Пример #1
0
func LoadState(db dbm.DB) *State {
	s := &State{DB: db}
	buf := db.Get(stateKey)
	if len(buf) == 0 {
		return nil
	} else {
		r, n, err := bytes.NewReader(buf), new(int64), new(error)
		s.ChainID = wire.ReadString(r, n, err)
		s.LastBlockHeight = wire.ReadVarint(r, n, err)
		s.LastBlockHash = wire.ReadByteSlice(r, n, err)
		s.LastBlockParts = wire.ReadBinary(types.PartSetHeader{}, r, n, err).(types.PartSetHeader)
		s.LastBlockTime = wire.ReadTime(r, n, err)
		s.BondedValidators = wire.ReadBinary(&types.ValidatorSet{}, r, n, err).(*types.ValidatorSet)
		s.LastBondedValidators = wire.ReadBinary(&types.ValidatorSet{}, r, n, err).(*types.ValidatorSet)
		s.UnbondingValidators = wire.ReadBinary(&types.ValidatorSet{}, r, n, err).(*types.ValidatorSet)
		accountsHash := wire.ReadByteSlice(r, n, err)
		s.accounts = merkle.NewIAVLTree(wire.BasicCodec, acm.AccountCodec, defaultAccountsCacheCapacity, db)
		s.accounts.Load(accountsHash)
		validatorInfosHash := wire.ReadByteSlice(r, n, err)
		s.validatorInfos = merkle.NewIAVLTree(wire.BasicCodec, types.ValidatorInfoCodec, 0, db)
		s.validatorInfos.Load(validatorInfosHash)
		nameRegHash := wire.ReadByteSlice(r, n, err)
		s.nameReg = merkle.NewIAVLTree(wire.BasicCodec, NameRegCodec, 0, db)
		s.nameReg.Load(nameRegHash)
		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 s
}
Пример #2
0
func LoadState(db dbm.DB) *State {
	s := &State{DB: db}
	buf := db.Get(stateKey)
	if len(buf) == 0 {
		return nil
	} else {
		r, n, err := bytes.NewReader(buf), new(int64), new(error)
		s.LastBlockHeight = binary.ReadUvarint(r, n, err)
		s.LastBlockHash = binary.ReadByteSlice(r, n, err)
		s.LastBlockParts = binary.ReadBinary(types.PartSetHeader{}, r, n, err).(types.PartSetHeader)
		s.LastBlockTime = binary.ReadTime(r, n, err)
		s.BondedValidators = binary.ReadBinary(&ValidatorSet{}, r, n, err).(*ValidatorSet)
		s.LastBondedValidators = binary.ReadBinary(&ValidatorSet{}, r, n, err).(*ValidatorSet)
		s.UnbondingValidators = binary.ReadBinary(&ValidatorSet{}, r, n, err).(*ValidatorSet)
		accountsHash := binary.ReadByteSlice(r, n, err)
		s.accounts = merkle.NewIAVLTree(binary.BasicCodec, account.AccountCodec, defaultAccountsCacheCapacity, db)
		s.accounts.Load(accountsHash)
		validatorInfosHash := binary.ReadByteSlice(r, n, err)
		s.validatorInfos = merkle.NewIAVLTree(binary.BasicCodec, ValidatorInfoCodec, 0, db)
		s.validatorInfos.Load(validatorInfosHash)
		if *err != nil {
			panic(*err)
		}
		// TODO: ensure that buf is completely read.
	}
	return s
}
Пример #3
0
func makeStorage(db dbm.DB, root []byte) merkle.Tree {
	storage := merkle.NewIAVLTree(
		binary.BasicCodec,
		binary.BasicCodec,
		1024,
		db,
	)
	storage.Load(root)
	return storage
}
Пример #4
0
func MakeGenesisState(db dbm.DB, genDoc *GenesisDoc) *State {
	if len(genDoc.Validators) == 0 {
		Exit(Fmt("The genesis file has no validators"))
	}

	if genDoc.GenesisTime.IsZero() {
		genDoc.GenesisTime = time.Now()
	}

	// Make accounts state tree
	accounts := merkle.NewIAVLTree(wire.BasicCodec, acm.AccountCodec, defaultAccountsCacheCapacity, db)
	for _, genAcc := range genDoc.Accounts {
		perm := ptypes.ZeroAccountPermissions
		if genAcc.Permissions != nil {
			perm = *genAcc.Permissions
		}
		acc := &acm.Account{
			Address:     genAcc.Address,
			PubKey:      nil,
			Sequence:    0,
			Balance:     genAcc.Amount,
			Permissions: perm,
		}
		accounts.Set(acc.Address, acc)
	}

	// global permissions are saved as the 0 address
	// so they are included in the accounts tree
	globalPerms := ptypes.DefaultAccountPermissions
	if genDoc.Params != nil && genDoc.Params.GlobalPermissions != nil {
		globalPerms = *genDoc.Params.GlobalPermissions
		// XXX: make sure the set bits are all true
		// Without it the HasPermission() functions will fail
		globalPerms.Base.SetBit = ptypes.AllPermFlags
	}

	permsAcc := &acm.Account{
		Address:     ptypes.GlobalPermissionsAddress,
		PubKey:      nil,
		Sequence:    0,
		Balance:     1337,
		Permissions: globalPerms,
	}
	accounts.Set(permsAcc.Address, permsAcc)

	// Make validatorInfos state tree && validators slice
	validatorInfos := merkle.NewIAVLTree(wire.BasicCodec, types.ValidatorInfoCodec, 0, db)
	validators := make([]*types.Validator, len(genDoc.Validators))
	for i, val := range genDoc.Validators {
		pubKey := val.PubKey
		address := pubKey.Address()

		// Make ValidatorInfo
		valInfo := &types.ValidatorInfo{
			Address:         address,
			PubKey:          pubKey,
			UnbondTo:        make([]*types.TxOutput, len(val.UnbondTo)),
			FirstBondHeight: 0,
			FirstBondAmount: val.Amount,
		}
		for i, unbondTo := range val.UnbondTo {
			valInfo.UnbondTo[i] = &types.TxOutput{
				Address: unbondTo.Address,
				Amount:  unbondTo.Amount,
			}
		}
		validatorInfos.Set(address, valInfo)

		// Make validator
		validators[i] = &types.Validator{
			Address:     address,
			PubKey:      pubKey,
			VotingPower: val.Amount,
		}
	}

	// Make namereg tree
	nameReg := merkle.NewIAVLTree(wire.BasicCodec, NameRegCodec, 0, db)
	// TODO: add names, contracts to genesis.json

	// IAVLTrees must be persisted before copy operations.
	accounts.Save()
	validatorInfos.Save()
	nameReg.Save()

	return &State{
		DB:                   db,
		ChainID:              genDoc.ChainID,
		LastBlockHeight:      0,
		LastBlockHash:        nil,
		LastBlockParts:       types.PartSetHeader{},
		LastBlockTime:        genDoc.GenesisTime,
		BondedValidators:     types.NewValidatorSet(validators),
		LastBondedValidators: types.NewValidatorSet(nil),
		UnbondingValidators:  types.NewValidatorSet(nil),
		accounts:             accounts,
		validatorInfos:       validatorInfos,
		nameReg:              nameReg,
	}
}
Пример #5
0
func (s *State) LoadStorage(hash []byte) (storage merkle.Tree) {
	storage = merkle.NewIAVLTree(wire.BasicCodec, wire.BasicCodec, 1024, s.DB)
	storage.Load(hash)
	return storage
}
Пример #6
0
func MakeGenesisState(db dbm.DB, genDoc *GenesisDoc) *State {
	if len(genDoc.Validators) == 0 {
		Exit(Fmt("The genesis file has no validators"))
	}

	if genDoc.GenesisTime.IsZero() {
		genDoc.GenesisTime = time.Now()
	}

	// Make accounts state tree
	accounts := merkle.NewIAVLTree(binary.BasicCodec, account.AccountCodec, defaultAccountsCacheCapacity, db)
	for _, genAcc := range genDoc.Accounts {
		acc := &account.Account{
			Address:  genAcc.Address,
			PubKey:   nil,
			Sequence: 0,
			Balance:  genAcc.Amount,
		}
		accounts.Set(acc.Address, acc)
	}

	// Make validatorInfos state tree && validators slice
	validatorInfos := merkle.NewIAVLTree(binary.BasicCodec, ValidatorInfoCodec, 0, db)
	validators := make([]*Validator, len(genDoc.Validators))
	for i, val := range genDoc.Validators {
		pubKey := val.PubKey
		address := pubKey.Address()

		// Make ValidatorInfo
		valInfo := &ValidatorInfo{
			Address:         address,
			PubKey:          pubKey,
			UnbondTo:        make([]*types.TxOutput, len(val.UnbondTo)),
			FirstBondHeight: 0,
			FirstBondAmount: val.Amount,
		}
		for i, unbondTo := range val.UnbondTo {
			valInfo.UnbondTo[i] = &types.TxOutput{
				Address: unbondTo.Address,
				Amount:  unbondTo.Amount,
			}
		}
		validatorInfos.Set(address, valInfo)

		// Make validator
		validators[i] = &Validator{
			Address:     address,
			PubKey:      pubKey,
			VotingPower: val.Amount,
		}
	}

	// IAVLTrees must be persisted before copy operations.
	accounts.Save()
	validatorInfos.Save()

	return &State{
		DB:                   db,
		LastBlockHeight:      0,
		LastBlockHash:        nil,
		LastBlockParts:       types.PartSetHeader{},
		LastBlockTime:        genDoc.GenesisTime,
		BondedValidators:     NewValidatorSet(validators),
		LastBondedValidators: NewValidatorSet(nil),
		UnbondingValidators:  NewValidatorSet(nil),
		accounts:             accounts,
		validatorInfos:       validatorInfos,
	}
}