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moby--moby/daemon/networkdriver/ipallocator/allocator.go
shuai-z 4c97832297 fixed the way of iterating over the range of map.
Fixed the following errors:
1. Request(0) causes a dead loop when the map is full and map.last == BEGIN.
2. When map.last is the only available port (or ip), Request(0) returns ErrAllPortsAllocated (or ErrNoAvailableIPs). Exception is when map.last == BEGIN.

Signed-off-by: shuai-z <zs.broccoli@gmail.com>
2014-11-04 13:46:53 +08:00

166 lines
4.6 KiB
Go

package ipallocator
import (
"errors"
"math/big"
"net"
"sync"
log "github.com/Sirupsen/logrus"
"github.com/docker/docker/daemon/networkdriver"
)
// allocatedMap is thread-unsafe set of allocated IP
type allocatedMap struct {
p map[string]struct{}
last *big.Int
begin *big.Int
end *big.Int
}
func newAllocatedMap(network *net.IPNet) *allocatedMap {
firstIP, lastIP := networkdriver.NetworkRange(network)
begin := big.NewInt(0).Add(ipToBigInt(firstIP), big.NewInt(1))
end := big.NewInt(0).Sub(ipToBigInt(lastIP), big.NewInt(1))
// if IPv4 network, then allocation range starts at begin + 1 because begin is bridge IP
if len(firstIP) == 4 {
begin = begin.Add(begin, big.NewInt(1))
}
return &allocatedMap{
p: make(map[string]struct{}),
begin: begin,
end: end,
last: big.NewInt(0).Sub(begin, big.NewInt(1)), // so first allocated will be begin
}
}
type networkSet map[string]*allocatedMap
var (
ErrNoAvailableIPs = errors.New("no available ip addresses on network")
ErrIPAlreadyAllocated = errors.New("ip already allocated")
ErrIPOutOfRange = errors.New("requested ip is out of range")
ErrNetworkAlreadyRegistered = errors.New("network already registered")
ErrBadSubnet = errors.New("network does not contain specified subnet")
)
var (
lock = sync.Mutex{}
allocatedIPs = networkSet{}
)
// RegisterSubnet registers network in global allocator with bounds
// defined by subnet. If you want to use network range you must call
// this method before first RequestIP, otherwise full network range will be used
func RegisterSubnet(network *net.IPNet, subnet *net.IPNet) error {
lock.Lock()
defer lock.Unlock()
key := network.String()
if _, ok := allocatedIPs[key]; ok {
return ErrNetworkAlreadyRegistered
}
n := newAllocatedMap(network)
beginIP, endIP := networkdriver.NetworkRange(subnet)
begin := big.NewInt(0).Add(ipToBigInt(beginIP), big.NewInt(1))
end := big.NewInt(0).Sub(ipToBigInt(endIP), big.NewInt(1))
// Check that subnet is within network
if !(begin.Cmp(n.begin) >= 0 && end.Cmp(n.end) <= 0 && begin.Cmp(end) == -1) {
return ErrBadSubnet
}
n.begin.Set(begin)
n.end.Set(end)
n.last.Sub(begin, big.NewInt(1))
allocatedIPs[key] = n
return nil
}
// RequestIP requests an available ip from the given network. It
// will return the next available ip if the ip provided is nil. If the
// ip provided is not nil it will validate that the provided ip is available
// for use or return an error
func RequestIP(network *net.IPNet, ip net.IP) (net.IP, error) {
lock.Lock()
defer lock.Unlock()
key := network.String()
allocated, ok := allocatedIPs[key]
if !ok {
allocated = newAllocatedMap(network)
allocatedIPs[key] = allocated
}
if ip == nil {
return allocated.getNextIP()
}
return allocated.checkIP(ip)
}
// ReleaseIP adds the provided ip back into the pool of
// available ips to be returned for use.
func ReleaseIP(network *net.IPNet, ip net.IP) error {
lock.Lock()
defer lock.Unlock()
if allocated, exists := allocatedIPs[network.String()]; exists {
delete(allocated.p, ip.String())
}
return nil
}
func (allocated *allocatedMap) checkIP(ip net.IP) (net.IP, error) {
if _, ok := allocated.p[ip.String()]; ok {
return nil, ErrIPAlreadyAllocated
}
pos := ipToBigInt(ip)
// Verify that the IP address is within our network range.
if pos.Cmp(allocated.begin) == -1 || pos.Cmp(allocated.end) == 1 {
return nil, ErrIPOutOfRange
}
// Register the IP.
allocated.p[ip.String()] = struct{}{}
allocated.last.Set(pos)
return ip, nil
}
// return an available ip if one is currently available. If not,
// return the next available ip for the nextwork
func (allocated *allocatedMap) getNextIP() (net.IP, error) {
pos := big.NewInt(0).Set(allocated.last)
allRange := big.NewInt(0).Sub(allocated.end, allocated.begin)
for i := big.NewInt(0); i.Cmp(allRange) <= 0; i.Add(i, big.NewInt(1)) {
pos.Add(pos, big.NewInt(1))
if pos.Cmp(allocated.end) == 1 {
pos.Set(allocated.begin)
}
if _, ok := allocated.p[bigIntToIP(pos).String()]; ok {
continue
}
allocated.p[bigIntToIP(pos).String()] = struct{}{}
allocated.last.Set(pos)
return bigIntToIP(pos), nil
}
return nil, ErrNoAvailableIPs
}
// Converts a 4 bytes IP into a 128 bit integer
func ipToBigInt(ip net.IP) *big.Int {
x := big.NewInt(0)
if ip4 := ip.To4(); ip4 != nil {
return x.SetBytes(ip4)
}
if ip6 := ip.To16(); ip6 != nil {
return x.SetBytes(ip6)
}
log.Errorf("ipToBigInt: Wrong IP length! %s", ip)
return nil
}
// Converts 128 bit integer into a 4 bytes IP address
func bigIntToIP(v *big.Int) net.IP {
return net.IP(v.Bytes())
}