Add("fastdp", fastdp.Overlay())
	}
	sleeve := weave.NewSleeveOverlay(config.Port)
	overlays.Add("sleeve", sleeve)
	overlays.SetCompatOverlay(sleeve)

	if ifaceName != "" {
		// -iface can coexist with -datapath, because
		// pcap-based packet capture is a bit more efficient
		// than capture via ODP misses, even when using an
		// ODP-based bridge.  So when using weave encyption,
		// it's preferable to use -iface.
		var err error
		iface, err = weavenet.EnsureInterface(ifaceName)
		checkFatal(err)

		// bufsz flag is in MB
		networkConfig.Bridge, err = weave.NewPcap(iface, bufSzMB*1024*1024)
		checkFatal(err)
	}

	if password == "" {
		password = os.Getenv("WEAVE_PASSWORD")
	}

	if password == "" {
		Log.Println("Communication between peers is unencrypted.")
	} else {
		config.Password = []byte(password)
		Log.Println("Communication between peers via untrusted networks is encrypted.")
	}

	if routerName == "" {
		if iface == nil {
			Log.Fatal("Either an interface must be specified with --iface or a name with -name")
		}
		routerName = iface.HardwareAddr.String()
	}

	name, err := mesh.PeerNameFromUserInput(routerName)
	checkFatal(err)

	if nickName == "" {
		nickName, err = os.Hostname()
		checkFatal(err)
	}

	if prof != "" {
		p := *profile.CPUProfile
		p.ProfilePath = prof
		p.NoShutdownHook = true
		defer profile.Start(&p).Stop()
	}

	config.PeerDiscovery = !noDiscovery

	if pktdebug {
		networkConfig.PacketLogging = packetLogging{}
	} else {
		networkConfig.PacketLogging = nopPacketLogging{}
	}

	if config.TrustedSubnets, err = parseTrustedSubnets(trustedSubnetStr); err != nil {
		Log.Fatal("Unable to parse trusted subnets: ", err)
	}

	router := weave.NewNetworkRouter(config, networkConfig, name, nickName, overlays)
	Log.Println("Our name is", router.Ourself)

	var dockerCli *docker.Client
	if dockerAPI != "" {
		dc, err := docker.NewClient(dockerAPI)
		if err != nil {
			Log.Fatal("Unable to start docker client: ", err)
		} else {
			Log.Info(dc.Info())
		}
		dockerCli = dc
	}
	observeContainers := func(o docker.ContainerObserver) {
		if dockerCli != nil {
			if err = dockerCli.AddObserver(o); err != nil {
				Log.Fatal("Unable to start watcher", err)
			}
		}
	}
	isKnownPeer := func(name mesh.PeerName) bool {
		return router.Peers.Fetch(name) != nil
	}
	var allocator *ipam.Allocator
	var defaultSubnet address.CIDR
	if iprangeCIDR != "" {
		allocator, defaultSubnet = createAllocator(router.Router, iprangeCIDR, ipsubnetCIDR, determineQuorum(peerCount, peers), isKnownPeer)
		observeContainers(allocator)
	} else if peerCount > 0 {
		Log.Fatal("--init-peer-count flag specified without --ipalloc-range")
	}

	var (
		ns        *nameserver.Nameserver
		dnsserver *nameserver.DNSServer
	)
	if !noDNS {
		ns = nameserver.New(router.Ourself.Peer.Name, dnsDomain, isKnownPeer)
		router.Peers.OnGC(func(peer *mesh.Peer) { ns.PeerGone(peer.Name) })
		ns.SetGossip(router.NewGossip("nameserver", ns))
		observeContainers(ns)
		ns.Start()
		defer ns.Stop()
		dnsserver, err = nameserver.NewDNSServer(ns, dnsDomain, dnsListenAddress,
			dnsEffectiveListenAddress, uint32(dnsTTL), dnsClientTimeout)
		if err != nil {
			Log.Fatal("Unable to start dns server: ", err)
		}
		listenAddr := dnsListenAddress
		if dnsEffectiveListenAddress != "" {
			listenAddr = dnsEffectiveListenAddress
		}
		Log.Println("Listening for DNS queries on", listenAddr)
		dnsserver.ActivateAndServe()
		defer dnsserver.Stop()
	}

	router.Start()
	if errors := router.ConnectionMaker.InitiateConnections(peers, false); len(errors) > 0 {
		Log.Fatal(ErrorMessages(errors))
	}

	// The weave script always waits for a status call to succeed,
	// so there is no point in doing "weave launch --http-addr ''".
	// This is here to support stand-alone use of weaver.
	if httpAddr != "" {
		muxRouter := mux.NewRouter()
		if allocator != nil {
			allocator.HandleHTTP(muxRouter, defaultSubnet, dockerCli)
		}
		if ns != nil {
			ns.HandleHTTP(muxRouter, dockerCli)
		}
		router.HandleHTTP(muxRouter)
		HandleHTTP(muxRouter, version, router, allocator, defaultSubnet, ns, dnsserver)
		http.Handle("/", muxRouter)
		Log.Println("Listening for HTTP control messages on", httpAddr)
		go listenAndServeHTTP(httpAddr, muxRouter)
	}

	SignalHandlerLoop(router)
}