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

426 lines
13 KiB
Python
Executable File

# MIT License
#
# Copyright (c) 2016-2023 Mark Qvist / unsigned.io and contributors
#
# 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 os
import sys
import glob
import time
import random
import threading
from ._version import __version__
from .Reticulum import Reticulum
from .Identity import Identity
from .Link import Link, RequestReceipt
from .Channel import MessageBase
from .Buffer import Buffer, RawChannelReader, RawChannelWriter
from .Transport import Transport
from .Destination import Destination
from .Packet import Packet
from .Packet import PacketReceipt
from .Resolver import Resolver
from .Resource import Resource, ResourceAdvertisement
from .Cryptography import HKDF
from .Cryptography import Hashes
modules = glob.glob(os.path.dirname(__file__)+"/*.py")
__all__ = [ os.path.basename(f)[:-3] for f in modules if not f.endswith('__init__.py')]
LOG_CRITICAL = 0
LOG_ERROR = 1
LOG_WARNING = 2
LOG_NOTICE = 3
LOG_INFO = 4
LOG_VERBOSE = 5
LOG_DEBUG = 6
LOG_EXTREME = 7
LOG_STDOUT = 0x91
LOG_FILE = 0x92
LOG_MAXSIZE = 5*1024*1024
loglevel = LOG_NOTICE
logfile = None
logdest = LOG_STDOUT
logtimefmt = "%Y-%m-%d %H:%M:%S"
compact_log_fmt = False
instance_random = random.Random()
instance_random.seed(os.urandom(10))
_always_override_destination = False
logging_lock = threading.Lock()
def loglevelname(level):
if (level == LOG_CRITICAL):
return "Critical"
if (level == LOG_ERROR):
return "Error"
if (level == LOG_WARNING):
return "Warning"
if (level == LOG_NOTICE):
return "Notice"
if (level == LOG_INFO):
return "Info"
if (level == LOG_VERBOSE):
return "Verbose"
if (level == LOG_DEBUG):
return "Debug"
if (level == LOG_EXTREME):
return "Extra"
return "Unknown"
def version():
return __version__
def host_os():
from .vendor.platformutils import get_platform
return get_platform()
def timestamp_str(time_s):
timestamp = time.localtime(time_s)
return time.strftime(logtimefmt, timestamp)
def log(msg, level=3, _override_destination = False):
global _always_override_destination, compact_log_fmt
msg = str(msg)
if loglevel >= level:
if not compact_log_fmt:
logstring = "["+timestamp_str(time.time())+"] ["+loglevelname(level)+"] "+msg
else:
logstring = "["+timestamp_str(time.time())+"] "+msg
logging_lock.acquire()
if (logdest == LOG_STDOUT or _always_override_destination or _override_destination):
print(logstring)
logging_lock.release()
elif (logdest == LOG_FILE and logfile != None):
try:
file = open(logfile, "a")
file.write(logstring+"\n")
file.close()
if os.path.getsize(logfile) > LOG_MAXSIZE:
prevfile = logfile+".1"
if os.path.isfile(prevfile):
os.unlink(prevfile)
os.rename(logfile, prevfile)
logging_lock.release()
except Exception as e:
logging_lock.release()
_always_override_destination = True
log("Exception occurred while writing log message to log file: "+str(e), LOG_CRITICAL)
log("Dumping future log events to console!", LOG_CRITICAL)
log(msg, level)
def rand():
result = instance_random.random()
return result
def trace_exception(e):
import traceback
exception_info = "".join(traceback.TracebackException.from_exception(e).format())
log(f"An unhandled {type(e)} exception occurred: {e}", LOG_ERROR)
log(exception_info, LOG_ERROR)
def hexrep(data, delimit=True):
try:
iter(data)
except TypeError:
data = [data]
delimiter = ":"
if not delimit:
delimiter = ""
hexrep = delimiter.join(f"{c:02x}" for c in data)
return hexrep
def prettyhexrep(data):
delimiter = ""
hexrep = "<"+delimiter.join(f"{c:02x}" for c in data)+">"
return hexrep
def prettyspeed(num, suffix="b"):
return prettysize(num/8, suffix=suffix)+"ps"
def prettysize(num, suffix='B'):
units = ['','K','M','G','T','P','E','Z']
last_unit = 'Y'
if suffix == 'b':
num *= 8
units = ['','K','M','G','T','P','E','Z']
last_unit = 'Y'
for unit in units:
if abs(num) < 1000.0:
if unit == "":
return f"{num:.0f} {unit}{suffix}"
else:
return f"{num:.2f} {unit}{suffix}"
num /= 1000.0
return f"{num:.2f}{last_unit}{suffix}"
def prettyfrequency(hz, suffix="Hz"):
num = hz*1e6
units = ["µ", "m", "", "K","M","G","T","P","E","Z"]
last_unit = "Y"
for unit in units:
if abs(num) < 1000.0:
return f"{num:.2f} {unit}{suffix}"
num /= 1000.0
return f"{num:.2f}{last_unit}{suffix}"
def prettydistance(m, suffix="m"):
num = m*1e6
units = ["µ", "m", "c", ""]
last_unit = "K"
for unit in units:
divisor = 1000.0
if unit == "m": divisor = 10
if unit == "c": divisor = 100
if abs(num) < divisor:
return f"{num:.2f} {unit}{suffix}"
num /= divisor
return f"{num:.2f} {last_unit}{suffix}"
def prettytime(time, verbose=False, compact=False):
days = int(time // (24 * 3600))
time = time % (24 * 3600)
hours = int(time // 3600)
time %= 3600
minutes = int(time // 60)
time %= 60
if compact:
seconds = int(time)
else:
seconds = round(time, 2)
ss = "" if seconds == 1 else "s"
sm = "" if minutes == 1 else "s"
sh = "" if hours == 1 else "s"
sd = "" if days == 1 else "s"
displayed = 0
components = []
if days > 0 and ((not compact) or displayed < 2):
components.append(str(days)+" day"+sd if verbose else str(days)+"d")
displayed += 1
if hours > 0 and ((not compact) or displayed < 2):
components.append(str(hours)+" hour"+sh if verbose else str(hours)+"h")
displayed += 1
if minutes > 0 and ((not compact) or displayed < 2):
components.append(str(minutes)+" minute"+sm if verbose else str(minutes)+"m")
displayed += 1
if seconds > 0 and ((not compact) or displayed < 2):
components.append(str(seconds)+" second"+ss if verbose else str(seconds)+"s")
displayed += 1
i = 0
tstr = ""
for c in components:
i += 1
if i == 1:
pass
elif i < len(components):
tstr += ", "
elif i == len(components):
tstr += " and "
tstr += c
if tstr == "":
return "0s"
else:
return tstr
def prettyshorttime(time, verbose=False, compact=False):
time = time*1e6
seconds = int(time // 1e6); time %= 1e6
milliseconds = int(time // 1e3); time %= 1e3
if compact:
microseconds = int(time)
else:
microseconds = round(time, 2)
ss = "" if seconds == 1 else "s"
sms = "" if milliseconds == 1 else "s"
sus = "" if microseconds == 1 else "s"
displayed = 0
components = []
if seconds > 0 and ((not compact) or displayed < 2):
components.append(str(seconds)+" second"+ss if verbose else str(seconds)+"s")
displayed += 1
if milliseconds > 0 and ((not compact) or displayed < 2):
components.append(str(milliseconds)+" millisecond"+sms if verbose else str(milliseconds)+"ms")
displayed += 1
if microseconds > 0 and ((not compact) or displayed < 2):
components.append(str(microseconds)+" microsecond"+sus if verbose else str(microseconds)+"µs")
displayed += 1
i = 0
tstr = ""
for c in components:
i += 1
if i == 1:
pass
elif i < len(components):
tstr += ", "
elif i == len(components):
tstr += " and "
tstr += c
if tstr == "":
return "0us"
else:
return tstr
def phyparams():
print("Required Physical Layer MTU : "+str(Reticulum.MTU)+" bytes")
print("Plaintext Packet MDU : "+str(Packet.PLAIN_MDU)+" bytes")
print("Encrypted Packet MDU : "+str(Packet.ENCRYPTED_MDU)+" bytes")
print("Link Curve : "+str(Link.CURVE))
print("Link Packet MDU : "+str(Link.MDU)+" bytes")
print("Link Public Key Size : "+str(Link.ECPUBSIZE*8)+" bits")
print("Link Private Key Size : "+str(Link.KEYSIZE*8)+" bits")
def panic():
os._exit(255)
def exit():
print("")
sys.exit(0)
profiler_ran = False
profiler_tags = {}
def profiler(tag=None, capture=False, super_tag=None):
global profiler_ran, profiler_tags
try:
thread_ident = threading.get_ident()
if capture:
end = time.perf_counter()
if tag in profiler_tags and thread_ident in profiler_tags[tag]["threads"]:
if profiler_tags[tag]["threads"][thread_ident]["current_start"] != None:
begin = profiler_tags[tag]["threads"][thread_ident]["current_start"]
profiler_tags[tag]["threads"][thread_ident]["current_start"] = None
profiler_tags[tag]["threads"][thread_ident]["captures"].append(end-begin)
if not profiler_ran:
profiler_ran = True
else:
if not tag in profiler_tags:
profiler_tags[tag] = {"threads": {}, "super": super_tag}
if not thread_ident in profiler_tags[tag]["threads"]:
profiler_tags[tag]["threads"][thread_ident] = {"current_start": None, "captures": []}
profiler_tags[tag]["threads"][thread_ident]["current_start"] = time.perf_counter()
except Exception as e:
trace_exception(e)
def profiler_results():
from statistics import mean, median, stdev
results = {}
for tag in profiler_tags:
tag_captures = []
tag_entry = profiler_tags[tag]
for thread_ident in tag_entry["threads"]:
thread_entry = tag_entry["threads"][thread_ident]
thread_captures = thread_entry["captures"]
sample_count = len(thread_captures)
if sample_count > 2:
thread_results = {
"count": sample_count,
"mean": mean(thread_captures),
"median": median(thread_captures),
"stdev": stdev(thread_captures)
}
tag_captures.extend(thread_captures)
sample_count = len(tag_captures)
if sample_count > 2:
tag_results = {
"name": tag,
"super": tag_entry["super"],
"count": len(tag_captures),
"mean": mean(tag_captures),
"median": median(tag_captures),
"stdev": stdev(tag_captures)
}
results[tag] = tag_results
def print_results_recursive(tag, results, level=0):
print_tag_results(tag, level+1)
for tag_name in results:
sub_tag = results[tag_name]
if sub_tag["super"] == tag["name"]:
print_results_recursive(sub_tag, results, level=level+1)
def print_tag_results(tag, level):
ind = " "*level
name = tag["name"]; count = tag["count"]
mean = tag["mean"]; tag["median"]; stdev = tag["stdev"]
print(f"{ind}{name}")
print(f"{ind} Samples : {count}")
print(f"{ind} Mean : {prettyshorttime(mean)}")
print(f"{ind} Median : {prettyshorttime(median)}")
print(f"{ind} St.dev. : {prettyshorttime(stdev)}")
print("")
print("\nProfiler results:\n")
for tag_name in results:
tag = results[tag_name]
if tag["super"] == None:
print_results_recursive(tag, results)