def trace(txhash):
"""
/trace/<hexhash> return trace for transaction
"""
logger.debug('GET trace/%s', txhash)
try: # index
test_blk, tx = _get_block_before_tx(txhash)
except (KeyError, TypeError):
return bottle.abort(404, 'Unknown Transaction %s' % txhash)
# collect debug output
log = []
def log_receiver(name, data):
log.append({name:data})
processblock.pblogger.listeners.append(log_receiver)
# apply tx (thread? we don't want logs from other invocations)
processblock.apply_transaction(test_blk, tx)
# stop collecting debug output
processblock.pblogger.listeners.remove(log_receiver)
# format
return dict(tx=txhash, trace=log)
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']
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
def trace(txhash):
"""
/trace/<hexhash> return trace for transaction
"""
logger.debug('GET trace/ %s', txhash)
try: # index
test_blk, tx = _get_block_before_tx(txhash)
except (KeyError, TypeError):
return bottle.abort(404, 'Unknown Transaction %s' % txhash)
# collect debug output
log = []
def log_receiver(name, data):
log.append({name: data})
processblock.pblogger.listeners.append(log_receiver)
# apply tx (thread? we don't want logs from other invocations)
processblock.apply_transaction(test_blk, tx)
# stop collecting debug output
processblock.pblogger.listeners.remove(log_receiver)
# format
return dict(tx=txhash, trace=log)
def get_trace(txhash):
try: # index
test_blk, tx, i = _get_block_before_tx(txhash)
except (KeyError, TypeError):
return bottle.abort(404, 'Unknown Transaction %s' % txhash)
# collect debug output
recorder = LogRecorder()
# apply tx (thread? we don't want logs from other invocations)
processblock.apply_transaction(test_blk, tx)
return dict(tx=txhash, trace=recorder.pop_records())
def dump(txblkhash):
"""
/dump/<hash> return state dump after transaction or block
"""
try:
blk = chain_manager.get(txblkhash.decode('hex'))
except:
try: # index
test_blk, tx, i = _get_block_before_tx(txblkhash)
except (KeyError, TypeError):
return bottle.abort(404, 'Unknown Transaction %s' % txblkhash)
processblock.apply_transaction(test_blk, tx)
blk = test_blk
# format
return blk.to_dict(with_state=True, with_uncles=True)
def dump(txblkhash):
"""
/dump/<hash> return state dump after transaction or block
"""
try:
blk = chain_manager.get(txblkhash.decode('hex'))
except:
try: # index
test_blk, tx = _get_block_before_tx(txblkhash)
except (KeyError, TypeError):
return bottle.abort(404, 'Unknown Transaction %s' % txblkhash)
processblock.apply_transaction(test_blk, tx)
blk = test_blk
# format
return blk.to_dict(with_state=True)
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
def step_impl(context):
word = 'a5b2cc1f54'
msg = context.msg = '\x00' * (32 - len(word)) + word
tx = transactions.Transaction(1, 100, 10**40, context.contract, 0,
msg).sign(context.key)
success, context.ans = processblock.apply_transaction(context.gen, tx)
assert (success)
def load_contract(self, frm, code, endowment=0, gas=STARTGAS):
_tx = transactions.contract(nonce=self.nonce[frm], gasprice=self.GASPRICE, startgas=gas,
endowment=endowment, code=code).sign(frm.key)
result, contract = processblock.apply_transaction(self.genesis, _tx)
assert result
self.nonce[frm] += 1
return contract
def test_deserialize_cpp_block_42():
# 54.204.10.41 / NEthereum(++)/ZeroGox/v0.5.9/ncurses/Linux/g++ V:17L
# E TypeError: ord() expected a character, but string of length 0 found
# 00bab55f2e230d4d56c7a2c11e7f3132663cc6734a5d4406f2e4359f4ab56593
"""
RomanJ dumped the block
BlockData [
hash=00bab55f2e230d4d56c7a2c11e7f3132663cc6734a5d4406f2e4359f4ab56593
parentHash=0df28c56b0cc32ceb55299934fca74ff63956ede0ffd430367ebcb1bb94d42fe
unclesHash=1dcc4de8dec75d7aab85b567b6ccd41ad312451b948a7413f0a142fd40d49347
coinbase=a70abb9ed4b5d82ed1d82194943349bcde036812
stateHash=203838e6ea7b03bce4b806ab4e5c069d5cd98ca2ba27a2d343d809cc6365e1ce
txTrieHash=78aaa0f3b726f8d9273ba145e0efd4a6b21183412582449cc9457f713422b5ae
difficulty=4142bd
number=48
minGasPrice=10000000000000
gasLimit=954162
gasUsed=500
timestamp=1400678342
extraData=null
nonce=0000000000000000000000000000000000000000000000007d117303138a74e0
TransactionData [
hash=9003d7211c4b0d123778707fbdcabd93a6184be210390de4f73f89eae847556d
nonce=null,
gasPrice=09184e72a000,
gas=01f4,
receiveAddress=e559de5527492bcb42ec68d07df0742a98ec3f1e,
value=8ac7230489e80000,
data=null,
signatureV=27,
signatureR=18d646b8c4f7a804fdf7ba8da4d5dd049983e7d2b652ab902f7d4eaebee3e33b,
signatureS=229ad485ef078d6e5f252db58dd2cce99e18af02028949896248aa01baf48b77]
]
"""
genesis = mkgenesis(
{'a70abb9ed4b5d82ed1d82194943349bcde036812': 100000000000000000000L})
hex_rlp_data = \
"""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"""
header_args, transaction_list, uncles = rlp.decode(
hex_rlp_data.decode('hex'))
for tx_data, _state_root, _gas_used_encoded in transaction_list:
tx = transactions.Transaction.create(tx_data)
logger.debug('Block #48 failing tx %r' % tx.to_dict())
processblock.apply_transaction(genesis, tx)
def test_deserialize_cpp_block_42():
# 54.204.10.41 / NEthereum(++)/ZeroGox/v0.5.9/ncurses/Linux/g++ V:17L
# E TypeError: ord() expected a character, but string of length 0 found
# 00bab55f2e230d4d56c7a2c11e7f3132663cc6734a5d4406f2e4359f4ab56593
"""
RomanJ dumped the block
BlockData [
hash=00bab55f2e230d4d56c7a2c11e7f3132663cc6734a5d4406f2e4359f4ab56593
parentHash=0df28c56b0cc32ceb55299934fca74ff63956ede0ffd430367ebcb1bb94d42fe
unclesHash=1dcc4de8dec75d7aab85b567b6ccd41ad312451b948a7413f0a142fd40d49347
coinbase=a70abb9ed4b5d82ed1d82194943349bcde036812
stateHash=203838e6ea7b03bce4b806ab4e5c069d5cd98ca2ba27a2d343d809cc6365e1ce
txTrieHash=78aaa0f3b726f8d9273ba145e0efd4a6b21183412582449cc9457f713422b5ae
difficulty=4142bd
number=48
minGasPrice=10000000000000
gasLimit=954162
gasUsed=500
timestamp=1400678342
extraData=null
nonce=0000000000000000000000000000000000000000000000007d117303138a74e0
TransactionData [
hash=9003d7211c4b0d123778707fbdcabd93a6184be210390de4f73f89eae847556d
nonce=null,
gasPrice=09184e72a000,
gas=01f4,
receiveAddress=e559de5527492bcb42ec68d07df0742a98ec3f1e,
value=8ac7230489e80000,
data=null,
signatureV=27,
signatureR=18d646b8c4f7a804fdf7ba8da4d5dd049983e7d2b652ab902f7d4eaebee3e33b,
signatureS=229ad485ef078d6e5f252db58dd2cce99e18af02028949896248aa01baf48b77]
]
"""
genesis = mkgenesis(
{'a70abb9ed4b5d82ed1d82194943349bcde036812': 100000000000000000000L})
hex_rlp_data = \
"""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"""
header_args, transaction_list, uncles = rlp.decode(
hex_rlp_data.decode('hex'))
for tx_data, _state_root, _gas_used_encoded in transaction_list:
tx = transactions.Transaction.create(tx_data)
logger.debug('Block #48 failing tx %r', tx.to_dict())
processblock.apply_transaction(genesis, tx)
def step_impl(context):
word = 342156
word = hex(word)[2:]
if len(word)%2 != 0: word = '0' + word
msg = context.msg = '\x00'*(32-len(word)/2)+word.decode('hex')
tx = transactions.Transaction(1, 100, 10**40, context.contract, 0, msg).sign(context.key)
success, context.ans = processblock.apply_transaction(context.gen, tx)
assert(success)
def tx(self, frm, to, value, data, gas=STARTGAS):
_tx = transactions.Transaction(nonce=self.nonce[frm], gasprice=self.GASPRICE, startgas=gas,
to=to, value=value, data=serpent.encode_datalist(data)).sign(frm.key)
result, ans = processblock.apply_transaction(self.genesis, _tx)
assert result
self.nonce[frm] += 1
return serpent.decode_datalist(ans)
def step_impl(context):
word = 342156
word = hex(word)[2:]
if len(word) % 2 != 0: word = '0' + word
msg = context.msg = '\x00' * (32 - len(word) / 2) + word.decode('hex')
tx = transactions.Transaction(1, 100, 10**40, context.contract, 0,
msg).sign(context.key)
success, context.ans = processblock.apply_transaction(context.gen, tx)
assert (success)
def step_impl(context):
'''
serpent: 'return(sha3(msg.data[0]))'
assembly: ['$begincode_0.endcode_0', 'DUP', 'MSIZE', 'SWAP', 'MSIZE', '$begincode_0', 'CALLDATACOPY', 'RETURN', '~begincode_0', '#CODE_BEGIN', 32, 'MSIZE', 0L, 'CALLDATALOAD', 'MSIZE', 'MSTORE', 'SHA3', 'MSIZE', 'SWAP', 'MSIZE', 'MSTORE', 32, 'SWAP', 'RETURN', '#CODE_END', '~endcode_0']
byte code: 6011515b525b600a37f260205b6000355b54205b525b54602052f2
'''
code = '6011515b525b600a37f260205b6000355b54205b525b54602052f2'.decode('hex')
tx_contract = transactions.contract(0,10,10**30, 10**30, code).sign(context.key)
success, context.contract = processblock.apply_transaction(context.gen, tx_contract)
assert(success)
def load_contract(self, frm, code, endowment=0, gas=STARTGAS):
_tx = transactions.contract(nonce=self.nonce[frm],
gasprice=self.GASPRICE,
startgas=gas,
endowment=endowment,
code=code).sign(frm.key)
result, contract = processblock.apply_transaction(self.genesis, _tx)
assert result
self.nonce[frm] += 1
return contract
def __init__(self, root_user):
self.user = root_user
self.code = serpent.compile(open('./crowdfund.se').read())
tx = transactions.contract(NonceSingleton.inc(root_user),
Message.DEFAULT_GASPRICE,
Message.DEFAULT_STARTGAS, 0,
self.code).sign(root_user.private_key)
print "Made crowdfund tx: {}".format(tx)
self.contract = self._wrap_contract_response(
processblock.apply_transaction(root_user.genesis, tx))
def test_transaction():
k, v, k2, v2 = accounts()
set_db()
blk = mkquickgenesis({v: utils.denoms.ether * 1})
db_store(blk)
blk = mine_next_block(blk)
tx = get_transaction()
assert tx not in blk.get_transactions()
success, res = processblock.apply_transaction(blk, tx)
assert tx in blk.get_transactions()
assert blk.get_balance(v) == utils.denoms.finney * 990
assert blk.get_balance(v2) == utils.denoms.finney * 10
def test_transaction():
k, v, k2, v2 = accounts()
set_db()
blk = mkquickgenesis({v: utils.denoms.ether * 1})
db_store(blk)
blk = mine_next_block(blk)
tx = get_transaction()
assert tx not in blk.get_transactions()
success, res = processblock.apply_transaction(blk, tx)
assert tx in blk.get_transactions()
assert blk.get_balance(v) == utils.denoms.finney * 990
assert blk.get_balance(v2) == utils.denoms.finney * 10
def tx(self, frm, to, value, data, gas=STARTGAS):
_tx = transactions.Transaction(nonce=self.nonce[frm],
gasprice=self.GASPRICE,
startgas=gas,
to=to,
value=value,
data=encode_datalist(data)).sign(
frm.key)
result, ans = processblock.apply_transaction(self.genesis, _tx)
assert result
self.nonce[frm] += 1
return decode_datalist(ans)
def __init__(self, root_user):
self.user = root_user
self.code = serpent.compile(open('./crowdfund.se').read())
tx = transactions.contract(NonceSingleton.inc(root_user),
Message.DEFAULT_GASPRICE,
Message.DEFAULT_STARTGAS,
0,
self.code).sign(root_user.private_key)
print "Made crowdfund tx: {}".format(tx)
self.contract = self._wrap_contract_response(
processblock.apply_transaction(root_user.genesis, tx))
def deserialize_child(parent, rlpdata):
"""
deserialization w/ replaying transactions
"""
header_args, transaction_list, uncles = rlp.decode(rlpdata)
assert len(header_args) == len(blocks.block_structure)
kargs = dict(transaction_list=transaction_list, uncles=uncles)
# Deserialize all properties
for i, (name, typ, default) in enumerate(blocks.block_structure):
kargs[name] = utils.decoders[typ](header_args[i])
block = blocks.Block.init_from_parent(parent,
kargs['coinbase'],
extra_data=kargs['extra_data'],
timestamp=kargs['timestamp'])
block.finalize() # this is the first potential state change
# replay transactions
for tx_lst_serialized, _state_root, _gas_used_encoded in transaction_list:
tx = transactions.Transaction.create(tx_lst_serialized)
logger.debug("data %r", tx.data)
logger.debug('applying %r', tx)
logger.debug('applying %r', tx.to_dict())
logger.debug('block.gas_used before: %r', block.gas_used)
success, output = processblock.apply_transaction(block, tx)
logger.debug('block.gas_used after: %r', block.gas_used)
logger.debug('success: %r', success)
diff = utils.decode_int(_gas_used_encoded) - block.gas_used
logger.debug("GAS_USED DIFF %r", diff)
assert utils.decode_int(_gas_used_encoded) == block.gas_used
assert _state_root.encode('hex') == block.state.root_hash.encode('hex')
# checks
assert block.prevhash == parent.hash
assert block.tx_list_root == kargs['tx_list_root']
assert block.gas_used == kargs['gas_used']
assert block.gas_limit == kargs['gas_limit']
assert block.timestamp == kargs['timestamp']
assert block.difficulty == kargs['difficulty']
assert block.number == kargs['number']
assert block.extra_data == kargs['extra_data']
assert utils.sha3(rlp.encode(block.uncles)) == kargs['uncles_hash']
assert block.state.root_hash.encode('hex') == kargs['state_root'].encode(
'hex')
block.uncles_hash = kargs['uncles_hash']
block.nonce = kargs['nonce']
block.min_gas_price = kargs['min_gas_price']
return block
def step_impl(context):
'''
serpent: 'return(sha3(msg.data[0]))'
assembly: ['$begincode_0.endcode_0', 'DUP', 'MSIZE', 'SWAP', 'MSIZE', '$begincode_0', 'CALLDATACOPY', 'RETURN', '~begincode_0', '#CODE_BEGIN', 32, 'MSIZE', 0L, 'CALLDATALOAD', 'MSIZE', 'MSTORE', 'SHA3', 'MSIZE', 'SWAP', 'MSIZE', 'MSTORE', 32, 'SWAP', 'RETURN', '#CODE_END', '~endcode_0']
byte code: 6011515b525b600a37f260205b6000355b54205b525b54602052f2
'''
code = '6011515b525b600a37f260205b6000355b54205b525b54602052f2'.decode(
'hex')
tx_contract = transactions.contract(0, 10, 10**30, 10**30,
code).sign(context.key)
success, context.contract = processblock.apply_transaction(
context.gen, tx_contract)
assert (success)
def deserialize_child(parent, rlpdata):
"""
deserialization w/ replaying transactions
"""
header_args, transaction_list, uncles = rlp.decode(rlpdata)
assert len(header_args) == len(blocks.block_structure)
kargs = dict(transaction_list=transaction_list, uncles=uncles)
# Deserialize all properties
for i, (name, typ, default) in enumerate(blocks.block_structure):
kargs[name] = utils.decoders[typ](header_args[i])
block = blocks.Block.init_from_parent(parent, kargs['coinbase'],
extra_data=kargs['extra_data'],
timestamp=kargs['timestamp'])
block.finalize() # this is the first potential state change
# replay transactions
for tx_lst_serialized, _state_root, _gas_used_encoded in transaction_list:
tx = transactions.Transaction.create(tx_lst_serialized)
logger.debug("data %r", tx.data)
logger.debug('applying %r', tx)
logger.debug('applying %r', tx.to_dict())
logger.debug('block.gas_used before: %r', block.gas_used)
success, output = processblock.apply_transaction(block, tx)
logger.debug('block.gas_used after: %r', block.gas_used)
logger.debug('success: %r', success)
diff = utils.decode_int(_gas_used_encoded) - block.gas_used
logger.debug("GAS_USED DIFF %r", diff)
assert utils.decode_int(_gas_used_encoded) == block.gas_used
assert _state_root.encode('hex') == block.state.root_hash.encode('hex')
# checks
assert block.prevhash == parent.hash
assert block.tx_list_root == kargs['tx_list_root']
assert block.gas_used == kargs['gas_used']
assert block.gas_limit == kargs['gas_limit']
assert block.timestamp == kargs['timestamp']
assert block.difficulty == kargs['difficulty']
assert block.number == kargs['number']
assert block.extra_data == kargs['extra_data']
assert utils.sha3(rlp.encode(block.uncles)) == kargs['uncles_hash']
assert block.state.root_hash.encode(
'hex') == kargs['state_root'].encode('hex')
block.uncles_hash = kargs['uncles_hash']
block.nonce = kargs['nonce']
block.min_gas_price = kargs['min_gas_price']
return block
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
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
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
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]
sys.exit(1)
code = serpent.compile(escrow)
sender_key = utils.sha3('sender')
sender_addr = utils.privtoaddr(sender_key)
recipient_key = utils.sha3('recipient')
recipient_addr = utils.privtoaddr(recipient_key)
host_key = utils.sha3('host')
host_addr = utils.privtoaddr(host_key)
#initialize the block
genesis = blocks.genesis({sender_addr: 10**18, recipient_addr: 10**18, host_addr: 10**18})
#initialize the contract
tx1 = transactions.contract(0, 10**12, 10000, 0, code).sign(host_key)
result, contract = processblock.apply_transaction(genesis, tx1)
#execute escrow transaction
#nonce, gasprice, startgas, to, value, data
price = int(sys.argv[1]) #user supplied price
tx2 = transactions.Transaction(0, 10**12, 10000, contract, price, serpent.encode_datalist([1,recipient_addr])).sign(sender_key)
result, ans = processblock.apply_transaction(genesis, tx2)
tx3 = transactions.Transaction(0, 10**12, 10000, contract, 0, serpent.encode_datalist([int(sys.argv[2])])).sign(recipient_key)
result, ans = processblock.apply_transaction(genesis, tx3)
tx4 = transactions.Transaction(1, 10**12, 10000, contract, 0, serpent.encode_datalist([int(sys.argv[3])])).sign(sender_key)
result, ans = processblock.apply_transaction(genesis, tx4)
print('Service address: %s ' %str(hex(genesis.get_storage_data(contract, 0))))
print('Sender address: %s' %str(hex(genesis.get_storage_data(contract, 1))))
print('Reciever address: %s\n' %str(hex(genesis.get_storage_data(contract, 3))))
print('Price: %s' %str(genesis.get_storage_data(contract, 2)))
def do_test_vm(filename, testname=None, limit=99999999):
if testname is None:
for testname in vm_tests_fixtures()[filename].keys()[:limit]:
do_test_vm(filename, testname)
return
if testname in faulty:
logger.debug('skipping test:%r in %r' % (testname, filename))
return
logger.debug('running test:%r in %r' % (testname, filename))
params = vm_tests_fixtures()[filename][testname]
pre = params['pre']
exek = params['transaction']
env = params['env']
post = params['post']
check_testdata(env.keys(), [
'currentGasLimit', 'currentTimestamp', 'previousHash',
'currentCoinbase', 'currentDifficulty', 'currentNumber'
])
# setup env
blk = blocks.Block(new_db(),
prevhash=env['previousHash'].decode('hex'),
number=int(env['currentNumber']),
coinbase=env['currentCoinbase'],
difficulty=int(env['currentDifficulty']),
gas_limit=int(env['currentGasLimit']),
timestamp=int(env['currentTimestamp']))
# code FIXME WHAT TO DO WITH THIS CODE???
# if isinstance(env['code'], str):
# continue
# else:
# addr = 0 # FIXME
# blk.set_code(addr, ''.join(map(chr, env['code'])))
# setup state
for address, h in pre.items():
check_testdata(h.keys(), ['code', 'nonce', 'balance', 'storage'])
blk.set_nonce(address, int(h['nonce']))
blk.set_balance(address, int(h['balance']))
blk.set_code(address, h['code'][2:].decode('hex'))
for k, v in h['storage'].iteritems():
blk.set_storage_data(address,
u.big_endian_to_int(k[2:].decode('hex')),
u.big_endian_to_int(v[2:].decode('hex')))
# execute transactions
tx = transactions.Transaction(nonce=int(exek['nonce'] or "0"),
gasprice=int(exek['gasPrice'] or "0"),
startgas=int(exek['gasLimit'] or "0"),
to=exek['to'],
value=int(exek['value'] or "0"),
data=exek['data'][2:].decode('hex')).sign(
exek['secretKey'])
orig_apply_msg = pb.apply_msg
def apply_msg_wrapper(ext, msg, code):
def blkhash(n):
if n >= blk.number or n < blk.number - 256:
return ''
else:
return u.sha3(str(n))
ext.block_hash = blkhash
return orig_apply_msg(ext, msg, code)
pb.apply_msg = apply_msg_wrapper
try:
success, output = pb.apply_transaction(blk, tx)
blk.commit_state()
except pb.InvalidTransaction:
output = ''
logger.debug('Transaction not valid')
pass
if tx.to == '':
output = blk.get_code(output)
pb.apply_msg = orig_apply_msg
assert '0x' + output.encode('hex') == params['out']
# check state
for address, data in post.items():
state = blk.account_to_dict(address, for_vmtest=True)
state.pop('storage_root', None)
assert state == data
def do_test_vm(filename, testname=None, limit=99999999):
if testname is None:
for testname in vm_tests_fixtures()[filename].keys()[:limit]:
do_test_vm(filename, testname)
return
if testname in faulty:
logger.debug('skipping test:%r in %r' % (testname, filename))
return
logger.debug('running test:%r in %r' % (testname, filename))
params = vm_tests_fixtures()[filename][testname]
pre = params['pre']
exek = params['transaction']
env = params['env']
post = params['post']
check_testdata(env.keys(), ['currentGasLimit', 'currentTimestamp',
'previousHash', 'currentCoinbase',
'currentDifficulty', 'currentNumber'])
# setup env
blk = blocks.Block(new_db(),
prevhash=env['previousHash'].decode('hex'),
number=int(env['currentNumber']),
coinbase=env['currentCoinbase'],
difficulty=int(env['currentDifficulty']),
gas_limit=int(env['currentGasLimit']),
timestamp=int(env['currentTimestamp']))
# code FIXME WHAT TO DO WITH THIS CODE???
# if isinstance(env['code'], str):
# continue
# else:
# addr = 0 # FIXME
# blk.set_code(addr, ''.join(map(chr, env['code'])))
# setup state
for address, h in pre.items():
check_testdata(h.keys(), ['code', 'nonce', 'balance', 'storage'])
blk.set_nonce(address, int(h['nonce']))
blk.set_balance(address, int(h['balance']))
blk.set_code(address, h['code'][2:].decode('hex'))
for k, v in h['storage'].iteritems():
blk.set_storage_data(address,
u.big_endian_to_int(k[2:].decode('hex')),
u.big_endian_to_int(v[2:].decode('hex')))
# execute transactions
tx = transactions.Transaction(
nonce=int(exek['nonce'] or "0"),
gasprice=int(exek['gasPrice'] or "0"),
startgas=int(exek['gasLimit'] or "0"),
to=exek['to'],
value=int(exek['value'] or "0"),
data=exek['data'][2:].decode('hex')).sign(exek['secretKey'])
orig_apply_msg = pb.apply_msg
def apply_msg_wrapper(ext, msg, code):
def blkhash(n):
if n >= blk.number or n < blk.number - 256:
return ''
else:
return u.sha3(str(n))
ext.block_hash = blkhash
return orig_apply_msg(ext, msg, code)
pb.apply_msg = apply_msg_wrapper
try:
success, output = pb.apply_transaction(blk, tx)
blk.commit_state()
except pb.InvalidTransaction:
output = ''
logger.debug('Transaction not valid')
pass
if tx.to == '':
output = blk.get_code(output)
pb.apply_msg = orig_apply_msg
assert '0x' + output.encode('hex') == params['out']
# check state
for address, data in post.items():
state = blk.account_to_dict(address, for_vmtest=True)
state.pop('storage_root', None)
assert state == data
def execute(self, from_):
signed_tx = self.tx(from_).sign(from_.private_key)
return processblock.apply_transaction(from_.genesis, signed_tx)
def test_hedge():
k, v, k2, v2 = accounts()
blk, addr = test_data_feeds()
scode4 = '''
if !contract.storage[1000]:
contract.storage[1000] = msg.sender
contract.storage[1002] = msg.value
contract.storage[1003] = msg.data[0]
return(1)
elif !contract.storage[1001]:
ethvalue = contract.storage[1002]
if msg.value >= ethvalue:
contract.storage[1001] = msg.sender
othervalue = ethvalue * call(0x%s,[contract.storage[1003]],1)
contract.storage[1004] = othervalue
contract.storage[1005] = block.timestamp + 86400
return([2,othervalue],2)
else:
othervalue = contract.storage[1004]
ethvalue = othervalue / call(0x%s,contract.storage[1003])
if ethvalue >= contract.balance:
send(contract.storage[1000],contract.balance)
return(3)
elif block.timestamp > contract.storage[1005]:
send(contract.storage[1001],contract.balance - ethvalue)
send(contract.storage[1000],ethvalue)
return(4)
else:
return(5)
''' % (addr, addr)
code4 = serpent.compile(scode4)
logger.debug("AST", serpent.rewrite(serpent.parse(scode4)))
# important: no new genesis block
tx15 = t.contract(5, gasprice, startgas, 0, code4).sign(k)
s, addr2 = pb.apply_transaction(blk, tx15)
tx16 = t.Transaction(6, gasprice, startgas, addr2, 10 ** 17,
serpent.encode_datalist([500])).sign(k)
s, o = pb.apply_transaction(blk, tx16)
assert serpent.decode_datalist(o) == [1]
tx17 = t.Transaction(0, gasprice, startgas, addr2, 10 ** 17,
serpent.encode_datalist([500])).sign(k2)
s, o = pb.apply_transaction(blk, tx17)
assert serpent.decode_datalist(o) == [2, 72600000000000000000L]
snapshot = blk.snapshot()
tx18 = t.Transaction(7, gasprice, startgas, addr2, 0, '').sign(k)
s, o = pb.apply_transaction(blk, tx18)
assert serpent.decode_datalist(o) == [5]
tx19 = t.Transaction(8, gasprice, startgas, addr, 0,
serpent.encode_datalist([500, 300])).sign(k)
s, o = pb.apply_transaction(blk, tx19)
assert serpent.decode_datalist(o) == [1]
tx20 = t.Transaction(9, gasprice, startgas, addr2, 0, '').sign(k)
s, o = pb.apply_transaction(blk, tx20)
assert serpent.decode_datalist(o) == [3]
blk.revert(snapshot)
blk.timestamp += 200000
tx21 = t.Transaction(7, gasprice, startgas, addr, 0,
serpent.encode_datalist([500, 1452])).sign(k)
s, o = pb.apply_transaction(blk, tx21)
assert serpent.decode_datalist(o) == [1]
tx22 = t.Transaction(8, gasprice, 2000, addr2, 0, '').sign(k)
s, o = pb.apply_transaction(blk, tx22)
assert serpent.decode_datalist(o) == [4]
def do_test_vm(name):
tempdir = tempfile.mktemp()
logger.debug('running test:%r', name)
params = vm_tests_fixtures()[name]
# HOTFIFX
# params['pre']['0f572e5295c57f15886f9b263e2f6d2d6c7b5ec6']['balance'] *= 100
pre = params['pre']
execs = params['exec']
callcreates = params['callcreates']
env = params['env']
post = params['post']
check_testdata(env.keys(), [
'code', 'currentGasLimit', 'currentTimestamp', 'previousHash',
'currentCoinbase', 'currentDifficulty', 'currentNumber'
])
# setup env
blk = blocks.Block(prevhash=env['previousHash'].decode('hex'),
number=int(env['currentNumber']),
coinbase=env['currentCoinbase'],
difficulty=int(env['currentDifficulty']),
gas_limit=int(env['currentGasLimit']),
timestamp=env['currentTimestamp'])
# code FIXME WHAT TO DO WITH THIS CODE???
# if isinstance(env['code'], str):
# continue
# else:
# addr = 0 # FIXME
# blk.set_code(addr, ''.join(map(chr, env['code'])))
# setup state
for address, h in pre.items():
check_testdata(h.keys(), ['code', 'nonce', 'balance', 'storage'])
blk.set_balance(address, h['balance'])
logger.debug('PRE Balance: %r: %r', address, h['balance'])
blk._set_acct_item(address, 'nonce', h['nonce'])
blk.set_code(address, ''.join(map(chr, h['code'])))
assert h['storage'] == {
} # FOR NOW test contracts don't seem to persist anything
# execute transactions
for i, exek in enumerate(execs):
sender = exek['address'] # a party that originates a call
recvaddr = exek['caller']
tx = transactions.Transaction(nonce=blk._get_acct_item(
exek['caller'], 'nonce'),
gasprice=int(exek['gasPrice']),
startgas=int(exek['gas']),
to=recvaddr,
value=int(exek['value']),
data=exek['data'])
tx.sender = sender
logger.debug('TX %r > %r v:%r gas:%s @price:%s', sender, recvaddr,
tx.value, tx.startgas, tx.gasprice)
# capture apply_message calls
apply_message_calls = []
orig_apply_msg = processblock.apply_msg
def apply_msg_wrapper(_block, _tx, msg):
result, gas_remained, data = orig_apply_msg(_block, _tx, msg)
apply_message_calls.append(
dict(msg=msg,
result=result,
gas_remained=gas_remained,
data=data))
return result, gas_remained, data
processblock.apply_msg = apply_msg_wrapper
success, output = processblock.apply_transaction(blk, tx)
processblock.apply_msg = orig_apply_msg
assert success
assert len(callcreates) == len(apply_message_calls)
# check against callcreates
for i, callcreate in enumerate(callcreates):
amc = apply_message_calls[i]
assert callcreate['data'] == amc['data']
assert callcreate['gasLimit'] == amc['gas_remained']
assert callcreate['value'] == amc['msg'].value
# data and out not set in tests yet
assert output == params['out']
assert not params['out']
assert not callcreates['data']
# check state
for address, h in post.items():
check_testdata(h.keys(), ['code', 'nonce', 'balance', 'storage'])
logger.debug('POST: %r %r', address, h['balance'])
blk.get_balance(address) == h['balance']
blk._get_acct_item(address, 'nonce') == h['nonce']
map(ord, blk.get_code(recvaddr)) == h['code']
assert storage == {
} # FOR NOW test contracts don't seem to persist anything
def step_impl(context):
word = 'a5b2cc1f54'
msg = context.msg = '\x00'*(32-len(word))+word
tx = transactions.Transaction(1, 100, 10**40, context.contract, 0, msg).sign(context.key)
success, context.ans = processblock.apply_transaction(context.gen, tx)
assert(success)
### From here is pasted together from earlier version of pyetherem
import serpent
from pyethereum import transactions, blocks, processblock, utils
#processblock.print_debug = 1
from pyethereum import slogging
slogging.set_level('eth.tx', "DEBUG")
code = serpent.compile(namecoin_code)
key = utils.sha3('cow')
addr = utils.privtoaddr(key)
genesis = blocks.genesis(new_db(), {addr: 10**18})
tx1 = transactions.contract(nonce=0,
gasprice=10**12,
startgas=10000,
endowment=0,
code=code).sign(key)
result, contract = processblock.apply_transaction(genesis, tx1)
print genesis.to_dict()
tx2 = transactions.Transaction(nonce=1,
gasprice=10**12,
startgas=10000,
to=contract,
value=0,
data=serpent.encode_abi(0, 1, 45)).sign(key)
result, ans = processblock.apply_transaction(genesis, tx2)
serpent.decode_datalist(ans)
#print genesis.to_dict()
def execute(self, from_):
signed_tx = self.tx(from_).sign(from_.private_key)
return processblock.apply_transaction(from_.genesis, signed_tx)
def do_test_vm(name):
tempdir = tempfile.mktemp()
logger.debug('running test:%r', name)
params = vm_tests_fixtures()[name]
# HOTFIFX
# params['pre']['0f572e5295c57f15886f9b263e2f6d2d6c7b5ec6']['balance'] *= 100
pre = params['pre']
execs = params['exec']
callcreates = params['callcreates']
env = params['env']
post = params['post']
check_testdata(env.keys(), ['code', 'currentGasLimit', 'currentTimestamp','previousHash',
'currentCoinbase', 'currentDifficulty', 'currentNumber'])
# setup env
blk = blocks.Block(
prevhash=env['previousHash'].decode('hex'),
number=int(env['currentNumber']),
coinbase=env['currentCoinbase'],
difficulty=int(env['currentDifficulty']),
gas_limit=int(env['currentGasLimit']),
timestamp=env['currentTimestamp'])
# code FIXME WHAT TO DO WITH THIS CODE???
# if isinstance(env['code'], str):
# continue
# else:
# addr = 0 # FIXME
# blk.set_code(addr, ''.join(map(chr, env['code'])))
# setup state
for address, h in pre.items():
check_testdata(h.keys(), ['code', 'nonce', 'balance', 'storage'])
blk.set_balance(address, h['balance'])
logger.debug('PRE Balance: %r: %r', address, h['balance'])
blk._set_acct_item(address,'nonce', h['nonce'])
blk.set_code(address, ''.join(map(chr, h['code'])))
assert h['storage'] == {} # FOR NOW test contracts don't seem to persist anything
# execute transactions
for i, exek in enumerate(execs):
sender = exek['address'] # a party that originates a call
recvaddr = exek['caller']
tx = transactions.Transaction(nonce=blk._get_acct_item(exek['caller'], 'nonce'),
gasprice=int(exek['gasPrice']),
startgas=int(exek['gas']),
to=recvaddr,
value=int(exek['value']),
data=exek['data'])
tx.sender = sender
logger.debug('TX %r > %r v:%r gas:%s @price:%s',
sender, recvaddr, tx.value, tx.startgas, tx.gasprice)
# capture apply_message calls
apply_message_calls = []
orig_apply_msg = processblock.apply_msg
def apply_msg_wrapper(_block, _tx, msg):
result, gas_remained, data = orig_apply_msg(_block, _tx, msg)
apply_message_calls.append(dict(msg=msg, result=result,
gas_remained=gas_remained, data=data))
return result, gas_remained, data
processblock.apply_msg = apply_msg_wrapper
success, output = processblock.apply_transaction(blk, tx)
processblock.apply_msg = orig_apply_msg
assert success
assert len(callcreates) == len(apply_message_calls)
# check against callcreates
for i, callcreate in enumerate(callcreates):
amc = apply_message_calls[i]
assert callcreate['data'] == amc['data']
assert callcreate['gasLimit'] == amc['gas_remained']
assert callcreate['value'] == amc['msg'].value
# data and out not set in tests yet
assert output == params['out']
assert not params['out']
assert not callcreates['data']
# check state
for address, h in post.items():
check_testdata(h.keys(), ['code', 'nonce', 'balance', 'storage'])
logger.debug('POST: %r %r', address, h['balance'])
blk.get_balance(address) == h['balance']
blk._get_acct_item(address,'nonce') == h['nonce']
map(ord, blk.get_code(recvaddr)) ==h['code']
assert storage == {} # FOR NOW test contracts don't seem to persist anything
def prepare_state_test(params):
pre = params['pre']
exek = params['transaction']
env = params['env']
# setup env
blk = blocks.Block(db,
prevhash=env['previousHash'].decode('hex'),
number=int(env['currentNumber']),
coinbase=env['currentCoinbase'],
difficulty=int(env['currentDifficulty']),
gas_limit=int(env['currentGasLimit']),
timestamp=int(env['currentTimestamp']))
for address, h in pre.items():
blk.set_nonce(address, int(h['nonce']))
blk.set_balance(address, int(h['balance']))
blk.set_code(address, h['code'][2:].decode('hex'))
for k, v in h['storage'].iteritems():
blk.set_storage_data(address,
u.big_endian_to_int(k[2:].decode('hex')),
u.big_endian_to_int(v[2:].decode('hex')))
# execute transactions
tx = transactions.Transaction(nonce=int(exek['nonce'] or "0"),
gasprice=int(exek['gasPrice'] or "0"),
startgas=int(exek['gasLimit'] or "0"),
to=exek['to'],
value=int(exek['value'] or "0"),
data=exek['data'][2:].decode('hex')).sign(
exek['secretKey'])
orig_apply_msg = pb.apply_msg
def apply_msg_wrapper(ext, msg, code):
def blkhash(n):
if n >= blk.number or n < blk.number - 256:
return ''
else:
return u.sha3(str(n))
ext.block_hash = blkhash
return orig_apply_msg(ext, msg, code)
pb.apply_msg = apply_msg_wrapper
blk2 = blocks.Block.deserialize(db, blk.serialize())
t1 = time.time()
try:
pb.apply_transaction(blk, tx)
except:
print 'exception'
pass
t2 = time.time()
recorder = LogRecorder()
try:
pb.apply_transaction(blk2, tx)
except:
print 'exception'
pass
trace = recorder.pop_records()
ops = [x['op'] for x in trace if x['event'] == 'vm']
opdict = {}
for op in ops:
opdict[op] = opdict.get(op, 0) + 1
return {"ops": opdict, "time": t2 - t1}
