package querylog import ( "fmt" "net" "os" "path/filepath" "strconv" "strings" "sync" "time" "github.com/AdguardTeam/AdGuardHome/dnsfilter" "github.com/AdguardTeam/golibs/log" "github.com/miekg/dns" ) const ( logBufferCap = 5000 // maximum capacity of buffer before it's flushed to disk queryLogFileName = "querylog.json" // .gz added during compression getDataLimit = 500 // GetData(): maximum log entries to return // maximum entries to parse when searching maxSearchEntries = 50000 ) // queryLog is a structure that writes and reads the DNS query log type queryLog struct { conf Config logFile string // path to the log file bufferLock sync.RWMutex buffer []*logEntry fileFlushLock sync.Mutex // synchronize a file-flushing goroutine and main thread flushPending bool // don't start another goroutine while the previous one is still running fileWriteLock sync.Mutex } // create a new instance of the query log func newQueryLog(conf Config) *queryLog { l := queryLog{} l.logFile = filepath.Join(conf.BaseDir, queryLogFileName) l.conf = conf if !checkInterval(l.conf.Interval) { l.conf.Interval = 1 } if l.conf.HTTPRegister != nil { l.initWeb() } go l.periodicRotate() return &l } func (l *queryLog) Close() { _ = l.flushLogBuffer(true) } func checkInterval(days uint32) bool { return days == 1 || days == 7 || days == 30 || days == 90 } // Set new configuration at runtime func (l *queryLog) configure(conf Config) { l.conf.Enabled = conf.Enabled l.conf.Interval = conf.Interval } func (l *queryLog) WriteDiskConfig(dc *DiskConfig) { dc.Enabled = l.conf.Enabled dc.Interval = l.conf.Interval } // Clear memory buffer and remove log files func (l *queryLog) clear() { l.fileFlushLock.Lock() defer l.fileFlushLock.Unlock() l.bufferLock.Lock() l.buffer = nil l.flushPending = false l.bufferLock.Unlock() err := os.Remove(l.logFile + ".1") if err != nil && !os.IsNotExist(err) { log.Error("file remove: %s: %s", l.logFile+".1", err) } err = os.Remove(l.logFile) if err != nil && !os.IsNotExist(err) { log.Error("file remove: %s: %s", l.logFile, err) } log.Debug("Query log: cleared") } type logEntry struct { IP string `json:"IP"` Time time.Time `json:"T"` QHost string `json:"QH"` QType string `json:"QT"` QClass string `json:"QC"` Answer []byte `json:",omitempty"` // sometimes empty answers happen like binerdunt.top or rev2.globalrootservers.net Result dnsfilter.Result Elapsed time.Duration Upstream string `json:",omitempty"` // if empty, means it was cached } func (l *queryLog) Add(question *dns.Msg, answer *dns.Msg, result *dnsfilter.Result, elapsed time.Duration, ip net.IP, upstream string) { if !l.conf.Enabled { return } if question == nil || len(question.Question) != 1 || len(question.Question[0].Name) == 0 || ip == nil { return } var a []byte var err error if answer != nil { a, err = answer.Pack() if err != nil { log.Printf("failed to pack answer for querylog: %s", err) return } } if result == nil { result = &dnsfilter.Result{} } now := time.Now() entry := logEntry{ IP: ip.String(), Time: now, Answer: a, Result: *result, Elapsed: elapsed, Upstream: upstream, } q := question.Question[0] entry.QHost = strings.ToLower(q.Name[:len(q.Name)-1]) // remove the last dot entry.QType = dns.Type(q.Qtype).String() entry.QClass = dns.Class(q.Qclass).String() l.bufferLock.Lock() l.buffer = append(l.buffer, &entry) needFlush := false if !l.flushPending { needFlush = len(l.buffer) >= logBufferCap if needFlush { l.flushPending = true } } l.bufferLock.Unlock() // if buffer needs to be flushed to disk, do it now if needFlush { // write to file // do it in separate goroutine -- we are stalling DNS response this whole time go l.flushLogBuffer(false) // nolint } } // Return TRUE if this entry is needed func isNeeded(entry *logEntry, params getDataParams) bool { if params.ResponseStatus == responseStatusFiltered && !entry.Result.IsFiltered { return false } if len(params.QuestionType) != 0 { if entry.QType != params.QuestionType { return false } } if len(params.Domain) != 0 { if (params.StrictMatchDomain && entry.QHost != params.Domain) || (!params.StrictMatchDomain && strings.Index(entry.QHost, params.Domain) == -1) { return false } } if len(params.Client) != 0 { if (params.StrictMatchClient && entry.IP != params.Client) || (!params.StrictMatchClient && strings.Index(entry.IP, params.Client) == -1) { return false } } return true } func (l *queryLog) readFromFile(params getDataParams) ([]*logEntry, time.Time, int) { entries := []*logEntry{} oldest := time.Time{} r := l.OpenReader() if r == nil { return entries, time.Time{}, 0 } r.BeginRead(params.OlderThan, getDataLimit, ¶ms) total := uint64(0) for total <= maxSearchEntries { newEntries := []*logEntry{} for { entry := r.Next() if entry == nil { break } if !isNeeded(entry, params) { continue } if len(newEntries) == getDataLimit { newEntries = newEntries[1:] } newEntries = append(newEntries, entry) } log.Debug("entries: +%d (%d) [%d]", len(newEntries), len(entries), r.Total()) entries = append(newEntries, entries...) if len(entries) > getDataLimit { toremove := len(entries) - getDataLimit entries = entries[toremove:] break } if r.Total() == 0 || len(entries) == getDataLimit { break } total += r.Total() oldest = r.Oldest() r.BeginReadPrev(getDataLimit) } r.Close() return entries, oldest, int(total) } // Parameters for getData() type getDataParams struct { OlderThan time.Time // return entries that are older than this value Domain string // filter by domain name in question Client string // filter by client IP QuestionType string // filter by question type ResponseStatus responseStatusType // filter by response status StrictMatchDomain bool // if Domain value must be matched strictly StrictMatchClient bool // if Client value must be matched strictly } // Response status type responseStatusType int32 // Response status constants const ( responseStatusAll responseStatusType = iota + 1 responseStatusFiltered ) // Get log entries func (l *queryLog) getData(params getDataParams) map[string]interface{} { var data = []map[string]interface{}{} var oldest time.Time now := time.Now() entries := []*logEntry{} total := 0 // add from file entries, oldest, total = l.readFromFile(params) if params.OlderThan.IsZero() { params.OlderThan = now } // add from memory buffer l.bufferLock.Lock() total += len(l.buffer) for _, entry := range l.buffer { if !isNeeded(entry, params) { continue } if entry.Time.UnixNano() >= params.OlderThan.UnixNano() { break } if len(entries) == getDataLimit { entries = entries[1:] } entries = append(entries, entry) } l.bufferLock.Unlock() // process the elements from latest to oldest for i := len(entries) - 1; i >= 0; i-- { entry := entries[i] var a *dns.Msg if len(entry.Answer) > 0 { a = new(dns.Msg) if err := a.Unpack(entry.Answer); err != nil { log.Debug("Failed to unpack dns message answer: %s: %s", err, string(entry.Answer)) a = nil } } jsonEntry := map[string]interface{}{ "reason": entry.Result.Reason.String(), "elapsedMs": strconv.FormatFloat(entry.Elapsed.Seconds()*1000, 'f', -1, 64), "time": entry.Time.Format(time.RFC3339Nano), "client": entry.IP, } jsonEntry["question"] = map[string]interface{}{ "host": entry.QHost, "type": entry.QType, "class": entry.QClass, } if a != nil { jsonEntry["status"] = dns.RcodeToString[a.Rcode] } if len(entry.Result.Rule) > 0 { jsonEntry["rule"] = entry.Result.Rule jsonEntry["filterId"] = entry.Result.FilterID } if len(entry.Result.ServiceName) != 0 { jsonEntry["service_name"] = entry.Result.ServiceName } answers := answerToMap(a) if answers != nil { jsonEntry["answer"] = answers } data = append(data, jsonEntry) } log.Debug("QueryLog: prepared data (%d/%d) older than %s in %s", len(entries), total, params.OlderThan, time.Since(now)) var result = map[string]interface{}{} if len(entries) == getDataLimit { oldest = entries[0].Time } result["oldest"] = "" if !oldest.IsZero() { result["oldest"] = oldest.Format(time.RFC3339Nano) } result["data"] = data return result } func answerToMap(a *dns.Msg) []map[string]interface{} { if a == nil || len(a.Answer) == 0 { return nil } var answers = []map[string]interface{}{} for _, k := range a.Answer { header := k.Header() answer := map[string]interface{}{ "type": dns.TypeToString[header.Rrtype], "ttl": header.Ttl, } // try most common record types switch v := k.(type) { case *dns.A: answer["value"] = v.A case *dns.AAAA: answer["value"] = v.AAAA case *dns.MX: answer["value"] = fmt.Sprintf("%v %v", v.Preference, v.Mx) case *dns.CNAME: answer["value"] = v.Target case *dns.NS: answer["value"] = v.Ns case *dns.SPF: answer["value"] = v.Txt case *dns.TXT: answer["value"] = v.Txt case *dns.PTR: answer["value"] = v.Ptr case *dns.SOA: answer["value"] = fmt.Sprintf("%v %v %v %v %v %v %v", v.Ns, v.Mbox, v.Serial, v.Refresh, v.Retry, v.Expire, v.Minttl) case *dns.CAA: answer["value"] = fmt.Sprintf("%v %v \"%v\"", v.Flag, v.Tag, v.Value) case *dns.HINFO: answer["value"] = fmt.Sprintf("\"%v\" \"%v\"", v.Cpu, v.Os) case *dns.RRSIG: answer["value"] = fmt.Sprintf("%v %v %v %v %v %v %v %v %v", dns.TypeToString[v.TypeCovered], v.Algorithm, v.Labels, v.OrigTtl, v.Expiration, v.Inception, v.KeyTag, v.SignerName, v.Signature) default: // type unknown, marshall it as-is answer["value"] = v } answers = append(answers, answer) } return answers }