badguardhome/dhcpd/dhcpd.go

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package dhcpd
import (
"bytes"
"fmt"
"net"
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"strings"
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"sync"
"time"
"github.com/AdguardTeam/golibs/log"
"github.com/krolaw/dhcp4"
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ping "github.com/sparrc/go-ping"
)
const defaultDiscoverTime = time.Second * 3
const leaseExpireStatic = 1
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// Lease contains the necessary information about a DHCP lease
// field ordering is important -- yaml fields will mirror ordering from here
type Lease struct {
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HWAddr net.HardwareAddr `json:"mac" yaml:"hwaddr"`
IP net.IP `json:"ip"`
Hostname string `json:"hostname"`
// Lease expiration time
// 1: static lease
Expiry time.Time `json:"expires"`
}
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// ServerConfig - DHCP server configuration
// field ordering is important -- yaml fields will mirror ordering from here
type ServerConfig struct {
Enabled bool `json:"enabled" yaml:"enabled"`
InterfaceName string `json:"interface_name" yaml:"interface_name"` // eth0, en0 and so on
GatewayIP string `json:"gateway_ip" yaml:"gateway_ip"`
SubnetMask string `json:"subnet_mask" yaml:"subnet_mask"`
RangeStart string `json:"range_start" yaml:"range_start"`
RangeEnd string `json:"range_end" yaml:"range_end"`
LeaseDuration uint `json:"lease_duration" yaml:"lease_duration"` // in seconds
// IP conflict detector: time (ms) to wait for ICMP reply.
// 0: disable
ICMPTimeout uint `json:"icmp_timeout_msec" yaml:"icmp_timeout_msec"`
}
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// Server - the current state of the DHCP server
type Server struct {
conn *filterConn // listening UDP socket
ipnet *net.IPNet // if interface name changes, this needs to be reset
cond *sync.Cond // Synchronize worker thread with main thread
mutex sync.Mutex // Mutex for 'cond'
running bool // Set if the worker thread is running
stopping bool // Set if the worker thread should be stopped
// leases
leases []*Lease
leasesLock sync.RWMutex
leaseStart net.IP // parsed from config RangeStart
leaseStop net.IP // parsed from config RangeEnd
leaseTime time.Duration // parsed from config LeaseDuration
leaseOptions dhcp4.Options // parsed from config GatewayIP and SubnetMask
// IP address pool -- if entry is in the pool, then it's attached to a lease
IPpool map[[4]byte]net.HardwareAddr
conf ServerConfig
}
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// Print information about the available network interfaces
func printInterfaces() {
ifaces, _ := net.Interfaces()
var buf strings.Builder
for i := range ifaces {
buf.WriteString(fmt.Sprintf("\"%s\", ", ifaces[i].Name))
}
log.Info("Available network interfaces: %s", buf.String())
}
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// CheckConfig checks the configuration
func (s *Server) CheckConfig(config ServerConfig) error {
tmpServer := Server{}
return tmpServer.setConfig(config)
}
// Init checks the configuration and initializes the server
func (s *Server) Init(config ServerConfig) error {
err := s.setConfig(config)
if err != nil {
return err
}
s.dbLoad()
return nil
}
func (s *Server) setConfig(config ServerConfig) error {
s.conf = config
iface, err := net.InterfaceByName(config.InterfaceName)
if err != nil {
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printInterfaces()
return wrapErrPrint(err, "Couldn't find interface by name %s", config.InterfaceName)
}
// get ipv4 address of an interface
s.ipnet = getIfaceIPv4(iface)
if s.ipnet == nil {
return wrapErrPrint(err, "Couldn't find IPv4 address of interface %s %+v", config.InterfaceName, iface)
}
if config.LeaseDuration == 0 {
s.leaseTime = time.Hour * 2
} else {
s.leaseTime = time.Second * time.Duration(config.LeaseDuration)
}
s.leaseStart, err = parseIPv4(config.RangeStart)
if err != nil {
return wrapErrPrint(err, "Failed to parse range start address %s", config.RangeStart)
}
s.leaseStop, err = parseIPv4(config.RangeEnd)
if err != nil {
return wrapErrPrint(err, "Failed to parse range end address %s", config.RangeEnd)
}
subnet, err := parseIPv4(config.SubnetMask)
if err != nil {
return wrapErrPrint(err, "Failed to parse subnet mask %s", config.SubnetMask)
}
// if !bytes.Equal(subnet, s.ipnet.Mask) {
// return wrapErrPrint(err, "specified subnet mask %s does not meatch interface %s subnet mask %s", s.SubnetMask, s.InterfaceName, s.ipnet.Mask)
// }
router, err := parseIPv4(config.GatewayIP)
if err != nil {
return wrapErrPrint(err, "Failed to parse gateway IP %s", config.GatewayIP)
}
s.leaseOptions = dhcp4.Options{
dhcp4.OptionSubnetMask: subnet,
dhcp4.OptionRouter: router,
dhcp4.OptionDomainNameServer: s.ipnet.IP,
}
return nil
}
// Start will listen on port 67 and serve DHCP requests.
func (s *Server) Start() error {
// TODO: don't close if interface and addresses are the same
if s.conn != nil {
s.closeConn()
}
iface, err := net.InterfaceByName(s.conf.InterfaceName)
if err != nil {
return wrapErrPrint(err, "Couldn't find interface by name %s", s.conf.InterfaceName)
}
c, err := newFilterConn(*iface, ":67") // it has to be bound to 0.0.0.0:67, otherwise it won't see DHCP discover/request packets
if err != nil {
return wrapErrPrint(err, "Couldn't start listening socket on 0.0.0.0:67")
}
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log.Info("DHCP: listening on 0.0.0.0:67")
s.conn = c
s.cond = sync.NewCond(&s.mutex)
s.running = true
go func() {
// operate on c instead of c.conn because c.conn can change over time
err := dhcp4.Serve(c, s)
if err != nil && !s.stopping {
log.Printf("dhcp4.Serve() returned with error: %s", err)
}
c.Close() // in case Serve() exits for other reason than listening socket closure
s.running = false
s.cond.Signal()
}()
return nil
}
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// Stop closes the listening UDP socket
func (s *Server) Stop() error {
if s.conn == nil {
// nothing to do, return silently
return nil
}
s.stopping = true
err := s.closeConn()
if err != nil {
return wrapErrPrint(err, "Couldn't close UDP listening socket")
}
// We've just closed the listening socket.
// Worker thread should exit right after it tries to read from the socket.
s.mutex.Lock()
for s.running {
s.cond.Wait()
}
s.mutex.Unlock()
s.dbStore()
return nil
}
// closeConn will close the connection and set it to zero
func (s *Server) closeConn() error {
if s.conn == nil {
return nil
}
err := s.conn.Close()
s.conn = nil
return err
}
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// Reserve a lease for the client
func (s *Server) reserveLease(p dhcp4.Packet) (*Lease, error) {
// WARNING: do not remove copy()
// the given hwaddr by p.CHAddr() in the packet survives only during ServeDHCP() call
// since we need to retain it we need to make our own copy
hwaddrCOW := p.CHAddr()
hwaddr := make(net.HardwareAddr, len(hwaddrCOW))
copy(hwaddr, hwaddrCOW)
// not assigned a lease, create new one, find IP from LRU
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hostname := p.ParseOptions()[dhcp4.OptionHostName]
lease := &Lease{HWAddr: hwaddr, Hostname: string(hostname)}
log.Tracef("Lease not found for %s: creating new one", hwaddr)
s.leasesLock.Lock()
defer s.leasesLock.Unlock()
ip, err := s.findFreeIP(hwaddr)
if err != nil {
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i := s.findExpiredLease()
if i < 0 {
return nil, wrapErrPrint(err, "Couldn't find free IP for the lease %s", hwaddr.String())
}
log.Tracef("Assigning IP address %s to %s (lease for %s expired at %s)",
s.leases[i].IP, hwaddr, s.leases[i].HWAddr, s.leases[i].Expiry)
lease.IP = s.leases[i].IP
s.leases[i] = lease
s.reserveIP(lease.IP, hwaddr)
return lease, nil
}
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log.Tracef("Assigning to %s IP address %s", hwaddr, ip.String())
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lease.IP = ip
s.leases = append(s.leases, lease)
return lease, nil
}
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// Find a lease for the client
func (s *Server) findLease(p dhcp4.Packet) *Lease {
hwaddr := p.CHAddr()
for i := range s.leases {
if bytes.Equal([]byte(hwaddr), []byte(s.leases[i].HWAddr)) {
// log.Tracef("bytes.Equal(%s, %s) returned true", hwaddr, s.leases[i].hwaddr)
return s.leases[i]
}
}
return nil
}
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// Find an expired lease and return its index or -1
func (s *Server) findExpiredLease() int {
now := time.Now().Unix()
for i, lease := range s.leases {
if lease.Expiry.Unix() <= now && lease.Expiry.Unix() != leaseExpireStatic {
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return i
}
}
return -1
}
func (s *Server) findFreeIP(hwaddr net.HardwareAddr) (net.IP, error) {
// go from start to end, find unreserved IP
var foundIP net.IP
for i := 0; i < dhcp4.IPRange(s.leaseStart, s.leaseStop); i++ {
newIP := dhcp4.IPAdd(s.leaseStart, i)
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foundHWaddr := s.findReservedHWaddr(newIP)
log.Tracef("tried IP %v, got hwaddr %v", newIP, foundHWaddr)
if foundHWaddr != nil && len(foundHWaddr) != 0 {
// if !bytes.Equal(foundHWaddr, hwaddr) {
// log.Tracef("SHOULD NOT HAPPEN: hwaddr in IP pool %s is not equal to hwaddr in lease %s", foundHWaddr, hwaddr)
// }
continue
}
foundIP = newIP
break
}
if foundIP == nil {
// TODO: LRU
return nil, fmt.Errorf("couldn't find free entry in IP pool")
}
s.reserveIP(foundIP, hwaddr)
return foundIP, nil
}
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func (s *Server) findReservedHWaddr(ip net.IP) net.HardwareAddr {
rawIP := []byte(ip)
IP4 := [4]byte{rawIP[0], rawIP[1], rawIP[2], rawIP[3]}
return s.IPpool[IP4]
}
func (s *Server) reserveIP(ip net.IP, hwaddr net.HardwareAddr) {
rawIP := []byte(ip)
IP4 := [4]byte{rawIP[0], rawIP[1], rawIP[2], rawIP[3]}
s.IPpool[IP4] = hwaddr
}
func (s *Server) unreserveIP(ip net.IP) {
rawIP := []byte(ip)
IP4 := [4]byte{rawIP[0], rawIP[1], rawIP[2], rawIP[3]}
delete(s.IPpool, IP4)
}
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// ServeDHCP handles an incoming DHCP request
func (s *Server) ServeDHCP(p dhcp4.Packet, msgType dhcp4.MessageType, options dhcp4.Options) dhcp4.Packet {
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s.printLeases()
switch msgType {
case dhcp4.Discover: // Broadcast Packet From Client - Can I have an IP?
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return s.handleDiscover(p, options)
case dhcp4.Request: // Broadcast From Client - I'll take that IP (Also start for renewals)
// start/renew a lease -- update lease time
// some clients (OSX) just go right ahead and do Request first from previously known IP, if they get NAK, they restart full cycle with Discover then Request
return s.handleDHCP4Request(p, options)
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case dhcp4.Decline: // Broadcast From Client - Sorry I can't use that IP
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return s.handleDecline(p, options)
case dhcp4.Release: // From Client, I don't need that IP anymore
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return s.handleRelease(p, options)
case dhcp4.Inform: // From Client, I have this IP and there's nothing you can do about it
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return s.handleInform(p, options)
// from server -- ignore those but enumerate just in case
case dhcp4.Offer: // Broadcast From Server - Here's an IP
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log.Printf("DHCP: received message from %s: Offer", p.CHAddr())
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case dhcp4.ACK: // From Server, Yes you can have that IP
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log.Printf("DHCP: received message from %s: ACK", p.CHAddr())
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case dhcp4.NAK: // From Server, No you cannot have that IP
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log.Printf("DHCP: received message from %s: NAK", p.CHAddr())
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default:
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log.Printf("DHCP: unknown packet %v from %s", msgType, p.CHAddr())
return nil
}
return nil
}
// Send ICMP to the specified machine
// Return TRUE if it doesn't reply, which probably means that the IP is available
func (s *Server) addrAvailable(target net.IP) bool {
if s.conf.ICMPTimeout == 0 {
return true
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}
pinger, err := ping.NewPinger(target.String())
if err != nil {
log.Error("ping.NewPinger(): %v", err)
return true
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}
pinger.SetPrivileged(true)
pinger.Timeout = time.Duration(s.conf.ICMPTimeout) * time.Millisecond
pinger.Count = 1
reply := false
pinger.OnRecv = func(pkt *ping.Packet) {
// log.Tracef("Received ICMP Reply from %v", target)
reply = true
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}
log.Tracef("Sending ICMP Echo to %v", target)
pinger.Run()
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if reply {
log.Info("DHCP: IP conflict: %v is already used by another device", target)
return false
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}
log.Tracef("ICMP procedure is complete: %v", target)
return true
}
// Add the specified IP to the black list for a time period
func (s *Server) blacklistLease(lease *Lease) {
hw := make(net.HardwareAddr, 6)
s.leasesLock.Lock()
s.reserveIP(lease.IP, hw)
lease.HWAddr = hw
lease.Hostname = ""
lease.Expiry = time.Now().Add(s.leaseTime)
s.leasesLock.Unlock()
}
// Return TRUE if DHCP packet is correct
func isValidPacket(p dhcp4.Packet) bool {
hw := p.CHAddr()
zeroes := make([]byte, len(hw))
if bytes.Equal(hw, zeroes) {
log.Tracef("Packet has empty CHAddr")
return false
}
return true
}
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func (s *Server) handleDiscover(p dhcp4.Packet, options dhcp4.Options) dhcp4.Packet {
// find a lease, but don't update lease time
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var lease *Lease
var err error
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reqIP := net.IP(options[dhcp4.OptionRequestedIPAddress])
hostname := p.ParseOptions()[dhcp4.OptionHostName]
log.Tracef("Message from client: Discover. ReqIP: %s HW: %s Hostname: %s",
reqIP, p.CHAddr(), hostname)
if !isValidPacket(p) {
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return nil
}
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lease = s.findLease(p)
for lease == nil {
lease, err = s.reserveLease(p)
if err != nil {
log.Error("Couldn't find free lease: %s", err)
return nil
}
if !s.addrAvailable(lease.IP) {
s.blacklistLease(lease)
lease = nil
continue
}
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break
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}
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opt := s.leaseOptions.SelectOrderOrAll(options[dhcp4.OptionParameterRequestList])
reply := dhcp4.ReplyPacket(p, dhcp4.Offer, s.ipnet.IP, lease.IP, s.leaseTime, opt)
log.Tracef("Replying with offer: offered IP %v for %v with options %+v", lease.IP, s.leaseTime, reply.ParseOptions())
return reply
}
func (s *Server) handleDHCP4Request(p dhcp4.Packet, options dhcp4.Options) dhcp4.Packet {
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var lease *Lease
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reqIP := net.IP(options[dhcp4.OptionRequestedIPAddress])
log.Tracef("Message from client: Request. IP: %s ReqIP: %s HW: %s",
p.CIAddr(), reqIP, p.CHAddr())
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if !isValidPacket(p) {
return nil
}
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server := options[dhcp4.OptionServerIdentifier]
if server != nil && !net.IP(server).Equal(s.ipnet.IP) {
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log.Tracef("Request message not for this DHCP server (%v vs %v)", server, s.ipnet.IP)
return nil // Message not for this dhcp server
}
if reqIP == nil {
reqIP = p.CIAddr()
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} else if reqIP == nil || reqIP.To4() == nil {
log.Tracef("Requested IP isn't a valid IPv4: %s", reqIP)
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return dhcp4.ReplyPacket(p, dhcp4.NAK, s.ipnet.IP, nil, 0, nil)
}
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lease = s.findLease(p)
if lease == nil {
log.Tracef("Lease for %s isn't found", p.CHAddr())
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return dhcp4.ReplyPacket(p, dhcp4.NAK, s.ipnet.IP, nil, 0, nil)
}
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if !lease.IP.Equal(reqIP) {
log.Tracef("Lease for %s doesn't match requested/client IP: %s vs %s",
lease.HWAddr, lease.IP, reqIP)
return dhcp4.ReplyPacket(p, dhcp4.NAK, s.ipnet.IP, nil, 0, nil)
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}
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lease.Expiry = time.Now().Add(s.leaseTime)
log.Tracef("Replying with ACK. IP: %s HW: %s Expire: %s",
lease.IP, lease.HWAddr, lease.Expiry)
opt := s.leaseOptions.SelectOrderOrAll(options[dhcp4.OptionParameterRequestList])
return dhcp4.ReplyPacket(p, dhcp4.ACK, s.ipnet.IP, lease.IP, s.leaseTime, opt)
}
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func (s *Server) handleInform(p dhcp4.Packet, options dhcp4.Options) dhcp4.Packet {
log.Tracef("Message from client: Inform. IP: %s HW: %s",
p.CIAddr(), p.CHAddr())
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return nil
}
func (s *Server) handleRelease(p dhcp4.Packet, options dhcp4.Options) dhcp4.Packet {
log.Tracef("Message from client: Release. IP: %s HW: %s",
p.CIAddr(), p.CHAddr())
return nil
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}
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func (s *Server) handleDecline(p dhcp4.Packet, options dhcp4.Options) dhcp4.Packet {
reqIP := net.IP(options[dhcp4.OptionRequestedIPAddress])
log.Tracef("Message from client: Decline. IP: %s HW: %s",
reqIP, p.CHAddr())
return nil
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}
// AddStaticLease adds a static lease (thread-safe)
func (s *Server) AddStaticLease(l Lease) error {
if s.IPpool == nil {
return fmt.Errorf("DHCP server isn't started")
}
if len(l.IP) != 4 {
return fmt.Errorf("Invalid IP")
}
if len(l.HWAddr) != 6 {
return fmt.Errorf("Invalid MAC")
}
l.Expiry = time.Unix(leaseExpireStatic, 0)
s.leasesLock.Lock()
defer s.leasesLock.Unlock()
if s.findReservedHWaddr(l.IP) != nil {
return fmt.Errorf("IP is already used")
}
s.leases = append(s.leases, &l)
s.reserveIP(l.IP, l.HWAddr)
s.dbStore()
return nil
}
// RemoveStaticLease removes a static lease (thread-safe)
func (s *Server) RemoveStaticLease(l Lease) error {
if s.IPpool == nil {
return fmt.Errorf("DHCP server isn't started")
}
if len(l.IP) != 4 {
return fmt.Errorf("Invalid IP")
}
if len(l.HWAddr) != 6 {
return fmt.Errorf("Invalid MAC")
}
s.leasesLock.Lock()
defer s.leasesLock.Unlock()
if s.findReservedHWaddr(l.IP) == nil {
return fmt.Errorf("Lease not found")
}
var newLeases []*Lease
for _, lease := range s.leases {
if bytes.Equal(lease.IP.To4(), l.IP) {
if !bytes.Equal(lease.HWAddr, l.HWAddr) ||
lease.Hostname != l.Hostname {
return fmt.Errorf("Lease not found")
}
continue
}
newLeases = append(newLeases, lease)
}
s.leases = newLeases
s.unreserveIP(l.IP)
s.dbStore()
return nil
}
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// Leases returns the list of current DHCP leases (thread-safe)
func (s *Server) Leases() []Lease {
var result []Lease
now := time.Now().Unix()
s.leasesLock.RLock()
for _, lease := range s.leases {
if lease.Expiry.Unix() > now {
result = append(result, *lease)
}
}
s.leasesLock.RUnlock()
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return result
}
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// StaticLeases returns the list of statically-configured DHCP leases (thread-safe)
func (s *Server) StaticLeases() []Lease {
s.leasesLock.Lock()
defer s.leasesLock.Unlock()
if s.IPpool == nil {
s.dbLoad()
}
var result []Lease
for _, lease := range s.leases {
if lease.Expiry.Unix() == 1 {
result = append(result, *lease)
}
}
return result
}
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// Print information about the current leases
func (s *Server) printLeases() {
log.Tracef("Leases:")
for i, lease := range s.leases {
log.Tracef("Lease #%d: hwaddr %s, ip %s, expiry %s",
i, lease.HWAddr, lease.IP, lease.Expiry)
}
}
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// FindIPbyMAC finds an IP address by MAC address in the currently active DHCP leases
func (s *Server) FindIPbyMAC(mac net.HardwareAddr) net.IP {
now := time.Now().Unix()
s.leasesLock.RLock()
defer s.leasesLock.RUnlock()
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for _, l := range s.leases {
if l.Expiry.Unix() > now && bytes.Equal(mac, l.HWAddr) {
return l.IP
}
}
return nil
}
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// Reset internal state
func (s *Server) reset() {
s.leasesLock.Lock()
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s.leases = nil
s.IPpool = make(map[[4]byte]net.HardwareAddr)
s.leasesLock.Unlock()
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}