Reticulum/RNS/Interfaces/Interface.py
Pavol Rusnak ce9dc56048
modernize
2024-10-11 23:13:52 +02:00

241 lines
9.5 KiB
Python
Executable File

# MIT License
#
# Copyright (c) 2016-2023 Mark Qvist / unsigned.io
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in all
# copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.
import RNS
import time
import threading
from collections import deque
class Interface:
IN = False
OUT = False
FWD = False
RPT = False
name = None
# Interface mode definitions
MODE_FULL = 0x01
MODE_POINT_TO_POINT = 0x02
MODE_ACCESS_POINT = 0x03
MODE_ROAMING = 0x04
MODE_BOUNDARY = 0x05
MODE_GATEWAY = 0x06
# Which interface modes a Transport Node should
# actively discover paths for.
DISCOVER_PATHS_FOR = [MODE_ACCESS_POINT, MODE_GATEWAY, MODE_ROAMING]
# How many samples to use for announce
# frequency calculations
IA_FREQ_SAMPLES = 6
OA_FREQ_SAMPLES = 6
# Maximum amount of ingress limited announces
# to hold at any given time.
MAX_HELD_ANNOUNCES = 256
# How long a spawned interface will be
# considered to be newly created. Two
# hours by default.
IC_NEW_TIME = 2*60*60
IC_BURST_FREQ_NEW = 3.5
IC_BURST_FREQ = 12
IC_BURST_HOLD = 1*60
IC_BURST_PENALTY = 5*60
IC_HELD_RELEASE_INTERVAL = 30
def __init__(self):
self.rxb = 0
self.txb = 0
self.created = time.time()
self.online = False
self.bitrate = 1e6
self.ingress_control = True
self.ic_max_held_announces = Interface.MAX_HELD_ANNOUNCES
self.ic_burst_hold = Interface.IC_BURST_HOLD
self.ic_burst_active = False
self.ic_burst_activated = 0
self.ic_held_release = 0
self.ic_burst_freq_new = Interface.IC_BURST_FREQ_NEW
self.ic_burst_freq = Interface.IC_BURST_FREQ
self.ic_new_time = Interface.IC_NEW_TIME
self.ic_burst_penalty = Interface.IC_BURST_PENALTY
self.ic_held_release_interval = Interface.IC_HELD_RELEASE_INTERVAL
self.held_announces = {}
self.ia_freq_deque = deque(maxlen=Interface.IA_FREQ_SAMPLES)
self.oa_freq_deque = deque(maxlen=Interface.OA_FREQ_SAMPLES)
def get_hash(self):
return RNS.Identity.full_hash(str(self).encode("utf-8"))
# This is a generic function for determining when an interface
# should activate ingress limiting. Since this can vary for
# different interface types, this function should be overwritten
# in case a particular interface requires a different approach.
def should_ingress_limit(self):
if self.ingress_control:
freq_threshold = self.ic_burst_freq_new if self.age() < self.ic_new_time else self.ic_burst_freq
ia_freq = self.incoming_announce_frequency()
if self.ic_burst_active:
if ia_freq < freq_threshold and time.time() > self.ic_burst_activated+self.ic_burst_hold:
self.ic_burst_active = False
self.ic_held_release = time.time() + self.ic_burst_penalty
return True
else:
if ia_freq > freq_threshold:
self.ic_burst_active = True
self.ic_burst_activated = time.time()
return True
else:
return False
else:
return False
def age(self):
return time.time()-self.created
def hold_announce(self, announce_packet):
if announce_packet.destination_hash in self.held_announces:
self.held_announces[announce_packet.destination_hash] = announce_packet
elif not len(self.held_announces) >= self.ic_max_held_announces:
self.held_announces[announce_packet.destination_hash] = announce_packet
def process_held_announces(self):
try:
if not self.should_ingress_limit() and len(self.held_announces) > 0 and time.time() > self.ic_held_release:
freq_threshold = self.ic_burst_freq_new if self.age() < self.ic_new_time else self.ic_burst_freq
ia_freq = self.incoming_announce_frequency()
if ia_freq < freq_threshold:
selected_announce_packet = None
min_hops = RNS.Transport.PATHFINDER_M
for destination_hash in self.held_announces:
announce_packet = self.held_announces[destination_hash]
if announce_packet.hops < min_hops:
min_hops = announce_packet.hops
selected_announce_packet = announce_packet
if selected_announce_packet != None:
RNS.log(f"Releasing held announce packet {selected_announce_packet} from {self}", RNS.LOG_EXTREME)
self.ic_held_release = time.time() + self.ic_held_release_interval
self.held_announces.pop(selected_announce_packet.destination_hash)
def release():
RNS.Transport.inbound(selected_announce_packet.raw, selected_announce_packet.receiving_interface)
threading.Thread(target=release, daemon=True).start()
except Exception as e:
RNS.log(f"An error occurred while processing held announces for {self}", RNS.LOG_ERROR)
RNS.log(f"The contained exception was: {e}", RNS.LOG_ERROR)
def received_announce(self):
self.ia_freq_deque.append(time.time())
if hasattr(self, "parent_interface") and self.parent_interface != None:
self.parent_interface.received_announce(from_spawned=True)
def sent_announce(self):
self.oa_freq_deque.append(time.time())
if hasattr(self, "parent_interface") and self.parent_interface != None:
self.parent_interface.sent_announce(from_spawned=True)
def incoming_announce_frequency(self):
if not len(self.ia_freq_deque) > 1:
return 0
else:
dq_len = len(self.ia_freq_deque)
delta_sum = 0
for i in range(1,dq_len):
delta_sum += self.ia_freq_deque[i]-self.ia_freq_deque[i-1]
delta_sum += time.time() - self.ia_freq_deque[dq_len-1]
if delta_sum == 0:
avg = 0
else:
avg = 1/(delta_sum/(dq_len))
return avg
def outgoing_announce_frequency(self):
if not len(self.oa_freq_deque) > 1:
return 0
else:
dq_len = len(self.oa_freq_deque)
delta_sum = 0
for i in range(1,dq_len):
delta_sum += self.oa_freq_deque[i]-self.oa_freq_deque[i-1]
delta_sum += time.time() - self.oa_freq_deque[dq_len-1]
if delta_sum == 0:
avg = 0
else:
avg = 1/(delta_sum/(dq_len))
return avg
def process_announce_queue(self):
if not hasattr(self, "announce_cap"):
self.announce_cap = RNS.Reticulum.ANNOUNCE_CAP
if hasattr(self, "announce_queue"):
try:
now = time.time()
stale = []
for a in self.announce_queue:
if now > a["time"]+RNS.Reticulum.QUEUED_ANNOUNCE_LIFE:
stale.append(a)
for s in stale:
if s in self.announce_queue:
self.announce_queue.remove(s)
if len(self.announce_queue) > 0:
min_hops = min(entry["hops"] for entry in self.announce_queue)
entries = list(filter(lambda e: e["hops"] == min_hops, self.announce_queue))
entries.sort(key=lambda e: e["time"])
selected = entries[0]
now = time.time()
tx_time = (len(selected["raw"])*8) / self.bitrate
wait_time = (tx_time / self.announce_cap)
self.announce_allowed_at = now + wait_time
self.processOutgoing(selected["raw"])
self.sent_announce()
if selected in self.announce_queue:
self.announce_queue.remove(selected)
if len(self.announce_queue) > 0:
timer = threading.Timer(wait_time, self.process_announce_queue)
timer.start()
except Exception as e:
self.announce_queue = []
RNS.log(f"Error while processing announce queue on {self}. The contained exception was: {e}", RNS.LOG_ERROR)
RNS.log("The announce queue for this interface has been cleared.", RNS.LOG_ERROR)
def detach(self):
pass