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@ -32,101 +32,122 @@ from ansible import constants as C
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# AES IMPORTS
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try:
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from Crypto.Cipher import AES as AES_
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from Crypto.Cipher import AES as AES
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HAS_AES = True
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except ImportError:
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HAS_AES = False
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HEADER='$ANSIBLE_VAULT'
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CIPHER_WHITELIST=['AES']
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def is_encrypted(filename):
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'''
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Check a file for the encrypted header and return True or False
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The first line should start with the header
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defined by the global HEADER. If true, we
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assume this is a properly encrypted file.
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'''
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# read first line of the file
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with open(filename) as f:
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try:
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head = f.next()
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except StopIteration:
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# empty file, so not encrypted
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class VaultLib(object):
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def __init__(self, password):
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self.password = password
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self.cipher_name = None
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self.version = '1.0'
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def is_encrypted(self, data):
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if data.startswith(HEADER):
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return True
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else:
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return False
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if head.startswith(HEADER):
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return True
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else:
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return False
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def encrypt(self, data):
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def decrypt(filename, password):
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if self.is_encrypted(data):
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raise errors.AnsibleError("data is already encrypted")
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'''
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Return a decrypted string of the contents in an encrypted file
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if 'Vault' + self.cipher_name in globals() and self.cipher_name in CIPHER_WHITELIST:
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cipher = globals()['Vault' + self.cipher_name]
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this_cipher = cipher()
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else:
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raise errors.AnsibleError("%s cipher could not be found" % self.cipher_name)
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# combine sha + data
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this_sha = sha256(data).hexdigest()
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tmp_data = this_sha + "\n" + data
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# encrypt sha + data
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tmp_data = this_cipher.encrypt(tmp_data, self.password)
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# add header
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tmp_data = self._add_headers_and_hexify_encrypted_data(tmp_data)
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return tmp_data
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def decrypt(self, data):
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if self.password is None:
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raise errors.AnsibleError("A vault password must be specified to decrypt data")
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if not self.is_encrypted(data):
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raise errors.AnsibleError("data is not encrypted")
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# clean out header, hex and sha
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data = self._split_headers_and_get_unhexified_data(data)
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# create the cipher object
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if 'Vault' + self.cipher_name in globals() and self.cipher_name in CIPHER_WHITELIST:
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cipher = globals()['Vault' + self.cipher_name]
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this_cipher = cipher()
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else:
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raise errors.AnsibleError("%s cipher could not be found" % self.cipher_name)
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This is used by the yaml loading code in ansible
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to automatically determine the encryption type
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and return a plaintext string of the unencrypted
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data.
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'''
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# try to unencrypt data
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data = this_cipher.decrypt(data, self.password)
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if password is None:
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raise errors.AnsibleError("A vault password must be specified to decrypt %s" % filename)
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# split out sha and verify decryption
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split_data = data.split("\n")
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this_sha = split_data[0]
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this_data = '\n'.join(split_data[1:])
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test_sha = sha256(this_data).hexdigest()
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if this_sha != test_sha:
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raise errors.AnsibleError("Decryption failed")
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V = Vault(filename=filename, vault_password=password)
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return_data = V._decrypt_to_string()
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return this_data
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if not V._verify_decryption(return_data):
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raise errors.AnsibleError("Decryption of %s failed" % filename)
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def _add_headers_and_hexify_encrypted_data(self, data):
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# combine header and hexlified encrypted data in 80 char columns
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this_sha, return_data = V._strip_sha(return_data)
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return return_data.strip()
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tmpdata = hexlify(data)
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tmpdata = [tmpdata[i:i+80] for i in range(0, len(tmpdata), 80)]
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if not self.cipher_name:
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raise errors.AnsibleError("the cipher must be set before adding a header")
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class Vault(object):
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def __init__(self, filename=None, cipher=None, vault_password=None):
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self.filename = filename
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self.vault_password = vault_password
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self.cipher = cipher
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self.version = '1.0'
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dirty_data = HEADER + ";" + str(self.version) + ";" + self.cipher_name + "\n"
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for l in tmpdata:
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dirty_data += l + '\n'
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###############
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# PUBLIC
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###############
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return dirty_data
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def eval_header(self):
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""" Read first line of the file and parse header """
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def _split_headers_and_get_unhexified_data(self, data):
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# used by decrypt
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# read first line
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with open(self.filename) as f:
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#head=[f.next() for x in xrange(1)]
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head = f.next()
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tmpdata = data.split('\n')
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tmpheader = tmpdata[0].strip().split(';')
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this_version = None
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this_cipher = None
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self.version = str(tmpheader[1].strip())
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self.cipher_name = str(tmpheader[2].strip())
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clean_data = ''.join(tmpdata[1:])
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# split segments
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if len(head.split(';')) == 3:
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this_version = head.split(';')[1].strip()
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this_cipher = head.split(';')[2].strip()
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else:
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raise errors.AnsibleError("%s has an invalid header" % self.filename)
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# validate acceptable version
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this_version = float(this_version)
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if this_version < C.VAULT_VERSION_MIN or this_version > C.VAULT_VERSION_MAX:
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raise errors.AnsibleError("%s must have a version between %s and %s " % (self.filename,
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C.VAULT_VERSION_MIN,
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C.VAULT_VERSION_MAX))
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# set properties
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self.cipher = this_cipher
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self.version = this_version
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def create(self):
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# strip out newline, join, unhex
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clean_data = [ x.strip() for x in clean_data ]
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clean_data = unhexlify(''.join(clean_data))
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return clean_data
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class VaultEditor(object):
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# uses helper methods for write_file(self, filename, data)
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# to write a file so that code isn't duplicated for simple
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# file I/O, ditto read_file(self, filename) and launch_editor(self, filename)
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# ... "Don't Repeat Yourself", etc.
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def __init__(self, cipher_name, password, filename):
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# instantiates a member variable for VaultLib
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self.cipher_name = cipher_name
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self.password = password
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self.filename = filename
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def create_file(self):
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""" create a new encrypted file """
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if os.path.isfile(self.filename):
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@ -135,250 +156,100 @@ class Vault(object):
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# drop the user into vim on file
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EDITOR = os.environ.get('EDITOR','vim')
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call([EDITOR, self.filename])
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self.encrypt()
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def decrypt(self):
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""" unencrypt a file inplace """
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if not is_encrypted(self.filename):
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raise errors.AnsibleError("%s is not encrypted" % self.filename)
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# set cipher based on file header
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self.eval_header()
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# decrypt it
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data = self._decrypt_to_string()
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# verify sha and then strip it out
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if not self._verify_decryption(data):
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raise errors.AnsibleError("decryption of %s failed" % self.filename)
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this_sha, clean_data = self._strip_sha(data)
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tmpdata = self.read_data(self.filename)
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this_vault = VaultLib(self.password)
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this_vault.cipher_name = self.cipher_name
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enc_data = this_vault.encrypt(tmpdata)
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self.write_data(enc_data, self.filename)
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def decrypt_file(self):
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if not os.path.isfile(self.filename):
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raise errors.AnsibleError("%s does not exist" % self.filename)
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# write back to original file
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f = open(self.filename, "wb")
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f.write(clean_data)
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f.close()
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def edit(self, filename=None, password=None, cipher=None, version=None):
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if not is_encrypted(self.filename):
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tmpdata = self.read_data(self.filename)
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this_vault = VaultLib(self.password)
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if this_vault.is_encrypted(tmpdata):
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dec_data = this_vault.decrypt(tmpdata)
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self.write_data(dec_data, self.filename)
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else:
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raise errors.AnsibleError("%s is not encrypted" % self.filename)
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#decrypt to string
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data = self._decrypt_to_string()
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def edit_file(self):
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# verify sha and then strip it out
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if not self._verify_decryption(data):
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raise errors.AnsibleError("decryption of %s failed" % self.filename)
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this_sha, clean_data = self._strip_sha(data)
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# decrypt to tmpfile
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tmpdata = self.read_data(self.filename)
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this_vault = VaultLib(self.password)
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dec_data = this_vault.decrypt(tmpdata)
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_, tmp_path = tempfile.mkstemp()
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self.write_data(dec_data, tmp_path)
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# rewrite file without sha
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_, in_path = tempfile.mkstemp()
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f = open(in_path, "wb")
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tmpdata = f.write(clean_data)
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f.close()
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# drop the user into vim on the unencrypted tmp file
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# drop the user into vim on the tmp file
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EDITOR = os.environ.get('EDITOR','vim')
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call([EDITOR, in_path])
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f = open(in_path, "rb")
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tmpdata = f.read()
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f.close()
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self._string_to_encrypted_file(tmpdata, self.filename)
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def encrypt(self):
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""" encrypt a file inplace """
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if is_encrypted(self.filename):
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raise errors.AnsibleError("%s is already encrypted" % self.filename)
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#self.eval_header()
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self.__load_cipher()
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# read data
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f = open(self.filename, "rb")
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tmpdata = f.read()
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f.close()
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self._string_to_encrypted_file(tmpdata, self.filename)
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def rekey(self, newpassword):
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""" unencrypt file then encrypt with new password """
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if not is_encrypted(self.filename):
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raise errors.AnsibleError("%s is not encrypted" % self.filename)
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# unencrypt to string with old password
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data = self._decrypt_to_string()
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# verify sha and then strip it out
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if not self._verify_decryption(data):
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raise errors.AnsibleError("decryption of %s failed" % self.filename)
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this_sha, clean_data = self._strip_sha(data)
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# set password
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self.vault_password = newpassword
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self._string_to_encrypted_file(clean_data, self.filename)
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call([EDITOR, tmp_path])
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new_data = self.read_data(tmp_path)
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# create new vault and set cipher to old
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new_vault = VaultLib(self.password)
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new_vault.cipher_name = this_vault.cipher_name
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###############
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# PRIVATE
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###############
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# encrypt new data a write out to tmp
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enc_data = new_vault.encrypt(new_data)
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self.write_data(enc_data, tmp_path)
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def __load_cipher(self):
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# shuffle tmp file into place
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self.shuffle_files(tmp_path, self.filename)
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"""
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Load a cipher class by it's name
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This is a lightweight "plugin" implementation to allow
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for future support of other cipher types
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"""
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whitelist = ['AES']
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if self.cipher in whitelist:
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self.cipher_obj = None
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if self.cipher in globals():
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this_cipher = globals()[self.cipher]
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self.cipher_obj = this_cipher()
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else:
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raise errors.AnsibleError("%s cipher could not be loaded" % self.cipher)
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def encrypt_file(self):
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if not os.path.isfile(self.filename):
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raise errors.AnsibleError("%s does not exist" % self.filename)
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tmpdata = self.read_data(self.filename)
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this_vault = VaultLib(self.password)
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this_vault.cipher_name = self.cipher_name
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if not this_vault.is_encrypted(tmpdata):
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enc_data = this_vault.encrypt(tmpdata)
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self.write_data(enc_data, self.filename)
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else:
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raise errors.AnsibleError("%s is not an allowed encryption cipher" % self.cipher)
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def _decrypt_to_string(self):
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""" decrypt file to string """
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if not is_encrypted(self.filename):
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raise errors.AnsibleError("%s is not encrypted" % self.filename)
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# figure out what this is
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self.eval_header()
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self.__load_cipher()
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# strip out header and unhex the file
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clean_stream = self._dirty_file_to_clean_file(self.filename)
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# reset pointer
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clean_stream.seek(0)
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# create a byte stream to hold unencrypted
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dst = BytesIO()
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# decrypt from src stream to dst stream
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self.cipher_obj.decrypt(clean_stream, dst, self.vault_password)
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# read data from the unencrypted stream
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data = dst.read()
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return data
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raise errors.AnsibleError("%s is already encrypted" % self.filename)
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def _dirty_file_to_clean_file(self, dirty_filename):
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""" Strip out headers from a file, unhex and write to new file"""
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def rekey_file(self, new_password):
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# decrypt
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tmpdata = self.read_data(self.filename)
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this_vault = VaultLib(self.password)
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dec_data = this_vault.decrypt(tmpdata)
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# create new vault, set cipher to old and password to new
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new_vault = VaultLib(new_password)
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new_vault.cipher_name = this_vault.cipher_name
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_, in_path = tempfile.mkstemp()
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#_, out_path = tempfile.mkstemp()
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# re-encrypt data and re-write file
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enc_data = new_vault.encrypt(dec_data)
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self.write_data(enc_data, self.filename)
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# strip header from data, write rest to tmp file
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f = open(dirty_filename, "rb")
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tmpdata = f.readlines()
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def read_data(self, filename):
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f = open(filename, "rb")
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tmpdata = f.read()
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f.close()
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return tmpdata
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tmpheader = tmpdata[0].strip()
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tmpdata = ''.join(tmpdata[1:])
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# strip out newline, join, unhex
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tmpdata = [ x.strip() for x in tmpdata ]
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tmpdata = unhexlify(''.join(tmpdata))
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# create and return stream
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clean_stream = BytesIO(tmpdata)
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return clean_stream
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def _clean_stream_to_dirty_stream(self, clean_stream):
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# combine header and hexlified encrypted data in 80 char columns
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clean_stream.seek(0)
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tmpdata = clean_stream.read()
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tmpdata = hexlify(tmpdata)
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tmpdata = [tmpdata[i:i+80] for i in range(0, len(tmpdata), 80)]
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dirty_data = HEADER + ";" + str(self.version) + ";" + self.cipher + "\n"
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for l in tmpdata:
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dirty_data += l + '\n'
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dirty_stream = BytesIO(dirty_data)
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return dirty_stream
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def _string_to_encrypted_file(self, tmpdata, filename):
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""" Write a string of data to a file with the format ...
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HEADER;VERSION;CIPHER
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HEX(ENCRYPTED(SHA256(STRING)+STRING))
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"""
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# sha256 the data
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this_sha = sha256(tmpdata).hexdigest()
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# combine sha + data to tmpfile
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tmpdata = this_sha + "\n" + tmpdata
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src_stream = BytesIO(tmpdata)
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dst_stream = BytesIO()
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# encrypt tmpfile
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self.cipher_obj.encrypt(src_stream, dst_stream, self.password)
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# hexlify tmpfile and combine with header
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dirty_stream = self._clean_stream_to_dirty_stream(dst_stream)
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if os.path.isfile(filename):
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def write_data(self, data, filename):
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if os.path.isfile(filename):
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os.remove(filename)
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# write back to original file
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dirty_stream.seek(0)
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f = open(filename, "wb")
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f.write(dirty_stream.read())
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f.write(data)
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f.close()
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def shuffle_files(self, src, dest):
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# overwrite dest with src
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if os.path.isfile(dest):
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os.remove(dest)
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shutil.move(src, dest)
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def _verify_decryption(self, data):
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""" Split data to sha/data and check the sha """
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# split the sha and other data
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this_sha, clean_data = self._strip_sha(data)
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# does the decrypted data match the sha ?
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clean_sha = sha256(clean_data).hexdigest()
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# compare, return result
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if this_sha == clean_sha:
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return True
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else:
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return False
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def _strip_sha(self, data):
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# is the first line a sha?
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lines = data.split("\n")
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this_sha = lines[0]
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clean_data = '\n'.join(lines[1:])
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return this_sha, clean_data
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########################################
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# CIPHERS #
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########################################
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class AES(object):
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class VaultAES(object):
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# http://stackoverflow.com/a/16761459
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@ -400,18 +271,22 @@ class AES(object):
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return key, iv
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def encrypt(self, in_file, out_file, password, key_length=32):
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def encrypt(self, data, password, key_length=32):
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""" Read plaintext data from in_file and write encrypted to out_file """
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bs = AES_.block_size
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in_file = BytesIO(data)
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in_file.seek(0)
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out_file = BytesIO()
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bs = AES.block_size
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# Get a block of random data. EL does not have Crypto.Random.new()
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# so os.urandom is used for cross platform purposes
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salt = os.urandom(bs - len('Salted__'))
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key, iv = self.aes_derive_key_and_iv(password, salt, key_length, bs)
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cipher = AES_.new(key, AES_.MODE_CBC, iv)
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cipher = AES.new(key, AES.MODE_CBC, iv)
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out_file.write('Salted__' + salt)
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finished = False
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while not finished:
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@ -422,16 +297,23 @@ class AES(object):
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finished = True
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out_file.write(cipher.encrypt(chunk))
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def decrypt(self, in_file, out_file, password, key_length=32):
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out_file.seek(0)
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return out_file.read()
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def decrypt(self, data, password, key_length=32):
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""" Read encrypted data from in_file and write decrypted to out_file """
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# http://stackoverflow.com/a/14989032
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bs = AES_.block_size
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in_file = BytesIO(data)
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in_file.seek(0)
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out_file = BytesIO()
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bs = AES.block_size
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salt = in_file.read(bs)[len('Salted__'):]
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key, iv = self.aes_derive_key_and_iv(password, salt, key_length, bs)
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cipher = AES_.new(key, AES_.MODE_CBC, iv)
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cipher = AES.new(key, AES.MODE_CBC, iv)
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next_chunk = ''
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finished = False
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@ -444,5 +326,7 @@ class AES(object):
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out_file.write(chunk)
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# reset the stream pointer to the beginning
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if hasattr(out_file, 'seek'):
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out_file.seek(0)
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out_file.seek(0)
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return out_file.read()
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