package report import ( "encoding/json" "time" ) type Report struct { StartAt, FinishAt time.Time WaitReconnectSince, WaitReconnectUntil time.Time WaitReconnectError *TimedError Attempts []*AttemptReport } var _, _ = json.Marshal(&Report{}) type TimedError struct { Err string Time time.Time } func NewTimedError(err string, t time.Time) *TimedError { if err == "" { panic("error must be empty") } if t.IsZero() { panic("t must be non-zero") } return &TimedError{err, t} } func (s *TimedError) Error() string { return s.Err } var _, _ = json.Marshal(&TimedError{}) type AttemptReport struct { State AttemptState StartAt, FinishAt time.Time PlanError *TimedError Filesystems []*FilesystemReport } type AttemptState string const ( AttemptPlanning AttemptState = "planning" AttemptPlanningError AttemptState = "planning-error" AttemptFanOutFSs AttemptState = "fan-out-filesystems" AttemptFanOutError AttemptState = "filesystem-error" AttemptDone AttemptState = "done" ) type FilesystemState string const ( FilesystemPlanning FilesystemState = "planning" FilesystemPlanningErrored FilesystemState = "planning-error" FilesystemStepping FilesystemState = "stepping" FilesystemSteppingErrored FilesystemState = "step-error" FilesystemDone FilesystemState = "done" ) type FilesystemReport struct { Info *FilesystemInfo State FilesystemState // Valid in State = FilesystemPlanningErrored PlanError *TimedError // Valid in State = FilesystemSteppingErrored StepError *TimedError // Valid in State = FilesystemStepping CurrentStep int Steps []*StepReport } type FilesystemInfo struct { Name string } type StepReport struct { Info *StepInfo } type EncryptedEnum string const ( EncryptedTrue EncryptedEnum = "yes" EncryptedFalse EncryptedEnum = "no" EncryptedSenderDependent EncryptedEnum = "sender-dependent" ) type StepInfo struct { From, To string Resumed bool Encrypted EncryptedEnum BytesExpected uint64 BytesReplicated uint64 } func (a *AttemptReport) BytesSum() (expected, replicated uint64, containsInvalidSizeEstimates bool) { for _, fs := range a.Filesystems { e, r, fsContainsInvalidEstimate := fs.BytesSum() containsInvalidSizeEstimates = containsInvalidSizeEstimates || fsContainsInvalidEstimate expected += e replicated += r } return expected, replicated, containsInvalidSizeEstimates } func (f *FilesystemReport) BytesSum() (expected, replicated uint64, containsInvalidSizeEstimates bool) { for _, step := range f.Steps { expected += step.Info.BytesExpected replicated += step.Info.BytesReplicated containsInvalidSizeEstimates = containsInvalidSizeEstimates || step.Info.BytesExpected == 0 } return } func (f *AttemptReport) FilesystemsByState() map[FilesystemState][]*FilesystemReport { r := make(map[FilesystemState][]*FilesystemReport, 4) for _, fs := range f.Filesystems { l := r[fs.State] l = append(l, fs) r[fs.State] = l } return r } func (f *FilesystemReport) Error() *TimedError { switch f.State { case FilesystemPlanningErrored: return f.PlanError case FilesystemSteppingErrored: return f.StepError } return nil } // may return nil func (f *FilesystemReport) NextStep() *StepReport { switch f.State { case FilesystemDone: return nil case FilesystemPlanningErrored: return nil case FilesystemSteppingErrored: return nil case FilesystemPlanning: return nil case FilesystemStepping: // invariant is that this is always correct // TODO what about 0-length Steps but short intermediary state? return f.Steps[f.CurrentStep] } panic("unreachable") } func (f *StepReport) IsIncremental() bool { return f.Info.From != "" } // Returns, for the latest replication attempt, // 0 if there have not been any replication attempts, // -1 if the replication failed while enumerating file systems // N if N filesystems could not not be replicated successfully func (r *Report) GetFailedFilesystemsCountInLatestAttempt() int { if len(r.Attempts) == 0 { return 0 } a := r.Attempts[len(r.Attempts)-1] switch a.State { case AttemptPlanningError: return -1 case AttemptFanOutError: var count int for _, f := range a.Filesystems { if f.Error() != nil { count++ } } return count default: return 0 } }