def sendSMS(): # enter all the details # get app_key and app_secret by registering # a app on sinchSMS # e0dfdf4e51b248bdbb0b8fbdaa5948e8 #b1b93f20210d4ca3945eb5a8710f80e3 number = sys.argv[1] app_secret = '' app_key = '' # enter the message to be sent message = 'Hello Message!!!' client = SinchSMS(app_key, app_secret) print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) # keep trying unless the status retured is Successful while response['status'] != 'Successful': print(response['status']) time.sleep(1) response = client.check_status(message_id) print(response['status'])
def sendSMS(number, message): # enter all the details # get app_key and app_secret by registering # a app on sinchSMS number = number app_key = '3a920ae8bc014bee983b186e809f38ab' app_secret = '3cbdc5a58dd04bc2a228cb106ad81acd ' # enter the message to be sent client = SinchSMS(app_key, app_secret) print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) # keep trying unless the status retured is Successful while response['status'] != 'Successful': print(response['status']) time.sleep(1) response = client.check_status(message_id) print(response['status']) return response['status']
def drivercode(): client = SinchSMS('826e4cc7-3f6e-4fa2-a9a6-176ccec744c2', 'iDeaWwa6S0yMxrTt4ohqcA==') db, conn1 = connector() mailid = session_name() booked = db.bookedRides rides = db.offerride activeRides = db.activeRides codeValue = session.get('code', None) starttime = rides.find_one({'mailid': mailid, 'code': codeValue}) passengerRides = [] for document in booked.find({ 'route.mailid': mailid, 'route.time': starttime['Time'] }): passengerRides.append(document) if request.method == 'POST': phno = booked.find({'route.mailid': mailid}) for phno in booked.find({'route.mailid': session_name()}): phno1 = phno['route']['phno'] print(phno1) number = '+91' + phno1 print(number) number = '+918237822234' message = 'Your Ride has started .' print("ABC") client.send_message(number, message) rides.find_one_and_delete({'code': codeValue}) return redirect(url_for('insidelogin.profile')) return render_template('AfterLogin/congrat.html', code=codeValue, time=starttime['Time'], passengerRides=passengerRides)
def sendSMS(): number = 'your_mobile_number' app_key = 'your_app_key' app_secret = 'your_app_secret' # enter the message to be sent message = input('Enter Message :') client = SinchSMS(app_key, app_secret) print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) # keep trying unless the status retured is Successful while response['status'] != 'Successful': print(response['status']) time.sleep(1) response = client.check_status(message_id) print(response['status']) if __name__ == "__main__": sendSMS()
def sendSMS(): # enter all the details # get app_key and app_secret by registering # a app on sinchSMS number = '8193293755' app_key = 'baf8461b-74c9-402b-badd-83a828820d9c' app_secret = 'UNER/xJGN0uM+O3ZA4brOQ==' # enter the message to be sent message = 'FALERT !! FALL DETECTED IN CAM1 AT TIME: ' + str( datetime.datetime.now()) client = SinchSMS(app_key, app_secret) print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) # keep trying unless the status retured is Successful while response['status'] != 'Successful': print(response['status']) time.sleep(1) response = client.check_status(message_id) print(response['status'])
def sendSMS(): # enter all the details # get app_key and app_secret by registering # a app on sinchSMS number = '+15519985623' app_key = '3d9b663924964d7391b8e0449fd21e4a' app_secret = '3d9b663924964d7391b8e0449fd21e4a' # enter the message to be sent message = 'Hello Message!!!' client = SinchSMS(app_key, app_secret) print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) # keep trying unless the status retured is Successful while response['status'] != 'Successful': print(response['status']) time.sleep(1) response = client.check_status(message_id) print(response['status'])
def sendSMS(): # enter all the details # get app_key and app_secret by registering # a app on sinchSMS number = '+917908504352' app_key = 'c646f3de015f4c83a41edea5ed57e830' app_secret = 'ae36d1aa396b4f10950c19f2407276b6' # enter the message to be sent message = 'Hello Message!!!' print("sending sms") client = SinchSMS(app_key, app_secret) print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) # keep trying unless the status retured is Successful while response['status'] != 'Successful': print(response['status']) time.sleep(1) response = client.check_status(message_id) print(response['status'])
def sendSMS(): # enter all the details # get app_key and app_secret by registering # a app on sinchSMS number = '+919690503556' app_secret = 'P0q02HeH60OMMKokwb/xkw==' app_key = '378cb6cd-5655-4108-8172-fd3474fb6e3a' # enter the message to be sent message = 'Hey Rohit! Someone plugged a usb device in your system' client = SinchSMS(app_key, app_secret) print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) # keep trying unless the status retured is Successful while response['status'] != 'Successful': print(response['status']) time.sleep(1) response = client.check_status(message_id) print(response['status'])
def sendSMS(): # enter all the details # get app_key and app_secret by registering # a app on sinchSMS number = 'your_mobile_number' app_key = 'your_app_key' app_secret = 'your_app_secret' SMS_SERVER_SINCH_API_KEY = 'c44ef77212934112a20363646cc88d5c' SMS_SERVER_SINCH_API_SECRET = '4c44f46fc5294ac4981610233390b79f' SMS_SERVER_SINCH_FROM_NUMBER = '35799599819' app_key = SMS_SERVER_SINCH_API_KEY app_secret = SMS_SERVER_SINCH_API_SECRET number = '35799359864' # enter the message to be sent message = 'Hello Message!!!' client = SinchSMS(app_key, app_secret) print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) # keep trying unless the status retured is Successful while response['status'] != 'Successful': print(response['status']) time.sleep(1) response = client.check_status(message_id) print(response['status'])
def sendSMS(ell,yolo,coordinates): # enter all the details # get app_key and app_secret by registering # a app on sinchSMS port.write('AT+CMGS="+918437593296"'+'\r\n') rcv = port.read(10) number = '+918437593296' app_key = '23e0f50a-749b-4e91-b567-6b39ca381854' app_secret = 'GHgxRvVaNEC9B2J0RXGI+g==' results_of_yolo_ell=str(yolo)+" people carrying "+ str(ell)+" number of weapons" # enter the message to be sent message = " '%s' : I am feeling unsafe at '%s', there are '%s' around me"%(date,location_cords,results_of_yolo_ell) client = SinchSMS(app_key, app_secret) print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) # keep trying unless the status retured is Successful while response['status'] != 'Successful': print(response['status']) time.sleep(1) response = client.check_status(message_id) print(response['status'])
def sendSMS(): # enter all the details # get app_key and app_secret by registering # a app on sinchSMS number = '8193293755' app_key = 'baf8461b-74c9-402b-badd-83a828820d9c' app_secret = 'UNER/xJGN0uM+O3ZA4brOQ==' # enter the message to be sent message = 'Fall Detected - Patient needs help in room 108' client = SinchSMS(app_key, app_secret) print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) # keep trying unless the status retured is Successful while response['status'] != 'Successful': print(response['status']) time.sleep(1) response = client.check_status(message_id) print(response['status'])
def sendSMS(): # enter all the details # get app_key and app_secret by registering # a app on sinchSMS number = '9404152440' app_key = '0a9f97ef1efc416094bd7cca5de5b539' app_secret = '78885cf86a7a44dca549b49532205def' # enter the message to be sent message = 'Hello Message!!!' client = SinchSMS(app_key, app_secret) print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) # keep trying unless the status retured is Successful while response['status'] != 'Successful': print(response['status']) time.sleep(1) response = client.check_status(message_id) print(response['status'])
def otp(): self.email = input('Enter your email Address: ') number = input('Enter your mobile number: ') while len(number) != 10 and number not in ['7702167946']: number = input('Input valid mobile number: ') number = '+91' + number otp = random.randrange(1000,9999,2) otp = str(otp) message = f'Book My Cinema never calls you asking for OTP. OTP is confidential. For security reasons, do not share this OTP with anyone. Your OTP is {otp} ' client = SinchSMS('660367af-18ff-42ca-89d2-8856dcba78dd','fijjTkW5jkuaCARwJlGnKA==') print("Sending '%s' to %s" % ('OTP', number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) while response['status'] != 'Successful': time.sleep(1) response = client.check_status(message_id) u_otp = input('Enter the 4 digit otp: ') while u_otp != otp: u_otp = input('Enter valid 4 digit otp!!: ') print('OTP matched!!')
class Dispatcher: SN_KEY = None SN_SEC = None client = None message_queue = {} confirmation_queue = [] def __init__(self): self.SN_KEY = sc.key self.SN_SEC = sc.secret self.client = SinchSMS(self.SN_KEY, self.SN_SEC) threading.Timer(6, self.confirm).start() def queue(self, message, number): if not number in self.message_queue: self.message_queue[number] = [message] else: if message in self.message_queue[number]: raise ValueError("Queueing the same message to a number more than once is not allowed!") if message == "": raise ValueError("Queueing empty messages is not allowed!") self.message_queue[number].append(message) return True def dispatch(self, callback = None): dispatch_count = 0 for number in self.message_queue: grouped_message = "" for message in self.message_queue[number]: grouped_message += "{0}\n".format(message) response = self.client.send_message(number, grouped_message) dispatch_count += 1 message_entity = { 'receiver': number, 'text': grouped_message, 'id': response['messageId'], 'ttl': 10 } self.confirmation_queue.append(message_entity) self.message_queue = {} if callback: callback({'dispatched': dispatch_count}) def confirm(self): unconfirmed = [] if not self.confirmation_queue == None: for msg in self.confirmation_queue: status = self.client.check_status(msg['id']) if not status == 'Successful': msg['ttl'] -= 1 if msg['ttl'] == 0: raise TimeoutError("Could not send message to {nr}! Confirmation timeout\nContent: {text}".format(nr=msg['receiver'], text=msg['text'])) unconfirmed.append(msg) else: msg['callback']({'receiver': msg['receiver'], 'message': msg['text']}) self.confirmation_queue = unconfirmed
def smssend(): client = SinchSMS( XXXXXXXXXXXX, XXXXXXXXXXXXX ) #use your userID and password that you can get after creating the account number = XXXXXXXXXXXXX #place the number that you want to send message speech("yes i can") speech("tell me the message") message = speechtotext() print('sending message to ' + number) response = client.send_message(number, message) '''response=response['messages'][0]
def send_message(e): message = '{} crashed with error: {}'.format(settings.user, e) client = SinchSMS(settings.app_key, settings.app_secret) print("Sending '{}' to {}".format(message, settings.number)) response = client.send_message(settings.number, message) message_id = response['messageId'] response = client.check_status(message_id) while response['status'] != 'Successful': print(response['status']) time.sleep(1) response = client.check_status(message_id) print(response['status'])
def sms_send(number,message): client = SinchSMS('df5a3b30-0728-403f-9ccf-1efa4e570bd7','BLDUeKvHvEWbkcpnLId6AA==') print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) while response['status'] != 'Successful': print(response['status']) time.sleep(1) response = client.check_status(message_id) print(response['status'])
def send_sms(): '''Send an SMS ''' client = SinchSMS(TOKEN, SECRET) number = NUMBER message = 'Alarm was triggered' response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) while response['status'] != 'Successful': sleep(DELAY_ALARM) response = client.check_status(message_id)
def sendSMS(id): number = 'mobile_number' app_key = 'app key' app_secret = 'secret key' message = "Hi \n" + str(id) + " is at your door step" client = SinchSMS(app_key, app_secret) print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) while response['status'] != 'Successful': print(response['status']) time.sleep(1) response = client.check_status(message_id) print(response['status'])
def send_sms(message): number = '+447904597237' client = SinchSMS('0a0cb8f3-829b-4613-b34c-f96ed8a94978', 'ATOI/bqb0E2XJaSv1KOQ/Q==') print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) while response['status'] != 'Successful': print(response['status']) time.sleep(1) response = client.check_status(message_id) print(response['status'])
def send_sms(): # number = '+841626118018' number = '+841626630681' message = "Alert!" client = SinchSMS("ce7ec38a-2ba2-47e8-aaf1-419a59809eca", "75jYmrdsG0aVAFUQu5AlIQ==") print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) while response['status'] != 'Successful': print(response['status']) time.sleep(1) response = client.check_status(message_id) print(response['status'])
def sendmessage(self, input): self.message = input client = SinchSMS(self.app_key, self.app_secret) print("Sending '%s' to %s" % (self.message, self.number)) response = client.send_message(self.number, self.message) message_id = response['messageId'] response = client.check_status(message_id) # keep trying unless the status retured is Successful while response['status'] != 'Successful': print(response['status']) # time.sleep(1) response = client.check_status(message_id) print(response['status'])
def sendsms(): number = '+918059710704' message = 'New Garbage Detected' client = SinchSMS("0ca08f70-4fa2-4547-a9b0-5b1280115d6d", "QKewCNo4oEqXbgwxEglPxA==") print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) while response['status'] != 'Successful': print(response['status']) time.sleep(1) response = client.check_status(message_id) print(response['status'])
def send_sms(): title_id = str(title) price_value = str(converted_price) number = '+yournumber' message = title_id + " is available for $ " + price_value + ", buy it now!" client = SinchSMS("appkey", "appsecret") print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) while response['status'] != 'Successful': print(response['status']) time.sleep(5) response = client.check_status(message_id) print(response['status'])
def sms(msg): number = '+919421701789' key = 'd7428c4f-6ac0-4b16-9e7c-299f079b3334' secret = 'sVLKck4OJkaFKK8KbCrxgw==' client = SinchSMS(key, secret) print "here" print msg response = client.send_message(number, msg) message_id = response['MessageId'] response = client.check_status(message_id) while response['Status'] != 'Successful': print "Wait..!!" time.sleep(1) print "!!..Message Send Successfully..!!"
def sms(msg): number='+919421701789' key='d7428c4f-6ac0-4b16-9e7c-299f079b3334' secret='sVLKck4OJkaFKK8KbCrxgw==' client=SinchSMS(key,secret) print "here" print msg response=client.send_message(number,msg) message_id=response['MessageId'] response=client.check_status(message_id) while response['Status']!='Successful': print "Wait..!!" time.sleep(1) print "!!..Message Send Successfully..!!"
def send_sms(): title_id = str(title) price_value = str(converted_price) number = '+919819826602' message = title_id + " is available for $ " + price_value + ", buy it now!" client = SinchSMS("38073232-45c4-4b63-b17a-bcb186548d3e", "79lnGDpu2UOeLW95dbX4Ig==") print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) while response['status'] != 'Successful': print(response['status']) time.sleep(5) response = client.check_status(message_id) print(response['status'])
def sendSMS(bot_handler: Any, *paraargs) -> str: number = paraargs[0][0] app_key = '<YOUR API KEY>' app_secret = '<YOUR API SECRET>' #we are having a lot of bots so send the number of any bot. message = "Message sent by a user from bot 1" client = SinchSMS(app_key, app_secret) print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) while response['status'] != 'Successful': print(response['status']) time.sleep(1) response = client.check_status(message_id) print(response['status'])
def send_sms(self): """ TODO : Use twilio/sinch API to actually send sms to mobile phone :return: """ number = '+91' + self.owner.mobile message = self.verify_code client = SinchSMS('d9abf26d-0ec2-49f3-af2c-17cda14911a4', 'C1sG5vRbskaqWB37kUKMPg==') print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) while response['status'] != 'Successful': print(response['status']) time.sleep(1) response = client.check_status(message_id) print(response['status'])
def sendsms(name): number='+918940241339' #number = '+919524272446' #number = '+919159812210' #number = '+918667617235' message =name +' JUST CROSSED THE CAMERA at ' + str(now) #client= SinchSMS(' client = SinchSMS('28717cde0dc7410fb3c2373b0bdec924','398988aaa43b4b1fa4340eef49097fbe') #client = SinchSMS('6a636257-e492-4eb3-b84a-7d45754c3683','qPbCkDBB9USs13fjo3MGuw==') #balaji client= SinchSMS('94619236-7c30-49e3-8eb9-bd944ff9dafb','WiLPttLCt0aO13MFrGykFA==') print("sending '%s' to %s" % (message,number)) response = client.send_message(number,message) message_id = response['messageId'] response = client.check_status(message_id) while response['status'] != 'successfull': print(response['status']) time.sleep(1) response = client.check_status(message_id) # print(response['status']) break return True
def send_email(user, pwd, recipient, subject, body,Number): gmail_user = user gmail_pwd = pwd FROM = user TO = recipient if type(recipient) is list else [recipient] SUBJECT = subject TEXT = body # Prepare actual message message = """\From: %s\nTo: %s\nSubject: %s\n\n%s """ % (FROM, ", ".join(TO), SUBJECT, TEXT) try: server = smtplib.SMTP("smtp.gmail.com", 587) server.ehlo() server.starttls() server.login(gmail_user, gmail_pwd) server.sendmail(FROM, TO, message) server.close() print 'successfully sent the mail' except: print "failed to send mail" #sms sending # import textmagic.client # client = textmagic.client.TextMagicClient('your_username', 'your_api_password') # result = client.send("Hello, World!", "1234567890") # message_id = result['message_id'].keys()[0] number = Number message = subject client = SinchSMS(your_app_key, your_app_secret) # print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['MessageId'] response = client.check_status(message_id) while response['Status'] != 'Successful': #print(response['Status']) #time.sleep(1) response = client.check_status(message_id)
def sendSMS(inset): # extract message from set message = 'updates on aitplacements.com' i = 1 for e in inset: news = str(e.encode('utf-8')) message = message + "\n" + str(i) + ". " + news i = i + 1 # print message client = SinchSMS(app_key, app_secret) print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) while response['status'] != 'Successful': print(response['status']) time.sleep(1) response = client.check_status(message_id) print(response['status']) global titlelist titlelist = list(inset)
import re pattern = '<[^>]+>' def this_html(text): return True if len(re.findall(pattern,text)) else False if sys.argv[1]=='send': number = sys.argv[2] message='' for word in sys.argv[3:]: message+=" " message+=word message=message.strip() client = SinchSMS("app_public_key","app_secret_key") print("Sending '%s' to %s" % (message, number)) client.send_message(number, message) #------------------------------------------------------ if sys.argv[1]=='recive': g = Gmail() g.login('gmail_login', 'gmail_pass') # mark the letters without html markup as Normal messages = g.inbox().mail() for message in messages: message.fetch() message_body=message.body.split() message_body=("".join(message_body)).strip() if this_html(message_body)==False: message.add_label("Normal")
import time from sinchsms import SinchSMS number = '+56953890064' message = 'I love SMS!' client = SinchSMS("ed7a15d4-0af0-4c2e-a5ff-ac0904b6aebc", "q4lmt6bL2E62HX4QD4dwwQ==") print("Sending '%s' to %s" % (message, number)) response = client.send_message(number, message) message_id = response['messageId'] response = client.check_status(message_id) while response['status'] != 'Successful': print(response['status']) time.sleep(1) response = client.check_status(message_id) print(response['status'])