Startet på lesing av mtr

This commit is contained in:
Trygve 2022-03-17 21:57:10 +01:00
parent 0f0fd6ebf2
commit 16a29f7e5d
5 changed files with 567 additions and 0 deletions

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@ -1,5 +1,6 @@
#!/usr/bin/env python
import otime
import mtr_log_extractor as mle
import json
import asyncio
from difflib import Differ
@ -81,5 +82,7 @@ async def main():
db_file_u = None
if __name__ == "__main__":
print(dir(mle))
print('🤔')
start()
asyncio.run(main())

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mtr_log_extractor.py Normal file
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#!/usr/bin/env python3
import argparse
import logging
import logging.handlers
import os
import serial
import sys
from datetime import datetime, timedelta
import time
import mtrreader
import mtrlog
def create_argparser():
argparser = argparse.ArgumentParser(
formatter_class=argparse.ArgumentDefaultsHelpFormatter)
argparser.add_argument(
'-p',
'--serial-port',
default='/dev/ttyMTR',
help="Serial port device of MTR")
argparser.add_argument(
'-t',
'--serial-port-polling-timeout',
metavar='TIMEOUT',
type=int,
help=(
'Number of seconds to spend polling MTR for status before '
'giving up. (Exits with status code {} on timeout.)'.format(
exit_code_serial_port_unresponsive)))
argparser.add_argument(
'-f',
'--output-file-name',
default="mtr-{}.log",
help=(
'Name of output file in the "MTR log file" format read by '
'tTime (See http://ttime.no. Format described at '
'http://ttime.no/rs232.pdf.) '
'A {} in the filename will be replaced with a timestamp in '
'the ISO 8601 combined date and time basic format.'))
argparser.add_argument(
'-d',
'--destination',
nargs='+',
metavar='DEST_ARG',
help=(
"Send MTR log file to a destination. Supported destinations: "
"an HTTP URL (accepting POST form uploads) or "
"'dropbox path/to/apitokenfile [/upload/dir]'"))
argparser.add_argument(
'-l',
'--log',
nargs='+',
metavar='LOG_ARG',
default=['syslog', '/dev/log', 'local0'],
help=(
"Configure logging. LOG_ARG can be a log file path or the "
"default (using multiple values) 'syslog [SOCKET] [FACILITY]' "
"where SOCKET is '/dev/log' and FACILITY is 'local0' by "
"default."))
return argparser
def initialize_logging():
logger = logging.getLogger()
logger.setLevel(logging.DEBUG)
if args.log[0] == 'syslog':
address = args.log[1] if len(args.log) >= 2 else '/dev/log'
facility = args.log[2] if len(args.log) >= 3 else 'local0'
syslog_handler = logging.handlers.SysLogHandler(
address=address,
facility=facility)
syslog_handler.setFormatter(logging.Formatter(logging.BASIC_FORMAT))
logger.addHandler(syslog_handler)
else:
log_file = args.log[0]
file_handler = logging.handlers.WatchedFileHandler(log_file)
file_handler.setFormatter(logging.Formatter(logging.BASIC_FORMAT))
logger.addHandler(file_handler)
return logger
def should_poll_mtr_for_status(timeout_uptime):
no_timeout_set = timeout_uptime is None
return no_timeout_set or uptime() < timeout_uptime
def uptime():
with open('/proc/uptime', 'r') as f:
uptime_seconds = float(f.readline().split()[0])
return timedelta(seconds=uptime_seconds)
def is_status_response(messages):
return (len(messages) == 1
and isinstance(messages[0], mtrreader.MtrStatusMessage))
def serial_port_with_live_mtr(
port, polling_timeout_secs, retry_wait_time_secs, serial_timeout_secs):
if polling_timeout_secs is None:
polling_timeout_uptime = None
logger.info("Polling serial port %s forever", port)
else:
polling_timeout_uptime = (
uptime() + timedelta(seconds=polling_timeout_secs))
logger.info(
"Polling serial port %s for status for %s seconds (until "
"uptime is %s)",
port, polling_timeout_secs, polling_timeout_uptime)
while should_poll_mtr_for_status(polling_timeout_uptime):
try:
serial_port = serial.Serial(
port=port, baudrate=9600, timeout=serial_timeout_secs)
logger.info(
"Opened serial port %s, sending 'status' command '/ST'...",
port)
mtr_reader_status = mtrreader.MtrReader(serial_port)
mtr_reader_status.send_status_command()
messages = mtr_reader_status.receive()
if is_status_response(messages):
logger.info(
"MTR status response received, ID is %d",
messages[0].mtr_id())
return serial_port
except serial.SerialException:
# Just log the error, the device could have been suddenly
# connected and could be responding next time.
logger.info((
"MTR status polling failed; Serial port %s was closed or "
"couldn't be opened"), port)
logger.info(
"Retrying MTR status polling in %d seconds",
retry_wait_time_secs)
time.sleep(retry_wait_time_secs)
logger.info(
"No status response received on serial port %s in %d seconds. "
"Giving up.",
port, polling_timeout_secs)
return None
def write_mtr_log_file(log_lines, output_filename):
with open(output_filename, 'wb') as output_file:
for log_line in log_lines:
output_file.write(("%s\n" % log_line).encode('utf-8'))
logger.info("Wrote log file %s", output_filename)
return output_filename
def upload_mtr_log_file_dropbox(log_file_name, upload_dir, token):
dbx = dropbox.Dropbox(token)
with open(log_file_name, 'rb') as f:
upload_filename = os.path.basename(f.name)
dbx.files_upload(f.read(), upload_dir + "/" + upload_filename)
return
def upload_mtr_log_file_http(log_file_name, url):
with open(log_file_name, 'rb') as f:
requests.post(url, files={'file': f})
return
exit_code_serial_port_unresponsive = 100
argparser = create_argparser()
args = argparser.parse_args()
logger = initialize_logging()
serial_port = serial_port_with_live_mtr(
args.serial_port,
polling_timeout_secs=args.serial_port_polling_timeout,
retry_wait_time_secs=5,
serial_timeout_secs=3)
if serial_port is None:
logger.info(
"Serial port is unresponsive, exiting... (status=%d)",
exit_code_serial_port_unresponsive)
sys.exit(exit_code_serial_port_unresponsive)
mtr_reader = mtrreader.MtrReader(serial_port)
destination_args = args.destination
dropbox_api_token = None
output_filename = (
args.output_file_name.format(datetime.now().strftime('%Y%m%dT%H%M%S')))
mtr_reader.send_spool_all_command()
data_messages = mtr_reader.receive()
datetime_extracted = datetime.now()
log_lines = mtrlog.MtrLogFormatter().format_all(
data_messages, datetime_extracted)
mtr_log_file_name = write_mtr_log_file(log_lines, output_filename)

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mtrlog.py Normal file
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import logging
logger = logging.getLogger()
class MtrLogFormatter:
def format_all(self, data_messages, datetime_extracted):
log_lines = []
for data_message in data_messages:
log_lines.append(self.format(data_message, datetime_extracted))
return log_lines
def format(self, msg, datetime_extracted):
log_line = []
log_line.append('"M"')
log_line.append('"0"')
log_line.append('"%d"' % msg.mtr_id())
log_line.append('"%06d"' % msg.card_id())
print('"%06d"' % msg.card_id())
log_line.append(
'"%s"' % datetime_extracted.strftime('%d.%m.%y %H:%M:%S.000'))
log_line.append(
'"%02d.%02d.%02d %02d:%02d:%02d.%03d"' % (
msg.timestamp_day(),
msg.timestamp_month(),
msg.timestamp_year(),
msg.timestamp_hours(),
msg.timestamp_minutes(),
msg.timestamp_seconds(),
msg.timestamp_milliseconds()))
log_line.append('%06d' % msg.card_id())
log_line.append('%04d' % 0) # skipped product week
log_line.append('%04d' % 0) # skipped product year
controls = []
for (control_code, time_at_control) in msg.splits():
log_line.append('%03d' % control_code)
controls.append('%03d' % control_code)
log_line.append('%05d' % time_at_control)
print(controls)
log_line.append('%07d' % msg.packet_num())
log_line_str = ",".join(log_line)
logger.info("Converted message to log line format: %s", log_line_str)
return log_line_str

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mtrreader.py Normal file
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# From http://ttime.no/rs232.pdf
#
# MESSAGE DESCRIPTION:
# ====================
#
# MTR--datamessage
# ---------------
# Fieldname # bytes
# Preamble 4 FFFFFFFF(hex) (4 "FF"'s never occur "inside" a message).
# (Can be used to "resynchronize" logic if a connection is
# broken)
# Package-size 1 number of bytes excluding preamble (=230)
# Package-type 1 'M' as "MTR-datamessage"
# MTR-id 2 Serial number of MTR2; Least significant byte first
# Timestamp 6 Binary Year, Month, Day, Hour, Minute, Second
# TS-milliseconds 2 Milliseconds NOT YET USED, WILL BE 0 IN THIS VERSION
# Package# 4 Binary Counter, from 1 and up; Least sign byte first
# Card-id 3 Binary, Least sign byte first
# Producweek 1 0-53 ; 0 when package is retrived from "history"
# Producyear 1 94-99,0-..X ; 0 when package is retrived from "history"
# ECardHeadSum 1 Headchecksum from card; 0 when package is retrived from
# "history"
# The following fields are repeated 50 times:
# CodeN 1 ControlCode; unused positions have 0
# TimeN 2 Time binary seconds. Least sign. first, Most sign. last;
# unused:0
# ASCII-string 56 Various info depending on ECard-type; 20h (all spaces)
# when retr. from "history" (See ASCII-String)
# Checksum 1 Binary SUM (MOD 256) of all bytes including Preamble
# NULL-Filler 1 Binary 0 (to avoid potential 5 FF's. Making it easier to
# hunt PREAMBLE
# ---------------------------------------
# Size 234
#
# Status-message
# --------------
# Fieldname # bytes
# Preamble 4 FFFFFFFF(hex) (FFFFFFFF never occur elsewhere within
# a frame).
# Package-size 1 number of bytes excluding preamble (=55)
# Package-type 1 'S' as "Status-message" (0x53)
# MTR-id 2 Serial number of MTR2.
# CurrentTime 6 Binary Year, Month, Day, Hour, Minute, Second
# CurrentMilliseconds 2 Milliseconds NOT YET USED, WILL BE 0 IN THIS VERSION
# BatteryStatus 1 1 if battery low. 0 if battery OK.
# RecentPackage# 4 if this is 0, then ALL following # should be ignored!
# OldestPackage# 4 note: If RecentPack==0 then this is still 1! meaning:
# Number of packages in MTR is
# "RecentPackage# - OldestPackage# + 1"
# CurrentSessionStart# 4 Current session is from here to RecentPackage
# (if NOT = 0)
# Prev1SessStart# 4 Prev session was from Prev1SessStart# to
# CurrentSessionStart# - 1
# Prev2SessStart# 4
# Prev3SessStart# 4
# Prev4SessStart# 4
# Prev5SessStart# 4
# Prev6SessStart# 4
# Prev7SessStart# 4
# Checksum 1 Binary SUM (MOD 256) of all bytes including Preamble
# NULL-Filler 1 Binary 0 (to avoid potential 5 FF's. Making it easier
# to hunt PREAMBLE
# ---------------------------------------
# Size 59
import logging
logger = logging.getLogger()
def extend_with(old_items, new_items):
old_items.extend(new_items)
return new_items
def checksum_of(message_bytes):
return sum(message_bytes) % 256
class MtrReader:
def __init__(self, serial_port):
self.serial_port = serial_port
def send_status_command(self):
self.serial_port.write(b'/ST')
def send_spool_all_command(self):
self.serial_port.write(b'/SA')
def receive(self):
messages = []
timed_out = False
PREAMBLE = b'\xFF\xFF\xFF\xFF'
while not timed_out:
preamble_buffer = bytearray()
while preamble_buffer != PREAMBLE:
if len(preamble_buffer) == len(PREAMBLE):
# make room for incoming byte
preamble_buffer.pop(0)
bytes_read_waiting = self.serial_port.read()
timed_out = len(bytes_read_waiting) == 0
if timed_out:
logger.debug(
'Timed out, returning %d messages', len(messages))
return messages
preamble_buffer.extend(bytes_read_waiting)
logger.debug(
'Byte read waiting (hex): %s '
'(current preamble buffer: %s)',
bytes_read_waiting.hex(),
preamble_buffer.hex())
logger.debug('Saw preable, start package parsing')
message_bytes = bytearray()
message_bytes.extend(preamble_buffer)
package_size_numbytes = 1
package_type_numbytes = 1
package_size = int.from_bytes(
extend_with(
message_bytes,
self.serial_port.read(package_size_numbytes)),
'little')
package_type = int.from_bytes(
extend_with(
message_bytes,
self.serial_port.read(package_type_numbytes)),
'little')
num_remaining_bytes_expected = (
package_size
- package_size_numbytes
- package_type_numbytes)
remaining_bytes = self.serial_port.read(
num_remaining_bytes_expected)
if len(remaining_bytes) < num_remaining_bytes_expected:
logger.warning('Did not receive expected number of bytes')
continue
message_bytes.extend(remaining_bytes)
msg = None
if (package_type == ord('M')):
msg = MtrDataMessage(message_bytes)
elif package_type == ord('S'):
msg = MtrStatusMessage(message_bytes)
else:
logger.warning('Got unsupported package type %d', package_type)
continue
logger.info(
"Got message number %d (hex): %s",
len(messages) + 1, message_bytes.hex())
if not msg.is_checksum_valid():
logger.warning("Message has incorrect checksum")
continue
messages.append(msg)
return messages
class MtrStatusMessage:
def __init__(self, message_bytes):
self.message_bytes = message_bytes
def mtr_id(self):
return int.from_bytes(self.message_bytes[6:8], 'little')
def timestamp_year(self):
return int.from_bytes(self.message_bytes[8:9], 'little')
def timestamp_month(self):
return int.from_bytes(self.message_bytes[9:10], 'little')
def timestamp_day(self):
return int.from_bytes(self.message_bytes[10:11], 'little')
def timestamp_hours(self):
return int.from_bytes(self.message_bytes[11:12], 'little')
def timestamp_minutes(self):
return int.from_bytes(self.message_bytes[12:13], 'little')
def timestamp_seconds(self):
return int.from_bytes(self.message_bytes[13:14], 'little')
def timestamp_milliseconds(self):
return int.from_bytes(self.message_bytes[14:16], 'little')
def battery_status(self):
return int.from_bytes(self.message_bytes[16:17], 'little')
# package number fields not supported (yet)
def is_checksum_valid(self):
checksum = int.from_bytes(self.message_bytes[57:58], 'little')
# calculate checksum for message bytes up until checksum
calculated_checksum = checksum_of(self.message_bytes[:57])
logger.debug(
"Calculated checksum %d, read %d",
calculated_checksum, checksum)
return checksum == calculated_checksum
class MtrDataMessage:
def __init__(self, message_bytes):
self.message_bytes = message_bytes
def mtr_id(self):
return int.from_bytes(self.message_bytes[6:8], 'little')
def timestamp_year(self):
return int.from_bytes(self.message_bytes[8:9], 'little')
def timestamp_month(self):
return int.from_bytes(self.message_bytes[9:10], 'little')
def timestamp_day(self):
return int.from_bytes(self.message_bytes[10:11], 'little')
def timestamp_hours(self):
return int.from_bytes(self.message_bytes[11:12], 'little')
def timestamp_minutes(self):
return int.from_bytes(self.message_bytes[12:13], 'little')
def timestamp_seconds(self):
return int.from_bytes(self.message_bytes[13:14], 'little')
def timestamp_milliseconds(self):
return int.from_bytes(self.message_bytes[14:16], 'little')
def packet_num(self):
return int.from_bytes(self.message_bytes[16:20], 'little')
def card_id(self):
return int.from_bytes(self.message_bytes[20:23], 'little')
# product week (1 byte)
# product year (1 byte)
# ecard head checksum (1 byte)
def splits(self):
splits = []
splits_offset = 26
code_numbytes = 1
time_numbytes = 2
split_numbytes = code_numbytes + time_numbytes
for split_index in range(50):
code_offset = splits_offset + split_index * split_numbytes
time_offset = code_offset + code_numbytes
code = int.from_bytes(
self.message_bytes[code_offset:code_offset+code_numbytes],
'little')
time = int.from_bytes(
self.message_bytes[time_offset:time_offset+time_numbytes],
'little')
splits.append((code, time))
return splits
def ascii_string(self):
return self.message_bytes[176:232].decode('ascii')
def is_checksum_valid(self):
checksum = int.from_bytes(self.message_bytes[232:233], 'little')
# calculate checksum for message bytes up until checksum
calculated_checksum = checksum_of(self.message_bytes[:232])
logger.debug(
"Calculated checksum %d, read %d",
calculated_checksum, checksum)
return checksum == calculated_checksum

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import asyncio
import serial_asyncio
from rich.console import Console
from rich import inspect
from datetime import datetime
import mtrreader
import mtrlog
class OutputProtocol(asyncio.Protocol):
def connection_made(self, transport):
self.transport = transport
print('port opened', transport)
transport.serial.rts = False # You can manipulate Serial object via transport
transport.write(b'Hello, World!\n') # Write serial data via transport
def data_received(self, data):
print('data received', repr(data))
msg = mtrreader.MtrDataMessage(data)
inspect(msg)
print(mtrlog.MtrLogFormatter.format(self, msg, datetime.now()))
if b'\n' in data:
self.transport.close()
def connection_lost(self, exc):
print('port closed')
self.transport.loop.stop()
def pause_writing(self):
print('pause writing')
print(self.transport.get_write_buffer_size())
def resume_writing(self):
print(self.transport.get_write_buffer_size())
print('resume writing')
loop = asyncio.get_event_loop()
coro = serial_asyncio.create_serial_connection(loop, OutputProtocol, '/dev/ttyUSB0', baudrate=9600)
transport, protocol = loop.run_until_complete(coro)
loop.run_forever()
loop.close()