lotus/extern/storage-sealing/fsm.go
2022-03-03 18:17:01 -05:00

775 lines
22 KiB
Go

//go:generate go run ./gen
package sealing
import (
"bytes"
"context"
"encoding/json"
"fmt"
"reflect"
"time"
"golang.org/x/xerrors"
"github.com/filecoin-project/go-state-types/abi"
statemachine "github.com/filecoin-project/go-statemachine"
)
func (m *Sealing) Plan(events []statemachine.Event, user interface{}) (interface{}, uint64, error) {
next, processed, err := m.plan(events, user.(*SectorInfo))
if err != nil || next == nil {
return nil, processed, err
}
return func(ctx statemachine.Context, si SectorInfo) error {
err := next(ctx, si)
if err != nil {
log.Errorf("unhandled sector error (%d): %+v", si.SectorNumber, err)
return nil
}
return nil
}, processed, nil // TODO: This processed event count is not very correct
}
var fsmPlanners = map[SectorState]func(events []statemachine.Event, state *SectorInfo) (uint64, error){
// Sealing
UndefinedSectorState: planOne(
on(SectorStart{}, WaitDeals),
on(SectorStartCC{}, Packing),
),
Empty: planOne( // deprecated
on(SectorAddPiece{}, AddPiece),
on(SectorStartPacking{}, Packing),
),
WaitDeals: planOne(
on(SectorAddPiece{}, AddPiece),
on(SectorStartPacking{}, Packing),
),
AddPiece: planOne(
on(SectorPieceAdded{}, WaitDeals),
apply(SectorStartPacking{}),
apply(SectorAddPiece{}),
on(SectorAddPieceFailed{}, AddPieceFailed),
),
Packing: planOne(on(SectorPacked{}, GetTicket)),
GetTicket: planOne(
on(SectorTicket{}, PreCommit1),
on(SectorCommitFailed{}, CommitFailed),
),
PreCommit1: planOne(
on(SectorPreCommit1{}, PreCommit2),
on(SectorSealPreCommit1Failed{}, SealPreCommit1Failed),
on(SectorDealsExpired{}, DealsExpired),
on(SectorInvalidDealIDs{}, RecoverDealIDs),
on(SectorOldTicket{}, GetTicket),
),
PreCommit2: planOne(
on(SectorPreCommit2{}, PreCommitting),
on(SectorSealPreCommit2Failed{}, SealPreCommit2Failed),
on(SectorSealPreCommit1Failed{}, SealPreCommit1Failed),
),
PreCommitting: planOne(
on(SectorPreCommitBatch{}, SubmitPreCommitBatch),
on(SectorPreCommitted{}, PreCommitWait),
on(SectorSealPreCommit1Failed{}, SealPreCommit1Failed),
on(SectorChainPreCommitFailed{}, PreCommitFailed),
on(SectorPreCommitLanded{}, WaitSeed),
on(SectorDealsExpired{}, DealsExpired),
on(SectorInvalidDealIDs{}, RecoverDealIDs),
),
SubmitPreCommitBatch: planOne(
on(SectorPreCommitBatchSent{}, PreCommitBatchWait),
on(SectorSealPreCommit1Failed{}, SealPreCommit1Failed),
on(SectorChainPreCommitFailed{}, PreCommitFailed),
on(SectorPreCommitLanded{}, WaitSeed),
on(SectorDealsExpired{}, DealsExpired),
on(SectorInvalidDealIDs{}, RecoverDealIDs),
),
PreCommitBatchWait: planOne(
on(SectorChainPreCommitFailed{}, PreCommitFailed),
on(SectorPreCommitLanded{}, WaitSeed),
on(SectorRetryPreCommit{}, PreCommitting),
),
PreCommitWait: planOne(
on(SectorChainPreCommitFailed{}, PreCommitFailed),
on(SectorPreCommitLanded{}, WaitSeed),
on(SectorRetryPreCommit{}, PreCommitting),
),
WaitSeed: planOne(
on(SectorSeedReady{}, Committing),
on(SectorChainPreCommitFailed{}, PreCommitFailed),
),
Committing: planCommitting,
CommitFinalize: planOne(
on(SectorFinalized{}, SubmitCommit),
on(SectorFinalizeFailed{}, CommitFinalizeFailed),
),
SubmitCommit: planOne(
on(SectorCommitSubmitted{}, CommitWait),
on(SectorSubmitCommitAggregate{}, SubmitCommitAggregate),
on(SectorCommitFailed{}, CommitFailed),
),
SubmitCommitAggregate: planOne(
on(SectorCommitAggregateSent{}, CommitAggregateWait),
on(SectorCommitFailed{}, CommitFailed),
on(SectorRetrySubmitCommit{}, SubmitCommit),
),
CommitWait: planOne(
on(SectorProving{}, FinalizeSector),
on(SectorCommitFailed{}, CommitFailed),
on(SectorRetrySubmitCommit{}, SubmitCommit),
),
CommitAggregateWait: planOne(
on(SectorProving{}, FinalizeSector),
on(SectorCommitFailed{}, CommitFailed),
on(SectorRetrySubmitCommit{}, SubmitCommit),
),
FinalizeSector: planOne(
on(SectorFinalized{}, Proving),
on(SectorFinalizeFailed{}, FinalizeFailed),
),
// Snap deals
SnapDealsWaitDeals: planOne(
on(SectorAddPiece{}, SnapDealsAddPiece),
on(SectorStartPacking{}, SnapDealsPacking),
on(SectorAbortUpgrade{}, AbortUpgrade),
),
SnapDealsAddPiece: planOne(
on(SectorPieceAdded{}, SnapDealsWaitDeals),
apply(SectorStartPacking{}),
apply(SectorAddPiece{}),
on(SectorAddPieceFailed{}, SnapDealsAddPieceFailed),
on(SectorAbortUpgrade{}, AbortUpgrade),
),
SnapDealsPacking: planOne(
on(SectorPacked{}, UpdateReplica),
on(SectorAbortUpgrade{}, AbortUpgrade),
),
UpdateReplica: planOne(
on(SectorReplicaUpdate{}, ProveReplicaUpdate),
on(SectorUpdateReplicaFailed{}, ReplicaUpdateFailed),
on(SectorDealsExpired{}, SnapDealsDealsExpired),
on(SectorInvalidDealIDs{}, SnapDealsRecoverDealIDs),
on(SectorAbortUpgrade{}, AbortUpgrade),
),
ProveReplicaUpdate: planOne(
on(SectorProveReplicaUpdate{}, SubmitReplicaUpdate),
on(SectorProveReplicaUpdateFailed{}, ReplicaUpdateFailed),
on(SectorDealsExpired{}, SnapDealsDealsExpired),
on(SectorInvalidDealIDs{}, SnapDealsRecoverDealIDs),
on(SectorAbortUpgrade{}, AbortUpgrade),
),
SubmitReplicaUpdate: planOne(
on(SectorReplicaUpdateSubmitted{}, ReplicaUpdateWait),
on(SectorSubmitReplicaUpdateFailed{}, ReplicaUpdateFailed),
),
ReplicaUpdateWait: planOne(
on(SectorReplicaUpdateLanded{}, FinalizeReplicaUpdate),
on(SectorSubmitReplicaUpdateFailed{}, ReplicaUpdateFailed),
on(SectorAbortUpgrade{}, AbortUpgrade),
),
FinalizeReplicaUpdate: planOne(
on(SectorFinalized{}, UpdateActivating),
on(SectorFinalizeFailed{}, FinalizeReplicaUpdateFailed),
),
UpdateActivating: planOne(
on(SectorUpdateActive{}, ReleaseSectorKey),
),
ReleaseSectorKey: planOne(
on(SectorKeyReleased{}, Proving),
on(SectorReleaseKeyFailed{}, ReleaseSectorKeyFailed),
),
// Sealing errors
AddPieceFailed: planOne(
on(SectorRetryWaitDeals{}, WaitDeals),
apply(SectorStartPacking{}),
apply(SectorAddPiece{}),
),
SealPreCommit1Failed: planOne(
on(SectorRetrySealPreCommit1{}, PreCommit1),
),
SealPreCommit2Failed: planOne(
on(SectorRetrySealPreCommit1{}, PreCommit1),
on(SectorRetrySealPreCommit2{}, PreCommit2),
),
PreCommitFailed: planOne(
on(SectorRetryPreCommit{}, PreCommitting),
on(SectorRetryPreCommitWait{}, PreCommitWait),
on(SectorRetryWaitSeed{}, WaitSeed),
on(SectorSealPreCommit1Failed{}, SealPreCommit1Failed),
on(SectorPreCommitLanded{}, WaitSeed),
on(SectorDealsExpired{}, DealsExpired),
on(SectorInvalidDealIDs{}, RecoverDealIDs),
),
ComputeProofFailed: planOne(
on(SectorRetryComputeProof{}, Committing),
on(SectorSealPreCommit1Failed{}, SealPreCommit1Failed),
),
CommitFinalizeFailed: planOne(
on(SectorRetryFinalize{}, CommitFinalize),
),
CommitFailed: planOne(
on(SectorSealPreCommit1Failed{}, SealPreCommit1Failed),
on(SectorRetryWaitSeed{}, WaitSeed),
on(SectorRetryComputeProof{}, Committing),
on(SectorRetryInvalidProof{}, Committing),
on(SectorRetryPreCommitWait{}, PreCommitWait),
on(SectorChainPreCommitFailed{}, PreCommitFailed),
on(SectorRetryPreCommit{}, PreCommitting),
on(SectorRetryCommitWait{}, CommitWait),
on(SectorRetrySubmitCommit{}, SubmitCommit),
on(SectorDealsExpired{}, DealsExpired),
on(SectorInvalidDealIDs{}, RecoverDealIDs),
on(SectorTicketExpired{}, Removing),
),
FinalizeFailed: planOne(
on(SectorRetryFinalize{}, FinalizeSector),
),
PackingFailed: planOne(), // TODO: Deprecated, remove
DealsExpired: planOne(
// SectorRemove (global)
),
RecoverDealIDs: planOne(
onReturning(SectorUpdateDealIDs{}),
),
// Snap Deals Errors
SnapDealsAddPieceFailed: planOne(
on(SectorRetryWaitDeals{}, SnapDealsWaitDeals),
apply(SectorStartPacking{}),
apply(SectorAddPiece{}),
on(SectorAbortUpgrade{}, AbortUpgrade),
),
SnapDealsDealsExpired: planOne(
on(SectorAbortUpgrade{}, AbortUpgrade),
),
SnapDealsRecoverDealIDs: planOne(
on(SectorUpdateDealIDs{}, SubmitReplicaUpdate),
on(SectorAbortUpgrade{}, AbortUpgrade),
),
AbortUpgrade: planOneOrIgnore(
on(SectorRevertUpgradeToProving{}, Proving),
),
ReplicaUpdateFailed: planOne(
on(SectorRetrySubmitReplicaUpdateWait{}, ReplicaUpdateWait),
on(SectorRetrySubmitReplicaUpdate{}, SubmitReplicaUpdate),
on(SectorRetryReplicaUpdate{}, UpdateReplica),
on(SectorRetryProveReplicaUpdate{}, ProveReplicaUpdate),
on(SectorInvalidDealIDs{}, SnapDealsRecoverDealIDs),
on(SectorDealsExpired{}, SnapDealsDealsExpired),
on(SectorAbortUpgrade{}, AbortUpgrade),
),
ReleaseSectorKeyFailed: planOne(
on(SectorUpdateActive{}, ReleaseSectorKey),
),
FinalizeReplicaUpdateFailed: planOne(
on(SectorRetryFinalize{}, FinalizeReplicaUpdate),
),
// Post-seal
Proving: planOne(
on(SectorFaultReported{}, FaultReported),
on(SectorFaulty{}, Faulty),
on(SectorStartCCUpdate{}, SnapDealsWaitDeals),
),
Terminating: planOne(
on(SectorTerminating{}, TerminateWait),
on(SectorTerminateFailed{}, TerminateFailed),
),
TerminateWait: planOne(
on(SectorTerminated{}, TerminateFinality),
on(SectorTerminateFailed{}, TerminateFailed),
),
TerminateFinality: planOne(
on(SectorTerminateFailed{}, TerminateFailed),
// SectorRemove (global)
),
TerminateFailed: planOne(
// SectorTerminating (global)
),
Removing: planOneOrIgnore(
on(SectorRemoved{}, Removed),
on(SectorRemoveFailed{}, RemoveFailed),
),
RemoveFailed: planOne(
// SectorRemove (global)
),
Faulty: planOne(
on(SectorFaultReported{}, FaultReported),
),
FaultReported: final, // not really supported right now
FaultedFinal: final,
Removed: final,
FailedUnrecoverable: final,
}
func (m *Sealing) logEvents(events []statemachine.Event, state *SectorInfo) {
for _, event := range events {
log.Debugw("sector event", "sector", state.SectorNumber, "type", fmt.Sprintf("%T", event.User), "event", event.User)
e, err := json.Marshal(event)
if err != nil {
log.Errorf("marshaling event for logging: %+v", err)
continue
}
if event.User == (SectorRestart{}) {
continue // don't log on every fsm restart
}
if len(e) > 8000 {
e = []byte(string(e[:8000]) + "... truncated")
}
l := Log{
Timestamp: uint64(time.Now().Unix()),
Message: string(e),
Kind: fmt.Sprintf("event;%T", event.User),
}
if err, iserr := event.User.(xerrors.Formatter); iserr {
l.Trace = fmt.Sprintf("%+v", err)
}
if len(state.Log) > 8000 {
log.Warnw("truncating sector log", "sector", state.SectorNumber)
state.Log[2000] = Log{
Timestamp: uint64(time.Now().Unix()),
Message: "truncating log (above 8000 entries)",
Kind: fmt.Sprintf("truncate"),
}
state.Log = append(state.Log[:2000], state.Log[6000:]...)
}
state.Log = append(state.Log, l)
}
}
func (m *Sealing) plan(events []statemachine.Event, state *SectorInfo) (func(statemachine.Context, SectorInfo) error, uint64, error) {
/////
// First process all events
m.logEvents(events, state)
if m.notifee != nil {
defer func(before SectorInfo) {
m.notifee(before, *state)
}(*state) // take safe-ish copy of the before state (except for nested pointers)
}
p := fsmPlanners[state.State]
if p == nil {
if len(events) == 1 {
if _, ok := events[0].User.(globalMutator); ok {
p = planOne() // in case we're in a really weird state, allow restart / update state / remove
}
}
if p == nil {
return nil, 0, xerrors.Errorf("planner for state %s not found", state.State)
}
}
processed, err := p(events, state)
if err != nil {
return nil, 0, xerrors.Errorf("running planner for state %s failed: %w", state.State, err)
}
/////
// Now decide what to do next
/*
UndefinedSectorState (start)
v |
*<- WaitDeals <-> AddPiece |
| | /--------------------/
| v v
*<- Packing <- incoming committed capacity
| |
| v
| GetTicket
| | ^
| v |
*<- PreCommit1 <--> SealPreCommit1Failed
| | ^ ^^
| | *----------++----\
| v v || |
*<- PreCommit2 --------++--> SealPreCommit2Failed
| | ||
| v /-------/|
* PreCommitting <-----+---> PreCommitFailed
| | | ^
| v | |
*<- WaitSeed -----------+-----/
| ||| ^ |
| ||| \--------*-----/
| ||| |
| vvv v----+----> ComputeProofFailed
*<- Committing |
| | ^--> CommitFailed
| v ^
| SubmitCommit |
| | |
| v |
*<- CommitWait ---/
| |
| v
| FinalizeSector <--> FinalizeFailed
| |
| v
*<- Proving
|
v
FailedUnrecoverable
*/
if err := m.onUpdateSector(context.TODO(), state); err != nil {
log.Errorw("update sector stats", "error", err)
}
switch state.State {
// Happy path
case Empty:
fallthrough
case WaitDeals:
return m.handleWaitDeals, processed, nil
case AddPiece:
return m.handleAddPiece, processed, nil
case Packing:
return m.handlePacking, processed, nil
case GetTicket:
return m.handleGetTicket, processed, nil
case PreCommit1:
return m.handlePreCommit1, processed, nil
case PreCommit2:
return m.handlePreCommit2, processed, nil
case PreCommitting:
return m.handlePreCommitting, processed, nil
case SubmitPreCommitBatch:
return m.handleSubmitPreCommitBatch, processed, nil
case PreCommitBatchWait:
fallthrough
case PreCommitWait:
return m.handlePreCommitWait, processed, nil
case WaitSeed:
return m.handleWaitSeed, processed, nil
case Committing:
return m.handleCommitting, processed, nil
case SubmitCommit:
return m.handleSubmitCommit, processed, nil
case SubmitCommitAggregate:
return m.handleSubmitCommitAggregate, processed, nil
case CommitAggregateWait:
fallthrough
case CommitWait:
return m.handleCommitWait, processed, nil
case CommitFinalize:
fallthrough
case FinalizeSector:
return m.handleFinalizeSector, processed, nil
// Snap deals updates
case SnapDealsWaitDeals:
return m.handleWaitDeals, processed, nil
case SnapDealsAddPiece:
return m.handleAddPiece, processed, nil
case SnapDealsPacking:
return m.handlePacking, processed, nil
case UpdateReplica:
return m.handleReplicaUpdate, processed, nil
case ProveReplicaUpdate:
return m.handleProveReplicaUpdate, processed, nil
case SubmitReplicaUpdate:
return m.handleSubmitReplicaUpdate, processed, nil
case ReplicaUpdateWait:
return m.handleReplicaUpdateWait, processed, nil
case FinalizeReplicaUpdate:
return m.handleFinalizeReplicaUpdate, processed, nil
case UpdateActivating:
return m.handleUpdateActivating, processed, nil
case ReleaseSectorKey:
return m.handleReleaseSectorKey, processed, nil
// Handled failure modes
case AddPieceFailed:
return m.handleAddPieceFailed, processed, nil
case SealPreCommit1Failed:
return m.handleSealPrecommit1Failed, processed, nil
case SealPreCommit2Failed:
return m.handleSealPrecommit2Failed, processed, nil
case PreCommitFailed:
return m.handlePreCommitFailed, processed, nil
case ComputeProofFailed:
return m.handleComputeProofFailed, processed, nil
case CommitFailed:
return m.handleCommitFailed, processed, nil
case CommitFinalizeFailed:
fallthrough
case FinalizeFailed:
return m.handleFinalizeFailed, processed, nil
case PackingFailed: // DEPRECATED: remove this for the next reset
state.State = DealsExpired
fallthrough
case DealsExpired:
return m.handleDealsExpired, processed, nil
case RecoverDealIDs:
return m.HandleRecoverDealIDs, processed, nil
// Snap Deals failure modes
case SnapDealsAddPieceFailed:
return m.handleAddPieceFailed, processed, nil
case SnapDealsDealsExpired:
return m.handleDealsExpiredSnapDeals, processed, nil
case SnapDealsRecoverDealIDs:
return m.handleSnapDealsRecoverDealIDs, processed, nil
case ReplicaUpdateFailed:
return m.handleSubmitReplicaUpdateFailed, processed, nil
case ReleaseSectorKeyFailed:
return m.handleReleaseSectorKeyFailed, 0, err
case FinalizeReplicaUpdateFailed:
return m.handleFinalizeFailed, processed, nil
case AbortUpgrade:
return m.handleAbortUpgrade, processed, nil
// Post-seal
case Proving:
return m.handleProvingSector, processed, nil
case Terminating:
return m.handleTerminating, processed, nil
case TerminateWait:
return m.handleTerminateWait, processed, nil
case TerminateFinality:
return m.handleTerminateFinality, processed, nil
case TerminateFailed:
return m.handleTerminateFailed, processed, nil
case Removing:
return m.handleRemoving, processed, nil
case Removed:
return nil, processed, nil
case RemoveFailed:
return m.handleRemoveFailed, processed, nil
// Faults
case Faulty:
return m.handleFaulty, processed, nil
case FaultReported:
return m.handleFaultReported, processed, nil
// Fatal errors
case UndefinedSectorState:
log.Error("sector update with undefined state!")
case FailedUnrecoverable:
log.Errorf("sector %d failed unrecoverably", state.SectorNumber)
default:
log.Errorf("unexpected sector update state: %s", state.State)
}
return nil, processed, nil
}
func (m *Sealing) onUpdateSector(ctx context.Context, state *SectorInfo) error {
if m.getConfig == nil {
return nil // tests
}
cfg, err := m.getConfig()
if err != nil {
return xerrors.Errorf("getting config: %w", err)
}
shouldUpdateInput := m.stats.updateSector(ctx, cfg, m.minerSectorID(state.SectorNumber), state.State)
// trigger more input processing when we've dipped below max sealing limits
if shouldUpdateInput {
sp, err := m.currentSealProof(ctx)
if err != nil {
return xerrors.Errorf("getting seal proof type: %w", err)
}
go func() {
m.inputLk.Lock()
defer m.inputLk.Unlock()
if err := m.updateInput(ctx, sp); err != nil {
log.Errorf("%+v", err)
}
}()
}
return nil
}
func planCommitting(events []statemachine.Event, state *SectorInfo) (uint64, error) {
for i, event := range events {
switch e := event.User.(type) {
case globalMutator:
if e.applyGlobal(state) {
return uint64(i + 1), nil
}
case SectorCommitted: // the normal case
e.apply(state)
state.State = SubmitCommit
case SectorProofReady: // early finalize
e.apply(state)
state.State = CommitFinalize
case SectorSeedReady: // seed changed :/
if e.SeedEpoch == state.SeedEpoch && bytes.Equal(e.SeedValue, state.SeedValue) {
log.Warnf("planCommitting: got SectorSeedReady, but the seed didn't change")
continue // or it didn't!
}
log.Warnf("planCommitting: commit Seed changed")
e.apply(state)
state.State = Committing
return uint64(i + 1), nil
case SectorComputeProofFailed:
state.State = ComputeProofFailed
case SectorSealPreCommit1Failed:
state.State = SealPreCommit1Failed
case SectorCommitFailed:
state.State = CommitFailed
case SectorRetryCommitWait:
state.State = CommitWait
default:
return uint64(i), xerrors.Errorf("planCommitting got event of unknown type %T, events: %+v", event.User, events)
}
}
return uint64(len(events)), nil
}
func (m *Sealing) restartSectors(ctx context.Context) error {
defer m.startupWait.Done()
trackedSectors, err := m.ListSectors()
if err != nil {
log.Errorf("loading sector list: %+v", err)
}
for _, sector := range trackedSectors {
if err := m.sectors.Send(uint64(sector.SectorNumber), SectorRestart{}); err != nil {
log.Errorf("restarting sector %d: %+v", sector.SectorNumber, err)
}
}
// TODO: Grab on-chain sector set and diff with trackedSectors
return nil
}
func (m *Sealing) ForceSectorState(ctx context.Context, id abi.SectorNumber, state SectorState) error {
m.startupWait.Wait()
return m.sectors.Send(id, SectorForceState{state})
}
func final(events []statemachine.Event, state *SectorInfo) (uint64, error) {
if len(events) > 0 {
if gm, ok := events[0].User.(globalMutator); ok {
gm.applyGlobal(state)
return 1, nil
}
}
return 0, xerrors.Errorf("didn't expect any events in state %s, got %+v", state.State, events)
}
func on(mut mutator, next SectorState) func() (mutator, func(*SectorInfo) (bool, error)) {
return func() (mutator, func(*SectorInfo) (bool, error)) {
return mut, func(state *SectorInfo) (bool, error) {
state.State = next
return false, nil
}
}
}
// like `on`, but doesn't change state
func apply(mut mutator) func() (mutator, func(*SectorInfo) (bool, error)) {
return func() (mutator, func(*SectorInfo) (bool, error)) {
return mut, func(state *SectorInfo) (bool, error) {
return true, nil
}
}
}
func onReturning(mut mutator) func() (mutator, func(*SectorInfo) (bool, error)) {
return func() (mutator, func(*SectorInfo) (bool, error)) {
return mut, func(state *SectorInfo) (bool, error) {
if state.Return == "" {
return false, xerrors.Errorf("return state not set")
}
state.State = SectorState(state.Return)
state.Return = ""
return false, nil
}
}
}
func planOne(ts ...func() (mut mutator, next func(*SectorInfo) (more bool, err error))) func(events []statemachine.Event, state *SectorInfo) (uint64, error) {
return func(events []statemachine.Event, state *SectorInfo) (uint64, error) {
eloop:
for i, event := range events {
if gm, ok := event.User.(globalMutator); ok {
gm.applyGlobal(state)
return uint64(i + 1), nil
}
for _, t := range ts {
mut, next := t()
if reflect.TypeOf(event.User) != reflect.TypeOf(mut) {
continue
}
if err, iserr := event.User.(error); iserr {
log.Warnf("sector %d got error event %T: %+v", state.SectorNumber, event.User, err)
}
event.User.(mutator).apply(state)
more, err := next(state)
if err != nil || !more {
return uint64(i + 1), err
}
continue eloop
}
_, ok := event.User.(Ignorable)
if ok {
continue
}
return uint64(i + 1), xerrors.Errorf("planner for state %s received unexpected event %T (%+v)", state.State, event.User, event)
}
return uint64(len(events)), nil
}
}
// planOne but ignores unhandled states without erroring, this prevents the need to handle all possible events creating
// error during forced override
func planOneOrIgnore(ts ...func() (mut mutator, next func(*SectorInfo) (more bool, err error))) func(events []statemachine.Event, state *SectorInfo) (uint64, error) {
f := planOne(ts...)
return func(events []statemachine.Event, state *SectorInfo) (uint64, error) {
cnt, err := f(events, state)
if err != nil {
log.Warnf("planOneOrIgnore: ignoring error from planOne: %s", err)
}
return cnt, nil
}
}