from Crypto.Random import get_random_bytes from Crypto.Cipher import AES from base64 import b64encode, b64decode from pbincli.utils import PBinCLIException import zlib CIPHER_ITERATION_COUNT = 100000 CIPHER_SALT_BYTES = 8 CIPHER_BLOCK_BITS = 256 CIPHER_BLOCK_BYTES = int(CIPHER_BLOCK_BITS/8) CIPHER_TAG_BITS = int(CIPHER_BLOCK_BITS/2) CIPHER_TAG_BYTES = int(CIPHER_TAG_BITS/8) class Paste: def __init__(self, debug=False): self._version = 2 self._compression = 'zlib' self._data = '' self._text = '' self._attachment = '' self._attachment_name = '' self._key = get_random_bytes(CIPHER_BLOCK_BYTES) self._password = '' self._debug = debug def setVersion(self, version): if self._debug: print("Set paste version to {}".format(version)) self._version = version def setPassword(self, password): self._password = password def setText(self, text): self._text = text def setAttachment(self, path): from pbincli.utils import check_readable, path_leaf from mimetypes import guess_type check_readable(path) with open(path, 'rb') as f: contents = f.read() f.close() mime = guess_type(path, strict=False)[0] # MIME fallback if not mime: mime = 'application/octet-stream' if self._debug: print("Filename:\t{}\nMIME-type:\t{}".format(path_leaf(path), mime)) self._attachment = 'data:' + mime + ';base64,' + b64encode(contents).decode() self._attachment_name = path_leaf(path) def setCompression(self, comp): self._compression = comp def getText(self): return self._text def getAttachment(self): return [b64decode(self._attachment.split(',', 1)[1]), self._attachment_name] \ if self._attachment \ else [False,False] def getJSON(self): if self._version == 2: from pbincli.utils import json_encode return json_encode(self._data).decode() else: return self._data def loadJSON(self, data): self._data = data def getHash(self): if self._version == 2: from base58 import b58encode return b58encode(self._key).decode() else: return b64encode(self._key).decode() def setHash(self, passphrase): if self._version == 2: from base58 import b58decode self._key = b58decode(passphrase) else: self._key = b64decode(passphrase) def __deriveKey(self, salt): from Crypto.Protocol.KDF import PBKDF2 from Crypto.Hash import HMAC, SHA256 # Key derivation, using PBKDF2 and SHA256 HMAC return PBKDF2( self._key + self._password.encode(), salt, dkLen = CIPHER_BLOCK_BYTES, count = CIPHER_ITERATION_COUNT, prf = lambda password, salt: HMAC.new( password, salt, SHA256 ).digest()) @classmethod def __initializeCipher(self, key, iv, adata): from pbincli.utils import json_encode cipher = AES.new(key, AES.MODE_GCM, nonce=iv, mac_len=CIPHER_TAG_BYTES) cipher.update(json_encode(adata)) return cipher def __preparePassKey(self): from hashlib import sha256 if self._password: digest = sha256(self._password.encode("UTF-8")).hexdigest() return b64encode(self._key) + digest.encode("UTF-8") else: return b64encode(self._key) def __decompress(self, s): if self._version == 2 and self._compression == 'zlib': # decompress data return zlib.decompress(s, -zlib.MAX_WBITS) elif self._version == 2 and self._compression == 'none': # nothing to do, just return original data return s elif self._version == 1: return zlib.decompress(bytearray(map(ord, b64decode(s.encode('utf-8')).decode('utf-8'))), -zlib.MAX_WBITS) else: raise PBinCLIException('Unknown compression type provided in paste!') def __compress(self, s): if self._version == 2 and self._compression == 'zlib': # using compressobj as compress doesn't let us specify wbits # needed to get the raw stream without headers co = zlib.compressobj(wbits=-zlib.MAX_WBITS) return co.compress(s) + co.flush() elif self._version == 2 and self._compression == 'none': # nothing to do, just return original data return s elif self._version == 1: co = zlib.compressobj(wbits=-zlib.MAX_WBITS) b = co.compress(s) + co.flush() return b64encode(''.join(map(chr, b)).encode('utf-8')) else: raise PBinCLIException('Unknown compression type provided!') def decrypt(self): from json import loads as json_decode if self._version == 2: iv = b64decode(self._data['adata'][0][0]) salt = b64decode(self._data['adata'][0][1]) key = self.__deriveKey(salt) # Get compression type from received paste self._compression = self._data['adata'][0][7] cipher = self.__initializeCipher(key, iv, self._data['adata']) # Cut the cipher text into message and tag cipher_text_tag = b64decode(self._data['ct']) cipher_text = cipher_text_tag[:-CIPHER_TAG_BYTES] cipher_tag = cipher_text_tag[-CIPHER_TAG_BYTES:] cipher_message = json_decode(self.__decompress(cipher.decrypt_and_verify(cipher_text, cipher_tag)).decode()) self._text = cipher_message['paste'].encode() if 'attachment' in cipher_message and 'attachment_name' in cipher_message: self._attachment = cipher_message['attachment'] self._attachment_name = cipher_message['attachment_name'] else: from sjcl import SJCL password = self.__preparePassKey() cipher_text = json_decode(self._data['data']) if self._debug: print("Text:\t{}\n".format(cipher_text)) text = SJCL().decrypt(cipher_text, password) if len(text): self._text = self.__decompress(text.decode()) if 'attachment' in self._data and 'attachmentname' in self._data: cipherfile = json_decode(self._data['attachment']) cipherfilename = json_decode(self._data['attachmentname']) if self._debug: print("Name:\t{}\nData:\t{}".format(cipherfilename, cipherfile)) attachment = SJCL().decrypt(cipherfile, password) attachmentname = SJCL().decrypt(cipherfilename, password) self._attachment = self.__decompress(attachment.decode('utf-8')).decode('utf-8') self._attachment_name = self.__decompress(attachmentname.decode('utf-8')).decode('utf-8') def encrypt(self, formatter, burnafterreading, discussion, expiration): from pbincli.utils import json_encode if self._version == 2: iv = get_random_bytes(CIPHER_TAG_BYTES) salt = get_random_bytes(CIPHER_SALT_BYTES) key = self.__deriveKey(salt) # prepare encryption authenticated data and message adata = [ [ b64encode(iv).decode(), b64encode(salt).decode(), CIPHER_ITERATION_COUNT, CIPHER_BLOCK_BITS, CIPHER_TAG_BITS, 'aes', 'gcm', self._compression ], formatter, int(burnafterreading), int(discussion) ] cipher_message = {'paste':self._text} if self._attachment: cipher_message['attachment'] = self._attachment cipher_message['attachment_name'] = self._attachment_name cipher = self.__initializeCipher(key, iv, adata) ciphertext, tag = cipher.encrypt_and_digest(self.__compress(json_encode(cipher_message))) self._data = {'v':2,'adata':adata,'ct':b64encode(ciphertext + tag).decode(),'meta':{'expire':expiration}} else: from sjcl import SJCL self._data = {'expire':expiration,'formatter':formatter,'burnafterreading':int(burnafterreading),'opendiscussion':int(discussion)} password = self.__preparePassKey() if self._debug: print("Password:\t{}".format(password)) # Encrypting text cipher = SJCL().encrypt(self.__compress(self._text.encode('utf-8')), password, mode='gcm') for k in ['salt', 'iv', 'ct']: cipher[k] = cipher[k].decode() self._data['data'] = json_encode(cipher) if self._attachment: cipherfile = SJCL().encrypt(self.__compress(self._attachment.encode('utf-8')), password, mode='gcm') for k in ['salt', 'iv', 'ct']: cipherfile[k] = cipherfile[k].decode() cipherfilename = SJCL().encrypt(self.__compress(self._attachment_name.encode('utf-8')), password, mode='gcm') for k in ['salt', 'iv', 'ct']: cipherfilename[k] = cipherfilename[k].decode() self._data['attachment'] = json_encode(cipherfile) self._data['attachmentname'] = json_encode(cipherfilename)