package waiter import ( "context" "errors" "fmt" "strings" "time" "github.com/nspcc-dev/neo-go/pkg/core/block" "github.com/nspcc-dev/neo-go/pkg/core/state" "github.com/nspcc-dev/neo-go/pkg/neorpc" "github.com/nspcc-dev/neo-go/pkg/neorpc/result" "github.com/nspcc-dev/neo-go/pkg/smartcontract/trigger" "github.com/nspcc-dev/neo-go/pkg/util" ) // PollingBasedRetryCount is a threshold for a number of subsequent failed // attempts to get block count from the RPC server for PollingBased. If it fails // to retrieve block count PollingBasedRetryCount times in a raw then transaction // awaiting attempt considered to be failed and an error is returned. const PollingBasedRetryCount = 3 var ( // ErrTxNotAccepted is returned when transaction wasn't accepted to the chain // even after ValidUntilBlock block persist. ErrTxNotAccepted = errors.New("transaction was not accepted to chain") // ErrContextDone is returned when Waiter context has been done in the middle // of transaction awaiting process and no result was received yet. ErrContextDone = errors.New("waiter context done") // ErrAwaitingNotSupported is returned from Wait method if Waiter instance // doesn't support transaction awaiting. ErrAwaitingNotSupported = errors.New("awaiting not supported") // ErrMissedEvent is returned when RPCEventBased closes receiver channel // which happens if missed event was received from the RPC server. ErrMissedEvent = errors.New("some event was missed") ) type ( // Waiter is an interface providing transaction awaiting functionality. Waiter interface { // Wait allows to wait until transaction will be accepted to the chain. It can be // used as a wrapper for Send or SignAndSend and accepts transaction hash, // ValidUntilBlock value and an error. It returns transaction execution result // or an error if transaction wasn't accepted to the chain. Notice that "already // exists" err value is not treated as an error by this routine because it // means that the transactions given might be already accepted or soon going // to be accepted. Such transaction can be waited for in a usual way, potentially // with positive result, so that's what will happen. Wait(h util.Uint256, vub uint32, err error) (*state.AppExecResult, error) // WaitAny waits until at least one of the specified transactions will be accepted // to the chain until vub (including). It returns execution result of this // transaction or an error if none of the transactions was accepted to the chain. // It uses underlying RPCPollingBased or RPCEventBased context to interrupt // awaiting process, but additional ctx can be passed as an argument for the same // purpose. WaitAny(ctx context.Context, vub uint32, hashes ...util.Uint256) (*state.AppExecResult, error) } // RPCPollingBased is an interface that enables transaction awaiting functionality // based on periodical BlockCount and ApplicationLog polls. RPCPollingBased interface { // Context should return the RPC client context to be able to gracefully // shut down all running processes (if so). Context() context.Context GetVersion() (*result.Version, error) GetBlockCount() (uint32, error) GetApplicationLog(hash util.Uint256, trig *trigger.Type) (*result.ApplicationLog, error) } // RPCEventBased is an interface that enables improved transaction awaiting functionality // based on web-socket Block and ApplicationLog notifications. RPCEventBased // contains RPCPollingBased under the hood and falls back to polling when subscription-based // awaiting fails. RPCEventBased interface { RPCPollingBased ReceiveBlocks(flt *neorpc.BlockFilter, rcvr chan<- *block.Block) (string, error) ReceiveExecutions(flt *neorpc.ExecutionFilter, rcvr chan<- *state.AppExecResult) (string, error) Unsubscribe(id string) error } ) // Null is a Waiter stub that doesn't support transaction awaiting functionality. type Null struct{} // PollingBased is a polling-based Waiter. type PollingBased struct { polling RPCPollingBased version *result.Version } // EventBased is a websocket-based Waiter. type EventBased struct { ws RPCEventBased polling Waiter } // errIsAlreadyExists is a temporary helper until we have #2248 solved. Both C# // and Go nodes return this string (possibly among other data). func errIsAlreadyExists(err error) bool { return strings.Contains(strings.ToLower(err.Error()), "already exists") } // New creates Waiter instance. It can be either websocket-based or // polling-base, otherwise Waiter stub is returned. As a first argument // it accepts RPCEventBased implementation, RPCPollingBased implementation // or not an implementation of these two interfaces. It returns websocket-based // waiter, polling-based waiter or a stub correspondingly. func New(base any, v *result.Version) Waiter { if eventW, ok := base.(RPCEventBased); ok { return &EventBased{ ws: eventW, polling: &PollingBased{ polling: eventW, version: v, }, } } if pollW, ok := base.(RPCPollingBased); ok { return &PollingBased{ polling: pollW, version: v, } } return NewNull() } // NewNull creates an instance of Waiter stub. func NewNull() Null { return Null{} } // Wait implements Waiter interface. func (Null) Wait(h util.Uint256, vub uint32, err error) (*state.AppExecResult, error) { return nil, ErrAwaitingNotSupported } // WaitAny implements Waiter interface. func (Null) WaitAny(ctx context.Context, vub uint32, hashes ...util.Uint256) (*state.AppExecResult, error) { return nil, ErrAwaitingNotSupported } // NewPollingBased creates an instance of Waiter supporting poll-based transaction awaiting. func NewPollingBased(waiter RPCPollingBased) (*PollingBased, error) { v, err := waiter.GetVersion() if err != nil { return nil, err } return &PollingBased{ polling: waiter, version: v, }, nil } // Wait implements Waiter interface. func (w *PollingBased) Wait(h util.Uint256, vub uint32, err error) (*state.AppExecResult, error) { if err != nil && !errIsAlreadyExists(err) { return nil, err } return w.WaitAny(context.TODO(), vub, h) } // WaitAny implements Waiter interface. func (w *PollingBased) WaitAny(ctx context.Context, vub uint32, hashes ...util.Uint256) (*state.AppExecResult, error) { var ( currentHeight uint32 failedAttempt int pollTime = time.Millisecond * time.Duration(w.version.Protocol.MillisecondsPerBlock) / 2 ) if pollTime == 0 { pollTime = time.Second } timer := time.NewTicker(pollTime) defer timer.Stop() for { select { case <-timer.C: blockCount, err := w.polling.GetBlockCount() if err != nil { failedAttempt++ if failedAttempt > PollingBasedRetryCount { return nil, fmt.Errorf("failed to retrieve block count: %w", err) } continue } failedAttempt = 0 if blockCount-1 > currentHeight { currentHeight = blockCount - 1 } t := trigger.Application for _, h := range hashes { res, err := w.polling.GetApplicationLog(h, &t) if err == nil { return &state.AppExecResult{ Container: res.Container, Execution: res.Executions[0], }, nil } } if currentHeight >= vub { return nil, ErrTxNotAccepted } case <-w.polling.Context().Done(): return nil, fmt.Errorf("%w: %v", ErrContextDone, w.polling.Context().Err()) //nolint:errorlint // errorlint: non-wrapping format verb for fmt.Errorf. Use `%w` to format errors case <-ctx.Done(): return nil, fmt.Errorf("%w: %v", ErrContextDone, ctx.Err()) //nolint:errorlint // errorlint: non-wrapping format verb for fmt.Errorf. Use `%w` to format errors } } } // NewEventBased creates an instance of Waiter supporting websocket event-based transaction awaiting. // EventBased contains PollingBased under the hood and falls back to polling when subscription-based // awaiting fails. func NewEventBased(waiter RPCEventBased) (*EventBased, error) { polling, err := NewPollingBased(waiter) if err != nil { return nil, err } return &EventBased{ ws: waiter, polling: polling, }, nil } // Wait implements Waiter interface. func (w *EventBased) Wait(h util.Uint256, vub uint32, err error) (res *state.AppExecResult, waitErr error) { if err != nil && !errIsAlreadyExists(err) { return nil, err } return w.WaitAny(context.TODO(), vub, h) } // WaitAny implements Waiter interface. func (w *EventBased) WaitAny(ctx context.Context, vub uint32, hashes ...util.Uint256) (res *state.AppExecResult, waitErr error) { var ( wsWaitErr error waitersActive int bRcvr = make(chan *block.Block, 2) aerRcvr = make(chan *state.AppExecResult, len(hashes)) unsubErrs = make(chan error) exit = make(chan struct{}) ) // Execution event preceded the block event, thus wait until the VUB-th block to be sure. since := vub blocksID, err := w.ws.ReceiveBlocks(&neorpc.BlockFilter{Since: &since}, bRcvr) if err != nil { wsWaitErr = fmt.Errorf("failed to subscribe for new blocks: %w", err) } else { waitersActive++ go func() { <-exit err = w.ws.Unsubscribe(blocksID) if err != nil { unsubErrs <- fmt.Errorf("failed to unsubscribe from blocks (id: %s): %w", blocksID, err) return } unsubErrs <- nil }() } if wsWaitErr == nil { trig := trigger.Application for _, h := range hashes { txsID, err := w.ws.ReceiveExecutions(&neorpc.ExecutionFilter{Container: &h}, aerRcvr) if err != nil { wsWaitErr = fmt.Errorf("failed to subscribe for execution results: %w", err) break } waitersActive++ go func() { <-exit err = w.ws.Unsubscribe(txsID) if err != nil { unsubErrs <- fmt.Errorf("failed to unsubscribe from transactions (id: %s): %w", txsID, err) return } unsubErrs <- nil }() // There is a potential race between subscription and acceptance, so // do a polling check once _after_ the subscription. appLog, err := w.ws.GetApplicationLog(h, &trig) if err == nil { res = &state.AppExecResult{ Container: appLog.Container, Execution: appLog.Executions[0], } break // We have the result, no need for other subscriptions. } } } if wsWaitErr == nil && res == nil { select { case _, ok := <-bRcvr: if !ok { // We're toast, retry with non-ws client. bRcvr = nil aerRcvr = nil wsWaitErr = ErrMissedEvent break } waitErr = ErrTxNotAccepted case aer, ok := <-aerRcvr: if !ok { // We're toast, retry with non-ws client. bRcvr = nil aerRcvr = nil wsWaitErr = ErrMissedEvent break } res = aer case <-w.ws.Context().Done(): waitErr = fmt.Errorf("%w: %v", ErrContextDone, w.ws.Context().Err()) //nolint:errorlint // errorlint: non-wrapping format verb for fmt.Errorf. Use `%w` to format errors case <-ctx.Done(): waitErr = fmt.Errorf("%w: %v", ErrContextDone, ctx.Err()) //nolint:errorlint // errorlint: non-wrapping format verb for fmt.Errorf. Use `%w` to format errors } } close(exit) if waitersActive > 0 { // Drain receivers to avoid other notification receivers blocking. drainLoop: for { select { case _, ok := <-bRcvr: if !ok { // Missed event means both channels are closed. bRcvr = nil aerRcvr = nil } case _, ok := <-aerRcvr: if !ok { // Missed event means both channels are closed. bRcvr = nil aerRcvr = nil } case unsubErr := <-unsubErrs: if unsubErr != nil { errFmt := "unsubscription error: %v" errArgs := []any{unsubErr} if waitErr != nil { errFmt = "%w; " + errFmt errArgs = append([]any{waitErr}, errArgs...) } waitErr = fmt.Errorf(errFmt, errArgs...) } waitersActive-- // Wait until all receiver channels finish their work. if waitersActive == 0 { break drainLoop } } } } if bRcvr != nil { close(bRcvr) } if aerRcvr != nil { close(aerRcvr) } close(unsubErrs) // Rollback to a poll-based waiter if needed. if wsWaitErr != nil && waitErr == nil { res, waitErr = w.polling.WaitAny(ctx, vub, hashes...) if waitErr != nil { // Wrap the poll-based error, it's more important. waitErr = fmt.Errorf("event-based error: %v; poll-based waiter error: %w", wsWaitErr, waitErr) //nolint:errorlint // errorlint: non-wrapping format verb for fmt.Errorf. Use `%w` to format errors } } return }