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521 lines
19 KiB
Python
521 lines
19 KiB
Python
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import datetime
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import errno
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import hashlib
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import logging
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import os
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import random
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import signal
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import sys
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import uuid
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from base64 import b64encode
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from contextlib import contextmanager
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import dateutil.parser
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import gevent
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import gevent.event
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import requests
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from monotonic import monotonic
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import twitch
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class TimedOutError(Exception):
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pass
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@contextmanager
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def soft_hard_timeout(description, (soft_timeout, hard_timeout), on_soft_timeout):
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"""Context manager that wraps a piece of code in a pair of timeouts,
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a "soft" timeout and a "hard" one. If the block does not complete before
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the soft timeout, the given on_soft_timeout() function is called in a new greenlet.
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If it doesn't complete before the hard timeout, a TimedOutError is raised.
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Description is a short string, used for logging and error messages.
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Note that the timeouts are given as a tuple pair for ease of use,
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as it's generally easier to pass them around as a pair.
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A typical use-case is for the soft timeout to trigger some other code to begin
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retrying, even as the original code continues to hold out in hope the call eventually
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succeeds.
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"""
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# Finished is set after we're done to flag to the pending soft timeout callback
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# that it shouldn't run.
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finished = False
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def dispatch_soft_timeout():
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if finished:
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# We finished before soft timeout was hit
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return
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logging.warning("Hit soft timeout {}s while {}".format(soft_timeout, description))
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on_soft_timeout()
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gevent.spawn_later(soft_timeout, dispatch_soft_timeout)
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error = TimedOutError("Timed out after {}s while {}".format(hard_timeout, description))
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try:
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with gevent.Timeout(hard_timeout, error):
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yield
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finally:
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finished = True
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def jitter(interval):
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"""Apply some 'jitter' to an interval. This is a random +/- 10% change in order to
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smooth out patterns and prevent everything from retrying at the same time.
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"""
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return interval * (0.9 + 0.2 * random.random())
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class StreamsManager(object):
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"""Keeps track of what streams are being downloaded and the workers doing so.
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Re-fetches master playlist when needed and starts new stream workers.
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This is all to ensure that broken or bad media playlist urls are refreshed
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in a timely manner.
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The stream_workers map lists workers for each stream. Generally there should only be
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one, but during switchover there may be 2 - one old one continuing to (try to) operate while
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the second one confirms it's working. While trying to get a url working, it won't retry, it'll
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just ask the manager immediately to create yet another new worker then quit.
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When one successfully fetches a playlist for the first time, it marks all older
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workers as able to shut down by calling manager.mark_working().
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Creation of a new stream worker may be triggered by:
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* An existing worker failing to refresh its playlist
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* The master playlist finding a stream url it doesn't have already
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* A worker is older than MAX_WORKER_AGE
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The master playlist is only re-fetched as needed. Reasons to re-fetch:
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* No url is known for at least one stream
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* Someone has requested it (eg. because the previous attempt failed, or a worker needs a new url)
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* A worker is older than MAX_WORKER_AGE
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"""
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FETCH_MIN_INTERVAL = 5
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FETCH_TIMEOUTS = 5, 30
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MAX_WORKER_AGE = 20*60*60 # 20 hours, twitch's media playlist links expire after 24 hours
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def __init__(self, channel, base_dir, qualities):
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self.channel = channel
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self.base_dir = base_dir
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self.stream_workers = {name: [] for name in qualities + ["source"]} # {stream name: [workers]}
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self.latest_urls = {} # {stream name: (fetch time, url)}
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self.latest_urls_changed = gevent.event.Event() # set when latest_urls changes
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self.refresh_needed = gevent.event.Event() # set to tell main loop to refresh now
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self.stopping = gevent.event.Event() # set to tell main loop to stop
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def mark_working(self, worker):
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"""Notify the manager that the given worker is up and running,
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and any older workers are safe to stop."""
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workers = self.stream_workers[worker.stream]
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if worker not in workers:
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logging.warning("Worker {} called mark_working() but wasn't in known list: {}".format(worker, workers))
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return
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# stop everything older than given worker
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for old in workers[:workers.index(worker)]:
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old.stop()
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def trigger_new_worker(self, worker):
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"""Called when a worker decides a new worker for a stream is needed, eg. if it seems to be
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failing. Causes a new worker with a fresh url to be created.
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If worker's url is the same as the latest url, blocks until a new url has been fetched.
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This only has effect if the worker is the current latest worker.
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"""
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workers = self.stream_workers[worker.stream]
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if worker not in workers:
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logging.warning("Worker {} called trigger_new_worker() but wasn't in known list: {}".format(worker, workers))
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return
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if worker is not workers[-1]:
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logging.info("Ignoring request to start new worker for {} as old one is not latest".format(worker.stream))
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return
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logging.info("Starting new worker for {} by request of old worker".format(worker.stream))
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self.wait_for_new_url(worker.stream, worker.url)
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self.start_worker(worker.stream)
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self.trigger_refresh()
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def trigger_refresh(self):
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"""Indicate that the master playlist needs to be re-fetched at the next available opportunity."""
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self.refresh_needed.set()
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def update_urls(self, time, new_urls):
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"""Update the urls for streams, and notify anyone waiting"""
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self.latest_urls.update({
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name: (time, url)
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for name, url in new_urls.items()
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})
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# set the old Event, and create a new one for any new waiters
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self.latest_urls_changed.set()
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self.latest_urls_changed = gevent.event.Event()
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def wait_for_new_url(self, stream, old_url):
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"""Trigger urls to be re-fetched, and block until a different one is received."""
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while True:
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new_time, new_url = self.latest_urls[stream]
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if new_url != old_url:
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return
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logging.info("Triggering master playlist refresh as we need a new url")
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self.trigger_refresh()
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self.latest_urls_changed.wait()
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def stop(self):
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"""Shut down all workers and stop capturing stream."""
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logging.info("Stopping streams manager")
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self.stopping.set()
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def start_worker(self, stream):
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"""Start a new worker for given stream"""
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# it's possible for fetch_latest to call us after we've started stopping,
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# in that case do nothing.
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if self.stopping.is_set():
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logging.info("Ignoring worker start as we are stopping")
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return
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url_time, url = self.latest_urls[stream]
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worker = StreamWorker(self, stream, url, url_time)
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self.stream_workers[stream].append(worker)
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gevent.spawn(worker.run)
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def fetch_latest(self):
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"""Re-fetch master playlist and start new workers if needed"""
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try:
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# Fetch playlist. On soft timeout, retry.
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logging.info("Fetching master playlist")
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fetch_time = monotonic()
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with soft_hard_timeout("fetching master playlist", self.FETCH_TIMEOUTS, self.trigger_refresh):
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master_playlist = twitch.get_master_playlist(self.channel)
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new_urls = twitch.get_media_playlist_uris(master_playlist, self.stream_workers.keys())
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self.update_urls(fetch_time, new_urls)
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for stream, workers in self.stream_workers.items():
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# warn and retry if the url is missing
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if stream not in new_urls:
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logging.warning("Stream {} could not be found in latest master playlist, re-queueing refresh".format(stream))
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self.trigger_refresh()
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# is it newly found?
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if not workers and stream in self.latest_urls:
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logging.info("Starting new worker for {} as none exist".format(stream))
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self.start_worker(stream)
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latest_worker = workers[-1]
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# is the old worker too old?
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if latest_worker.age() > self.MAX_WORKER_AGE:
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logging.info("Starting new worker for {} as the latest is too old ({}h)".format(stream, latest_worker.age() / 3600.))
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self.start_worker(stream)
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except Exception as e:
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if isinstance(e, requests.HTTPError) and e.response is not None and e.response.status_code == 404:
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logging.info("Stream is not up. Retrying.")
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self.trigger_refresh()
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else:
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logging.exception("Failed to fetch master playlist")
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# don't retry on hard timeout as we already retried on soft timeout
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if not isinstance(e, TimedOutError):
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self.trigger_refresh()
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def run(self):
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self.trigger_refresh() # on first round, always go immediately
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while not self.stopping.is_set():
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# clamp time to max age to non-negative, and default to 0 if no workers exist
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time_to_next_max_age = max(0, min([
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self.MAX_WORKER_AGE - workers[-1].age()
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for workers in self.stream_workers.values() if workers
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] or [0]))
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logging.info("Next master playlist refresh in at most {} sec".format(time_to_next_max_age))
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# wait until refresh triggered, next max age reached, or we're stopping (whichever happens first)
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gevent.wait([self.stopping, self.refresh_needed], timeout=time_to_next_max_age, count=1)
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if not self.stopping.is_set():
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self.refresh_needed.clear()
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gevent.spawn(self.fetch_latest)
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# wait min retry interval with jitter, unless we're stopping
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self.stopping.wait(jitter(self.FETCH_MIN_INTERVAL))
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logging.info("Stopping workers")
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for workers in self.stream_workers.values():
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for worker in workers:
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worker.stop()
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for worker in workers:
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worker.done.wait()
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class StreamWorker(object):
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"""Handles downloading segments for a particular media playlist.
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If it fails to fetch its playlist (or hits the soft timeout), it tells the manager
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to start a new worker with a new url.
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If the url had been working (ie. that wasn't the first fetch), it will also stay alive and
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attempt to use the old url until a new worker tells it to stand down,
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or a 403 Forbidden is received (as this indicates the url is expired).
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Since segment urls returned for a particular media playlist url are stable, we have an easier
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time of managing downloading those:
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* Every time a new URL is seen, a new SegmentGetter is created
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* SegmentGetters will retry the same URL until they succeed, or get a 403 Forbidden indicating
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the url has expired.
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"""
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FETCH_TIMEOUTS = 5, 90
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FETCH_RETRY_INTERVAL = 1
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FETCH_POLL_INTERVAL = 2
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def __init__(self, manager, stream, url, url_time):
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self.manager = manager
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self.stream = stream
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self.url = url
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self.url_time = url_time
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self.stopping = gevent.event.Event() # set to stop main loop
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self.getters = {} # map from url to SegmentGetter
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self.done = gevent.event.Event() # set when stopped and all getters are done
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def __repr__(self):
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return "<{} at 0x{:x} for stream {!r}>".format(type(self).__name__, id(self), self.stream)
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__str__ = __repr__
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def age(self):
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"""Return age of our url"""
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return monotonic() - self.url_time
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def stop(self):
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"""Tell the worker to shut down"""
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self.stopping.set()
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def run(self):
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logging.info("Worker {} starting".format(self))
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try:
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self._run()
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except Exception:
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logging.exception("Worker {} failed".format(self))
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self.trigger_new_worker()
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else:
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logging.info("Worker {} stopped".format(self))
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finally:
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for getter in self.getters.values():
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getter.done.wait()
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self.done.set()
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self.manager.stream_workers[self.stream].remove(self)
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def trigger_new_worker(self):
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self.manager.trigger_new_worker(self)
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def wait(self, interval):
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"""Wait for given interval with jitter, unless we're stopping"""
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self.stopping.wait(jitter(interval))
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def _run(self):
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first = True
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while not self.stopping.is_set():
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logging.debug("{} getting media playlist {}".format(self, self.url))
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try:
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with soft_hard_timeout("getting media playlist", self.FETCH_TIMEOUTS, self.trigger_new_worker):
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playlist = twitch.get_media_playlist(self.url)
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except Exception as e:
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logging.warning("{} failed to fetch media playlist {}".format(self, self.url), exc_info=True)
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self.trigger_new_worker()
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if first:
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logging.warning("{} failed on first fetch, stopping".format(self))
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self.stop()
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elif isinstance(e, requests.HTTPError) and e.response is not None and e.response.status_code == 403:
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logging.warning("{} failed with 403 Forbidden, stopping".format(self))
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self.stop()
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self.wait(self.FETCH_RETRY_INTERVAL)
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continue
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# We successfully got the playlist at least once
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first = False
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# Start any new segment getters
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date = None # tracks date in case some segment doesn't include it
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for segment in playlist.segments:
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if segment.date:
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date = dateutil.parser.parse(segment.date)
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if segment.uri not in self.getters:
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if date is None:
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raise ValueError("Cannot determine date of segment")
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self.getters[segment.uri] = SegmentGetter(self.manager.base_dir, self.manager.channel, self.stream, segment, date)
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gevent.spawn(self.getters[segment.uri].run)
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if date is not None:
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date += datetime.timedelta(seconds=segment.duration)
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# Clean up any old segment getters
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for url, getter in self.getters.items():
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# If segment is done and wasn't in latest fetch
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if getter.done.is_set() and not any(
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segment.uri == url for segment in playlist.segments
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):
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del self.getters[url]
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# Stop if end-of-stream
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if playlist.is_endlist:
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logging.info("{} stopping due to end-of-playlist".format(self))
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# Trigger a new worker for when the stream comes back up.
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# In the short term this will cause some thrashing until the master playlist
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# starts returning 404, but it's the best way to avoid missing anything
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# if the stream is only very briefly down.
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self.trigger_new_worker()
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self.stop()
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# Wait until next poll
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self.wait(self.FETCH_POLL_INTERVAL)
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class SegmentGetter(object):
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"""Fetches a segment and writes it to disk.
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Retries until it succeeds, or gets a 403 Forbidden indicating
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the url has expired.
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Due to retries and multiple workers further up the stack, SegmentGetter needs to
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assume there may be multiple getters trying to get the same segment. It handles this
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by writing to a tempfile first, then atomically renaming to the computed filename
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if it doesn't already exist.
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"""
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UNEXPECTED_FAILURE_RETRY = 0.5
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FETCH_RETRY = 2
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# Headers timeout is timeout before getting the start of a response,
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# full timeout is for the entire download and stream to disk.
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FETCH_HEADERS_TIMEOUTS = 5, 30
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FETCH_FULL_TIMEOUTS = 15, 240
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def __init__(self, base_dir, channel, stream, segment, date):
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self.base_dir = base_dir
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self.channel = channel
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self.stream = stream
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self.segment = segment
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self.date = date
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self.prefix = self.make_path_prefix()
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self.retry = None # Event, set to begin retrying
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self.done = gevent.event.Event() # set when file exists or we give up
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def run(self):
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try:
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while True:
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try:
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self._run()
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except Exception:
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logging.exception("Failure in SegmentGetter {}".format(self.segment))
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gevent.sleep(jitter(self.UNEXPECTED_FAILURE_RETRY))
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else:
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break
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finally:
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self.done.set()
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def _run(self):
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while not self.exists():
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self.retry = gevent.event.Event()
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worker = gevent.spawn(self.get_segment)
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# wait until worker succeeds/fails or retry is set
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gevent.wait([worker, self.retry], count=1)
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# If worker has returned, and return value is true, we're done
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if worker.ready() and worker.value:
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break
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# if retry not set, wait for FETCH_RETRY first
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self.retry.wait(jitter(self.FETCH_RETRY))
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def make_path_prefix(self):
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"""Generate leading part of filepath which doesn't change with the hash."""
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return os.path.join(
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self.base_dir,
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self.channel,
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self.stream,
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self.date.strftime("%Y-%m-%dT%H"),
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"{date}-{duration}".format(
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date=self.date.strftime("%M:%S.%f"),
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duration=self.segment.duration,
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),
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)
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def make_path(self, type, hash=None):
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"""Generate filepath for the segment.
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Type may be:
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full: Segment is complete. Hash is included.
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partial: Segment is incomplete. Hash is included.
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temp: Segment has not been downloaded yet. A random uuid is added.
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"""
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arg = str(uuid.uuid4()) if type == "temp" else b64encode(hash.digest(), "-_").rstrip("=")
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return "{}-{}-{}.ts".format(self.prefix, type, arg)
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def exists(self):
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"""Look for an existing, full (non-partial) copy of this segment. Return bool."""
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dirname = os.path.dirname(self.prefix)
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try:
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candidates = os.listdir(dirname)
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except OSError as e:
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# on ENOENT (doesn't exist), return []
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if e.errno != errno.ENOENT:
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raise
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return []
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full_prefix = "{}-full".format(self.prefix)
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return any(candidate.startswith(full_prefix) for candidate in candidates)
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def ensure_directory(self, path):
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"""Create directory that contains path, as well as any parent directories,
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if they don't already exist."""
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dir_path = os.path.dirname(path)
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if os.path.exists(dir_path):
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return
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# call recursively to check entire path exists
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self.ensure_directory(dir_path)
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try:
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os.mkdir(dir_path)
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except OSError as e:
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# Ignore if EEXISTS. This is needed to avoid a race if two getters run at once.
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if e.errno != errno.EEXIST:
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raise
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def get_segment(self):
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# save current value of self.retry so we can't set any later instance
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# after a retry for this round has already occurred.
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try:
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self._get_segment()
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except Exception:
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logging.exception("Failed to get segment {}".format(self.segment))
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return False
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else:
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return True
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def _get_segment(self):
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temp_path = self.make_path("temp")
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hash = hashlib.sha256()
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file_created = False
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try:
|
|
logging.debug("Getting segment {}".format(self.segment))
|
|
with soft_hard_timeout("getting and writing segment", self.FETCH_FULL_TIMEOUTS, self.retry.set):
|
|
with soft_hard_timeout("getting segment headers", self.FETCH_HEADERS_TIMEOUTS, self.retry.set):
|
|
resp = requests.get(self.segment.uri, stream=True)
|
|
if resp.status_code == 403:
|
|
logging.warning("Got 403 Forbidden for segment, giving up: {}".format(self.segment))
|
|
return
|
|
resp.raise_for_status()
|
|
self.ensure_directory(temp_path)
|
|
with open(temp_path, 'w') as f:
|
|
file_created = True
|
|
# We read chunk-wise in 8KiB chunks. Note that if the connection cuts halfway,
|
|
# we may lose part of the last chunk even though we did receive it.
|
|
# This is a small enough amount of data that we don't really care.
|
|
for chunk in resp.iter_content(8192):
|
|
f.write(chunk)
|
|
hash.update(chunk)
|
|
except Exception:
|
|
# save original exception so we can re-raise it later even though we may be handling
|
|
# another exception in the interim
|
|
ex_type, ex, tb = sys.exc_info()
|
|
if file_created:
|
|
self.rename(temp_path, self.make_path("partial", hash))
|
|
raise ex_type, ex, tb
|
|
else:
|
|
self.rename(temp_path, self.make_path("full", hash))
|
|
|
|
def rename(self, old, new):
|
|
"""Atomic rename that succeeds if the target already exists, since we're naming everything
|
|
by hash anyway, so if the filepath already exists the file itself is already there.
|
|
In this case, we delete the source file.
|
|
"""
|
|
try:
|
|
os.rename(old, new)
|
|
except OSError as e:
|
|
if e.errno != errno.EEXIST:
|
|
raise
|
|
os.remove(old)
|
|
|
|
|
|
def main(channel, base_dir=".", qualities=""):
|
|
qualities = qualities.split(",") if qualities else []
|
|
manager = StreamsManager(channel, base_dir, qualities)
|
|
gevent.signal(signal.SIGTERM, manager.stop) # shut down on sigterm
|
|
logging.info("Starting up")
|
|
manager.run()
|
|
logging.info("Gracefully stopped")
|