def deploy_contract():
print("check whether existed bac token contract and mixer contract")
sqlSearchBac = "select * from contract where conType = %s"
db.ping(reconnect=True)
cursor.execute(sqlSearchBac, [BACTYPE])
resultBac = cursor.fetchall()
db.commit()
if resultBac:
sqlSearchMixer = "select * from contract where conType = %s"
cursor.execute(sqlSearchMixer, [MIXERTYPE])
resultMixer = cursor.fetchall()
db.commit()
if resultMixer:
print("all contract existed")
return
else:
token_address = resultBac[0]['conAddr']
print("deploy mixer contract on bac token contract of: ", token_address)
poseidon_address = deployPoseidon()
mixer_address = deploy(token_address, poseidon_address)
if mixer_address:
print("save mixer contract to database, address: ", mixer_address)
sqlInsertMixer = "insert into contract (conName, conType, conAddr, owner, totalAmount, shortName) values (%s, %s, %s, %s, %s, %s);"
conName = "Groth16Mixer"
shortName = "mixer_test"
cursor.execute(sqlInsertMixer, [conName, MIXERTYPE, mixer_address, ownerAddr, 0, shortName])
db.commit()
else:
print("deploy bac token contract")
shortName = "zk-AAA-demo"
minUnit = 18
totalAmount = 50000000000
token_address = deploy_asset("bac token test contract", shortName, minUnit, totalAmount)
if token_address:
print("save bac token contract to database, address: ", token_address)
sqlInsertBac = "insert into contract (conName, conType, conAddr, owner, totalAmount, shortName) values (%s, %s, %s, %s, %s, %s);"
conName = "BAC001"
cursor.execute(sqlInsertBac, [conName, BACTYPE, token_address, ownerAddr, totalAmount, shortName])
db.commit()
print("deploy mixer contract on bac token contract of: ", token_address)
poseidon_address = deployPoseidon()
mixer_address = deploy(token_address, poseidon_address)
if mixer_address:
print("save mixer contract to database, address: ", mixer_address)
sqlInsertMixer = "insert into contract (conName, conType, conAddr, owner, totalAmount, shortName) values (%s, %s, %s, %s, %s, %s);"
conNameMixer = "Groth16Mixer"
shortNameMixer = "mixer_test"
cursor.execute(sqlInsertMixer, [conNameMixer, MIXERTYPE, mixer_address, ownerAddr, 0, shortNameMixer])
db.commit()
def deployMixer(request) -> None:
result = {}
req = json.loads(request.body)
mixer_address = deploy(req['token_address'])
if mixer_address:
result['status'] = 0
result['address'] = str(mixer_address)
return JsonResponse(result)
result['status'] = 1
result['text'] = 'deploy zksnark mixer contract failed'
return JsonResponse(result)
def main() -> None:
print("***********************")
zksnark = zeth.zksnark.get_zksnark_provider("GROTH16")
#web3, eth = mock.open_test_web3()
'''
# Ethereum addresses
deployer_eth_address = eth.accounts[0]
bob_eth_address = eth.accounts[1]
alice_eth_address = eth.accounts[2]
charlie_eth_address = eth.accounts[3]
'''
account_keyfile_path = "python_web3/bin/accounts" # 保存keystore文件的路径,在此路径下,keystore文件以 [name].keystore命名
account_keyfile = "pyaccount.keystore"
keystore_file = "{}/{}".format(account_keyfile_path, account_keyfile)
with open(keystore_file, "r") as dump_f:
keytext = json.load(dump_f)
privkey = Account.decrypt(keytext, "123456")
deployer_ac = Account.from_key(privkey)
# Fisco-bcos addresses
bob_password = "******"
alice_password = "******"
charlie_password = "******"
bob_ac = Account.create(bob_password)
alice_ac = Account.create(alice_password)
charlie_ac = Account.create(charlie_password)
#keypair
deployer_keypair = BcosKeyPair()
deployer_keypair.private_key = deployer_ac.privateKey
deployer_keypair.public_key = deployer_ac.publickey
deployer_keypair.address = deployer_ac.address
bob_keypair = BcosKeyPair()
bob_keypair.private_key = bob_ac.privateKey
bob_keypair.public_key = bob_ac.publickey
bob_keypair.address = bob_ac.address
# alice_keypair = BcosKeyPair()
# alice_keypair.private_key = alice_ac.privateKey
# alice_keypair.public_key = alice_ac.publickey
# alice_keypair.address = alice_ac.address
charlie_keypair = BcosKeyPair()
charlie_keypair.private_key = charlie_ac.privateKey
charlie_keypair.public_key = charlie_ac.publickey
charlie_keypair.address = charlie_ac.address
# Zeth addresses
keystore = mock.init_test_keystore()
# Deploy Zeth contracts
tree_depth = constants.ZETH_MERKLE_TREE_DEPTH
asset_address = deploy_asset("AAAA", "AAA", 18, 100000000)
token_instance = BAC001(asset_address)
mixer_address = deploy(asset_address)
mixer_instance = Groth16Mixer(mixer_address)
mixer_instance.client.ecdsa_account = deployer_ac
mixer_instance.client.keypair = deployer_keypair
print("token address: ", mixer_instance.token())
zeth_client = MixerClient.open(PROVER_SERVER_ENDPOINT_DEFAULT,
mixer_instance)
mk_tree = zeth.merkle_tree.MerkleTree.empty_with_depth(tree_depth)
#mixer_instance = zeth_client.mixer_instance
# Keys and wallets
def _mk_wallet(name: str, sk: ZethAddressPriv) -> Wallet:
wallet_dir = join(mock.TEST_NOTE_DIR, name + "-erc")
if exists(wallet_dir):
# Note: symlink-attack resistance
# https://docs.python.org/3/library/shutil.html#shutil.rmtree.avoids_symlink_attacks
shutil.rmtree(wallet_dir)
return Wallet(mixer_instance, name, wallet_dir, sk)
sk_alice = keystore["Alice"].addr_sk
sk_bob = keystore["Bob"].addr_sk
sk_charlie = keystore["Charlie"].addr_sk
# alice_wallet = _mk_wallet('alice', sk_alice)
# bob_wallet = _mk_wallet('bob', sk_bob)
# charlie_wallet = _mk_wallet('charlie', sk_charlie)
#block_num = 1
# Universal update function
# def _receive_notes(
# out_ev: List[MixOutputEvents]) \
# -> Dict[str, List[ZethNoteDescription]]:
# #nonlocal block_num
# notes = {
# 'alice': alice_wallet.receive_notes(out_ev),
# 'bob': bob_wallet.receive_notes(out_ev),
# 'charlie': charlie_wallet.receive_notes(out_ev),
# }
# alice_wallet.update_and_save_state()
# bob_wallet.update_and_save_state()
# charlie_wallet.update_and_save_state()
# #block_num = block_num + 1
# return notes
print("[INFO] 4. Running tests (asset mixed: ERC20 token)...")
# We assign ETHToken to Bob
print("- Initial balances: ")
print_token_balances(token_instance, bob_ac.address, alice_ac.address,
charlie_ac.address, mixer_address)
# Bob tries to deposit ETHToken, split in 2 notes on the mixer (without
# approving)
token_instance.client.ecdsa_account = bob_ac
token_instance.client.keypair = bob_keypair
zeth_client.mixer_instance.client.ecdsa_account = bob_ac
zeth_client.mixer_instance.client.keypair = bob_keypair
# Bob approves the transfer
print("- Bob approves the transfer of ETHToken to the Mixer")
token_instance.client.ecdsa_account = bob_ac
token_instance.client.keypair = bob_keypair
(outputresult, receipt) = token_instance.send(bob_ac.address,
Web3.toWei(10000, 'ether'),
'')
print("send *****", receipt['status'])
(outputresult, receipt) = token_instance.approve(mixer_address,
scenario.BOB_DEPOSIT_ETH)
# eth.waitForTransactionReceipt(tx_hash)
outputresult = token_instance.allowance(deployer_ac.address, mixer_address)
print("- The allowance for the Mixer from Bob is:", outputresult)
# # Bob deposits ETHToken, split in 2 notes on the mixer
# result_deposit_bob_to_bob = scenario.bob_deposit(
# zeth_client, mk_tree, bob_ac.address, keystore, zeth.utils.EtherValue(0))
#
# print("- Balances after Bob's deposit: ")
# print_token_balances(
# token_instance,
# bob_ac.address,
# alice_ac.address,
# charlie_ac.address,
# mixer_address
# )
#
# # Alice sees a deposit and tries to decrypt the ciphertexts to see if she
# # was the recipient, but Bob was the recipient so Alice fails to decrypt
# received_notes = _receive_notes(
# result_deposit_bob_to_bob.output_events)
# recovered_notes_alice = received_notes['alice']
# assert(len(recovered_notes_alice) == 0), \
# "Alice decrypted a ciphertext that was not encrypted with her key!"
#
# # Bob does a transfer of ETHToken to Charlie on the mixer
#
# # Bob decrypts one of the note he previously received (useless here but
# # useful if the payment came from someone else)
# recovered_notes_bob = received_notes['bob']
# assert(len(recovered_notes_bob) == 2), \
# f"Bob recovered {len(recovered_notes_bob)} notes from deposit, expected 2"
# input_bob_to_charlie = recovered_notes_bob[0].as_input()
'''
# Execution of the transfer
result_transfer_bob_to_charlie = scenario.bob_to_charlie(
zeth_client,
mk_tree,
input_bob_to_charlie,
bob_eth_address,
keystore)
# Bob tries to spend `input_note_bob_to_charlie` twice
result_double_spending = None
try:
result_double_spending = scenario.bob_to_charlie(
zeth_client,
mk_tree,
input_bob_to_charlie,
bob_eth_address,
keystore)
except Exception as e:
print(f"Bob's double spending successfully rejected! (msg: {e})")
assert(result_double_spending is None), "Bob spent the same note twice!"
print("- Balances after Bob's transfer to Charlie: ")
print_token_balances(
token_instance,
bob_eth_address,
alice_eth_address,
charlie_eth_address,
zeth_client.mixer_instance.address
)
# Charlie tries to decrypt the notes from Bob's previous transaction.
received_notes = _receive_notes(
result_transfer_bob_to_charlie.output_events)
note_descs_charlie = received_notes['charlie']
assert(len(note_descs_charlie) == 1), \
f"Charlie decrypted {len(note_descs_charlie)}. Expected 1!"
_ = scenario.charlie_withdraw(
zeth_client,
mk_tree,
note_descs_charlie[0].as_input(),
charlie_eth_address,
keystore)
print("- Balances after Charlie's withdrawal: ")
print_token_balances(
token_instance,
bob_eth_address,
alice_eth_address,
charlie_eth_address,
zeth_client.mixer_instance.address
)
# Charlie tries to carry out a double spend by withdrawing twice the same
# note
result_double_spending = None
try:
# New commitments are added in the tree at each withdraw so we
# recompute the path to have the updated nodes
result_double_spending = scenario.charlie_double_withdraw(
zeth_client,
mk_tree,
note_descs_charlie[0].as_input(),
charlie_eth_address,
keystore)
except Exception as e:
print(f"Charlie's double spending successfully rejected! (msg: {e})")
print("Balances after Charlie's double withdrawal attempt: ")
assert(result_double_spending is None), \
"Charlie managed to withdraw the same note twice!"
print_token_balances(
token_instance,
bob_eth_address,
alice_eth_address,
charlie_eth_address,
zeth_client.mixer_instance.address)
# Bob deposits once again ETH, split in 2 notes on the mixer
# But Charlie attempts to corrupt the transaction (malleability attack)
# Bob approves the transfer
print("- Bob approves the transfer of ETHToken to the Mixer")
tx_hash = approve(
token_instance,
bob_eth_address,
zeth_client.mixer_instance.address,
scenario.BOB_DEPOSIT_ETH)
eth.waitForTransactionReceipt(tx_hash)
allowance_mixer = allowance(
token_instance,
bob_eth_address,
zeth_client.mixer_instance.address)
print("- The allowance for the Mixer from Bob is:", allowance_mixer)
result_deposit_bob_to_bob = scenario.charlie_corrupt_bob_deposit(
zeth_client,
mk_tree,
bob_eth_address,
charlie_eth_address,
keystore)
# Bob decrypts one of the note he previously received (should fail if
# Charlie's attack succeeded)
received_notes = _receive_notes(
result_deposit_bob_to_bob.output_events)
recovered_notes_bob = received_notes['bob']
assert(len(recovered_notes_bob) == 2), \
f"Bob recovered {len(recovered_notes_bob)} notes from deposit, expected 2"
print("- Balances after Bob's last deposit: ")
print_token_balances(
token_instance,
bob_eth_address,
alice_eth_address,
charlie_eth_address,
zeth_client.mixer_instance.address)
'''
print("========================================\n" +
" TESTS PASSED\n" +
"========================================\n")