package nat // nat is a convenience package for docker's manipulation of strings describing // network ports. import ( "fmt" "net" "strconv" "strings" "github.com/docker/docker/pkg/parsers" ) const ( // portSpecTemplate is the expected format for port specifications portSpecTemplate = "ip:hostPort:containerPort" ) // PortBinding represents a binding between a Host IP address and a Host Port type PortBinding struct { // HostIP is the host IP Address HostIP string `json:"HostIp"` // HostPort is the host port number HostPort string } // PortMap is a collection of PortBinding indexed by Port type PortMap map[Port][]PortBinding // PortSet is a collection of structs indexed by Port type PortSet map[Port]struct{} // Port is a string containing port number and protocol in the format "80/tcp" type Port string // NewPort creates a new instance of a Port given a protocol and port number func NewPort(proto, port string) (Port, error) { // Check for parsing issues on "port" now so we can avoid having // to check it later on. portInt, err := ParsePort(port) if err != nil { return "", err } return Port(fmt.Sprintf("%d/%s", portInt, proto)), nil } // ParsePort parses the port number string and returns an int func ParsePort(rawPort string) (int, error) { if len(rawPort) == 0 { return 0, nil } port, err := strconv.ParseUint(rawPort, 10, 16) if err != nil { return 0, err } return int(port), nil } // Proto returns the protocol of a Port func (p Port) Proto() string { proto, _ := SplitProtoPort(string(p)) return proto } // Port returns the port number of a Port func (p Port) Port() string { _, port := SplitProtoPort(string(p)) return port } // Int returns the port number of a Port as an int func (p Port) Int() int { portStr := p.Port() if len(portStr) == 0 { return 0 } // We don't need to check for an error because we're going to // assume that any error would have been found, and reported, in NewPort() port, _ := strconv.ParseUint(portStr, 10, 16) return int(port) } // SplitProtoPort splits a port in the format of proto/port func SplitProtoPort(rawPort string) (string, string) { parts := strings.Split(rawPort, "/") l := len(parts) if len(rawPort) == 0 || l == 0 || len(parts[0]) == 0 { return "", "" } if l == 1 { return "tcp", rawPort } if len(parts[1]) == 0 { return "tcp", parts[0] } return parts[1], parts[0] } func validateProto(proto string) bool { for _, availableProto := range []string{"tcp", "udp"} { if availableProto == proto { return true } } return false } // ParsePortSpecs receives port specs in the format of ip:public:private/proto and parses // these in to the internal types func ParsePortSpecs(ports []string) (map[Port]struct{}, map[Port][]PortBinding, error) { var ( exposedPorts = make(map[Port]struct{}, len(ports)) bindings = make(map[Port][]PortBinding) ) for _, rawPort := range ports { proto := "tcp" if i := strings.LastIndex(rawPort, "/"); i != -1 { proto = rawPort[i+1:] rawPort = rawPort[:i] } if !strings.Contains(rawPort, ":") { rawPort = fmt.Sprintf("::%s", rawPort) } else if len(strings.Split(rawPort, ":")) == 2 { rawPort = fmt.Sprintf(":%s", rawPort) } parts, err := parsers.PartParser(portSpecTemplate, rawPort) if err != nil { return nil, nil, err } var ( containerPort = parts["containerPort"] rawIP = parts["ip"] hostPort = parts["hostPort"] ) if rawIP != "" && net.ParseIP(rawIP) == nil { return nil, nil, fmt.Errorf("Invalid ip address: %s", rawIP) } if containerPort == "" { return nil, nil, fmt.Errorf("No port specified: %s", rawPort) } startPort, endPort, err := parsers.ParsePortRange(containerPort) if err != nil { return nil, nil, fmt.Errorf("Invalid containerPort: %s", containerPort) } var startHostPort, endHostPort uint64 = 0, 0 if len(hostPort) > 0 { startHostPort, endHostPort, err = parsers.ParsePortRange(hostPort) if err != nil { return nil, nil, fmt.Errorf("Invalid hostPort: %s", hostPort) } } if hostPort != "" && (endPort-startPort) != (endHostPort-startHostPort) { return nil, nil, fmt.Errorf("Invalid ranges specified for container and host Ports: %s and %s", containerPort, hostPort) } if !validateProto(strings.ToLower(proto)) { return nil, nil, fmt.Errorf("Invalid proto: %s", proto) } for i := uint64(0); i <= (endPort - startPort); i++ { containerPort = strconv.FormatUint(startPort+i, 10) if len(hostPort) > 0 { hostPort = strconv.FormatUint(startHostPort+i, 10) } port, err := NewPort(strings.ToLower(proto), containerPort) if err != nil { return nil, nil, err } if _, exists := exposedPorts[port]; !exists { exposedPorts[port] = struct{}{} } binding := PortBinding{ HostIP: rawIP, HostPort: hostPort, } bslice, exists := bindings[port] if !exists { bslice = []PortBinding{} } bindings[port] = append(bslice, binding) } } return exposedPorts, bindings, nil }