package baseapp import ( "fmt" "runtime/debug" "strings" "github.com/pkg/errors" abci "github.com/tendermint/abci/types" cmn "github.com/tendermint/tmlibs/common" dbm "github.com/tendermint/tmlibs/db" "github.com/tendermint/tmlibs/log" "github.com/cosmos/cosmos-sdk/store" sdk "github.com/cosmos/cosmos-sdk/types" "github.com/cosmos/cosmos-sdk/wire" ) // Key to store the header in the DB itself. // Use the db directly instead of a store to avoid // conflicts with handlers writing to the store // and to avoid affecting the Merkle root. var dbHeaderKey = []byte("header") // Enum mode for app.runTx type runTxMode uint8 const ( // Check a transaction runTxModeCheck runTxMode = iota // Simulate a transaction runTxModeSimulate runTxMode = iota // Deliver a transaction runTxModeDeliver runTxMode = iota ) // The ABCI application type BaseApp struct { // initialized on creation Logger log.Logger name string // application name from abci.Info cdc *wire.Codec // Amino codec db dbm.DB // common DB backend cms sdk.CommitMultiStore // Main (uncached) state router Router // handle any kind of message codespacer *sdk.Codespacer // handle module codespacing // must be set txDecoder sdk.TxDecoder // unmarshal []byte into sdk.Tx anteHandler sdk.AnteHandler // ante handler for fee and auth txGasLimit sdk.Gas // per-transaction gas limit // may be nil initChainer sdk.InitChainer // initialize state with validators and state blob beginBlocker sdk.BeginBlocker // logic to run before any txs endBlocker sdk.EndBlocker // logic to run after all txs, and to determine valset changes addrPeerFilter sdk.PeerFilter // filter peers by address and port pubkeyPeerFilter sdk.PeerFilter // filter peers by public key //-------------------- // Volatile // checkState is set on initialization and reset on Commit. // deliverState is set in InitChain and BeginBlock and cleared on Commit. // See methods setCheckState and setDeliverState. // .valUpdates accumulate in DeliverTx and are reset in BeginBlock. // QUESTION: should we put valUpdates in the deliverState.ctx? checkState *state // for CheckTx deliverState *state // for DeliverTx valUpdates []abci.Validator // cached validator changes from DeliverTx } var _ abci.Application = (*BaseApp)(nil) // Create and name new BaseApp // NOTE: The db is used to store the version number for now. func NewBaseApp(name string, cdc *wire.Codec, logger log.Logger, db dbm.DB, txGasLimit sdk.Gas) *BaseApp { app := &BaseApp{ Logger: logger, name: name, cdc: cdc, db: db, cms: store.NewCommitMultiStore(db), router: NewRouter(), codespacer: sdk.NewCodespacer(), txDecoder: defaultTxDecoder(cdc), txGasLimit: txGasLimit, } // Register the undefined & root codespaces, which should not be used by any modules app.codespacer.RegisterOrPanic(sdk.CodespaceUndefined) app.codespacer.RegisterOrPanic(sdk.CodespaceRoot) return app } // BaseApp Name func (app *BaseApp) Name() string { return app.name } // Register the next available codespace through the baseapp's codespacer, starting from a default func (app *BaseApp) RegisterCodespace(codespace sdk.CodespaceType) sdk.CodespaceType { return app.codespacer.RegisterNext(codespace) } // Mount a store to the provided key in the BaseApp multistore func (app *BaseApp) MountStoresIAVL(keys ...*sdk.KVStoreKey) { for _, key := range keys { app.MountStore(key, sdk.StoreTypeIAVL) } } // Mount a store to the provided key in the BaseApp multistore, using a specified DB func (app *BaseApp) MountStoreWithDB(key sdk.StoreKey, typ sdk.StoreType, db dbm.DB) { app.cms.MountStoreWithDB(key, typ, db) } // Mount a store to the provided key in the BaseApp multistore, using the default DB func (app *BaseApp) MountStore(key sdk.StoreKey, typ sdk.StoreType) { app.cms.MountStoreWithDB(key, typ, nil) } // Set the txDecoder function func (app *BaseApp) SetTxDecoder(txDecoder sdk.TxDecoder) { app.txDecoder = txDecoder } // default custom logic for transaction decoding func defaultTxDecoder(cdc *wire.Codec) sdk.TxDecoder { return func(txBytes []byte) (sdk.Tx, sdk.Error) { var tx = sdk.StdTx{} if len(txBytes) == 0 { return nil, sdk.ErrTxDecode("txBytes are empty") } // StdTx.Msg is an interface. The concrete types // are registered by MakeTxCodec err := cdc.UnmarshalBinary(txBytes, &tx) if err != nil { return nil, sdk.ErrTxDecode("").Trace(err.Error()) } return tx, nil } } // nolint - Set functions func (app *BaseApp) SetInitChainer(initChainer sdk.InitChainer) { app.initChainer = initChainer } func (app *BaseApp) SetBeginBlocker(beginBlocker sdk.BeginBlocker) { app.beginBlocker = beginBlocker } func (app *BaseApp) SetEndBlocker(endBlocker sdk.EndBlocker) { app.endBlocker = endBlocker } func (app *BaseApp) SetAnteHandler(ah sdk.AnteHandler) { app.anteHandler = ah } func (app *BaseApp) SetAddrPeerFilter(pf sdk.PeerFilter) { app.addrPeerFilter = pf } func (app *BaseApp) SetPubKeyPeerFilter(pf sdk.PeerFilter) { app.pubkeyPeerFilter = pf } func (app *BaseApp) Router() Router { return app.router } // load latest application version func (app *BaseApp) LoadLatestVersion(mainKey sdk.StoreKey) error { app.cms.LoadLatestVersion() return app.initFromStore(mainKey) } // load application version func (app *BaseApp) LoadVersion(version int64, mainKey sdk.StoreKey) error { app.cms.LoadVersion(version) return app.initFromStore(mainKey) } // the last CommitID of the multistore func (app *BaseApp) LastCommitID() sdk.CommitID { return app.cms.LastCommitID() } // the last commited block height func (app *BaseApp) LastBlockHeight() int64 { return app.cms.LastCommitID().Version } // initializes the remaining logic from app.cms func (app *BaseApp) initFromStore(mainKey sdk.StoreKey) error { // main store should exist. // TODO: we don't actually need the main store here main := app.cms.GetKVStore(mainKey) if main == nil { return errors.New("BaseApp expects MultiStore with 'main' KVStore") } // XXX: Do we really need the header? What does it have that we want // here that's not already in the CommitID ? If an app wants to have it, // they can do so in their BeginBlocker. If we force it in baseapp, // then either we force the AppHash to change with every block (since the header // will be in the merkle store) or we can't write the state and the header to the // db atomically without doing some surgery on the store interfaces ... // if we've committed before, we expect to exist in the db /* var lastCommitID = app.cms.LastCommitID() var header abci.Header if !lastCommitID.IsZero() { headerBytes := app.db.Get(dbHeaderKey) if len(headerBytes) == 0 { errStr := fmt.Sprintf("Version > 0 but missing key %s", dbHeaderKey) return errors.New(errStr) } err := proto.Unmarshal(headerBytes, &header) if err != nil { return errors.Wrap(err, "Failed to parse Header") } lastVersion := lastCommitID.Version if header.Height != lastVersion { errStr := fmt.Sprintf("Expected db://%s.Height %v but got %v", dbHeaderKey, lastVersion, header.Height) return errors.New(errStr) } } */ // initialize Check state app.setCheckState(abci.Header{}) return nil } // NewContext returns a new Context with the correct store, the given header, and nil txBytes. func (app *BaseApp) NewContext(isCheckTx bool, header abci.Header) sdk.Context { if isCheckTx { return sdk.NewContext(app.checkState.ms, header, true, nil, app.Logger, app.txGasLimit) } return sdk.NewContext(app.deliverState.ms, header, false, nil, app.Logger, app.txGasLimit) } type state struct { ms sdk.CacheMultiStore ctx sdk.Context } func (st *state) CacheMultiStore() sdk.CacheMultiStore { return st.ms.CacheMultiStore() } func (app *BaseApp) setCheckState(header abci.Header) { ms := app.cms.CacheMultiStore() app.checkState = &state{ ms: ms, ctx: sdk.NewContext(ms, header, true, nil, app.Logger, app.txGasLimit), } } func (app *BaseApp) setDeliverState(header abci.Header) { ms := app.cms.CacheMultiStore() app.deliverState = &state{ ms: ms, ctx: sdk.NewContext(ms, header, false, nil, app.Logger, app.txGasLimit), } } //______________________________________________________________________________ // ABCI // Implements ABCI func (app *BaseApp) Info(req abci.RequestInfo) abci.ResponseInfo { lastCommitID := app.cms.LastCommitID() return abci.ResponseInfo{ Data: app.name, LastBlockHeight: lastCommitID.Version, LastBlockAppHash: lastCommitID.Hash, } } // Implements ABCI func (app *BaseApp) SetOption(req abci.RequestSetOption) (res abci.ResponseSetOption) { // TODO: Implement return } // Implements ABCI // InitChain runs the initialization logic directly on the CommitMultiStore and commits it. func (app *BaseApp) InitChain(req abci.RequestInitChain) (res abci.ResponseInitChain) { if app.initChainer == nil { return } // Initialize the deliver state and run initChain app.setDeliverState(abci.Header{}) app.initChainer(app.deliverState.ctx, req) // no error // NOTE: we don't commit, but BeginBlock for block 1 // starts from this deliverState return } // Filter peers by address / port func (app *BaseApp) FilterPeerByAddrPort(info string) abci.ResponseQuery { if app.addrPeerFilter != nil { return app.addrPeerFilter(info) } return abci.ResponseQuery{} } // Filter peers by public key func (app *BaseApp) FilterPeerByPubKey(info string) abci.ResponseQuery { if app.pubkeyPeerFilter != nil { return app.pubkeyPeerFilter(info) } return abci.ResponseQuery{} } // Implements ABCI. // Delegates to CommitMultiStore if it implements Queryable func (app *BaseApp) Query(req abci.RequestQuery) (res abci.ResponseQuery) { path := strings.Split(req.Path, "/") // first element is empty string if len(path) > 0 && path[0] == "" { path = path[1:] } fmt.Sprintf("Path: %v\n", path) // "/app" prefix for special application queries if len(path) >= 2 && path[0] == "app" { var result sdk.Result switch path[1] { case "simulate": txBytes := req.Data tx, err := app.txDecoder(txBytes) if err != nil { result = err.Result() } else { result = app.Simulate(tx) } default: result = sdk.ErrUnknownRequest(fmt.Sprintf("Unknown query: %s", path)).Result() } value := app.cdc.MustMarshalBinary(result) return abci.ResponseQuery{ Code: uint32(sdk.ABCICodeOK), Value: value, } } // "/store" prefix for store queries if len(path) >= 1 && path[0] == "store" { queryable, ok := app.cms.(sdk.Queryable) if !ok { msg := "multistore doesn't support queries" return sdk.ErrUnknownRequest(msg).QueryResult() } req.Path = "/" + strings.Join(path[1:], "/") return queryable.Query(req) } // "/p2p" prefix for p2p queries if len(path) >= 4 && path[0] == "p2p" { if path[1] == "filter" { if path[2] == "addr" { return app.FilterPeerByAddrPort(path[3]) } if path[2] == "pubkey" { return app.FilterPeerByPubKey(path[3]) } } } msg := "unknown query path" return sdk.ErrUnknownRequest(msg).QueryResult() } // Implements ABCI func (app *BaseApp) BeginBlock(req abci.RequestBeginBlock) (res abci.ResponseBeginBlock) { // Initialize the DeliverTx state. // If this is the first block, it should already // be initialized in InitChain. It may also be nil // if this is a test and InitChain was never called. if app.deliverState == nil { app.setDeliverState(req.Header) } app.valUpdates = nil if app.beginBlocker != nil { res = app.beginBlocker(app.deliverState.ctx, req) } return } // Implements ABCI func (app *BaseApp) CheckTx(txBytes []byte) (res abci.ResponseCheckTx) { // Decode the Tx. var result sdk.Result var tx, err = app.txDecoder(txBytes) if err != nil { result = err.Result() } else { result = app.runTx(runTxModeCheck, txBytes, tx) } return abci.ResponseCheckTx{ Code: uint32(result.Code), Data: result.Data, Log: result.Log, GasWanted: result.GasWanted, GasUsed: result.GasUsed, Fee: cmn.KI64Pair{ []byte(result.FeeDenom), result.FeeAmount, }, Tags: result.Tags, } } // Implements ABCI func (app *BaseApp) DeliverTx(txBytes []byte) (res abci.ResponseDeliverTx) { // Decode the Tx. var result sdk.Result var tx, err = app.txDecoder(txBytes) if err != nil { result = err.Result() } else { result = app.runTx(runTxModeDeliver, txBytes, tx) } // After-handler hooks. if result.IsOK() { app.valUpdates = append(app.valUpdates, result.ValidatorUpdates...) } else { // Even though the Result.Code is not OK, there are still effects, // namely fee deductions and sequence incrementing. } // Tell the blockchain engine (i.e. Tendermint). return abci.ResponseDeliverTx{ Code: uint32(result.Code), Data: result.Data, Log: result.Log, GasWanted: result.GasWanted, GasUsed: result.GasUsed, Tags: result.Tags, } } // nolint - Mostly for testing func (app *BaseApp) Check(tx sdk.Tx) (result sdk.Result) { return app.runTx(runTxModeCheck, nil, tx) } // nolint - full tx execution func (app *BaseApp) Simulate(tx sdk.Tx) (result sdk.Result) { return app.runTx(runTxModeSimulate, nil, tx) } // nolint func (app *BaseApp) Deliver(tx sdk.Tx) (result sdk.Result) { return app.runTx(runTxModeDeliver, nil, tx) } // txBytes may be nil in some cases, eg. in tests. // Also, in the future we may support "internal" transactions. func (app *BaseApp) runTx(mode runTxMode, txBytes []byte, tx sdk.Tx) (result sdk.Result) { // Handle any panics. defer func() { if r := recover(); r != nil { switch r.(type) { case sdk.ErrorOutOfGas: log := fmt.Sprintf("Out of gas in location: %v", r.(sdk.ErrorOutOfGas).Descriptor) result = sdk.ErrOutOfGas(log).Result() default: log := fmt.Sprintf("Recovered: %v\nstack:\n%v", r, string(debug.Stack())) result = sdk.ErrInternal(log).Result() } } }() // Get the Msg. var msg = tx.GetMsg() if msg == nil { return sdk.ErrInternal("Tx.GetMsg() returned nil").Result() } // Validate the Msg. err := msg.ValidateBasic() if err != nil { err = err.WithDefaultCodespace(sdk.CodespaceRoot) return err.Result() } // Get the context var ctx sdk.Context if mode == runTxModeCheck || mode == runTxModeSimulate { ctx = app.checkState.ctx.WithTxBytes(txBytes) } else { ctx = app.deliverState.ctx.WithTxBytes(txBytes) } // Simulate a DeliverTx for gas calculation if mode == runTxModeSimulate { ctx = ctx.WithIsCheckTx(false) } // Run the ante handler. if app.anteHandler != nil { newCtx, result, abort := app.anteHandler(ctx, tx) if abort { return result } if !newCtx.IsZero() { ctx = newCtx } } // Match route. msgType := msg.Type() handler := app.router.Route(msgType) if handler == nil { return sdk.ErrUnknownRequest("Unrecognized Msg type: " + msgType).Result() } // Get the correct cache var msCache sdk.CacheMultiStore if mode == runTxModeCheck || mode == runTxModeSimulate { // CacheWrap app.checkState.ms in case it fails. msCache = app.checkState.CacheMultiStore() ctx = ctx.WithMultiStore(msCache) } else { // CacheWrap app.deliverState.ms in case it fails. msCache = app.deliverState.CacheMultiStore() ctx = ctx.WithMultiStore(msCache) } result = handler(ctx, msg) // Set gas utilized result.GasUsed = ctx.GasMeter().GasConsumed() // If not a simulated run and result was successful, write to app.checkState.ms or app.deliverState.ms if mode != runTxModeSimulate && result.IsOK() { msCache.Write() } return result } // Implements ABCI func (app *BaseApp) EndBlock(req abci.RequestEndBlock) (res abci.ResponseEndBlock) { if app.endBlocker != nil { res = app.endBlocker(app.deliverState.ctx, req) } else { res.ValidatorUpdates = app.valUpdates } return } // Implements ABCI func (app *BaseApp) Commit() (res abci.ResponseCommit) { header := app.deliverState.ctx.BlockHeader() /* // Write the latest Header to the store headerBytes, err := proto.Marshal(&header) if err != nil { panic(err) } app.db.SetSync(dbHeaderKey, headerBytes) */ // Write the Deliver state and commit the MultiStore app.deliverState.ms.Write() commitID := app.cms.Commit() app.Logger.Debug("Commit synced", "commit", commitID, ) // Reset the Check state to the latest committed // NOTE: safe because Tendermint holds a lock on the mempool for Commit. // Use the header from this latest block. app.setCheckState(header) // Empty the Deliver state app.deliverState = nil return abci.ResponseCommit{ Data: commitID.Hash, } }