+"""
+a1s rmr functionality
+"""
# ==================================================================================
# Copyright (c) 2019 Nokia
# Copyright (c) 2018-2019 AT&T Intellectual Property.
# limitations under the License.
# ==================================================================================
import os
-import gevent
+import queue
+import time
+import json
+from threading import Thread
from rmr import rmr, helpers
from a1 import get_module_logger
+from a1 import data
+from a1.exceptions import PolicyTypeNotFound, PolicyInstanceNotFound
logger = get_module_logger(__name__)
RETRY_TIMES = int(os.environ.get("RMR_RETRY_TIMES", 4))
-MRC = None
+# Note; yes, globals are bad, but this is a private (to this module) global
+# No other module can import/access this (well, python doesn't enforce this, but all linters will complain)
+__RMR_LOOP__ = None
-def init_rmr():
+
+class _RmrLoop:
+ """
+ class represents an rmr loop that constantly reads from rmr and performs operations based on waiting messages
+ this launches a thread, it should probably only be called once; the public facing method to access these ensures this
+ """
+
+ def __init__(self, init_func_override=None, rcv_func_override=None):
+ self.keep_going = True
+ self.rcv_func = None
+ self.last_ran = time.time()
+ self.work_queue = queue.Queue() # thread safe queue https://docs.python.org/3/library/queue.html
+
+ # intialize rmr context
+ if init_func_override:
+ self.mrc = init_func_override()
+ else:
+ logger.debug("Waiting for rmr to initialize..")
+ # rmr.RMRFL_MTCALL puts RMR into a multithreaded mode, where a receiving thread populates an
+ # internal ring of messages, and receive calls read from that
+ # currently the size is 2048 messages, so this is fine for the foreseeable future
+ self.mrc = rmr.rmr_init(b"4562", rmr.RMR_MAX_RCV_BYTES, rmr.RMRFL_MTCALL)
+ while rmr.rmr_ready(self.mrc) == 0:
+ time.sleep(0.5)
+
+ # set the receive function
+ self.rcv_func = rcv_func_override if rcv_func_override else lambda: helpers.rmr_rcvall_msgs(self.mrc, [21024])
+
+ # start the work loop
+ self.thread = Thread(target=self.loop)
+ self.thread.start()
+
+ def loop(self):
+ """
+ This loop runs forever, and has 3 jobs:
+ - send out any messages that have to go out (create instance, delete instance)
+ - read a1s mailbox and update the status of all instances based on acks from downstream policy handlers
+ - clean up the database (eg delete the instance) under certain conditions based on those statuses (NOT DONE YET)
+ """
+ # loop forever
+ logger.debug("Work loop starting")
+ while self.keep_going:
+
+ # send out all messages waiting for us
+ while not self.work_queue.empty():
+ work_item = self.work_queue.get(block=False, timeout=None)
+
+ pay = work_item["payload"].encode("utf-8")
+ for _ in range(0, RETRY_TIMES):
+ # Waiting on an rmr bugfix regarding the over-allocation: https://rancodev.atlassian.net/browse/RICPLT-2490
+ sbuf = rmr.rmr_alloc_msg(self.mrc, 4096, pay, True, work_item["msg type"])
+ pre_send_summary = rmr.message_summary(sbuf)
+ sbuf = rmr.rmr_send_msg(self.mrc, sbuf) # send
+ post_send_summary = rmr.message_summary(sbuf)
+ logger.debug("Pre-send summary: %s, Post-send summary: %s", pre_send_summary, post_send_summary)
+ rmr.rmr_free_msg(sbuf) # free
+ if post_send_summary["message state"] == 0 and post_send_summary["message status"] == "RMR_OK":
+ logger.debug("Message sent successfully!")
+ break
+
+ # read our mailbox and update statuses
+ updated_instances = set()
+ for msg in self.rcv_func():
+ try:
+ pay = json.loads(msg["payload"])
+ pti = pay["policy_type_id"]
+ pii = pay["policy_instance_id"]
+ data.set_status(pti, pii, pay["handler_id"], pay["status"])
+ updated_instances.add((pti, pii))
+ except (PolicyTypeNotFound, PolicyInstanceNotFound, KeyError, json.decoder.JSONDecodeError):
+ # TODO: in the future we may also have to catch SDL errors
+ logger.debug(("Dropping malformed or non applicable message", msg))
+
+ # for all updated instances, see if we can trigger a delete
+ # should be no catch needed here, since the status update would have failed if it was a bad pair
+ for ut in updated_instances:
+ data.clean_up_instance(ut[0], ut[1])
+
+ # TODO: what's a reasonable sleep time? we don't want to hammer redis too much, and a1 isn't a real time component
+ self.last_ran = time.time()
+ time.sleep(1)
+
+
+# Public
+
+
+def start_rmr_thread(init_func_override=None, rcv_func_override=None):
"""
- called from run; not called for unit tests
+ Start a1s rmr thread
"""
- global MRC
- # rmr.RMRFL_MTCALL puts RMR into a multithreaded mode, where a receiving thread populates an
- # internal ring of messages, and receive calls read from that
- # currently the size is 2048 messages, so this is fine for the foreseeable future
- MRC = rmr.rmr_init(b"4562", rmr.RMR_MAX_RCV_BYTES, rmr.RMRFL_MTCALL)
+ global __RMR_LOOP__
+ if __RMR_LOOP__ is None:
+ __RMR_LOOP__ = _RmrLoop(init_func_override, rcv_func_override)
+
- while rmr.rmr_ready(MRC) == 0:
- gevent.sleep(1)
- logger.debug("not yet ready")
+def stop_rmr_thread():
+ """
+ stops the rmr thread
+ """
+ __RMR_LOOP__.keep_going = False
-def send(payload, message_type=0):
+def queue_work(item):
"""
- Sends a message up to RETRY_TIMES
- If the message is sent successfully, it returns the transactionid
- Does nothing otherwise
+ push an item into the work queue
+ currently the only type of work is to send out messages
"""
- # we may be called many times in asynchronous loops, so for now, it is safer not to share buffers. We can investigate later whether this is really a problem.
- sbuf = rmr.rmr_alloc_msg(MRC, 4096)
- payload = payload if isinstance(payload, bytes) else payload.encode("utf-8")
-
- # retry RETRY_TIMES to send the message
- for _ in range(0, RETRY_TIMES):
- # setup the send message
- rmr.set_payload_and_length(payload, sbuf)
- rmr.generate_and_set_transaction_id(sbuf)
- sbuf.contents.state = 0
- sbuf.contents.mtype = message_type
- pre_send_summary = rmr.message_summary(sbuf)
- logger.debug("Pre message send summary: %s", pre_send_summary)
- transaction_id = pre_send_summary["transaction id"] # save the transactionid because we need it later
-
- # send
- sbuf = rmr.rmr_send_msg(MRC, sbuf)
- post_send_summary = rmr.message_summary(sbuf)
- logger.debug("Post message send summary: %s", rmr.message_summary(sbuf))
-
- # check success or failure
- if post_send_summary["message state"] == 0 and post_send_summary["message status"] == "RMR_OK":
- # we are good
- logger.debug("Message sent successfully!")
- rmr.rmr_free_msg(sbuf)
- return transaction_id
-
- # we failed all RETRY_TIMES
- logger.debug("Send failed all %s times, stopping", RETRY_TIMES)
- rmr.rmr_free_msg(sbuf)
- return None
-
-
-def dequeue_all_waiting_messages(filter_type=[]):
+ __RMR_LOOP__.work_queue.put(item)
+
+
+def healthcheck_rmr_thread(seconds=30):
"""
- dequeue all waiting rmr messages from rmr
+ returns a boolean representing whether the rmr loop is healthy, by checking two attributes:
+ 1. is it running?,
+ 2. is it stuck in a long (> seconds) loop?
"""
- return helpers.rmr_rcvall_msgs(MRC, filter_type)
+ return __RMR_LOOP__.thread.is_alive() and ((time.time() - __RMR_LOOP__.last_ran) < seconds)
+
+
+def replace_rcv_func(rcv_func):
+ """purely for the ease of unit testing to test different rcv scenarios"""
+ __RMR_LOOP__.rcv_func = rcv_func