package state import ( "context" "errors" "fmt" "time" abci "github.com/tendermint/tendermint/abci/types" "github.com/tendermint/tendermint/crypto/encoding" "github.com/tendermint/tendermint/internal/eventbus" "github.com/tendermint/tendermint/internal/mempool" "github.com/tendermint/tendermint/internal/proxy" "github.com/tendermint/tendermint/libs/log" tmstate "github.com/tendermint/tendermint/proto/tendermint/state" "github.com/tendermint/tendermint/types" ) //----------------------------------------------------------------------------- // BlockExecutor handles block execution and state updates. // It exposes ApplyBlock(), which validates & executes the block, updates state w/ ABCI responses, // then commits and updates the mempool atomically, then saves state. // BlockExecutor provides the context and accessories for properly executing a block. type BlockExecutor struct { // save state, validators, consensus params, abci responses here store Store // use blockstore for the pruning functions. blockStore BlockStore // execute the app against this proxyApp proxy.AppConnConsensus // events eventBus types.BlockEventPublisher // manage the mempool lock during commit // and update both with block results after commit. mempool mempool.Mempool evpool EvidencePool logger log.Logger metrics *Metrics // cache the verification results over a single height cache map[string]struct{} } type BlockExecutorOption func(executor *BlockExecutor) func BlockExecutorWithMetrics(metrics *Metrics) BlockExecutorOption { return func(blockExec *BlockExecutor) { blockExec.metrics = metrics } } // NewBlockExecutor returns a new BlockExecutor with a NopEventBus. // Call SetEventBus to provide one. func NewBlockExecutor( stateStore Store, logger log.Logger, proxyApp proxy.AppConnConsensus, pool mempool.Mempool, evpool EvidencePool, blockStore BlockStore, options ...BlockExecutorOption, ) *BlockExecutor { res := &BlockExecutor{ store: stateStore, proxyApp: proxyApp, eventBus: eventbus.NopEventBus{}, mempool: pool, evpool: evpool, logger: logger, metrics: NopMetrics(), cache: make(map[string]struct{}), blockStore: blockStore, } for _, option := range options { option(res) } return res } func (blockExec *BlockExecutor) Store() Store { return blockExec.store } // SetEventBus - sets the event bus for publishing block related events. // If not called, it defaults to types.NopEventBus. func (blockExec *BlockExecutor) SetEventBus(eventBus types.BlockEventPublisher) { blockExec.eventBus = eventBus } // CreateProposalBlock calls state.MakeBlock with evidence from the evpool // and txs from the mempool. The max bytes must be big enough to fit the commit. // Up to 1/10th of the block space is allcoated for maximum sized evidence. // The rest is given to txs, up to the max gas. // // Contract: application will not return more bytes than are sent over the wire. func (blockExec *BlockExecutor) CreateProposalBlock( ctx context.Context, height int64, state State, commit *types.Commit, proposerAddr []byte, ) (*types.Block, *types.PartSet, error) { maxBytes := state.ConsensusParams.Block.MaxBytes maxGas := state.ConsensusParams.Block.MaxGas evidence, evSize := blockExec.evpool.PendingEvidence(state.ConsensusParams.Evidence.MaxBytes) // Fetch a limited amount of valid txs maxDataBytes := types.MaxDataBytes(maxBytes, evSize, state.Validators.Size()) txs := blockExec.mempool.ReapMaxBytesMaxGas(maxDataBytes, maxGas) preparedProposal, err := blockExec.proxyApp.PrepareProposal( ctx, abci.RequestPrepareProposal{BlockData: txs.ToSliceOfBytes(), BlockDataSize: maxDataBytes}, ) if err != nil { // The App MUST ensure that only valid (and hence 'processable') transactions // enter the mempool. Hence, at this point, we can't have any non-processable // transaction causing an error. // // Also, the App can simply skip any transaction that could cause any kind of trouble. // Either way, we can not recover in a meaningful way, unless we skip proposing // this block, repair what caused the error and try again. Hence, we panic on // purpose for now. panic(err) } newTxs := preparedProposal.GetBlockData() var txSize int for _, tx := range newTxs { txSize += len(tx) if maxDataBytes < int64(txSize) { panic("block data exceeds max amount of allowed bytes") } } modifiedTxs := types.ToTxs(preparedProposal.GetBlockData()) return state.MakeBlock(height, modifiedTxs, commit, evidence, proposerAddr) } func (blockExec *BlockExecutor) ProcessProposal( ctx context.Context, block *types.Block, ) (bool, error) { req := abci.RequestProcessProposal{ Txs: block.Data.Txs.ToSliceOfBytes(), Header: *block.Header.ToProto(), } resp, err := blockExec.proxyApp.ProcessProposal(ctx, req) if err != nil { return false, ErrInvalidBlock(err) } return resp.IsOK(), nil } // ValidateBlock validates the given block against the given state. // If the block is invalid, it returns an error. // Validation does not mutate state, but does require historical information from the stateDB, // ie. to verify evidence from a validator at an old height. func (blockExec *BlockExecutor) ValidateBlock(state State, block *types.Block) error { hash := block.Hash() if _, ok := blockExec.cache[hash.String()]; ok { return nil } err := validateBlock(state, block) if err != nil { return err } err = blockExec.evpool.CheckEvidence(block.Evidence) if err != nil { return err } blockExec.cache[hash.String()] = struct{}{} return nil } // ApplyBlock validates the block against the state, executes it against the app, // fires the relevant events, commits the app, and saves the new state and responses. // It returns the new state. // It's the only function that needs to be called // from outside this package to process and commit an entire block. // It takes a blockID to avoid recomputing the parts hash. func (blockExec *BlockExecutor) ApplyBlock( ctx context.Context, state State, blockID types.BlockID, block *types.Block, ) (State, error) { // validate the block if we haven't already if err := blockExec.ValidateBlock(state, block); err != nil { return state, ErrInvalidBlock(err) } startTime := time.Now().UnixNano() abciResponses, err := execBlockOnProxyApp(ctx, blockExec.logger, blockExec.proxyApp, block, blockExec.store, state.InitialHeight, ) endTime := time.Now().UnixNano() blockExec.metrics.BlockProcessingTime.Observe(float64(endTime-startTime) / 1000000) if err != nil { return state, ErrProxyAppConn(err) } // Save the results before we commit. if err := blockExec.store.SaveABCIResponses(block.Height, abciResponses); err != nil { return state, err } // validate the validator updates and convert to tendermint types abciValUpdates := abciResponses.EndBlock.ValidatorUpdates err = validateValidatorUpdates(abciValUpdates, state.ConsensusParams.Validator) if err != nil { return state, fmt.Errorf("error in validator updates: %w", err) } validatorUpdates, err := types.PB2TM.ValidatorUpdates(abciValUpdates) if err != nil { return state, err } if len(validatorUpdates) > 0 { blockExec.logger.Debug("updates to validators", "updates", types.ValidatorListString(validatorUpdates)) } // Update the state with the block and responses. state, err = updateState(state, blockID, &block.Header, abciResponses, validatorUpdates) if err != nil { return state, fmt.Errorf("commit failed for application: %w", err) } // Lock mempool, commit app state, update mempoool. appHash, retainHeight, err := blockExec.Commit(ctx, state, block, abciResponses.DeliverTxs) if err != nil { return state, fmt.Errorf("commit failed for application: %w", err) } // Update evpool with the latest state. blockExec.evpool.Update(state, block.Evidence) // Update the app hash and save the state. state.AppHash = appHash if err := blockExec.store.Save(state); err != nil { return state, err } // Prune old heights, if requested by ABCI app. if retainHeight > 0 { pruned, err := blockExec.pruneBlocks(retainHeight) if err != nil { blockExec.logger.Error("failed to prune blocks", "retain_height", retainHeight, "err", err) } else { blockExec.logger.Debug("pruned blocks", "pruned", pruned, "retain_height", retainHeight) } } // reset the verification cache blockExec.cache = make(map[string]struct{}) // Events are fired after everything else. // NOTE: if we crash between Commit and Save, events wont be fired during replay fireEvents(ctx, blockExec.logger, blockExec.eventBus, block, blockID, abciResponses, validatorUpdates) return state, nil } func (blockExec *BlockExecutor) ExtendVote(ctx context.Context, vote *types.Vote) (types.VoteExtension, error) { req := abci.RequestExtendVote{ Vote: vote.ToProto(), } resp, err := blockExec.proxyApp.ExtendVote(ctx, req) if err != nil { return types.VoteExtension{}, err } return types.VoteExtensionFromProto(resp.VoteExtension), nil } func (blockExec *BlockExecutor) VerifyVoteExtension(ctx context.Context, vote *types.Vote) error { req := abci.RequestVerifyVoteExtension{ Vote: vote.ToProto(), } resp, err := blockExec.proxyApp.VerifyVoteExtension(ctx, req) if err != nil { return err } if resp.IsErr() { return types.ErrVoteInvalidExtension } return nil } // Commit locks the mempool, runs the ABCI Commit message, and updates the // mempool. // It returns the result of calling abci.Commit (the AppHash) and the height to retain (if any). // The Mempool must be locked during commit and update because state is // typically reset on Commit and old txs must be replayed against committed // state before new txs are run in the mempool, lest they be invalid. func (blockExec *BlockExecutor) Commit( ctx context.Context, state State, block *types.Block, deliverTxResponses []*abci.ResponseDeliverTx, ) ([]byte, int64, error) { blockExec.mempool.Lock() defer blockExec.mempool.Unlock() // while mempool is Locked, flush to ensure all async requests have completed // in the ABCI app before Commit. err := blockExec.mempool.FlushAppConn(ctx) if err != nil { blockExec.logger.Error("client error during mempool.FlushAppConn", "err", err) return nil, 0, err } // Commit block, get hash back res, err := blockExec.proxyApp.Commit(ctx) if err != nil { blockExec.logger.Error("client error during proxyAppConn.Commit", "err", err) return nil, 0, err } // ResponseCommit has no error code - just data blockExec.logger.Info( "committed state", "height", block.Height, "num_txs", len(block.Txs), "app_hash", fmt.Sprintf("%X", res.Data), ) // Update mempool. err = blockExec.mempool.Update( ctx, block.Height, block.Txs, deliverTxResponses, TxPreCheck(state), TxPostCheck(state), ) return res.Data, res.RetainHeight, err } //--------------------------------------------------------- // Helper functions for executing blocks and updating state // Executes block's transactions on proxyAppConn. // Returns a list of transaction results and updates to the validator set func execBlockOnProxyApp( ctx context.Context, logger log.Logger, proxyAppConn proxy.AppConnConsensus, block *types.Block, store Store, initialHeight int64, ) (*tmstate.ABCIResponses, error) { var validTxs, invalidTxs = 0, 0 txIndex := 0 abciResponses := new(tmstate.ABCIResponses) dtxs := make([]*abci.ResponseDeliverTx, len(block.Txs)) abciResponses.DeliverTxs = dtxs commitInfo := getBeginBlockValidatorInfo(block, store, initialHeight) byzVals := make([]abci.Evidence, 0) for _, evidence := range block.Evidence { byzVals = append(byzVals, evidence.ABCI()...) } // Begin block var err error pbh := block.Header.ToProto() if pbh == nil { return nil, errors.New("nil header") } abciResponses.BeginBlock, err = proxyAppConn.BeginBlock( ctx, abci.RequestBeginBlock{ Hash: block.Hash(), Header: *pbh, LastCommitInfo: commitInfo, ByzantineValidators: byzVals, }, ) if err != nil { logger.Error("error in proxyAppConn.BeginBlock", "err", err) return nil, err } // run txs of block for _, tx := range block.Txs { resp, err := proxyAppConn.DeliverTx(ctx, abci.RequestDeliverTx{Tx: tx}) if err != nil { return nil, err } if resp.Code == abci.CodeTypeOK { validTxs++ } else { logger.Debug("invalid tx", "code", resp.Code, "log", resp.Log) invalidTxs++ } abciResponses.DeliverTxs[txIndex] = resp txIndex++ } abciResponses.EndBlock, err = proxyAppConn.EndBlock(ctx, abci.RequestEndBlock{Height: block.Height}) if err != nil { logger.Error("error in proxyAppConn.EndBlock", "err", err) return nil, err } logger.Info("executed block", "height", block.Height, "num_valid_txs", validTxs, "num_invalid_txs", invalidTxs) return abciResponses, nil } func getBeginBlockValidatorInfo(block *types.Block, store Store, initialHeight int64) abci.LastCommitInfo { voteInfos := make([]abci.VoteInfo, block.LastCommit.Size()) // Initial block -> LastCommitInfo.Votes are empty. // Remember that the first LastCommit is intentionally empty, so it makes // sense for LastCommitInfo.Votes to also be empty. if block.Height > initialHeight { lastValSet, err := store.LoadValidators(block.Height - 1) if err != nil { panic(err) } // Sanity check that commit size matches validator set size - only applies // after first block. var ( commitSize = block.LastCommit.Size() valSetLen = len(lastValSet.Validators) ) if commitSize != valSetLen { panic(fmt.Sprintf( "commit size (%d) doesn't match valset length (%d) at height %d\n\n%v\n\n%v", commitSize, valSetLen, block.Height, block.LastCommit.Signatures, lastValSet.Validators, )) } for i, val := range lastValSet.Validators { commitSig := block.LastCommit.Signatures[i] voteInfos[i] = abci.VoteInfo{ Validator: types.TM2PB.Validator(val), SignedLastBlock: !commitSig.Absent(), } } } return abci.LastCommitInfo{ Round: block.LastCommit.Round, Votes: voteInfos, } } func validateValidatorUpdates(abciUpdates []abci.ValidatorUpdate, params types.ValidatorParams) error { for _, valUpdate := range abciUpdates { if valUpdate.GetPower() < 0 { return fmt.Errorf("voting power can't be negative %v", valUpdate) } else if valUpdate.GetPower() == 0 { // continue, since this is deleting the validator, and thus there is no // pubkey to check continue } // Check if validator's pubkey matches an ABCI type in the consensus params pk, err := encoding.PubKeyFromProto(valUpdate.PubKey) if err != nil { return err } if !params.IsValidPubkeyType(pk.Type()) { return fmt.Errorf("validator %v is using pubkey %s, which is unsupported for consensus", valUpdate, pk.Type()) } } return nil } // updateState returns a new State updated according to the header and responses. func updateState( state State, blockID types.BlockID, header *types.Header, abciResponses *tmstate.ABCIResponses, validatorUpdates []*types.Validator, ) (State, error) { // Copy the valset so we can apply changes from EndBlock // and update s.LastValidators and s.Validators. nValSet := state.NextValidators.Copy() // Update the validator set with the latest abciResponses. lastHeightValsChanged := state.LastHeightValidatorsChanged if len(validatorUpdates) > 0 { err := nValSet.UpdateWithChangeSet(validatorUpdates) if err != nil { return state, fmt.Errorf("error changing validator set: %w", err) } // Change results from this height but only applies to the next next height. lastHeightValsChanged = header.Height + 1 + 1 } // Update validator proposer priority and set state variables. nValSet.IncrementProposerPriority(1) // Update the params with the latest abciResponses. nextParams := state.ConsensusParams lastHeightParamsChanged := state.LastHeightConsensusParamsChanged if abciResponses.EndBlock.ConsensusParamUpdates != nil { // NOTE: must not mutate s.ConsensusParams nextParams = state.ConsensusParams.UpdateConsensusParams(abciResponses.EndBlock.ConsensusParamUpdates) err := nextParams.ValidateConsensusParams() if err != nil { return state, fmt.Errorf("error updating consensus params: %w", err) } state.Version.Consensus.App = nextParams.Version.AppVersion // Change results from this height but only applies to the next height. lastHeightParamsChanged = header.Height + 1 } nextVersion := state.Version // NOTE: the AppHash and the VoteExtension has not been populated. // It will be filled on state.Save. return State{ Version: nextVersion, ChainID: state.ChainID, InitialHeight: state.InitialHeight, LastBlockHeight: header.Height, LastBlockID: blockID, LastBlockTime: header.Time, NextValidators: nValSet, Validators: state.NextValidators.Copy(), LastValidators: state.Validators.Copy(), LastHeightValidatorsChanged: lastHeightValsChanged, ConsensusParams: nextParams, LastHeightConsensusParamsChanged: lastHeightParamsChanged, LastResultsHash: ABCIResponsesResultsHash(abciResponses), AppHash: nil, }, nil } // Fire NewBlock, NewBlockHeader. // Fire TxEvent for every tx. // NOTE: if Tendermint crashes before commit, some or all of these events may be published again. func fireEvents( ctx context.Context, logger log.Logger, eventBus types.BlockEventPublisher, block *types.Block, blockID types.BlockID, abciResponses *tmstate.ABCIResponses, validatorUpdates []*types.Validator, ) { if err := eventBus.PublishEventNewBlock(ctx, types.EventDataNewBlock{ Block: block, BlockID: blockID, ResultBeginBlock: *abciResponses.BeginBlock, ResultEndBlock: *abciResponses.EndBlock, }); err != nil { logger.Error("failed publishing new block", "err", err) } if err := eventBus.PublishEventNewBlockHeader(ctx, types.EventDataNewBlockHeader{ Header: block.Header, NumTxs: int64(len(block.Txs)), ResultBeginBlock: *abciResponses.BeginBlock, ResultEndBlock: *abciResponses.EndBlock, }); err != nil { logger.Error("failed publishing new block header", "err", err) } if len(block.Evidence) != 0 { for _, ev := range block.Evidence { if err := eventBus.PublishEventNewEvidence(ctx, types.EventDataNewEvidence{ Evidence: ev, Height: block.Height, }); err != nil { logger.Error("failed publishing new evidence", "err", err) } } } for i, tx := range block.Data.Txs { if err := eventBus.PublishEventTx(ctx, types.EventDataTx{TxResult: abci.TxResult{ Height: block.Height, Index: uint32(i), Tx: tx, Result: *(abciResponses.DeliverTxs[i]), }}); err != nil { logger.Error("failed publishing event TX", "err", err) } } if len(validatorUpdates) > 0 { if err := eventBus.PublishEventValidatorSetUpdates(ctx, types.EventDataValidatorSetUpdates{ValidatorUpdates: validatorUpdates}); err != nil { logger.Error("failed publishing event", "err", err) } } } //---------------------------------------------------------------------------------------------------- // Execute block without state. TODO: eliminate // ExecCommitBlock executes and commits a block on the proxyApp without validating or mutating the state. // It returns the application root hash (result of abci.Commit). func ExecCommitBlock( ctx context.Context, be *BlockExecutor, appConnConsensus proxy.AppConnConsensus, block *types.Block, logger log.Logger, store Store, initialHeight int64, s State, ) ([]byte, error) { abciResponses, err := execBlockOnProxyApp(ctx, logger, appConnConsensus, block, store, initialHeight) if err != nil { logger.Error("failed executing block on proxy app", "height", block.Height, "err", err) return nil, err } // the BlockExecutor condition is using for the final block replay process. if be != nil { abciValUpdates := abciResponses.EndBlock.ValidatorUpdates err = validateValidatorUpdates(abciValUpdates, s.ConsensusParams.Validator) if err != nil { logger.Error("err", err) return nil, err } validatorUpdates, err := types.PB2TM.ValidatorUpdates(abciValUpdates) if err != nil { logger.Error("err", err) return nil, err } bps, err := block.MakePartSet(types.BlockPartSizeBytes) if err != nil { return nil, err } blockID := types.BlockID{Hash: block.Hash(), PartSetHeader: bps.Header()} fireEvents(ctx, be.logger, be.eventBus, block, blockID, abciResponses, validatorUpdates) } // Commit block, get hash back res, err := appConnConsensus.Commit(ctx) if err != nil { logger.Error("client error during proxyAppConn.Commit", "err", res) return nil, err } // ResponseCommit has no error or log, just data return res.Data, nil } func (blockExec *BlockExecutor) pruneBlocks(retainHeight int64) (uint64, error) { base := blockExec.blockStore.Base() if retainHeight <= base { return 0, nil } pruned, err := blockExec.blockStore.PruneBlocks(retainHeight) if err != nil { return 0, fmt.Errorf("failed to prune block store: %w", err) } err = blockExec.Store().PruneStates(retainHeight) if err != nil { return 0, fmt.Errorf("failed to prune state store: %w", err) } return pruned, nil }