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lru-cache.go
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lru-cache.go
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package rdns
import (
"encoding/json"
"io"
"time"
"github.com/miekg/dns"
)
type lruCache struct {
maxItems int
items map[lruKey]*cacheItem
head, tail *cacheItem
}
type cacheItem struct {
Key lruKey
Answer *cacheAnswer
prev, next *cacheItem
}
type lruKey struct {
Question dns.Question
Net string
Do bool
}
type cacheAnswer struct {
Timestamp time.Time // Time the record was cached. Needed to adjust TTL
Expiry time.Time // Time the record expires and should be removed
PrefetchEligible bool // The cache can prefetch this record
Msg *dns.Msg
}
func (c cacheAnswer) MarshalJSON() ([]byte, error) {
msg, err := c.Msg.Pack()
if err != nil {
return nil, err
}
type alias cacheAnswer
record := struct {
alias
Msg []byte
}{
alias: alias(c),
Msg: msg,
}
return json.Marshal(record)
}
func (c *cacheAnswer) UnmarshalJSON(data []byte) error {
type alias cacheAnswer
aux := struct {
*alias
Msg []byte
}{
alias: (*alias)(c),
}
if err := json.Unmarshal(data, &aux); err != nil {
return err
}
c.Msg = new(dns.Msg)
return c.Msg.Unpack(aux.Msg)
}
func newLRUCache(capacity int) *lruCache {
head := new(cacheItem)
tail := new(cacheItem)
head.next = tail
tail.prev = head
return &lruCache{
maxItems: capacity,
items: make(map[lruKey]*cacheItem),
head: head,
tail: tail,
}
}
func (c *lruCache) add(query *dns.Msg, answer *cacheAnswer) {
key := lruKeyFromQuery(query)
c.addKey(key, answer)
}
func (c *lruCache) addKey(key lruKey, answer *cacheAnswer) {
item := c.touch(key)
if item != nil {
// Update the item, it's already at the top of the list
// so we can just change the value
item.Answer = answer
return
}
// Add new item to the top of the linked list
item = &cacheItem{
Key: key,
Answer: answer,
next: c.head.next,
prev: c.head,
}
c.head.next.prev = item
c.head.next = item
c.items[key] = item
c.resize()
}
// Loads a cache item and puts it to the top of the queue (most recent).
func (c *lruCache) touch(key lruKey) *cacheItem {
item := c.items[key]
if item == nil {
return nil
}
// move the item to the top of the linked list
item.prev.next = item.next
item.next.prev = item.prev
item.next = c.head.next
item.prev = c.head
c.head.next.prev = item
c.head.next = item
return item
}
func (c *lruCache) delete(q *dns.Msg) {
key := lruKeyFromQuery(q)
item := c.items[key]
if item == nil {
return
}
item.prev.next = item.next
item.next.prev = item.prev
delete(c.items, key)
}
func (c *lruCache) get(query *dns.Msg) *cacheAnswer {
key := lruKeyFromQuery(query)
item := c.touch(key)
if item != nil {
return item.Answer
}
return nil
}
// Shrink the cache down to the maximum number of items.
func (c *lruCache) resize() {
if c.maxItems <= 0 { // no size limit
return
}
drop := len(c.items) - c.maxItems
for i := 0; i < drop; i++ {
item := c.tail.prev
item.prev.next = c.tail
c.tail.prev = item.prev
delete(c.items, item.Key)
}
}
// Clear the cache.
func (c *lruCache) reset() {
head := new(cacheItem)
tail := new(cacheItem)
head.next = tail
tail.prev = head
c.head = head
c.tail = tail
c.items = make(map[lruKey]*cacheItem)
}
// Iterate over the cached answers and call the provided function. If it
// returns true, the item is deleted from the cache.
func (c *lruCache) deleteFunc(f func(*cacheAnswer) bool) {
item := c.head.next
for item != c.tail {
if f(item.Answer) {
item.prev.next = item.next
item.next.prev = item.prev
delete(c.items, item.Key)
}
item = item.next
}
}
func (c *lruCache) size() int {
return len(c.items)
}
func (c *lruCache) serialize(w io.Writer) error {
enc := json.NewEncoder(w)
for item := c.tail.prev; item != c.head; item = item.prev {
if err := enc.Encode(item); err != nil {
return err
}
}
return nil
}
func (c *lruCache) deserialize(r io.Reader) error {
dec := json.NewDecoder(r)
for dec.More() {
item := new(cacheItem)
if err := dec.Decode(item); err != nil {
return err
}
// Skip bad (or incompatible) records
if item.Key.Question.Name == "" || item.Answer == nil {
continue
}
c.addKey(item.Key, item.Answer)
}
return nil
}
func lruKeyFromQuery(q *dns.Msg) lruKey {
key := lruKey{Question: q.Question[0]}
edns0 := q.IsEdns0()
if edns0 != nil {
key.Do = edns0.Do()
// See if we have a subnet option
for _, opt := range edns0.Option {
if subnet, ok := opt.(*dns.EDNS0_SUBNET); ok {
key.Net = subnet.Address.String()
}
}
}
return key
}