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mirror of https://github.com/craigerl/aprsd.git synced 2024-11-08 17:46:09 -05:00
aprsd/aprsd.py
2018-11-21 12:45:13 -08:00

489 lines
19 KiB
Python

#!/usr/bin/python -u
#
# Listen on amateur radio aprs-is network for messages and respond to them.
# You must have an amateur radio callsign to use this software. Put your
# callsign in the "USER" variable and update your aprs-is password in "PASS".
# You must also have an imap email account available for polling.
#
# APRS messages:
# l(ocation) = descriptive location of calling station
# w(eather) = temp, (hi/low) forecast, later forecast
# t(ime) = respond with the current time
# f(ortune) = respond with a short fortune
# -email_addr email text = send an email
# -2 = display the last 2 emails received
# p(ing) = respond with Pong!/time
# anything else = respond with usage
#
# (C)2018 Craig Lamparter
# License GPLv2
#
from fuzzyclock import fuzzy
import json
import urllib
import sys
import os
import telnetlib
import time
import re
from random import randint
import smtplib
from email.mime.text import MIMEText
import subprocess
import datetime
import calendar
from imapclient import IMAPClient, SEEN
import email
import threading
import signal
import pprint
# localization, please edit:
HOST = "noam.aprs2.net" # north america tier2 servers round robin
USER = "KM6XXX-9" # callsign of this aprs client with SSID
PASS = "99999" # google how to generate this
BASECALLSIGN = "KM6XXX" # callsign of radio in the field to which we send email
shortcuts = {
"aa" : "5551239999@vtext.com",
"cl" : "craiglamparter@somedomain.org",
"wb" : "5553909472@vtext.com"
}
# globals - tell me a better way to update data being used by threads
email_sent_dict = {} # message_number:time combos so we don't resend the same email in five mins {int:int}
ack_dict = {} # message_nubmer:ack combos so we stop sending a message after an ack from radio {int:int}
message_number = 0 # current aprs radio message number, increments for each message we send over rf {int}
try:
tn = telnetlib.Telnet(HOST, 14580)
except Exception, e:
print "Telnet session failed.\n"
sys.exit(-1)
def signal_handler(signal, frame):
print("Ctrl+C, exiting.")
#sys.exit(0) # thread ignores this
os._exit(0)
signal.signal(signal.SIGINT, signal_handler)
### end signal_handler
def parse_email(msgid, data, server):
envelope = data[b'ENVELOPE']
#print('ID:%d "%s" (%s)' % (msgid, envelope.subject.decode(), envelope.date ))
f = re.search('([\.\w_-]+@[\.\w_-]+)', str(envelope.from_[0]) ) # email address match
if f is not None:
from_addr = f.group(1)
else:
from_addr = "noaddr"
m = server.fetch([msgid], ['RFC822'])
msg = email.message_from_string(m[msgid]['RFC822'])
if msg.is_multipart():
text = ""
html = None
body = "* unreadable msg received" # default in case body somehow isn't set below - happened once
for part in msg.get_payload():
if part.get_content_charset() is None:
# We cannot know the character set, so return decoded "something"
text = part.get_payload(decode=True)
continue
charset = part.get_content_charset()
if part.get_content_type() == 'text/plain':
text = unicode(part.get_payload(decode=True), str(charset), "ignore").encode('utf8', 'replace')
if part.get_content_type() == 'text/html':
html = unicode(part.get_payload(decode=True), str(charset), "ignore").encode('utf8', 'replace')
if text is not None:
body = text.strip() # strip removes white space fore and aft of string
else:
body = html.strip()
else:
text = unicode(msg.get_payload(decode=True), msg.get_content_charset(), 'ignore').encode('utf8', 'replace')
body = text.strip()
body = re.sub('<[^<]+?>', '', body) # strip all html tags
body = body.replace("\n", " ").replace("\r", " ") # strip CR/LF, make it one line, .rstrip fails at this
return(body, from_addr)
## end parse_email
def resend_email(count):
date = datetime.datetime.now()
month = date.strftime("%B")[:3] # Nov, Mar, Apr
day = date.day
year = date.year
today = str(day) + "-" + month + "-" + str(year)
global shortcuts
shortcuts_inverted = dict([[v,k] for k,v in shortcuts.items()]) # swap key/value
server = IMAPClient('imap.yourdomain.com', use_uid=True)
server.login('KM6XXX@yourdomain.org', 'yourpassword')
select_info = server.select_folder('INBOX')
messages = server.search(['SINCE', today])
#print("%d messages received today" % len(messages))
msgexists = False
messages.sort(reverse=True)
del messages[int(count):] # only the latest "count" messages
for message in messages:
for msgid, data in list(server.fetch(message, ['ENVELOPE']).items()): # one at a time, otherwise order is random
(body, from_addr) = parse_email(msgid, data, server)
server.remove_flags(msgid, [SEEN]) # unset seen flag, will stay bold in email client
if from_addr in shortcuts_inverted: # reverse lookup of a shortcut
from_addr = shortcuts_inverted[from_addr]
reply = "-" + from_addr + " * " + body # asterisk indicates a resend
send_message(fromcall, reply)
msgexists = True
if msgexists is not True:
stm = time.localtime()
h = stm.tm_hour
m = stm.tm_min
s = stm.tm_sec
# append time as a kind of serial number to prevent FT1XDR from thinking this is a duplicate message.
# The FT1XDR pretty much ignores the aprs message number in this regard. The FTM400 gets it right.
reply = "No new msg " + str(h).zfill(2) + ":" + str(m).zfill(2) + ":" + str(s).zfill(2)
send_message(fromcall, reply)
server.logout()
### end resend_email()
def check_email_thread():
# print "Email thread disabled."
# return
threading.Timer(55, check_email_thread).start() # how do we skip first run?
global shortcuts
shortcuts_inverted = dict([[v,k] for k,v in shortcuts.items()]) # swap key/value
date = datetime.datetime.now()
month = date.strftime("%B")[:3] # Nov, Mar, Apr
day = date.day
year = date.year
today = str(day) + "-" + month + "-" + str(year)
server = IMAPClient('imap.yourdomain.com', use_uid=True)
server.login('KM6XXX@yourdomain.org', 'yourpassword')
select_info = server.select_folder('INBOX')
messages = server.search(['SINCE', today])
#print("%d messages received today" % len(messages))
for msgid, data in server.fetch(messages, ['ENVELOPE']).items():
envelope = data[b'ENVELOPE']
#print('ID:%d "%s" (%s)' % (msgid, envelope.subject.decode(), envelope.date ))
f = re.search('([[A-a][0-9]_-]+@[[A-a][0-9]_-\.]+)', str(envelope.from_[0]) )
if f is not None:
from_addr = f.group(1)
else:
from_addr = "noaddr"
if "APRS" not in server.get_flags(msgid)[msgid]: #if msg not flagged as sent via aprs
m = server.fetch([msgid], ['RFC822'])
(body, from_addr) = parse_email(msgid, data, server)
server.remove_flags(msgid, [SEEN]) # unset seen flag, will stay bold in email client
if from_addr in shortcuts_inverted: # reverse lookup of a shortcut
from_addr = shortcuts_inverted[from_addr]
reply = "-" + from_addr + " " + body
#print "Sending message via aprs: " + reply
send_message(BASECALLSIGN, reply) #radio
server.add_flags(msgid, ['APRS']) #flag message as sent via aprs
server.remove_flags(msgid, [SEEN]) #unset seen flag, will stay bold in email client
server.logout()
### end check_email()
def send_ack_thread(tocall, ack, retry_count):
tocall = tocall.ljust(9) # pad to nine chars
line = USER + ">APRS::" + tocall + ":ack" + str(ack) + "\n"
for i in range(retry_count, 0, -1):
print "Sending ack __________________ Tx(" + str(i) + ")"
print "Raw : " + line,
print "To : " + tocall
print "Ack number : " + str(ack)
tn.write(line)
time.sleep(31) # aprs duplicate detection is 30 secs? (21 only sends first, 28 skips middle)
return()
### end_send_ack_thread
def send_ack(tocall, ack):
retry_count = 3
thread = threading.Thread(target = send_ack_thread, args = (tocall, ack, retry_count))
thread.start()
return()
### end send_ack()
def send_message_thread(tocall, message, this_message_number, retry_count):
global ack_dict
line = USER + ">APRS::" + tocall + ":" + message + "{" + str(this_message_number) + "\n"
for i in range(retry_count, 0, -1):
print "DEBUG: send_message_thread msg:ack combos are: "
pprint.pprint(ack_dict)
if ack_dict[this_message_number] != 1:
print "Sending message_______________ " + str(this_message_number) + "(Tx" + str(i) + ")"
print "Raw : " + line,
print "To : " + tocall
print "Message : " + message
tn.write(line)
sleeptime = (retry_count - i + 1) * 31 # decaying repeats, 31 to 93 second intervals
time.sleep(sleeptime)
else:
break
return
### end send_message_thread
def send_message(tocall, message):
global message_number
global ack_dict
retry_count = 3
if message_number > 98: # global
message_number = 0
message_number += 1
if len(ack_dict) > 90: # empty ack dict if it's really big, could result in key error later
print "DEBUG: Length of ack dictionary is big at " + str(len(ack_dict)) + " clearing."
ack_dict.clear()
pprint.pprint(ack_dict)
print "DEBUG: Cleared ack dictionary, ack_dict length is now " + str(len(ack_dict)) + "."
ack_dict[message_number] = 0 # clear ack for this message number
tocall = tocall.ljust(9) # pad to nine chars
message = message[:67] # max? ftm400 displays 64, raw msg shows 74
# and ftm400-send is max 64. setting this to
# 67 displays 64 on the ftm400. (+3 {01 suffix)
# feature req: break long ones into two msgs
thread = threading.Thread(target = send_message_thread, args = (tocall, message, message_number, retry_count))
thread.start()
return()
### end send_message()
def process_message(line):
f = re.search('^(.*)>', line)
fromcall = f.group(1)
searchstring = '::' + USER + '[ ]*:(.*)' # verify this, callsign is padded out with spaces to colon
m = re.search(searchstring, line)
fullmessage = m.group(1)
ack_attached = re.search('(.*){([0-9A-Z]+)', fullmessage) # ack formats include: {1, {AB}, {12
if ack_attached: # "{##" suffix means radio wants an ack back
message = ack_attached.group(1) # message content
ack_num = ack_attached.group(2) # suffix number to use in ack
else:
message = fullmessage
ack_num = "0" # ack not requested, but lets send one as 0
print "Received message______________"
print "Raw : " + line
print "From : " + fromcall
print "Message : " + message
print "Msg number : " + str(ack_num)
return (fromcall, message, ack_num)
### end process_message()
def send_email(to_addr, content):
print "Sending Email_________________"
global shortcuts
if to_addr in shortcuts:
print "To : " + to_addr ,
to_addr = shortcuts[to_addr]
print " (" + to_addr + ")"
subject = BASECALLSIGN
#content = content + "\n\n(NOTE: reply with one line)"
print "Subject : " + subject
print "Body : " + content
msg = MIMEText(content)
msg['Subject'] = subject
msg['From'] = "KM6XXX@yourdomain.org"
msg['To'] = to_addr
s = smtplib.SMTP_SSL('smtp.yourdomain.com', 465)
s.login("KM6XXX@yourdomain.org", "yourpassword")
try:
s.sendmail("KM6XXX@yourdomain.org", [to_addr], msg.as_string())
except Exception, e:
print "Sendmail Error!!!!!!!!!"
s.quit()
return(-1)
s.quit()
return(0)
### end send_email
### main() ###
def main():
time.sleep(2)
tn.write("user " + USER + " pass " + PASS + " vers aprsd 0.99\n" )
time.sleep(2)
check_email_thread() # start email reader thread
while True:
line = ""
try:
for char in tn.read_until("\n",100):
line = line + char
line = line.replace('\n', '')
print line
searchstring = '::' + USER
if re.search(searchstring, line): # is aprs message to us, not beacon, status, etc
(fromcall, message, ack) = process_message(line)
else:
message = "noise"
continue
# ACK (ack##)
if re.search('^ack[0-9]+', message):
a = re.search('^ack([0-9]+)', message) # put message_number:1 in dict to record the ack
ack_dict.update({int(a.group(1)):1})
continue
# EMAIL (-)
elif re.search('^-.*', message): # is email command
searchstring = '^' + BASECALLSIGN + '.*'
if re.search(searchstring, fromcall): # only I can do email
r = re.search('^-([0-9])[0-9]*$', message) # digits only, first one is number of emails to resend
if r is not None:
resend_email(r.group(1))
elif re.search('^-([A-Za-z0-9_\-\.@]+) (.*)', message): # -user@address.com body of email
a = re.search('^-([A-Za-z0-9_\-\.@]+) (.*)', message) # (same search again)
if a is not None:
to_addr = a.group(1)
content = a.group(2)
if content == 'mapme': # send recipient link to aprs.fi map
content = "Click for my location: http://aprs.fi/" + BASECALLSIGN
too_soon = 0
now = time.time()
if ack in email_sent_dict: # see if we sent this msg number recently
timedelta = now - email_sent_dict[ack]
if ( timedelta < 300 ): # five minutes
too_soon = 1
if not too_soon or ack == 0:
send_result = send_email(to_addr, content)
if send_result != 0:
send_message(fromcall, "-" + to_addr + " failed")
else:
#send_message(fromcall, "-" + to_addr + " sent")
if len(email_sent_dict) > 98: # clear email sent dictionary if somehow goes over 100
print "DEBUG: email_sent_dict is big (" + str(len(email_sent_dict)) + ") clearing out."
email_sent_dict.clear()
email_sent_dict[ack] = now
else:
print "\nEmail for message number " + ack + " recently sent, not sending again.\n"
else:
send_message(fromcall, "Bad email address")
# TIME (t)
elif re.search('^t', message):
stm = time.localtime()
h = stm.tm_hour
m = stm.tm_min
cur_time = fuzzy(h, m, 1)
reply = cur_time + " (" + str(h) + ":" + str(m).rjust(2, '0') + "PDT)" + " (" + message.rstrip() + ")"
thread = threading.Thread(target = send_message, args = (fromcall, reply))
thread.start()
# FORTUNE (f)
elif re.search('^f', message):
process = subprocess.Popen(['/usr/games/fortune', '-s', '-n 60'], stdout=subprocess.PIPE)
reply = process.communicate()[0]
send_message(fromcall, reply.rstrip())
# PING (p)
elif re.search('^p', message):
stm = time.localtime()
h = stm.tm_hour
m = stm.tm_min
s = stm.tm_sec
reply = "Pong! " + str(h).zfill(2) + ":" + str(m).zfill(2) + ":" + str(s).zfill(2)
send_message(fromcall, reply.rstrip())
# LOCATION (l) "8 Miles E Auburn CA 1771' 38.91547,-120.99500 0.1h ago"
elif re.search('^l', message):
# get my last location, get descriptive name from weather service
try:
url = "http://api.aprs.fi/api/get?name=" + fromcall + "&what=loc&apikey=104070.f9lE8qg34L8MZF&format=json"
response = urllib.urlopen(url)
aprs_data = json.loads(response.read())
lat = aprs_data['entries'][0]['lat']
lon = aprs_data['entries'][0]['lng']
try: # altitude not always provided
alt = aprs_data['entries'][0]['altitude']
except:
alt = 0
altfeet = int(alt * 3.28084)
aprs_lasttime_seconds = aprs_data['entries'][0]['lasttime']
aprs_lasttime_seconds = aprs_lasttime_seconds.encode('ascii',errors='ignore') #unicode to ascii
delta_seconds = time.time() - int(aprs_lasttime_seconds)
delta_hours = delta_seconds / 60 / 60
url2 = "https://forecast.weather.gov/MapClick.php?lat=" + str(lat) + "&lon=" + str(lon) + "&FcstType=json"
response2 = urllib.urlopen(url2)
wx_data = json.loads(response2.read())
reply = wx_data['location']['areaDescription'] + " " + str(altfeet) + "' " + str(lat) + "," + str(lon) + " " + str("%.1f" % round(delta_hours,1)) + "h ago"
reply = reply.encode('ascii',errors='ignore') # unicode to ascii
send_message(fromcall, reply.rstrip())
except:
reply = "Unable to find you (send beacon?)"
send_message(fromcall, reply.rstrip())
# WEATHER (w) "42F(68F/48F) Haze. Tonight, Haze then Chance Rain."
elif re.search('^w', message):
# get my last location from aprsis then get weather from weather service
try:
url = "http://api.aprs.fi/api/get?name=" + fromcall + "&what=loc&apikey=104070.f9lE8qg34L8MZF&format=json"
response = urllib.urlopen(url)
aprs_data = json.loads(response.read())
lat = aprs_data['entries'][0]['lat']
lon = aprs_data['entries'][0]['lng']
url2 = "https://forecast.weather.gov/MapClick.php?lat=" + str(lat) + "&lon=" + str(lon) + "&FcstType=json"
response2 = urllib.urlopen(url2)
wx_data = json.loads(response2.read())
reply = wx_data['currentobservation']['Temp'] + "F(" + wx_data['data']['temperature'][0] + "F/" + wx_data['data']['temperature'][1] + "F) " + wx_data['data']['weather'][0] + ". " + wx_data['time']['startPeriodName'][1] + ", " + wx_data['data']['weather'][1] + "."
reply = reply.encode('ascii',errors='ignore') # unicode to ascii
send_message(fromcall, reply.rstrip())
except:
reply = "Unable to find you (send beacon?)"
send_message(fromcall, reply)
# USAGE
else:
reply = "usage: time, fortune, loc, weath, -emailaddr emailbody, -#(resend)"
send_message(fromcall, reply)
time.sleep(1) # let any threads do their thing, then ack
send_ack(fromcall, ack) # send an ack last
except Exception, e:
print "Error in mainline loop:"
print "%s" % str(e)
print "Exiting."
#sys.exit(1) # merely a suggestion
os._exit(1)
# end while True
tn.close()
exit()
if __name__ == "__main__":
main()