tailscale/drive/driveimpl/compositedav/stat_cache.go

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// Copyright (c) Tailscale Inc & AUTHORS
// SPDX-License-Identifier: BSD-3-Clause
package compositedav
import (
"bytes"
"encoding/xml"
"log"
"net/http"
"sync"
"time"
"github.com/jellydator/ttlcache/v3"
"tailscale.com/drive/driveimpl/shared"
)
var (
notFound = newCacheEntry(http.StatusNotFound, nil)
)
// StatCache provides a cache for directory listings and file metadata.
// Especially when used from the command-line, mapped WebDAV drives can
// generate repetitive requests for the same file metadata. This cache helps
// reduce the number of round-trips to the WebDAV server for such requests.
// This is similar to the DirectoryCacheLifetime setting of Windows' built-in
// SMB client, see
// https://learn.microsoft.com/en-us/previous-versions/windows/it-pro/windows-7/ff686200(v=ws.10)
//
// StatCache is built specifically to cache the results of PROPFIND requests,
// which come back as MultiStatus XML responses. Typical clients will issue two
// kinds of PROPFIND:
//
// The first kind of PROPFIND is a directory listing performed to depth 1. At
// this depth, the resulting XML will contain stats for the requested folder as
// well as for all children of that folder.
//
// The second kind of PROPFIND is a file listing performed to depth 0. At this
// depth, the resulting XML will contain stats only for the requested file.
//
// In order to avoid round-trips, when a PROPFIND at depth 0 is attempted, and
// the requested file is not in the cache, StatCache will check to see if the
// parent folder of that file is cached. If so, StatCache infers the correct
// MultiStatus for the file according to the following logic:
//
// 1. If the parent folder is NotFound (404), treat the file itself as NotFound
// 2. If the parent folder's XML doesn't contain the file, treat it as
// NotFound.
// 3. If the parent folder's XML contains the file, build a MultiStatus for the
// file based on the parent's XML.
//
// To avoid inconsistencies from the perspective of the client, any operations
// that modify the filesystem (e.g. PUT, MKDIR, etc.) should call invalidate()
// to invalidate the cache.
type StatCache struct {
TTL time.Duration
// mu guards the below values.
mu sync.Mutex
cachesByDepthAndPath map[int]*ttlcache.Cache[string, *cacheEntry]
}
// getOr checks the cache for the named value at the given depth. If a cached
// value was found, it returns http.StatusMultiStatus along with the cached
// value. Otherwise, it executes the given function and returns the resulting
// status and value. If the function returned http.StatusMultiStatus, getOr
// caches the resulting value at the given name and depth before returning.
func (c *StatCache) getOr(name string, depth int, or func() (int, []byte)) (int, []byte) {
ce := c.get(name, depth)
if ce == nil {
// Not cached, fetch value.
status, raw := or()
ce = newCacheEntry(status, raw)
if status == http.StatusMultiStatus || status == http.StatusNotFound {
// Got a legit status, cache value
c.set(name, depth, ce)
}
}
return ce.Status, ce.Raw
}
// get retrieves the entry for the named file at the given depth. If no entry
// is found, and depth == 0, get will check to see if the parent path of name
// is present in the cache at depth 1. If so, it will infer that the child does
// not exist and return notFound (404).
func (c *StatCache) get(name string, depth int) *cacheEntry {
if c == nil {
return nil
}
name = shared.Normalize(name)
c.mu.Lock()
defer c.mu.Unlock()
ce := c.tryGetLocked(name, depth)
if ce != nil {
// Cache hit.
return ce
}
if depth > 0 {
// Cache miss.
return nil
}
// At depth 0, if child's parent is in the cache, and the child isn't
// cached, we can infer that the child is notFound.
p := c.tryGetLocked(shared.Parent(name), 1)
if p != nil {
return notFound
}
// No parent in cache, cache miss.
return nil
}
// tryGetLocked requires that c.mu be held.
func (c *StatCache) tryGetLocked(name string, depth int) *cacheEntry {
if c.cachesByDepthAndPath == nil {
return nil
}
cache := c.cachesByDepthAndPath[depth]
if cache == nil {
return nil
}
item := cache.Get(name)
if item == nil {
return nil
}
return item.Value()
}
// set stores the given cacheEntry in the cache at the given name and depth. If
// the depth is 1, set also populates depth 0 entries in the cache for the bare
// name. If status is StatusMultiStatus, set will parse the PROPFIND result and
// store depth 0 entries for all children. If parsing the result fails, nothing
// is cached.
func (c *StatCache) set(name string, depth int, ce *cacheEntry) {
if c == nil {
return
}
name = shared.Normalize(name)
var self *cacheEntry
var children map[string]*cacheEntry
if depth == 1 {
switch ce.Status {
case http.StatusNotFound:
// Record notFound as the self entry.
self = ce
case http.StatusMultiStatus:
// Parse the raw MultiStatus and extract specific responses
// corresponding to the self entry (e.g. the directory, but at depth 0)
// and children (e.g. files within the directory) so that subsequent
// requests for these can be satisfied from the cache.
var ms multiStatus
err := xml.Unmarshal(ce.Raw, &ms)
if err != nil {
// unparseable MultiStatus response, don't cache
log.Printf("statcache.set error: %s", err)
return
}
children = make(map[string]*cacheEntry, len(ms.Responses)-1)
for i := 0; i < len(ms.Responses); i++ {
response := ms.Responses[i]
name := shared.Normalize(response.Href)
raw := marshalMultiStatus(response)
entry := newCacheEntry(ce.Status, raw)
if i == 0 {
self = entry
} else {
children[name] = entry
}
}
}
}
c.mu.Lock()
defer c.mu.Unlock()
c.setLocked(name, depth, ce)
if self != nil {
c.setLocked(name, 0, self)
}
for childName, child := range children {
c.setLocked(childName, 0, child)
}
}
// setLocked requires that c.mu be held.
func (c *StatCache) setLocked(name string, depth int, ce *cacheEntry) {
if c.cachesByDepthAndPath == nil {
c.cachesByDepthAndPath = make(map[int]*ttlcache.Cache[string, *cacheEntry])
}
cache := c.cachesByDepthAndPath[depth]
if cache == nil {
cache = ttlcache.New(
ttlcache.WithTTL[string, *cacheEntry](c.TTL),
)
go cache.Start()
c.cachesByDepthAndPath[depth] = cache
}
cache.Set(name, ce, ttlcache.DefaultTTL)
}
// invalidate invalidates the entire cache.
func (c *StatCache) invalidate() {
if c == nil {
return
}
c.mu.Lock()
defer c.mu.Unlock()
for _, cache := range c.cachesByDepthAndPath {
cache.DeleteAll()
}
}
func (c *StatCache) stop() {
c.mu.Lock()
defer c.mu.Unlock()
for _, cache := range c.cachesByDepthAndPath {
cache.Stop()
}
}
type cacheEntry struct {
Status int
Raw []byte
}
func newCacheEntry(status int, raw []byte) *cacheEntry {
return &cacheEntry{Status: status, Raw: raw}
}
type propStat struct {
InnerXML []byte `xml:",innerxml"`
}
type response struct {
XMLName xml.Name `xml:"response"`
Href string `xml:"href"`
PropStats []*propStat `xml:"propstat"`
}
type multiStatus struct {
XMLName xml.Name `xml:"multistatus"`
Responses []*response `xml:"response"`
}
// marshalMultiStatus performs custom marshalling of a MultiStatus to preserve
// the original formatting, namespacing, etc. Doing this with Go's XML encoder
// is somewhere between difficult and impossible, which is why we use this more
// manual approach.
func marshalMultiStatus(response *response) []byte {
// TODO(percy): maybe pool these buffers
var buf bytes.Buffer
buf.WriteString(multistatusTemplateStart)
buf.WriteString(response.Href)
buf.WriteString(hrefEnd)
for _, propStat := range response.PropStats {
buf.WriteString(propstatStart)
buf.Write(propStat.InnerXML)
buf.WriteString(propstatEnd)
}
buf.WriteString(multistatusTemplateEnd)
return buf.Bytes()
}
const (
multistatusTemplateStart = `<?xml version="1.0" encoding="UTF-8"?><D:multistatus xmlns:D="DAV:"><D:response><D:href>`
hrefEnd = `</D:href>`
propstatStart = `<D:propstat>`
propstatEnd = `</D:propstat>`
multistatusTemplateEnd = `</D:response></D:multistatus>`
)