// SPDX-FileCopyrightText: 2023 The Pion community // SPDX-License-Identifier: MIT package vnet import ( "encoding/binary" "errors" "fmt" "math/rand" "net" "strconv" "strings" "sync" "github.com/pion/transport/v3" ) const ( lo0String = "lo0String" udp = "udp" udp4 = "udp4" ) var ( macAddrCounter uint64 = 0xBEEFED910200 //nolint:gochecknoglobals errNoInterface = errors.New("no interface is available") errUnexpectedNetwork = errors.New("unexpected network") errCantAssignRequestedAddr = errors.New("can't assign requested address") errUnknownNetwork = errors.New("unknown network") errNoRouterLinked = errors.New("no router linked") errInvalidPortNumber = errors.New("invalid port number") errUnexpectedTypeSwitchFailure = errors.New("unexpected type-switch failure") errBindFailedFor = errors.New("bind failed for") errEndPortLessThanStart = errors.New("end port is less than the start") errPortSpaceExhausted = errors.New("port space exhausted") ) func newMACAddress() net.HardwareAddr { b := make([]byte, 8) binary.BigEndian.PutUint64(b, macAddrCounter) macAddrCounter++ return b[2:] } // Net represents a local network stack equivalent to a set of layers from NIC // up to the transport (UDP / TCP) layer. type Net struct { interfaces []*transport.Interface // read-only staticIPs []net.IP // read-only router *Router // read-only udpConns *udpConnMap // read-only mutex sync.RWMutex } // Compile-time assertion. var _ transport.Net = &Net{} func (v *Net) _getInterfaces() ([]*transport.Interface, error) { if len(v.interfaces) == 0 { return nil, errNoInterface } return v.interfaces, nil } // Interfaces returns a list of the system's network interfaces. func (v *Net) Interfaces() ([]*transport.Interface, error) { v.mutex.RLock() defer v.mutex.RUnlock() return v._getInterfaces() } // caller must hold the mutex (read). func (v *Net) _getInterface(ifName string) (*transport.Interface, error) { ifs, err := v._getInterfaces() if err != nil { return nil, err } for _, ifc := range ifs { if ifc.Name == ifName { return ifc, nil } } return nil, fmt.Errorf("%w: %s", transport.ErrInterfaceNotFound, ifName) } func (v *Net) getInterface(ifName string) (*transport.Interface, error) { v.mutex.RLock() defer v.mutex.RUnlock() return v._getInterface(ifName) } // InterfaceByIndex returns the interface specified by index. // // On Solaris, it returns one of the logical network interfaces // sharing the logical data link; for more precision use // InterfaceByName. func (v *Net) InterfaceByIndex(index int) (*transport.Interface, error) { for _, ifc := range v.interfaces { if ifc.Index == index { return ifc, nil } } return nil, fmt.Errorf("%w: index=%d", transport.ErrInterfaceNotFound, index) } // InterfaceByName returns the interface specified by name. func (v *Net) InterfaceByName(ifName string) (*transport.Interface, error) { return v.getInterface(ifName) } // caller must hold the mutex. func (v *Net) getAllIPAddrs(ipv6 bool) []net.IP { ips := []net.IP{} for _, ifc := range v.interfaces { addrs, err := ifc.Addrs() if err != nil { continue } for _, addr := range addrs { var ip net.IP if ipNet, ok := addr.(*net.IPNet); ok { ip = ipNet.IP } else if ipAddr, ok := addr.(*net.IPAddr); ok { ip = ipAddr.IP } else { continue } if !ipv6 { if ip.To4() != nil { ips = append(ips, ip) } } } } return ips } func (v *Net) setRouter(r *Router) error { v.mutex.Lock() defer v.mutex.Unlock() v.router = r return nil } func (v *Net) onInboundChunk(c Chunk) { v.mutex.Lock() defer v.mutex.Unlock() if c.Network() == udp { if conn, ok := v.udpConns.find(c.DestinationAddr()); ok { conn.onInboundChunk(c) } } } // caller must hold the mutex. func (v *Net) _dialUDP(network string, locAddr, remAddr *net.UDPAddr) (transport.UDPConn, error) { //nolint:cyclop // validate network if network != udp && network != udp4 { return nil, fmt.Errorf("%w: %s", errUnexpectedNetwork, network) } if locAddr == nil { locAddr = &net.UDPAddr{ IP: net.IPv4zero, } } else if locAddr.IP == nil { locAddr.IP = net.IPv4zero } // validate address. do we have that address? if !v.hasIPAddr(locAddr.IP) { return nil, &net.OpError{ Op: "listen", Net: network, Addr: locAddr, Err: fmt.Errorf("bind: %w", errCantAssignRequestedAddr), } } if locAddr.Port == 0 { // choose randomly from the range between 5000 and 5999 port, err := v.assignPort(locAddr.IP, 5000, 5999) if err != nil { return nil, &net.OpError{ Op: "listen", Net: network, Addr: locAddr, Err: err, } } locAddr.Port = port } else if _, ok := v.udpConns.find(locAddr); ok { return nil, &net.OpError{ Op: "listen", Net: network, Addr: locAddr, Err: fmt.Errorf("bind: %w", errAddressAlreadyInUse), } } conn, err := newUDPConn(locAddr, remAddr, v) if err != nil { return nil, err } err = v.udpConns.insert(conn) if err != nil { return nil, err } return conn, nil } // ListenPacket announces on the local network address. func (v *Net) ListenPacket(network string, address string) (net.PacketConn, error) { v.mutex.Lock() defer v.mutex.Unlock() locAddr, err := v.ResolveUDPAddr(network, address) if err != nil { return nil, err } return v._dialUDP(network, locAddr, nil) } // ListenUDP acts like ListenPacket for UDP networks. func (v *Net) ListenUDP(network string, locAddr *net.UDPAddr) (transport.UDPConn, error) { v.mutex.Lock() defer v.mutex.Unlock() return v._dialUDP(network, locAddr, nil) } // DialUDP acts like Dial for UDP networks. func (v *Net) DialUDP(network string, locAddr, remAddr *net.UDPAddr) (transport.UDPConn, error) { v.mutex.Lock() defer v.mutex.Unlock() return v._dialUDP(network, locAddr, remAddr) } // Dial connects to the address on the named network. func (v *Net) Dial(network string, address string) (net.Conn, error) { v.mutex.Lock() defer v.mutex.Unlock() remAddr, err := v.ResolveUDPAddr(network, address) if err != nil { return nil, err } // Determine source address srcIP := v.determineSourceIP(nil, remAddr.IP) locAddr := &net.UDPAddr{IP: srcIP, Port: 0} return v._dialUDP(network, locAddr, remAddr) } // ResolveIPAddr returns an address of IP end point. func (v *Net) ResolveIPAddr(_, address string) (*net.IPAddr, error) { var err error // Check if host is a domain name ip := net.ParseIP(address) if ip == nil { //nolint:nestif address = strings.ToLower(address) if address == "localhost" { ip = net.IPv4(127, 0, 0, 1) } else { // host is a domain name. resolve IP address by the name if v.router == nil { return nil, errNoRouterLinked } ip, err = v.router.resolver.lookUp(address) if err != nil { return nil, err } } } return &net.IPAddr{ IP: ip, }, nil } // ResolveUDPAddr returns an address of UDP end point. func (v *Net) ResolveUDPAddr(network, address string) (*net.UDPAddr, error) { if network != udp && network != udp4 { return nil, fmt.Errorf("%w %s", errUnknownNetwork, network) } host, sPort, err := net.SplitHostPort(address) if err != nil { return nil, err } ipAddress, err := v.ResolveIPAddr("ip", host) if err != nil { return nil, err } port, err := strconv.Atoi(sPort) if err != nil { return nil, errInvalidPortNumber } udpAddr := &net.UDPAddr{ IP: ipAddress.IP, Zone: ipAddress.Zone, Port: port, } return udpAddr, nil } // ResolveTCPAddr returns an address of TCP end point. func (v *Net) ResolveTCPAddr(network, address string) (*net.TCPAddr, error) { if network != udp && network != "udp4" { return nil, fmt.Errorf("%w %s", errUnknownNetwork, network) } host, sPort, err := net.SplitHostPort(address) if err != nil { return nil, err } ipAddr, err := v.ResolveIPAddr("ip", host) if err != nil { return nil, err } port, err := strconv.Atoi(sPort) if err != nil { return nil, errInvalidPortNumber } udpAddr := &net.TCPAddr{ IP: ipAddr.IP, Zone: ipAddr.Zone, Port: port, } return udpAddr, nil } func (v *Net) write(chunk Chunk) error { if chunk.Network() == udp { //nolint:nestif if udp, ok := chunk.(*chunkUDP); ok { if chunk.getDestinationIP().IsLoopback() { if conn, ok := v.udpConns.find(udp.DestinationAddr()); ok { conn.onInboundChunk(udp) } return nil } } else { return errUnexpectedTypeSwitchFailure } } if v.router == nil { return errNoRouterLinked } v.router.push(chunk) return nil } func (v *Net) onClosed(addr net.Addr) { if addr.Network() == udp { //nolint:errcheck v.udpConns.delete(addr) // #nosec } } // This method determines the srcIP based on the dstIP when locIP // is any IP address ("0.0.0.0" or "::"). If locIP is a non-any addr, // this method simply returns locIP. // caller must hold the mutex. func (v *Net) determineSourceIP(locIP, dstIP net.IP) net.IP { //nolint:cyclop if locIP != nil && !locIP.IsUnspecified() { return locIP } var srcIP net.IP if dstIP.IsLoopback() { //nolint:nestif srcIP = net.ParseIP("127.0.0.1") } else { ifc, err2 := v._getInterface("eth0") if err2 != nil { return nil } addrs, err2 := ifc.Addrs() if err2 != nil { return nil } if len(addrs) == 0 { return nil } var findIPv4 bool if locIP != nil { findIPv4 = (locIP.To4() != nil) } else { findIPv4 = (dstIP.To4() != nil) } for _, addr := range addrs { ip := addr.(*net.IPNet).IP //nolint:forcetypeassert if findIPv4 { if ip.To4() != nil { srcIP = ip break } } else { if ip.To4() == nil { srcIP = ip break } } } } return srcIP } // caller must hold the mutex. func (v *Net) hasIPAddr(ip net.IP) bool { //nolint:gocognit,cyclop for _, ifc := range v.interfaces { if addrs, err := ifc.Addrs(); err == nil { //nolint:nestif for _, addr := range addrs { var locIP net.IP if ipNet, ok := addr.(*net.IPNet); ok { locIP = ipNet.IP } else if ipAddr, ok := addr.(*net.IPAddr); ok { locIP = ipAddr.IP } else { continue } switch ip.String() { case "0.0.0.0": if locIP.To4() != nil { return true } case "::": if locIP.To4() == nil { return true } default: if locIP.Equal(ip) { return true } } } } } return false } // caller must hold the mutex. func (v *Net) allocateLocalAddr(ip net.IP, port int) error { // gather local IP addresses to bind var ips []net.IP if ip.IsUnspecified() { ips = v.getAllIPAddrs(ip.To4() == nil) } else if v.hasIPAddr(ip) { ips = []net.IP{ip} } if len(ips) == 0 { return fmt.Errorf("%w %s", errBindFailedFor, ip.String()) } // check if all these transport addresses are not in use for _, ip2 := range ips { addr := &net.UDPAddr{ IP: ip2, Port: port, } if _, ok := v.udpConns.find(addr); ok { return &net.OpError{ Op: "bind", Net: udp, Addr: addr, Err: fmt.Errorf("bind: %w", errAddressAlreadyInUse), } } } return nil } // caller must hold the mutex. func (v *Net) assignPort(ip net.IP, start, end int) (int, error) { // choose randomly from the range between start and end (inclusive) if end < start { return -1, errEndPortLessThanStart } space := end + 1 - start offset := rand.Intn(space) //nolint:gosec for i := 0; i < space; i++ { port := ((offset + i) % space) + start err := v.allocateLocalAddr(ip, port) if err == nil { return port, nil } } return -1, errPortSpaceExhausted } func (v *Net) getStaticIPs() []net.IP { return v.staticIPs } // NetConfig is a bag of configuration parameters passed to NewNet(). type NetConfig struct { // StaticIPs is an array of static IP addresses to be assigned for this Net. // If no static IP address is given, the router will automatically assign // an IP address. StaticIPs []string // StaticIP is deprecated. Use StaticIPs. StaticIP string } // NewNet creates an instance of a virtual network. // // By design, it always have lo0 and eth0 interfaces. // The lo0 has the address 127.0.0.1 assigned by default. // IP address for eth0 will be assigned when this Net is added to a router. func NewNet(config *NetConfig) (*Net, error) { lo0 := transport.NewInterface(net.Interface{ Index: 1, MTU: 16384, Name: lo0String, HardwareAddr: nil, Flags: net.FlagUp | net.FlagLoopback | net.FlagMulticast, }) lo0.AddAddress(&net.IPNet{ IP: net.ParseIP("127.0.0.1"), Mask: net.CIDRMask(8, 32), }) eth0 := transport.NewInterface(net.Interface{ Index: 2, MTU: 1500, Name: "eth0", HardwareAddr: newMACAddress(), Flags: net.FlagUp | net.FlagMulticast, }) var staticIPs []net.IP for _, ipStr := range config.StaticIPs { if ip := net.ParseIP(ipStr); ip != nil { staticIPs = append(staticIPs, ip) } } if len(config.StaticIP) > 0 { if ip := net.ParseIP(config.StaticIP); ip != nil { staticIPs = append(staticIPs, ip) } } return &Net{ interfaces: []*transport.Interface{lo0, eth0}, staticIPs: staticIPs, udpConns: newUDPConnMap(), }, nil } // DialTCP acts like Dial for TCP networks. func (v *Net) DialTCP(string, *net.TCPAddr, *net.TCPAddr) (transport.TCPConn, error) { return nil, transport.ErrNotSupported } // ListenTCP acts like Listen for TCP networks. func (v *Net) ListenTCP(string, *net.TCPAddr) (transport.TCPListener, error) { return nil, transport.ErrNotSupported } // CreateDialer creates an instance of vnet.Dialer. func (v *Net) CreateDialer(d *net.Dialer) transport.Dialer { return &dialer{ dialer: d, net: v, } } type dialer struct { dialer *net.Dialer net *Net } func (d *dialer) Dial(network, address string) (net.Conn, error) { return d.net.Dial(network, address) }