mirror of
https://github.com/KusakabeShi/EtherGuard-VPN.git
synced 2024-11-22 07:13:09 +01:00
8cc99631d0
This makes the IpcGet method much faster. We also refactor the traversal API to use a callback so that we don't need to allocate at all. Avoiding allocations we do self-masking on insertion, which in turn means that split intermediate nodes require a copy of the bits. benchmark old ns/op new ns/op delta BenchmarkUAPIGet-16 3243 2659 -18.01% benchmark old allocs new allocs delta BenchmarkUAPIGet-16 35 30 -14.29% benchmark old bytes new bytes delta BenchmarkUAPIGet-16 1218 737 -39.49% This benchmark is good, though it's only for a pair of peers, each with only one allowedips. As this grows, the delta expands considerably. Signed-off-by: Jason A. Donenfeld <Jason@zx2c4.com>
269 lines
5.3 KiB
Go
269 lines
5.3 KiB
Go
/* SPDX-License-Identifier: MIT
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*
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* Copyright (C) 2017-2020 WireGuard LLC. All Rights Reserved.
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*/
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package device
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import (
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"errors"
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"math/bits"
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"net"
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"sync"
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"unsafe"
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)
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type trieEntry struct {
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child [2]*trieEntry
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peer *Peer
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bits net.IP
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cidr uint
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bit_at_byte uint
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bit_at_shift uint
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nextEntryForPeer *trieEntry
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pprevEntryForPeer **trieEntry
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}
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func isLittleEndian() bool {
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one := uint32(1)
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return *(*byte)(unsafe.Pointer(&one)) != 0
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}
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func swapU32(i uint32) uint32 {
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if !isLittleEndian() {
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return i
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}
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return bits.ReverseBytes32(i)
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}
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func swapU64(i uint64) uint64 {
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if !isLittleEndian() {
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return i
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}
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return bits.ReverseBytes64(i)
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}
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func commonBits(ip1 net.IP, ip2 net.IP) uint {
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size := len(ip1)
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if size == net.IPv4len {
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a := (*uint32)(unsafe.Pointer(&ip1[0]))
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b := (*uint32)(unsafe.Pointer(&ip2[0]))
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x := *a ^ *b
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return uint(bits.LeadingZeros32(swapU32(x)))
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} else if size == net.IPv6len {
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a := (*uint64)(unsafe.Pointer(&ip1[0]))
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b := (*uint64)(unsafe.Pointer(&ip2[0]))
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x := *a ^ *b
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if x != 0 {
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return uint(bits.LeadingZeros64(swapU64(x)))
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}
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a = (*uint64)(unsafe.Pointer(&ip1[8]))
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b = (*uint64)(unsafe.Pointer(&ip2[8]))
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x = *a ^ *b
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return 64 + uint(bits.LeadingZeros64(swapU64(x)))
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} else {
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panic("Wrong size bit string")
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}
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}
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func (node *trieEntry) addToPeerEntries() {
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p := node.peer
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first := p.firstTrieEntry
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node.nextEntryForPeer = first
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if first != nil {
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first.pprevEntryForPeer = &node.nextEntryForPeer
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}
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p.firstTrieEntry = node
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node.pprevEntryForPeer = &p.firstTrieEntry
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}
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func (node *trieEntry) removeFromPeerEntries() {
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if node.pprevEntryForPeer == nil {
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return
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}
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next := node.nextEntryForPeer
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pprev := node.pprevEntryForPeer
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*pprev = next
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if next != nil {
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next.pprevEntryForPeer = pprev
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}
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node.nextEntryForPeer = nil
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node.pprevEntryForPeer = nil
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}
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func (node *trieEntry) removeByPeer(p *Peer) *trieEntry {
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if node == nil {
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return node
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}
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// walk recursively
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node.child[0] = node.child[0].removeByPeer(p)
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node.child[1] = node.child[1].removeByPeer(p)
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if node.peer != p {
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return node
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}
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// remove peer & merge
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node.removeFromPeerEntries()
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node.peer = nil
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if node.child[0] == nil {
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return node.child[1]
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}
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return node.child[0]
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}
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func (node *trieEntry) choose(ip net.IP) byte {
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return (ip[node.bit_at_byte] >> node.bit_at_shift) & 1
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}
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func (node *trieEntry) maskSelf() {
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mask := net.CIDRMask(int(node.cidr), len(node.bits)*8)
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for i := 0; i < len(mask); i++ {
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node.bits[i] &= mask[i]
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}
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}
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func (node *trieEntry) insert(ip net.IP, cidr uint, peer *Peer) *trieEntry {
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// at leaf
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if node == nil {
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node := &trieEntry{
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bits: ip,
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peer: peer,
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cidr: cidr,
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bit_at_byte: cidr / 8,
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bit_at_shift: 7 - (cidr % 8),
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}
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node.maskSelf()
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node.addToPeerEntries()
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return node
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}
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// traverse deeper
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common := commonBits(node.bits, ip)
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if node.cidr <= cidr && common >= node.cidr {
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if node.cidr == cidr {
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node.removeFromPeerEntries()
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node.peer = peer
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node.addToPeerEntries()
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return node
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}
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bit := node.choose(ip)
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node.child[bit] = node.child[bit].insert(ip, cidr, peer)
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return node
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}
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// split node
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newNode := &trieEntry{
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bits: ip,
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peer: peer,
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cidr: cidr,
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bit_at_byte: cidr / 8,
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bit_at_shift: 7 - (cidr % 8),
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}
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newNode.maskSelf()
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newNode.addToPeerEntries()
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cidr = min(cidr, common)
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// check for shorter prefix
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if newNode.cidr == cidr {
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bit := newNode.choose(node.bits)
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newNode.child[bit] = node
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return newNode
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}
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// create new parent for node & newNode
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parent := &trieEntry{
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bits: append([]byte{}, ip...),
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peer: nil,
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cidr: cidr,
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bit_at_byte: cidr / 8,
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bit_at_shift: 7 - (cidr % 8),
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}
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parent.maskSelf()
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bit := parent.choose(ip)
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parent.child[bit] = newNode
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parent.child[bit^1] = node
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return parent
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}
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func (node *trieEntry) lookup(ip net.IP) *Peer {
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var found *Peer
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size := uint(len(ip))
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for node != nil && commonBits(node.bits, ip) >= node.cidr {
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if node.peer != nil {
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found = node.peer
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}
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if node.bit_at_byte == size {
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break
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}
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bit := node.choose(ip)
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node = node.child[bit]
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}
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return found
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}
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type AllowedIPs struct {
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IPv4 *trieEntry
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IPv6 *trieEntry
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mutex sync.RWMutex
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}
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func (table *AllowedIPs) EntriesForPeer(peer *Peer, cb func(ip net.IP, cidr uint) bool) {
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table.mutex.RLock()
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defer table.mutex.RUnlock()
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for node := peer.firstTrieEntry; node != nil; node = node.nextEntryForPeer {
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if !cb(node.bits, node.cidr) {
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return
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}
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}
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}
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func (table *AllowedIPs) RemoveByPeer(peer *Peer) {
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table.mutex.Lock()
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defer table.mutex.Unlock()
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table.IPv4 = table.IPv4.removeByPeer(peer)
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table.IPv6 = table.IPv6.removeByPeer(peer)
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}
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func (table *AllowedIPs) Insert(ip net.IP, cidr uint, peer *Peer) {
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table.mutex.Lock()
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defer table.mutex.Unlock()
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switch len(ip) {
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case net.IPv6len:
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table.IPv6 = table.IPv6.insert(ip, cidr, peer)
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case net.IPv4len:
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table.IPv4 = table.IPv4.insert(ip, cidr, peer)
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default:
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panic(errors.New("inserting unknown address type"))
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}
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}
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func (table *AllowedIPs) LookupIPv4(address []byte) *Peer {
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table.mutex.RLock()
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defer table.mutex.RUnlock()
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return table.IPv4.lookup(address)
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}
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func (table *AllowedIPs) LookupIPv6(address []byte) *Peer {
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table.mutex.RLock()
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defer table.mutex.RUnlock()
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return table.IPv6.lookup(address)
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}
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