def __handleDeposit(self, protocol, msgObj):
account = self.__getCurrentAccount()
bps = []
bpData = msgObj.bpData
# debugPrint(bpData[:15], "...", bpData[-15:], len(bpData), type(bpData))
while bpData:
newBitPoint, offset = BitPoint.deserialize(bpData)
bpData = bpData[offset:]
bps.append(newBitPoint)
result = self.__bank.depositCash(account, bps)
if not result.succeeded():
self.__logSecure("Deposit failed, %s" % result.msg())
response = self.__createResponse(msgObj, RequestFailure)
response.RequestId = msgObj.RequestId
response.ErrorMessage = result.msg()
else:
result = self.__bank.generateReceipt(account)
if not result.succeeded():
self.__logSecure("Could not generate receipt? %s" %
result.msg())
response = self.__createResponse(msgObj, RequestFailure)
response.RequestId = msgObj.RequestId
response.ErrorMessage = result.msg()
else:
self.__logSecure("Deposit complete. Sending Signed Receipt")
receipt, signature = result.value()
response = self.__createResponse(msgObj, Receipt)
response.RequestId = msgObj.RequestId
response.Receipt = receipt
response.ReceiptSignature = signature
self.sendPacket(response)
def mintBitPoints(self, count, depositor):
newSerialNumbers = self.__getNewSerialNumbers(count)
bitPoints = []
for i in range(count):
bitPoint = BitPoint.mintNew(issuer=self.ISSUER,
serialNumber="%020d" %
newSerialNumbers[i],
timestamp=time.ctime())
bitPointBin = bitPoint.mainDataBlob()
bitPoint.setSignature(self.__signaturePad.sign(bitPointBin))
bitPoints.append(bitPoint)
depositor(bitPoints)
def main(BankCoreModule, args):
#sys.path.append("../..")
from playground.crypto import X509Certificate
from getpass import getpass
from Crypto.PublicKey import RSA
from Exchange import BitPoint
if args[0] == "create":
cert, key, path = args[1:4]
with open(cert) as f:
cert = X509Certificate.loadPEM(f.read())
with open(key) as f:
key = RSA.importKey(f.read())
passwd = getpass()
BankCoreModule.Ledger.InitializeDb(path, cert, key, passwd)
elif args[0] == "vault_deposit":
cert, path, bpFile = args[1:4]
with open(cert) as f:
cert = X509Certificate.loadPEM(f.read())
passwd = getpass()
bank = BankCoreModule.Ledger(path, cert, passwd)
with open(bpFile) as f:
bpData = f.read()
bps = []
while bpData:
newBitPoint, offset = BitPoint.deserialize(bpData)
bpData = bpData[offset:]
bps.append(newBitPoint)
print "depositing", len(bps), "bit points"
result = bank.depositCash("VAULT", bps)
if not result.succeeded():
print "Deposit failed", result.msg()
else:
print "Vault balance", bank.getBalance("VAULT")
elif args[0] == "balances":
cert, path = args[1:3]
with open(cert) as f:
cert = X509Certificate.loadPEM(f.read())
passwd = getpass()
bank = BankCoreModule.Ledger(path, cert, passwd)
for account in bank.getAccounts():
print "%s balance" % account, bank.getBalance(account)
elif args[0] == "create_account":
accountName, cert, path = args[1:4]
with open(cert) as f:
cert = X509Certificate.loadPEM(f.read())
passwd = getpass()
bank = BankCoreModule.Ledger(path, cert, passwd)
bank.createAccount(accountName)
elif args[0] == "transfer":
fromAccount, toAccount, amount, cert, path = args[1:6]
with open(cert) as f:
cert = X509Certificate.loadPEM(f.read())
passwd = getpass()
bank = BankCoreModule.Ledger(path, cert, passwd)
amount = int(amount)
result = bank.transfer(fromAccount, toAccount, amount)
if not result.succeeded():
print "Failed: ", result.msg()
for account in [fromAccount, toAccount]:
print "%s balance" % account, bank.getBalance(account)
elif args[0] == "correct":
cert, path = args[1:3]
with open(cert) as f:
cert = X509Certificate.loadPEM(f.read())
passwd = getpass()
bank = BankCoreModule.Ledger(path, cert, passwd)
for account in bank.getAccounts():
if account == "VAULT": continue
bank.transfer("VAULT", account, 100)
elif args[0] == "display_receipt":
receiptFile, sigFile, cert = args[1:4]
with open(receiptFile) as f:
receiptData = f.read()
with open(sigFile) as f:
sigData = f.read()
with open(cert) as f:
certData = f.read()
cert = X509Certificate.loadPEM(certData)
pubKey = RSA.importKey(cert.getPublicKeyBlob())
verifier = PKCS1_v1_5.new(pubKey)
receipt = pickle.loads(receiptData)
print "Receipt:", receipt.toHumanReadableString()
if verifier.verify(SHA.new(receiptData), sigData):
print "Receipt is signed by the bank."
else:
print "Receipt is forged"
def deserialize(cls, s):
return BitPoint.deserialize(s)[0]
def main(args):
if args[0] == "create":
cert, key, filename = args[1:4]
with open(cert) as f:
cert = X509Certificate.loadPEM(f.read())
with open(key) as f:
key = RSA.importKey(f.read())
passwd = getpass.getpass("Create mint password: "******"Re-enter mint password: "******"Passwords do not match")
PrintingPress.CreateBankVault(filename, cert, key, passwd)
elif args[0] == "mint":
if len(args) == 1 or args[1].lower() in ["--help", "-h", "help"]:
sys.exit("mint <amount> <cert> <filename> [<output_dir>]\n" +
" amount can be of the form <amount>:<denomination>")
amount, cert, filename = args[1:4]
if len(args) > 4:
outputDir = args[4]
else:
outputDir = None
with open(cert) as f:
cert = X509Certificate.loadPEM(f.read())
if ":" in amount:
amount, denominations = amount.split(":")
else:
denominations = amount
amount = int(amount)
denominations = int(denominations)
passwd = getpass.getpass("Mint password: "******"Minting %d of %d bitpoints" % (
(total + denominations), amount)
mint.mintBitPoints(denominations, serializer)
total += denominations
elif args[0] == "info":
filename = args[1]
if len(args) > 2:
sampleSize = args[2]
else:
sampleSize = None
bitpoints = []
with open(filename, "rb") as f:
bitpoints = BitPoint.deserializeAll(f)
print "Deserialized", len(bitpoints), "bitpoints"
if sampleSize == None:
sample = []
elif sampleSize.lower() == "all":
sample = bitpoints
else:
start, stop = sampleSize.split(":")
start = int(start.strip())
stop = int(stop.strip())
sample = bitpoints[start:stop]
for bp in sample:
print bp
elif args[0] == "validate":
filename, issuingCert = args[1:3]
bitpoints = []
with open(filename, "rb") as f:
bitpoints = BitPoint.deserializeAll(f)
with open(issuingCert) as f:
cert = X509Certificate.loadPEM(f.read())
verifier = BitPointVerifier(cert)
for bp in bitpoints:
isValid, reason = verifier.verify(bp)
if isValid:
print bp.serialNumber(), "is valid"
else:
print bp.serialNumber(), "is NOT valid:", reason
def full_test(args):
# args = ["full_test",
# "./certs/signed_certs/5001cert",
# "./certs/signed_certs/5001pk",
# "bitpoints.10.Thu_Oct_19_19_17_39_2017",
# "./certs/signed_certs/6001cert"
# ]
from getpass import getpass
certPath, keyFile, bpsFile, fakeCertPath = args[1:5]
cert = loadCertFromFile(certPath)
key = loadPrivateKeyFromPemFile(keyFile)
fakeCert = loadCertFromFile(fakeCertPath)
with open(bpsFile, "rb") as f:
bps = BitPoint.deserializeAll(f)
passwd = getpass()
fakePass = "******"
accountPEM = "Fady'sPEM"
path = os.path.dirname("./test_bankcore_db/")
# Overwrite directory if it already exists
if os.path.exists(path):
print("Previous test db found. Deleting and recreating folder")
from shutil import rmtree
rmtree(path)
os.makedirs(path)
# create a db with a wrong key/cert combination
try:
Ledger.InitializeDb(path, fakeCert, key, passwd)
except Exception as e:
print("Wrong combination of cert and key caught correctly! (%s)" % e)
# Create a db
Ledger.InitializeDb(path, cert, key, passwd)
# Attempt to load bank with wrong password
try:
Ledger(path, cert, fakePass)
except ValueError as e:
print("Wrong password for this bank caught correctly! (%s)" % e)
# Attempt to load bank with wrong cert
try:
Ledger(path, fakeCert, passwd)
except Exception as e:
print("Wrong certificate for this bank caught correctly! (%s)" % e)
# Correctly load bank
bank = Ledger(path, cert, passwd)
# Check initial accounts are there
assert (set(bank.getAccounts()) == set(Ledger.INITIAL_ACCOUNTS))
# Add an account (SHOULD BE Public Key PEM BYTES)
result = bank.createAccount(accountPEM)
assert (isinstance(result, LedgerOperationSuccess))
# Check the new account is there
assert (accountPEM in bank.getAccounts())
# Try to create a new account with the same PEM
# (returns a LedgerOperationFailure object)
result = bank.createAccount(accountPEM)
assert (isinstance(result, LedgerOperationFailure))
# Try to transfer money INTO non-existent account
result = bank.transfer("VAULT", "Non-existentPEM", 1)
assert (isinstance(result, LedgerOperationFailure))
# Try to transfer money FROM non-existent account
result = bank.transfer("Non-existentPEM", "VAULT", 2)
assert (isinstance(result, LedgerOperationFailure))
# All accounts should still be 0
for account in bank.getAccounts():
assert (bank.getBalance(account) == 0)
# Transfer to and from valid accounts
result = bank.transfer("VAULT", accountPEM, 3)
assert (isinstance(result, LedgerOperationSuccess))
assert (bank.getBalance(accountPEM) == 3)
assert (bank.getBalance("VAULT") == -3)
# Reload bank from file and check it correctly saved all changes
bank = Ledger(path, cert, passwd)
assert (set(bank.getAccounts()) == set(Ledger.INITIAL_ACCOUNTS +
[accountPEM]))
assert (bank.getBalance(accountPEM) == 3)
assert (bank.getBalance("VAULT") == -3)
# Transfer to and from valid accounts
result = bank.transfer("VAULT", accountPEM, 5)
assert (isinstance(result, LedgerOperationSuccess))
# Register a mint cert (in this case we'll just use the same one...)
result = bank.registerMintCert(certPath)
assert (isinstance(result, LedgerOperationSuccess))
# With that cert, we can deposit some BitPoints minted by that cert
result = bank.depositCash("VAULT", bps)
assert (isinstance(result, LedgerOperationSuccess))
# Withdraw BitPoints
result = bank.withdrawCash(accountPEM, 2)
assert (isinstance(result, LedgerOperationSuccess))
# Create a receipt
result = bank.generateReceipt(accountPEM, 0)
assert (isinstance(result, LedgerOperationSuccess))
receiptData, signatureData = result.value()[0], result.value()[1]
receipt = pickle.loads(receiptData)
print("Receipt:", receipt.toHumanReadableString())
# Verify the receipt
verifier = RSA_SIGNATURE_MAC(cert.public_key())
try:
verifier.verify(signatureData, SHA(receiptData).digest())
print("Receipt is signed by the bank.")
except AssertionError:
print("Receipt is forged")
# Try to withdraw more BitPoints than the bank has
result = bank.withdrawCash("VAULT", 9999999999)
try:
assert (isinstance(result, LedgerOperationSuccess))
raise (Exception("Over-withdrawal not caught!!!"))
except AssertionError as e:
print("Over-withdrawal caught correctly! (%s)" % result.msg())
# Test LedgerLineSearch
filter = lambda ledgerLine: ledgerLine.partOfTransaction("CIRCULATION")
matches = bank.searchLedger(filter)
assert (set(matches) == {2, 3})
# Test getLedgerLine
ledgerLine = bank.getLedgerLine(1)
assert (ledgerLine.getTransactionAmount("VAULT") == -5)
assert (ledgerLine.getTransactionAmount(accountPEM) == 5)
# Debug output
print("\nDebug:\n---------\n")
filter = lambda ledgerLine: True
allLines = bank.searchLedger(filter)
for line in allLines:
print("Ledger line ", line, ":\n",
bank.getLedgerLine(line).toHumanReadableString())
print()
print("Full test completed successfully!")
# In case we're in the REPL and want to keep playing
return bank
def main(BankCoreModule, args):
#sys.path.append("../..")
from getpass import getpass
from Exchange import BitPoint
if args[0] == "create":
cert, key, path = args[1:4]
cert = loadCertFromFile(cert)
key = loadPrivateKeyFromPemFile(key)
passwd = getpass()
BankCoreModule.Ledger.InitializeDb(path, cert, key, passwd)
elif args[0] == "vault_deposit":
cert, path, bpFile = args[1:4]
cert = loadCertFromFile(cert)
passwd = getpass()
bank = BankCoreModule.Ledger(path, cert, passwd)
with open(bpFile, "rb") as f:
bps = BitPoint.deserializeAll(f)
print("depositing", len(bps), "bit points")
result = bank.depositCash("VAULT", bps)
if not result.succeeded():
print("Deposit failed", result.msg())
else:
print("Vault balance", bank.getBalance("VAULT"))
elif args[0] == "balances":
cert, path = args[1:3]
cert = loadCertFromFile(cert)
passwd = getpass()
bank = BankCoreModule.Ledger(path, cert, passwd)
for account in bank.getAccounts():
print("%s balance" % account, bank.getBalance(account))
elif args[0] == "register_mint":
bankcertpath, path, mintcertpath = args[1:4]
passwd = getpass()
bankcert = loadCertFromFile(bankcertpath)
bank = Ledger(path, bankcert, passwd)
result = bank.registerMintCert(mintcertpath)
if not isinstance(result, LedgerOperationSuccess):
print("Could not load certificate", result.msg())
else:
print("Mint cert registration successful?")
elif args[0] == "create_account":
accountName, cert, path = args[1:4]
cert = loadCertFromFile(cert)
passwd = getpass()
bank = BankCoreModule.Ledger(path, cert, passwd)
bank.createAccount(accountName)
elif args[0] == "transfer":
fromAccount, toAccount, amount, cert, path = args[1:6]
cert = loadCertFromFile(cert)
passwd = getpass()
bank = BankCoreModule.Ledger(path, cert, passwd)
amount = int(amount)
result = bank.transfer(fromAccount, toAccount, amount)
if not result.succeeded():
print("Failed: ", result.msg())
for account in [fromAccount, toAccount]:
print("%s balance" % account, bank.getBalance(account))
elif args[0] == "correct":
cert, path = args[1:3]
cert = loadCertFromFile(cert)
passwd = getpass()
bank = BankCoreModule.Ledger(path, cert, passwd)
for account in bank.getAccounts():
if account == "VAULT": continue
bank.transfer("VAULT", account, 100)
elif args[0] == "display_receipt":
receiptFile, sigFile, cert = args[1:4]
with open(receiptFile) as f:
receiptData = f.read()
with open(sigFile) as f:
sigData = f.read()
cert = loadCertFromFile(cert)
verifier = RSA_SIGNATURE_MAC(cert.public_key())
receipt = pickle.loads(receiptData)
print("Receipt:", receipt.toHumanReadableString())
if verifier.verify(sigData, SHA(receiptData).digest()):
print("Receipt is signed by the bank.")
else:
print("Receipt is forged")
elif args[0] == "test":
full_test(args)
