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tests.py
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tests.py
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#!/usr/bin/env python
# coding: utf-8
from apns import *
from binascii import a2b_hex
from random import random
import hashlib
import os
import time
import unittest
TEST_CERTIFICATE = "certificate.pem" # replace with path to test certificate
NUM_MOCK_TOKENS = 10
mock_tokens = []
for i in range(0, NUM_MOCK_TOKENS):
mock_tokens.append(bytes(hashlib.sha256(("%.12f" % random()).encode("utf-8")).hexdigest().encode("utf-8")))
def mock_chunks_generator():
BUF_SIZE = 64
# Create fake data feed
data = b''
for t in mock_tokens:
token_bin = a2b_hex(t)
token_length = len(token_bin)
data += APNs.packed_uint_big_endian(int(time.time()))
data += APNs.packed_ushort_big_endian(token_length)
data += token_bin
while data:
yield data[0:BUF_SIZE]
data = data[BUF_SIZE:]
class TestAPNs(unittest.TestCase):
"""Unit tests for PyAPNs"""
def setUp(self):
"""docstring for setUp"""
pass
def tearDown(self):
"""docstring for tearDown"""
pass
def testConfigs(self):
apns_test = APNs(use_sandbox=True)
apns_prod = APNs(use_sandbox=False)
self.assertEqual(apns_test.gateway_server.port, 2195)
self.assertEqual(apns_test.gateway_server.server,
'gateway.sandbox.push.apple.com')
self.assertEqual(apns_test.feedback_server.port, 2196)
self.assertEqual(apns_test.feedback_server.server,
'feedback.sandbox.push.apple.com')
self.assertEqual(apns_prod.gateway_server.port, 2195)
self.assertEqual(apns_prod.gateway_server.server,
'gateway.push.apple.com')
self.assertEqual(apns_prod.feedback_server.port, 2196)
self.assertEqual(apns_prod.feedback_server.server,
'feedback.push.apple.com')
def testGatewayServer(self):
pem_file = TEST_CERTIFICATE
apns = APNs(use_sandbox=True, cert_file=pem_file, key_file=pem_file)
gateway_server = apns.gateway_server
self.assertEqual(gateway_server.cert_file, apns.cert_file)
self.assertEqual(gateway_server.key_file, apns.key_file)
token_hex = 'b5bb9d8014a0f9b1d61e21e796d78dccdf1352f23cd32812f4850b878ae4944c'
payload = Payload(
alert = "Hello World!",
sound = "default",
badge = 4
)
notification = gateway_server._get_notification(token_hex, payload)
expected_length = (
1 # leading null byte
+ 2 # length of token as a packed short
+ len(token_hex) / 2 # length of token as binary string
+ 2 # length of payload as a packed short
+ len(payload.json()) # length of JSON-formatted payload
)
self.assertEqual(len(notification), expected_length)
self.assertEqual(notification[0:1], b'\0')
def testFeedbackServer(self):
pem_file = TEST_CERTIFICATE
apns = APNs(use_sandbox=True, cert_file=pem_file, key_file=pem_file)
feedback_server = apns.feedback_server
self.assertEqual(feedback_server.cert_file, apns.cert_file)
self.assertEqual(feedback_server.key_file, apns.key_file)
# Overwrite _chunks() to call a mock chunk generator
feedback_server._chunks = mock_chunks_generator
i = 0;
for (token_hex, fail_time) in list(feedback_server.items()):
self.assertEqual(token_hex, mock_tokens[i])
i += 1
self.assertEqual(i, NUM_MOCK_TOKENS)
def testPayloadAlert(self):
pa = PayloadAlert('foo')
d = pa.dict()
self.assertEqual(d['body'], 'foo')
self.assertFalse('action-loc-key' in d)
self.assertFalse('loc-key' in d)
self.assertFalse('loc-args' in d)
self.assertFalse('launch-image' in d)
pa = PayloadAlert('foo', action_loc_key='bar', loc_key='wibble',
loc_args=['king','kong'], launch_image='wobble')
d = pa.dict()
self.assertEqual(d['body'], 'foo')
self.assertEqual(d['action-loc-key'], 'bar')
self.assertEqual(d['loc-key'], 'wibble')
self.assertEqual(d['loc-args'], ['king','kong'])
self.assertEqual(d['launch-image'], 'wobble')
pa = PayloadAlert(loc_key='wibble')
d = pa.dict()
self.assertTrue('body' not in d)
self.assertEqual(d['loc-key'], 'wibble')
def testPayload(self):
# Payload with just alert
p = Payload(alert=PayloadAlert('foo'))
d = p.dict()
self.assertTrue('alert' in d['aps'])
self.assertTrue('sound' not in d['aps'])
self.assertTrue('badge' not in d['aps'])
# Payload with just sound
p = Payload(sound="foo")
d = p.dict()
self.assertTrue('sound' in d['aps'])
self.assertTrue('alert' not in d['aps'])
self.assertTrue('badge' not in d['aps'])
# Payload with just badge
p = Payload(badge=1)
d = p.dict()
self.assertTrue('badge' in d['aps'])
self.assertTrue('alert' not in d['aps'])
self.assertTrue('sound' not in d['aps'])
# Payload with just badge removal
p = Payload(badge=0)
d = p.dict()
self.assertTrue('badge' in d['aps'])
self.assertTrue('alert' not in d['aps'])
self.assertTrue('sound' not in d['aps'])
# Test plain string alerts
alert_str = 'foobar'
p = Payload(alert=alert_str)
d = p.dict()
self.assertEqual(d['aps']['alert'], alert_str)
self.assertTrue('sound' not in d['aps'])
self.assertTrue('badge' not in d['aps'])
# Test custom payload
alert_str = 'foobar'
custom_dict = {'foo': 'bar'}
p = Payload(alert=alert_str, custom=custom_dict)
d = p.dict()
self.assertEqual(d, {'foo': 'bar', 'aps': {'alert': 'foobar'}})
def testFrame(self):
identifier = 1
expiry = 3600
token_hex = 'b5bb9d8014a0f9b1d61e21e796d78dccdf1352f23cd32812f4850b878ae4944c'
payload = Payload(
alert = "Hello World!",
sound = "default",
badge = 4
)
priority = 10
frame = Frame()
frame.add_item(token_hex, payload, identifier, expiry, priority)
f1 = bytearray(b'\x02\x00\x00\x00t\x01\x00 \xb5\xbb\x9d\x80\x14\xa0\xf9\xb1\xd6\x1e!\xe7\x96\xd7\x8d\xcc\xdf\x13R\xf2<\xd3(\x12\xf4\x85\x0b\x87\x8a\xe4\x94L\x02\x00<{"aps":{"sound":"default","badge":4,"alert":"Hello World!"}}\x03\x00\x04\x00\x00\x00\x01\x04\x00\x04\x00\x00\x0e\x10\x05\x00\x01\n')
f2 = bytearray(b'\x02\x00\x00\x00t\x01\x00 \xb5\xbb\x9d\x80\x14\xa0\xf9\xb1\xd6\x1e!\xe7\x96\xd7\x8d\xcc\xdf\x13R\xf2<\xd3(\x12\xf4\x85\x0b\x87\x8a\xe4\x94L\x02\x00<{"aps":{"sound":"default","alert":"Hello World!","badge":4}}\x03\x00\x04\x00\x00\x00\x01\x04\x00\x04\x00\x00\x0e\x10\x05\x00\x01\n')
self.assertTrue(f1 == frame.get_frame() or f2 == frame.get_frame())
def testPayloadTooLargeError(self):
# The maximum size of the JSON payload is MAX_PAYLOAD_LENGTH
# bytes. First determine how many bytes this allows us in the
# raw payload (i.e. before JSON serialisation)
json_overhead_bytes = len(Payload('.').json()) - 1
max_raw_payload_bytes = MAX_PAYLOAD_LENGTH - json_overhead_bytes
# Test ascii characters payload
Payload('.' * max_raw_payload_bytes)
self.assertRaises(PayloadTooLargeError, Payload,
'.' * (max_raw_payload_bytes + 1))
# Test unicode 2-byte characters payload
Payload(u'\u0100' * int(max_raw_payload_bytes / 2))
self.assertRaises(PayloadTooLargeError, Payload,
u'\u0100' * (int(max_raw_payload_bytes / 2) + 1))
if __name__ == '__main__':
unittest.main()