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tailscale/net/flowtrack/flowtrack.go

166 lines
4.3 KiB
Go

// Copyright (c) Tailscale Inc & AUTHORS
// SPDX-License-Identifier: BSD-3-Clause
//
// Original implementation (from same author) from which this was derived was:
// https://github.com/golang/groupcache/blob/5b532d6fd5efaf7fa130d4e859a2fde0fc3a9e1b/lru/lru.go
// ... which was Apache licensed:
// https://github.com/golang/groupcache/blob/master/LICENSE
// Package flowtrack contains types for tracking TCP/UDP flows by 4-tuples.
package flowtrack
import (
"container/list"
"encoding/json"
"fmt"
"net/netip"
"tailscale.com/types/ipproto"
)
// MakeTuple makes a Tuple out of netip.AddrPort values.
func MakeTuple(proto ipproto.Proto, src, dst netip.AddrPort) Tuple {
return Tuple{
proto: proto,
src: src.Addr().As16(),
srcPort: src.Port(),
dst: dst.Addr().As16(),
dstPort: dst.Port(),
}
}
// Tuple is a 5-tuple of proto, source and destination IP and port.
//
// This struct originally used netip.AddrPort, but that was about twice as slow
// when used as a map key due to the alignment and extra space for the IPv6 zone
// pointers (unneeded for all our current 2024-06-17 flowtrack needs).
//
// This struct is packed optimally and doesn't contain gaps or pointers.
type Tuple struct {
src [16]byte
dst [16]byte
srcPort uint16
dstPort uint16
proto ipproto.Proto
}
func (t Tuple) SrcAddr() netip.Addr {
return netip.AddrFrom16(t.src).Unmap()
}
func (t Tuple) DstAddr() netip.Addr {
return netip.AddrFrom16(t.dst).Unmap()
}
func (t Tuple) SrcPort() uint16 { return t.srcPort }
func (t Tuple) DstPort() uint16 { return t.dstPort }
func (t Tuple) String() string {
return fmt.Sprintf("(%v %v => %v)", t.proto,
netip.AddrPortFrom(t.SrcAddr(), t.srcPort),
netip.AddrPortFrom(t.DstAddr(), t.dstPort))
}
func (t Tuple) MarshalJSON() ([]byte, error) {
return json.Marshal(tupleOld{
Proto: t.proto,
Src: netip.AddrPortFrom(t.SrcAddr(), t.srcPort),
Dst: netip.AddrPortFrom(t.DstAddr(), t.dstPort),
})
}
func (t *Tuple) UnmarshalJSON(b []byte) error {
var ot tupleOld
if err := json.Unmarshal(b, &ot); err != nil {
return err
}
*t = MakeTuple(ot.Proto, ot.Src, ot.Dst)
return nil
}
// tupleOld is the old JSON representation of Tuple, before
// we split and rearranged the fields for efficiency. This type
// is the JSON adapter type to make sure we still generate
// the same JSON as before.
type tupleOld struct {
Proto ipproto.Proto `json:"proto"`
Src netip.AddrPort `json:"src"`
Dst netip.AddrPort `json:"dst"`
}
// Cache is an LRU cache keyed by Tuple.
//
// The zero value is valid to use.
//
// It is not safe for concurrent access.
type Cache[Value any] struct {
// MaxEntries is the maximum number of cache entries before
// an item is evicted. Zero means no limit.
MaxEntries int
ll *list.List
m map[Tuple]*list.Element // of *entry
}
// entry is the container/list element type.
type entry[Value any] struct {
key Tuple
value Value
}
// Add adds a value to the cache, set or updating its associated
// value.
//
// If MaxEntries is non-zero and the length of the cache is greater
// after any addition, the least recently used value is evicted.
func (c *Cache[Value]) Add(key Tuple, value Value) {
if c.m == nil {
c.m = make(map[Tuple]*list.Element)
c.ll = list.New()
}
if ee, ok := c.m[key]; ok {
c.ll.MoveToFront(ee)
ee.Value.(*entry[Value]).value = value
return
}
ele := c.ll.PushFront(&entry[Value]{key, value})
c.m[key] = ele
if c.MaxEntries != 0 && c.Len() > c.MaxEntries {
c.RemoveOldest()
}
}
// Get looks up a key's value from the cache, also reporting
// whether it was present.
func (c *Cache[Value]) Get(key Tuple) (value *Value, ok bool) {
if ele, hit := c.m[key]; hit {
c.ll.MoveToFront(ele)
return &ele.Value.(*entry[Value]).value, true
}
return nil, false
}
// Remove removes the provided key from the cache if it was present.
func (c *Cache[Value]) Remove(key Tuple) {
if ele, hit := c.m[key]; hit {
c.removeElement(ele)
}
}
// RemoveOldest removes the oldest item from the cache, if any.
func (c *Cache[Value]) RemoveOldest() {
if c.ll != nil {
if ele := c.ll.Back(); ele != nil {
c.removeElement(ele)
}
}
}
func (c *Cache[Value]) removeElement(e *list.Element) {
c.ll.Remove(e)
delete(c.m, e.Value.(*entry[Value]).key)
}
// Len returns the number of items in the cache.
func (c *Cache[Value]) Len() int { return len(c.m) }