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

 package ipam

 import (
 	"encoding/json"
 	"fmt"
 	"net"
 	"strings"
 	"sync"

 	"github.com/docker/libnetwork/datastore"
 	"github.com/docker/libnetwork/ipamapi"
 	"github.com/docker/libnetwork/types"
 )

 // SubnetKey is the pointer to the configured pools in each address space
 type SubnetKey struct {
 	AddressSpace string
 	Subnet       string
 	ChildSubnet  string
 }

 // PoolData contains the configured pool data
 type PoolData struct {
 	ParentKey SubnetKey
 	Pool      *net.IPNet
 	Range     *AddressRange `json:",omitempty"`
 	RefCount  int
 }

 // addrSpace contains the pool configurations for the address space
 type addrSpace struct {
 	subnets  map[SubnetKey]*PoolData
 	dbIndex  uint64
 	dbExists bool
 	id       string
 	scope    string
 	ds       datastore.DataStore
 	alloc    *Allocator
 	sync.Mutex
 }

 // AddressRange specifies first and last ip ordinal which
 // identifies a range in a pool of addresses
 type AddressRange struct {
 	Sub        *net.IPNet
 	Start, End uint64
 }

 // String returns the string form of the AddressRange object
 func (r *AddressRange) String() string {
 	return fmt.Sprintf("Sub: %s, range [%d, %d]", r.Sub, r.Start, r.End)
 }

 // MarshalJSON returns the JSON encoding of the Range object
 func (r *AddressRange) MarshalJSON() ([]byte, error) {
 	m := map[string]interface{}{
 		"Sub":   r.Sub.String(),
 		"Start": r.Start,
 		"End":   r.End,
 	}
 	return json.Marshal(m)
 }

 // UnmarshalJSON decodes data into the Range object
 func (r *AddressRange) UnmarshalJSON(data []byte) error {
 	m := map[string]interface{}{}
 	err := json.Unmarshal(data, &m)
 	if err != nil {
 		return err
 	}
 	if r.Sub, err = types.ParseCIDR(m["Sub"].(string)); err != nil {
 		return err
 	}
 	r.Start = uint64(m["Start"].(float64))
 	r.End = uint64(m["End"].(float64))
 	return nil
 }

 // String returns the string form of the SubnetKey object
 func (s *SubnetKey) String() string {
 	k := fmt.Sprintf("%s/%s", s.AddressSpace, s.Subnet)
 	if s.ChildSubnet != "" {
 		k = fmt.Sprintf("%s/%s", k, s.ChildSubnet)
 	}
 	return k
 }

 // FromString populates the SubnetKey object reading it from string
 func (s *SubnetKey) FromString(str string) error {
 	if str == "" || !strings.Contains(str, "/") {
 		return types.BadRequestErrorf("invalid string form for subnetkey: %s", str)
 	}

 	p := strings.Split(str, "/")
 	if len(p) != 3 && len(p) != 5 {
 		return types.BadRequestErrorf("invalid string form for subnetkey: %s", str)
 	}
 	s.AddressSpace = p[0]
 	s.Subnet = fmt.Sprintf("%s/%s", p[1], p[2])
 	if len(p) == 5 {
 		s.ChildSubnet = fmt.Sprintf("%s/%s", p[3], p[4])
 	}

 	return nil
 }

 // String returns the string form of the PoolData object
 func (p *PoolData) String() string {
 	return fmt.Sprintf("ParentKey: %s, Pool: %s, Range: %s, RefCount: %d",
 		p.ParentKey.String(), p.Pool.String(), p.Range, p.RefCount)
 }

 // MarshalJSON returns the JSON encoding of the PoolData object
 func (p *PoolData) MarshalJSON() ([]byte, error) {
 	m := map[string]interface{}{
 		"ParentKey": p.ParentKey,
 		"RefCount":  p.RefCount,
 	}
 	if p.Pool != nil {
 		m["Pool"] = p.Pool.String()
 	}
 	if p.Range != nil {
 		m["Range"] = p.Range
 	}
 	return json.Marshal(m)
 }

 // UnmarshalJSON decodes data into the PoolData object
 func (p *PoolData) UnmarshalJSON(data []byte) error {
 	var (
 		err error
 		t   struct {
 			ParentKey SubnetKey
 			Pool      string
 			Range     *AddressRange `json:",omitempty"`
 			RefCount  int
 		}
 	)

 	if err = json.Unmarshal(data, &t); err != nil {
 		return err
 	}

 	p.ParentKey = t.ParentKey
 	p.Range = t.Range
 	p.RefCount = t.RefCount
 	if t.Pool != "" {
 		if p.Pool, err = types.ParseCIDR(t.Pool); err != nil {
 			return err
 		}
 	}

 	return nil
 }

 // MarshalJSON returns the JSON encoding of the addrSpace object
 func (aSpace *addrSpace) MarshalJSON() ([]byte, error) {
 	aSpace.Lock()
 	defer aSpace.Unlock()

 	m := map[string]interface{}{
 		"Scope": string(aSpace.scope),
 	}

 	if aSpace.subnets != nil {
 		s := map[string]*PoolData{}
 		for k, v := range aSpace.subnets {
 			s[k.String()] = v
 		}
 		m["Subnets"] = s
 	}

 	return json.Marshal(m)
 }

 // UnmarshalJSON decodes data into the addrSpace object
 func (aSpace *addrSpace) UnmarshalJSON(data []byte) error {
 	aSpace.Lock()
 	defer aSpace.Unlock()

 	m := map[string]interface{}{}
 	err := json.Unmarshal(data, &m)
 	if err != nil {
 		return err
 	}

 	aSpace.scope = datastore.LocalScope
 	s := m["Scope"].(string)
 	if s == string(datastore.GlobalScope) {
 		aSpace.scope = datastore.GlobalScope
 	}

 	if v, ok := m["Subnets"]; ok {
 		sb, _ := json.Marshal(v)
 		var s map[string]*PoolData
 		err := json.Unmarshal(sb, &s)
 		if err != nil {
 			return err
 		}
 		for ks, v := range s {
 			k := SubnetKey{}
 			k.FromString(ks)
 			aSpace.subnets[k] = v
 		}
 	}

 	return nil
 }

 // CopyTo deep copies the pool data to the destination pooldata
 func (p *PoolData) CopyTo(dstP *PoolData) error {
 	dstP.ParentKey = p.ParentKey
 	dstP.Pool = types.GetIPNetCopy(p.Pool)

 	if p.Range != nil {
 		dstP.Range = &AddressRange{}
 		dstP.Range.Sub = types.GetIPNetCopy(p.Range.Sub)
 		dstP.Range.Start = p.Range.Start
 		dstP.Range.End = p.Range.End
 	}

 	dstP.RefCount = p.RefCount
 	return nil
 }

 func (aSpace *addrSpace) CopyTo(o datastore.KVObject) error {
 	aSpace.Lock()
 	defer aSpace.Unlock()

 	dstAspace := o.(*addrSpace)

 	dstAspace.id = aSpace.id
 	dstAspace.ds = aSpace.ds
 	dstAspace.alloc = aSpace.alloc
 	dstAspace.scope = aSpace.scope
 	dstAspace.dbIndex = aSpace.dbIndex
 	dstAspace.dbExists = aSpace.dbExists

 	dstAspace.subnets = make(map[SubnetKey]*PoolData)
 	for k, v := range aSpace.subnets {
 		dstAspace.subnets[k] = &PoolData{}
 		v.CopyTo(dstAspace.subnets[k])
 	}

 	return nil
 }

 func (aSpace *addrSpace) New() datastore.KVObject {
 	aSpace.Lock()
 	defer aSpace.Unlock()

 	return &addrSpace{
 		id:    aSpace.id,
 		ds:    aSpace.ds,
 		alloc: aSpace.alloc,
 		scope: aSpace.scope,
 	}
 }

 func (aSpace *addrSpace) updatePoolDBOnAdd(k SubnetKey, nw *net.IPNet, ipr *AddressRange, pdf bool) (func() error, error) {
 	aSpace.Lock()
 	defer aSpace.Unlock()

 	// Check if already allocated
 	if _, ok := aSpace.subnets[k]; ok {
 		if pdf {
 			return nil, types.InternalMaskableErrorf("predefined pool %s is already reserved", nw)
 		}
 		// This means the same pool is already allocated. updatePoolDBOnAdd is called when there
 		// is request for a pool/subpool. It should ensure there is no overlap with existing pools
 		return nil, ipamapi.ErrPoolOverlap
 	}

 	// If master pool, check for overlap
 	if ipr == nil {
 		if aSpace.contains(k.AddressSpace, nw) {
 			return nil, ipamapi.ErrPoolOverlap
 		}
 		// This is a new master pool, add it along with corresponding bitmask
 		aSpace.subnets[k] = &PoolData{Pool: nw, RefCount: 1}
 		return func() error { return aSpace.alloc.insertBitMask(k, nw) }, nil
 	}

 	// This is a new non-master pool
 	p := &PoolData{
 		ParentKey: SubnetKey{AddressSpace: k.AddressSpace, Subnet: k.Subnet},
 		Pool:      nw,
 		Range:     ipr,
 		RefCount:  1,
 	}
 	aSpace.subnets[k] = p

 	// Look for parent pool
 	pp, ok := aSpace.subnets[p.ParentKey]
 	if ok {
 		aSpace.incRefCount(pp, 1)
 		return func() error { return nil }, nil
 	}

 	// Parent pool does not exist, add it along with corresponding bitmask
 	aSpace.subnets[p.ParentKey] = &PoolData{Pool: nw, RefCount: 1}
 	return func() error { return aSpace.alloc.insertBitMask(p.ParentKey, nw) }, nil
 }

 func (aSpace *addrSpace) updatePoolDBOnRemoval(k SubnetKey) (func() error, error) {
 	aSpace.Lock()
 	defer aSpace.Unlock()

 	p, ok := aSpace.subnets[k]
 	if !ok {
 		return nil, ipamapi.ErrBadPool
 	}

 	aSpace.incRefCount(p, -1)

 	c := p
 	for ok {
 		if c.RefCount == 0 {
 			delete(aSpace.subnets, k)
 			if c.Range == nil {
 				return func() error {
 					bm, err := aSpace.alloc.retrieveBitmask(k, c.Pool)
 					if err != nil {
 						return types.InternalErrorf("could not find bitmask in datastore for pool %s removal: %v", k.String(), err)
 					}
 					return bm.Destroy()
 				}, nil
 			}
 		}
 		k = c.ParentKey
 		c, ok = aSpace.subnets[k]
 	}

 	return func() error { return nil }, nil
 }

 func (aSpace *addrSpace) incRefCount(p *PoolData, delta int) {
 	c := p
 	ok := true
 	for ok {
 		c.RefCount += delta
 		c, ok = aSpace.subnets[c.ParentKey]
 	}
 }

 // Checks whether the passed subnet is a superset or subset of any of the subset in this config db
 func (aSpace *addrSpace) contains(space string, nw *net.IPNet) bool {
 	for k, v := range aSpace.subnets {
 		if space == k.AddressSpace && k.ChildSubnet == "" {
 			if nw.Contains(v.Pool.IP) || v.Pool.Contains(nw.IP) {
 				return true
 			}
 		}
 	}
 	return false
 }

 func (aSpace *addrSpace) store() datastore.DataStore {
 	aSpace.Lock()
 	defer aSpace.Unlock()

 	return aSpace.ds
 }
	package ipam

	import (
	"encoding/json"
	"fmt"
	"net"
	"strings"
	"sync"

	"github.com/docker/libnetwork/datastore"
	"github.com/docker/libnetwork/ipamapi"
	"github.com/docker/libnetwork/types"
	)

	// SubnetKey is the pointer to the configured pools in each address space
	type SubnetKey struct {
	AddressSpace string
	Subnet string
	ChildSubnet string
	}

	// PoolData contains the configured pool data
	type PoolData struct {
	ParentKey SubnetKey
	Pool *net.IPNet
	Range *AddressRange `json:",omitempty"`
	RefCount int
	}

	// addrSpace contains the pool configurations for the address space
	type addrSpace struct {
	subnets map[SubnetKey]*PoolData
	dbIndex uint64
	dbExists bool
	id string
	scope string
	ds datastore.DataStore
	alloc *Allocator
	sync.Mutex
	}

	// AddressRange specifies first and last ip ordinal which
	// identifies a range in a pool of addresses
	type AddressRange struct {
	Sub *net.IPNet
	Start, End uint64
	}

	// String returns the string form of the AddressRange object
	func (r *AddressRange) String() string {
	return fmt.Sprintf("Sub: %s, range [%d, %d]", r.Sub, r.Start, r.End)
	}

	// MarshalJSON returns the JSON encoding of the Range object
	func (r *AddressRange) MarshalJSON() ([]byte, error) {
	m := map[string]interface{}{
	"Sub": r.Sub.String(),
	"Start": r.Start,
	"End": r.End,
	}
	return json.Marshal(m)
	}

	// UnmarshalJSON decodes data into the Range object
	func (r *AddressRange) UnmarshalJSON(data []byte) error {
	m := map[string]interface{}{}
	err := json.Unmarshal(data, &m)
	if err != nil {
	return err
	}
	if r.Sub, err = types.ParseCIDR(m["Sub"].(string)); err != nil {
	return err
	}
	r.Start = uint64(m["Start"].(float64))
	r.End = uint64(m["End"].(float64))
	return nil
	}

	// String returns the string form of the SubnetKey object
	func (s *SubnetKey) String() string {
	k := fmt.Sprintf("%s/%s", s.AddressSpace, s.Subnet)
	if s.ChildSubnet != "" {
	k = fmt.Sprintf("%s/%s", k, s.ChildSubnet)
	}
	return k
	}

	// FromString populates the SubnetKey object reading it from string
	func (s *SubnetKey) FromString(str string) error {
	if str == "" \|\| !strings.Contains(str, "/") {
	return types.BadRequestErrorf("invalid string form for subnetkey: %s", str)
	}

	p := strings.Split(str, "/")
	if len(p) != 3 && len(p) != 5 {
	return types.BadRequestErrorf("invalid string form for subnetkey: %s", str)
	}
	s.AddressSpace = p[0]
	s.Subnet = fmt.Sprintf("%s/%s", p[1], p[2])
	if len(p) == 5 {
	s.ChildSubnet = fmt.Sprintf("%s/%s", p[3], p[4])
	}

	return nil
	}

	// String returns the string form of the PoolData object
	func (p *PoolData) String() string {
	return fmt.Sprintf("ParentKey: %s, Pool: %s, Range: %s, RefCount: %d",
	p.ParentKey.String(), p.Pool.String(), p.Range, p.RefCount)
	}

	// MarshalJSON returns the JSON encoding of the PoolData object
	func (p *PoolData) MarshalJSON() ([]byte, error) {
	m := map[string]interface{}{
	"ParentKey": p.ParentKey,
	"RefCount": p.RefCount,
	}
	if p.Pool != nil {
	m["Pool"] = p.Pool.String()
	}
	if p.Range != nil {
	m["Range"] = p.Range
	}
	return json.Marshal(m)
	}

	// UnmarshalJSON decodes data into the PoolData object
	func (p *PoolData) UnmarshalJSON(data []byte) error {
	var (
	err error
	t struct {
	ParentKey SubnetKey
	Pool string
	Range *AddressRange `json:",omitempty"`
	RefCount int
	}
	)

	if err = json.Unmarshal(data, &t); err != nil {
	return err
	}

	p.ParentKey = t.ParentKey
	p.Range = t.Range
	p.RefCount = t.RefCount
	if t.Pool != "" {
	if p.Pool, err = types.ParseCIDR(t.Pool); err != nil {
	return err
	}
	}

	return nil
	}

	// MarshalJSON returns the JSON encoding of the addrSpace object
	func (aSpace *addrSpace) MarshalJSON() ([]byte, error) {
	aSpace.Lock()
	defer aSpace.Unlock()

	m := map[string]interface{}{
	"Scope": string(aSpace.scope),
	}

	if aSpace.subnets != nil {
	s := map[string]*PoolData{}
	for k, v := range aSpace.subnets {
	s[k.String()] = v
	}
	m["Subnets"] = s
	}

	return json.Marshal(m)
	}

	// UnmarshalJSON decodes data into the addrSpace object
	func (aSpace *addrSpace) UnmarshalJSON(data []byte) error {
	aSpace.Lock()
	defer aSpace.Unlock()

	m := map[string]interface{}{}
	err := json.Unmarshal(data, &m)
	if err != nil {
	return err
	}

	aSpace.scope = datastore.LocalScope
	s := m["Scope"].(string)
	if s == string(datastore.GlobalScope) {
	aSpace.scope = datastore.GlobalScope
	}

	if v, ok := m["Subnets"]; ok {
	sb, _ := json.Marshal(v)
	var s map[string]*PoolData
	err := json.Unmarshal(sb, &s)
	if err != nil {
	return err
	}
	for ks, v := range s {
	k := SubnetKey{}
	k.FromString(ks)
	aSpace.subnets[k] = v
	}
	}

	return nil
	}

	// CopyTo deep copies the pool data to the destination pooldata
	func (p PoolData) CopyTo(dstP PoolData) error {
	dstP.ParentKey = p.ParentKey
	dstP.Pool = types.GetIPNetCopy(p.Pool)

	if p.Range != nil {
	dstP.Range = &AddressRange{}
	dstP.Range.Sub = types.GetIPNetCopy(p.Range.Sub)
	dstP.Range.Start = p.Range.Start
	dstP.Range.End = p.Range.End
	}

	dstP.RefCount = p.RefCount
	return nil
	}

	func (aSpace *addrSpace) CopyTo(o datastore.KVObject) error {
	aSpace.Lock()
	defer aSpace.Unlock()

	dstAspace := o.(*addrSpace)

	dstAspace.id = aSpace.id
	dstAspace.ds = aSpace.ds
	dstAspace.alloc = aSpace.alloc
	dstAspace.scope = aSpace.scope
	dstAspace.dbIndex = aSpace.dbIndex
	dstAspace.dbExists = aSpace.dbExists

	dstAspace.subnets = make(map[SubnetKey]*PoolData)
	for k, v := range aSpace.subnets {
	dstAspace.subnets[k] = &PoolData{}
	v.CopyTo(dstAspace.subnets[k])
	}

	return nil
	}

	func (aSpace *addrSpace) New() datastore.KVObject {
	aSpace.Lock()
	defer aSpace.Unlock()

	return &addrSpace{
	id: aSpace.id,
	ds: aSpace.ds,
	alloc: aSpace.alloc,
	scope: aSpace.scope,
	}
	}

	func (aSpace addrSpace) updatePoolDBOnAdd(k SubnetKey, nw net.IPNet, ipr *AddressRange, pdf bool) (func() error, error) {
	aSpace.Lock()
	defer aSpace.Unlock()

	// Check if already allocated
	if _, ok := aSpace.subnets[k]; ok {
	if pdf {
	return nil, types.InternalMaskableErrorf("predefined pool %s is already reserved", nw)
	}
	// This means the same pool is already allocated. updatePoolDBOnAdd is called when there
	// is request for a pool/subpool. It should ensure there is no overlap with existing pools
	return nil, ipamapi.ErrPoolOverlap
	}

	// If master pool, check for overlap
	if ipr == nil {
	if aSpace.contains(k.AddressSpace, nw) {
	return nil, ipamapi.ErrPoolOverlap
	}
	// This is a new master pool, add it along with corresponding bitmask
	aSpace.subnets[k] = &PoolData{Pool: nw, RefCount: 1}
	return func() error { return aSpace.alloc.insertBitMask(k, nw) }, nil
	}

	// This is a new non-master pool
	p := &PoolData{
	ParentKey: SubnetKey{AddressSpace: k.AddressSpace, Subnet: k.Subnet},
	Pool: nw,
	Range: ipr,
	RefCount: 1,
	}
	aSpace.subnets[k] = p

	// Look for parent pool
	pp, ok := aSpace.subnets[p.ParentKey]
	if ok {
	aSpace.incRefCount(pp, 1)
	return func() error { return nil }, nil
	}

	// Parent pool does not exist, add it along with corresponding bitmask
	aSpace.subnets[p.ParentKey] = &PoolData{Pool: nw, RefCount: 1}
	return func() error { return aSpace.alloc.insertBitMask(p.ParentKey, nw) }, nil
	}

	func (aSpace *addrSpace) updatePoolDBOnRemoval(k SubnetKey) (func() error, error) {
	aSpace.Lock()
	defer aSpace.Unlock()

	p, ok := aSpace.subnets[k]
	if !ok {
	return nil, ipamapi.ErrBadPool
	}

	aSpace.incRefCount(p, -1)

	c := p
	for ok {
	if c.RefCount == 0 {
	delete(aSpace.subnets, k)
	if c.Range == nil {
	return func() error {
	bm, err := aSpace.alloc.retrieveBitmask(k, c.Pool)
	if err != nil {
	return types.InternalErrorf("could not find bitmask in datastore for pool %s removal: %v", k.String(), err)
	}
	return bm.Destroy()
	}, nil
	}
	}
	k = c.ParentKey
	c, ok = aSpace.subnets[k]
	}

	return func() error { return nil }, nil
	}

	func (aSpace addrSpace) incRefCount(p PoolData, delta int) {
	c := p
	ok := true
	for ok {
	c.RefCount += delta
	c, ok = aSpace.subnets[c.ParentKey]
	}
	}

	// Checks whether the passed subnet is a superset or subset of any of the subset in this config db
	func (aSpace addrSpace) contains(space string, nw net.IPNet) bool {
	for k, v := range aSpace.subnets {
	if space == k.AddressSpace && k.ChildSubnet == "" {
	if nw.Contains(v.Pool.IP) \|\| v.Pool.Contains(nw.IP) {
	return true
	}
	}
	}
	return false
	}

	func (aSpace *addrSpace) store() datastore.DataStore {
	aSpace.Lock()
	defer aSpace.Unlock()

	return aSpace.ds
	}