579 строки
13 KiB
Go
579 строки
13 KiB
Go
// Copyright 2017 Microsoft. All rights reserved.
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// MIT License
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package ipam
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import (
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"fmt"
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"net"
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"strings"
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"github.com/Azure/azure-container-networking/log"
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"github.com/Azure/azure-container-networking/platform"
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)
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const (
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// Default address space IDs.
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LocalDefaultAddressSpaceId = "local"
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GlobalDefaultAddressSpaceId = "global"
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)
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const (
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// Address space scopes.
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LocalScope = iota
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GlobalScope
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)
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var (
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// Azure VNET well-known host IDs.
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defaultGatewayHostId = net.ParseIP("::1")
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dnsPrimaryHostId = net.ParseIP("::2")
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dnsSecondaryHostId = net.ParseIP("::3")
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// Azure DNS host proxy well-known address.
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dnsHostProxyAddress = net.ParseIP("168.63.129.16")
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)
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// Represents the key to an address pool.
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type addressPoolId struct {
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AsId string
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Subnet string
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ChildSubnet string
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}
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// Represents a set of non-overlapping address pools.
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type addressSpace struct {
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Id string
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Scope int
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Pools map[string]*addressPool
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epoch int
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}
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// Represents a subnet and the set of addresses in it.
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type addressPool struct {
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as *addressSpace
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Id string
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IfName string
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Subnet net.IPNet
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Gateway net.IP
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Addresses map[string]*addressRecord
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addrsByID map[string]*addressRecord
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IsIPv6 bool
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Priority int
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RefCount int
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epoch int
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}
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// AddressPoolInfo contains information about an address pool.
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type AddressPoolInfo struct {
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Subnet net.IPNet
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Gateway net.IP
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DnsServers []net.IP
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UnhealthyAddrs []net.IP
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IsIPv6 bool
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Available int
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Capacity int
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}
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// Represents an IP address in a pool.
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type addressRecord struct {
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ID string
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Addr net.IP
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InUse bool
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unhealthy bool
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epoch int
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}
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//
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// AddressPoolId
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//
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// Creates a new address pool ID object.
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func NewAddressPoolId(asId string, subnet string, childSubnet string) *addressPoolId {
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return &addressPoolId{
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AsId: asId,
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Subnet: subnet,
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ChildSubnet: childSubnet,
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}
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}
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// Creates a new pool ID from a string representation.
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func NewAddressPoolIdFromString(s string) (*addressPoolId, error) {
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var pid addressPoolId
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p := strings.Split(s, "|")
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if len(p) > 3 {
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return nil, errInvalidPoolId
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}
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pid.AsId = p[0]
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if len(p) >= 2 {
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pid.Subnet = p[1]
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}
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if len(p) == 3 {
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pid.ChildSubnet = p[2]
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}
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return &pid, nil
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}
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// Returns the string representation of a pool ID.
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func (pid *addressPoolId) String() string {
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s := fmt.Sprintf("%s|%s", pid.AsId, pid.Subnet)
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if pid.ChildSubnet != "" {
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s = fmt.Sprintf("%s|%s", s, pid.ChildSubnet)
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}
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return s
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}
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//
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// AddressSpace
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//
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// Creates a new addressSpace object.
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func (am *addressManager) newAddressSpace(id string, scope int) (*addressSpace, error) {
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if scope != LocalScope && scope != GlobalScope {
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return nil, errInvalidScope
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}
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return &addressSpace{
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Id: id,
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Scope: scope,
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Pools: make(map[string]*addressPool),
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}, nil
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}
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// Returns the address space with the given ID.
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func (am *addressManager) getAddressSpace(id string) (*addressSpace, error) {
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as := am.AddrSpaces[id]
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if as == nil {
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return nil, errInvalidAddressSpace
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}
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return as, nil
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}
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// Sets a new or updates an existing address space.
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func (am *addressManager) setAddressSpace(as *addressSpace) error {
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as1, ok := am.AddrSpaces[as.Id]
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if !ok {
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am.AddrSpaces[as.Id] = as
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} else {
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// merges the address set refreshed from the source
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// and the ones we have currently in this address space
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log.Printf("[ipam] merging address space")
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as1.merge(as)
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}
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// Notify NetPlugin of external interfaces.
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if am.netApi != nil {
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for _, ap := range as.Pools {
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am.netApi.AddExternalInterface(ap.IfName, ap.Subnet.String())
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}
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}
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am.save()
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return nil
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}
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// Merges a new address space to an existing one.
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func (as *addressSpace) merge(newas *addressSpace) {
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// The new epoch after the merge.
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// epoch is essentially the count of invocations
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// used to ensure if certain addresses refreshed from the source
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// are still relevant
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as.epoch++
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// Add new pools and addresses.
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for pk, pv := range newas.Pools {
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ap := as.Pools[pk]
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if ap == nil {
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// This is a new address pool.
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// Merge it to the existing address space.
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as.Pools[pk] = pv
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pv.as = as
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pv.epoch = as.epoch
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} else {
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// This pool already exists.
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// Compare address records one by one.
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for ak, av := range pv.Addresses {
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ar := ap.Addresses[ak]
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if ar == nil {
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// This is a new address record.
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// Merge it to the existing address pool.
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ap.Addresses[ak] = av
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av.epoch = as.epoch
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} else {
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// This address record already exists.
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ar.epoch = as.epoch
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ar.unhealthy = false
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}
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delete(pv.Addresses, ak)
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}
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pv.as = nil
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}
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delete(newas.Pools, pk)
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}
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// Cleanup stale pools and addresses from the old epoch.
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// Those currently in use will be deleted after they are released.
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for pk, pv := range as.Pools {
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if pv.epoch < as.epoch {
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// This pool may have stale addresses.
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for ak, av := range pv.Addresses {
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if av.epoch == as.epoch {
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// Pool has at least one valid or in-use address.
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pv.epoch = as.epoch
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} else if av.InUse {
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// Address is no longer valid, but still in use.
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pv.epoch = as.epoch
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av.unhealthy = true
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} else {
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// This address is no longer available.
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delete(pv.Addresses, ak)
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}
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}
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// Delete the pool if it has no addresses left.
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if pv.epoch < as.epoch && !pv.isInUse() {
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pv.as = nil
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delete(as.Pools, pk)
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}
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}
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}
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}
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// Creates a new addressPool object.
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func (as *addressSpace) newAddressPool(ifName string, priority int, subnet *net.IPNet) (*addressPool, error) {
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id := subnet.String()
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pool, ok := as.Pools[id]
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if ok {
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return pool, errAddressPoolExists
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}
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v6 := (subnet.IP.To4() == nil)
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pool = &addressPool{
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as: as,
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Id: id,
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IfName: ifName,
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Subnet: *subnet,
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Gateway: platform.GenerateAddress(subnet, defaultGatewayHostId),
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Addresses: make(map[string]*addressRecord),
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addrsByID: make(map[string]*addressRecord),
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IsIPv6: v6,
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Priority: priority,
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epoch: as.epoch,
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}
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as.Pools[id] = pool
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return pool, nil
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}
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// Returns the address pool with the given pool ID.
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func (as *addressSpace) getAddressPool(poolId string) (*addressPool, error) {
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ap := as.Pools[poolId]
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if ap == nil {
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return nil, fmt.Errorf("Pool id %v not found :%v", poolId, errInvalidPoolId)
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}
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return ap, nil
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}
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// Requests a new address pool from the address space.
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func (as *addressSpace) requestPool(poolId string, subPoolId string, options map[string]string, v6 bool) (*addressPool, error) {
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var ap *addressPool
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var err error
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log.Printf("[ipam] Requesting pool with poolId:%v options:%+v v6:%v.", poolId, options, v6)
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if poolId != "" {
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// Return the specific address pool requested.
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// Note sharing of pools is allowed when specifically requested.
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ap = as.Pools[poolId]
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if ap == nil {
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err = errAddressPoolNotFound
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}
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} else {
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// Return any available address pool.
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ifName := options[OptInterfaceName]
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for _, pool := range as.Pools {
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log.Printf("[ipam] Checking pool %v.", pool.Id)
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// Skip if pool is already in use.
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if pool.isInUse() {
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log.Printf("[ipam] Pool %s is in use.", pool.Id)
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// in case the pool is actually not in use,
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// attempt to release it
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as.releasePool(pool.Id)
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if pool.isInUse() {
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continue
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}
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}
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// Pick a pool from the same address family.
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if pool.IsIPv6 != v6 {
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log.Printf("[ipam] Pool is of a different address family.")
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continue
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}
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// Skip if pool is not on the requested interface.
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if ifName != "" && ifName != pool.IfName {
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log.Printf("[ipam] Pool is not on the requested interface.")
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continue
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}
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log.Printf("[ipam] Pool %v matches requirements.", pool.Id)
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if ap == nil {
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ap = pool
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continue
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}
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// Prefer the pool with the highest priority.
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if pool.Priority > ap.Priority {
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log.Printf("[ipam] Pool is preferred because of priority.")
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ap = pool
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}
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// Prefer the pool with the highest number of addresses.
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if len(pool.Addresses) > len(ap.Addresses) {
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log.Printf("[ipam] Pool is preferred because of capacity.")
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ap = pool
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}
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}
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if ap == nil {
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err = errNoAvailableAddressPools
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}
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}
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if ap != nil && ap.RefCount == 0 {
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ap.RefCount = 1
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}
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log.Printf("[ipam] Pool request completed with pool:%+v err:%v.", ap, err)
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return ap, err
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}
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// Releases a previously requested address pool back to its address space.
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func (as *addressSpace) releasePool(poolId string) error {
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var addressesInUse bool
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ap, ok := as.Pools[poolId]
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if !ok {
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return errAddressPoolNotFound
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}
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if addressesInUse = ap.IsAnyRecordInUse(); addressesInUse {
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log.Printf("[ipam] Skip releasing pool with poolId:%s. due to address being in use",
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poolId)
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} else {
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log.Printf("[ipam] Releasing pool %s as there are no allocations", poolId)
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ap.RefCount = 0
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}
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return nil
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}
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//
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// AddressPool
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//
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// Returns address pool information.
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func (ap *addressPool) getInfo() *AddressPoolInfo {
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var available int
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var unhealthyAddrs []net.IP
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for _, ar := range ap.Addresses {
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if !ar.InUse {
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available++
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}
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if ar.unhealthy {
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unhealthyAddrs = append(unhealthyAddrs, ar.Addr)
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}
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}
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info := &AddressPoolInfo{
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Subnet: ap.Subnet,
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Gateway: ap.Gateway,
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DnsServers: []net.IP{dnsHostProxyAddress},
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UnhealthyAddrs: unhealthyAddrs,
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IsIPv6: ap.IsIPv6,
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Available: available,
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Capacity: len(ap.Addresses),
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}
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return info
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}
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// Returns if an address pool is currently in use.
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func (ap *addressPool) isInUse() bool {
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return ap.RefCount > 0
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}
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// Returns if any address in the pool is currently in use.
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func (ap *addressPool) IsAnyRecordInUse() bool {
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for _, address := range ap.Addresses {
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if address.InUse || address.ID != "" {
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return true
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}
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}
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return false
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}
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// Creates a new addressRecord object.
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func (ap *addressPool) newAddressRecord(addr *net.IP) (*addressRecord, error) {
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id := addr.String()
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if !ap.Subnet.Contains(*addr) {
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return nil, errInvalidAddress
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}
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ar, ok := ap.Addresses[id]
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if ok {
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return ar, errAddressExists
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}
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ar = &addressRecord{
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Addr: *addr,
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epoch: ap.epoch,
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}
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ap.Addresses[id] = ar
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return ar, nil
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}
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// Requests a new address from the address pool.
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func (ap *addressPool) requestAddress(address string, options map[string]string) (string, error) {
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var ar *addressRecord
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var addr *net.IPNet
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id := options[OptAddressID]
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log.Printf("[ipam] Requesting address with address:%v options:%+v.", address, options)
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if address != "" {
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// Return the specific address requested.
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ar = ap.Addresses[address]
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if ar == nil {
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log.Printf("[ipam] Address request failed with %v", errAddressNotFound)
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return "", errAddressNotFound
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}
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if ar.InUse {
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// Return the same address if IDs match.
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if id == "" || id != ar.ID {
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log.Printf("[ipam] Address request failed with %v", errAddressInUse)
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return "", errAddressInUse
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}
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}
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} else if options[OptAddressType] == OptAddressTypeGateway {
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// Return the pre-assigned gateway address.
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ar = &addressRecord{
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Addr: ap.Gateway,
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}
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id = ""
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} else if id != "" {
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// Return the address with the matching identifier.
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ar = ap.addrsByID[id]
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}
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// If no address was found, return any available address.
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if ar == nil {
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for _, ar = range ap.Addresses {
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if !ar.InUse && ar.ID == "" {
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break
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}
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ar = nil
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}
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if ar == nil {
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log.Printf("[ipam] Address request failed with %v", errNoAvailableAddresses)
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return "", errNoAvailableAddresses
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}
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}
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if id != "" {
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ap.addrsByID[id] = ar
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ar.ID = id
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}
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ar.InUse = true
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// Return address in CIDR notation.
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addr = &net.IPNet{
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IP: ar.Addr,
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Mask: ap.Subnet.Mask,
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}
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log.Printf("[ipam] Address request completed with address:%v", addr)
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return addr.String(), nil
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}
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// Releases a previously requested address back to its address pool.
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func (ap *addressPool) releaseAddress(address string, options map[string]string) error {
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var ar *addressRecord
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var id string
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var err error
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log.Printf("[ipam] Releasing address with address:%v options:%+v.", address, options)
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defer func() { log.Printf("[ipam] Address release completed with address:%v err:%v.", address, err) }()
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if options != nil {
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id = options[OptAddressID]
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}
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if address != "" {
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// Release the specific address.
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ar = ap.Addresses[address]
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// Release the pre-assigned gateway address.
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if ar == nil && address == ap.Gateway.String() {
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return nil
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}
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} else if id != "" {
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// Release the address with the matching ID.
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ar = ap.addrsByID[id]
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if ar != nil {
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address = ar.Addr.String()
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}
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}
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// Fail if an address record with a matching ID is not found.
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if ar == nil || (id != "" && id != ar.ID) {
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log.Printf("Address not found. Not Returning error")
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return nil
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}
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if !ar.InUse {
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log.Printf("Address not in use. Not Returning error")
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return nil
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}
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ar.InUse = false
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if id != "" && ar.ID == id {
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delete(ap.addrsByID, ar.ID)
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ar.ID = ""
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}
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// Delete address record if it is no longer available.
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if ar.epoch < ap.as.epoch {
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log.Printf("Deleting Address record from address pool as metadata doesn't have this address")
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delete(ap.Addresses, address)
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}
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return nil
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}
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