package app import ( "bufio" "syscall" "log" "os" "os/exec" "os/signal" "strings" "sync" "time" ) // Executes a command and channel-send its stdout func cmdStdout(commandline []string) chan *string { lines := make(chan *string) go func() { cmd := exec.Command(commandline[0], commandline[1:]...) stdout, err := cmd.StdoutPipe() if err != nil { log.Fatalln("FATAL couldn't open stdout on command:", err) } if err := cmd.Start(); err != nil { log.Fatalln("FATAL couldn't start command:", err) } defer stdout.Close() scanner := bufio.NewScanner(stdout) for scanner.Scan() { line := scanner.Text() lines <- &line } close(lines) }() return lines } func (p *Pattern) notAnIgnore(match *string) bool { for _, ignore := range p.Ignore { if ignore == *match { return false } } return true } // Whether one of the filter's regexes is matched on a line func (f *Filter) match(line *string) string { for _, regex := range f.compiledRegex { if matches := regex.FindStringSubmatch(*line); matches != nil { match := matches[regex.SubexpIndex(f.pattern.name)] if f.pattern.notAnIgnore(&match) { log.Printf("INFO %s.%s: match [%v]\n", f.stream.name, f.name, match) return match } } } return "" } func (f *Filter) sendActions(match string, at time.Time) { for _, a := range f.Actions { actionsC <- PAT{match, a, at.Add(a.afterDuration)} } } func (a *Action) exec(match string) { wgActions.Add(1) go func() { defer wgActions.Done() computedCommand := make([]string, 0, len(a.Cmd)) for _, item := range a.Cmd { computedCommand = append(computedCommand, strings.ReplaceAll(item, a.filter.pattern.nameWithBraces, match)) } log.Printf("INFO %s.%s.%s: run %s\n", a.filter.stream.name, a.filter.name, a.name, computedCommand) cmd := exec.Command(computedCommand[0], computedCommand[1:]...) if ret := cmd.Run(); ret != nil { log.Printf("ERROR %s.%s.%s: run %s, code %s\n", a.filter.stream.name, a.filter.name, a.name, computedCommand, ret) } }() } func ActionsManager() { pendingActionsC := make(chan PAT) for { select { case pat := <-actionsC: pa := PA{pat.p, pat.a} pattern, action, then := pat.p, pat.a, pat.t now := time.Now() // check if must be executed now if then.Compare(now) <= 0 { action.exec(pattern) } else { actionsLock.Lock() if actions[pa] == nil { actions[pa] = make(map[time.Time]struct{}) } actions[PA{pattern, action}][then] = struct{}{} actionsLock.Unlock() go func(insidePat PAT, insideNow time.Time) { time.Sleep(insidePat.t.Sub(insideNow)) pendingActionsC <- insidePat }(pat, now) } case pat := <-pendingActionsC: pa := PA{pat.p, pat.a} pattern, action, then := pat.p, pat.a, pat.t actionsLock.Lock() if actions[pa] != nil { if _, ok := actions[pa][then]; ok { delete(actions[pa], then) action.exec(pattern) } } actionsLock.Unlock() action.exec(pattern) case fo := <-flushToActionsC: ret := make(map[*Action]int) actionsLock.Lock() for pa := range actions { if pa.p == fo.p { for range actions[pa] { pa.a.exec(pa.p) } ret[pa.a] = len(actions[pa]) delete(actions, pa) } } actionsLock.Unlock() fo.ret <- ret case _, _ = <-stopActions: actionsLock.Lock() for pat := range actions { if pat.a.OnExit { pat.a.exec(pat.p) } } actionsLock.Unlock() wgActions.Done() return } } } func MatchesManager() { var fo FlushMatchOrder var pft PFT end := false for !end { select { case fo = <-flushToMatchesC: matchesManagerHandleFlush(fo) case fo, ok := <-startupMatchesC: if !ok { end = true } else { _ = matchesManagerHandleMatch(fo) } } } for { select { case fo = <-flushToMatchesC: matchesManagerHandleFlush(fo) case pft = <-matchesC: entry := LogEntry{pft.t, pft.p, pft.f.stream.name, pft.f.name, false} entry.Exec = matchesManagerHandleMatch(pft) logsC <- entry } } } func matchesManagerHandleFlush(fo FlushMatchOrder) { ret := make(map[*Filter]int) matchesLock.Lock() for pf := range matches { if fo.p == pf.p { if fo.ret != nil { ret[pf.f] = len(matches[pf]) } delete(matches, pf) } } matchesLock.Unlock() if fo.ret != nil { fo.ret <- ret } } func matchesManagerHandleMatch(pft PFT) bool { matchesLock.Lock() defer matchesLock.Unlock() filter, pattern, then := pft.f, pft.p, pft.t pf := PF{pft.p, pft.f} if filter.Retry > 1 { // make sure map exists if matches[pf] == nil { matches[pf] = make(map[time.Time]struct{}) } // add new match matches[pf][then] = struct{}{} // remove match when expired go func(pf PF, then time.Time) { time.Sleep(then.Sub(time.Now()) + filter.retryDuration) matchesLock.Lock() if matches[pf] != nil { // FIXME replace this and all similar occurences // by clear() when switching to go 1.21 delete(matches[pf], then) } matchesLock.Unlock() }(pf, then) } if filter.Retry <= 1 || len(matches[pf]) >= filter.Retry { delete(matches, pf) filter.sendActions(pattern, then) return true } return false } func StreamManager(s *Stream, endedSignal chan *Stream) { defer wgStreams.Done() log.Printf("INFO %s: start %s\n", s.name, s.Cmd) lines := cmdStdout(s.Cmd) for { select { case line, ok := <-lines: if !ok { endedSignal <- s return } for _, filter := range s.Filters { if match := filter.match(line); match != "" { matchesC <- PFT{match, filter, time.Now()} } } case _, _ = <-stopStreams: return } } } var actions ActionsMap var matches MatchesMap var actionsLock sync.Mutex var matchesLock sync.Mutex var stopStreams chan bool var stopActions chan bool var wgActions sync.WaitGroup var wgStreams sync.WaitGroup /* ↓ StreamManager onstartup:matches ↓ ↓ ↑ matches→ MatchesManager →logs→ DatabaseManager ←· ↑ ↓ ↑ ↑ actions→ ActionsManager ↑ ↑ ↑ ↑ SocketManager →flushes→→→→→→→→→→·→→→→→→→→→→→→→→→→· ↑ */ // DatabaseManager → MatchesManager var startupMatchesC chan PFT // StreamManager → MatchesManager var matchesC chan PFT // MatchesManager → DatabaseManager var logsC chan LogEntry // MatchesManager → ActionsManager var actionsC chan PAT // SocketManager, DatabaseManager → MatchesManager var flushToMatchesC chan FlushMatchOrder // SocketManager → ActionsManager var flushToActionsC chan FlushActionOrder // SocketManager → DatabaseManager var flushToDatabaseC chan LogEntry func Daemon(confFilename string) { conf := parseConf(confFilename) startupMatchesC = make(chan PFT) matchesC = make(chan PFT) logsC = make(chan LogEntry) actionsC = make(chan PAT) flushToMatchesC = make(chan FlushMatchOrder) flushToActionsC = make(chan FlushActionOrder) flushToDatabaseC = make(chan LogEntry) stopActions = make(chan bool) stopStreams = make(chan bool) actions = make(ActionsMap) matches = make(MatchesMap) go DatabaseManager(conf) go MatchesManager() go ActionsManager() // Ready to start sigs := make(chan os.Signal, 1) signal.Notify(sigs, syscall.SIGINT, syscall.SIGTERM) endSignals := make(chan *Stream) nbStreamsInExecution := len(conf.Streams) for _, stream := range conf.Streams { wgStreams.Add(1) go StreamManager(stream, endSignals) } go SocketManager(conf.Streams) for { select { case finishedStream := <-endSignals: log.Printf("ERROR %s stream finished", finishedStream.name) nbStreamsInExecution-- if nbStreamsInExecution == 0 { quit() } case <-sigs: log.Printf("INFO Received SIGINT/SIGTERM, exiting") quit() } } } func quit() { // send stop to StreamManager·s close(stopStreams) log.Println("INFO Waiting for Streams to finish...") wgStreams.Wait() // ActionsManager calls wgActions.Done() when it has launched all pending actions wgActions.Add(1) // send stop to ActionsManager close(stopActions) // stop all actions log.Println("INFO Waiting for Actions to finish...") wgActions.Wait() // delete pipe err := os.Remove(*SocketPath) if err != nil { log.Println("Failed to remove socket:", err) } os.Exit(3) }