package cmd import ( "net" "os" "os/signal" "syscall" "time" "context" "fmt" "github.com/mitchellh/mapstructure" "github.com/pkg/errors" "github.com/problame/go-streamrpc" "github.com/zrepl/zrepl/cmd/replication" ) type PullJob struct { Name string Connect streamrpc.Connecter Interval time.Duration Mapping *DatasetMapFilter // constructed from mapping during parsing pruneFilter *DatasetMapFilter SnapshotPrefix string InitialReplPolicy InitialReplPolicy Prune PrunePolicy Debug JobDebugSettings task *Task rep *replication.Replication } func parsePullJob(c JobParsingContext, name string, i map[string]interface{}) (j *PullJob, err error) { var asMap struct { Connect map[string]interface{} Interval string Mapping map[string]string InitialReplPolicy string `mapstructure:"initial_repl_policy"` Prune map[string]interface{} SnapshotPrefix string `mapstructure:"snapshot_prefix"` Debug map[string]interface{} } if err = mapstructure.Decode(i, &asMap); err != nil { err = errors.Wrap(err, "mapstructure error") return nil, err } j = &PullJob{Name: name} j.Connect, err = parseSSHStdinserverConnecter(asMap.Connect) if err != nil { err = errors.Wrap(err, "cannot parse 'connect'") return nil, err } if j.Interval, err = parsePostitiveDuration(asMap.Interval); err != nil { err = errors.Wrap(err, "cannot parse 'interval'") return nil, err } j.Mapping, err = parseDatasetMapFilter(asMap.Mapping, false) if err != nil { err = errors.Wrap(err, "cannot parse 'mapping'") return nil, err } if j.pruneFilter, err = j.Mapping.InvertedFilter(); err != nil { err = errors.Wrap(err, "cannot automatically invert 'mapping' for prune job") return nil, err } j.InitialReplPolicy, err = parseInitialReplPolicy(asMap.InitialReplPolicy, DEFAULT_INITIAL_REPL_POLICY) if err != nil { err = errors.Wrap(err, "cannot parse 'initial_repl_policy'") return } if j.SnapshotPrefix, err = parseSnapshotPrefix(asMap.SnapshotPrefix); err != nil { return } if j.Prune, err = parsePrunePolicy(asMap.Prune, false); err != nil { err = errors.Wrap(err, "cannot parse prune policy") return } if err = mapstructure.Decode(asMap.Debug, &j.Debug); err != nil { err = errors.Wrap(err, "cannot parse 'debug'") return } if j.Debug.Conn.ReadDump != "" || j.Debug.Conn.WriteDump != "" { logConnecter := logNetConnConnecter{ Connecter: j.Connect, ReadDump: j.Debug.Conn.ReadDump, WriteDump: j.Debug.Conn.WriteDump, } j.Connect = logConnecter } return } func (j *PullJob) JobName() string { return j.Name } func (j *PullJob) JobType() JobType { return JobTypePull } func (j *PullJob) JobStart(ctx context.Context) { log := ctx.Value(contextKeyLog).(Logger) defer log.Info("exiting") j.task = NewTask("main", j, log) // j.task is idle here idle here usr1 := make(chan os.Signal) signal.Notify(usr1, syscall.SIGUSR1) defer signal.Stop(usr1) ticker := time.NewTicker(j.Interval) for { begin := time.Now() j.doRun(ctx) duration := time.Now().Sub(begin) if duration > j.Interval { j.task.Log(). WithField("actual_duration", duration). WithField("configured_interval", j.Interval). Warn("pull run took longer than configured interval") } select { case <-ctx.Done(): j.task.Log().WithError(ctx.Err()).Info("context") return case <-ticker.C: case <-usr1: } } } var STREAMRPC_CONFIG = &streamrpc.ConnConfig{ // FIXME oversight and configurability RxHeaderMaxLen: 4096, RxStructuredMaxLen: 4096 * 4096, RxStreamMaxChunkSize: 4096 * 4096, TxChunkSize: 4096 * 4096, RxTimeout: streamrpc.Timeout{ Progress: 10 * time.Second, }, TxTimeout: streamrpc.Timeout{ Progress: 10 * time.Second, }, } func (j *PullJob) doRun(ctx context.Context) { j.task.Enter("run") defer j.task.Finish() // FIXME clientConf := &streamrpc.ClientConfig{ ConnConfig: STREAMRPC_CONFIG, } //client, err := streamrpc.NewClient(j.Connect, clientConf) client, err := streamrpc.NewClient(&tcpConnecter{net.Dialer{ Timeout: 10*time.Second, }}, clientConf) defer client.Close() j.task.Enter("pull") sender := RemoteEndpoint{client} puller, err := NewReceiverEndpoint( j.Mapping, NewPrefixFilter(j.SnapshotPrefix), ) if err != nil { j.task.Log().WithError(err).Error("error creating receiver endpoint") j.task.Finish() return } ctx = replication.WithLogger(ctx, replicationLogAdaptor{j.task.Log().WithField("subsystem", "replication")}) ctx = streamrpc.ContextWithLogger(ctx, streamrpcLogAdaptor{j.task.Log().WithField("subsystem", "rpc.protocol")}) ctx = context.WithValue(ctx, contextKeyLog, j.task.Log().WithField("subsystem", "rpc.endpoint")) j.rep = replication.NewReplication() j.rep.Drive(ctx, sender, puller) client.Close() j.task.Finish() j.task.Enter("prune") pruner, err := j.Pruner(j.task, PrunePolicySideDefault, false) if err != nil { j.task.Log().WithError(err).Error("error creating pruner") } else { pruner.Run(ctx) } j.task.Finish() } func (j *PullJob) Report() *replication.Report { return j.rep.Report() } func (j *PullJob) JobStatus(ctxt context.Context) (*JobStatus, error) { return &JobStatus{Tasks: []*TaskStatus{j.task.Status()}}, nil } func (j *PullJob) Pruner(task *Task, side PrunePolicySide, dryRun bool) (p Pruner, err error) { p = Pruner{ task, time.Now(), dryRun, j.pruneFilter, j.SnapshotPrefix, j.Prune, } return } func closeRPCWithTimeout(task *Task, remote RemoteEndpoint, timeout time.Duration, goodbye string) { task.Log().Info("closing rpc connection") ch := make(chan error) go func() { remote.Close() ch <- nil close(ch) }() var err error select { case <-time.After(timeout): err = fmt.Errorf("timeout exceeded (%s)", timeout) case closeRequestErr := <-ch: err = closeRequestErr } if err != nil { task.Log().WithError(err).Error("error closing connection") } return }