Exemplo n.º 1
0
    def create_minor_block(self, root_block: RootBlock, full_shard_id: int,
                           evm_state: EvmState) -> MinorBlock:
        """ Create genesis block for shard.
        Genesis block's hash_prev_root_block is set to the genesis root block.
        Genesis state will be committed to the given evm_state.
        Based on ALLOC, genesis_token will be added to initial accounts.
        """
        branch = Branch(full_shard_id)
        shard_config = self._qkc_config.shards[full_shard_id]
        genesis = shard_config.GENESIS

        for address_hex, alloc_amount in genesis.ALLOC.items():
            address = Address.create_from(bytes.fromhex(address_hex))
            check(
                self._qkc_config.get_full_shard_id_by_full_shard_key(
                    address.full_shard_key) == full_shard_id)
            evm_state.full_shard_key = address.full_shard_key
            if isinstance(alloc_amount, dict):
                for k, v in alloc_amount.items():
                    evm_state.delta_token_balance(address.recipient,
                                                  token_id_encode(k), v)
            else:
                evm_state.delta_token_balance(address.recipient,
                                              self._qkc_config.genesis_token,
                                              alloc_amount)

        evm_state.commit()

        meta = MinorBlockMeta(
            hash_merkle_root=bytes.fromhex(genesis.HASH_MERKLE_ROOT),
            hash_evm_state_root=evm_state.trie.root_hash,
        )

        local_fee_rate = 1 - self._qkc_config.reward_tax_rate  # type: Fraction
        coinbase_tokens = {
            self._qkc_config.genesis_token:
            shard_config.COINBASE_AMOUNT * local_fee_rate.numerator //
            local_fee_rate.denominator
        }

        coinbase_address = Address.create_empty_account(full_shard_id)

        header = MinorBlockHeader(
            version=genesis.VERSION,
            height=genesis.HEIGHT,
            branch=branch,
            hash_prev_minor_block=bytes.fromhex(genesis.HASH_PREV_MINOR_BLOCK),
            hash_prev_root_block=root_block.header.get_hash(),
            evm_gas_limit=genesis.GAS_LIMIT,
            hash_meta=sha3_256(meta.serialize()),
            coinbase_amount_map=TokenBalanceMap(coinbase_tokens),
            coinbase_address=coinbase_address,
            create_time=genesis.TIMESTAMP,
            difficulty=genesis.DIFFICULTY,
            extra_data=bytes.fromhex(genesis.EXTRA_DATA),
        )
        return (
            MinorBlock(header=header, meta=meta, tx_list=[]),
            TokenBalanceMap(coinbase_tokens),
        )
Exemplo n.º 2
0
    def create_minor_block(self, root_block: RootBlock, shard_id: int,
                           evm_state: EvmState) -> MinorBlock:
        """ Create genesis block for shard.
        Genesis block's hash_prev_root_block is set to the genesis root block.
        Genesis state will be committed to the given evm_state.
        """
        branch = Branch.create(self._qkc_config.SHARD_SIZE, shard_id)
        shard_config = self._qkc_config.SHARD_LIST[shard_id]
        genesis = shard_config.GENESIS

        for address_hex, amount_in_wei in genesis.ALLOC.items():
            address = Address.create_from(bytes.fromhex(address_hex))
            check(
                address.get_shard_id(self._qkc_config.SHARD_SIZE) == shard_id)
            evm_state.full_shard_id = address.full_shard_id
            evm_state.delta_balance(address.recipient, amount_in_wei)

        evm_state.commit()

        meta = MinorBlockMeta(
            hash_merkle_root=bytes.fromhex(genesis.HASH_MERKLE_ROOT),
            hash_evm_state_root=evm_state.trie.root_hash,
        )

        local_fee_rate = 1 - self._qkc_config.reward_tax_rate  # type: Fraction
        coinbase_amount = (shard_config.COINBASE_AMOUNT *
                           local_fee_rate.numerator //
                           local_fee_rate.denominator)
        coinbase_address = Address.create_empty_account(shard_id)

        header = MinorBlockHeader(
            version=genesis.VERSION,
            height=genesis.HEIGHT,
            branch=branch,
            hash_prev_minor_block=bytes.fromhex(genesis.HASH_PREV_MINOR_BLOCK),
            hash_prev_root_block=root_block.header.get_hash(),
            evm_gas_limit=genesis.GAS_LIMIT,
            hash_meta=sha3_256(meta.serialize()),
            coinbase_amount=coinbase_amount,
            coinbase_address=coinbase_address,
            create_time=genesis.TIMESTAMP,
            difficulty=genesis.DIFFICULTY,
            extra_data=bytes.fromhex(genesis.EXTRA_DATA),
        )
        return MinorBlock(header=header, meta=meta, tx_list=[])
Exemplo n.º 3
0
    async def handle_get_transaction_request(self, req):
        minor_block, i = self.slave_server.get_transaction_by_hash(
            req.tx_hash, req.branch
        )
        if not minor_block:
            empty_block = MinorBlock(MinorBlockHeader(), MinorBlockMeta())
            return GetTransactionResponse(
                error_code=1, minor_block=empty_block, index=0
            )

        return GetTransactionResponse(error_code=0, minor_block=minor_block, index=i)
    def test_get_minor_block_by_hash(self):
        db = ShardDbOperator(InMemoryDb(), DEFAULT_ENV, Branch(2))
        block = MinorBlock(MinorBlockHeader(), MinorBlockMeta())
        block_hash = block.header.get_hash()
        db.put_minor_block(block, [])
        self.assertEqual(db.get_minor_block_by_hash(block_hash), block)
        self.assertIsNone(db.get_minor_block_by_hash(b""))

        self.assertEqual(db.get_minor_block_header_by_hash(block_hash),
                         block.header)
        self.assertIsNone(db.get_minor_block_header_by_hash(b""))
Exemplo n.º 5
0
 async def handle_get_transaction_receipt_request(self, req):
     resp = self.slave_server.get_transaction_receipt(req.tx_hash, req.branch)
     if not resp:
         empty_block = MinorBlock(MinorBlockHeader(), MinorBlockMeta())
         empty_receipt = TransactionReceipt.create_empty_receipt()
         return GetTransactionReceiptResponse(
             error_code=1, minor_block=empty_block, index=0, receipt=empty_receipt
         )
     minor_block, i, receipt = resp
     return GetTransactionReceiptResponse(
         error_code=0, minor_block=minor_block, index=i, receipt=receipt
     )
Exemplo n.º 6
0
    async def handle_get_minor_block_request(self, req):
        if req.minor_block_hash != bytes(32):
            block = self.slave_server.get_minor_block_by_hash(
                req.minor_block_hash, req.branch)
        else:
            block = self.slave_server.get_minor_block_by_height(
                req.height, req.branch)

        if not block:
            empty_block = MinorBlock(MinorBlockHeader(), MinorBlockMeta())
            return GetMinorBlockResponse(error_code=1, minor_block=empty_block)

        return GetMinorBlockResponse(error_code=0, minor_block=block)
Exemplo n.º 7
0
    def create_minor_block(
            self, root_block: RootBlock, full_shard_id: int,
            evm_state: EvmState) -> Tuple[MinorBlock, TokenBalanceMap]:
        """ Create genesis block for shard.
        Genesis block's hash_prev_root_block is set to the genesis root block.
        Genesis state will be committed to the given evm_state.
        Based on ALLOC, genesis_token will be added to initial accounts.
        """
        branch = Branch(full_shard_id)
        shard_config = self._qkc_config.shards[full_shard_id]
        genesis = shard_config.GENESIS

        for address_hex, alloc_data in genesis.ALLOC.items():
            address = Address.create_from(bytes.fromhex(address_hex))
            check(
                self._qkc_config.get_full_shard_id_by_full_shard_key(
                    address.full_shard_key) == full_shard_id)
            evm_state.full_shard_key = address.full_shard_key
            recipient = address.recipient
            if "code" in alloc_data:
                code = decode_hex(remove_0x_head(alloc_data["code"]))
                evm_state.set_code(recipient, code)
                evm_state.set_nonce(recipient, 1)
            if "storage" in alloc_data:
                for k, v in alloc_data["storage"].items():
                    evm_state.set_storage_data(
                        recipient,
                        big_endian_to_int(decode_hex(k[2:])),
                        big_endian_to_int(decode_hex(v[2:])),
                    )
            # backward compatible:
            # v1: {addr: {QKC: 1234}}
            # v2: {addr: {balances: {QKC: 1234}, code: 0x, storage: {0x12: 0x34}}}
            balances = alloc_data
            if "balances" in alloc_data:
                balances = alloc_data["balances"]
            for k, v in balances.items():
                if k in ("code", "storage"):
                    continue
                evm_state.delta_token_balance(recipient, token_id_encode(k), v)

        evm_state.commit()

        meta = MinorBlockMeta(
            hash_merkle_root=bytes.fromhex(genesis.HASH_MERKLE_ROOT),
            hash_evm_state_root=evm_state.trie.root_hash,
            xshard_tx_cursor_info=XshardTxCursorInfo(root_block.header.height,
                                                     0, 0),
        )

        local_fee_rate = 1 - self._qkc_config.reward_tax_rate  # type: Fraction
        coinbase_tokens = {
            self._qkc_config.genesis_token:
            shard_config.COINBASE_AMOUNT * local_fee_rate.numerator //
            local_fee_rate.denominator
        }

        coinbase_address = Address.create_empty_account(full_shard_id)

        header = MinorBlockHeader(
            version=genesis.VERSION,
            height=genesis.HEIGHT,
            branch=branch,
            hash_prev_minor_block=bytes.fromhex(genesis.HASH_PREV_MINOR_BLOCK),
            hash_prev_root_block=root_block.header.get_hash(),
            evm_gas_limit=genesis.GAS_LIMIT,
            hash_meta=sha3_256(meta.serialize()),
            coinbase_amount_map=TokenBalanceMap(coinbase_tokens),
            coinbase_address=coinbase_address,
            create_time=genesis.TIMESTAMP,
            difficulty=genesis.DIFFICULTY,
            extra_data=bytes.fromhex(genesis.EXTRA_DATA),
        )
        return (
            MinorBlock(header=header, meta=meta, tx_list=[]),
            TokenBalanceMap(coinbase_tokens),
        )