zolfa
/
tendermint


								package dummy


								import (

									"bytes"

									"encoding/hex"

									"strconv"

									"strings"


									. "github.com/tendermint/go-common"

									dbm "github.com/tendermint/go-db"

									"github.com/tendermint/go-merkle"

									"github.com/tendermint/go-wire"

									"github.com/tendermint/abci/types"

								)


								const (

									ValidatorSetChangePrefix string = "val:"

								)


								//-----------------------------------------


								type PersistentDummyApplication struct {

									app *DummyApplication

									db  dbm.DB


									// latest received

									// TODO: move to merkle tree?

									blockHeader *types.Header


									// validator set

									changes []*types.Validator

								}


								func NewPersistentDummyApplication(dbDir string) *PersistentDummyApplication {

									db := dbm.NewDB("dummy", "leveldb", dbDir)

									lastBlock := LoadLastBlock(db)


									stateTree := merkle.NewIAVLTree(0, db)

									stateTree.Load(lastBlock.AppHash)


									log.Notice("Loaded state", "block", lastBlock.Height, "root", stateTree.Hash())


									return &PersistentDummyApplication{

										app: &DummyApplication{state: stateTree},

										db:  db,

									}

								}


								func (app *PersistentDummyApplication) Info() (resInfo types.ResponseInfo) {

									resInfo = app.app.Info()

									lastBlock := LoadLastBlock(app.db)

									resInfo.LastBlockHeight = lastBlock.Height

									resInfo.LastBlockAppHash = lastBlock.AppHash

									return resInfo

								}


								func (app *PersistentDummyApplication) SetOption(key string, value string) (log string) {

									return app.app.SetOption(key, value)

								}


								// tx is either "key=value" or just arbitrary bytes

								func (app *PersistentDummyApplication) DeliverTx(tx []byte) types.Result {

									// if it starts with "val:", update the validator set

									// format is "val:pubkey/power"

									if isValidatorTx(tx) {

										// update validators in the merkle tree

										// and in app.changes

										return app.execValidatorTx(tx)

									}


									// otherwise, update the key-value store

									return app.app.DeliverTx(tx)

								}


								func (app *PersistentDummyApplication) CheckTx(tx []byte) types.Result {

									return app.app.CheckTx(tx)

								}


								func (app *PersistentDummyApplication) Commit() types.Result {

									// Save

									appHash := app.app.state.Save()

									log.Info("Saved state", "root", appHash)


									lastBlock := LastBlockInfo{

										Height:  app.blockHeader.Height,

										AppHash: appHash, // this hash will be in the next block header

									}

									SaveLastBlock(app.db, lastBlock)

									return types.NewResultOK(appHash, "")

								}


								func (app *PersistentDummyApplication) Query(query []byte) types.Result {

									return app.app.Query(query)

								}


								// Save the validators in the merkle tree

								func (app *PersistentDummyApplication) InitChain(validators []*types.Validator) {

									for _, v := range validators {

										r := app.updateValidator(v)

										if r.IsErr() {

											log.Error("Error updating validators", "r", r)

										}

									}

								}


								// Track the block hash and header information

								func (app *PersistentDummyApplication) BeginBlock(hash []byte, header *types.Header) {

									// update latest block info

									app.blockHeader = header


									// reset valset changes

									app.changes = make([]*types.Validator, 0)

								}


								// Update the validator set

								func (app *PersistentDummyApplication) EndBlock(height uint64) (resEndBlock types.ResponseEndBlock) {

									return types.ResponseEndBlock{Diffs: app.changes}

								}


								//-----------------------------------------

								// persist the last block info


								var lastBlockKey = []byte("lastblock")


								type LastBlockInfo struct {

									Height  uint64

									AppHash []byte

								}


								// Get the last block from the db

								func LoadLastBlock(db dbm.DB) (lastBlock LastBlockInfo) {

									buf := db.Get(lastBlockKey)

									if len(buf) != 0 {

										r, n, err := bytes.NewReader(buf), new(int), new(error)

										wire.ReadBinaryPtr(&lastBlock, r, 0, n, err)

										if *err != nil {

											// DATA HAS BEEN CORRUPTED OR THE SPEC HAS CHANGED

											Exit(Fmt("Data has been corrupted or its spec has changed: %v\n", *err))

										}

										// TODO: ensure that buf is completely read.

									}


									return lastBlock

								}


								func SaveLastBlock(db dbm.DB, lastBlock LastBlockInfo) {

									log.Notice("Saving block", "height", lastBlock.Height, "root", lastBlock.AppHash)

									buf, n, err := new(bytes.Buffer), new(int), new(error)

									wire.WriteBinary(lastBlock, buf, n, err)

									if *err != nil {

										// TODO

										PanicCrisis(*err)

									}

									db.Set(lastBlockKey, buf.Bytes())

								}


								//---------------------------------------------

								// update validators


								func (app *PersistentDummyApplication) Validators() (validators []*types.Validator) {

									app.app.state.Iterate(func(key, value []byte) bool {

										if isValidatorTx(key) {

											validator := new(types.Validator)

											err := types.ReadMessage(bytes.NewBuffer(value), validator)

											if err != nil {

												panic(err)

											}

											validators = append(validators, validator)

										}

										return false

									})

									return

								}


								func MakeValSetChangeTx(pubkey []byte, power uint64) []byte {

									return []byte(Fmt("val:%X/%d", pubkey, power))

								}


								func isValidatorTx(tx []byte) bool {

									if strings.HasPrefix(string(tx), ValidatorSetChangePrefix) {

										return true

									}

									return false

								}


								// format is "val:pubkey1/power1,addr2/power2,addr3/power3"tx

								func (app *PersistentDummyApplication) execValidatorTx(tx []byte) types.Result {

									tx = tx[len(ValidatorSetChangePrefix):]

									pubKeyAndPower := strings.Split(string(tx), "/")

									if len(pubKeyAndPower) != 2 {

										return types.ErrEncodingError.SetLog(Fmt("Expected 'pubkey/power'. Got %v", pubKeyAndPower))

									}

									pubkeyS, powerS := pubKeyAndPower[0], pubKeyAndPower[1]

									pubkey, err := hex.DecodeString(pubkeyS)

									if err != nil {

										return types.ErrEncodingError.SetLog(Fmt("Pubkey (%s) is invalid hex", pubkeyS))

									}

									power, err := strconv.Atoi(powerS)

									if err != nil {

										return types.ErrEncodingError.SetLog(Fmt("Power (%s) is not an int", powerS))

									}


									// update

									return app.updateValidator(&types.Validator{pubkey, uint64(power)})

								}


								// add, update, or remove a validator

								func (app *PersistentDummyApplication) updateValidator(v *types.Validator) types.Result {

									key := []byte("val:" + string(v.PubKey))

									if v.Power == 0 {

										// remove validator

										if !app.app.state.Has(key) {

											return types.ErrUnauthorized.SetLog(Fmt("Cannot remove non-existent validator %X", key))

										}

										app.app.state.Remove(key)

									} else {

										// add or update validator

										value := bytes.NewBuffer(make([]byte, 0))

										if err := types.WriteMessage(v, value); err != nil {

											return types.ErrInternalError.SetLog(Fmt("Error encoding validator: %v", err))

										}

										app.app.state.Set(key, value.Bytes())

									}


									// we only update the changes array if we succesfully updated the tree

									app.changes = append(app.changes, v)


									return types.OK

								}