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cidr_set.go 7.68 KB
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/*
Copyright 2016 The Kubernetes Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package cidrset
import (
"encoding/binary"
"errors"
"fmt"
"math/big"
"math/bits"
"net"
"sync"
)
// CidrSet manages a set of CIDR ranges from which blocks of IPs can
// be allocated from.
type CidrSet struct {
sync.Mutex
clusterCIDR *net.IPNet
clusterIP net.IP
clusterMaskSize int
maxCIDRs int
nextCandidate int
used big.Int
subNetMaskSize int
}
const (
// The subnet mask size cannot be greater than 16 more than the cluster mask size
// TODO: https://github.com/kubernetes/kubernetes/issues/44918
// clusterSubnetMaxDiff limited to 16 due to the uncompressed bitmap
clusterSubnetMaxDiff = 16
// halfIPv6Len is the half of the IPv6 length
halfIPv6Len = net.IPv6len / 2
)
var (
// ErrCIDRRangeNoCIDRsRemaining occurs when there is no more space
// to allocate CIDR ranges.
ErrCIDRRangeNoCIDRsRemaining = errors.New(
"CIDR allocation failed; there are no remaining CIDRs left to allocate in the accepted range")
// ErrCIDRSetSubNetTooBig occurs when the subnet mask size is too
// big compared to the CIDR mask size.
ErrCIDRSetSubNetTooBig = errors.New(
"New CIDR set failed; the node CIDR size is too big")
)
// NewCIDRSet creates a new CidrSet.
func NewCIDRSet(clusterCIDR *net.IPNet, subNetMaskSize int) (*CidrSet, error) {
clusterMask := clusterCIDR.Mask
clusterMaskSize, _ := clusterMask.Size()
var maxCIDRs int
if (clusterCIDR.IP.To4() == nil) && (subNetMaskSize-clusterMaskSize > clusterSubnetMaxDiff) {
return nil, ErrCIDRSetSubNetTooBig
}
maxCIDRs = 1 << uint32(subNetMaskSize-clusterMaskSize)
return &CidrSet{
clusterCIDR: clusterCIDR,
clusterIP: clusterCIDR.IP,
clusterMaskSize: clusterMaskSize,
maxCIDRs: maxCIDRs,
subNetMaskSize: subNetMaskSize,
}, nil
}
func (s *CidrSet) indexToCIDRBlock(index int) *net.IPNet {
var ip []byte
var mask int
switch /*v4 or v6*/ {
case s.clusterIP.To4() != nil:
{
j := uint32(index) << uint32(32-s.subNetMaskSize)
ipInt := (binary.BigEndian.Uint32(s.clusterIP)) | j
ip = make([]byte, 4)
binary.BigEndian.PutUint32(ip, ipInt)
mask = 32
}
case s.clusterIP.To16() != nil:
{
// leftClusterIP | rightClusterIP
// 2001:0DB8:1234:0000:0000:0000:0000:0000
const v6NBits = 128
const halfV6NBits = v6NBits / 2
leftClusterIP := binary.BigEndian.Uint64(s.clusterIP[:halfIPv6Len])
rightClusterIP := binary.BigEndian.Uint64(s.clusterIP[halfIPv6Len:])
leftIP, rightIP := make([]byte, halfIPv6Len), make([]byte, halfIPv6Len)
if s.subNetMaskSize <= halfV6NBits {
// We only care about left side IP
leftClusterIP |= uint64(index) << uint(halfV6NBits-s.subNetMaskSize)
} else {
if s.clusterMaskSize < halfV6NBits {
// see how many bits are needed to reach the left side
btl := uint(s.subNetMaskSize - halfV6NBits)
indexMaxBit := uint(64 - bits.LeadingZeros64(uint64(index)))
if indexMaxBit > btl {
leftClusterIP |= uint64(index) >> btl
}
}
// the right side will be calculated the same way either the
// subNetMaskSize affects both left and right sides
rightClusterIP |= uint64(index) << uint(v6NBits-s.subNetMaskSize)
}
binary.BigEndian.PutUint64(leftIP, leftClusterIP)
binary.BigEndian.PutUint64(rightIP, rightClusterIP)
ip = append(leftIP, rightIP...)
mask = 128
}
}
return &net.IPNet{
IP: ip,
Mask: net.CIDRMask(s.subNetMaskSize, mask),
}
}
// AllocateNext allocates the next free CIDR range. This will set the range
// as occupied and return the allocated range.
func (s *CidrSet) AllocateNext() (*net.IPNet, error) {
s.Lock()
defer s.Unlock()
nextUnused := -1
for i := 0; i < s.maxCIDRs; i++ {
candidate := (i + s.nextCandidate) % s.maxCIDRs
if s.used.Bit(candidate) == 0 {
nextUnused = candidate
break
}
}
if nextUnused == -1 {
return nil, ErrCIDRRangeNoCIDRsRemaining
}
s.nextCandidate = (nextUnused + 1) % s.maxCIDRs
s.used.SetBit(&s.used, nextUnused, 1)
return s.indexToCIDRBlock(nextUnused), nil
}
func (s *CidrSet) getBeginingAndEndIndices(cidr *net.IPNet) (begin, end int, err error) {
begin, end = 0, s.maxCIDRs-1
cidrMask := cidr.Mask
maskSize, _ := cidrMask.Size()
var ipSize int
if cidr == nil {
return -1, -1, fmt.Errorf("Error getting indices for cluster cidr %v, cidr is nil", s.clusterCIDR)
}
if !s.clusterCIDR.Contains(cidr.IP.Mask(s.clusterCIDR.Mask)) && !cidr.Contains(s.clusterCIDR.IP.Mask(cidr.Mask)) {
return -1, -1, fmt.Errorf("cidr %v is out the range of cluster cidr %v", cidr, s.clusterCIDR)
}
if s.clusterMaskSize < maskSize {
ipSize = net.IPv4len
if cidr.IP.To4() == nil {
ipSize = net.IPv6len
}
subNetMask := net.CIDRMask(s.subNetMaskSize, ipSize*8)
begin, err = s.getIndexForCIDR(&net.IPNet{
IP: cidr.IP.Mask(subNetMask),
Mask: subNetMask,
})
if err != nil {
return -1, -1, err
}
ip := make([]byte, ipSize)
if cidr.IP.To4() != nil {
ipInt := binary.BigEndian.Uint32(cidr.IP) | (^binary.BigEndian.Uint32(cidr.Mask))
binary.BigEndian.PutUint32(ip, ipInt)
} else {
// ipIntLeft | ipIntRight
// 2001:0DB8:1234:0000:0000:0000:0000:0000
ipIntLeft := binary.BigEndian.Uint64(cidr.IP[:net.IPv6len/2]) | (^binary.BigEndian.Uint64(cidr.Mask[:net.IPv6len/2]))
ipIntRight := binary.BigEndian.Uint64(cidr.IP[net.IPv6len/2:]) | (^binary.BigEndian.Uint64(cidr.Mask[net.IPv6len/2:]))
binary.BigEndian.PutUint64(ip[:net.IPv6len/2], ipIntLeft)
binary.BigEndian.PutUint64(ip[net.IPv6len/2:], ipIntRight)
}
end, err = s.getIndexForCIDR(&net.IPNet{
IP: net.IP(ip).Mask(subNetMask),
Mask: subNetMask,
})
if err != nil {
return -1, -1, err
}
}
return begin, end, nil
}
// Release releases the given CIDR range.
func (s *CidrSet) Release(cidr *net.IPNet) error {
begin, end, err := s.getBeginingAndEndIndices(cidr)
if err != nil {
return err
}
s.Lock()
defer s.Unlock()
for i := begin; i <= end; i++ {
s.used.SetBit(&s.used, i, 0)
}
return nil
}
// Occupy marks the given CIDR range as used. Occupy does not check if the CIDR
// range was previously used.
func (s *CidrSet) Occupy(cidr *net.IPNet) (err error) {
begin, end, err := s.getBeginingAndEndIndices(cidr)
if err != nil {
return err
}
s.Lock()
defer s.Unlock()
for i := begin; i <= end; i++ {
s.used.SetBit(&s.used, i, 1)
}
return nil
}
func (s *CidrSet) getIndexForCIDR(cidr *net.IPNet) (int, error) {
return s.getIndexForIP(cidr.IP)
}
func (s *CidrSet) getIndexForIP(ip net.IP) (int, error) {
if ip.To4() != nil {
cidrIndex := (binary.BigEndian.Uint32(s.clusterIP) ^ binary.BigEndian.Uint32(ip.To4())) >> uint32(32-s.subNetMaskSize)
if cidrIndex >= uint32(s.maxCIDRs) {
return 0, fmt.Errorf("CIDR: %v/%v is out of the range of CIDR allocator", ip, s.subNetMaskSize)
}
return int(cidrIndex), nil
}
if ip.To16() != nil {
bigIP := big.NewInt(0).SetBytes(s.clusterIP)
bigIP = bigIP.Xor(bigIP, big.NewInt(0).SetBytes(ip))
cidrIndexBig := bigIP.Rsh(bigIP, uint(net.IPv6len*8-s.subNetMaskSize))
cidrIndex := cidrIndexBig.Uint64()
if cidrIndex >= uint64(s.maxCIDRs) {
return 0, fmt.Errorf("CIDR: %v/%v is out of the range of CIDR allocator", ip, s.subNetMaskSize)
}
return int(cidrIndex), nil
}
return 0, fmt.Errorf("invalid IP: %v", ip)
}
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