mihomo/component/fakeip/pool.go

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package fakeip
import (
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"encoding/binary"
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"errors"
"math/bits"
"net/netip"
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"sync"
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"github.com/Dreamacro/clash/component/profile/cachefile"
"github.com/Dreamacro/clash/component/trie"
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)
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const (
offsetKey = "key-offset-fake-ip"
cycleKey = "key-cycle-fake-ip"
)
type uint128 struct {
hi uint64
lo uint64
}
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type store interface {
GetByHost(host string) (netip.Addr, bool)
PutByHost(host string, ip netip.Addr)
GetByIP(ip netip.Addr) (string, bool)
PutByIP(ip netip.Addr, host string)
DelByIP(ip netip.Addr)
Exist(ip netip.Addr) bool
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CloneTo(store)
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FlushFakeIP() error
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}
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// Pool is a implementation about fake ip generator without storage
type Pool struct {
gateway netip.Addr
first netip.Addr
last netip.Addr
offset netip.Addr
cycle bool
mux sync.Mutex
host *trie.DomainTrie[bool]
ipnet *netip.Prefix
store store
}
// Lookup return a fake ip with host
func (p *Pool) Lookup(host string) netip.Addr {
p.mux.Lock()
defer p.mux.Unlock()
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if ip, exist := p.store.GetByHost(host); exist {
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return ip
}
ip := p.get(host)
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p.store.PutByHost(host, ip)
return ip
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}
// LookBack return host with the fake ip
func (p *Pool) LookBack(ip netip.Addr) (string, bool) {
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p.mux.Lock()
defer p.mux.Unlock()
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return p.store.GetByIP(ip)
}
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// ShouldSkipped return if domain should be skipped
func (p *Pool) ShouldSkipped(domain string) bool {
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if p.host == nil {
return false
}
return p.host.Search(domain) != nil
}
// Exist returns if given ip exists in fake-ip pool
func (p *Pool) Exist(ip netip.Addr) bool {
p.mux.Lock()
defer p.mux.Unlock()
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return p.store.Exist(ip)
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}
// Gateway return gateway ip
func (p *Pool) Gateway() netip.Addr {
return p.gateway
}
// Broadcast return the last ip
func (p *Pool) Broadcast() netip.Addr {
return p.last
}
// IPNet return raw ipnet
func (p *Pool) IPNet() *netip.Prefix {
return p.ipnet
}
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// CloneFrom clone cache from old pool
func (p *Pool) CloneFrom(o *Pool) {
o.store.CloneTo(p.store)
}
func (p *Pool) get(host string) netip.Addr {
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p.offset = p.offset.Next()
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if !p.offset.Less(p.last) {
p.cycle = true
p.offset = p.first
}
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if p.cycle || p.store.Exist(p.offset) {
p.store.DelByIP(p.offset)
}
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p.store.PutByIP(p.offset, host)
return p.offset
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}
func (p *Pool) FlushFakeIP() error {
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err := p.store.FlushFakeIP()
if err == nil {
p.cycle = false
p.offset = p.first
}
return err
}
func (p *Pool) StoreState() {
if s, ok := p.store.(*cachefileStore); ok {
s.PutByHost(offsetKey, p.offset)
if p.cycle {
s.PutByHost(cycleKey, p.offset)
}
}
}
func (p *Pool) restoreState() {
if s, ok := p.store.(*cachefileStore); ok {
if _, exist := s.GetByHost(cycleKey); exist {
p.cycle = true
}
if offset, exist := s.GetByHost(offsetKey); exist {
if p.ipnet.Contains(offset) {
p.offset = offset
} else {
_ = p.FlushFakeIP()
}
} else if s.Exist(p.first) {
_ = p.FlushFakeIP()
}
}
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}
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type Options struct {
IPNet *netip.Prefix
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Host *trie.DomainTrie[bool]
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// Size sets the maximum number of entries in memory
// and does not work if Persistence is true
Size int
// Persistence will save the data to disk.
// Size will not work and record will be fully stored.
Persistence bool
}
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// New return Pool instance
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func New(options Options) (*Pool, error) {
var (
hostAddr = options.IPNet.Masked().Addr()
gateway = hostAddr.Next()
first = gateway.Next().Next()
last = add(hostAddr, 1<<uint64(hostAddr.BitLen()-options.IPNet.Bits())-1)
)
if !options.IPNet.IsValid() || !first.Less(last) || !options.IPNet.Contains(last) {
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return nil, errors.New("ipnet don't have valid ip")
}
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pool := &Pool{
gateway: gateway,
first: first,
last: last,
offset: first.Prev(),
cycle: false,
host: options.Host,
ipnet: options.IPNet,
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}
if options.Persistence {
pool.store = &cachefileStore{
cache: cachefile.Cache(),
}
} else {
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pool.store = newMemoryStore(options.Size)
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}
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pool.restoreState()
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return pool, nil
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}
// add returns addr + n.
func add(addr netip.Addr, n uint64) netip.Addr {
buf := addr.As16()
u := uint128{
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binary.BigEndian.Uint64(buf[:8]),
binary.BigEndian.Uint64(buf[8:]),
}
lo, carry := bits.Add64(u.lo, n, 0)
u.hi = u.hi + carry
u.lo = lo
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binary.BigEndian.PutUint64(buf[:8], u.hi)
binary.BigEndian.PutUint64(buf[8:], u.lo)
a := netip.AddrFrom16(buf)
if addr.Is4() {
return a.Unmap()
}
return a
}