package portallocator import ( "errors" "fmt" "net" "sync" "github.com/sirupsen/logrus" ) type ipMapping map[string]protoMap var ( // ErrAllPortsAllocated is returned when no more ports are available ErrAllPortsAllocated = errors.New("all ports are allocated") // ErrUnknownProtocol is returned when an unknown protocol was specified ErrUnknownProtocol = errors.New("unknown protocol") defaultIP = net.ParseIP("0.0.0.0") once sync.Once instance *PortAllocator ) // ErrPortAlreadyAllocated is the returned error information when a requested port is already being used type ErrPortAlreadyAllocated struct { ip string port int } func newErrPortAlreadyAllocated(ip string, port int) ErrPortAlreadyAllocated { return ErrPortAlreadyAllocated{ ip: ip, port: port, } } // IP returns the address to which the used port is associated func (e ErrPortAlreadyAllocated) IP() string { return e.ip } // Port returns the value of the already used port func (e ErrPortAlreadyAllocated) Port() int { return e.port } // IPPort returns the address and the port in the form ip:port func (e ErrPortAlreadyAllocated) IPPort() string { return fmt.Sprintf("%s:%d", e.ip, e.port) } // Error is the implementation of error.Error interface func (e ErrPortAlreadyAllocated) Error() string { return fmt.Sprintf("Bind for %s:%d failed: port is already allocated", e.ip, e.port) } type ( // PortAllocator manages the transport ports database PortAllocator struct { mutex sync.Mutex ipMap ipMapping Begin int End int } portRange struct { begin int end int last int } portMap struct { p map[int]struct{} defaultRange string portRanges map[string]*portRange } protoMap map[string]*portMap ) // Get returns the default instance of PortAllocator func Get() *PortAllocator { // Port Allocator is a singleton // Note: Long term solution will be each PortAllocator will have access to // the OS so that it can have up to date view of the OS port allocation. // When this happens singleton behavior will be removed. Clients do not // need to worry about this, they will not see a change in behavior. once.Do(func() { instance = newInstance() }) return instance } func newInstance() *PortAllocator { start, end, err := getDynamicPortRange() if err != nil { logrus.WithError(err).Infof("falling back to default port range %d-%d", defaultPortRangeStart, defaultPortRangeEnd) start, end = defaultPortRangeStart, defaultPortRangeEnd } return &PortAllocator{ ipMap: ipMapping{}, Begin: start, End: end, } } // RequestPort requests new port from global ports pool for specified ip and proto. // If port is 0 it returns first free port. Otherwise it checks port availability // in proto's pool and returns that port or error if port is already busy. func (p *PortAllocator) RequestPort(ip net.IP, proto string, port int) (int, error) { return p.RequestPortInRange(ip, proto, port, port) } // RequestPortInRange requests new port from global ports pool for specified ip and proto. // If portStart and portEnd are 0 it returns the first free port in the default ephemeral range. // If portStart != portEnd it returns the first free port in the requested range. // Otherwise (portStart == portEnd) it checks port availability in the requested proto's port-pool // and returns that port or error if port is already busy. func (p *PortAllocator) RequestPortInRange(ip net.IP, proto string, portStart, portEnd int) (int, error) { p.mutex.Lock() defer p.mutex.Unlock() if proto != "tcp" && proto != "udp" && proto != "sctp" { return 0, ErrUnknownProtocol } if ip == nil { ip = defaultIP } ipstr := ip.String() protomap, ok := p.ipMap[ipstr] if !ok { protomap = protoMap{ "tcp": p.newPortMap(), "udp": p.newPortMap(), "sctp": p.newPortMap(), } p.ipMap[ipstr] = protomap } mapping := protomap[proto] if portStart > 0 && portStart == portEnd { if _, ok := mapping.p[portStart]; !ok { mapping.p[portStart] = struct{}{} return portStart, nil } return 0, newErrPortAlreadyAllocated(ipstr, portStart) } port, err := mapping.findPort(portStart, portEnd) if err != nil { return 0, err } return port, nil } // ReleasePort releases port from global ports pool for specified ip and proto. func (p *PortAllocator) ReleasePort(ip net.IP, proto string, port int) error { p.mutex.Lock() defer p.mutex.Unlock() if ip == nil { ip = defaultIP } protomap, ok := p.ipMap[ip.String()] if !ok { return nil } delete(protomap[proto].p, port) return nil } func (p *PortAllocator) newPortMap() *portMap { defaultKey := getRangeKey(p.Begin, p.End) pm := &portMap{ p: map[int]struct{}{}, defaultRange: defaultKey, portRanges: map[string]*portRange{ defaultKey: newPortRange(p.Begin, p.End), }, } return pm } // ReleaseAll releases all ports for all ips. func (p *PortAllocator) ReleaseAll() error { p.mutex.Lock() p.ipMap = ipMapping{} p.mutex.Unlock() return nil } func getRangeKey(portStart, portEnd int) string { return fmt.Sprintf("%d-%d", portStart, portEnd) } func newPortRange(portStart, portEnd int) *portRange { return &portRange{ begin: portStart, end: portEnd, last: portEnd, } } func (pm *portMap) getPortRange(portStart, portEnd int) (*portRange, error) { var key string if portStart == 0 && portEnd == 0 { key = pm.defaultRange } else { key = getRangeKey(portStart, portEnd) if portStart == portEnd || portStart == 0 || portEnd == 0 || portEnd < portStart { return nil, fmt.Errorf("invalid port range: %s", key) } } // Return existing port range, if already known. if pr, exists := pm.portRanges[key]; exists { return pr, nil } // Otherwise create a new port range. pr := newPortRange(portStart, portEnd) pm.portRanges[key] = pr return pr, nil } func (pm *portMap) findPort(portStart, portEnd int) (int, error) { pr, err := pm.getPortRange(portStart, portEnd) if err != nil { return 0, err } port := pr.last for i := 0; i <= pr.end-pr.begin; i++ { port++ if port > pr.end { port = pr.begin } if _, ok := pm.p[port]; !ok { pm.p[port] = struct{}{} pr.last = port return port, nil } } return 0, ErrAllPortsAllocated }