vendor/github.com/docker/libnetwork/ipam/allocator.go - third_party/github.com/moby/moby - Git at Google

 package ipam

 import (
 	"fmt"
 	"net"
 	"sort"
 	"sync"

 	"github.com/docker/libnetwork/bitseq"
 	"github.com/docker/libnetwork/datastore"
 	"github.com/docker/libnetwork/discoverapi"
 	"github.com/docker/libnetwork/ipamapi"
 	"github.com/docker/libnetwork/ipamutils"
 	"github.com/docker/libnetwork/types"
 	"github.com/sirupsen/logrus"
 )

 const (
 	localAddressSpace  = "LocalDefault"
 	globalAddressSpace = "GlobalDefault"
 	// The biggest configurable host subnets
 	minNetSize   = 8
 	minNetSizeV6 = 64
 	// datastore keyes for ipam objects
 	dsConfigKey = "ipam/" + ipamapi.DefaultIPAM + "/config"
 	dsDataKey   = "ipam/" + ipamapi.DefaultIPAM + "/data"
 )

 // Allocator provides per address space ipv4/ipv6 book keeping
 type Allocator struct {
 	// Predefined pools for default address spaces
 	predefined map[string][]*net.IPNet
 	addrSpaces map[string]*addrSpace
 	// stores        []datastore.Datastore
 	// Allocated addresses in each address space's subnet
 	addresses map[SubnetKey]*bitseq.Handle
 	sync.Mutex
 }

 // NewAllocator returns an instance of libnetwork ipam
 func NewAllocator(lcDs, glDs datastore.DataStore) (*Allocator, error) {
 	a := &Allocator{}

 	// Load predefined subnet pools
 	a.predefined = map[string][]*net.IPNet{
 		localAddressSpace:  ipamutils.PredefinedBroadNetworks,
 		globalAddressSpace: ipamutils.PredefinedGranularNetworks,
 	}

 	// Initialize bitseq map
 	a.addresses = make(map[SubnetKey]*bitseq.Handle)

 	// Initialize address spaces
 	a.addrSpaces = make(map[string]*addrSpace)
 	for _, aspc := range []struct {
 		as string
 		ds datastore.DataStore
 	}{
 		{localAddressSpace, lcDs},
 		{globalAddressSpace, glDs},
 	} {
 		a.initializeAddressSpace(aspc.as, aspc.ds)
 	}

 	return a, nil
 }

 func (a *Allocator) refresh(as string) error {
 	aSpace, err := a.getAddressSpaceFromStore(as)
 	if err != nil {
 		return types.InternalErrorf("error getting pools config from store: %v", err)
 	}

 	if aSpace == nil {
 		return nil
 	}

 	a.Lock()
 	a.addrSpaces[as] = aSpace
 	a.Unlock()

 	return nil
 }

 func (a *Allocator) updateBitMasks(aSpace *addrSpace) error {
 	var inserterList []func() error

 	aSpace.Lock()
 	for k, v := range aSpace.subnets {
 		if v.Range == nil {
 			kk := k
 			vv := v
 			inserterList = append(inserterList, func() error { return a.insertBitMask(kk, vv.Pool) })
 		}
 	}
 	aSpace.Unlock()

 	// Add the bitmasks (data could come from datastore)
 	if inserterList != nil {
 		for _, f := range inserterList {
 			if err := f(); err != nil {
 				return err
 			}
 		}
 	}

 	return nil
 }

 // Checks for and fixes damaged bitmask.
 func (a *Allocator) checkConsistency(as string) {
 	var sKeyList []SubnetKey

 	// Retrieve this address space's configuration and bitmasks from the datastore
 	a.refresh(as)
 	a.Lock()
 	aSpace, ok := a.addrSpaces[as]
 	a.Unlock()
 	if !ok {
 		return
 	}
 	a.updateBitMasks(aSpace)

 	aSpace.Lock()
 	for sk, pd := range aSpace.subnets {
 		if pd.Range != nil {
 			continue
 		}
 		sKeyList = append(sKeyList, sk)
 	}
 	aSpace.Unlock()

 	for _, sk := range sKeyList {
 		a.Lock()
 		bm := a.addresses[sk]
 		a.Unlock()
 		if err := bm.CheckConsistency(); err != nil {
 			logrus.Warnf("Error while running consistency check for %s: %v", sk, err)
 		}
 	}
 }

 func (a *Allocator) initializeAddressSpace(as string, ds datastore.DataStore) error {
 	scope := ""
 	if ds != nil {
 		scope = ds.Scope()
 	}

 	a.Lock()
 	if currAS, ok := a.addrSpaces[as]; ok {
 		if currAS.ds != nil {
 			a.Unlock()
 			return types.ForbiddenErrorf("a datastore is already configured for the address space %s", as)
 		}
 	}
 	a.addrSpaces[as] = &addrSpace{
 		subnets: map[SubnetKey]*PoolData{},
 		id:      dsConfigKey + "/" + as,
 		scope:   scope,
 		ds:      ds,
 		alloc:   a,
 	}
 	a.Unlock()

 	a.checkConsistency(as)

 	return nil
 }

 // DiscoverNew informs the allocator about a new global scope datastore
 func (a *Allocator) DiscoverNew(dType discoverapi.DiscoveryType, data interface{}) error {
 	if dType != discoverapi.DatastoreConfig {
 		return nil
 	}

 	dsc, ok := data.(discoverapi.DatastoreConfigData)
 	if !ok {
 		return types.InternalErrorf("incorrect data in datastore update notification: %v", data)
 	}

 	ds, err := datastore.NewDataStoreFromConfig(dsc)
 	if err != nil {
 		return err
 	}

 	return a.initializeAddressSpace(globalAddressSpace, ds)
 }

 // DiscoverDelete is a notification of no interest for the allocator
 func (a *Allocator) DiscoverDelete(dType discoverapi.DiscoveryType, data interface{}) error {
 	return nil
 }

 // GetDefaultAddressSpaces returns the local and global default address spaces
 func (a *Allocator) GetDefaultAddressSpaces() (string, string, error) {
 	return localAddressSpace, globalAddressSpace, nil
 }

 // RequestPool returns an address pool along with its unique id.
 func (a *Allocator) RequestPool(addressSpace, pool, subPool string, options map[string]string, v6 bool) (string, *net.IPNet, map[string]string, error) {
 	logrus.Debugf("RequestPool(%s, %s, %s, %v, %t)", addressSpace, pool, subPool, options, v6)

 	k, nw, ipr, err := a.parsePoolRequest(addressSpace, pool, subPool, v6)
 	if err != nil {
 		return "", nil, nil, types.InternalErrorf("failed to parse pool request for address space %q pool %q subpool %q: %v", addressSpace, pool, subPool, err)
 	}

 	pdf := k == nil

 retry:
 	if pdf {
 		if nw, err = a.getPredefinedPool(addressSpace, v6); err != nil {
 			return "", nil, nil, err
 		}
 		k = &SubnetKey{AddressSpace: addressSpace, Subnet: nw.String()}
 	}

 	if err := a.refresh(addressSpace); err != nil {
 		return "", nil, nil, err
 	}

 	aSpace, err := a.getAddrSpace(addressSpace)
 	if err != nil {
 		return "", nil, nil, err
 	}

 	insert, err := aSpace.updatePoolDBOnAdd(*k, nw, ipr, pdf)
 	if err != nil {
 		if _, ok := err.(types.MaskableError); ok {
 			logrus.Debugf("Retrying predefined pool search: %v", err)
 			goto retry
 		}
 		return "", nil, nil, err
 	}

 	if err := a.writeToStore(aSpace); err != nil {
 		if _, ok := err.(types.RetryError); !ok {
 			return "", nil, nil, types.InternalErrorf("pool configuration failed because of %s", err.Error())
 		}

 		goto retry
 	}

 	return k.String(), nw, nil, insert()
 }

 // ReleasePool releases the address pool identified by the passed id
 func (a *Allocator) ReleasePool(poolID string) error {
 	logrus.Debugf("ReleasePool(%s)", poolID)
 	k := SubnetKey{}
 	if err := k.FromString(poolID); err != nil {
 		return types.BadRequestErrorf("invalid pool id: %s", poolID)
 	}

 retry:
 	if err := a.refresh(k.AddressSpace); err != nil {
 		return err
 	}

 	aSpace, err := a.getAddrSpace(k.AddressSpace)
 	if err != nil {
 		return err
 	}

 	remove, err := aSpace.updatePoolDBOnRemoval(k)
 	if err != nil {
 		return err
 	}

 	if err = a.writeToStore(aSpace); err != nil {
 		if _, ok := err.(types.RetryError); !ok {
 			return types.InternalErrorf("pool (%s) removal failed because of %v", poolID, err)
 		}
 		goto retry
 	}

 	return remove()
 }

 // Given the address space, returns the local or global PoolConfig based on the
 // address space is local or global. AddressSpace locality is being registered with IPAM out of band.
 func (a *Allocator) getAddrSpace(as string) (*addrSpace, error) {
 	a.Lock()
 	defer a.Unlock()
 	aSpace, ok := a.addrSpaces[as]
 	if !ok {
 		return nil, types.BadRequestErrorf("cannot find address space %s (most likely the backing datastore is not configured)", as)
 	}
 	return aSpace, nil
 }

 func (a *Allocator) parsePoolRequest(addressSpace, pool, subPool string, v6 bool) (*SubnetKey, *net.IPNet, *AddressRange, error) {
 	var (
 		nw  *net.IPNet
 		ipr *AddressRange
 		err error
 	)

 	if addressSpace == "" {
 		return nil, nil, nil, ipamapi.ErrInvalidAddressSpace
 	}

 	if pool == "" && subPool != "" {
 		return nil, nil, nil, ipamapi.ErrInvalidSubPool
 	}

 	if pool == "" {
 		return nil, nil, nil, nil
 	}

 	if _, nw, err = net.ParseCIDR(pool); err != nil {
 		return nil, nil, nil, ipamapi.ErrInvalidPool
 	}

 	if subPool != "" {
 		if ipr, err = getAddressRange(subPool, nw); err != nil {
 			return nil, nil, nil, err
 		}
 	}

 	return &SubnetKey{AddressSpace: addressSpace, Subnet: nw.String(), ChildSubnet: subPool}, nw, ipr, nil
 }

 func (a *Allocator) insertBitMask(key SubnetKey, pool *net.IPNet) error {
 	//logrus.Debugf("Inserting bitmask (%s, %s)", key.String(), pool.String())

 	store := a.getStore(key.AddressSpace)
 	ipVer := getAddressVersion(pool.IP)
 	ones, bits := pool.Mask.Size()
 	numAddresses := uint64(1 << uint(bits-ones))

 	// Allow /64 subnet
 	if ipVer == v6 && numAddresses == 0 {
 		numAddresses--
 	}

 	// Generate the new address masks. AddressMask content may come from datastore
 	h, err := bitseq.NewHandle(dsDataKey, store, key.String(), numAddresses)
 	if err != nil {
 		return err
 	}

 	// Do not let network identifier address be reserved
 	// Do the same for IPv6 so that bridge ip starts with XXXX...::1
 	h.Set(0)

 	// Do not let broadcast address be reserved
 	if ipVer == v4 {
 		h.Set(numAddresses - 1)
 	}

 	a.Lock()
 	a.addresses[key] = h
 	a.Unlock()
 	return nil
 }

 func (a *Allocator) retrieveBitmask(k SubnetKey, n *net.IPNet) (*bitseq.Handle, error) {
 	a.Lock()
 	bm, ok := a.addresses[k]
 	a.Unlock()
 	if !ok {
 		logrus.Debugf("Retrieving bitmask (%s, %s)", k.String(), n.String())
 		if err := a.insertBitMask(k, n); err != nil {
 			return nil, types.InternalErrorf("could not find bitmask in datastore for %s", k.String())
 		}
 		a.Lock()
 		bm = a.addresses[k]
 		a.Unlock()
 	}
 	return bm, nil
 }

 func (a *Allocator) getPredefineds(as string) []*net.IPNet {
 	a.Lock()
 	defer a.Unlock()
 	l := make([]*net.IPNet, 0, len(a.predefined[as]))
 	for _, pool := range a.predefined[as] {
 		l = append(l, pool)
 	}
 	return l
 }

 func (a *Allocator) getPredefinedPool(as string, ipV6 bool) (*net.IPNet, error) {
 	var v ipVersion
 	v = v4
 	if ipV6 {
 		v = v6
 	}

 	if as != localAddressSpace && as != globalAddressSpace {
 		return nil, types.NotImplementedErrorf("no default pool availbale for non-default addresss spaces")
 	}

 	aSpace, err := a.getAddrSpace(as)
 	if err != nil {
 		return nil, err
 	}

 	for _, nw := range a.getPredefineds(as) {
 		if v != getAddressVersion(nw.IP) {
 			continue
 		}
 		aSpace.Lock()
 		if _, ok := aSpace.subnets[SubnetKey{AddressSpace: as, Subnet: nw.String()}]; ok {
 			aSpace.Unlock()
 			continue
 		}
 		if !aSpace.contains(as, nw) {
 			aSpace.Unlock()
 			return nw, nil
 		}
 		aSpace.Unlock()
 	}

 	return nil, types.NotFoundErrorf("could not find an available, non-overlapping IPv%d address pool among the defaults to assign to the network", v)
 }

 // RequestAddress returns an address from the specified pool ID
 func (a *Allocator) RequestAddress(poolID string, prefAddress net.IP, opts map[string]string) (*net.IPNet, map[string]string, error) {
 	logrus.Debugf("RequestAddress(%s, %v, %v)", poolID, prefAddress, opts)
 	k := SubnetKey{}
 	if err := k.FromString(poolID); err != nil {
 		return nil, nil, types.BadRequestErrorf("invalid pool id: %s", poolID)
 	}

 	if err := a.refresh(k.AddressSpace); err != nil {
 		return nil, nil, err
 	}

 	aSpace, err := a.getAddrSpace(k.AddressSpace)
 	if err != nil {
 		return nil, nil, err
 	}

 	aSpace.Lock()
 	p, ok := aSpace.subnets[k]
 	if !ok {
 		aSpace.Unlock()
 		return nil, nil, types.NotFoundErrorf("cannot find address pool for poolID:%s", poolID)
 	}

 	if prefAddress != nil && !p.Pool.Contains(prefAddress) {
 		aSpace.Unlock()
 		return nil, nil, ipamapi.ErrIPOutOfRange
 	}

 	c := p
 	for c.Range != nil {
 		k = c.ParentKey
 		c = aSpace.subnets[k]
 	}
 	aSpace.Unlock()

 	bm, err := a.retrieveBitmask(k, c.Pool)
 	if err != nil {
 		return nil, nil, types.InternalErrorf("could not find bitmask in datastore for %s on address %v request from pool %s: %v",
 			k.String(), prefAddress, poolID, err)
 	}
 	// In order to request for a serial ip address allocation, callers can pass in the option to request
 	// IP allocation serially or first available IP in the subnet
 	var serial bool
 	if opts != nil {
 		if val, ok := opts[ipamapi.AllocSerialPrefix]; ok {
 			serial = (val == "true")
 		}
 	}
 	ip, err := a.getAddress(p.Pool, bm, prefAddress, p.Range, serial)
 	if err != nil {
 		return nil, nil, err
 	}

 	return &net.IPNet{IP: ip, Mask: p.Pool.Mask}, nil, nil
 }

 // ReleaseAddress releases the address from the specified pool ID
 func (a *Allocator) ReleaseAddress(poolID string, address net.IP) error {
 	logrus.Debugf("ReleaseAddress(%s, %v)", poolID, address)
 	k := SubnetKey{}
 	if err := k.FromString(poolID); err != nil {
 		return types.BadRequestErrorf("invalid pool id: %s", poolID)
 	}

 	if err := a.refresh(k.AddressSpace); err != nil {
 		return err
 	}

 	aSpace, err := a.getAddrSpace(k.AddressSpace)
 	if err != nil {
 		return err
 	}

 	aSpace.Lock()
 	p, ok := aSpace.subnets[k]
 	if !ok {
 		aSpace.Unlock()
 		return types.NotFoundErrorf("cannot find address pool for poolID:%s", poolID)
 	}

 	if address == nil {
 		aSpace.Unlock()
 		return types.BadRequestErrorf("invalid address: nil")
 	}

 	if !p.Pool.Contains(address) {
 		aSpace.Unlock()
 		return ipamapi.ErrIPOutOfRange
 	}

 	c := p
 	for c.Range != nil {
 		k = c.ParentKey
 		c = aSpace.subnets[k]
 	}
 	aSpace.Unlock()

 	mask := p.Pool.Mask

 	h, err := types.GetHostPartIP(address, mask)
 	if err != nil {
 		return types.InternalErrorf("failed to release address %s: %v", address.String(), err)
 	}

 	bm, err := a.retrieveBitmask(k, c.Pool)
 	if err != nil {
 		return types.InternalErrorf("could not find bitmask in datastore for %s on address %v release from pool %s: %v",
 			k.String(), address, poolID, err)
 	}

 	return bm.Unset(ipToUint64(h))
 }

 func (a *Allocator) getAddress(nw *net.IPNet, bitmask *bitseq.Handle, prefAddress net.IP, ipr *AddressRange, serial bool) (net.IP, error) {
 	var (
 		ordinal uint64
 		err     error
 		base    *net.IPNet
 	)

 	base = types.GetIPNetCopy(nw)

 	if bitmask.Unselected() <= 0 {
 		return nil, ipamapi.ErrNoAvailableIPs
 	}
 	if ipr == nil && prefAddress == nil {
 		ordinal, err = bitmask.SetAny(serial)
 	} else if prefAddress != nil {
 		hostPart, e := types.GetHostPartIP(prefAddress, base.Mask)
 		if e != nil {
 			return nil, types.InternalErrorf("failed to allocate requested address %s: %v", prefAddress.String(), e)
 		}
 		ordinal = ipToUint64(types.GetMinimalIP(hostPart))
 		err = bitmask.Set(ordinal)
 	} else {
 		ordinal, err = bitmask.SetAnyInRange(ipr.Start, ipr.End, serial)
 	}

 	switch err {
 	case nil:
 		// Convert IP ordinal for this subnet into IP address
 		return generateAddress(ordinal, base), nil
 	case bitseq.ErrBitAllocated:
 		return nil, ipamapi.ErrIPAlreadyAllocated
 	case bitseq.ErrNoBitAvailable:
 		return nil, ipamapi.ErrNoAvailableIPs
 	default:
 		return nil, err
 	}
 }

 // DumpDatabase dumps the internal info
 func (a *Allocator) DumpDatabase() string {
 	a.Lock()
 	aspaces := make(map[string]*addrSpace, len(a.addrSpaces))
 	orderedAS := make([]string, 0, len(a.addrSpaces))
 	for as, aSpace := range a.addrSpaces {
 		orderedAS = append(orderedAS, as)
 		aspaces[as] = aSpace
 	}
 	a.Unlock()

 	sort.Strings(orderedAS)

 	var s string
 	for _, as := range orderedAS {
 		aSpace := aspaces[as]
 		s = fmt.Sprintf("\n\n%s Config", as)
 		aSpace.Lock()
 		for k, config := range aSpace.subnets {
 			s += fmt.Sprintf("\n%v: %v", k, config)
 			if config.Range == nil {
 				a.retrieveBitmask(k, config.Pool)
 			}
 		}
 		aSpace.Unlock()
 	}

 	s = fmt.Sprintf("%s\n\nBitmasks", s)
 	for k, bm := range a.addresses {
 		s += fmt.Sprintf("\n%s: %s", k, bm)
 	}

 	return s
 }

 // IsBuiltIn returns true for builtin drivers
 func (a *Allocator) IsBuiltIn() bool {
 	return true
 }
	package ipam

	import (
	"fmt"
	"net"
	"sort"
	"sync"

	"github.com/docker/libnetwork/bitseq"
	"github.com/docker/libnetwork/datastore"
	"github.com/docker/libnetwork/discoverapi"
	"github.com/docker/libnetwork/ipamapi"
	"github.com/docker/libnetwork/ipamutils"
	"github.com/docker/libnetwork/types"
	"github.com/sirupsen/logrus"
	)

	const (
	localAddressSpace = "LocalDefault"
	globalAddressSpace = "GlobalDefault"
	// The biggest configurable host subnets
	minNetSize = 8
	minNetSizeV6 = 64
	// datastore keyes for ipam objects
	dsConfigKey = "ipam/" + ipamapi.DefaultIPAM + "/config"
	dsDataKey = "ipam/" + ipamapi.DefaultIPAM + "/data"
	)

	// Allocator provides per address space ipv4/ipv6 book keeping
	type Allocator struct {
	// Predefined pools for default address spaces
	predefined map[string][]*net.IPNet
	addrSpaces map[string]*addrSpace
	// stores []datastore.Datastore
	// Allocated addresses in each address space's subnet
	addresses map[SubnetKey]*bitseq.Handle
	sync.Mutex
	}

	// NewAllocator returns an instance of libnetwork ipam
	func NewAllocator(lcDs, glDs datastore.DataStore) (*Allocator, error) {
	a := &Allocator{}

	// Load predefined subnet pools
	a.predefined = map[string][]*net.IPNet{
	localAddressSpace: ipamutils.PredefinedBroadNetworks,
	globalAddressSpace: ipamutils.PredefinedGranularNetworks,
	}

	// Initialize bitseq map
	a.addresses = make(map[SubnetKey]*bitseq.Handle)

	// Initialize address spaces
	a.addrSpaces = make(map[string]*addrSpace)
	for _, aspc := range []struct {
	as string
	ds datastore.DataStore
	}{
	{localAddressSpace, lcDs},
	{globalAddressSpace, glDs},
	} {
	a.initializeAddressSpace(aspc.as, aspc.ds)
	}

	return a, nil
	}

	func (a *Allocator) refresh(as string) error {
	aSpace, err := a.getAddressSpaceFromStore(as)
	if err != nil {
	return types.InternalErrorf("error getting pools config from store: %v", err)
	}

	if aSpace == nil {
	return nil
	}

	a.Lock()
	a.addrSpaces[as] = aSpace
	a.Unlock()

	return nil
	}

	func (a Allocator) updateBitMasks(aSpace addrSpace) error {
	var inserterList []func() error

	aSpace.Lock()
	for k, v := range aSpace.subnets {
	if v.Range == nil {
	kk := k
	vv := v
	inserterList = append(inserterList, func() error { return a.insertBitMask(kk, vv.Pool) })
	}
	}
	aSpace.Unlock()

	// Add the bitmasks (data could come from datastore)
	if inserterList != nil {
	for _, f := range inserterList {
	if err := f(); err != nil {
	return err
	}
	}
	}

	return nil
	}

	// Checks for and fixes damaged bitmask.
	func (a *Allocator) checkConsistency(as string) {
	var sKeyList []SubnetKey

	// Retrieve this address space's configuration and bitmasks from the datastore
	a.refresh(as)
	a.Lock()
	aSpace, ok := a.addrSpaces[as]
	a.Unlock()
	if !ok {
	return
	}
	a.updateBitMasks(aSpace)

	aSpace.Lock()
	for sk, pd := range aSpace.subnets {
	if pd.Range != nil {
	continue
	}
	sKeyList = append(sKeyList, sk)
	}
	aSpace.Unlock()

	for _, sk := range sKeyList {
	a.Lock()
	bm := a.addresses[sk]
	a.Unlock()
	if err := bm.CheckConsistency(); err != nil {
	logrus.Warnf("Error while running consistency check for %s: %v", sk, err)
	}
	}
	}

	func (a *Allocator) initializeAddressSpace(as string, ds datastore.DataStore) error {
	scope := ""
	if ds != nil {
	scope = ds.Scope()
	}

	a.Lock()
	if currAS, ok := a.addrSpaces[as]; ok {
	if currAS.ds != nil {
	a.Unlock()
	return types.ForbiddenErrorf("a datastore is already configured for the address space %s", as)
	}
	}
	a.addrSpaces[as] = &addrSpace{
	subnets: map[SubnetKey]*PoolData{},
	id: dsConfigKey + "/" + as,
	scope: scope,
	ds: ds,
	alloc: a,
	}
	a.Unlock()

	a.checkConsistency(as)

	return nil
	}

	// DiscoverNew informs the allocator about a new global scope datastore
	func (a *Allocator) DiscoverNew(dType discoverapi.DiscoveryType, data interface{}) error {
	if dType != discoverapi.DatastoreConfig {
	return nil
	}

	dsc, ok := data.(discoverapi.DatastoreConfigData)
	if !ok {
	return types.InternalErrorf("incorrect data in datastore update notification: %v", data)
	}

	ds, err := datastore.NewDataStoreFromConfig(dsc)
	if err != nil {
	return err
	}

	return a.initializeAddressSpace(globalAddressSpace, ds)
	}

	// DiscoverDelete is a notification of no interest for the allocator
	func (a *Allocator) DiscoverDelete(dType discoverapi.DiscoveryType, data interface{}) error {
	return nil
	}

	// GetDefaultAddressSpaces returns the local and global default address spaces
	func (a *Allocator) GetDefaultAddressSpaces() (string, string, error) {
	return localAddressSpace, globalAddressSpace, nil
	}

	// RequestPool returns an address pool along with its unique id.
	func (a Allocator) RequestPool(addressSpace, pool, subPool string, options map[string]string, v6 bool) (string, net.IPNet, map[string]string, error) {
	logrus.Debugf("RequestPool(%s, %s, %s, %v, %t)", addressSpace, pool, subPool, options, v6)

	k, nw, ipr, err := a.parsePoolRequest(addressSpace, pool, subPool, v6)
	if err != nil {
	return "", nil, nil, types.InternalErrorf("failed to parse pool request for address space %q pool %q subpool %q: %v", addressSpace, pool, subPool, err)
	}

	pdf := k == nil

	retry:
	if pdf {
	if nw, err = a.getPredefinedPool(addressSpace, v6); err != nil {
	return "", nil, nil, err
	}
	k = &SubnetKey{AddressSpace: addressSpace, Subnet: nw.String()}
	}

	if err := a.refresh(addressSpace); err != nil {
	return "", nil, nil, err
	}

	aSpace, err := a.getAddrSpace(addressSpace)
	if err != nil {
	return "", nil, nil, err
	}

	insert, err := aSpace.updatePoolDBOnAdd(*k, nw, ipr, pdf)
	if err != nil {
	if _, ok := err.(types.MaskableError); ok {
	logrus.Debugf("Retrying predefined pool search: %v", err)
	goto retry
	}
	return "", nil, nil, err
	}

	if err := a.writeToStore(aSpace); err != nil {
	if _, ok := err.(types.RetryError); !ok {
	return "", nil, nil, types.InternalErrorf("pool configuration failed because of %s", err.Error())
	}

	goto retry
	}

	return k.String(), nw, nil, insert()
	}

	// ReleasePool releases the address pool identified by the passed id
	func (a *Allocator) ReleasePool(poolID string) error {
	logrus.Debugf("ReleasePool(%s)", poolID)
	k := SubnetKey{}
	if err := k.FromString(poolID); err != nil {
	return types.BadRequestErrorf("invalid pool id: %s", poolID)
	}

	retry:
	if err := a.refresh(k.AddressSpace); err != nil {
	return err
	}

	aSpace, err := a.getAddrSpace(k.AddressSpace)
	if err != nil {
	return err
	}

	remove, err := aSpace.updatePoolDBOnRemoval(k)
	if err != nil {
	return err
	}

	if err = a.writeToStore(aSpace); err != nil {
	if _, ok := err.(types.RetryError); !ok {
	return types.InternalErrorf("pool (%s) removal failed because of %v", poolID, err)
	}
	goto retry
	}

	return remove()
	}

	// Given the address space, returns the local or global PoolConfig based on the
	// address space is local or global. AddressSpace locality is being registered with IPAM out of band.
	func (a Allocator) getAddrSpace(as string) (addrSpace, error) {
	a.Lock()
	defer a.Unlock()
	aSpace, ok := a.addrSpaces[as]
	if !ok {
	return nil, types.BadRequestErrorf("cannot find address space %s (most likely the backing datastore is not configured)", as)
	}
	return aSpace, nil
	}

	func (a Allocator) parsePoolRequest(addressSpace, pool, subPool string, v6 bool) (SubnetKey, net.IPNet, AddressRange, error) {
	var (
	nw *net.IPNet
	ipr *AddressRange
	err error
	)

	if addressSpace == "" {
	return nil, nil, nil, ipamapi.ErrInvalidAddressSpace
	}

	if pool == "" && subPool != "" {
	return nil, nil, nil, ipamapi.ErrInvalidSubPool
	}

	if pool == "" {
	return nil, nil, nil, nil
	}

	if _, nw, err = net.ParseCIDR(pool); err != nil {
	return nil, nil, nil, ipamapi.ErrInvalidPool
	}

	if subPool != "" {
	if ipr, err = getAddressRange(subPool, nw); err != nil {
	return nil, nil, nil, err
	}
	}

	return &SubnetKey{AddressSpace: addressSpace, Subnet: nw.String(), ChildSubnet: subPool}, nw, ipr, nil
	}

	func (a Allocator) insertBitMask(key SubnetKey, pool net.IPNet) error {
	//logrus.Debugf("Inserting bitmask (%s, %s)", key.String(), pool.String())

	store := a.getStore(key.AddressSpace)
	ipVer := getAddressVersion(pool.IP)
	ones, bits := pool.Mask.Size()
	numAddresses := uint64(1 << uint(bits-ones))

	// Allow /64 subnet
	if ipVer == v6 && numAddresses == 0 {
	numAddresses--
	}

	// Generate the new address masks. AddressMask content may come from datastore
	h, err := bitseq.NewHandle(dsDataKey, store, key.String(), numAddresses)
	if err != nil {
	return err
	}

	// Do not let network identifier address be reserved
	// Do the same for IPv6 so that bridge ip starts with XXXX...::1
	h.Set(0)

	// Do not let broadcast address be reserved
	if ipVer == v4 {
	h.Set(numAddresses - 1)
	}

	a.Lock()
	a.addresses[key] = h
	a.Unlock()
	return nil
	}

	func (a Allocator) retrieveBitmask(k SubnetKey, n net.IPNet) (*bitseq.Handle, error) {
	a.Lock()
	bm, ok := a.addresses[k]
	a.Unlock()
	if !ok {
	logrus.Debugf("Retrieving bitmask (%s, %s)", k.String(), n.String())
	if err := a.insertBitMask(k, n); err != nil {
	return nil, types.InternalErrorf("could not find bitmask in datastore for %s", k.String())
	}
	a.Lock()
	bm = a.addresses[k]
	a.Unlock()
	}
	return bm, nil
	}

	func (a Allocator) getPredefineds(as string) []net.IPNet {
	a.Lock()
	defer a.Unlock()
	l := make([]*net.IPNet, 0, len(a.predefined[as]))
	for _, pool := range a.predefined[as] {
	l = append(l, pool)
	}
	return l
	}

	func (a Allocator) getPredefinedPool(as string, ipV6 bool) (net.IPNet, error) {
	var v ipVersion
	v = v4
	if ipV6 {
	v = v6
	}

	if as != localAddressSpace && as != globalAddressSpace {
	return nil, types.NotImplementedErrorf("no default pool availbale for non-default addresss spaces")
	}

	aSpace, err := a.getAddrSpace(as)
	if err != nil {
	return nil, err
	}

	for _, nw := range a.getPredefineds(as) {
	if v != getAddressVersion(nw.IP) {
	continue
	}
	aSpace.Lock()
	if _, ok := aSpace.subnets[SubnetKey{AddressSpace: as, Subnet: nw.String()}]; ok {
	aSpace.Unlock()
	continue
	}
	if !aSpace.contains(as, nw) {
	aSpace.Unlock()
	return nw, nil
	}
	aSpace.Unlock()
	}

	return nil, types.NotFoundErrorf("could not find an available, non-overlapping IPv%d address pool among the defaults to assign to the network", v)
	}

	// RequestAddress returns an address from the specified pool ID
	func (a Allocator) RequestAddress(poolID string, prefAddress net.IP, opts map[string]string) (net.IPNet, map[string]string, error) {
	logrus.Debugf("RequestAddress(%s, %v, %v)", poolID, prefAddress, opts)
	k := SubnetKey{}
	if err := k.FromString(poolID); err != nil {
	return nil, nil, types.BadRequestErrorf("invalid pool id: %s", poolID)
	}

	if err := a.refresh(k.AddressSpace); err != nil {
	return nil, nil, err
	}

	aSpace, err := a.getAddrSpace(k.AddressSpace)
	if err != nil {
	return nil, nil, err
	}

	aSpace.Lock()
	p, ok := aSpace.subnets[k]
	if !ok {
	aSpace.Unlock()
	return nil, nil, types.NotFoundErrorf("cannot find address pool for poolID:%s", poolID)
	}

	if prefAddress != nil && !p.Pool.Contains(prefAddress) {
	aSpace.Unlock()
	return nil, nil, ipamapi.ErrIPOutOfRange
	}

	c := p
	for c.Range != nil {
	k = c.ParentKey
	c = aSpace.subnets[k]
	}
	aSpace.Unlock()

	bm, err := a.retrieveBitmask(k, c.Pool)
	if err != nil {
	return nil, nil, types.InternalErrorf("could not find bitmask in datastore for %s on address %v request from pool %s: %v",
	k.String(), prefAddress, poolID, err)
	}
	// In order to request for a serial ip address allocation, callers can pass in the option to request
	// IP allocation serially or first available IP in the subnet
	var serial bool
	if opts != nil {
	if val, ok := opts[ipamapi.AllocSerialPrefix]; ok {
	serial = (val == "true")
	}
	}
	ip, err := a.getAddress(p.Pool, bm, prefAddress, p.Range, serial)
	if err != nil {
	return nil, nil, err
	}

	return &net.IPNet{IP: ip, Mask: p.Pool.Mask}, nil, nil
	}

	// ReleaseAddress releases the address from the specified pool ID
	func (a *Allocator) ReleaseAddress(poolID string, address net.IP) error {
	logrus.Debugf("ReleaseAddress(%s, %v)", poolID, address)
	k := SubnetKey{}
	if err := k.FromString(poolID); err != nil {
	return types.BadRequestErrorf("invalid pool id: %s", poolID)
	}

	if err := a.refresh(k.AddressSpace); err != nil {
	return err
	}

	aSpace, err := a.getAddrSpace(k.AddressSpace)
	if err != nil {
	return err
	}

	aSpace.Lock()
	p, ok := aSpace.subnets[k]
	if !ok {
	aSpace.Unlock()
	return types.NotFoundErrorf("cannot find address pool for poolID:%s", poolID)
	}

	if address == nil {
	aSpace.Unlock()
	return types.BadRequestErrorf("invalid address: nil")
	}

	if !p.Pool.Contains(address) {
	aSpace.Unlock()
	return ipamapi.ErrIPOutOfRange
	}

	c := p
	for c.Range != nil {
	k = c.ParentKey
	c = aSpace.subnets[k]
	}
	aSpace.Unlock()

	mask := p.Pool.Mask

	h, err := types.GetHostPartIP(address, mask)
	if err != nil {
	return types.InternalErrorf("failed to release address %s: %v", address.String(), err)
	}

	bm, err := a.retrieveBitmask(k, c.Pool)
	if err != nil {
	return types.InternalErrorf("could not find bitmask in datastore for %s on address %v release from pool %s: %v",
	k.String(), address, poolID, err)
	}

	return bm.Unset(ipToUint64(h))
	}

	func (a Allocator) getAddress(nw net.IPNet, bitmask bitseq.Handle, prefAddress net.IP, ipr AddressRange, serial bool) (net.IP, error) {
	var (
	ordinal uint64
	err error
	base *net.IPNet
	)

	base = types.GetIPNetCopy(nw)

	if bitmask.Unselected() <= 0 {
	return nil, ipamapi.ErrNoAvailableIPs
	}
	if ipr == nil && prefAddress == nil {
	ordinal, err = bitmask.SetAny(serial)
	} else if prefAddress != nil {
	hostPart, e := types.GetHostPartIP(prefAddress, base.Mask)
	if e != nil {
	return nil, types.InternalErrorf("failed to allocate requested address %s: %v", prefAddress.String(), e)
	}
	ordinal = ipToUint64(types.GetMinimalIP(hostPart))
	err = bitmask.Set(ordinal)
	} else {
	ordinal, err = bitmask.SetAnyInRange(ipr.Start, ipr.End, serial)
	}

	switch err {
	case nil:
	// Convert IP ordinal for this subnet into IP address
	return generateAddress(ordinal, base), nil
	case bitseq.ErrBitAllocated:
	return nil, ipamapi.ErrIPAlreadyAllocated
	case bitseq.ErrNoBitAvailable:
	return nil, ipamapi.ErrNoAvailableIPs
	default:
	return nil, err
	}
	}

	// DumpDatabase dumps the internal info
	func (a *Allocator) DumpDatabase() string {
	a.Lock()
	aspaces := make(map[string]*addrSpace, len(a.addrSpaces))
	orderedAS := make([]string, 0, len(a.addrSpaces))
	for as, aSpace := range a.addrSpaces {
	orderedAS = append(orderedAS, as)
	aspaces[as] = aSpace
	}
	a.Unlock()

	sort.Strings(orderedAS)

	var s string
	for _, as := range orderedAS {
	aSpace := aspaces[as]
	s = fmt.Sprintf("\n\n%s Config", as)
	aSpace.Lock()
	for k, config := range aSpace.subnets {
	s += fmt.Sprintf("\n%v: %v", k, config)
	if config.Range == nil {
	a.retrieveBitmask(k, config.Pool)
	}
	}
	aSpace.Unlock()
	}

	s = fmt.Sprintf("%s\n\nBitmasks", s)
	for k, bm := range a.addresses {
	s += fmt.Sprintf("\n%s: %s", k, bm)
	}

	return s
	}

	// IsBuiltIn returns true for builtin drivers
	func (a *Allocator) IsBuiltIn() bool {
	return true
	}