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license.py
163 lines | 5.7 KiB | text/x-python | PythonLexer
# -*- coding: utf-8 -*-
# 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/>.
"""
rhodecode.model.license
~~~~~~~~~~~~~~~~~~~~~~~
Model for licenses
:created_on: Aug 1, 2013
:author: marcink
:copyright: (c) 2013 RhodeCode GmbH.
:license: GPLv3, see LICENSE for more details.
"""
import uuid
import base64
import time
import logging
import traceback
from Crypto import Random
from Crypto.Cipher import AES
import rhodecode
from rhodecode.lib.compat import json
from rhodecode.model import BaseModel
from rhodecode.model.db import RhodeCodeSetting
log = logging.getLogger(__name__)
BLOCK_SIZE = 32
def pad(s):
return (s + (BLOCK_SIZE - len(s) % BLOCK_SIZE) *
chr(BLOCK_SIZE - len(s) % BLOCK_SIZE))
def unpad(s):
return s[0:-ord(s[-1])]
class LicenseModel(BaseModel):
cls = RhodeCodeSetting
def __init__(self, sa=None, key=None):
super(LicenseModel, self).__init__(sa=sa)
if not key:
key = rhodecode.CONFIG.get('license_token')
if not key:
raise TypeError('Missing encryption key: %s' % key)
if not isinstance(key, basestring):
raise TypeError('Encryption key is bad type, got %s '
'expected basestring' % type(key))
#strip dashes
self.key = key.replace('-', '')
@classmethod
def generate_license_token(cls):
tok_len = 4
hex_token = uuid.uuid1().hex
num_pools = [hex_token[start:start+tok_len]
for start in range(0, len(hex_token), tok_len)]
return u'-'.join(num_pools[:4])
@classmethod
def get_default_license(cls):
key = 'abra-cada-bra1-rce3'
enc_license_key = ('''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''')
return json.loads(LicenseModel(key=key).decrypt(enc_license_key))
@classmethod
def get_license_info(cls, license_token, enc_license_key, safe=True,
fill_defaults=False):
license_info = {}
if fill_defaults:
license_info = cls.get_default_license()
try:
if license_token and enc_license_key:
license_info = json.loads(
LicenseModel(key=license_token).decrypt(enc_license_key))
except Exception, e:
log.error(traceback.format_exc())
if not safe:
raise
return license_info
@classmethod
def get_license_key(cls):
defaults = RhodeCodeSetting.get_app_settings()
return defaults.get('rhodecode_license_key')
def encrypt(self, text, key=None):
if not isinstance(text, basestring):
raise TypeError('Encrypt can only work on unicode or '
'string, got %s' % type(text))
if not key:
key = self.key
padded_text = pad(text)
IV = Random.new().read(AES.block_size)
cipher = AES.new(key, AES.MODE_CBC, IV)
return base64.b64encode(IV + cipher.encrypt(padded_text))
def decrypt(self, enc_text, key=None):
if not isinstance(enc_text, (unicode, str)):
raise TypeError('Encrypt can only work on unicode or '
'string, got %s' % type(enc_text))
if not key:
key = self.key
enc = base64.b64decode(enc_text)
iv = enc[:16] # iv is stored
cipher = AES.new(key, AES.MODE_CBC, iv)
return unpad(cipher.decrypt(enc[16:]))
def generate_signature(self, license_key, sig_key):
copy = license_key.copy()
del copy['signature']
return self.encrypt(json.dumps(copy), key=sig_key)
def verify(self, enc_text, sig_key):
if not isinstance(enc_text, basestring):
raise TypeError('Encrypt can only work on unicode or '
'string, got %s' % type(enc_text))
decrypted = json.loads(self.decrypt(enc_text))
try:
signature = json.loads(self.decrypt(decrypted['signature'], sig_key))
except Exception:
signature = '-- decryption error --'
del decrypted['signature']
#TODO: write better diff display
if decrypted != signature:
raise TypeError('Signature mismatch got %s[%s] vs %s[%s]'
% (decrypted, type(decrypted), signature, type(signature)))
return signature