import struct import time import RNS class PacketReceipt: # Receipt status constants FAILED = 0x00 SENT = 0x01 DELIVERED = 0x02 EXPL_LENGTH = RNS.Identity.HASHLENGTH/8+RNS.Identity.SIGLENGTH/8 IMPL_LENGTH = RNS.Identity.SIGLENGTH/8 # Creates a new packet receipt from a sent packet def __init__(self, packet): self.hash = packet.getHash() self.sent = True self.sent_at = time.time() self.timeout = Packet.TIMEOUT self.proved = False self.status = PacketReceipt.SENT self.destination = packet.destination self.callbacks = PacketReceiptCallbacks() self.concluded_at = None # Validate a proof packet def validateProofPacket(self, proof_packet): return self.validateProof(proof_packet.data) # Validate a raw proof def validateProof(self, proof): if len(proof) == PacketReceipt.EXPL_LENGTH: # This is an explicit proof proof_hash = proof[:RNS.Identity.HASHLENGTH/8] signature = proof[RNS.Identity.HASHLENGTH/8:RNS.Identity.HASHLENGTH/8+RNS.Identity.SIGLENGTH/8] if proof_hash == self.hash: proof_valid = self.destination.identity.validate(signature, self.hash) if proof_valid: self.status = PacketReceipt.DELIVERED self.proved = True if self.callbacks.delivery != None: self.callbacks.delivery(self) return True else: return False else: return False elif len(proof) == PacketReceipt.IMPL_LENGTH: # This is an implicit proof signature = proof[:RNS.Identity.SIGLENGTH/8] proof_valid = self.destination.identity.validate(signature, self.hash) if proof_valid: self.status = PacketReceipt.DELIVERED self.proved = True if self.callbacks.delivery != None: self.callbacks.delivery(self) return True else: return False else: return False def isTimedOut(self): return (self.sent_at+self.timeout < time.time()) def checkTimeout(self): if self.isTimedOut(): self.status = PacketReceipt.FAILED self.concluded_at = time.time() if self.callbacks.timeout: self.callbacks.timeout(self) # Set the timeout in seconds def setTimeout(self, timeout): self.timeout = float(timeout) # Set a function that gets called when # a successfull delivery has been proved def delivery_callback(self, callback): self.callbacks.delivery = callback # Set a function that gets called if the # delivery times out def timeout_callback(self, callback): self.callbacks.timeout = callback class PacketReceiptCallbacks: def __init__(self): self.delivery = None self.timeout = None class Packet: # Constants DATA = 0x00; ANNOUNCE = 0x01; LINKREQUEST = 0x02; PROOF = 0x03; types = [DATA, ANNOUNCE, LINKREQUEST, PROOF] HEADER_1 = 0x00; # Normal header format HEADER_2 = 0x01; # Header format used for link packets in transport HEADER_3 = 0x02; # Normal header format, but used to indicate a link request proof HEADER_4 = 0x03; # Reserved header_types = [HEADER_1, HEADER_2, HEADER_3, HEADER_4] # Defaults TIMEOUT = 3600.0 def __init__(self, destination, data, packet_type = DATA, transport_type = RNS.Transport.BROADCAST, header_type = HEADER_1, transport_id = None): if destination != None: if transport_type == None: transport_type = RNS.Transport.BROADCAST self.header_type = header_type self.packet_type = packet_type self.transport_type = transport_type self.hops = 0; self.destination = destination self.transport_id = transport_id self.data = data self.flags = self.getPackedFlags() self.MTU = RNS.Reticulum.MTU self.raw = None self.packed = False self.sent = False self.receipt = None self.fromPacked = False else: self.raw = data self.packed = True self.fromPacked = True self.sent_at = None self.packet_hash = None def getPackedFlags(self): if self.header_type == Packet.HEADER_3: packed_flags = (self.header_type << 6) | (self.transport_type << 4) | RNS.Destination.LINK | self.packet_type else: packed_flags = (self.header_type << 6) | (self.transport_type << 4) | (self.destination.type << 2) | self.packet_type return packed_flags def pack(self): self.header = "" self.header += struct.pack("!B", self.flags) self.header += struct.pack("!B", self.hops) if self.header_type == Packet.HEADER_2: if t_destination != None: self.header += self.t_destination else: raise IOError("Packet with header type 2 must have a transport ID") if self.header_type == Packet.HEADER_1: self.header += self.destination.hash if self.packet_type != Packet.ANNOUNCE: self.ciphertext = self.destination.encrypt(self.data) else: self.ciphertext = self.data if self.header_type == Packet.HEADER_3: self.header += self.destination.link_id self.ciphertext = self.data self.raw = self.header + self.ciphertext if len(self.raw) > self.MTU: raise IOError("Packet size of "+str(len(self.raw))+" exceeds MTU of "+str(self.MTU)+" bytes") self.packed = True def unpack(self): self.flags = ord(self.raw[0]) self.hops = ord(self.raw[1]) self.header_type = (self.flags & 0b11000000) >> 6 self.transport_type = (self.flags & 0b00110000) >> 4 self.destination_type = (self.flags & 0b00001100) >> 2 self.packet_type = (self.flags & 0b00000011) if self.header_type == Packet.HEADER_2: self.transport_id = self.raw[2:12] self.destination_hash = self.raw[12:22] self.data = self.raw[22:] else: self.transport_id = None self.destination_hash = self.raw[2:12] self.data = self.raw[12:] self.packed = False def send(self): if not self.sent: if not self.packed: self.pack() if RNS.Transport.outbound(self): return self.receipt else: # TODO: Don't raise error here, handle gracefully raise IOError("Packet could not be sent! Do you have any outbound interfaces configured?") else: raise IOError("Packet was already sent") def resend(self): if self.sent: Transport.outbound(self.raw) else: raise IOError("Packet was not sent yet") def prove(self, destination=None): if self.fromPacked and self.destination: if self.destination.identity and self.destination.identity.prv: self.destination.identity.prove(self, destination) # Generates a special destination that allows Reticulum # to direct the proof back to the proved packet's sender def generateProofDestination(self): return ProofDestination(self) def validateProofPacket(self, proof_packet): return self.receipt.validateProofPacket(proof_packet) def validateProof(self, proof): return self.receipt.validateProof(proof) def updateHash(self): self.packet_hash = self.getHash() def getHash(self): return RNS.Identity.fullHash(self.getHashablePart()) def getHashablePart(self): return self.raw[0:1]+self.raw[2:] class ProofDestination: def __init__(self, packet): self.hash = packet.getHash()[:10]; self.type = RNS.Destination.SINGLE def encrypt(self, plaintext): return plaintext