Author(s): Keith Murray
Contact: [email protected]
Assuming the getKeys.py file has been properly filled out and the program has been installed correctly:
# Import Module
import kmmessage
toPhoneSMS = "[email protected]"
toPhoneMMS = "1234567890@@pm.sprint.com"
toEmailAddr1 = "[email protected]"
toEmailAddr2 = "[email protected]"
# A simple SMS:
msg = "A Simple Text Message.\nHello Phone!"
kmmessage.sms_message_Send(toPhoneSMS, msg)
# An MMS with an Image:
msg = "Here's a pretty Picture"
fl = 'BadParrot.jpg'
kmmessage.mms_message_Send(recip=toPhoneMMS, msg=msg, media_FilePath=fl)
# The MMS leaves an empty text string which I cant' easily hide
# A standard email
recips = [toEmailAddr1] # expects a list to have multiple recipients
subj = "Hello, This is a simple email!"
msg = "Not a whole lot of importance here"
fls = ['BadParrot.jpg'] # As above, expects a list for multiple attached files
kmmessage.message_Send_Full_Email(recip=recips, subject=subj, text=msg, files=fls)
# Check for New Emails
# I only care who it's from and what the body text says in my use cases
fromAddrs, msgBodies = checkForMessage()
Phone carriers will ignore incoming messages randomly (especially MMS). Just because a message is successfully sent does not mean it will be recieved.
Because you need to connect the library with a gmail account, and setup default sms, mms, and email accounts the install is messy.
First clone the repo
git clone --recursive https://github.com/CrakeNotSnowman/Python_Message.git
inside the kmmessage folder (at the same level as the __init__.py file) you will need to edit the getKeys.py file with the following structure
def GETEMAIL():
# Your Messaging Gmail Username (From Addr)
# Your Messaging Gmail Password (From Pass)
# Full Gmail Address (From Email)
# Default To Address for SMS: [10-digit phone number]@carrier.sms.portal
# Default To Address for MMS: [10-digit phone number]@carrier.mms.portal
# Default To Address for Standard Email: [email protected]
username = 'gmailUserName'
password = 'gmailPass'
fromaddr = '[email protected]'
toaddrsSMS = '[email protected]'
toaddrsMMS = '[email protected]'
toaddrEmail = '[email protected]' #
return [username, password, fromaddr, toaddrsSMS, toaddrsMMS, toaddrEmail]
Fill out the varibles with your corrosponding information, and save the file.
At the folder top level, run
pip install .
or pip install -e .
to install allowing for changes to the code to be automatically reflected in future uses of the library.
https://python-packaging.readthedocs.io/en/latest/minimal.html
Often time there will be a program that needs user input but it is not reasonable to have the user wait by the computer. This is the perfect time to send a text asking what to do in a given sittuation.
The key componets of this are get get_UserInput()
and getUserFeedbackViaText()
get_UserInput
a set of allowed replies to recieve via text, and assumes the use case is a yes or no sittuation. If the text the program recieves is not an expected affirmative, it assumes it's being told not to activate the conditional.
getUserFeedbackViaText
is much more complex. This is actually a sample of code I have in a larger program.
User inputs are the outgoing message, recipient address, and the time delay between each resend of the message in case the message is not recieved by the user's phone.
Initally, it defines the amount of time the program is willing to wait for a reply. If that time is exceeded, the function returns an empty string. There is also a risk that the text message is never recieved, so it has an allowed number of resends, as well as a user defined number of minutes in between retries.
Next it flushes the unread emails from the POP libs perspective. This bounds the emails which the program checks to between the start time and max stop time of this function.
Finally the question is sent to the end user
Then the program enters a while loop, where it checks gmails for a new email about once every 30 seconds. If there is a new email, it checks to see if it's sent from the address of the end user (the same address it had just send the question to).
In the while loop there are checks to see if another message should be sent, or if the max wait time has been exceeded.
Outside of that the sample code is just a standard foo() function which waits to be told whether or not it should execute the conditional. At the end of the whole program it sends a text message letting the user know the program has completed. That message could easily be turned into an email with an attached pdf report about the programs output and results.
# Import Module
import kmmessage
toPhoneSMS = "[email protected]"
toPhoneMMS = "1234567890@@pm.sprint.com"
toEmailAddr1 = "[email protected]"
toEmailAddr2 = "[email protected]"
def get_UserInput():
sms_msg = "Should I do the thing?"
reply = getUserFeedbackViaText(outgoingMsg=sms_msg, recipAddr=toPhoneSMS).strip()
print(reply)
doTheThing=False
if reply.lower() in ['y', 'yes']:
print("Zhu Li DO THE THING!")
doTheThing=True
else:
print("Aw. Nevermind Zhu Li.")
doTheThing=False
return doTheThing
def getUserFeedbackViaText(outgoingMsg, recipAddr, tryAgainDelayMin=5):
"""
Sends a text message to the recipient and waits for a reply
Parameters
----------
outgoingMsg : str
The message going to the user
recipAddr : str
Email Address string the recipient is at
tryAgainDelayMin : int
Number of minutes between each repeated sent message. Networks don't often
prioritize these messages, and 'loose' them fairly frequently, or don't
pass them through until multiple hours have passed. If there's no reply
in `tryAgainDelayMin` time, another message is sent, until `resendTotalCount`
attempts have been made
Returns
-------
msg : str
The body of the email recieved IF it came in after the outgoing message was
sent and before the `hardStopLimitMin` timelimit has been reached and was
sent by the same address as `recipAddr`. If `hardStopLimitMin` is reached,
returns an empty string.
Notes
-----
It's not the cleanest function, but it works
Eventually I will build in a varible that mutes the messages between a defined
timespan (night or during work hours)
"""
# Bodge it
quietAtNight = False
tryResending = True
resendTotalCount = 3
if tryAgainDelayMin == -1:
tryResending = False
hardStopLimitMin = 60
# Flush pop queue
msg_From, msg_Body = kmmessage.checkForMessage()
# Message User
kmmessage.sms_message_Send(msg=outgoingMsg, recip=recipAddr)
# wait for reply
startTime = time.time()
shortWaitStart = startTime
sentCount = 1
while True:
timeSince = time.time() - startTime
# Hard break if there's been no reply for a long period
if timeSince > hardStopLimitMin*60:
# It's over, we've waited too long. Time to move on
msg = ""
break
# Resend message in case it got lost (happens mildly often)
# Happened, 3 messages, zero recieved
if tryResending:
if sentCount < resendTotalCount:
if (time.time() - shortWaitStart) > (tryAgainDelayMin * 60):
kmmessage.sms_message_Send(msg=outgoingMsg, recip=recipAddr)
sentCount += 1
shortWaitStart = time.time()
# Wait and check for new email
time.sleep(30)
msg_From, msg_Body = kmmessage.checkForMessage()
msg = ""
# Parse new emails to see if they're from recipAddr
for i in range(len(msg_From)):
trimmed = msg_From[i].strip('<').strip('>')
print(recipAddr, trimmed)
if recipAddr == trimmed:
msg = msg_Body[i]
break
if msg != "":
break
return msg
def theThing():
print("Something Special")
return
def bar():
# this is no fun.
return
def foo():
# Large Complex function that takes a lot of time
time.sleep(30)
# Walk away from the computer at some point, and bam, a condtional
# which requires user input pops up
conditional = True
if conditional:
# Time to ask what to do
doTheThing = get_UserInput()
if doTheThing:
theThing()
else:
bar()
# Takes more time to run
time.sleep(30)
kmmessage.sms_message_Send(toPhoneSMS, msg="All Done!")