def test_send_single_sms(self):
self.assert_(SMS.objects.count() == 0)
send('+32000000001', 'testing message', 'the signature', using='smpp')
self.assert_(SMS.objects.count() == 1)
sms = SMS.objects.get(pk=1)
self.assert_(sms.content == 'testing message')
self.assert_(sms.to == '+32000000001')
self.assert_(sms.sender == 'the signature'[:len(sms.sender)])
def test_send_single_sms(self):
self.assert_(SMS.objects.count() == 0)
send('+32000000001', 'testing message', 'the signature', using='smpp')
self.assert_(SMS.objects.count() == 1)
sms = SMS.objects.get(pk=1)
self.assert_(sms.content == 'testing message')
self.assert_(sms.to == '+32000000001')
self.assert_(sms.sender == 'the signature'[:len(sms.sender)])
def setUp(self):
self.conf = settings.SMSGATEWAY_ACCOUNTS['redistore']
self.rdb = redis.Redis(host=self.conf['host'],
port=self.conf['port'],
db=self.conf['dbn'])
self.assert_(SMS.objects.count() == 0)
send('+32000000001', 'testing message', 'the signature',
using='redistore')
self.assert_(SMS.objects.count() == 1)
self.sms = SMS.objects.get(pk=1)
def setUp(self):
self.conf = settings.SMSGATEWAY_ACCOUNTS['redistore']
self.rdb = redis.Redis(host=self.conf['host'],
port=self.conf['port'],
db=self.conf['dbn'])
self.assert_(SMS.objects.count() == 0)
send(req_data['to'], req_data['msg'], req_data['signature'],
using='redistore')
self.assert_(SMS.objects.count() == 3)
self.smses = SMS.objects.all()
def test_send_multiple_separated_sms(self):
self.assert_(SMS.objects.count() == 0)
send(req_data['to'], req_data['msg'], req_data['signature'],
using='smpp')
self.assert_(SMS.objects.count() == 3)
smses = SMS.objects.all()
for to, sms in zip (req_data['to'].split(';'), smses):
self.assert_(sms.to == check_cell_phone_number(to))
self.assert_(sms.content == truncate_sms(req_data['msg']))
self.assertEqual(sms.sender,
req_data['signature'][:len(sms.sender)])
self.assert_(sms.backend == 'smpp')
def setUp(self):
self.conf = settings.SMSGATEWAY_ACCOUNTS['redistore']
self.rdb = redis.Redis(host=self.conf['host'],
port=self.conf['port'],
db=self.conf['dbn'],
password=self.conf['pwd'])
self.assert_(SMS.objects.count() == 0)
send(req_data['to'],
req_data['msg'],
req_data['signature'],
using='redistore')
self.assert_(SMS.objects.count() == 3)
self.smses = SMS.objects.all()
def setUp(self):
self.conf = settings.SMSGATEWAY_ACCOUNTS['redistore']
self.rdb = redis.Redis(host=self.conf['host'],
port=self.conf['port'],
db=self.conf['dbn'],
password=self.conf['pwd'])
self.assert_(SMS.objects.count() == 0)
send('+32000000001',
'testing message',
'the signature',
using='redistore')
self.assert_(SMS.objects.count() == 1)
self.sms = SMS.objects.get(pk=1)
def test_send_multiple_separated_sms(self):
self.assert_(SMS.objects.count() == 0)
send(req_data['to'],
req_data['msg'],
req_data['signature'],
using='smpp')
self.assert_(SMS.objects.count() == 3)
smses = SMS.objects.all()
for to, sms in zip(req_data['to'].split(';'), smses):
self.assert_(sms.to == check_cell_phone_number(to))
self.assert_(sms.content == truncate_sms(req_data['msg']))
self.assertEqual(sms.sender,
req_data['signature'][:len(sms.sender)])
self.assert_(sms.backend == 'smpp')
def handle_incoming(self, request, reply_using=None):
request_dict = request.POST if request.method == 'POST' else request.GET
# Check whether we've gotten a SendDateTime
if 'SendDateTime' not in request_dict:
return HttpResponse('')
# Check whether we've already received this message
if SMS.objects.filter(gateway_ref=request_dict['MessageID']).exists():
return HttpResponse('OK')
# Parse and process message
year, month, day, hour, minute, second, ms = list(map(int, findall(r'(\d+)', request_dict['SendDateTime'])))
sms_dict = {
'sent': datetime(year, month, day, hour, minute, second),
'content': request_dict['MsgeContent'],
'sender': check_cell_phone_number(request_dict['SenderGSMNR']),
'to': request_dict['ShortCode'],
'operator': int(request_dict['Operator']),
'gateway_ref': request_dict['MessageID'],
'backend': self.get_slug(),
}
sms = SMS(**sms_dict)
response = self.process_incoming(request, sms)
# If necessary, send response SMS
if response is not None:
signature = get_account(reply_using)['reply_signature']
success = send([sms.sender], response, signature, using=reply_using)
# Sending failed, queue SMS
if not success:
send_queued(sms.sender, response, signature, reply_using)
return HttpResponse(response)
return HttpResponse('OK')
def backend_debug(request):
"""
A form to let you send an SMS for debugging purposes.
"""
context = {}
if request.method == 'POST':
form = BackendDebugForm(request.POST)
if form.is_valid():
success = send(
form.cleaned_data['recipients'].split(';'),
form.cleaned_data['message'],
form.cleaned_data['signature'],
form.cleaned_data['account']
)
if success:
context.update({'message': u'Text message sent'})
else:
context.update({'message': u'Sending failed'})
else:
form = BackendDebugForm()
context.update({'form': form})
return render_to_response(
'smsgateway/backend_debug.html',
context,
context_instance=RequestContext(request)
)
def backend_debug(request):
"""
A form to let you send an SMS for debugging purposes.
"""
context = {}
if request.method == 'POST':
form = BackendDebugForm(request.POST)
if form.is_valid():
success = send(form.cleaned_data['recipients'].split(';'),
form.cleaned_data['message'],
form.cleaned_data['signature'],
form.cleaned_data['account'])
if success:
context.update({'message': u'Text message sent'})
else:
context.update({'message': u'Sending failed'})
else:
form = BackendDebugForm()
context.update({
'form': form,
'version': __version__,
})
return render(request, 'smsgateway/backend_debug.html', context)
def handle_incoming(self, request, reply_using=None):
request_dict = request.POST if request.method == 'POST' else request.GET
# Check whether we've got an id
if 'id' not in request_dict:
return HttpResponse('')
# Check whether we've already received this message
if SMS.objects.filter(gateway_ref=request_dict['id']).exists():
return HttpResponse('ACK/Jasmin')
# Parse and process message
sms_dict = {
'sent': datetime.now(),
'content': request_dict['content'],
'sender': check_cell_phone_number(request_dict['from']),
'to': request_dict['to'],
'gateway_ref': request_dict['id'],
'backend': self.get_slug(),
}
sms = SMS(**sms_dict)
response = self.process_incoming(request, sms)
# If necessary, send response SMS
if response is not None:
signature = get_account(reply_using)['reply_signature']
success = send([sms.sender], response, signature, using=reply_using)
# Sending failed, queue SMS
if not success:
send_queued(sms.sender, response, signature, reply_using)
return HttpResponse('ACK/Jasmin')
def handle_incoming(self, request, reply_using=None):
request_dict = request.POST if request.method == 'POST' else request.GET
# Check whether we've got an id
if 'id' not in request_dict:
return HttpResponse('')
# Check whether we've already received this message
if SMS.objects.filter(gateway_ref=request_dict['id']).exists():
return HttpResponse('ACK/Jasmin')
# Parse and process message
sms_dict = {
'sent': datetime.now(),
'content': request_dict['content'],
'sender': check_cell_phone_number(request_dict['from']),
'to': request_dict['to'],
'gateway_ref': request_dict['id'],
'backend': self.get_slug(),
}
sms = SMS(**sms_dict)
response = self.process_incoming(request, sms)
# If necessary, send response SMS
if response is not None:
signature = get_account(reply_using)['reply_signature']
success = send([sms.sender],
response,
signature,
using=reply_using)
# Sending failed, queue SMS
if not success:
send_queued(sms.sender, response, signature, reply_using)
return HttpResponse('ACK/Jasmin')
def send_smses(send_deferred=False, backend=None, limit=None):
# Get lock so there is only one sms sender at the same time.
if send_deferred:
lock = FileLock('send_sms_deferred')
else:
lock = FileLock('send_sms')
try:
lock.acquire(LOCK_WAIT_TIMEOUT)
except AlreadyLocked:
logger.info('Could not acquire lock.')
return
except LockTimeout:
logger.info('Lock timed out.')
return
successes, failures = 0, 0
try:
# Get SMSes that need to be sent (deferred or non-deferred)
if send_deferred:
to_send = QueuedSMS.objects.filter(priority=PRIORITY_DEFERRED)
else:
to_send = QueuedSMS.objects.exclude(priority=PRIORITY_DEFERRED)
if isinstance(limit, int):
to_send = to_send[:limit]
logger.info("Trying to send %i messages." % to_send.count())
# Send each SMS
for sms in to_send:
if backend:
sms_using = backend
else:
sms_using = None if sms.using == '__none__' else sms.using
if send(sms.to, sms.content, sms.signature, sms_using, sms.reliable):
# Successfully sent, remove from queue
logger.info("SMS to %s sent." % sms.to)
sms.delete()
successes += 1
else:
# Failed to send, defer SMS
logger.info("SMS to %s failed." % sms.to)
sms.defer()
failures += 1
finally:
lock.release()
if successes and failures:
statsd.gauge('smsgateway.success_rate', successes / failures)
else:
statsd.gauge('smsgateway.success_rate', 1)
def process_smses(smsk, sms_id, account_slug):
smsobj = SMS.objects.get(pk=sms_id)
smsbackend = SMSBackend()
racc = get_account(account_slug)
response = smsbackend.process_incoming(None, smsobj)
if response is not None:
signature = racc['reply_signature']
# If an SMS account can receive but not send SMSes,
# it can specify a preferred reply account
reply_account = racc.get('reply_account', account_slug)
success = send([smsobj.sender], response, signature, reply_account)
if not success:
send_queued(smsobj.sender, response, signature, reply_account)
task_logger.debug('End processing incoming SMS key: %s', smsk)
def send_smses(send_deferred=False, backend=None):
# Get lock so there is only one sms sender at the same time.
if send_deferred:
lock = FileLock('send_sms_deferred')
else:
lock = FileLock('send_sms')
try:
lock.acquire(LOCK_WAIT_TIMEOUT)
except AlreadyLocked:
logger.info('Could not acquire lock.')
return
except LockTimeout:
logger.info('Lock timed out.')
return
successes, failures = 0, 0
try:
# Get SMSes that need to be sent (deferred or non-deferred)
if send_deferred:
to_send = QueuedSMS.objects.filter(priority=PRIORITY_DEFERRED)
else:
to_send = QueuedSMS.objects.exclude(priority=PRIORITY_DEFERRED)
logger.info("Trying to send %i messages." % to_send.count())
# Send each SMS
for sms in to_send:
if backend:
sms_using = backend
else:
sms_using = None if sms.using == '__none__' else sms.using
if send(sms.to, sms.content, sms.signature, sms_using, sms.reliable):
# Successfully sent, remove from queue
logger.info("SMS to %s sent." % sms.to)
sms.delete()
successes += 1
else:
# Failed to send, defer SMS
logger.info("SMS to %s failed." % sms.to)
sms.defer()
failures += 1
finally:
lock.release()
if successes and failures:
statsd.gauge('smsgateway.success_rate', successes / failures)
else:
statsd.gauge('smsgateway.success_rate', 1)
def _send_smses(send_deferred=False, backend=None, limit=None):
# Get lock so there is only one sms sender at the same time.
if send_deferred:
send_lock_name = 'smsgateway_send_sms_deferred'
else:
send_lock_name = 'smsgateway_send_sms'
with Lock(redis=Redis.from_url(settings.SMSGATEWAY_REDIS_URL),
name='smsgateway-' + send_lock_name,
blocking_timeout=0):
successes, failures = 0, 0
try:
# Get SMSes that need to be sent (deferred or non-deferred)
if send_deferred:
to_send = QueuedSMS.objects.filter(priority=PRIORITY_DEFERRED)
else:
to_send = QueuedSMS.objects.exclude(priority=PRIORITY_DEFERRED)
if isinstance(limit, int):
to_send = to_send[:limit]
# Send each SMS
for sms in to_send:
if backend:
sms_using = backend
else:
sms_using = None if sms.using == '__none__' else sms.using
if send(sms.to, sms.content, sms.signature, sms_using,
sms.reliable):
# Successfully sent, remove from queue
sms.delete()
successes += 1
else:
# Failed to send, defer SMS
sms.defer()
failures += 1
finally:
if successes and failures:
statsd.gauge('smsgateway.success_rate', successes / failures)
else:
statsd.gauge('smsgateway.success_rate', 1)
def handle_incoming(self, request, reply_using=None):
request_dict = request.POST if request.method == 'POST' else request.GET
# Check whether we've gotten a SendDateTime
if not 'SendDateTime' in request_dict:
return HttpResponse('')
# Check whether we've already received this message
if SMS.objects.filter(gateway_ref=request_dict['MessageID']).exists():
return HttpResponse('OK')
# Parse and process message
year, month, day, hour, minute, second, ms = map(
int, re.findall(r'(\d+)', request_dict['SendDateTime']))
sms_dict = {
'sent': datetime.datetime(year, month, day, hour, minute, second),
'content': request_dict['MsgeContent'],
'sender': check_cell_phone_number(request_dict['SenderGSMNR']),
'to': request_dict['ShortCode'],
'operator': int(request_dict['Operator']),
'gateway_ref': request_dict['MessageID'],
'backend': self.get_slug(),
}
sms = SMS(**sms_dict)
response = self.process_incoming(request, sms)
# If necessary, send response SMS
if response is not None:
signature = smsgateway.get_account(reply_using)['reply_signature']
success = smsgateway.send([sms.sender],
response,
signature,
using=reply_using)
# Sending failed, queue SMS
if not success:
smsgateway.send_queued(sms.sender, response, signature,
reply_using)
return HttpResponse(response)
return HttpResponse('OK')
def recv_smses(account_slug='redistore'):
def _(key):
return '%s%s' % (racc['key_prefix'], key)
count = 0
racc = get_account(account_slug)
rpool = redis.ConnectionPool(host=racc['host'],
port=racc['port'],
db=racc['dbn'])
rconn = redis.Redis(connection_pool=rpool)
smsbackend = SMSBackend()
logger.info("Processing incoming SMSes for %s", account_slug)
while True:
smsk = rconn.rpoplpush(_('inq'), _('mvne:inq'))
if not rconn.llen(_('mvne:inq')):
break
count += 1
logger.debug("Processing incoming SMS key: %s", smsk)
smsd = rconn.hgetall(smsk)
if not smsd:
logger.error("SMS key %r is empty", smsk)
continue
smsd['sent'] = datetime.datetime.strptime(smsd['sent'], inq_ts_fmt)
smsd['backend'] = account_slug
smsobj = SMS(**smsd)
response = smsbackend.process_incoming(None, smsobj)
if response is not None:
signature = racc['reply_signature']
success = send([smsobj.sender], response, signature, account_slug)
if not success:
send_queued(smsobj.sender, response, signature, account_slug)
if rconn.lrem(_('mvne:inq'), smsk, 1) == 0:
logger.error("SMS key %r doesn't exist in %r",
smsk, _('mvne:inq'))
if not rconn.delete(smsk):
logger.error("SMS Hash %r doesn't exist" % smsk)
logger.debug("End processing incoming SMS key: %s", smsk)
logger.info("End processing incoming SMSes for %s (%d processed)", account_slug, count)
def _send_smses(send_deferred=False, backend=None, limit=None):
# Get lock so there is only one sms sender at the same time.
if send_deferred:
send_lock_name = 'smsgateway_send_sms_deferred'
else:
send_lock_name = 'smsgateway_send_sms'
with NonBlockingLock.objects.acquire_lock(lock_name=send_lock_name):
successes, failures = 0, 0
try:
# Get SMSes that need to be sent (deferred or non-deferred)
if send_deferred:
to_send = QueuedSMS.objects.filter(priority=PRIORITY_DEFERRED)
else:
to_send = QueuedSMS.objects.exclude(priority=PRIORITY_DEFERRED)
if isinstance(limit, int):
to_send = to_send[:limit]
# Send each SMS
for sms in to_send:
if backend:
sms_using = backend
else:
sms_using = None if sms.using == '__none__' else sms.using
if send(sms.to, sms.content, sms.signature, sms_using, sms.reliable):
# Successfully sent, remove from queue
sms.delete()
successes += 1
else:
# Failed to send, defer SMS
sms.defer()
failures += 1
finally:
if successes and failures:
statsd.gauge('smsgateway.success_rate', successes / failures)
else:
statsd.gauge('smsgateway.success_rate', 1)
