package state import ( "errors" "github.com/ebuchman/fail-test" abci "github.com/tendermint/abci/types" . "github.com/tendermint/go-common" cfg "github.com/tendermint/go-config" "github.com/tendermint/go-crypto" "github.com/tendermint/tendermint/proxy" "github.com/tendermint/tendermint/types" ) //-------------------------------------------------- // Execute the block // Execute the block to mutate State. // Validates block and then executes Data.Txs in the block. func (s *State) ExecBlock(eventCache types.Fireable, proxyAppConn proxy.AppConnConsensus, block *types.Block, blockPartsHeader types.PartSetHeader) error { // Validate the block. if err := s.validateBlock(block); err != nil { return ErrInvalidBlock(err) } // compute bitarray of validators that signed signed := commitBitArrayFromBlock(block) _ = signed // TODO send on begin block // copy the valset valSet := s.Validators.Copy() nextValSet := valSet.Copy() // Execute the block txs changedValidators, err := execBlockOnProxyApp(eventCache, proxyAppConn, block) if err != nil { // There was some error in proxyApp // TODO Report error and wait for proxyApp to be available. return ErrProxyAppConn(err) } // update the validator set err = updateValidators(nextValSet, changedValidators) if err != nil { log.Warn("Error changing validator set", "error", err) // TODO: err or carry on? } // All good! // Update validator accums and set state variables nextValSet.IncrementAccum(1) s.SetBlockAndValidators(block.Header, blockPartsHeader, valSet, nextValSet) // save state with updated height/blockhash/validators // but stale apphash, in case we fail between Commit and Save s.SaveIntermediate() fail.Fail() // XXX return nil } // Executes block's transactions on proxyAppConn. // Returns a list of updates to the validator set // TODO: Generate a bitmap or otherwise store tx validity in state. func execBlockOnProxyApp(eventCache types.Fireable, proxyAppConn proxy.AppConnConsensus, block *types.Block) ([]*abci.Validator, error) { var validTxs, invalidTxs = 0, 0 // Execute transactions and get hash proxyCb := func(req *abci.Request, res *abci.Response) { switch r := res.Value.(type) { case *abci.Response_DeliverTx: // TODO: make use of res.Log // TODO: make use of this info // Blocks may include invalid txs. // reqDeliverTx := req.(abci.RequestDeliverTx) txError := "" apTx := r.DeliverTx if apTx.Code == abci.CodeType_OK { validTxs += 1 } else { log.Debug("Invalid tx", "code", r.DeliverTx.Code, "log", r.DeliverTx.Log) invalidTxs += 1 txError = apTx.Code.String() } // NOTE: if we count we can access the tx from the block instead of // pulling it from the req event := types.EventDataTx{ Tx: req.GetDeliverTx().Tx, Data: apTx.Data, Code: apTx.Code, Log: apTx.Log, Error: txError, } types.FireEventTx(eventCache, event) } } proxyAppConn.SetResponseCallback(proxyCb) // Begin block err := proxyAppConn.BeginBlockSync(block.Hash(), types.TM2PB.Header(block.Header)) if err != nil { log.Warn("Error in proxyAppConn.BeginBlock", "error", err) return nil, err } fail.Fail() // XXX // Run txs of block for _, tx := range block.Txs { fail.FailRand(len(block.Txs)) // XXX proxyAppConn.DeliverTxAsync(tx) if err := proxyAppConn.Error(); err != nil { return nil, err } } fail.Fail() // XXX // End block respEndBlock, err := proxyAppConn.EndBlockSync(uint64(block.Height)) if err != nil { log.Warn("Error in proxyAppConn.EndBlock", "error", err) return nil, err } fail.Fail() // XXX log.Info("Executed block", "height", block.Height, "valid txs", validTxs, "invalid txs", invalidTxs) if len(respEndBlock.Diffs) > 0 { log.Info("Update to validator set", "updates", abci.ValidatorsString(respEndBlock.Diffs)) } return respEndBlock.Diffs, nil } func updateValidators(validators *types.ValidatorSet, changedValidators []*abci.Validator) error { // TODO: prevent change of 1/3+ at once for _, v := range changedValidators { pubkey, err := crypto.PubKeyFromBytes(v.PubKey) // NOTE: expects go-wire encoded pubkey if err != nil { return err } address := pubkey.Address() power := int64(v.Power) // mind the overflow from uint64 if power < 0 { return errors.New(Fmt("Power (%d) overflows int64", v.Power)) } _, val := validators.GetByAddress(address) if val == nil { // add val added := validators.Add(types.NewValidator(pubkey, power)) if !added { return errors.New(Fmt("Failed to add new validator %X with voting power %d", address, power)) } } else if v.Power == 0 { // remove val _, removed := validators.Remove(address) if !removed { return errors.New(Fmt("Failed to remove validator %X)")) } } else { // update val val.VotingPower = power updated := validators.Update(val) if !updated { return errors.New(Fmt("Failed to update validator %X with voting power %d", address, power)) } } } return nil } // return a bit array of validators that signed the last commit // NOTE: assumes commits have already been authenticated func commitBitArrayFromBlock(block *types.Block) *BitArray { signed := NewBitArray(len(block.LastCommit.Precommits)) for i, precommit := range block.LastCommit.Precommits { if precommit != nil { signed.SetIndex(i, true) // val_.LastCommitHeight = block.Height - 1 } } return signed } //----------------------------------------------------- // Validate block func (s *State) ValidateBlock(block *types.Block) error { return s.validateBlock(block) } func (s *State) validateBlock(block *types.Block) error { // Basic block validation. err := block.ValidateBasic(s.ChainID, s.LastBlockHeight, s.LastBlockID, s.LastBlockTime, s.AppHash) if err != nil { return err } // Validate block LastCommit. if block.Height == 1 { if len(block.LastCommit.Precommits) != 0 { return errors.New("Block at height 1 (first block) should have no LastCommit precommits") } } else { if len(block.LastCommit.Precommits) != s.LastValidators.Size() { return errors.New(Fmt("Invalid block commit size. Expected %v, got %v", s.LastValidators.Size(), len(block.LastCommit.Precommits))) } err := s.LastValidators.VerifyCommit( s.ChainID, s.LastBlockID, block.Height-1, block.LastCommit) if err != nil { return err } } return nil } //----------------------------------------------------------------------------- // ApplyBlock executes the block, then commits and updates the mempool atomically // Execute and commit block against app, save block and state func (s *State) ApplyBlock(eventCache types.Fireable, proxyAppConn proxy.AppConnConsensus, block *types.Block, partsHeader types.PartSetHeader, mempool Mempool) error { // Run the block on the State: // + update validator sets // + run txs on the proxyAppConn err := s.ExecBlock(eventCache, proxyAppConn, block, partsHeader) if err != nil { return errors.New(Fmt("Exec failed for application: %v", err)) } // lock mempool, commit state, update mempoool err = s.CommitStateUpdateMempool(proxyAppConn, block, mempool) if err != nil { return errors.New(Fmt("Commit failed for application: %v", err)) } return nil } // 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 (s *State) CommitStateUpdateMempool(proxyAppConn proxy.AppConnConsensus, block *types.Block, mempool Mempool) error { mempool.Lock() defer mempool.Unlock() // Commit block, get hash back res := proxyAppConn.CommitSync() if res.IsErr() { log.Warn("Error in proxyAppConn.CommitSync", "error", res) return res } if res.Log != "" { log.Debug("Commit.Log: " + res.Log) } // Set the state's new AppHash s.AppHash = res.Data // Update mempool. mempool.Update(block.Height, block.Txs) return nil } // Updates to the mempool need to be synchronized with committing a block // so apps can reset their transient state on Commit type Mempool interface { Lock() Unlock() CheckTx(types.Tx, func(*abci.Response)) error Reap(int) types.Txs Update(height int, txs types.Txs) } type MockMempool struct { } func (m MockMempool) Lock() {} func (m MockMempool) Unlock() {} func (m MockMempool) CheckTx(tx types.Tx, cb func(*abci.Response)) error { return nil } func (m MockMempool) Reap(n int) types.Txs { return types.Txs{} } func (m MockMempool) Update(height int, txs types.Txs) {} //---------------------------------------------------------------- // Handshake with app to sync to latest state of core by replaying blocks // TODO: Should we move blockchain/store.go to its own package? type BlockStore interface { Height() int LoadBlockMeta(height int) *types.BlockMeta LoadBlock(height int) *types.Block LoadBlockPart(height int, index int) *types.Part SaveBlock(block *types.Block, blockParts *types.PartSet, seenCommit *types.Commit) LoadBlockCommit(height int) *types.Commit LoadSeenCommit(height int) *types.Commit } type blockReplayFunc func(cfg.Config, *State, proxy.AppConnConsensus, BlockStore) type Handshaker struct { config cfg.Config state *State store BlockStore replayLastBlock blockReplayFunc nBlocks int // number of blocks applied to the state } func NewHandshaker(config cfg.Config, state *State, store BlockStore, f blockReplayFunc) *Handshaker { return &Handshaker{config, state, store, f, 0} } func (h *Handshaker) NBlocks() int { return h.nBlocks } // TODO: retry the handshake/replay if it fails ? func (h *Handshaker) Handshake(proxyApp proxy.AppConns) error { // handshake is done via info request on the query conn res, err := proxyApp.Query().InfoSync() if err != nil { return errors.New(Fmt("Error calling Info: %v", err)) } blockHeight := int(res.LastBlockHeight) // XXX: beware overflow appHash := res.LastBlockAppHash log.Notice("ABCI Handshake", "appHeight", blockHeight, "appHash", appHash) // TODO: check version // replay blocks up to the latest in the blockstore err = h.ReplayBlocks(appHash, blockHeight, proxyApp) if err != nil { return errors.New(Fmt("Error on replay: %v", err)) } // TODO: (on restart) replay mempool return nil } // Replay all blocks after blockHeight and ensure the result matches the current state. func (h *Handshaker) ReplayBlocks(appHash []byte, appBlockHeight int, proxyApp proxy.AppConns) error { storeBlockHeight := h.store.Height() stateBlockHeight := h.state.LastBlockHeight log.Notice("ABCI Replay Blocks", "appHeight", appBlockHeight, "storeHeight", storeBlockHeight, "stateHeight", stateBlockHeight) if storeBlockHeight == 0 { return nil } else if storeBlockHeight < appBlockHeight { // if the app is ahead, there's nothing we can do return ErrAppBlockHeightTooHigh{storeBlockHeight, appBlockHeight} } else if storeBlockHeight == appBlockHeight && storeBlockHeight == stateBlockHeight+1 { // We already ran Commit, but didn't save the state, so run through consensus with mock app mockApp := newMockProxyApp(appHash) log.Info("Replay last block using mock app") h.replayLastBlock(h.config, h.state, mockApp, h.store) } else if storeBlockHeight == appBlockHeight+1 { // We crashed after saving the block // but before Commit (both the state and app are behind), // so run through consensus with the real app log.Info("Replay last block using real app") h.replayLastBlock(h.config, h.state, proxyApp.Consensus(), h.store) } else { // store is more than one ahead, // so app wants to replay many blocks /* // replay all blocks starting with appBlockHeight+1 var eventCache types.Fireable // nil // TODO: use stateBlockHeight instead and let the consensus state // do the replay var appHash []byte for i := appBlockHeight + 1; i <= storeBlockHeight; i++ { h.nBlocks += 1 block := h.store.LoadBlock(i) _, err := execBlockOnProxyApp(eventCache, appConnConsensus, block) if err != nil { log.Warn("Error executing block on proxy app", "height", i, "err", err) return err } // Commit block, get hash back res := appConnConsensus.CommitSync() if res.IsErr() { log.Warn("Error in proxyAppConn.CommitSync", "error", res) return res } if res.Log != "" { log.Info("Commit.Log: " + res.Log) } appHash = res.Data } if !bytes.Equal(h.state.AppHash, appHash) { return errors.New(Fmt("Tendermint state.AppHash does not match AppHash after replay. Got %X, expected %X", appHash, h.state.AppHash)) } */ return nil } return nil } //-------------------------------------------------------------------------------- func newMockProxyApp(appHash []byte) proxy.AppConnConsensus { clientCreator := proxy.NewLocalClientCreator(&mockProxyApp{appHash: appHash}) cli, _ := clientCreator.NewABCIClient() return proxy.NewAppConnConsensus(cli) } type mockProxyApp struct { abci.BaseApplication appHash []byte } func (mock *mockProxyApp) Commit() abci.Result { return abci.NewResultOK(mock.appHash, "") }