package state import ( "fmt" dbm "github.com/tendermint/tm-db" abci "github.com/tendermint/tendermint/abci/types" tmmath "github.com/tendermint/tendermint/libs/math" tmos "github.com/tendermint/tendermint/libs/os" "github.com/tendermint/tendermint/types" ) const ( // persist validators every valSetCheckpointInterval blocks to avoid // LoadValidators taking too much time. // https://github.com/tendermint/tendermint/pull/3438 // 100000 results in ~ 100ms to get 100 validators (see BenchmarkLoadValidators) valSetCheckpointInterval = 100000 ) //------------------------------------------------------------------------ func calcValidatorsKey(height int64) []byte { return []byte(fmt.Sprintf("validatorsKey:%v", height)) } func calcConsensusParamsKey(height int64) []byte { return []byte(fmt.Sprintf("consensusParamsKey:%v", height)) } func calcABCIResponsesKey(height int64) []byte { return []byte(fmt.Sprintf("abciResponsesKey:%v", height)) } // LoadStateFromDBOrGenesisFile loads the most recent state from the database, // or creates a new one from the given genesisFilePath and persists the result // to the database. func LoadStateFromDBOrGenesisFile(stateDB dbm.DB, genesisFilePath string) (State, error) { state := LoadState(stateDB) if state.IsEmpty() { var err error state, err = MakeGenesisStateFromFile(genesisFilePath) if err != nil { return state, err } SaveState(stateDB, state) } return state, nil } // LoadStateFromDBOrGenesisDoc loads the most recent state from the database, // or creates a new one from the given genesisDoc and persists the result // to the database. func LoadStateFromDBOrGenesisDoc(stateDB dbm.DB, genesisDoc *types.GenesisDoc) (State, error) { state := LoadState(stateDB) if state.IsEmpty() { var err error state, err = MakeGenesisState(genesisDoc) if err != nil { return state, err } SaveState(stateDB, state) } return state, nil } // LoadState loads the State from the database. func LoadState(db dbm.DB) State { return loadState(db, stateKey) } func loadState(db dbm.DB, key []byte) (state State) { buf, err := db.Get(key) if err != nil { panic(err) } if len(buf) == 0 { return state } err = cdc.UnmarshalBinaryBare(buf, &state) if err != nil { // DATA HAS BEEN CORRUPTED OR THE SPEC HAS CHANGED tmos.Exit(fmt.Sprintf(`LoadState: Data has been corrupted or its spec has changed: %v\n`, err)) } // TODO: ensure that buf is completely read. return state } // SaveState persists the State, the ValidatorsInfo, and the ConsensusParamsInfo to the database. // This flushes the writes (e.g. calls SetSync). func SaveState(db dbm.DB, state State) { saveState(db, state, stateKey) } func saveState(db dbm.DB, state State, key []byte) { nextHeight := state.LastBlockHeight + 1 // If first block, save validators for block 1. if nextHeight == 1 { // This extra logic due to Tendermint validator set changes being delayed 1 block. // It may get overwritten due to InitChain validator updates. lastHeightVoteChanged := int64(1) saveValidatorsInfo(db, nextHeight, lastHeightVoteChanged, state.Validators) } // Save next validators. saveValidatorsInfo(db, nextHeight+1, state.LastHeightValidatorsChanged, state.NextValidators) // Save next consensus params. saveConsensusParamsInfo(db, nextHeight, state.LastHeightConsensusParamsChanged, state.ConsensusParams) err := db.SetSync(key, state.Bytes()) if err != nil { panic(err) } } // BootstrapState saves a new state, used e.g. by state sync when starting from non-zero height. func BootstrapState(db dbm.DB, state State) error { height := state.LastBlockHeight saveValidatorsInfo(db, height, height, state.LastValidators) saveValidatorsInfo(db, height+1, height+1, state.Validators) saveValidatorsInfo(db, height+2, height+2, state.NextValidators) saveConsensusParamsInfo(db, height+1, height+1, state.ConsensusParams) return db.SetSync(stateKey, state.Bytes()) } //------------------------------------------------------------------------ // ABCIResponses retains the responses // of the various ABCI calls during block processing. // It is persisted to disk for each height before calling Commit. type ABCIResponses struct { DeliverTxs []*abci.ResponseDeliverTx `json:"deliver_txs"` EndBlock *abci.ResponseEndBlock `json:"end_block"` BeginBlock *abci.ResponseBeginBlock `json:"begin_block"` } // PruneStates deletes states between the given heights (including from, excluding to). It is not // guaranteed to delete all states, since the last checkpointed state and states being pointed to by // e.g. `LastHeightChanged` must remain. The state at to must also exist. // // The from parameter is necessary since we can't do a key scan in a performant way due to the key // encoding not preserving ordering: https://github.com/tendermint/tendermint/issues/4567 // This will cause some old states to be left behind when doing incremental partial prunes, // specifically older checkpoints and LastHeightChanged targets. func PruneStates(db dbm.DB, from int64, to int64) error { if from <= 0 || to <= 0 { return fmt.Errorf("from height %v and to height %v must be greater than 0", from, to) } if from >= to { return fmt.Errorf("from height %v must be lower than to height %v", from, to) } valInfo := loadValidatorsInfo(db, to) if valInfo == nil { return fmt.Errorf("validators at height %v not found", to) } paramsInfo := loadConsensusParamsInfo(db, to) if paramsInfo == nil { return fmt.Errorf("consensus params at height %v not found", to) } keepVals := make(map[int64]bool) if valInfo.ValidatorSet == nil { keepVals[valInfo.LastHeightChanged] = true keepVals[lastStoredHeightFor(to, valInfo.LastHeightChanged)] = true // keep last checkpoint too } keepParams := make(map[int64]bool) if paramsInfo.ConsensusParams.Equals(&types.ConsensusParams{}) { keepParams[paramsInfo.LastHeightChanged] = true } batch := db.NewBatch() defer batch.Close() pruned := uint64(0) var err error // We have to delete in reverse order, to avoid deleting previous heights that have validator // sets and consensus params that we may need to retrieve. for h := to - 1; h >= from; h-- { // For heights we keep, we must make sure they have the full validator set or consensus // params, otherwise they will panic if they're retrieved directly (instead of // indirectly via a LastHeightChanged pointer). if keepVals[h] { v := loadValidatorsInfo(db, h) if v.ValidatorSet == nil { v.ValidatorSet, err = LoadValidators(db, h) if err != nil { return err } v.LastHeightChanged = h batch.Set(calcValidatorsKey(h), v.Bytes()) } } else { batch.Delete(calcValidatorsKey(h)) } if keepParams[h] { p := loadConsensusParamsInfo(db, h) if p.ConsensusParams.Equals(&types.ConsensusParams{}) { p.ConsensusParams, err = LoadConsensusParams(db, h) if err != nil { return err } p.LastHeightChanged = h batch.Set(calcConsensusParamsKey(h), p.Bytes()) } } else { batch.Delete(calcConsensusParamsKey(h)) } batch.Delete(calcABCIResponsesKey(h)) pruned++ // avoid batches growing too large by flushing to database regularly if pruned%1000 == 0 && pruned > 0 { err := batch.Write() if err != nil { return err } batch.Close() batch = db.NewBatch() defer batch.Close() } } err = batch.WriteSync() if err != nil { return err } return nil } // NewABCIResponses returns a new ABCIResponses func NewABCIResponses(block *types.Block) *ABCIResponses { resDeliverTxs := make([]*abci.ResponseDeliverTx, len(block.Data.Txs)) if len(block.Data.Txs) == 0 { // This makes Amino encoding/decoding consistent. resDeliverTxs = nil } return &ABCIResponses{ DeliverTxs: resDeliverTxs, } } // Bytes serializes the ABCIResponse using go-amino. func (arz *ABCIResponses) Bytes() []byte { return cdc.MustMarshalBinaryBare(arz) } func (arz *ABCIResponses) ResultsHash() []byte { results := types.NewResults(arz.DeliverTxs) return results.Hash() } // LoadABCIResponses loads the ABCIResponses for the given height from the database. // This is useful for recovering from crashes where we called app.Commit and before we called // s.Save(). It can also be used to produce Merkle proofs of the result of txs. func LoadABCIResponses(db dbm.DB, height int64) (*ABCIResponses, error) { buf, err := db.Get(calcABCIResponsesKey(height)) if err != nil { return nil, err } if len(buf) == 0 { return nil, ErrNoABCIResponsesForHeight{height} } abciResponses := new(ABCIResponses) err = cdc.UnmarshalBinaryBare(buf, abciResponses) if err != nil { // DATA HAS BEEN CORRUPTED OR THE SPEC HAS CHANGED tmos.Exit(fmt.Sprintf(`LoadABCIResponses: Data has been corrupted or its spec has changed: %v\n`, err)) } // TODO: ensure that buf is completely read. return abciResponses, nil } // SaveABCIResponses persists the ABCIResponses to the database. // This is useful in case we crash after app.Commit and before s.Save(). // Responses are indexed by height so they can also be loaded later to produce // Merkle proofs. // // Exposed for testing. func SaveABCIResponses(db dbm.DB, height int64, abciResponses *ABCIResponses) { db.SetSync(calcABCIResponsesKey(height), abciResponses.Bytes()) } //----------------------------------------------------------------------------- // ValidatorsInfo represents the latest validator set, or the last height it changed type ValidatorsInfo struct { ValidatorSet *types.ValidatorSet LastHeightChanged int64 } // Bytes serializes the ValidatorsInfo using go-amino. func (valInfo *ValidatorsInfo) Bytes() []byte { return cdc.MustMarshalBinaryBare(valInfo) } // LoadValidators loads the ValidatorSet for a given height. // Returns ErrNoValSetForHeight if the validator set can't be found for this height. func LoadValidators(db dbm.DB, height int64) (*types.ValidatorSet, error) { valInfo := loadValidatorsInfo(db, height) if valInfo == nil { return nil, ErrNoValSetForHeight{height} } if valInfo.ValidatorSet == nil { lastStoredHeight := lastStoredHeightFor(height, valInfo.LastHeightChanged) valInfo2 := loadValidatorsInfo(db, lastStoredHeight) if valInfo2 == nil || valInfo2.ValidatorSet == nil { panic( fmt.Sprintf("Couldn't find validators at height %d (height %d was originally requested)", lastStoredHeight, height, ), ) } valInfo2.ValidatorSet.IncrementProposerPriority(int(height - lastStoredHeight)) // mutate valInfo = valInfo2 } return valInfo.ValidatorSet, nil } func lastStoredHeightFor(height, lastHeightChanged int64) int64 { checkpointHeight := height - height%valSetCheckpointInterval return tmmath.MaxInt64(checkpointHeight, lastHeightChanged) } // CONTRACT: Returned ValidatorsInfo can be mutated. func loadValidatorsInfo(db dbm.DB, height int64) *ValidatorsInfo { buf, err := db.Get(calcValidatorsKey(height)) if err != nil { panic(err) } if len(buf) == 0 { return nil } v := new(ValidatorsInfo) err = cdc.UnmarshalBinaryBare(buf, v) if err != nil { // DATA HAS BEEN CORRUPTED OR THE SPEC HAS CHANGED tmos.Exit(fmt.Sprintf(`LoadValidators: Data has been corrupted or its spec has changed: %v\n`, err)) } // TODO: ensure that buf is completely read. return v } // saveValidatorsInfo persists the validator set. // // `height` is the effective height for which the validator is responsible for // signing. It should be called from s.Save(), right before the state itself is // persisted. func saveValidatorsInfo(db dbm.DB, height, lastHeightChanged int64, valSet *types.ValidatorSet) { if lastHeightChanged > height { panic("LastHeightChanged cannot be greater than ValidatorsInfo height") } valInfo := &ValidatorsInfo{ LastHeightChanged: lastHeightChanged, } // Only persist validator set if it was updated or checkpoint height (see // valSetCheckpointInterval) is reached. if height == lastHeightChanged || height%valSetCheckpointInterval == 0 { valInfo.ValidatorSet = valSet } db.Set(calcValidatorsKey(height), valInfo.Bytes()) } //----------------------------------------------------------------------------- // ConsensusParamsInfo represents the latest consensus params, or the last height it changed type ConsensusParamsInfo struct { ConsensusParams types.ConsensusParams LastHeightChanged int64 } // Bytes serializes the ConsensusParamsInfo using go-amino. func (params ConsensusParamsInfo) Bytes() []byte { return cdc.MustMarshalBinaryBare(params) } // LoadConsensusParams loads the ConsensusParams for a given height. func LoadConsensusParams(db dbm.DB, height int64) (types.ConsensusParams, error) { empty := types.ConsensusParams{} paramsInfo := loadConsensusParamsInfo(db, height) if paramsInfo == nil { return empty, ErrNoConsensusParamsForHeight{height} } if paramsInfo.ConsensusParams.Equals(&empty) { paramsInfo2 := loadConsensusParamsInfo(db, paramsInfo.LastHeightChanged) if paramsInfo2 == nil { panic( fmt.Sprintf( "Couldn't find consensus params at height %d as last changed from height %d", paramsInfo.LastHeightChanged, height, ), ) } paramsInfo = paramsInfo2 } return paramsInfo.ConsensusParams, nil } func loadConsensusParamsInfo(db dbm.DB, height int64) *ConsensusParamsInfo { buf, err := db.Get(calcConsensusParamsKey(height)) if err != nil { panic(err) } if len(buf) == 0 { return nil } paramsInfo := new(ConsensusParamsInfo) err = cdc.UnmarshalBinaryBare(buf, paramsInfo) if err != nil { // DATA HAS BEEN CORRUPTED OR THE SPEC HAS CHANGED tmos.Exit(fmt.Sprintf(`LoadConsensusParams: Data has been corrupted or its spec has changed: %v\n`, err)) } // TODO: ensure that buf is completely read. return paramsInfo } // saveConsensusParamsInfo persists the consensus params for the next block to disk. // It should be called from s.Save(), right before the state itself is persisted. // If the consensus params did not change after processing the latest block, // only the last height for which they changed is persisted. func saveConsensusParamsInfo(db dbm.DB, nextHeight, changeHeight int64, params types.ConsensusParams) { paramsInfo := &ConsensusParamsInfo{ LastHeightChanged: changeHeight, } if changeHeight == nextHeight { paramsInfo.ConsensusParams = params } db.Set(calcConsensusParamsKey(nextHeight), paramsInfo.Bytes()) }