import base64 import math import os import FPE from cryptography.hazmat.primitives import hashes from cryptography.hazmat.backends import default_backend from cryptography.hazmat.primitives import serialization from cryptography.hazmat.primitives.serialization import load_der_public_key from cryptography.hazmat.primitives.serialization import load_der_private_key from cryptography.hazmat.primitives.asymmetric import rsa from cryptography.hazmat.primitives.asymmetric import padding class Identity: # Configure key size KEYSIZE = 1536; DERKEYSIZE = 1808; # Padding size, not configurable PADDINGSIZE= 336; # Storage remembered_destinations = {} def __init__(self): # Initialize keys to none self.prv = None self.pub = None self.prv_bytes = None self.pub_bytes = None self.hash = None self.hexhash = None self.createKeys() @staticmethod def remember(hash, public_key, app_data = None): FPE.log("Remembering "+FPE.hexrep(hash, False), FPE.LOG_VERBOSE) Identity.remembered_destinations[hash] = [public_key, app_data] @staticmethod def recall(identity): pass @staticmethod def fullHash(data): digest = hashes.Hash(hashes.SHA256(), backend=default_backend()) digest.update(data) return digest.finalize() @staticmethod def truncatedHash(data): digest = hashes.Hash(hashes.SHA256(), backend=default_backend()) digest.update(data) return digest.finalize()[:10] @staticmethod def validateAnnounce(packet): if packet.packet_type == FPE.Packet.ANNOUNCE: FPE.log("Validating announce from "+FPE.hexrep(packet.destination_hash), FPE.LOG_VERBOSE) destination_hash = packet.destination_hash public_key = packet.data[10:Identity.DERKEYSIZE/8+10] random_hash = packet.data[Identity.DERKEYSIZE/8+10:Identity.DERKEYSIZE/8+20] signature = packet.data[Identity.DERKEYSIZE/8+20:Identity.DERKEYSIZE/8+20+Identity.KEYSIZE/8] app_data = "" if len(packet.data) > Identity.DERKEYSIZE/8+20+Identity.KEYSIZE/8: app_data = packet.data[Identity.DERKEYSIZE/8+20+Identity.KEYSIZE/8:] signed_data = destination_hash+public_key+random_hash+app_data announced_identity = Identity() announced_identity.loadPublicKey(public_key) if announced_identity.validate(signature, signed_data): FPE.log("Announce is valid", FPE.LOG_VERBOSE) FPE.Identity.remember(destination_hash, public_key) else: FPE.log("Announce is invalid", FPE.LOG_VERBOSE) del announced_identity def createKeys(self): self.prv = rsa.generate_private_key( public_exponent=65337, key_size=Identity.KEYSIZE, backend=default_backend() ) self.prv_bytes = self.prv.private_bytes( encoding=serialization.Encoding.DER, format=serialization.PrivateFormat.PKCS8, encryption_algorithm=serialization.NoEncryption() ) self.pub = self.prv.public_key() self.pub_bytes = self.pub.public_bytes( encoding=serialization.Encoding.DER, format=serialization.PublicFormat.SubjectPublicKeyInfo ) self.hash = Identity.truncatedHash(self.pub_bytes) self.hexhash = self.hash.encode("hex_codec") FPE.log("Identity keys created, private length is "+str(len(self.prv_bytes))+" public length is "+str(len(self.pub_bytes)), FPE.LOG_INFO) def getPrivateKey(self): return self.prv_bytes def getPublicKey(self): return self.pub_bytes def loadPrivateKey(self, key): self.prv_bytes = key self.prv = serialization.load_der_private_key(self.prv_bytes, password=None,backend=default_backend()) self.pub = self.prv.public_key() self.pub_bytes = self.pub.public_bytes( encoding=serialization.Encoding.DER, format=serialization.PublicFormat.SubjectPublicKeyInfo ) def loadPublicKey(self, key): self.pub_bytes = key self.pub = load_der_public_key(self.pub_bytes, backend=default_backend()) def saveIdentity(self): pass def loadIdentity(self): pass def encrypt(self, plaintext): if self.prv != None: chunksize = (Identity.KEYSIZE-Identity.PADDINGSIZE)/8 chunks = int(math.ceil(len(plaintext)/(float(chunksize)))) # TODO: Remove debug output print("Plaintext size is "+str(len(plaintext))+", with "+str(chunks)+" chunks") ciphertext = ""; for chunk in range(chunks): start = chunk*chunksize end = (chunk+1)*chunksize if (chunk+1)*chunksize > len(plaintext): end = len(plaintext) # TODO: Remove debug output print("Processing chunk "+str(chunk+1)+" of "+str(chunks)+". Starting at "+str(start)+" and stopping at "+str(end)+". The length is "+str(len(plaintext[start:end]))) ciphertext += self.pub.encrypt( plaintext[start:end], padding.OAEP( mgf=padding.MGF1(algorithm=hashes.SHA1()), algorithm=hashes.SHA1(), label=None ) ) # TODO: Remove debug output print("Plaintext encrypted, ciphertext length is "+str(len(ciphertext))+" bytes.") return ciphertext else: raise KeyError("Encryption failed because identity does not hold a private key") def decrypt(self, ciphertext): if self.prv != None: # TODO: Remove debug output print("Ciphertext length is "+str(len(ciphertext))+". ") chunksize = (Identity.KEYSIZE)/8 chunks = int(math.ceil(len(ciphertext)/(float(chunksize)))) plaintext = ""; for chunk in range(chunks): start = chunk*chunksize end = (chunk+1)*chunksize if (chunk+1)*chunksize > len(ciphertext): end = len(ciphertext) # TODO: Remove debug output print("Processing chunk "+str(chunk+1)+" of "+str(chunks)+". Starting at "+str(start)+" and stopping at "+str(end)+". The length is "+str(len(ciphertext[start:end]))) plaintext += self.prv.decrypt( ciphertext[start:end], padding.OAEP( mgf=padding.MGF1(algorithm=hashes.SHA1()), algorithm=hashes.SHA1(), label=None ) ) return plaintext; else: raise KeyError("Decryption failed because identity does not hold a private key") def sign(self, message): if self.prv != None: signer = self.prv.signer( padding.PSS( mgf=padding.MGF1(hashes.SHA256()), salt_length=padding.PSS.MAX_LENGTH ), hashes.SHA256() ) signer.update(message) return signer.finalize() else: raise KeyError("Signing failed because identity does not hold a private key") def validate(self, signature, message): if self.pub != None: try: self.pub.verify( signature, message, padding.PSS( mgf=padding.MGF1(hashes.SHA256()), salt_length=padding.PSS.MAX_LENGTH ), hashes.SHA256() ) return True except: return False else: raise KeyError("Signature validation failed because identity does not hold a public key") def getRandomHash(self): return self.truncatedHash(os.urandom(10))