package main import ( "bytes" "io/ioutil" "log" "net" "os" "strings" "time" "github.com/getwtxt/registry" "github.com/syndtr/goleveldb/leveldb" ) // Checks whether it's time to refresh // the cache. func checkCacheTime() bool { return time.Since(confObj.LastCache) > confObj.CacheInterval } // Checks whether it's time to push // the cache to the database func checkDBtime() bool { return time.Since(confObj.LastPush) > confObj.DBInterval } // Launched by init as a goroutine to constantly watch // for the update interval to pass. func cacheAndPush() { for { if checkCacheTime() { refreshCache() } if checkDBtime() { if err := pushDatabase(); err != nil { log.Printf("Error pushing cache to database: %v\n", err) } } } } // Refreshes the cache. func refreshCache() { // Iterate over the registry and // update each individual user. for k := range twtxtCache.Reg { err := twtxtCache.UpdateUser(k) if err != nil { log.Printf("%v\n", err) continue } } // Re-scrape all the remote registries // to see if they have any new users // to add locally. remoteRegistries.Mu.RLock() for _, v := range remoteRegistries.List { err := twtxtCache.CrawlRemoteRegistry(v) if err != nil { log.Printf("Error while refreshing local copy of remote registry user data: %v\n", err) } } remoteRegistries.Mu.RUnlock() confObj.Mu.Lock() confObj.LastCache = time.Now() confObj.Mu.Unlock() } // Pushes the registry's cache data to a local // database for safe keeping. func pushDatabase() error { // Acquire the database from the aether. // goleveldb is concurrency-safe, so we // can immediately push it back into the // channel for other functions to use. db := <-dbChan dbChan <- db // Create a batch write job so it can // be done at one time rather than // per entry. twtxtCache.Mu.RLock() var dbBasket = &leveldb.Batch{} for k, v := range twtxtCache.Reg { dbBasket.Put([]byte(k+"*Nick"), []byte(v.Nick)) dbBasket.Put([]byte(k+"*URL"), []byte(v.URL)) dbBasket.Put([]byte(k+"*IP"), []byte(v.IP.String())) dbBasket.Put([]byte(k+"*Date"), []byte(v.Date)) for i, e := range v.Status { rfc := i.Format(time.RFC3339) dbBasket.Put([]byte(k+"*Status*"+rfc), []byte(e)) } } twtxtCache.Mu.RUnlock() // Save our list of remote registries to scrape. remoteRegistries.Mu.RLock() for k, v := range remoteRegistries.List { dbBasket.Put([]byte("remote*"+string(k)), []byte(v)) } remoteRegistries.Mu.RUnlock() // Execute the batch job. if err := db.Write(dbBasket, nil); err != nil { return err } // Update the last push time for // our timer/watch function to // reference. confObj.Mu.Lock() confObj.LastPush = time.Now() confObj.Mu.Unlock() return nil } // Pulls registry data from the DB on startup. // Iterates over the database one entry at a time. func pullDatabase() { // Acquire the database from the aether. // goleveldb is concurrency-safe, so we // can immediately push it back into the // channel for other functions to use. db := <-dbChan dbChan <- db iter := db.NewIterator(nil, nil) // Read the database entry-by-entry for iter.Next() { key := string(iter.Key()) val := string(iter.Value()) split := strings.Split(key, "*") urls := split[0] field := split[1] if urls != "remote" { // Start with an empty Data struct. If // there's already one in the cache, pull // it and use it instead. data := registry.NewUserData() twtxtCache.Mu.RLock() if _, ok := twtxtCache.Reg[urls]; ok { data = twtxtCache.Reg[urls] } twtxtCache.Mu.RUnlock() switch field { case "IP": data.IP = net.ParseIP(val) case "Nick": data.Nick = val case "URL": data.URL = val case "Date": data.Date = val case "Status": // If we're looking at a Status entry in the DB, // parse the time then add it to the TimeMap under // data.Status thetime, err := time.Parse(time.RFC3339, split[2]) if err != nil { log.Printf("%v\n", err) } data.Status[thetime] = val } // Push the data struct (back) into // the cache. twtxtCache.Mu.Lock() twtxtCache.Reg[urls] = data twtxtCache.Mu.Unlock() } else { // If we've come across an entry for // a remote twtxt registry to scrape, // add it to our list. remoteRegistries.Mu.Lock() remoteRegistries.List = append(remoteRegistries.List, val) remoteRegistries.Mu.Unlock() } } iter.Release() err := iter.Error() if err != nil { log.Printf("Error while pulling DB into registry cache: %v\n", err) } } // pingAssets checks if the local static assets // need to be re-cached. If they do, they are // pulled back into memory from disk. func pingAssets() { cssStat, err := os.Stat("assets/style.css") if err != nil { log.Printf("%v\n", err) } indexStat, err := os.Stat("assets/tmpl/index.html") if err != nil { log.Printf("%v\n", err) } indexMod := staticCache.indexMod cssMod := staticCache.cssMod if !indexMod.Equal(indexStat.ModTime()) { tmpls = initTemplates() var b []byte buf := bytes.NewBuffer(b) confObj.Mu.RLock() err = tmpls.ExecuteTemplate(buf, "index.html", confObj.Instance) confObj.Mu.RUnlock() if err != nil { log.Printf("%v\n", err) } staticCache.index = buf.Bytes() staticCache.indexMod = indexStat.ModTime() } if !cssMod.Equal(cssStat.ModTime()) { css, err := ioutil.ReadFile("assets/style.css") if err != nil { log.Printf("%v\n", err) } staticCache.css = css staticCache.cssMod = cssStat.ModTime() } }