def test_meters_bench_chunk_udp_array_via_serialization(self):
"""
Test
"""
# For logs format
SolBase.sleep(100)
logger.info("Bench now")
self.per_loop = 1
self._meters_inject(count=5000)
ar_json = Meters.meters_to_udp_format(send_pid=True, send_tags=True, send_dtc=False)
self._bench(1, "udp_chunk_no_dtc", Meters.chunk_udp_array_via_serialization, ar_json, 60000)
self._meters_inject(count=5000)
ar_json = Meters.meters_to_udp_format(send_pid=True, send_tags=True, send_dtc=True)
self._bench(1, "udp_chunk_dtc", Meters.chunk_udp_array_via_serialization, ar_json, 60000)
# For logs format
SolBase.sleep(100)
logger.info("Bench over")
def test_meters_to_udp(self):
"""
Test
"""
ai1a = Meters.ai("ai1")
self.assertIsInstance(ai1a, AtomicIntSafe)
ai1b = Meters.ai("ai1")
self.assertEqual(id(ai1a), id(ai1b))
ai1a = Meters.aii("ai1")
self.assertEqual(ai1a.get(), 1)
ai1a = Meters.aii("ai1", 2)
self.assertEqual(ai1a.get(), 3)
self.assertEqual(ai1a.get(), Meters.aig("ai1"))
af1a = Meters.af("af1")
self.assertIsInstance(af1a, AtomicFloatSafe)
af1b = Meters.af("af1")
self.assertEqual(id(af1a), id(af1b))
af1a = Meters.afi("af1")
self.assertEqual(af1a.get(), 1.0)
af1a = Meters.afi("af1", 2.0)
self.assertEqual(af1a.get(), 3.0)
self.assertEqual(af1a.get(), Meters.afg("af1"))
dtc1a = Meters.dtc("dtc1")
self.assertIsInstance(dtc1a, DelayToCountSafe)
dtc1b = Meters.dtc("dtc1")
self.assertEqual(id(dtc1a), id(dtc1b))
Meters.dtci("dtc1", 0)
Meters.dtci("dtc1", 50)
Meters.dtci("dtc1", 100)
self.assertEquals(Meters._hash_meter["dtc"]["dtc1#"]._sorted_dict[0].get(), 1)
self.assertEquals(Meters._hash_meter["dtc"]["dtc1#"]._sorted_dict[50].get(), 1)
self.assertEquals(Meters._hash_meter["dtc"]["dtc1#"]._sorted_dict[100].get(), 1)
self.assertEquals(Meters._hash_meter["dtc"]["dtc1#"]._sorted_dict[500].get(), 0)
# Write
Meters.write_to_logger()
# Serialize
ar_json = Meters.meters_to_udp_format(send_pid=True, send_dtc=True)
logger.info("Got ar_json=%s", ar_json)
for cur_ar in ar_json:
logger.info("Got cur_ar=%s", cur_ar)
# Serialize, no dtc
ar_json = Meters.meters_to_udp_format(send_pid=True, send_dtc=False)
logger.info("Got ar_json=%s", ar_json)
for cur_ar in ar_json:
logger.info("Got cur_ar=%s", cur_ar)
# Send to daemon (assuming its up locally)
Meters.send_udp_to_knockdaemon()
Meters.send_udp_to_knockdaemon(send_dtc=True)
Meters.send_udp_to_knockdaemon(send_dtc=False)
# ------------------------
# UDP Scheduler test
# ------------------------
# Check
self.assertIsNone(Meters.UDP_SCHEDULER_GREENLET)
self.assertFalse(Meters.UDP_SCHEDULER_STARTED)
# Start
Meters.udp_scheduler_start(send_interval_ms=500)
# Check
self.assertIsNotNone(Meters.UDP_SCHEDULER_GREENLET)
self.assertTrue(Meters.UDP_SCHEDULER_STARTED)
# Start again
Meters.udp_scheduler_start(send_interval_ms=500)
# Check again
self.assertIsNotNone(Meters.UDP_SCHEDULER_GREENLET)
self.assertTrue(Meters.UDP_SCHEDULER_STARTED)
# Interval is 500 => we sleep 3.250 sec, we assume we must have at least 500, 1000, 1500, 2000, 2500, 3000 run => 6 runs
SolBase.sleep(3250)
# Check
self.assertGreaterEqual(Meters.aig("k.meters.udp.run.ok"), 6)
self.assertEqual(Meters.aig("k.meters.udp.run.ex"), 0)
self.assertIsNotNone(Meters.UDP_SCHEDULER_GREENLET)
self.assertTrue(Meters.UDP_SCHEDULER_STARTED)
# We stop
Meters.udp_scheduler_stop()
self.assertIsNone(Meters.UDP_SCHEDULER_GREENLET)
self.assertFalse(Meters.UDP_SCHEDULER_STARTED)
# Sleep again and check no more running
cur_run = Meters.aig("k.meters.udp.run.ok")
SolBase.sleep(2000)
self.assertEqual(cur_run, Meters.aig("k.meters.udp.run.ok"))
def test_meters_chunk_udp_array_via_serialization(self):
"""
Test
"""
# ----------------------
# Udp, no DTC
# ----------------------
self._meters_inject(count=5000)
ar_json = Meters.meters_to_udp_format(
send_pid=True,
send_tags=True,
send_dtc=False,
)
logger.info("Got ar_json.len=%s", len(ar_json))
for max_size, _ in [
(60000, 0.0),
(30000, 0.0),
]:
logger.info("*** CHECK, NO DTC, max_size=%s", max_size)
ar_bin_chunk, ar_json_chunk = Meters.chunk_udp_array_via_serialization(ar_json, max_size_bytes=max_size)
logger.info("Got chunk size=%s/%s", len(ar_bin_chunk), len(ar_json_chunk))
for bin_buf in ar_bin_chunk:
logger.debug("Got chunk, NO DTC, len=%s, max=%s", len(bin_buf), max_size)
self.assertTrue(len(bin_buf) < max_size)
logger.info("Check now")
c = 0
for cur_ar in ar_json_chunk:
c += len(cur_ar)
for cur_item in cur_ar:
self.assertIn(cur_item, ar_json)
self.assertEquals(c, len(ar_json))
# ----------------------
# Udp, DTC
# ----------------------
self._meters_inject(count=500)
ar_json = Meters.meters_to_udp_format(
send_pid=True,
send_tags=True,
send_dtc=True,
)
logger.info("Got ar_json.len=%s", len(ar_json))
for max_size, _ in [
(60000, 0.0),
(30000, 0.0),
]:
logger.info("*** CHECK, DTC, max_size=%s", max_size)
ar_bin_chunk, ar_json_chunk = Meters.chunk_udp_array_via_serialization(ar_json, max_size_bytes=max_size)
logger.info("Got chunk size=%s/%s", len(ar_bin_chunk), len(ar_json_chunk))
for bin_buf in ar_bin_chunk:
logger.debug("Got chunk, DTC, len=%s, max=%s", len(bin_buf), max_size)
self.assertTrue(len(bin_buf) <= max_size)
logger.info("Check now")
c = 0
for cur_ar in ar_json_chunk:
c += len(cur_ar)
for cur_item in cur_ar:
self.assertIn(cur_item, ar_json)
self.assertEquals(c, len(ar_json))
def test_meters_with_tags_a_with_udp_check(self):
"""
Test
"""
hca = Meters._tags_hash_compute_and_store({"flag": "FA"})
hcb = Meters._tags_hash_compute_and_store({"flag": "FB"})
Meters.aii("ai1")
Meters.aii("ai1", tags={"flag": "FA"})
Meters.aii("ai1", tags={"flag": "FA"})
Meters.aii("ai1", tags={"flag": "FB"})
Meters.aii("ai1", tags={"flag": "FB"})
Meters.aii("ai1", tags={"flag": "FB"})
Meters.dtci("dtc1", 0)
Meters.dtci("dtc1", 50)
Meters.dtci("dtc1", 100)
self.assertEquals(Meters._hash_meter["dtc"]["dtc1#"]._sorted_dict[0].get(), 1)
self.assertEquals(Meters._hash_meter["dtc"]["dtc1#"]._sorted_dict[50].get(), 1)
self.assertEquals(Meters._hash_meter["dtc"]["dtc1#"]._sorted_dict[100].get(), 1)
self.assertEquals(Meters._hash_meter["dtc"]["dtc1#"]._sorted_dict[500].get(), 0)
Meters.dtci("dtc1", 0, tags={"flag": "FA"})
Meters.dtci("dtc1", 50, tags={"flag": "FA"})
Meters.dtci("dtc1", 100, tags={"flag": "FA"})
Meters.dtci("dtc1", 0, tags={"flag": "FB"})
Meters.dtci("dtc1", 50, tags={"flag": "FB"})
Meters.dtci("dtc1", 100, tags={"flag": "FB"})
Meters.dtci("dtc1", 0, tags={"flag": "FB"})
Meters.dtci("dtc1", 50, tags={"flag": "FB"})
Meters.dtci("dtc1", 100, tags={"flag": "FB"})
self.assertEquals(Meters._hash_meter["a_int"]["ai1#"].get(), 1)
self.assertEquals(Meters._hash_meter["a_int"]["ai1#" + hca].get(), 2)
self.assertEquals(Meters._hash_meter["a_int"]["ai1#" + hcb].get(), 3)
self.assertEquals(Meters._hash_meter["dtc"]["dtc1#" + hca]._sorted_dict[0].get(), 1)
self.assertEquals(Meters._hash_meter["dtc"]["dtc1#" + hca]._sorted_dict[50].get(), 1)
self.assertEquals(Meters._hash_meter["dtc"]["dtc1#" + hca]._sorted_dict[100].get(), 1)
self.assertEquals(Meters._hash_meter["dtc"]["dtc1#" + hca]._sorted_dict[500].get(), 0)
self.assertEquals(Meters._hash_meter["dtc"]["dtc1#" + hcb]._sorted_dict[0].get(), 2)
self.assertEquals(Meters._hash_meter["dtc"]["dtc1#" + hcb]._sorted_dict[50].get(), 2)
self.assertEquals(Meters._hash_meter["dtc"]["dtc1#" + hcb]._sorted_dict[100].get(), 2)
self.assertEquals(Meters._hash_meter["dtc"]["dtc1#" + hcb]._sorted_dict[500].get(), 0)
# Write
Meters.write_to_logger()
# Upd check
ar_udp = Meters.meters_to_udp_format(send_pid=True, send_tags=True, send_dtc=True)
total_check = 0
total_ok = 0
total_ko_not_found = 0
total_ko_multiple_found = 0
for s_key, d_tag, v in [
("ai1", {}, 1),
("ai1", {"flag": "FA", }, 2),
("ai1", {"flag": "FB", }, 3),
("dtc1_0-50", {}, 1),
("dtc1_50-100", {}, 1),
("dtc1_100-500", {}, 1),
("dtc1_500-1000", {}, 0),
("dtc1_1000-2500", {}, 0),
("dtc1_2500-5000", {}, 0),
("dtc1_5000-10000", {}, 0),
("dtc1_10000-30000", {}, 0),
("dtc1_30000-60000", {}, 0),
("dtc1_60000-MAX", {}, 0),
("dtc1_0-50", {"flag": "FA", }, 1),
("dtc1_50-100", {"flag": "FA", }, 1),
("dtc1_100-500", {"flag": "FA", }, 1),
("dtc1_500-1000", {"flag": "FA", }, 0),
("dtc1_1000-2500", {"flag": "FA", }, 0),
("dtc1_2500-5000", {"flag": "FA", }, 0),
("dtc1_5000-10000", {"flag": "FA", }, 0),
("dtc1_10000-30000", {"flag": "FA", }, 0),
("dtc1_30000-60000", {"flag": "FA", }, 0),
("dtc1_60000-MAX", {"flag": "FA", }, 0),
("dtc1_0-50", {"flag": "FB", }, 2),
("dtc1_50-100", {"flag": "FB", }, 2),
("dtc1_100-500", {"flag": "FB", }, 2),
("dtc1_500-1000", {"flag": "FB", }, 0),
("dtc1_1000-2500", {"flag": "FB", }, 0),
("dtc1_2500-5000", {"flag": "FB", }, 0),
("dtc1_5000-10000", {"flag": "FB", }, 0),
("dtc1_10000-30000", {"flag": "FB", }, 0),
("dtc1_30000-60000", {"flag": "FB", }, 0),
("dtc1_60000-MAX", {"flag": "FB", }, 0),
]:
total_check += 1
# Locate it
found = 0
for check_key, check_tag, check_v, _, _ in ar_udp:
if check_key == s_key and check_tag == d_tag and check_v == v:
found += 1
# Check
if found == 0:
total_ko_not_found += 1
elif found > 1:
total_ko_multiple_found += 1
else:
total_ok += 1
# Final
self.assertEquals(total_ko_multiple_found, 0)
self.assertEquals(total_ko_multiple_found, 0)
self.assertEquals(total_ok, total_check)
self.assertEquals(len(ar_udp), total_check)
