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 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 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_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 tag_content(content_hash, tag, genesis, root_contract, usr):
key, addr = usr
nonce = get_nonce(genesis, addr)
tx_tag = transactions.Transaction(
nonce, 0, 10**12, 10000, root_contract,
serpent.encode_datalist([2, content_hash, tag])).sign(key)
ans = processblock.apply_tx(genesis, tx_tag)
def send_money(to, amount, genesis, root_contract, usr):
key, addr = usr
nonce = get_nonce(genesis, addr)
tx_money = transactions.Transaction(nonce, 0, 10**12, 10000, root_contract,
serpent.encode_datalist([to, amount
])).sign(key)
ans = processblock.apply_tx(genesis, tx_money)
def gen_test(code, val, data):
while 1:
s = t.state(1)
c = s.contract(code)
pre = s.block.to_dict()['state']
env = {
"currentCoinbase": s.block.coinbase,
"currentDifficulty": str(s.block.difficulty),
"currentGasLimit": str(s.block.gas_limit),
"currentNumber": str(s.block.number),
"currentTimestamp": str(s.block.timestamp),
"previousHash": s.block.prevhash.encode('hex')
}
apply_message_calls = []
orig_apply_msg = pb.apply_msg
def apply_msg_wrapper(_block, _tx, msg, code):
pb.enable_debug()
apply_message_calls.append(
dict(gasLimit=msg.gas,
value=msg.value,
desgination=msg.to,
data=msg.data.encode('hex')))
result, gas_rem, data = orig_apply_msg(_block, _tx, msg, code)
pb.disable_debug()
return result, gas_rem, data
pb.apply_msg = apply_msg_wrapper
d = serpent.encode_datalist(map(int, data))
tx = pyethereum.transactions.Transaction(1, 10**12, 10000, c, val, data)\
.sign(t.keys[0])
msg = pb.Message(t.accounts[0], c, val, 10000, d)
exek = {
"address": msg.to,
"caller": msg.sender,
"code": '0x' + s.block.get_code(c).encode('hex'),
"data": '0x' + d.encode('hex'),
"gas": str(10000),
"gasPrice": str(10**12),
"origin": tx.sender,
"value": str(val)
}
success, gas, o = pb.apply_msg(s.block, tx, msg, s.block.get_code(c))
post = s.block.to_dict()['state']
callcreates = apply_message_calls[1:]
if success:
break
return {
"callcreates": callcreates,
"env": env,
"pre": pre,
"post": post,
"exec": exek,
"gas": str(gas),
"out": '0x' + ''.join(map(chr, o)).encode('hex')
}
def register_name(name, genesis, root_contract, usr):
key, addr = usr
nonce = get_nonce(genesis, addr)
# register eth-address to a name. recover name from blockchain. names are not unique. but names + first 4 digits of address probably are....
tx_register_name = transactions.Transaction(
nonce, 0, 10**12, 10000, root_contract,
serpent.encode_datalist([5, name])).sign(key)
ans = processblock.apply_tx(genesis, tx_register_name)
def __init__(self, to, donate_to, value=0):
self.to = to
self.value = value
self.donate_to = donate_to
self.data = serpent.encode_datalist([self._data_code(), donate_to])
self.tx = lambda user: transactions.Transaction(
NonceSingleton.inc(user), self.DEFAULT_GASPRICE, self.
DEFAULT_STARTGAS, to, value, self.data)
def vote_tag(content_hash, tag, vote, genesis, root_contract, usr):
key, addr = usr
nonce = get_nonce(genesis, addr)
#vote on a tag.
tx_vote = transactions.Transaction(
nonce, 0, 10**12, 10000, root_contract,
serpent.encode_datalist([3, content_hash, tag, vote])).sign(key)
ans = processblock.apply_tx(genesis, tx_vote)
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 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]
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]
def gen_test(code, val, data):
while 1:
s = t.state(1)
c = s.contract(code)
pre = s.block.to_dict()['state']
env = {
"currentCoinbase": s.block.coinbase,
"currentDifficulty": str(s.block.difficulty),
"currentGasLimit": str(s.block.gas_limit),
"currentNumber": str(s.block.number),
"currentTimestamp": str(s.block.timestamp),
"previousHash": s.block.prevhash.encode('hex')
}
apply_message_calls = []
orig_apply_msg = pb.apply_msg
def apply_msg_wrapper(_block, _tx, msg, code):
pb.enable_debug()
apply_message_calls.append(dict(gasLimit=msg.gas, value=msg.value,
desgination=msg.to,
data=msg.data.encode('hex')))
result, gas_rem, data = orig_apply_msg(_block, _tx, msg, code)
pb.disable_debug()
return result, gas_rem, data
pb.apply_msg = apply_msg_wrapper
d = serpent.encode_datalist(map(int, data))
tx = pyethereum.transactions.Transaction(1, 10**12, 10000, c, val, data)\
.sign(t.keys[0])
msg = pb.Message(t.accounts[0], c, val, 10000, d)
exek = {
"address": msg.to,
"caller": msg.sender,
"code": '0x'+s.block.get_code(c).encode('hex'),
"data": '0x'+d.encode('hex'),
"gas": str(10000),
"gasPrice": str(10**12),
"origin": tx.sender,
"value": str(val)
}
success, gas, o = pb.apply_msg(s.block, tx, msg, s.block.get_code(c))
post = s.block.to_dict()['state']
callcreates = apply_message_calls[1:]
if success:
break
return {
"callcreates": callcreates,
"env": env,
"pre": pre,
"post": post,
"exec": exek,
"gas": str(gas),
"out": '0x'+''.join(map(chr, o)).encode('hex')
}
def _add_dc_to_dcp(self, to_addr, from_addr, sig, msghash, msgsize, data):
assert(self.verify_dc_sig(sig, msghash, msgsize, from_addr, data))
tx = self.dcp_list[to_addr]
txdata = serpent.decode_datalist(tx.data)
txdata[0] += 1 #increment dc count
#append dc data to dcp tx
strings = byte_arrays_to_string(data) # data contains from_addr, msg_size, [args]
map(txdata.append, strings)
self.dcp_list[to_addr].data = serpent.encode_datalist(txdata)
self.dcp_list[to_addr].sign(privkey)
def init_dcp(self, addr):
nonce = self.miner.block.get_nonce(self_addr) #self.config.get('wallet', 'coinbase'))
print 'init nonce for dcp', nonce
GASPRICE = 100
print 'addr!'
print addr
new_dcp = Transaction(nonce, GASPRICE, 10**5, addr, 0, serpent.encode_datalist([0])).sign(privkey) #encode datalist...
print 'sender', new_dcp.sender
print 'self addr', self_addr
self.dcp_list[addr] = new_dcp
def _add_dc_to_dcp(self, to_addr, from_addr, sig, msghash, msgsize, data):
assert (self.verify_dc_sig(sig, msghash, msgsize, from_addr, data))
tx = self.dcp_list[to_addr]
txdata = serpent.decode_datalist(tx.data)
txdata[0] += 1 #increment dc count
#append dc data to dcp tx
strings = byte_arrays_to_string(
data) # data contains from_addr, msg_size, [args]
map(txdata.append, strings)
self.dcp_list[to_addr].data = serpent.encode_datalist(txdata)
self.dcp_list[to_addr].sign(privkey)
def transact(self, dest, secret=constants.DEFAULT_KEY, data="", gas=constants.DEFAULT_GAS, gas_price=constants.GAS_PRICE, value=0):
if data:
data = "0x" + serpent.encode_datalist(data).encode('hex')
params = {
'aDest': dest,
'bData': data,
'sec': secret,
'xGas': hex(gas),
'xGasPrice': hex(gas_price),
'xValue': hex(value)}
return self._rpc_post('transact', params)
def get_all_content(genesis, root_contract, usr):
key, addr = usr
nonce = get_nonce(genesis, addr)
tx_v = transactions.Transaction(nonce, 0, 10**12, 10000, root_contract, serpent.encode_datalist([7, 'kjsdhg'])).sign(key)
ans = processblock.apply_tx(genesis, tx_v)
decoded = serpent.decode_datalist(ans)
hexd = map(hex, decoded)
f = lambda x : x[2:-1]
hexd = map(f, hexd)
f = lambda x: x.decode('hex')
hexd = map(f, hexd)
return hexd
def __init__(self, to, donate_to, value=0):
self.to = to
self.value = value
self.donate_to = donate_to
self.data = serpent.encode_datalist([self._data_code(),
donate_to])
self.tx = lambda user: transactions.Transaction(NonceSingleton.inc(user),
self.DEFAULT_GASPRICE,
self.DEFAULT_STARTGAS,
to,
value,
self.data)
def init_system(genesis, key):
code = serpent.compile(open('serp/root.se').read())
tx_make_root = transactions.Transaction.contract(0, 0, 10**12, 10000,
code).sign(key)
root_contract = processblock.apply_tx(genesis, tx_make_root)
root_hash = root_contract.encode('hex')
f = lambda x: write_owner(root_hash, x)
map(f,
['serp/data.se', 'serp/tag.se', 'serp/users.se', 'serp/currency.se'])
code = serpent.compile(open('serp/data.se').read())
tx_make_data = transactions.Transaction.contract(1, 0, 10**12, 10000,
code).sign(key)
code = serpent.compile(open('serp/tag.se').read())
tx_make_tag = transactions.Transaction.contract(2, 0, 10**12, 10000,
code).sign(key)
code = serpent.compile(open('serp/users.se').read())
tx_make_users = transactions.Transaction.contract(3, 0, 10**12, 10000,
code).sign(key)
code = serpent.compile(open('serp/currency.se').read())
tx_make_currency = transactions.Transaction.contract(
4, 0, 10**12, 10000, code).sign(key)
data_contract = processblock.apply_tx(genesis, tx_make_data)
tag_contract = processblock.apply_tx(genesis, tx_make_tag)
users_contract = processblock.apply_tx(genesis, tx_make_users)
currency_contract = processblock.apply_tx(genesis, tx_make_currency)
d_contract = data_contract.encode('hex')
t_contract = tag_contract.encode('hex')
u_contract = users_contract.encode('hex')
c_contract = currency_contract.encode('hex')
#init root
tx_init_root = transactions.Transaction(
5, 0, 10**12, 10000, root_contract,
serpent.encode_datalist(
[d_contract, t_contract, u_contract, c_contract])).sign(key)
ans = processblock.apply_tx(genesis, tx_init_root)
adresses = {
root_hash: 'root',
d_contract: 'data',
t_contract: 'tags',
u_contract: 'users',
utils.privtoaddr(key): 'me',
c_contract: 'currency'
}
return adresses
def init_dcp(self, addr):
nonce = self.miner.block.get_nonce(
self_addr) #self.config.get('wallet', 'coinbase'))
print 'init nonce for dcp', nonce
GASPRICE = 100
print 'addr!'
print addr
new_dcp = Transaction(nonce, GASPRICE, 10**5, addr, 0,
serpent.encode_datalist([0])).sign(
privkey) #encode datalist...
print 'sender', new_dcp.sender
print 'self addr', self_addr
self.dcp_list[addr] = new_dcp
def push_content(content, title, genesis, root_contract, usr):
key, addr = usr
nonce = get_nonce(genesis, addr)
content_hash = utils.sha3(content)
# push a transaction with a title. recover title from blockchain
tx_push = transactions.Transaction(nonce, 0, 10**12, 10000, root_contract, serpent.encode_datalist([1, content_hash, title])).sign(key)
ans = processblock.apply_tx(genesis, tx_push)
f = open('data/%s'%content_hash.encode('hex'), 'w')
f.write(content)
f.close()
return content_hash
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 get_all_content(genesis, root_contract, usr):
key, addr = usr
nonce = get_nonce(genesis, addr)
tx_v = transactions.Transaction(nonce, 0, 10**12, 10000, root_contract,
serpent.encode_datalist([7, 'kjsdhg'
])).sign(key)
ans = processblock.apply_tx(genesis, tx_v)
decoded = serpent.decode_datalist(ans)
hexd = map(hex, decoded)
f = lambda x: x[2:-1]
hexd = map(f, hexd)
f = lambda x: x.decode('hex')
hexd = map(f, hexd)
return hexd
def push_content(content, title, genesis, root_contract, usr):
key, addr = usr
nonce = get_nonce(genesis, addr)
content_hash = utils.sha3(content)
# push a transaction with a title. recover title from blockchain
tx_push = transactions.Transaction(
nonce, 0, 10**12, 10000, root_contract,
serpent.encode_datalist([1, content_hash, title])).sign(key)
ans = processblock.apply_tx(genesis, tx_push)
f = open('data/%s' % content_hash.encode('hex'), 'w')
f.write(content)
f.close()
return content_hash
def init_system(genesis, key):
code = serpent.compile(open('serp/root.se').read())
tx_make_root = transactions.Transaction.contract(0,0,10**12, 10000, code).sign(key)
root_contract = processblock.apply_tx(genesis, tx_make_root)
root_hash = root_contract.encode('hex')
f = lambda x: write_owner(root_hash, x)
map(f, ['serp/data.se', 'serp/tag.se', 'serp/users.se', 'serp/currency.se'])
code = serpent.compile(open('serp/data.se').read())
tx_make_data = transactions.Transaction.contract(1,0,10**12, 10000, code).sign(key)
code = serpent.compile(open('serp/tag.se').read())
tx_make_tag = transactions.Transaction.contract(2,0,10**12, 10000, code).sign(key)
code = serpent.compile(open('serp/users.se').read())
tx_make_users = transactions.Transaction.contract(3,0,10**12, 10000, code).sign(key)
code = serpent.compile(open('serp/currency.se').read())
tx_make_currency = transactions.Transaction.contract(4,0,10**12, 10000, code).sign(key)
data_contract = processblock.apply_tx(genesis, tx_make_data)
tag_contract = processblock.apply_tx(genesis, tx_make_tag)
users_contract = processblock.apply_tx(genesis, tx_make_users)
currency_contract = processblock.apply_tx(genesis, tx_make_currency)
d_contract = data_contract.encode('hex')
t_contract = tag_contract.encode('hex')
u_contract = users_contract.encode('hex')
c_contract = currency_contract.encode('hex')
#init root
tx_init_root = transactions.Transaction(5, 0, 10**12, 10000, root_contract, serpent.encode_datalist([d_contract, t_contract, u_contract, c_contract])).sign(key)
ans = processblock.apply_tx(genesis, tx_init_root)
adresses = {root_hash:'root', d_contract:'data', t_contract:'tags', u_contract:'users', utils.privtoaddr(key):'me', c_contract:'currency'}
return adresses
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 tag_content(content_hash, tag, genesis, root_contract, usr):
key, addr = usr
nonce = get_nonce(genesis, addr)
tx_tag = transactions.Transaction(nonce, 0, 10**12, 10000, root_contract, serpent.encode_datalist([2, content_hash, tag])).sign(key)
ans = processblock.apply_tx(genesis, tx_tag)
def register_name(name, genesis, root_contract, usr):
key, addr = usr
nonce = get_nonce(genesis, addr)
# register eth-address to a name. recover name from blockchain. names are not unique. but names + first 4 digits of address probably are....
tx_register_name = transactions.Transaction(nonce, 0, 10**12, 10000, root_contract, serpent.encode_datalist([5, name])).sign(key)
ans = processblock.apply_tx(genesis, tx_register_name)
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 send_money(to, amount, genesis, root_contract, usr):
key, addr = usr
nonce = get_nonce(genesis, addr)
tx_money = transactions.Transaction(nonce, 0, 10**12, 10000, root_contract, serpent.encode_datalist([to, amount])).sign(key)
ans = processblock.apply_tx(genesis, tx_money)
def vote_tag(content_hash, tag, vote, genesis, root_contract, usr):
key, addr = usr
nonce = get_nonce(genesis, addr)
#vote on a tag.
tx_vote = transactions.Transaction(nonce, 0, 10**12, 10000, root_contract, serpent.encode_datalist([3, content_hash, tag, vote])).sign(key)
ans = processblock.apply_tx(genesis, tx_vote)
blk = b.genesis({v: u.denoms.ether * 1})
scode1 = '''
if !contract.storage[msg.data[0]]:
contract.storage[msg.data[0]] = msg.data[1]
return(1)
else:
return(0)
'''
code1 = serpent.compile(scode1)
# print("AST", serpent.rewrite(serpent.parse(scode1)))
# print("Assembly", serpent.compile_to_assembly(scode1))
tx1 = t.contract(0, gasprice, startgas, 0, code1).sign(k)
s, addr = pb.apply_tx(blk, tx1)
snapshot = blk.snapshot()
print("Contract address", addr)
tx2 = t.Transaction(1, gasprice, startgas, addr, 0, serpent.encode_datalist(['george', 45]))
tx2.sign(k)
s, o = pb.apply_tx(blk, tx2)
print("Result of registering george:45: ", serpent.decode_datalist(o))
assert serpent.decode_datalist(o) == [1]
tx3 = t.Transaction(2, gasprice, startgas, addr, 0, serpent.encode_datalist(['george', 20])).sign(k)
s, o = pb.apply_tx(blk, tx3)
print("Result of registering george:20: ", serpent.decode_datalist(o))
assert serpent.decode_datalist(o) == [0]
tx4 = t.Transaction(3, gasprice, startgas, addr, 0, serpent.encode_datalist(['harry', 60])).sign(k)
s, o = pb.apply_tx(blk, tx4)
print("Result of registering harry:60: ", serpent.decode_datalist(o))
assert serpent.decode_datalist(o) == [1]
scode2 = '''
if !contract.storage[1000]:
code = serpent.assemble(assembly)
print code
msg_hash = utils.sha3('heres a message')
v, r, s = bitcoin.ecdsa_raw_sign(msg_hash, key)
pub = bitcoin.privkey_to_pubkey(key)
verified = bitcoin.ecdsa_raw_verify(msg_hash, (v, r, s), pub)
print verified
tx_make_root = transactions.contract(0,10,10**30, 10**30, code).sign(key)
success, root_contract = processblock.apply_tx(gen, tx_make_root)
#tx_init_root = transactions.Transaction(1, 100, 10**40, root_contract, 0, serpent.encode_datalist([msg_hash, v, r, s])).sign(key)
#tx_init_root = transactions.Transaction(1, 100, 10**40, root_contract, 0, serpent.encode_datalist(['hi', 'bye'])).sign(key)
tx_init_root = transactions.Transaction(1, 100, 10**40, root_contract, 0, serpent.encode_datalist([2, '139dcd5cc79e260272e05147c349ab5f2db3f102', 1])).sign(key)
#tx_init_root = transactions.Transaction(1, 100, 10**40, root_contract, 0, serpent.encode_datalist([2, 1])).sign(key)
print assembly
success, ans = processblock.apply_tx(gen, tx_init_root)
print ans
data = serpent.decode_datalist(ans)
print data
print hex(data[0])
quit()
print ans.encode('hex')
data = serpent.decode_datalist(ans)
print 'raw decoded data:', data
print 'data as hex:'
print map(hex, data)
#print ('%02x'%data).decode('hex')
print assembly
nargs = pad32(1)
d0 = pad32('hi')
print nargs, d0
msg_hash = utils.sha3(nargs + d0)
v, r, s = bitcoin.ecdsa_raw_sign(msg_hash, key)
pubkey = bitcoin.privkey_to_pubkey(key)
verified = bitcoin.ecdsa_raw_verify(msg_hash, (v, r, s), pubkey)
gen = blocks.genesis({addr: 10**18})
print serpent.compile_to_assembly(open("DAOist frame.se").read())
DAOcode = serpent.compile(open("DAOist frame.se").read())
DAOcontract = transactions.contract(0, 1, 10**12, 100, DAOcode)
DAOcontract.sign(key)
success, contract_address = processblock.apply_tx(gen, DAOcontract)
DCP = transactions.Transaction(
1, 10**12, 10000, contract_address, 0,
serpent.encode_datalist([1, 1, v, r, s, 1, 'hi']))
DCP.sign(key)
success, result = processblock.apply_tx(gen, DCP)
print "success: ", success
print serpent.decode_datalist(result)
blk = b.Block.genesis({ v: 10**18 })
scode1 = '''
if !contract.storage[msg.data[0]]:
contract.storage[msg.data[0]] = msg.data[1]
return(1)
else:
return(0)
'''
code1 = serpent.compile(scode1)
print "AST", serpent.rewrite(serpent.parse(scode1))
print "Assembly", serpent.compile_to_assembly(scode1)
tx1 = t.Transaction.contract(0,0,10**12,1000,code1).sign(k)
addr = pb.apply_tx(blk,tx1)
snapshot = blk.snapshot()
print "Contract address", addr.encode('hex')
tx2 = t.Transaction(1,0,10**12,1000,addr,serpent.encode_datalist(['george',45]))
tx2.sign(k)
o = pb.apply_tx(blk,tx2)
print "Result of registering george:45: ", serpent.decode_datalist(o)
tx3 = t.Transaction(2,0,10**12,1000,addr,serpent.encode_datalist(['george',20])).sign(k)
o = pb.apply_tx(blk,tx3)
print "Result of registering george:20: ", serpent.decode_datalist(o)
tx4 = t.Transaction(3,0,10**12,1000,addr,serpent.encode_datalist(['harry',60])).sign(k)
o = pb.apply_tx(blk,tx4)
print "Result of registering harry:60: ", serpent.decode_datalist(o)
scode2 = '''
if !contract.storage[1000]:
contract.storage[1000] = 1
contract.storage[0x%s] = 1000
elif msg.datasize == 1:
for x in keys:
endowment[x] = 10**18
genesis = blocks.genesis(endowment)
tx1 = transactions.contract(0, 10**12, 100000, 0, root_code).sign(root_key)
result, contract = processblock.apply_transaction(genesis, tx1)
nonce = 1
for address in keys:
longitude = random.randint(1000, 110000)
latitude = random.randint(1000, 110000)
datalist = serpent.encode_datalist([0, longitude, latitude])
tx = transactions.Transaction(0, 10**12, 10000, contract, 1000,
datalist).sign(keys[address])
#nonce = nonce + 1
result, ans = processblock.apply_transaction(genesis, tx)
storage = genesis.to_dict()["state"][contract]["storage"]
integers = {}
for k in storage:
integers[int(k, 16)] = int(storage[k], 16)
print(json.dumps(integers, sort_keys=True, indent=4, separators=(',', ': ')))
def sha3(data):
return serpent.decode_datalist(utils.sha3(serpent.encode_datalist(*data)))[0]
for x in keys:
endowment[x] = 10**18
genesis = blocks.genesis(endowment)
tx1 = transactions.contract(0, 10**12, 100000, 0, root_code).sign(root_key)
result, contract = processblock.apply_transaction(genesis, tx1)
nonce=1
for address in keys:
longitude = random.randint(1000, 110000)
latitude = random.randint(1000, 110000)
datalist = serpent.encode_datalist([0, longitude, latitude])
tx = transactions.Transaction(0,
10**12,
10000,
contract,
1000,
datalist).sign(keys[address])
#nonce = nonce + 1
result, ans = processblock.apply_transaction(genesis, tx)
storage = genesis.to_dict()["state"][contract]["storage"]
integers = {}
h = "%02x"%n
l = len(h)
return "0"*(32-l)+h
nargs = pad32(1)
d0 = pad32('hi')
print nargs, d0
msg_hash = utils.sha3(nargs+d0)
v, r, s = bitcoin.ecdsa_raw_sign(msg_hash, key)
pubkey = bitcoin.privkey_to_pubkey(key)
verified = bitcoin.ecdsa_raw_verify(msg_hash, (v,r,s), pubkey)
gen = blocks.genesis({addr: 10**18})
print serpent.compile_to_assembly(open("DAOist frame.se").read())
DAOcode = serpent.compile(open("DAOist frame.se").read())
DAOcontract = transactions.contract(0, 1, 10**12, 100, DAOcode)
DAOcontract.sign(key)
success, contract_address = processblock.apply_tx(gen, DAOcontract)
DCP = transactions.Transaction(1,10**12, 10000, contract_address, 0, serpent.encode_datalist([1,1,v,r,s,1,'hi']))
DCP.sign(key)
success, result = processblock.apply_tx(gen, DCP)
print "success: ", success
print serpent.decode_datalist(result)
scode1 = '''
if !contract.storage[msg.data[0]]:
contract.storage[msg.data[0]] = msg.data[1]
return(1)
else:
return(0)
'''
code1 = serpent.compile(scode1)
print "AST", serpent.rewrite(serpent.parse(scode1))
print "Assembly", serpent.compile_to_assembly(scode1)
tx1 = t.Transaction.contract(0, 0, 10**12, 1000, code1).sign(k)
addr = pb.apply_tx(blk, tx1)
snapshot = blk.snapshot()
print "Contract address", addr.encode('hex')
tx2 = t.Transaction(1, 0, 10**12, 1000, addr,
serpent.encode_datalist(['george', 45]))
tx2.sign(k)
o = pb.apply_tx(blk, tx2)
print "Result of registering george:45: ", serpent.decode_datalist(o)
tx3 = t.Transaction(2, 0, 10**12, 1000, addr,
serpent.encode_datalist(['george', 20])).sign(k)
o = pb.apply_tx(blk, tx3)
print "Result of registering george:20: ", serpent.decode_datalist(o)
tx4 = t.Transaction(3, 0, 10**12, 1000, addr,
serpent.encode_datalist(['harry', 60])).sign(k)
o = pb.apply_tx(blk, tx4)
print "Result of registering harry:60: ", serpent.decode_datalist(o)
scode2 = '''
if !contract.storage[1000]:
contract.storage[1000] = 1
print code
msg_hash = utils.sha3('heres a message')
v, r, s = bitcoin.ecdsa_raw_sign(msg_hash, key)
pub = bitcoin.privkey_to_pubkey(key)
verified = bitcoin.ecdsa_raw_verify(msg_hash, (v, r, s), pub)
print verified
tx_make_root = transactions.contract(0, 10, 10**30, 10**30, code).sign(key)
success, root_contract = processblock.apply_tx(gen, tx_make_root)
#tx_init_root = transactions.Transaction(1, 100, 10**40, root_contract, 0, serpent.encode_datalist([msg_hash, v, r, s])).sign(key)
#tx_init_root = transactions.Transaction(1, 100, 10**40, root_contract, 0, serpent.encode_datalist(['hi', 'bye'])).sign(key)
tx_init_root = transactions.Transaction(
1, 100, 10**40, root_contract, 0,
serpent.encode_datalist([2, '139dcd5cc79e260272e05147c349ab5f2db3f102',
1])).sign(key)
#tx_init_root = transactions.Transaction(1, 100, 10**40, root_contract, 0, serpent.encode_datalist([2, 1])).sign(key)
print assembly
success, ans = processblock.apply_tx(gen, tx_init_root)
print ans
data = serpent.decode_datalist(ans)
print data
print hex(data[0])
quit()
print ans.encode('hex')
data = serpent.decode_datalist(ans)
print 'raw decoded data:', data
print 'data as hex:'
print map(hex, data)
#print ('%02x'%data).decode('hex')
print assembly
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)))
#mine serveral blocks
for i in range(5):
genesis.finalize()
t = (genesis.timestamp or int(time.time())) + 60
key2 = utils.sha3('cow2')
addr2 = utils.privtoaddr(key2)
key_host = utils.sha3('host')
add_host = utils.privtoaddr(key_host)
#initialize the block
genesis = blocks.genesis({addr: 10**18, addr2: 10**18, add_host: 10**18})
#This is to initialize the contract
tx1 = transactions.contract(0,10**12,10000,0,code).sign(key_host)
result, contract = processblock.apply_transaction(genesis, tx1)
#start buying tickets
#nonce, gasprice, startgas, to, value, data
tx2 = transactions.Transaction(0, 10**12, 10000, contract, 10**15, serpent.encode_datalist([])).sign(key)
result, ans = processblock.apply_transaction(genesis,tx2)
tx3 = transactions.Transaction(0, 10**12, 10000, contract, 10**15, serpent.encode_datalist([])).sign(key2)
result, ans = processblock.apply_transaction(genesis,tx3)
print('Check no. of buyers: %s ' %str(genesis.get_storage_data(contract, 1)))
print('Check address of ticket 1: %s ' %str(hex(genesis.get_storage_data(contract, 4))))
print 'balance ' + str(genesis.get_balance(addr))
print('Check address of ticket 2: %s ' %str(hex(genesis.get_storage_data(contract, 5))))
print 'balance ' + str(genesis.get_balance(addr2))
#Mine serveral blocks
for i in range(5):
genesis.finalize()
t = (genesis.timestamp or int(time.time())) + 60
