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Echo example
This commit is contained in:
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@ -15,12 +15,17 @@ class Destination:
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PADDINGSIZE= FPE.Identity.PADDINGSIZE;
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# Constants
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SINGLE = 0x00;
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GROUP = 0x01;
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PLAIN = 0x02;
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LINK = 0x03;
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SINGLE = 0x00
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GROUP = 0x01
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PLAIN = 0x02
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LINK = 0x03
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types = [SINGLE, GROUP, PLAIN, LINK]
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PROVE_NONE = 0x21
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PROVE_APP = 0x22
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PROVE_ALL = 0x23
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proof_strategies = [PROVE_NONE, PROVE_APP, PROVE_ALL]
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IN = 0x11;
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OUT = 0x12;
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directions = [IN, OUT]
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@ -56,20 +61,24 @@ class Destination:
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if not direction in Destination.directions: raise ValueError("Unknown destination direction")
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self.type = type
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self.direction = direction
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self.proof_strategy = Destination.PROVE_NONE
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self.mtu = 0
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if identity == None:
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if identity != None and type == Destination.SINGLE:
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aspects = aspects+(identity.hexhash,)
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if identity == None and direction == Destination.IN:
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identity = Identity()
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identity.createKeys()
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aspects = aspects+(identity.hexhash,)
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self.identity = identity
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aspects = aspects+(identity.hexhash,)
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self.name = Destination.getDestinationName(app_name, *aspects)
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self.hash = Destination.getDestinationHash(app_name, *aspects)
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self.hexhash = self.hash.encode("hex_codec")
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self.callback = None
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self.proofcallback = None
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FPE.Transport.registerDestination(self)
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@ -81,11 +90,19 @@ class Destination:
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def setCallback(self, callback):
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self.callback = callback
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def setProofCallback(self, callback):
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self.proofcallback = callback
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def receive(self, data):
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plaintext = self.decrypt(data)
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def setProofStrategy(self, proof_strategy):
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if not proof_strategy in Destination.proof_strategies:
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raise TypeError("Unsupported proof strategy")
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else:
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self.proof_strategy = proof_strategy
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def receive(self, packet):
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plaintext = self.decrypt(packet.data)
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if plaintext != None and self.callback != None:
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self.callback(plaintext, self)
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self.callback(plaintext, packet)
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def createKeys(self):
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@ -1,7 +1,7 @@
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from Interfaces import *
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import ConfigParser
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import jsonpickle
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from vendor.configobj import ConfigObj
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import atexit
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import struct
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import array
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import os.path
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@ -13,16 +13,12 @@ class FlexPE:
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MTU = 500
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router = None
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config = None
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destinations = []
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interfaces = []
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configdir = os.path.expanduser("~")+"/.flexpe"
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configpath = ""
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storagepath = ""
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cachepath = ""
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# TODO: Move this to Transport
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packetlist = []
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def __init__(self,configdir=None):
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if configdir != None:
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FlexPE.configdir = configdir
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@ -48,19 +44,10 @@ class FlexPE:
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FPE.Identity.loadKnownDestinations()
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FlexPE.router = self
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@staticmethod
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def addDestination(destination):
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destination.MTU = FlexPE.MTU
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FlexPE.destinations.append(destination)
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@staticmethod
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def outbound(raw):
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for interface in FlexPE.interfaces:
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if interface.OUT:
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FPE.log("Transmitting via: "+str(interface), FPE.LOG_DEBUG)
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interface.processOutgoing(raw)
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atexit.register(FPE.Identity.exitHandler)
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def applyConfig(self):
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if "logging" in self.config:
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for option in self.config["logging"]:
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value = self.config["logging"][option]
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if option == "loglevel":
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@ -82,7 +69,7 @@ class FlexPE:
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interface.OUT = True
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interface.name = name
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FlexPE.interfaces.append(interface)
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FPE.Transport.interfaces.append(interface)
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if c["type"] == "SerialInterface":
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interface = SerialInterface.SerialInterface(
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@ -98,7 +85,7 @@ class FlexPE:
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interface.OUT = True
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interface.name = name
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FlexPE.interfaces.append(interface)
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FPE.Transport.interfaces.append(interface)
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except Exception as e:
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FPE.log("The interface \""+name+"\" could not be created. Check your configuration file for errors!", FPE.LOG_ERROR)
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@ -37,13 +37,23 @@ class Identity:
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self.createKeys()
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@staticmethod
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def remember(hash, public_key, app_data = None):
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FPE.log("Remembering "+FPE.hexrep(hash, False), FPE.LOG_VERBOSE)
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Identity.known_destinations[hash] = [time.time(), public_key, app_data]
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def remember(packet_hash, destination_hash, public_key, app_data = None):
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FPE.log("Remembering "+FPE.prettyhexrep(destination_hash), FPE.LOG_VERBOSE)
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Identity.known_destinations[destination_hash] = [time.time(), packet_hash, public_key, app_data]
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@staticmethod
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def recall(identity):
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pass
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def recall(destination_hash):
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FPE.log("Searching for "+FPE.prettyhexrep(destination_hash)+"...", FPE.LOG_DEBUG)
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if destination_hash in Identity.known_destinations:
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identity_data = Identity.known_destinations[destination_hash]
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identity = Identity(public_only=True)
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identity.loadPublicKey(identity_data[2])
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FPE.log("Found "+FPE.prettyhexrep(destination_hash)+" in known destinations", FPE.LOG_DEBUG)
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return identity
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else:
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FPE.log("Could not find "+FPE.prettyhexrep(destination_hash)+" in known destinations", FPE.LOG_DEBUG)
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return None
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@staticmethod
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def saveKnownDestinations():
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@ -80,7 +90,7 @@ class Identity:
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@staticmethod
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def validateAnnounce(packet):
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if packet.packet_type == FPE.Packet.ANNOUNCE:
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FPE.log("Validating announce from "+FPE.hexrep(packet.destination_hash), FPE.LOG_VERBOSE)
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FPE.log("Validating announce from "+FPE.prettyhexrep(packet.destination_hash), FPE.LOG_VERBOSE)
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destination_hash = packet.destination_hash
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public_key = packet.data[10:Identity.DERKEYSIZE/8+10]
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random_hash = packet.data[Identity.DERKEYSIZE/8+10:Identity.DERKEYSIZE/8+20]
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@ -96,11 +106,19 @@ class Identity:
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if announced_identity.validate(signature, signed_data):
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FPE.log("Announce is valid", FPE.LOG_VERBOSE)
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FPE.Identity.remember(destination_hash, public_key)
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FPE.Identity.remember(FPE.Identity.fullHash(packet.raw), destination_hash, public_key)
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FPE.log("Stored valid announce from "+FPE.prettyhexrep(destination_hash), FPE.LOG_INFO)
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del announced_identity
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return True
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else:
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FPE.log("Announce is invalid", FPE.LOG_VERBOSE)
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del announced_identity
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return False
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@staticmethod
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def exitHandler():
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Identity.saveKnownDestinations()
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def createKeys(self):
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self.prv = rsa.generate_private_key(
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@ -119,10 +137,9 @@ class Identity:
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format=serialization.PublicFormat.SubjectPublicKeyInfo
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)
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self.hash = Identity.truncatedHash(self.pub_bytes)
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self.hexhash = self.hash.encode("hex_codec")
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self.updateHashes()
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FPE.log("Identity keys created, private length is "+str(len(self.prv_bytes))+" public length is "+str(len(self.pub_bytes)), FPE.LOG_INFO)
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FPE.log("Identity keys created for "+FPE.prettyhexrep(self.hash), FPE.LOG_INFO)
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def getPrivateKey(self):
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return self.prv_bytes
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@ -138,10 +155,16 @@ class Identity:
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encoding=serialization.Encoding.DER,
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format=serialization.PublicFormat.SubjectPublicKeyInfo
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)
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self.updateHashes()
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def loadPublicKey(self, key):
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self.pub_bytes = key
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self.pub = load_der_public_key(self.pub_bytes, backend=default_backend())
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self.updateHashes()
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def updateHashes(self):
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self.hash = Identity.truncatedHash(self.pub_bytes)
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self.hexhash = self.hash.encode("hex_codec")
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def saveIdentity(self):
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pass
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@ -150,7 +173,7 @@ class Identity:
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pass
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def encrypt(self, plaintext):
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if self.prv != None:
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if self.pub != None:
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chunksize = (Identity.KEYSIZE-Identity.PADDINGSIZE)/8
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chunks = int(math.ceil(len(plaintext)/(float(chunksize))))
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# TODO: Remove debug output print("Plaintext size is "+str(len(plaintext))+", with "+str(chunks)+" chunks")
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@ -175,7 +198,7 @@ class Identity:
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# TODO: Remove debug output print("Plaintext encrypted, ciphertext length is "+str(len(ciphertext))+" bytes.")
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return ciphertext
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else:
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raise KeyError("Encryption failed because identity does not hold a private key")
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raise KeyError("Encryption failed because identity does not hold a public key")
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def decrypt(self, ciphertext):
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@ -238,11 +261,12 @@ class Identity:
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else:
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raise KeyError("Signature validation failed because identity does not hold a public key")
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def prove(self, packet, destination):
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proof_data = packet.packet_hash + self.sign(packet.packet_hash)
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proof = FPE.Packet(destination, proof_data, FPE.Packet.PROOF)
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proof.send()
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def getRandomHash(self):
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return self.truncatedHash(os.urandom(10))
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def identityExithandler():
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Identity.saveKnownDestinations()
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atexit.register(identityExithandler)
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@ -3,6 +3,7 @@ import SocketServer
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import threading
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import socket
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import sys
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import FPE
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class UdpInterface(Interface):
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bind_ip = None
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@ -36,9 +37,13 @@ class UdpInterface(Interface):
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def processIncoming(self, data):
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# TODO: remove
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#FPE.log("IN: "+FPE.prettyhexrep(data))
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self.owner.inbound(data)
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def processOutgoing(self,data):
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# TODO: remove
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#FPE.log("OUT: "+FPE.prettyhexrep(" "+data))
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udp_socket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
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udp_socket.setsockopt(socket.SOL_SOCKET, socket.SO_BROADCAST, 1)
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udp_socket.sendto(data, (self.forward_ip, self.forward_port))
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@ -52,5 +57,7 @@ class UdpInterfaceHandler(SocketServer.BaseRequestHandler):
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def handle(self):
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if (UdpInterfaceHandler.interface != None):
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data = self.request[0].strip()
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# TODO: remove
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#FPE.log("Datagram contents: "+FPE.prettyhexrep(self.request[0]))
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data = self.request[0]
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UdpInterfaceHandler.interface.processIncoming(data)
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@ -1,4 +1,5 @@
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import struct
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import time
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import FPE
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class Packet:
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@ -29,14 +30,19 @@ class Packet:
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self.transport_id = transport_id
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self.data = data
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self.flags = self.getPackedFlags()
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self.MTU = self.destination.MTU
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self.raw = None
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self.packed = False
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self.sent = False
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self.MTU = self.destination.MTU
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self.fromPacked = False
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else:
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self.raw = data
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self.packed = True
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self.fromPacked = True
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self.sent_at = None
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self.packet_hash = None
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def getPackedFlags(self):
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packed_flags = (self.header_type << 6) | (self.transport_type << 4) | (self.destination.type << 2) | self.packet_type
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@ -90,6 +96,8 @@ class Packet:
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self.pack()
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FPE.log("Size: "+str(len(self.raw))+" header is "+str(len(self.header))+" payload is "+str(len(self.ciphertext)), FPE.LOG_DEBUG)
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FPE.Transport.outbound(self.raw)
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self.packet_hash = FPE.Identity.fullHash(self.raw)
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self.sent_at = time.time()
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self.sent = True
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else:
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raise IOError("Packet was already sent")
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@ -99,3 +107,22 @@ class Packet:
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Transport.outbound(self.raw)
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else:
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raise IOError("Packet was not sent yet")
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def prove(self, destination):
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if self.fromPacked and self.destination:
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if self.destination.identity and self.destination.identity.prv:
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self.destination.identity.prove(self, destination)
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def validateProofPacket(self, proof_packet):
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return self.validateProof(proof_packet.data)
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def validateProof(self, proof):
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proof_hash = proof[:32]
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signature = proof[32:]
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if proof_hash == self.packet_hash:
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return self.destination.identity.validate(signature, proof_hash)
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else:
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return False
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@ -8,11 +8,17 @@ class Transport:
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TUNNEL = 0x03;
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types = [BROADCAST, TRANSPORT, RELAY, TUNNEL]
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interfaces = []
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destinations = []
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packet_hashlist = []
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@staticmethod
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def outbound(raw):
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FPE.FlexPE.outbound(raw)
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Transport.cacheRaw(raw)
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for interface in Transport.interfaces:
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if interface.OUT:
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FPE.log("Transmitting via: "+str(interface), FPE.LOG_DEBUG)
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interface.processOutgoing(raw)
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@staticmethod
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def inbound(raw):
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@ -22,15 +28,43 @@ class Transport:
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Transport.packet_hashlist.append(packet_hash)
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packet = FPE.Packet(None, raw)
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packet.unpack()
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packet.packet_hash = packet_hash
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if packet.packet_type == FPE.Packet.ANNOUNCE:
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FPE.Identity.validateAnnounce(packet)
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if FPE.Identity.validateAnnounce(packet):
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Transport.cache(packet)
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if packet.packet_type == FPE.Packet.RESOURCE:
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for destination in FlexPE.destinations:
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for destination in Transport.destinations:
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if destination.hash == packet.destination_hash and destination.type == packet.destination_type:
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destination.receive(packet.data)
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packet.destination = destination
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destination.receive(packet)
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Transport.cache(packet)
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if packet.packet_type == FPE.Packet.PROOF:
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for destination in Transport.destinations:
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if destination.hash == packet.destination_hash:
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if destination.proofcallback != None:
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destination.proofcallback(packet)
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# TODO: add universal proof handling
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@staticmethod
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def registerDestination(destination):
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FPE.FlexPE.addDestination(destination)
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destination.MTU = FPE.FlexPE.MTU
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if destination.direction == FPE.Destination.IN:
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Transport.destinations.append(destination)
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@staticmethod
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def cache(packet):
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FPE.Transport.cacheRaw(packet.raw)
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@staticmethod
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def cacheRaw(raw):
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try:
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file = open(FPE.FlexPE.cachepath+"/"+FPE.hexrep(FPE.Identity.fullHash(raw), delimit=False), "w")
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file.write(raw)
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file.close()
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FPE.log("Wrote packet "+FPE.prettyhexrep(FPE.Identity.fullHash(raw))+" to cache", FPE.LOG_DEBUG)
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except Exception as e:
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FPE.log("Error writing packet to cache", FPE.LOG_ERROR)
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FPE.log("The contained exception was: "+str(e))
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222
FPE/Utilities/Echo.py
Normal file
222
FPE/Utilities/Echo.py
Normal file
@ -0,0 +1,222 @@
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import argparse
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import time
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import FPE
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# Let's define an app name. We'll use this for all
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# destinations we create. Since this echo example
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# is part of a range of example utilities, we'll put
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# them all within the app namespace "example_utilities"
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APP_NAME = "example_utilitites"
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# This initialisation is executed when the users chooses
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# to run as a server
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def server(configpath):
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# We must first initialise FlexPE
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fpe = FPE.FlexPE(configpath)
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# Randomly create a new identity for our echo server
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server_identity = FPE.Identity()
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# We create a destination that clients can query. We want
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# to be able to verify echo replies to our clients, so we
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# create a "single" destination that can receive encrypted
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# messages. This way the client can send a request and be
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# certain that no-one else than this destination was able
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# to read it.
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echo_destination = FPE.Destination(server_identity, FPE.Destination.IN, FPE.Destination.SINGLE, APP_NAME, "echo", "request")
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# Tell the destination which function in our program to
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# run when a packet is received.
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echo_destination.setCallback(serverCallback)
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# Everything's ready!
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# Let's Wait for client requests or user input
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announceLoop(echo_destination)
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def announceLoop(destination):
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# Let the user know that everything is ready
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FPE.log("Echo server running, hit enter to send announce (Ctrl-C to quit)")
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# We enter a loop that runs until the users exits.
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# If the user just hits enter, we will announce our server
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# destination on the network, which will let clients know
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# how to create messages directed towards it.
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while True:
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entered = raw_input()
|
||||
destination.announce()
|
||||
FPE.log("Sent announce from "+FPE.prettyhexrep(destination.hash))
|
||||
|
||||
|
||||
def serverCallback(message, packet):
|
||||
# We have received am echo request from a client! When
|
||||
# a client sends a request, it will include the hash of
|
||||
# it's identity in the message. Since we know that the
|
||||
# client has created a listening destination using this
|
||||
# identity hash, we can construct an outgoing destination
|
||||
# to direct our response to. The hash is sent in binary
|
||||
# format, so we encode it as printable hexadecimal first,
|
||||
# since aspect names need to in printable text.
|
||||
client_identity_hexhash = message.encode("hex_codec")
|
||||
|
||||
# We can now create a destination that will let us reach
|
||||
# the client which send the echo request.
|
||||
reply_destination = FPE.Destination(None, FPE.Destination.OUT, FPE.Destination.PLAIN, APP_NAME, "echo", "reply", client_identity_hexhash)
|
||||
|
||||
# Let's encode the reply destination hash in a readable
|
||||
# way, so we can output some info to the user.
|
||||
reply_destination_hexhash = reply_destination.hash.encode("hex_codec")
|
||||
|
||||
# Tell the user that we received an echo request, and
|
||||
# that we are going to send a reply to the requester.
|
||||
FPE.log("Received packet from <"+reply_destination_hexhash+">, sending reply")
|
||||
|
||||
# To let the client know that we got the echo request,
|
||||
# we will use the "proof" functions of FlexPE. In most
|
||||
# applications, the proving of packets will occur fully
|
||||
# automatically, but in some cases like this, it can be
|
||||
# beneficial to use the functions manually, since it
|
||||
# neatly provides functionality that can unequivocally
|
||||
# prove the receipt of the request to the client.
|
||||
#
|
||||
# Using the proof functionality is very simple, we just
|
||||
# need to call the "prove" method on the packet we wish
|
||||
# to prove, and specify which destination it should be
|
||||
# directed to.
|
||||
packet.prove(reply_destination)
|
||||
|
||||
|
||||
# We need a global list to hold sent echo requests
|
||||
sent_requests = []
|
||||
# This initialisation is executed when the users chooses
|
||||
# to run as a client
|
||||
def client(destination_hexhash, configpath):
|
||||
# We need a binary representation of the destination
|
||||
# hash that was entered on the command line
|
||||
try:
|
||||
if len(destination_hexhash) != 20:
|
||||
raise ValueError("Destination length is invalid, must be 20 hexadecimal characters (10 bytes)")
|
||||
destination_hash = destination_hexhash.decode("hex")
|
||||
except:
|
||||
FPE.log("Invalid destination entered. Check your input!")
|
||||
exit()
|
||||
|
||||
# We must first initialise FlexPE
|
||||
fpe = FPE.FlexPE()
|
||||
|
||||
# Randomly create a new identity for our echo server
|
||||
client_identity = FPE.Identity()
|
||||
|
||||
# Let's set up a destination for replies to our echo
|
||||
# requests. This destination will be used by the server
|
||||
# to direct replies to. We're going to use a "plain"
|
||||
# destination, so the server can send replies back
|
||||
# without knowing any public keys of the client. In this
|
||||
# case, such a design is benificial, since any client
|
||||
# can send echo requests directly to the server, without
|
||||
# first having to announce it's destination, or include
|
||||
# public keys in the echo request
|
||||
#
|
||||
# We will use the destination naming convention of:
|
||||
# example_utilities.echo.reply.<IDENTITY_HASH>
|
||||
# where the last part is a hex representation of the hash
|
||||
# of our "client_identity". We need to include this to
|
||||
# create a unique destination for the server to respond to.
|
||||
# If we had used a "single" destination, something equivalent
|
||||
# to this process would have happened automatically.
|
||||
reply_destination = FPE.Destination(client_identity, FPE.Destination.IN, FPE.Destination.PLAIN, APP_NAME, "echo", "reply", client_identity.hexhash)
|
||||
|
||||
# Since we are only expecting packets of the "proof"
|
||||
# type to reach our reply destination, we just set the
|
||||
# proof callback (and in this case not the normal
|
||||
# message callback)
|
||||
reply_destination.setProofCallback(clientProofCallback)
|
||||
|
||||
# Tell the user that the client is ready!
|
||||
FPE.log("Echo client "+FPE.prettyhexrep(reply_destination.hash)+" ready, hit enter to send echo request (Ctrl-C to quit)")
|
||||
|
||||
# We enter a loop that runs until the user exits.
|
||||
# If the user hits enter, we will try to send an
|
||||
# echo request to the destination specified on the
|
||||
# command line.
|
||||
while True:
|
||||
raw_input()
|
||||
# To address the server, we need to know it's public
|
||||
# key, so we check if FlexPE knows this destination.
|
||||
# This is done by calling the "recall" method of the
|
||||
# Identity module. If the destination is known, it will
|
||||
# return an Identity instance that can be used in
|
||||
# outgoing destinations.
|
||||
server_identity = FPE.Identity.recall(destination_hash)
|
||||
if server_identity != None:
|
||||
# We got the correct identity instance from the
|
||||
# recall method, so let's create an outgoing
|
||||
# destination. We use the naming convention:
|
||||
# example_utilities.echo.request
|
||||
# Since this is a "single" destination, the identity
|
||||
# hash will be automatically added to the end of
|
||||
# the name.
|
||||
request_destination = FPE.Destination(server_identity, FPE.Destination.OUT, FPE.Destination.SINGLE, APP_NAME, "echo", "request")
|
||||
|
||||
# The destination is ready, so let's create a packet.
|
||||
# We set the destination to the request_destination
|
||||
# that was just created, and the only data we add
|
||||
# is the identity hash of our client identity.
|
||||
# Including that information will let the server
|
||||
# create a destination to send replies to.
|
||||
echo_request = FPE.Packet(request_destination, client_identity.hash)
|
||||
|
||||
# Send the packet!
|
||||
echo_request.send()
|
||||
|
||||
# Add the request to our list of sent packets
|
||||
sent_requests.append(echo_request)
|
||||
|
||||
# Tell the user that the echo request was sent
|
||||
FPE.log("Sent echo request to "+FPE.prettyhexrep(request_destination.hash))
|
||||
else:
|
||||
# If we do not know this destination, tell the
|
||||
# user to wait for an announce to arrive.
|
||||
FPE.log("Destination is not yet known. Wait for an announce to arrive.")
|
||||
|
||||
def clientProofCallback(proof_packet):
|
||||
now = time.time()
|
||||
for unproven_packet in sent_requests:
|
||||
if unproven_packet.packet_hash == proof_packet.data[:32]:
|
||||
if unproven_packet.validateProofPacket(proof_packet):
|
||||
rtt = now - unproven_packet.sent_at
|
||||
if (rtt >= 1):
|
||||
rtt = round(rtt, 3)
|
||||
rttstring = str(rtt)+" seconds"
|
||||
else:
|
||||
rtt = round(rtt*1000, 3)
|
||||
rttstring = str(rtt)+" milliseconds"
|
||||
FPE.log(
|
||||
"Valid echo reply, proved by "+FPE.prettyhexrep(unproven_packet.destination.hash)+
|
||||
", round-trip time was "+rttstring
|
||||
)
|
||||
else:
|
||||
FPE.log("Proof invalid")
|
||||
|
||||
|
||||
|
||||
if __name__ == "__main__":
|
||||
try:
|
||||
parser = argparse.ArgumentParser(description="Simple echo server and client utility")
|
||||
parser.add_argument("-s", "--server", action="store_true", help="wait for incoming packets from clients")
|
||||
parser.add_argument("--config", action="store", default=None, help="path to alternative FlexPE config directory", type=str)
|
||||
parser.add_argument("destination", nargs="?", default=None, help="hexadecimal hash of the server destination", type=str)
|
||||
args = parser.parse_args()
|
||||
|
||||
if args.server:
|
||||
configarg=None
|
||||
if args.config:
|
||||
configarg = args.config
|
||||
server(configarg)
|
||||
else:
|
||||
configarg=None
|
||||
if args.config:
|
||||
configarg = args.config
|
||||
client(args.destination, configarg)
|
||||
except KeyboardInterrupt:
|
||||
exit()
|
@ -68,3 +68,8 @@ def hexrep(data, delimit=True):
|
||||
delimiter = ""
|
||||
hexrep = delimiter.join("{:02x}".format(ord(c)) for c in data)
|
||||
return hexrep
|
||||
|
||||
def prettyhexrep(data):
|
||||
delimiter = ""
|
||||
hexrep = "<"+delimiter.join("{:02x}".format(ord(c)) for c in data)+">"
|
||||
return hexrep
|
3
t.py
3
t.py
@ -17,6 +17,7 @@ fpe = FlexPE()
|
||||
identity = Identity()
|
||||
|
||||
d1=Destination(identity, Destination.IN, Destination.SINGLE, "messenger", "user")
|
||||
#d1.setProofStrategy(Destination.PROVE_ALL)
|
||||
d1.setCallback(testCallback)
|
||||
|
||||
msg=""
|
||||
@ -28,7 +29,7 @@ pl = len(d1.identity.pub_bytes)
|
||||
|
||||
d1.announce()
|
||||
p1=Packet(d1, msg)
|
||||
#p1.send()
|
||||
p1.send()
|
||||
|
||||
# p2=Packet(d2,"Test af msg")
|
||||
# p2.send()
|
||||
|
Loading…
Reference in New Issue
Block a user