Reticulum/RNS/Destination.py

238 lines
7.0 KiB
Python
Executable File

import base64
import math
import RNS
from cryptography.fernet import Fernet
from cryptography.hazmat.primitives import hashes
from cryptography.hazmat.backends import default_backend
from cryptography.hazmat.primitives import serialization
from cryptography.hazmat.primitives.asymmetric import rsa
from cryptography.hazmat.primitives.asymmetric import padding
class Callbacks:
def __init__(self):
self.link_established = None
self.packet = None
self.proof_requested = None
class Destination:
KEYSIZE = RNS.Identity.KEYSIZE;
PADDINGSIZE= RNS.Identity.PADDINGSIZE;
# Constants
SINGLE = 0x00
GROUP = 0x01
PLAIN = 0x02
LINK = 0x03
types = [SINGLE, GROUP, PLAIN, LINK]
PROVE_NONE = 0x21
PROVE_APP = 0x22
PROVE_ALL = 0x23
proof_strategies = [PROVE_NONE, PROVE_APP, PROVE_ALL]
IN = 0x11;
OUT = 0x12;
directions = [IN, OUT]
@staticmethod
def getDestinationName(app_name, *aspects):
# Check input values and build name string
if "." in app_name: raise ValueError("Dots can't be used in app names")
name = app_name
for aspect in aspects:
if "." in aspect: raise ValueError("Dots can't be used in aspects")
name = name + "." + aspect
return name
@staticmethod
def getDestinationHash(app_name, *aspects):
name = Destination.getDestinationName(app_name, *aspects)
# Create a digest for the destination
digest = hashes.Hash(hashes.SHA256(), backend=default_backend())
digest.update(name.encode("UTF-8"))
return digest.finalize()[:10]
def __init__(self, identity, direction, type, app_name, *aspects):
# Check input values and build name string
if "." in app_name: raise ValueError("Dots can't be used in app names")
if not type in Destination.types: raise ValueError("Unknown destination type")
if not direction in Destination.directions: raise ValueError("Unknown destination direction")
self.callbacks = Callbacks()
self.type = type
self.direction = direction
self.proof_strategy = Destination.PROVE_NONE
self.mtu = 0
self.links = []
if identity != None and type == Destination.SINGLE:
aspects = aspects+(identity.hexhash,)
if identity == None and direction == Destination.IN and self.type != Destination.PLAIN:
identity = RNS.Identity()
aspects = aspects+(identity.hexhash,)
self.identity = identity
self.name = Destination.getDestinationName(app_name, *aspects)
self.hash = Destination.getDestinationHash(app_name, *aspects)
self.hexhash = self.hash.hex()
self.callback = None
self.proofcallback = None
RNS.Transport.registerDestination(self)
def __str__(self):
return "<"+self.name+"/"+self.hexhash+">"
def link_established_callback(self, callback):
self.callbacks.link_established = callback
def packet_callback(self, callback):
self.callbacks.packet = callback
def proof_requested_callback(self, callback):
self.callbacks.proof_requested = callback
def set_proof_strategy(self, proof_strategy):
if not proof_strategy in Destination.proof_strategies:
raise TypeError("Unsupported proof strategy")
else:
self.proof_strategy = proof_strategy
def receive(self, packet):
plaintext = self.decrypt(packet.data)
if plaintext != None:
if packet.packet_type == RNS.Packet.LINKREQUEST:
self.incomingLinkRequest(plaintext, packet)
if packet.packet_type == RNS.Packet.DATA:
if self.callbacks.packet != None:
self.callbacks.packet(plaintext, packet)
def incomingLinkRequest(self, data, packet):
link = RNS.Link.validateRequest(self, data, packet)
if link != None:
self.links.append(link)
def createKeys(self):
if self.type == Destination.PLAIN:
raise TypeError("A plain destination does not hold any keys")
if self.type == Destination.SINGLE:
raise TypeError("A single destination holds keys through an Identity instance")
if self.type == Destination.GROUP:
self.prv_bytes = Fernet.generate_key()
self.prv = Fernet(self.prv_bytes)
def getPrivateKey(self):
if self.type == Destination.PLAIN:
raise TypeError("A plain destination does not hold any keys")
elif self.type == Destination.SINGLE:
raise TypeError("A single destination holds keys through an Identity instance")
else:
return self.prv_bytes
def loadPrivateKey(self, key):
if self.type == Destination.PLAIN:
raise TypeError("A plain destination does not hold any keys")
if self.type == Destination.SINGLE:
raise TypeError("A single destination holds keys through an Identity instance")
if self.type == Destination.GROUP:
self.prv_bytes = key
self.prv = Fernet(self.prv_bytes)
def loadPublicKey(self, key):
if self.type != Destination.SINGLE:
raise TypeError("Only the \"single\" destination type can hold a public key")
else:
raise TypeError("A single destination holds keys through an Identity instance")
def encrypt(self, plaintext):
if self.type == Destination.PLAIN:
return plaintext
if self.type == Destination.SINGLE and self.identity != None:
return self.identity.encrypt(plaintext)
if self.type == Destination.GROUP:
if hasattr(self, "prv") and self.prv != None:
try:
return base64.urlsafe_b64decode(self.prv.encrypt(plaintext))
except Exception as e:
RNS.log("The GROUP destination could not encrypt data", RNS.LOG_ERROR)
RNS.log("The contained exception was: "+str(e), RNS.LOG_ERROR)
else:
raise ValueError("No private key held by GROUP destination. Did you create or load one?")
def decrypt(self, ciphertext):
if self.type == Destination.PLAIN:
return ciphertext
if self.type == Destination.SINGLE and self.identity != None:
return self.identity.decrypt(ciphertext)
if self.type == Destination.GROUP:
if hasattr(self, "prv") and self.prv != None:
try:
return self.prv.decrypt(base64.urlsafe_b64encode(ciphertext))
except Exception as e:
RNS.log("The GROUP destination could not decrypt data", RNS.LOG_ERROR)
RNS.log("The contained exception was: "+str(e), RNS.LOG_ERROR)
else:
raise ValueError("No private key held by GROUP destination. Did you create or load one?")
def sign(self, message):
if self.type == Destination.SINGLE and self.identity != None:
return self.identity.sign(message)
else:
return None
# Creates an announce packet for this destination.
# Application specific data can be added to the announce.
def announce(self, app_data=None, path_response=False):
destination_hash = self.hash
random_hash = RNS.Identity.getRandomHash()
signed_data = self.hash+self.identity.getPublicKey()+random_hash
if app_data != None:
signed_data += app_data
signature = self.identity.sign(signed_data)
# TODO: Check if this could be optimised by only
# carrying the hash in the destination field, not
# also redundantly inside the signed blob as here
announce_data = self.hash+self.identity.getPublicKey()+random_hash+signature
if app_data != None:
announce_data += app_data
if path_response:
announce_context = RNS.Packet.PATH_RESPONSE
else:
announce_context = RNS.Packet.NONE
RNS.Packet(self, announce_data, RNS.Packet.ANNOUNCE, context = announce_context).send()