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Added standard python main()

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This patch adds the standard python main() and
the requisite test for the script name.
This commit is contained in:
Walter A. Boring IV 2018-11-21 11:56:35 -08:00
parent f3e386c485
commit 6ba6e14fdb
1 changed files with 167 additions and 165 deletions
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332
aprsd.py
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@ -8,7 +8,7 @@
# APRS messages:
# l(ocation) = descriptive location of calling station
# w(eather) = temp, (hi/low) forecast, later forecast
# t(ime) = respond with the current time
# 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
@ -33,7 +33,7 @@ from email.mime.text import MIMEText
import subprocess
import datetime
import calendar
from imapclient import IMAPClient, SEEN
from imapclient import IMAPClient, SEEN
import email
import threading
import signal
@ -114,8 +114,8 @@ def resend_email(count):
today = str(day) + "-" + month + "-" + str(year)
global shortcuts
shortcuts_inverted = dict([[v,k] for k,v in shortcuts.items()]) # swap key/value
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')
@ -158,18 +158,18 @@ def check_email_thread():
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
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))
@ -226,20 +226,20 @@ 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: "
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)
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
### end send_message_thread
def send_message(tocall, message):
@ -248,7 +248,7 @@ def send_message(tocall, message):
retry_count = 3
if message_number > 98: # global
message_number = 0
message_number += 1
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()
@ -273,21 +273,21 @@ def process_message(line):
m = re.search(searchstring, line)
fullmessage = m.group(1)
ack_attached = re.search('(.*){([0-9A-Z]+)', fullmessage) # ack formats include: {1, {AB}, {12
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)
return (fromcall, message, ack_num)
### end process_message()
@ -295,24 +295,24 @@ def send_email(to_addr, content):
print "Sending Email_________________"
global shortcuts
if to_addr in shortcuts:
print "To : " + to_addr ,
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
print "Body : " + content
msg = MIMEText(content)
msg['Subject'] = subject
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:
try:
s.sendmail("KM6XXX@yourdomain.org", [to_addr], msg.as_string())
except Exception, e:
print "Sendmail Error!!!!!!!!!"
print "Sendmail Error!!!!!!!!!"
s.quit()
return(-1)
s.quit()
@ -323,165 +323,167 @@ def send_email(to_addr, content):
### main() ###
try:
tn = telnetlib.Telnet(HOST, 14580)
except Exception, e:
print "Telnet session failed.\n"
sys.exit(-1)
def main():
try:
tn = telnetlib.Telnet(HOST, 14580)
except Exception, e:
print "Telnet session failed.\n"
sys.exit(-1)
time.sleep(2)
time.sleep(2)
tn.write("user " + USER + " pass " + PASS + " vers aprsd 0.99\n" )
tn.write("user " + USER + " pass " + PASS + " vers aprsd 0.99\n" )
time.sleep(2)
time.sleep(2)
check_email_thread() # start email reader thread
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")
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
# 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())
# 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
# 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())
# 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")
# 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?)"
# 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())
# 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
# 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())
except:
reply = "Unable to find you (send beacon?)"
# 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
# USAGE
else:
reply = "usage: time, fortune, loc, weath, -emailaddr emailbody, -#(resend)"
send_message(fromcall, reply)
except Exception, e:
print "Error in mainline loop:"
print "%s" % str(e)
print "Exiting."
#sys.exit(1) # merely a suggestion
os._exit(1)
time.sleep(1) # let any threads do their thing, then ack
send_ack(fromcall, ack) # send an ack last
# end while True
tn.close()
exit()
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()