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#!/usr/bin/env python
#
# Electrum - lightweight Bitcoin client
# Copyright (C) 2014 Thomas Voegtlin
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import hashlib
import os.path
import re
import sys
import threading
import time
import traceback
import urlparse
import json
import requests
try:
import paymentrequest_pb2 as pb2
except ImportError:
sys.exit("Error: could not find paymentrequest_pb2.py. Create it with 'protoc --proto_path=lib/ --python_out=lib/ lib/paymentrequest.proto'")
import bitcoin
import util
from util import print_error
import transaction
import x509
import rsakey
REQUEST_HEADERS = {'Accept': 'application/bitcoin-paymentrequest', 'User-Agent': 'Electrum'}
ACK_HEADERS = {'Content-Type':'application/bitcoin-payment','Accept':'application/bitcoin-paymentack','User-Agent':'Electrum'}
ca_path = requests.certs.where()
ca_list, ca_keyID = x509.load_certificates(ca_path)
# status of payment requests
PR_UNPAID = 0
PR_EXPIRED = 1
PR_UNKNOWN = 2 # sent but not propagated
PR_PAID = 3 # send and propagated
PR_ERROR = 4 # could not parse
def get_payment_request(url):
u = urlparse.urlparse(url)
if u.scheme in ['http', 'https']:
response = requests.request('GET', url, headers=REQUEST_HEADERS)
data = response.content
print_error('fetched payment request', url, len(data))
elif u.scheme == 'file':
with open(u.path, 'r') as f:
data = f.read()
else:
raise BaseException("unknown scheme", url)
pr = PaymentRequest(data)
return pr
class PaymentRequest:
def __init__(self, data):
self.raw = data
self.parse(data)
self.requestor = None # known after verify
self.tx = None
def __str__(self):
return self.raw
def parse(self, r):
self.id = bitcoin.sha256(r)[0:16].encode('hex')
try:
self.data = pb2.PaymentRequest()
self.data.ParseFromString(r)
except:
self.error = "cannot parse payment request"
return
self.details = pb2.PaymentDetails()
self.details.ParseFromString(self.data.serialized_payment_details)
self.outputs = []
for o in self.details.outputs:
addr = transaction.get_address_from_output_script(o.script)[1]
self.outputs.append(('address', addr, o.amount))
self.memo = self.details.memo
self.payment_url = self.details.payment_url
def verify(self, contacts):
if not self.raw:
self.error = "Empty request"
return
pr = pb2.PaymentRequest()
pr.ParseFromString(self.raw)
if not pr.signature:
self.error = "No signature"
return
if pr.pki_type in ["x509+sha256", "x509+sha1"]:
return self.verify_x509(pr)
elif pr.pki_type in ["dnssec+btc", "dnssec+ecdsa"]:
return self.verify_dnssec(pr, contacts)
else:
self.error = "ERROR: Unsupported PKI Type for Message Signature"
return False
def verify_x509(self, paymntreq):
if not ca_list:
self.error = "Trusted certificate authorities list not found"
return False
cert = pb2.X509Certificates()
cert.ParseFromString(paymntreq.pki_data)
# verify the chain of certificates
try:
x, ca = verify_cert_chain(cert.certificate)
except BaseException as e:
self.error = str(e)
return False
# get requestor name
self.requestor = x.get_common_name()
if self.requestor.startswith('*.'):
self.requestor = self.requestor[2:]
# verify the BIP70 signature
pubkey0 = rsakey.RSAKey(x.modulus, x.exponent)
sig = paymntreq.signature
paymntreq.signature = ''
s = paymntreq.SerializeToString()
sigBytes = bytearray(sig)
msgBytes = bytearray(s)
if paymntreq.pki_type == "x509+sha256":
hashBytes = bytearray(hashlib.sha256(msgBytes).digest())
verify = pubkey0.verify(sigBytes, x509.PREFIX_RSA_SHA256 + hashBytes)
elif paymntreq.pki_type == "x509+sha1":
verify = pubkey0.hashAndVerify(sigBytes, msgBytes)
if not verify:
self.error = "ERROR: Invalid Signature for Payment Request Data"
return False
### SIG Verified
self.error = 'Signed by Trusted CA: ' + ca.get_common_name()
return True
def verify_dnssec(self, pr, contacts):
sig = pr.signature
alias = pr.pki_data
info = contacts.resolve(alias)
if info.get('validated') is not True:
self.error = "Alias verification failed (DNSSEC)"
return False
if pr.pki_type == "dnssec+btc":
self.requestor = alias
address = info.get('address')
pr.signature = ''
message = pr.SerializeToString()
if bitcoin.verify_message(address, sig, message):
self.error = 'Verified with DNSSEC'
return True
else:
self.error = "verify failed"
return False
else:
self.error = "unknown algo"
return False
def has_expired(self):
return self.details.expires and self.details.expires < int(time.time())
def get_expiration_date(self):
return self.details.expires
def get_amount(self):
return sum(map(lambda x:x[2], self.outputs))
def get_requestor(self):
return self.requestor if self.requestor else 'unknown'
def get_verify_status(self):
return self.error
def get_memo(self):
return self.memo
def get_id(self):
return self.id
def get_outputs(self):
return self.outputs[:]
def send_ack(self, raw_tx, refund_addr):
pay_det = self.details
if not self.details.payment_url:
return False, "no url"
paymnt = pb2.Payment()
paymnt.merchant_data = pay_det.merchant_data
paymnt.transactions.append(raw_tx)
ref_out = paymnt.refund_to.add()
ref_out.script = transaction.Transaction.pay_script('address', refund_addr)
paymnt.memo = "Paid using Electrum"
pm = paymnt.SerializeToString()
payurl = urlparse.urlparse(pay_det.payment_url)
try:
r = requests.post(payurl.geturl(), data=pm, headers=ACK_HEADERS, verify=ca_path)
except requests.exceptions.SSLError:
print "Payment Message/PaymentACK verify Failed"
try:
r = requests.post(payurl.geturl(), data=pm, headers=ACK_HEADERS, verify=False)
except Exception as e:
print e
return False, "Payment Message/PaymentACK Failed"
if r.status_code >= 500:
return False, r.reason
try:
paymntack = pb2.PaymentACK()
paymntack.ParseFromString(r.content)
except Exception:
return False, "PaymentACK could not be processed. Payment was sent; please manually verify that payment was received."
print "PaymentACK message received: %s" % paymntack.memo
return True, paymntack.memo
def make_unsigned_request(req):
from transaction import Transaction
addr = req['address']
time = req.get('time', 0)
exp = req.get('exp', 0)
if time and type(time) != int:
time = 0
if exp and type(exp) != int:
exp = 0
amount = req['amount']
if amount is None:
amount = 0
memo = req['memo']
script = Transaction.pay_script('address', addr).decode('hex')
outputs = [(script, amount)]
pd = pb2.PaymentDetails()
for script, amount in outputs:
pd.outputs.add(amount=amount, script=script)
pd.time = time
pd.expires = time + exp if exp else 0
pd.memo = memo
pr = pb2.PaymentRequest()
pr.serialized_payment_details = pd.SerializeToString()
pr.signature = ''
return pr
def sign_request_with_alias(pr, alias, alias_privkey):
pr.pki_type = 'dnssec+btc'
pr.pki_data = str(alias)
message = pr.SerializeToString()
ec_key = bitcoin.regenerate_key(alias_privkey)
address = bitcoin.address_from_private_key(alias_privkey)
compressed = bitcoin.is_compressed(alias_privkey)
pr.signature = ec_key.sign_message(message, compressed, address)
def verify_cert_chain(chain):
""" Verify a chain of certificates. The last certificate is the CA"""
# parse the chain
cert_num = len(chain)
x509_chain = []
for i in range(cert_num):
x = x509.X509(bytearray(chain[i]))
x509_chain.append(x)
if i == 0:
x.check_date()
else:
if not x.check_ca():
raise BaseException("ERROR: Supplied CA Certificate Error")
if not cert_num > 1:
raise BaseException("ERROR: CA Certificate Chain Not Provided by Payment Processor")
# if the root CA is not supplied, add it to the chain
ca = x509_chain[cert_num-1]
if ca.getFingerprint() not in ca_list:
keyID = ca.get_issuer_keyID()
f = ca_keyID.get(keyID)
if f:
root = ca_list[f]
x509_chain.append(root)
else:
raise BaseException("Supplied CA Not Found in Trusted CA Store.")
# verify the chain of signatures
cert_num = len(x509_chain)
for i in range(1, cert_num):
x = x509_chain[i]
prev_x = x509_chain[i-1]
algo, sig, data = prev_x.get_signature()
sig = bytearray(sig)
pubkey = rsakey.RSAKey(x.modulus, x.exponent)
if algo == x509.ALGO_RSA_SHA1:
verify = pubkey.hashAndVerify(sig, data)
elif algo == x509.ALGO_RSA_SHA256:
hashBytes = bytearray(hashlib.sha256(data).digest())
verify = pubkey.verify(sig, x509.PREFIX_RSA_SHA256 + hashBytes)
elif algo == x509.ALGO_RSA_SHA384:
hashBytes = bytearray(hashlib.sha384(data).digest())
verify = pubkey.verify(sig, x509.PREFIX_RSA_SHA384 + hashBytes)
elif algo == x509.ALGO_RSA_SHA512:
hashBytes = bytearray(hashlib.sha512(data).digest())
verify = pubkey.verify(sig, x509.PREFIX_RSA_SHA512 + hashBytes)
else:
raise BaseException("Algorithm not supported")
util.print_error(self.error, algo.getComponentByName('algorithm'))
if not verify:
raise BaseException("Certificate not Signed by Provided CA Certificate Chain")
return x509_chain[0], ca
def check_ssl_config(config):
import pem
key_path = config.get('ssl_privkey')
cert_path = config.get('ssl_chain')
with open(key_path, 'r') as f:
params = pem.parse_private_key(f.read())
with open(cert_path, 'r') as f:
s = f.read()
bList = pem.dePemList(s, "CERTIFICATE")
# verify chain
x, ca = verify_cert_chain(bList)
# verify that privkey and pubkey match
privkey = rsakey.RSAKey(*params)
pubkey = rsakey.RSAKey(x.modulus, x.exponent)
assert x.modulus == params[0]
assert x.exponent == params[1]
# return requestor
requestor = x.get_common_name()
if requestor.startswith('*.'):
requestor = requestor[2:]
return requestor
def sign_request_with_x509(pr, key_path, cert_path):
import pem
with open(key_path, 'r') as f:
params = pem.parse_private_key(f.read())
privkey = rsakey.RSAKey(*params)
with open(cert_path, 'r') as f:
s = f.read()
bList = pem.dePemList(s, "CERTIFICATE")
certificates = pb2.X509Certificates()
certificates.certificate.extend(map(str, bList))
pr.pki_type = 'x509+sha256'
pr.pki_data = certificates.SerializeToString()
msgBytes = bytearray(pr.SerializeToString())
hashBytes = bytearray(hashlib.sha256(msgBytes).digest())
sig = privkey.sign(x509.PREFIX_RSA_SHA256 + hashBytes)
pr.signature = bytes(sig)
def serialize_request(req):
pr = make_unsigned_request(req)
signature = req.get('sig')
requestor = req.get('name')
if requestor and signature:
pr.signature = signature.decode('hex')
pr.pki_type = 'dnssec+btc'
pr.pki_data = str(requestor)
return pr
def make_request(config, req):
pr = make_unsigned_request(req)
key_path = config.get('ssl_privkey')
cert_path = config.get('ssl_chain')
if key_path and cert_path:
sign_request_with_x509(pr, key_path, cert_path)
return pr
class InvoiceStore(object):
def __init__(self, config):
self.config = config
self.invoices = {}
self.load_invoices()
def load_invoices(self):
path = os.path.join(self.config.path, 'invoices')
try:
with open(path, 'r') as f:
d = json.loads(f.read())
except:
return
for k, v in d.items():
try:
pr = PaymentRequest(v.get('hex').decode('hex'))
pr.tx = v.get('txid')
pr.requestor = v.get('requestor')
self.invoices[k] = pr
except:
continue
def save(self):
l = {}
for k, pr in self.invoices.items():
l[k] = {
'hex': str(pr).encode('hex'),
'requestor': pr.get_requestor(),
'txid': pr.tx
}
path = os.path.join(self.config.path, 'invoices')
with open(path, 'w') as f:
s = json.dumps(l, indent=4, sort_keys=True)
r = f.write(s)
def get_status(self, key):
pr = self.get(key)
if pr.tx is not None:
return PR_PAID
if pr.has_expired():
return PR_EXPIRED
return PR_UNPAID
def add(self, pr):
key = pr.get_id()
if key in self.invoices:
print_error('invoice already in list')
return key
self.invoices[key] = pr
self.save()
return key
def remove(self, key):
self.invoices.pop(key)
self.save()
def get(self, k):
return self.invoices.get(k)
def set_paid(self, key, tx_hash):
self.invoices[key].tx = tx_hash
self.save()
def sorted_list(self):
# sort
return self.invoices.values()