Example #1
0
def test_genesis_db():
    k, v, k2, v2 = accounts()
    set_db()
    blk = blocks.genesis({v: utils.denoms.ether * 1})
    db_store(blk)
    blk2 = blocks.genesis({v: utils.denoms.ether * 1})
    blk3 = blocks.genesis()
    assert blk == blk2
    assert blk != blk3
    set_db()
    blk2 = blocks.genesis({v: utils.denoms.ether * 1})
    blk3 = blocks.genesis()
    assert blk == blk2
    assert blk != blk3
Example #2
0
def test_genesis_db():
    k, v, k2, v2 = accounts()
    set_db()
    blk = blocks.genesis({v: utils.denoms.ether * 1})
    db_store(blk)
    blk2 = blocks.genesis({v: utils.denoms.ether * 1})
    blk3 = blocks.genesis()
    assert blk == blk2
    assert blk != blk3
    set_db()
    blk2 = blocks.genesis({v: utils.denoms.ether * 1})
    blk3 = blocks.genesis()
    assert blk == blk2
    assert blk != blk3
Example #3
0
def test_gas_price_calculation():
    code = [
        'CALLER', 'PUSH1', 69, 'SSTORE', 'PUSH1', 42, 'DUP', 'PUSH1', 16,
        'PUSH1', 0, 'CODECOPY', 'PUSH1', 0, 'RETURN', 'STOP', 'PUSH1', 69,
        'SLOAD', 'CALLER', 'EQ', 'NOT', 'PUSH1', 42, 'JUMPI', 'CALLDATASIZE',
        'PUSH1', 0, 'MLOAD', 'LT', 'NOT', 'PUSH1', 42, 'JUMPI', 'PUSH1', 32,
        'PUSH1', 0, 'MLOAD', 'ADD', 'CALLDATALOAD', 'PUSH1', 0, 'MLOAD',
        'CALLDATALOAD', 'SSTORE', 'PUSH1', 64, 'PUSH1', 0, 'MLOAD', 'ADD',
        'PUSH1', 0, 'MSTORE', 'PUSH1', 9, 'JUMP'
    ]
    tx_dict = {
        'nonce': 0L,
        'startgas': 10000L,
        'value': 0L,
        'to': '0000000000000000000000000000000000000000',
        's':
        9504411864285061276187941232604806802531640604671611347567260576513458657555L,
        'r':
        23362574597211079051662254624411036839077618676481166419446762923566339937125L,
        'v': 28L,
        'data':
        '3`EW`*Q`\x10`\x009`\x00\xf2\x00`EV3\x0e\x0f`*Y6`\x00S\n\x0f`*Y` `\x00S\x015`\x00S5W`@`\x00S\x01`\x00T`\tX',
        'gasprice': 10000000000000L
    }
    assert serpent.compiler.serialize(code) == tx_dict['data']
    set_db()
    block = genesis = blocks.genesis()

    tx = transactions.Transaction(**tx_dict)
    assert block.gas_used == 0
    success, output = processblock.apply_transaction(block, tx)
    GAS_USED_CPP = 1001  # as seen for tx0 in block1 in protocol 17 cpp chain
    assert block.gas_used == GAS_USED_CPP
Example #4
0
def test_data_feeds():
    k, v, k2, v2 = accounts()
    scode3 = '''
if !contract.storage[1000]:
    contract.storage[1000] = 1
    contract.storage[1001] = msg.sender
    return(0)
elif msg.sender == contract.storage[1001] and msg.datasize == 2:
    contract.storage[msg.data[0]] = msg.data[1]
    return(1)
else:
    return(contract.storage[msg.data[0]])
'''
    code3 = serpent_compile(scode3)
    logger.debug("AST", serpent.rewrite(serpent.parse(scode3)))
    blk = b.genesis({v: 10**18, v2: 10**18})
    tx10 = t.contract(0, gasprice, startgas, 0, code3).sign(k)
    s, addr = pb.apply_transaction(blk, tx10)
    tx11 = t.Transaction(1, gasprice, startgas, addr, 0, '').sign(k)
    s, o = pb.apply_transaction(blk, tx11)
    tx12 = t.Transaction(2, gasprice, startgas, addr, 0,
                         serpent.encode_datalist([500])).sign(k)
    s, o = pb.apply_transaction(blk, tx12)
    assert serpent.decode_datalist(o) == [0]
    tx13 = t.Transaction(3, gasprice, startgas, addr, 0,
                         serpent.encode_datalist([500, 726])).sign(k)
    s, o = pb.apply_transaction(blk, tx13)
    assert serpent.decode_datalist(o) == [1]
    tx14 = t.Transaction(4, gasprice, startgas, addr, 0,
                         serpent.encode_datalist([500])).sign(k)
    s, o = pb.apply_transaction(blk, tx14)
    assert serpent.decode_datalist(o) == [726]
    return blk, addr
Example #5
0
def test_data_feeds():
    k, v, k2, v2 = accounts()
    scode3 = '''
if !contract.storage[1000]:
    contract.storage[1000] = 1
    contract.storage[1001] = msg.sender
    return(0)
elif msg.sender == contract.storage[1001] and msg.datasize == 2:
    contract.storage[msg.data[0]] = msg.data[1]
    return(1)
else:
    return(contract.storage[msg.data[0]])
'''
    code3 = serpent_compile(scode3)
    logger.debug("AST", serpent.rewrite(serpent.parse(scode3)))
    blk = b.genesis({v: 10 ** 18, v2: 10 ** 18})
    tx10 = t.contract(0, gasprice, startgas, 0, code3).sign(k)
    s, addr = pb.apply_transaction(blk, tx10)
    tx11 = t.Transaction(1, gasprice, startgas, addr, 0, '').sign(k)
    s, o = pb.apply_transaction(blk, tx11)
    tx12 = t.Transaction(2, gasprice, startgas, addr, 0,
                         serpent.encode_datalist([500])).sign(k)
    s, o = pb.apply_transaction(blk, tx12)
    assert serpent.decode_datalist(o) == [0]
    tx13 = t.Transaction(3, gasprice, startgas, addr, 0,
                         serpent.encode_datalist([500, 726])).sign(k)
    s, o = pb.apply_transaction(blk, tx13)
    assert serpent.decode_datalist(o) == [1]
    tx14 = t.Transaction(4, gasprice, startgas, addr, 0,
                         serpent.encode_datalist([500])).sign(k)
    s, o = pb.apply_transaction(blk, tx14)
    assert serpent.decode_datalist(o) == [726]
    return blk, addr
Example #6
0
def test_namecoin():
    k, v, k2, v2 = accounts()

    blk = b.genesis({v: u.denoms.ether * 1})

    code1 = serpent_compile(namecoin_code)
    tx1 = t.contract(0, gasprice, startgas, 0, code1).sign(k)
    s, addr = pb.apply_transaction(blk, tx1)

    snapshot = blk.snapshot()

    # tx2
    tx2 = t.Transaction(1, gasprice, startgas, addr, 0,
                        serpent.encode_datalist(['george', 45]))
    tx2.sign(k)
    s, o = pb.apply_transaction(blk, tx2)
    assert serpent.decode_datalist(o) == [1]

    # tx3
    tx3 = t.Transaction(2, gasprice, startgas, addr, 0,
                        serpent.encode_datalist(['george', 20])).sign(k)
    s, o = pb.apply_transaction(blk, tx3)
    assert serpent.decode_datalist(o) == [0]

    # tx4
    tx4 = t.Transaction(3, gasprice, startgas, addr, 0,
                        serpent.encode_datalist(['harry', 60])).sign(k)
    s, o = pb.apply_transaction(blk, tx4)
    assert serpent.decode_datalist(o) == [1]

    blk.revert(snapshot)

    assert blk.to_dict()
    assert blk.to_dict()['state'][addr]['code']
Example #7
0
def test_namecoin():
    k, v, k2, v2 = accounts()

    blk = b.genesis({v: u.denoms.ether * 1})

    code1 = serpent_compile(namecoin_code)
    tx1 = t.contract(0, gasprice, startgas, 0, code1).sign(k)
    s, addr = pb.apply_transaction(blk, tx1)

    snapshot = blk.snapshot()

    # tx2
    tx2 = t.Transaction(1, gasprice, startgas, addr, 0,
                        serpent.encode_datalist(['george', 45]))
    tx2.sign(k)
    s, o = pb.apply_transaction(blk, tx2)
    assert serpent.decode_datalist(o) == [1]

    # tx3
    tx3 = t.Transaction(2, gasprice, startgas, addr, 0,
                        serpent.encode_datalist(['george', 20])).sign(k)
    s, o = pb.apply_transaction(blk, tx3)
    assert serpent.decode_datalist(o) == [0]

    # tx4
    tx4 = t.Transaction(3, gasprice, startgas, addr, 0,
                        serpent.encode_datalist(['harry', 60])).sign(k)
    s, o = pb.apply_transaction(blk, tx4)
    assert serpent.decode_datalist(o) == [1]

    blk.revert(snapshot)

    assert blk.to_dict()
    assert blk.to_dict()['state'][addr]['code']
Example #8
0
def test_genesis_state_root(genesis_fixture):
    # https://ethereum.etherpad.mozilla.org/12
    set_db()
    genesis = blocks.genesis()
    for k, v in blocks.GENESIS_INITIAL_ALLOC.items():
        assert genesis.get_balance(k) == v
    assert genesis.state_root.encode(
        'hex') == genesis_fixture['genesis_state_root']
Example #9
0
def test_genesis_state_root(genesis_fixture):
    # https://ethereum.etherpad.mozilla.org/12
    set_db()
    genesis = blocks.genesis()
    for k, v in blocks.GENESIS_INITIAL_ALLOC.items():
        assert genesis.get_balance(k) == v
    assert genesis.state_root.encode(
        'hex') == genesis_fixture['genesis_state_root']
Example #10
0
def test_genesis_hash(genesis_fixture):
    set_db()
    genesis = blocks.genesis()
    """
    YP: https://raw.githubusercontent.com/ethereum/latexpaper/master/Paper.tex
    0256 , SHA3RLP(), 0160 , stateRoot, 0256 , 2**22 , 0, 0, 1000000, 0, 0, (),
    SHA3(42), (), ()

    Where 0256 refers to the parent and state and transaction root hashes,
    a 256-bit hash which is all zeroes;
    0160 refers to the coinbase address,
    a 160-bit hash which is all zeroes;
    2**22 refers to the difficulty;
    0 refers to the timestamp (the Unix epoch);
    () refers to the extradata and the sequences of both uncles and
    transactions, all empty.
    SHA3(42) refers to the SHA3 hash of a byte array of length one whose first
    and only byte is of value 42.
    SHA3RLP() values refer to the hashes of the transaction and uncle lists
    in RLP
    both empty.
    The proof-of-concept series include a development premine, making the state
    root hash some value stateRoot. The latest documentation should be
    consulted for the value of the state root.
    """

    h256 = '\00' * 32
    sr = genesis_fixture['genesis_state_root'].decode('hex')
    genesis_block_defaults = [
        ["prevhash", "bin", h256],  # h256()
        ["uncles_hash", "bin", utils.sha3(rlp.encode([]))],  # sha3EmptyList
        ["coinbase", "addr", "0" * 40],  # h160()
        ["state_root", "trie_root", sr],  # stateRoot
        ["tx_list_root", "trie_root", trie.BLANK_ROOT],  # h256()
        ["difficulty", "int", 2 ** 22],  # c_genesisDifficulty
        ["number", "int", 0],  # 0
        ["min_gas_price", "int", 0],  # 0
        ["gas_limit", "int", 10 ** 6],  # 10**6 for genesis
        ["gas_used", "int", 0],  # 0
        ["timestamp", "int", 0],  # 0
        ["extra_data", "bin", ""],  # ""
        ["nonce", "bin", utils.sha3(chr(42))],  # sha3(bytes(1, 42));
    ]

    cpp_genesis_block = rlp.decode(
        genesis_fixture['genesis_rlp_hex'].decode('hex'))
    cpp_genesis_header = cpp_genesis_block[0]

    for i, (name, typ, genesis_default) in enumerate(genesis_block_defaults):
        assert utils.decoders[typ](cpp_genesis_header[i]) == genesis_default
        assert getattr(genesis, name) == genesis_default

    assert genesis.hex_hash() == genesis_fixture['genesis_hash']

    assert genesis.hex_hash() == utils.sha3(
        genesis_fixture['genesis_rlp_hex'].decode('hex')
    ).encode('hex')
Example #11
0
def test_genesis_hash(genesis_fixture):
    set_db()
    genesis = blocks.genesis()
    """
    YP: https://raw.githubusercontent.com/ethereum/latexpaper/master/Paper.tex
    0256 , SHA3RLP(), 0160 , stateRoot, 0256 , 2**22 , 0, 0, 1000000, 0, 0, (),
    SHA3(42), (), ()

    Where 0256 refers to the parent and state and transaction root hashes,
    a 256-bit hash which is all zeroes;
    0160 refers to the coinbase address,
    a 160-bit hash which is all zeroes;
    2**22 refers to the difficulty;
    0 refers to the timestamp (the Unix epoch);
    () refers to the extradata and the sequences of both uncles and
    transactions, all empty.
    SHA3(42) refers to the SHA3 hash of a byte array of length one whose first
    and only byte is of value 42.
    SHA3RLP() values refer to the hashes of the transaction and uncle lists
    in RLP
    both empty.
    The proof-of-concept series include a development premine, making the state
    root hash some value stateRoot. The latest documentation should be
    consulted for the value of the state root.
    """

    h256 = '\00' * 32
    sr = genesis_fixture['genesis_state_root'].decode('hex')
    genesis_block_defaults = [
        ["prevhash", "bin", h256],  # h256()
        ["uncles_hash", "bin",
         utils.sha3(rlp.encode([]))],  # sha3EmptyList
        ["coinbase", "addr", "0" * 40],  # h160()
        ["state_root", "trie_root", sr],  # stateRoot
        ["tx_list_root", "trie_root", trie.BLANK_ROOT],  # h256()
        ["difficulty", "int", 2**22],  # c_genesisDifficulty
        ["number", "int", 0],  # 0
        ["min_gas_price", "int", 0],  # 0
        ["gas_limit", "int", 10**6],  # 10**6 for genesis
        ["gas_used", "int", 0],  # 0
        ["timestamp", "int", 0],  # 0
        ["extra_data", "bin", ""],  # ""
        ["nonce", "bin", utils.sha3(chr(42))],  # sha3(bytes(1, 42));
    ]

    cpp_genesis_block = rlp.decode(
        genesis_fixture['genesis_rlp_hex'].decode('hex'))
    cpp_genesis_header = cpp_genesis_block[0]

    for i, (name, typ, genesis_default) in enumerate(genesis_block_defaults):
        assert utils.decoders[typ](cpp_genesis_header[i]) == genesis_default
        assert getattr(genesis, name) == genesis_default

    assert genesis.hex_hash() == genesis_fixture['genesis_hash']

    assert genesis.hex_hash() == utils.sha3(
        genesis_fixture['genesis_rlp_hex'].decode('hex')).encode('hex')
Example #12
0
def test_transfer():
    k, v, k2, v2 = accounts()
    blk = blocks.genesis({v: utils.denoms.ether * 1})
    b_v = blk.get_balance(v)
    b_v2 = blk.get_balance(v2)
    value = 42
    success = blk.transfer_value(v, v2, value)
    assert success
    assert blk.get_balance(v) == b_v - value
    assert blk.get_balance(v2) == b_v2 + value
Example #13
0
def test_transfer():
    k, v, k2, v2 = accounts()
    blk = blocks.genesis({v: utils.denoms.ether * 1})
    b_v = blk.get_balance(v)
    b_v2 = blk.get_balance(v2)
    value = 42
    success = blk.transfer_value(v, v2, value)
    assert success
    assert blk.get_balance(v) == b_v - value
    assert blk.get_balance(v2) == b_v2 + value
Example #14
0
def test_failing_transfer():
    k, v, k2, v2 = accounts()
    blk = blocks.genesis({v: utils.denoms.ether * 1})
    b_v = blk.get_balance(v)
    b_v2 = blk.get_balance(v2)
    value =  utils.denoms.ether * 2
    # should fail
    success = blk.transfer_value(v, v2, value)
    assert not success
    assert blk.get_balance(v) == b_v
    assert blk.get_balance(v2) == b_v2
Example #15
0
def test_failing_transfer():
    k, v, k2, v2 = accounts()
    blk = blocks.genesis({v: utils.denoms.ether * 1})
    b_v = blk.get_balance(v)
    b_v2 = blk.get_balance(v2)
    value = utils.denoms.ether * 2
    # should fail
    success = blk.transfer_value(v, v2, value)
    assert not success
    assert blk.get_balance(v) == b_v
    assert blk.get_balance(v2) == b_v2
Example #16
0
def test_genesis():
    k, v, k2, v2 = accounts()
    set_db()
    blk = blocks.genesis({v: utils.denoms.ether * 1})
    sr = blk.state_root
    db = DB(utils.get_db_path())
    assert blk.state.db.db == db.db
    db.put(blk.hash, blk.serialize())
    blk.state.db.commit()
    assert sr in db
    db.commit()
    assert sr in db
    blk2 = blocks.genesis({v: utils.denoms.ether * 1})
    blk3 = blocks.genesis()
    assert blk == blk2
    assert blk != blk3
    set_db()
    blk2 = blocks.genesis({v: utils.denoms.ether * 1})
    blk3 = blocks.genesis()
    assert blk == blk2
    assert blk != blk3
Example #17
0
def test_genesis():
    k, v, k2, v2 = accounts()
    set_db()
    blk = blocks.genesis({v: utils.denoms.ether * 1})
    sr = blk.state_root
    db = DB(utils.get_db_path())
    assert blk.state.db.db == db.db
    db.put(blk.hash, blk.serialize())
    blk.state.db.commit()
    assert sr in db
    db.commit()
    assert sr in db
    blk2 = blocks.genesis({v: utils.denoms.ether * 1})
    blk3 = blocks.genesis()
    assert blk == blk2
    assert blk != blk3
    set_db()
    blk2 = blocks.genesis({v: utils.denoms.ether * 1})
    blk3 = blocks.genesis()
    assert blk == blk2
    assert blk != blk3
Example #18
0
def test_gas_deduction():
    k, v, k2, v2 = accounts()
    blk = blocks.genesis({v: utils.denoms.ether * 1})
    v_old_balance = blk.get_balance(v)
    assert blk.get_balance(blk.coinbase) == 0
    gasprice = 1
    startgas = 10000
    code1 = serpent.compile(namecoin_code)
    tx1 = transactions.contract(0, gasprice, startgas, 0, code1).sign(k)
    success, addr = processblock.apply_transaction(blk, tx1)
    assert success
    assert blk.coinbase != v
    assert v_old_balance > blk.get_balance(v)
    assert v_old_balance == blk.get_balance(v) + blk.get_balance(blk.coinbase)
    intrinsic_gas_used = processblock.GTXCOST + \
        processblock.GTXDATA * len(tx1.data)
    assert v_old_balance - blk.get_balance(v) >= intrinsic_gas_used * gasprice
Example #19
0
def test_gas_deduction():
    k, v, k2, v2 = accounts()
    blk = blocks.genesis({v: utils.denoms.ether * 1})
    v_old_balance = blk.get_balance(v)
    assert blk.get_balance(blk.coinbase) == 0
    gasprice = 1
    startgas = 10000
    code1 = serpent.compile(namecoin_code)
    tx1 = transactions.contract(0, gasprice, startgas, 0, code1).sign(k)
    success, addr = processblock.apply_transaction(blk, tx1)
    assert success
    assert blk.coinbase != v
    assert v_old_balance > blk.get_balance(v)
    assert v_old_balance == blk.get_balance(v) + blk.get_balance(blk.coinbase)
    intrinsic_gas_used = processblock.GTXCOST + \
        processblock.GTXDATA * len(tx1.data)
    assert v_old_balance - blk.get_balance(v) >= intrinsic_gas_used * gasprice
Example #20
0
def test_currency():
    k, v, k2, v2 = accounts()
    scode2 = '''
if !contract.storage[1000]:
    contract.storage[1000] = 1
    contract.storage[0x%s] = 1000
    return(1)
elif msg.datasize == 1:
    addr = msg.data[0]
    return(contract.storage[addr])
else:
    from = msg.sender
    fromvalue = contract.storage[from]
    to = msg.data[0]
    value = msg.data[1]
    if fromvalue >= value:
        contract.storage[from] = fromvalue - value
        contract.storage[to] = contract.storage[to] + value
        return(1)
    else:
        return(0)
    ''' % v
    code2 = serpent_compile(scode2)
    blk = b.genesis({v: 10**18})
    tx4 = t.contract(0, gasprice, startgas, 0, code2).sign(k)
    s, addr = pb.apply_transaction(blk, tx4)
    tx5 = t.Transaction(1, gasprice, startgas, addr, 0, '').sign(k)
    s, o = pb.apply_transaction(blk, tx5)
    assert serpent.decode_datalist(o) == [1]
    tx6 = t.Transaction(2, gasprice, startgas, addr, 0,
                        serpent.encode_datalist([v2, 200])).sign(k)
    s, o = pb.apply_transaction(blk, tx6)
    assert serpent.decode_datalist(o) == [1]
    tx7 = t.Transaction(3, gasprice, startgas, addr, 0,
                        serpent.encode_datalist([v2, 900])).sign(k)
    s, o = pb.apply_transaction(blk, tx7)
    assert serpent.decode_datalist(o) == [0]
    tx8 = t.Transaction(4, gasprice, startgas, addr, 0,
                        serpent.encode_datalist([v])).sign(k)
    s, o = pb.apply_transaction(blk, tx8)
    assert serpent.decode_datalist(o) == [800]
    tx9 = t.Transaction(5, gasprice, startgas, addr, 0,
                        serpent.encode_datalist([v2])).sign(k)
    s, o = pb.apply_transaction(blk, tx9)
    assert serpent.decode_datalist(o) == [200]
Example #21
0
def test_currency():
    k, v, k2, v2 = accounts()
    scode2 = '''
if !contract.storage[1000]:
    contract.storage[1000] = 1
    contract.storage[0x%s] = 1000
    return(1)
elif msg.datasize == 1:
    addr = msg.data[0]
    return(contract.storage[addr])
else:
    from = msg.sender
    fromvalue = contract.storage[from]
    to = msg.data[0]
    value = msg.data[1]
    if fromvalue >= value:
        contract.storage[from] = fromvalue - value
        contract.storage[to] = contract.storage[to] + value
        return(1)
    else:
        return(0)
    ''' % v
    code2 = serpent_compile(scode2)
    blk = b.genesis({v: 10 ** 18})
    tx4 = t.contract(0, gasprice, startgas, 0, code2).sign(k)
    s, addr = pb.apply_transaction(blk, tx4)
    tx5 = t.Transaction(1, gasprice, startgas, addr, 0, '').sign(k)
    s, o = pb.apply_transaction(blk, tx5)
    assert serpent.decode_datalist(o) == [1]
    tx6 = t.Transaction(2, gasprice, startgas, addr, 0,
                        serpent.encode_datalist([v2, 200])).sign(k)
    s, o = pb.apply_transaction(blk, tx6)
    assert serpent.decode_datalist(o) == [1]
    tx7 = t.Transaction(3, gasprice, startgas, addr, 0,
                        serpent.encode_datalist([v2, 900])).sign(k)
    s, o = pb.apply_transaction(blk, tx7)
    assert serpent.decode_datalist(o) == [0]
    tx8 = t.Transaction(4, gasprice, startgas, addr, 0,
                        serpent.encode_datalist([v])).sign(k)
    s, o = pb.apply_transaction(blk, tx8)
    assert serpent.decode_datalist(o) == [800]
    tx9 = t.Transaction(5, gasprice, startgas, addr, 0,
                        serpent.encode_datalist([v2])).sign(k)
    s, o = pb.apply_transaction(blk, tx9)
    assert serpent.decode_datalist(o) == [200]
Example #22
0
def test_gas_price_calculation():
    code = [
        'CALLER', 'PUSH1', 69, 'SSTORE', 'PUSH1', 42, 'DUP', 'PUSH1', 16, 'PUSH1', 0, 'CODECOPY', 'PUSH1', 0, 'RETURN', 'STOP', 'PUSH1', 69, 'SLOAD', 'CALLER', 'EQ', 'NOT', 'PUSH1', 42, 'JUMPI', 'CALLDATASIZE', 'PUSH1', 0,
        'MLOAD', 'LT', 'NOT', 'PUSH1', 42, 'JUMPI', 'PUSH1', 32, 'PUSH1', 0, 'MLOAD', 'ADD', 'CALLDATALOAD', 'PUSH1', 0, 'MLOAD', 'CALLDATALOAD', 'SSTORE', 'PUSH1', 64, 'PUSH1', 0, 'MLOAD', 'ADD', 'PUSH1', 0, 'MSTORE', 'PUSH1', 9, 'JUMP']
    tx_dict = {'nonce': 0L,
               'startgas': 10000L,
               'value': 0L,
               'to': '0000000000000000000000000000000000000000',
               's': 9504411864285061276187941232604806802531640604671611347567260576513458657555L,
               'r': 23362574597211079051662254624411036839077618676481166419446762923566339937125L,
               'v': 28L,
               'data': '3`EW`*Q`\x10`\x009`\x00\xf2\x00`EV3\x0e\x0f`*Y6`\x00S\n\x0f`*Y` `\x00S\x015`\x00S5W`@`\x00S\x01`\x00T`\tX',
               'gasprice': 10000000000000L}
    assert serpent.compiler.serialize(code) == tx_dict['data']
    set_db()
    block = genesis = blocks.genesis()

    tx = transactions.Transaction(**tx_dict)
    assert block.gas_used == 0
    success, output = processblock.apply_transaction(block, tx)
    GAS_USED_CPP = 1001  # as seen for tx0 in block1 in protocol 17 cpp chain
    assert block.gas_used == GAS_USED_CPP
Example #23
0
def mkquickgenesis(initial_alloc={}):
    "set INITIAL_DIFFICULTY to a value that is quickly minable"
    return blocks.genesis(initial_alloc, difficulty=2 ** 16)
Example #24
0
def mkgenesis(initial_alloc={}):
    return blocks.genesis(initial_alloc)
Example #25
0
def mkgenesis(initial_alloc={}):
    return blocks.genesis(initial_alloc)
Example #26
0
def mkquickgenesis(initial_alloc={}):
    "set INITIAL_DIFFICULTY to a value that is quickly minable"
    return blocks.genesis(initial_alloc, difficulty=2**16)
Example #27
0
def step_impl(context):
    context.key = utils.sha3('cows')
    context.addr = utils.privtoaddr(context.key)
    context.gen = blocks.genesis({context.addr: 10**60})
Example #28
0
def step_impl(context):
    context.key = utils.sha3('cows')
    context.addr = utils.privtoaddr(context.key)
    context.gen = blocks.genesis({context.addr: 10**60})