Optimised link establishment
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@ -33,7 +33,7 @@ For more info, see [unsigned.io/projects/reticulum](https://unsigned.io/projects
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- Sequencing, transfer coordination and checksumming is automatic
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- The API is very easy to use, and provides transfer progress
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- Efficient link establishment
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- Total bandwidth cost of setting up a link is 3 packets totalling 409 bytes
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- Total bandwidth cost of setting up a link is 3 packets totalling 240 bytes
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- Low cost of keeping links open at only 0.62 bits per second
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## Where can Reticulum be used?
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@ -209,11 +209,12 @@ class Destination:
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self.proof_strategy = proof_strategy
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def receive(self, packet):
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if packet.packet_type == RNS.Packet.LINKREQUEST:
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plaintext = packet.data
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self.incoming_link_request(plaintext, packet)
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else:
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plaintext = self.decrypt(packet.data)
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if plaintext != None:
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if packet.packet_type == RNS.Packet.LINKREQUEST:
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self.incoming_link_request(plaintext, packet)
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if packet.packet_type == RNS.Packet.DATA:
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if self.callbacks.packet != None:
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self.callbacks.packet(plaintext, packet)
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28
RNS/Link.py
28
RNS/Link.py
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@ -52,7 +52,7 @@ class Link:
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"""
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TIMEOUT_FACTOR = 3
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STALE_GRACE = 2
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KEEPALIVE = 180
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KEEPALIVE = 360
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"""
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Interval for sending keep-alive packets on established links in seconds.
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"""
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@ -128,14 +128,15 @@ class Link:
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self.__encryption_disabled = False
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if self.destination == None:
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self.initiator = False
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self.prv = self.owner.identity.prv
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self.sig_prv = self.owner.identity.sig_prv
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else:
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self.initiator = True
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self.fernet = None
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self.prv = X25519PrivateKey.generate()
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self.sig_prv = Ed25519PrivateKey.generate()
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self.fernet = None
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self.pub = self.prv.public_key()
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self.pub_bytes = self.pub.public_bytes(
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encoding=serialization.Encoding.Raw,
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@ -155,10 +156,14 @@ class Link:
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self.load_peer(peer_pub_bytes, peer_sig_pub_bytes)
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if (self.initiator):
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peer_pub_bytes = self.destination.identity.get_public_key()[:Link.ECPUBSIZE//2]
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peer_sig_pub_bytes = self.destination.identity.get_public_key()[Link.ECPUBSIZE//2:Link.ECPUBSIZE]
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self.request_data = self.pub_bytes+self.sig_pub_bytes
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self.packet = RNS.Packet(destination, self.request_data, packet_type=RNS.Packet.LINKREQUEST)
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self.packet.pack()
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self.set_link_id(self.packet)
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self.load_peer(peer_pub_bytes, peer_sig_pub_bytes)
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self.handshake()
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RNS.Transport.register_link(self)
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self.request_time = time.time()
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self.start_watchdog()
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@ -195,7 +200,7 @@ class Link:
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signed_data = self.link_id+self.pub_bytes+self.sig_pub_bytes
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signature = self.owner.identity.sign(signed_data)
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proof_data = self.pub_bytes+self.sig_pub_bytes+signature
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proof_data = signature
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proof = RNS.Packet(self, proof_data, packet_type=RNS.Packet.PROOF, context=RNS.Packet.LRPROOF)
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proof.send()
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self.had_outbound()
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@ -214,15 +219,11 @@ class Link:
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self.had_outbound()
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def validate_proof(self, packet):
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if self.initiator and len(packet.data) == Link.ECPUBSIZE+RNS.Identity.KEYSIZE//8:
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peer_pub_bytes = packet.data[:Link.ECPUBSIZE//2]
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peer_sig_pub_bytes = packet.data[Link.ECPUBSIZE//2:Link.ECPUBSIZE]
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signed_data = self.link_id+peer_pub_bytes+peer_sig_pub_bytes
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signature = packet.data[Link.ECPUBSIZE:RNS.Identity.KEYSIZE//8+Link.ECPUBSIZE]
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if self.initiator and len(packet.data) == RNS.Identity.SIGLENGTH//8:
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signed_data = self.link_id+self.peer_pub_bytes+self.peer_sig_pub_bytes
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signature = packet.data[:RNS.Identity.SIGLENGTH//8]
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if self.destination.identity.validate(signature, signed_data):
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self.load_peer(peer_pub_bytes, peer_sig_pub_bytes)
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self.handshake()
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self.rtt = time.time() - self.request_time
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self.attached_interface = packet.receiving_interface
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RNS.Transport.activate_link(self)
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@ -258,8 +259,7 @@ class Link:
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if self.owner.callbacks.link_established != None:
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self.owner.callbacks.link_established(self)
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except Exception as e:
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RNS.log("Error occurred while processing RTT packet, tearing down link", RNS.LOG_ERROR)
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traceback.print_exc()
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RNS.log("Error occurred while processing RTT packet, tearing down link. The contained exception was: "+str(e), RNS.LOG_ERROR)
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self.teardown()
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def get_salt(self):
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@ -143,6 +143,9 @@ class Packet:
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if self.packet_type == Packet.ANNOUNCE:
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# Announce packets are not encrypted
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self.ciphertext = self.data
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elif self.packet_type == Packet.LINKREQUEST:
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# Link request packets are not encrypted
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self.ciphertext = self.data
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elif self.packet_type == Packet.PROOF and self.context == Packet.RESOURCE_PRF:
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# Resource proofs are not encrypted
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self.ciphertext = self.data
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Binary file not shown.
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@ -429,7 +429,7 @@ terms of bandwidth, so it can be used just for a short exchange, and then recrea
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also rotate encryption keys. The link can also be kept alive for longer periods of time, if this is
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more suitable to the application. The procedure also inserts the *link id* , a hash calculated from the link request packet, into the memory of forwarding nodes, which means that the communicating nodes can thereafter reach each other simply by referring to this *link id*.
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The combined bandwidth cost of setting up a link is 3 packets totalling 409 bytes (more info in the
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The combined bandwidth cost of setting up a link is 3 packets totalling 240 bytes (more info in the
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:ref:`Binary Packet Format<understanding-packetformat>` section). The amount of bandwidth used on keeping
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a link open is practically negligible, at 0.62 bits per second. Even on a slow 1200 bits per second packet
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radio channel, 100 concurrent links will still leave 95% channel capacity for actual data.
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@ -699,7 +699,7 @@ Binary Packet Format
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- Path Request : 33 bytes
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- Announce : 151 bytes
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- Link Request : 182 bytes
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- Link Proof : 141 bytes
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- Link Request : 77 bytes
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- Link Proof : 77 bytes
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- Link RTT packet : 86 bytes
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- Link keepalive : 14 bytes
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@ -55,7 +55,7 @@ What does Reticulum Offer?
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* Efficient link establishment
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* Total bandwidth cost of setting up a link is only 409 bytes
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* Total bandwidth cost of setting up a link is only 3 packets, totalling 240 bytes
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* Low cost of keeping links open at only 0.62 bits per second
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@ -767,7 +767,7 @@ from a the <em>send()</em> method of a <a class="reference internal" href="#api-
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<dl class="py attribute">
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<dt class="sig sig-object py" id="RNS.Link.KEEPALIVE">
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<span class="sig-name descname"><span class="pre">KEEPALIVE</span></span><em class="property"> <span class="pre">=</span> <span class="pre">180</span></em><a class="headerlink" href="#RNS.Link.KEEPALIVE" title="Permalink to this definition">¶</a></dt>
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<span class="sig-name descname"><span class="pre">KEEPALIVE</span></span><em class="property"> <span class="pre">=</span> <span class="pre">360</span></em><a class="headerlink" href="#RNS.Link.KEEPALIVE" title="Permalink to this definition">¶</a></dt>
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<dd><p>Interval for sending keep-alive packets on established links in seconds.</p>
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</dd></dl>
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File diff suppressed because one or more lines are too long
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@ -490,7 +490,7 @@ At the same time we establish an efficient encrypted channel. The setup of this
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terms of bandwidth, so it can be used just for a short exchange, and then recreated as needed, which will
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also rotate encryption keys. The link can also be kept alive for longer periods of time, if this is
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more suitable to the application. The procedure also inserts the <em>link id</em> , a hash calculated from the link request packet, into the memory of forwarding nodes, which means that the communicating nodes can thereafter reach each other simply by referring to this <em>link id</em>.</p>
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<p>The combined bandwidth cost of setting up a link is 3 packets totalling 409 bytes (more info in the
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<p>The combined bandwidth cost of setting up a link is 3 packets totalling 240 bytes (more info in the
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<a class="reference internal" href="#understanding-packetformat"><span class="std std-ref">Binary Packet Format</span></a> section). The amount of bandwidth used on keeping
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a link open is practically negligible, at 0.62 bits per second. Even on a slow 1200 bits per second packet
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radio channel, 100 concurrent links will still leave 95% channel capacity for actual data.</p>
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@ -762,8 +762,8 @@ proof 11
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- Path Request : 33 bytes
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- Announce : 151 bytes
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- Link Request : 182 bytes
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- Link Proof : 141 bytes
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- Link Request : 77 bytes
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- Link Proof : 77 bytes
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- Link RTT packet : 86 bytes
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- Link keepalive : 14 bytes
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</pre></div>
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@ -81,7 +81,7 @@
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</li>
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<li><p>Efficient link establishment</p>
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<ul>
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<li><p>Total bandwidth cost of setting up a link is only 409 bytes</p></li>
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<li><p>Total bandwidth cost of setting up a link is only 3 packets, totalling 240 bytes</p></li>
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<li><p>Low cost of keeping links open at only 0.62 bits per second</p></li>
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</ul>
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</li>
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@ -429,7 +429,7 @@ terms of bandwidth, so it can be used just for a short exchange, and then recrea
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also rotate encryption keys. The link can also be kept alive for longer periods of time, if this is
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more suitable to the application. The procedure also inserts the *link id* , a hash calculated from the link request packet, into the memory of forwarding nodes, which means that the communicating nodes can thereafter reach each other simply by referring to this *link id*.
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The combined bandwidth cost of setting up a link is 3 packets totalling 409 bytes (more info in the
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The combined bandwidth cost of setting up a link is 3 packets totalling 240 bytes (more info in the
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:ref:`Binary Packet Format<understanding-packetformat>` section). The amount of bandwidth used on keeping
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a link open is practically negligible, at 0.62 bits per second. Even on a slow 1200 bits per second packet
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radio channel, 100 concurrent links will still leave 95% channel capacity for actual data.
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@ -699,7 +699,7 @@ Binary Packet Format
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- Path Request : 33 bytes
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- Announce : 151 bytes
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- Link Request : 182 bytes
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- Link Proof : 141 bytes
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- Link Request : 77 bytes
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- Link Proof : 77 bytes
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- Link RTT packet : 86 bytes
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- Link keepalive : 14 bytes
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@ -55,7 +55,7 @@ What does Reticulum Offer?
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* Efficient link establishment
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* Total bandwidth cost of setting up a link is only 409 bytes
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* Total bandwidth cost of setting up a link is only 3 packets, totalling 240 bytes
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* Low cost of keeping links open at only 0.62 bits per second
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