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https://github.com/octoleo/syncthing.git
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370b0fc5da
We only need to protect the integrity of the "finders" and "caches" slices, and for that we only need an RLock except while actually appending to them. The actual finders and caches are concurrency safe on their own.
288 lines
7.4 KiB
Go
288 lines
7.4 KiB
Go
// Copyright (C) 2015 The Syncthing Authors.
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//
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// This Source Code Form is subject to the terms of the Mozilla Public
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// License, v. 2.0. If a copy of the MPL was not distributed with this file,
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// You can obtain one at http://mozilla.org/MPL/2.0/.
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package discover
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import (
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"sort"
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stdsync "sync"
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"time"
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"github.com/syncthing/syncthing/lib/protocol"
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"github.com/syncthing/syncthing/lib/sync"
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"github.com/thejerf/suture"
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)
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// The CachingMux aggregates results from multiple Finders. Each Finder has
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// an associated cache time and negative cache time. The cache time sets how
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// long we cache and return successfull lookup results, the negative cache
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// time sets how long we refrain from asking about the same device ID after
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// receiving a negative answer. The value of zero disables caching (positive
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// or negative).
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type CachingMux struct {
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*suture.Supervisor
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finders []cachedFinder
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caches []*cache
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mut sync.RWMutex
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}
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// A cachedFinder is a Finder with associated cache timeouts.
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type cachedFinder struct {
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Finder
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cacheTime time.Duration
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negCacheTime time.Duration
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priority int
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}
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// A prioritizedAddress is what we use to sort addresses returned from
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// different sources with different priorities.
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type prioritizedAddress struct {
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priority int
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addr string
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}
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// An error may implement cachedError, in which case it will be interrogated
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// to see how long we should cache the error. This overrides the default
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// negative cache time.
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type cachedError interface {
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CacheFor() time.Duration
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}
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func NewCachingMux() *CachingMux {
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return &CachingMux{
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Supervisor: suture.NewSimple("discover.cachingMux"),
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mut: sync.NewRWMutex(),
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}
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}
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// Add registers a new Finder, with associated cache timeouts.
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func (m *CachingMux) Add(finder Finder, cacheTime, negCacheTime time.Duration, priority int) {
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m.mut.Lock()
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m.finders = append(m.finders, cachedFinder{finder, cacheTime, negCacheTime, priority})
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m.caches = append(m.caches, newCache())
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m.mut.Unlock()
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if service, ok := finder.(suture.Service); ok {
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m.Supervisor.Add(service)
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}
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}
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// Lookup attempts to resolve the device ID using any of the added Finders,
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// while obeying the cache settings.
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func (m *CachingMux) Lookup(deviceID protocol.DeviceID) (direct []string, relays []Relay, err error) {
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var pdirect []prioritizedAddress
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m.mut.RLock()
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for i, finder := range m.finders {
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if cacheEntry, ok := m.caches[i].Get(deviceID); ok {
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// We have a cache entry. Lets see what it says.
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if cacheEntry.found && time.Since(cacheEntry.when) < finder.cacheTime {
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// It's a positive, valid entry. Use it.
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l.Debugln("cached discovery entry for", deviceID, "at", finder)
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l.Debugln(" cache:", cacheEntry)
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for _, addr := range cacheEntry.Direct {
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pdirect = append(pdirect, prioritizedAddress{finder.priority, addr})
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}
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relays = append(relays, cacheEntry.Relays...)
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continue
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}
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valid := time.Now().Before(cacheEntry.validUntil) || time.Since(cacheEntry.when) < finder.negCacheTime
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if !cacheEntry.found && valid {
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// It's a negative, valid entry. We should not make another
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// attempt right now.
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l.Debugln("negative cache entry for", deviceID, "at", finder, "valid until", cacheEntry.when.Add(finder.negCacheTime), "or", cacheEntry.validUntil)
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continue
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}
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// It's expired. Ignore and continue.
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}
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// Perform the actual lookup and cache the result.
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if td, tr, err := finder.Lookup(deviceID); err == nil {
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l.Debugln("lookup for", deviceID, "at", finder)
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l.Debugln(" direct:", td)
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l.Debugln(" relays:", tr)
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for _, addr := range td {
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pdirect = append(pdirect, prioritizedAddress{finder.priority, addr})
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}
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relays = append(relays, tr...)
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m.caches[i].Set(deviceID, CacheEntry{
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Direct: td,
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Relays: tr,
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when: time.Now(),
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found: len(td)+len(tr) > 0,
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})
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} else {
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// Lookup returned error, add a negative cache entry.
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entry := CacheEntry{
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when: time.Now(),
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found: false,
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}
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if err, ok := err.(cachedError); ok {
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entry.validUntil = time.Now().Add(err.CacheFor())
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}
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m.caches[i].Set(deviceID, entry)
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}
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}
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m.mut.RUnlock()
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direct = uniqueSortedAddrs(pdirect)
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relays = uniqueSortedRelays(relays)
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l.Debugln("lookup results for", deviceID)
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l.Debugln(" direct: ", direct)
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l.Debugln(" relays: ", relays)
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return direct, relays, nil
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}
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func (m *CachingMux) String() string {
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return "discovery cache"
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}
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func (m *CachingMux) Error() error {
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return nil
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}
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func (m *CachingMux) ChildErrors() map[string]error {
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children := make(map[string]error, len(m.finders))
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m.mut.RLock()
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for _, f := range m.finders {
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children[f.String()] = f.Error()
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}
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m.mut.RUnlock()
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return children
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}
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func (m *CachingMux) Cache() map[protocol.DeviceID]CacheEntry {
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// Res will be the "total" cache, i.e. the union of our cache and all our
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// children's caches.
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res := make(map[protocol.DeviceID]CacheEntry)
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m.mut.RLock()
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for i := range m.finders {
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// Each finder[i] has a corresponding cache at cache[i]. Go through it
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// and populate the total, if it's newer than what's already in there.
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// We skip any negative cache entries.
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for k, v := range m.caches[i].Cache() {
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if v.found && v.when.After(res[k].when) {
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res[k] = v
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}
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}
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// Then ask the finder itself for it's cache and do the same. If this
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// finder is a global discovery client, it will have no cache. If it's
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// a local discovery client, this will be it's current state.
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for k, v := range m.finders[i].Cache() {
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if v.found && v.when.After(res[k].when) {
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res[k] = v
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}
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}
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}
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m.mut.RUnlock()
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return res
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}
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// A cache can be embedded wherever useful
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type cache struct {
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entries map[protocol.DeviceID]CacheEntry
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mut stdsync.Mutex
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}
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func newCache() *cache {
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return &cache{
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entries: make(map[protocol.DeviceID]CacheEntry),
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}
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}
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func (c *cache) Set(id protocol.DeviceID, ce CacheEntry) {
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c.mut.Lock()
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c.entries[id] = ce
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c.mut.Unlock()
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}
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func (c *cache) Get(id protocol.DeviceID) (CacheEntry, bool) {
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c.mut.Lock()
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ce, ok := c.entries[id]
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c.mut.Unlock()
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return ce, ok
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}
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func (c *cache) Cache() map[protocol.DeviceID]CacheEntry {
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c.mut.Lock()
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m := make(map[protocol.DeviceID]CacheEntry, len(c.entries))
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for k, v := range c.entries {
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m[k] = v
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}
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c.mut.Unlock()
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return m
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}
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func uniqueSortedAddrs(ss []prioritizedAddress) []string {
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// We sort the addresses by priority, then filter them based on seen
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// (first time seen is the on kept, so we retain priority).
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sort.Sort(prioritizedAddressList(ss))
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filtered := make([]string, 0, len(ss))
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seen := make(map[string]struct{}, len(ss))
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for _, s := range ss {
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if _, ok := seen[s.addr]; !ok {
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filtered = append(filtered, s.addr)
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seen[s.addr] = struct{}{}
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}
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}
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return filtered
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}
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func uniqueSortedRelays(rs []Relay) []Relay {
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m := make(map[string]Relay, len(rs))
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for _, r := range rs {
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m[r.URL] = r
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}
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var ur = make([]Relay, 0, len(m))
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for _, r := range m {
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ur = append(ur, r)
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}
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sort.Sort(relayList(ur))
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return ur
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}
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type relayList []Relay
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func (l relayList) Len() int {
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return len(l)
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}
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func (l relayList) Swap(a, b int) {
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l[a], l[b] = l[b], l[a]
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}
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func (l relayList) Less(a, b int) bool {
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return l[a].URL < l[b].URL
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}
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type prioritizedAddressList []prioritizedAddress
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func (l prioritizedAddressList) Len() int {
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return len(l)
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}
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func (l prioritizedAddressList) Swap(a, b int) {
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l[a], l[b] = l[b], l[a]
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}
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func (l prioritizedAddressList) Less(a, b int) bool {
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if l[a].priority != l[b].priority {
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return l[a].priority < l[b].priority
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}
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return l[a].addr < l[b].addr
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}
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