package docker import ( "encoding/binary" "errors" "fmt" "github.com/dotcloud/docker/utils" "io" "log" "net" "os/exec" "strconv" "strings" "sync" ) var NetworkBridgeIface string const ( DefaultNetworkBridge = "docker0" portRangeStart = 49153 portRangeEnd = 65535 ) // Calculates the first and last IP addresses in an IPNet func networkRange(network *net.IPNet) (net.IP, net.IP) { netIP := network.IP.To4() firstIP := netIP.Mask(network.Mask) lastIP := net.IPv4(0, 0, 0, 0).To4() for i := 0; i < len(lastIP); i++ { lastIP[i] = netIP[i] | ^network.Mask[i] } return firstIP, lastIP } // Detects overlap between one IPNet and another func networkOverlaps(netX *net.IPNet, netY *net.IPNet) bool { firstIP, _ := networkRange(netX) if netY.Contains(firstIP) { return true } firstIP, _ = networkRange(netY) if netX.Contains(firstIP) { return true } return false } // Converts a 4 bytes IP into a 32 bit integer func ipToInt(ip net.IP) int32 { return int32(binary.BigEndian.Uint32(ip.To4())) } // Converts 32 bit integer into a 4 bytes IP address func intToIP(n int32) net.IP { b := make([]byte, 4) binary.BigEndian.PutUint32(b, uint32(n)) return net.IP(b) } // Given a netmask, calculates the number of available hosts func networkSize(mask net.IPMask) int32 { m := net.IPv4Mask(0, 0, 0, 0) for i := 0; i < net.IPv4len; i++ { m[i] = ^mask[i] } return int32(binary.BigEndian.Uint32(m)) + 1 } //Wrapper around the ip command func ip(args ...string) (string, error) { path, err := exec.LookPath("ip") if err != nil { return "", fmt.Errorf("command not found: ip") } output, err := exec.Command(path, args...).CombinedOutput() if err != nil { return "", fmt.Errorf("ip failed: ip %v", strings.Join(args, " ")) } return string(output), nil } // Wrapper around the iptables command func iptables(args ...string) error { path, err := exec.LookPath("iptables") if err != nil { return fmt.Errorf("command not found: iptables") } if err := exec.Command(path, args...).Run(); err != nil { return fmt.Errorf("iptables failed: iptables %v", strings.Join(args, " ")) } return nil } func checkRouteOverlaps(dockerNetwork *net.IPNet) error { output, err := ip("route") if err != nil { return err } utils.Debugf("Routes:\n\n%s", output) for _, line := range strings.Split(output, "\n") { if strings.Trim(line, "\r\n\t ") == "" || strings.Contains(line, "default") { continue } if _, network, err := net.ParseCIDR(strings.Split(line, " ")[0]); err != nil { return fmt.Errorf("Unexpected ip route output: %s (%s)", err, line) } else if networkOverlaps(dockerNetwork, network) { return fmt.Errorf("Network %s is already routed: '%s'", dockerNetwork.String(), line) } } return nil } func CreateBridgeIface(ifaceName string) error { // FIXME: try more IP ranges // FIXME: try bigger ranges! /24 is too small. addrs := []string{"172.16.42.1/24", "10.0.42.1/24", "192.168.42.1/24"} var ifaceAddr string for _, addr := range addrs { _, dockerNetwork, err := net.ParseCIDR(addr) if err != nil { return err } if err := checkRouteOverlaps(dockerNetwork); err == nil { ifaceAddr = addr break } else { utils.Debugf("%s: %s", addr, err) } } if ifaceAddr == "" { return fmt.Errorf("Could not find a free IP address range for interface '%s'. Please configure its address manually and run 'docker -b %s'", ifaceName, ifaceName) } utils.Debugf("Creating bridge %s with network %s", ifaceName, ifaceAddr) if output, err := ip("link", "add", ifaceName, "type", "bridge"); err != nil { return fmt.Errorf("Error creating bridge: %s (output: %s)", err, output) } if output, err := ip("addr", "add", ifaceAddr, "dev", ifaceName); err != nil { return fmt.Errorf("Unable to add private network: %s (%s)", err, output) } if output, err := ip("link", "set", ifaceName, "up"); err != nil { return fmt.Errorf("Unable to start network bridge: %s (%s)", err, output) } if err := iptables("-t", "nat", "-A", "POSTROUTING", "-s", ifaceAddr, "!", "-d", ifaceAddr, "-j", "MASQUERADE"); err != nil { return fmt.Errorf("Unable to enable network bridge NAT: %s", err) } return nil } // Return the IPv4 address of a network interface func getIfaceAddr(name string) (net.Addr, error) { iface, err := net.InterfaceByName(name) if err != nil { return nil, err } addrs, err := iface.Addrs() if err != nil { return nil, err } var addrs4 []net.Addr for _, addr := range addrs { ip := (addr.(*net.IPNet)).IP if ip4 := ip.To4(); len(ip4) == net.IPv4len { addrs4 = append(addrs4, addr) } } switch { case len(addrs4) == 0: return nil, fmt.Errorf("Interface %v has no IP addresses", name) case len(addrs4) > 1: fmt.Printf("Interface %v has more than 1 IPv4 address. Defaulting to using %v\n", name, (addrs4[0].(*net.IPNet)).IP) } return addrs4[0], nil } // Port mapper takes care of mapping external ports to containers by setting // up iptables rules. // It keeps track of all mappings and is able to unmap at will type PortMapper struct { mapping map[int]net.TCPAddr proxies map[int]net.Listener } func (mapper *PortMapper) cleanup() error { // Ignore errors - This could mean the chains were never set up iptables("-t", "nat", "-D", "PREROUTING", "-m", "addrtype", "--dst-type", "LOCAL", "-j", "DOCKER") iptables("-t", "nat", "-D", "OUTPUT", "-m", "addrtype", "--dst-type", "LOCAL", "!", "--dst", "127.0.0.0/8", "-j", "DOCKER") iptables("-t", "nat", "-D", "OUTPUT", "-m", "addrtype", "--dst-type", "LOCAL", "-j", "DOCKER") // Created in versions <= 0.1.6 // Also cleanup rules created by older versions, or -X might fail. iptables("-t", "nat", "-D", "PREROUTING", "-j", "DOCKER") iptables("-t", "nat", "-D", "OUTPUT", "-j", "DOCKER") iptables("-t", "nat", "-F", "DOCKER") iptables("-t", "nat", "-X", "DOCKER") mapper.mapping = make(map[int]net.TCPAddr) mapper.proxies = make(map[int]net.Listener) return nil } func (mapper *PortMapper) setup() error { if err := iptables("-t", "nat", "-N", "DOCKER"); err != nil { return fmt.Errorf("Failed to create DOCKER chain: %s", err) } if err := iptables("-t", "nat", "-A", "PREROUTING", "-m", "addrtype", "--dst-type", "LOCAL", "-j", "DOCKER"); err != nil { return fmt.Errorf("Failed to inject docker in PREROUTING chain: %s", err) } if err := iptables("-t", "nat", "-A", "OUTPUT", "-m", "addrtype", "--dst-type", "LOCAL", "!", "--dst", "127.0.0.0/8", "-j", "DOCKER"); err != nil { return fmt.Errorf("Failed to inject docker in OUTPUT chain: %s", err) } return nil } func (mapper *PortMapper) iptablesForward(rule string, port int, dest net.TCPAddr) error { return iptables("-t", "nat", rule, "DOCKER", "-p", "tcp", "--dport", strconv.Itoa(port), "-j", "DNAT", "--to-destination", net.JoinHostPort(dest.IP.String(), strconv.Itoa(dest.Port))) } func (mapper *PortMapper) Map(port int, dest net.TCPAddr) error { if err := mapper.iptablesForward("-A", port, dest); err != nil { return err } mapper.mapping[port] = dest listener, err := net.Listen("tcp", fmt.Sprintf("127.0.0.1:%d", port)) if err != nil { mapper.Unmap(port) return err } mapper.proxies[port] = listener go proxy(listener, "tcp", dest.String()) return nil } // proxy listens for socket connections on `listener`, and forwards them unmodified // to `proto:address` func proxy(listener net.Listener, proto, address string) error { utils.Debugf("proxying to %s:%s", proto, address) defer utils.Debugf("Done proxying to %s:%s", proto, address) for { utils.Debugf("Listening on %s", listener) src, err := listener.Accept() if err != nil { return err } utils.Debugf("Connecting to %s:%s", proto, address) dst, err := net.Dial(proto, address) if err != nil { log.Printf("Error connecting to %s:%s: %s", proto, address, err) src.Close() continue } utils.Debugf("Connected to backend, splicing") splice(src, dst) } panic("Unreachable") } func halfSplice(dst, src net.Conn) error { _, err := io.Copy(dst, src) // FIXME: on EOF from a tcp connection, pass WriteClose() dst.Close() src.Close() return err } func splice(a, b net.Conn) { go halfSplice(a, b) go halfSplice(b, a) } func (mapper *PortMapper) Unmap(port int) error { dest, ok := mapper.mapping[port] if !ok { return errors.New("Port is not mapped") } if proxy, exists := mapper.proxies[port]; exists { proxy.Close() delete(mapper.proxies, port) } if err := mapper.iptablesForward("-D", port, dest); err != nil { return err } delete(mapper.mapping, port) return nil } func newPortMapper() (*PortMapper, error) { mapper := &PortMapper{} if err := mapper.cleanup(); err != nil { return nil, err } if err := mapper.setup(); err != nil { return nil, err } return mapper, nil } // Port allocator: Atomatically allocate and release networking ports type PortAllocator struct { inUse map[int]struct{} fountain chan (int) lock sync.Mutex } func (alloc *PortAllocator) runFountain() { for { for port := portRangeStart; port < portRangeEnd; port++ { alloc.fountain <- port } } } // FIXME: Release can no longer fail, change its prototype to reflect that. func (alloc *PortAllocator) Release(port int) error { utils.Debugf("Releasing %d", port) alloc.lock.Lock() delete(alloc.inUse, port) alloc.lock.Unlock() return nil } func (alloc *PortAllocator) Acquire(port int) (int, error) { utils.Debugf("Acquiring %d", port) if port == 0 { // Allocate a port from the fountain for port := range alloc.fountain { if _, err := alloc.Acquire(port); err == nil { return port, nil } } return -1, fmt.Errorf("Port generator ended unexpectedly") } alloc.lock.Lock() defer alloc.lock.Unlock() if _, inUse := alloc.inUse[port]; inUse { return -1, fmt.Errorf("Port already in use: %d", port) } alloc.inUse[port] = struct{}{} return port, nil } func newPortAllocator() (*PortAllocator, error) { allocator := &PortAllocator{ inUse: make(map[int]struct{}), fountain: make(chan int), } go allocator.runFountain() return allocator, nil } // IP allocator: Atomatically allocate and release networking ports type IPAllocator struct { network *net.IPNet queueAlloc chan allocatedIP queueReleased chan net.IP inUse map[int32]struct{} } type allocatedIP struct { ip net.IP err error } func (alloc *IPAllocator) run() { firstIP, _ := networkRange(alloc.network) ipNum := ipToInt(firstIP) ownIP := ipToInt(alloc.network.IP) size := networkSize(alloc.network.Mask) pos := int32(1) max := size - 2 // -1 for the broadcast address, -1 for the gateway address for { var ( newNum int32 inUse bool ) // Find first unused IP, give up after one whole round for attempt := int32(0); attempt < max; attempt++ { newNum = ipNum + pos pos = pos%max + 1 // The network's IP is never okay to use if newNum == ownIP { continue } if _, inUse = alloc.inUse[newNum]; !inUse { // We found an unused IP break } } ip := allocatedIP{ip: intToIP(newNum)} if inUse { ip.err = errors.New("No unallocated IP available") } select { case alloc.queueAlloc <- ip: alloc.inUse[newNum] = struct{}{} case released := <-alloc.queueReleased: r := ipToInt(released) delete(alloc.inUse, r) if inUse { // If we couldn't allocate a new IP, the released one // will be the only free one now, so instantly use it // next time pos = r - ipNum } else { // Use same IP as last time if pos == 1 { pos = max } else { pos-- } } } } } func (alloc *IPAllocator) Acquire() (net.IP, error) { ip := <-alloc.queueAlloc return ip.ip, ip.err } func (alloc *IPAllocator) Release(ip net.IP) { alloc.queueReleased <- ip } func newIPAllocator(network *net.IPNet) *IPAllocator { alloc := &IPAllocator{ network: network, queueAlloc: make(chan allocatedIP), queueReleased: make(chan net.IP), inUse: make(map[int32]struct{}), } go alloc.run() return alloc } // Network interface represents the networking stack of a container type NetworkInterface struct { IPNet net.IPNet Gateway net.IP manager *NetworkManager extPorts []int } // Allocate an external TCP port and map it to the interface func (iface *NetworkInterface) AllocatePort(spec string) (*Nat, error) { nat, err := parseNat(spec) if err != nil { return nil, err } // Allocate a random port if Frontend==0 extPort, err := iface.manager.portAllocator.Acquire(nat.Frontend) if err != nil { return nil, err } nat.Frontend = extPort if err := iface.manager.portMapper.Map(nat.Frontend, net.TCPAddr{IP: iface.IPNet.IP, Port: nat.Backend}); err != nil { iface.manager.portAllocator.Release(nat.Frontend) return nil, err } iface.extPorts = append(iface.extPorts, nat.Frontend) return nat, nil } type Nat struct { Proto string Frontend int Backend int } func parseNat(spec string) (*Nat, error) { var nat Nat if strings.Contains(spec, ":") { specParts := strings.Split(spec, ":") if len(specParts) != 2 { return nil, fmt.Errorf("Invalid port format.") } // If spec starts with ':', external and internal ports must be the same. // This might fail if the requested external port is not available. var sameFrontend bool if len(specParts[0]) == 0 { sameFrontend = true } else { front, err := strconv.ParseUint(specParts[0], 10, 16) if err != nil { return nil, err } nat.Frontend = int(front) } back, err := strconv.ParseUint(specParts[1], 10, 16) if err != nil { return nil, err } nat.Backend = int(back) if sameFrontend { nat.Frontend = nat.Backend } } else { port, err := strconv.ParseUint(spec, 10, 16) if err != nil { return nil, err } nat.Backend = int(port) } nat.Proto = "tcp" return &nat, nil } // Release: Network cleanup - release all resources func (iface *NetworkInterface) Release() { for _, port := range iface.extPorts { if err := iface.manager.portMapper.Unmap(port); err != nil { log.Printf("Unable to unmap port %v: %v", port, err) } if err := iface.manager.portAllocator.Release(port); err != nil { log.Printf("Unable to release port %v: %v", port, err) } } iface.manager.ipAllocator.Release(iface.IPNet.IP) } // Network Manager manages a set of network interfaces // Only *one* manager per host machine should be used type NetworkManager struct { bridgeIface string bridgeNetwork *net.IPNet ipAllocator *IPAllocator portAllocator *PortAllocator portMapper *PortMapper } // Allocate a network interface func (manager *NetworkManager) Allocate() (*NetworkInterface, error) { ip, err := manager.ipAllocator.Acquire() if err != nil { return nil, err } iface := &NetworkInterface{ IPNet: net.IPNet{IP: ip, Mask: manager.bridgeNetwork.Mask}, Gateway: manager.bridgeNetwork.IP, manager: manager, } return iface, nil } func newNetworkManager(bridgeIface string) (*NetworkManager, error) { addr, err := getIfaceAddr(bridgeIface) if err != nil { // If the iface is not found, try to create it if err := CreateBridgeIface(bridgeIface); err != nil { return nil, err } addr, err = getIfaceAddr(bridgeIface) if err != nil { return nil, err } } network := addr.(*net.IPNet) ipAllocator := newIPAllocator(network) portAllocator, err := newPortAllocator() if err != nil { return nil, err } portMapper, err := newPortMapper() if err != nil { return nil, err } manager := &NetworkManager{ bridgeIface: bridgeIface, bridgeNetwork: network, ipAllocator: ipAllocator, portAllocator: portAllocator, portMapper: portMapper, } return manager, nil }