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|
from mgr_module import MgrModule
import threading
import datetime
import uuid
import json
ENCODING_VERSION = 1
# keep a global reference to the module so we can use it from Event methods
_module = None
class Event(object):
"""
A generic "event" that has a start time, completion percentage,
and a list of "refs" that are (type, id) tuples describing which
objects (osds, pools) this relates to.
"""
def __init__(self, message, refs):
self._message = message
self._refs = refs
self.started_at = datetime.datetime.utcnow()
self.id = None
def _refresh(self):
global _module
_module.log.debug('refreshing mgr for %s (%s) at %f' % (self.id, self._message,
self.progress))
_module.update_progress_event(self.id, self._message, self.progress)
@property
def message(self):
return self._message
@property
def refs(self):
return self._refs
@property
def progress(self):
raise NotImplementedError()
@property
def failed(self):
return False
@property
def failure_message(self):
return None
def summary(self):
return "{0} {1}".format(self.progress, self.message)
def _progress_str(self, width):
inner_width = width - 2
out = "["
done_chars = int(self.progress * inner_width)
out += done_chars * '='
out += (inner_width - done_chars) * '.'
out += "]"
return out
def twoline_progress(self):
"""
e.g.
- Eating my delicious strudel
[===============..............]
"""
return "{0}\n {1}".format(
self._message, self._progress_str(30))
def to_json(self):
return {
"id": self.id,
"message": self.message,
"refs": self._refs
}
class GhostEvent(Event):
"""
The ghost of a completed event: these are the fields that we persist
after the event is complete.
"""
def __init__(self, my_id, message, refs,
failed=False, failure_message=None):
super(GhostEvent, self).__init__(message, refs)
self.id = my_id
if failed:
self._failed = True
self._failure_message = failure_message
else:
self._failed = False
@property
def progress(self):
return 1.0
@property
def failed(self):
return self._failed
@property
def failure_message(self):
return self._failure_message if self._failed else None
def to_json(self):
d = {
"id": self.id,
"message": self.message,
"refs": self._refs
}
if self._failed:
d["failed"] = True
d["failure_message"] = self._failure_message
return d
class RemoteEvent(Event):
"""
An event that was published by another module: we know nothing about
this, rely on the other module to continuously update us with
progress information as it emerges.
"""
def __init__(self, my_id, message, refs):
super(RemoteEvent, self).__init__(message, refs)
self.id = my_id
self._progress = 0.0
self._failed = False
self._refresh()
def set_progress(self, progress):
self._progress = progress
self._refresh()
def set_failed(self, message):
self._progress = 1.0
self._failed = True
self._failure_message = message
self._refresh()
@property
def progress(self):
return self._progress
@property
def failed(self):
return self._failed
@property
def failure_message(self):
return self._failure_message if self._failed else None
class PgRecoveryEvent(Event):
"""
An event whose completion is determined by the recovery of a set of
PGs to a healthy state.
Always call update() immediately after construction.
"""
def __init__(self, message, refs, which_pgs, evacuate_osds):
super(PgRecoveryEvent, self).__init__(message, refs)
self._pgs = which_pgs
self._evacuate_osds = evacuate_osds
self._original_pg_count = len(self._pgs)
self._original_bytes_recovered = None
self._progress = 0.0
self._start_epoch = _module.get_osdmap().get_epoch()
self.id = str(uuid.uuid4())
self._refresh()
@property
def evacuating_osds(self):
return self. _evacuate_osds
def pg_update(self, raw_pg_stats, pg_ready, log):
# FIXME: O(pg_num) in python
# FIXME: far more fields getting pythonized than we really care about
pg_to_state = dict([(p['pgid'], p) for p in raw_pg_stats['pg_stats']])
if self._original_bytes_recovered is None:
self._original_bytes_recovered = {}
missing_pgs = []
for pg in self._pgs:
pg_str = str(pg)
if pg_str in pg_to_state:
self._original_bytes_recovered[pg] = \
pg_to_state[pg_str]['stat_sum']['num_bytes_recovered']
else:
missing_pgs.append(pg)
if pg_ready:
for pg in missing_pgs:
self._pgs.remove(pg)
complete_accumulate = 0.0
# Calculating progress as the number of PGs recovered divided by the
# original where partially completed PGs count for something
# between 0.0-1.0. This is perhaps less faithful than looking at the
# total number of bytes recovered, but it does a better job of
# representing the work still to do if there are a number of very
# few-bytes PGs that still need the housekeeping of their recovery
# to be done. This is subjective...
complete = set()
for pg in self._pgs:
pg_str = str(pg)
try:
info = pg_to_state[pg_str]
except KeyError:
# The PG is gone! Probably a pool was deleted. Drop it.
complete.add(pg)
continue
# Only checks the state of each PGs when it's epoch >= the OSDMap's epoch
if int(info['reported_epoch']) < int(self._start_epoch):
continue
state = info['state']
states = state.split("+")
if "active" in states and "clean" in states:
complete.add(pg)
else:
if info['stat_sum']['num_bytes'] == 0:
# Empty PGs are considered 0% done until they are
# in the correct state.
pass
else:
recovered = info['stat_sum']['num_bytes_recovered']
total_bytes = info['stat_sum']['num_bytes']
if total_bytes > 0:
ratio = float(recovered -
self._original_bytes_recovered[pg]) / \
total_bytes
# Since the recovered bytes (over time) could perhaps
# exceed the contents of the PG (moment in time), we
# must clamp this
ratio = min(ratio, 1.0)
else:
# Dataless PGs (e.g. containing only OMAPs) count
# as half done.
ratio = 0.5
complete_accumulate += ratio
self._pgs = list(set(self._pgs) ^ complete)
completed_pgs = self._original_pg_count - len(self._pgs)
self._progress = (completed_pgs + complete_accumulate)\
/ self._original_pg_count
self._refresh()
log.info("Updated progress to {0} ({1})".format(
self._progress, self._message
))
@property
def progress(self):
return self._progress
class PgId(object):
def __init__(self, pool_id, ps):
self.pool_id = pool_id
self.ps = ps
def __cmp__(self, other):
return (self.pool_id, self.ps) == (other.pool_id, other.ps)
def __lt__(self, other):
return (self.pool_id, self.ps) < (other.pool_id, other.ps)
def __str__(self):
return "{0}.{1:x}".format(self.pool_id, self.ps)
class Module(MgrModule):
COMMANDS = [
{"cmd": "progress",
"desc": "Show progress of recovery operations",
"perm": "r"},
{"cmd": "progress json",
"desc": "Show machine readable progress information",
"perm": "r"},
{"cmd": "progress clear",
"desc": "Reset progress tracking",
"perm": "rw"},
{"cmd": "progress on",
"desc": "Enable progress tracking",
"perm": "rw"},
{"cmd": "progress off",
"desc": "Disable progress tracking",
"perm": "rw"}
]
MODULE_OPTIONS = [
{
'name': 'max_completed_events',
'default': 50,
'type': 'int',
'desc': 'number of past completed events to remember',
'runtime': True,
},
{
'name': 'persist_interval',
'default': 5,
'type': 'secs',
'desc': 'how frequently to persist completed events',
'runtime': True,
},
{
'name': 'enabled',
'default': True,
'type': 'bool',
}
]
def __init__(self, *args, **kwargs):
super(Module, self).__init__(*args, **kwargs)
self._events = {}
self._completed_events = []
self._old_osd_map = None
self._ready = threading.Event()
self._shutdown = threading.Event()
self._latest_osdmap = None
self._dirty = False
global _module
_module = self
def config_notify(self):
for opt in self.MODULE_OPTIONS:
setattr(self,
opt['name'],
self.get_module_option(opt['name']))
self.log.debug(' %s = %s', opt['name'], getattr(self, opt['name']))
def _osd_in_out(self, old_map, old_dump, new_map, osd_id, marked):
# A function that will create or complete an event when an
# OSD is marked in or out according to the affected PGs
affected_pgs = []
unmoved_pgs = []
for pool in old_dump['pools']:
pool_id = pool['pool']
for ps in range(0, pool['pg_num']):
# Was this OSD affected by the OSD coming in/out?
# Compare old and new osds using
# data from the json dump
old_up_acting = old_map.pg_to_up_acting_osds(pool['pool'], ps)
old_osds = set(old_up_acting['acting'])
new_up_acting = new_map.pg_to_up_acting_osds(pool['pool'], ps)
new_osds = set(new_up_acting['acting'])
# Check the osd_id being in the acting set for both old
# and new maps to cover both out and in cases
was_on_out_or_in_osd = osd_id in old_osds or osd_id in new_osds
if not was_on_out_or_in_osd:
continue
self.log.debug("pool_id, ps = {0}, {1}".format(
pool_id, ps
))
self.log.debug(
"old_up_acting: {0}".format(json.dumps(old_up_acting, indent=2)))
# Has this OSD been assigned a new location?
# (it might not be if there is no suitable place to move
# after an OSD is marked in/out)
if marked == "in":
is_relocated = len(old_osds - new_osds) > 0
else:
is_relocated = len(new_osds - old_osds) > 0
self.log.debug(
"new_up_acting: {0}".format(json.dumps(new_up_acting,
indent=2)))
if was_on_out_or_in_osd and is_relocated:
# This PG is now in motion, track its progress
affected_pgs.append(PgId(pool_id, ps))
elif not is_relocated:
# This PG didn't get a new location, we'll log it
unmoved_pgs.append(PgId(pool_id, ps))
# In the case that we ignored some PGs, log the reason why (we may
# not end up creating a progress event)
if len(unmoved_pgs):
self.log.warn("{0} PGs were on osd.{1}, but didn't get new locations".format(
len(unmoved_pgs), osd_id))
self.log.warn("{0} PGs affected by osd.{1} being marked {2}".format(
len(affected_pgs), osd_id, marked))
# In the case of the osd coming back in, we might need to cancel
# previous recovery event for that osd
if marked == "in":
for ev_id in list(self._events):
ev = self._events[ev_id]
if isinstance(ev, PgRecoveryEvent) and osd_id in ev.evacuating_osds:
self.log.info("osd.{0} came back in, cancelling event".format(
osd_id
))
self._complete(ev)
if len(affected_pgs) > 0:
ev = PgRecoveryEvent(
"Rebalancing after osd.{0} marked {1}".format(osd_id, marked),
refs=[("osd", osd_id)],
which_pgs=affected_pgs,
evacuate_osds=[osd_id]
)
ev.pg_update(self.get("pg_dump"), self.get("pg_ready"), self.log)
self._events[ev.id] = ev
def _osdmap_changed(self, old_osdmap, new_osdmap):
old_dump = old_osdmap.dump()
new_dump = new_osdmap.dump()
old_osds = dict([(o['osd'], o) for o in old_dump['osds']])
for osd in new_dump['osds']:
osd_id = osd['osd']
new_weight = osd['in']
if osd_id in old_osds:
old_weight = old_osds[osd_id]['in']
if new_weight == 0.0 and old_weight > new_weight:
self.log.warn("osd.{0} marked out".format(osd_id))
self._osd_in_out(old_osdmap, old_dump, new_osdmap, osd_id, "out")
elif new_weight >= 1.0 and old_weight == 0.0:
# Only consider weight>=1.0 as "in" to avoid spawning
# individual recovery events on every adjustment
# in a gradual weight-in
self.log.warn("osd.{0} marked in".format(osd_id))
self._osd_in_out(old_osdmap, old_dump, new_osdmap, osd_id, "in")
def notify(self, notify_type, notify_data):
self._ready.wait()
if not self.enabled:
return
if notify_type == "osd_map":
old_osdmap = self._latest_osdmap
self._latest_osdmap = self.get_osdmap()
self.log.info("Processing OSDMap change {0}..{1}".format(
old_osdmap.get_epoch(), self._latest_osdmap.get_epoch()
))
self._osdmap_changed(old_osdmap, self._latest_osdmap)
elif notify_type == "pg_summary":
# if there are no events we will skip this here to avoid
# expensive get calls
if len(self._events) == 0:
return
data = self.get("pg_stats")
ready = self.get("pg_ready")
for ev_id, ev in self._events.items():
if isinstance(ev, PgRecoveryEvent):
ev.pg_update(data, ready, self.log)
self.maybe_complete(ev)
def maybe_complete(self, event):
if event.progress >= 1.0:
self._complete(event)
def _save(self):
self.log.info("Writing back {0} completed events".format(
len(self._completed_events)
))
# TODO: bound the number we store.
encoded = json.dumps({
"events": [ev.to_json() for ev in self._completed_events],
"version": ENCODING_VERSION,
"compat_version": ENCODING_VERSION
})
self.set_store("completed", encoded)
def _load(self):
stored = self.get_store("completed")
if stored is None:
self.log.info("No stored events to load")
return
decoded = json.loads(stored)
if decoded['compat_version'] > ENCODING_VERSION:
raise RuntimeError("Cannot decode version {0}".format(
decoded['compat_version']))
for ev in decoded['events']:
self._completed_events.append(GhostEvent(ev['id'], ev['message'],
ev['refs'],
ev.get('failed', False),
ev.get('failure_message')))
self._prune_completed_events()
def _prune_completed_events(self):
length = len(self._completed_events)
if length > self.max_completed_events:
self._completed_events = self._completed_events[length - self.max_completed_events : length]
self._dirty = True
def serve(self):
self.config_notify()
self.clear_all_progress_events()
self.log.info("Loading...")
self._load()
self.log.info("Loaded {0} historic events".format(self._completed_events))
self._latest_osdmap = self.get_osdmap()
self.log.info("Loaded OSDMap, ready.")
self._ready.set()
while not self._shutdown.is_set():
# Lazy periodic write back of completed events
if self._dirty:
self._save()
self._dirty = False
self._shutdown.wait(timeout=self.persist_interval)
self._shutdown.wait()
def shutdown(self):
self._shutdown.set()
self.clear_all_progress_events()
def update(self, ev_id, ev_msg, ev_progress, refs=None):
"""
For calling from other mgr modules
"""
if not self.enabled:
return
if refs is None:
refs = []
try:
ev = self._events[ev_id]
except KeyError:
ev = RemoteEvent(ev_id, ev_msg, refs)
self._events[ev_id] = ev
self.log.info("update: starting ev {0} ({1})".format(
ev_id, ev_msg))
else:
self.log.debug("update: {0} on {1}".format(
ev_progress, ev_msg))
ev.set_progress(ev_progress)
ev._refresh()
def _complete(self, ev):
duration = (datetime.datetime.utcnow() - ev.started_at)
self.log.info("Completed event {0} ({1}) in {2} seconds".format(
ev.id, ev.message, duration.seconds
))
self.complete_progress_event(ev.id)
self._completed_events.append(
GhostEvent(ev.id, ev.message, ev.refs,
failed=ev.failed, failure_message=ev.failure_message))
del self._events[ev.id]
self._prune_completed_events()
self._dirty = True
def complete(self, ev_id):
"""
For calling from other mgr modules
"""
if not self.enabled:
return
try:
ev = self._events[ev_id]
ev.set_progress(1.0)
self.log.info("complete: finished ev {0} ({1})".format(ev_id,
ev.message))
self._complete(ev)
except KeyError:
self.log.warn("complete: ev {0} does not exist".format(ev_id))
pass
def fail(self, ev_id, message):
"""
For calling from other mgr modules to mark an event as failed (and
complete)
"""
try:
ev = self._events[ev_id]
ev.set_failed(message)
self.log.info("fail: finished ev {0} ({1}): {2}".format(ev_id,
ev.message,
message))
self._complete(ev)
except KeyError:
self.log.warn("fail: ev {0} does not exist".format(ev_id))
def on(self):
self.set_module_option('enabled', True)
def off(self):
self.set_module_option('enabled', False)
def _handle_ls(self):
if len(self._events) or len(self._completed_events):
out = ""
chrono_order = sorted(self._events.values(),
key=lambda x: x.started_at, reverse=True)
for ev in chrono_order:
out += ev.twoline_progress()
out += "\n"
if len(self._completed_events):
# TODO: limit number of completed events to show
out += "\n"
for ev in self._completed_events:
out += "[{0}]: {1}\n".format("Complete" if not ev.failed else "Failed",
ev.twoline_progress())
return 0, out, ""
else:
return 0, "", "Nothing in progress"
def _json(self):
return {
'events': [ev.to_json() for ev in self._events.values()],
'completed': [ev.to_json() for ev in self._completed_events]
}
def clear(self):
self._events = {}
self._completed_events = []
self._dirty = True
self._save()
self.clear_all_progress_events()
def _handle_clear(self):
self.clear()
return 0, "", ""
def handle_command(self, _, cmd):
if cmd['prefix'] == "progress":
return self._handle_ls()
elif cmd['prefix'] == "progress clear":
# The clear command isn't usually needed - it's to enable
# the admin to "kick" this module if it seems to have done
# something wrong (e.g. we have a bug causing a progress event
# that never finishes)
return self._handle_clear()
elif cmd['prefix'] == "progress json":
return 0, json.dumps(self._json(), indent=4, sort_keys=True), ""
elif cmd['prefix'] == "progress on":
if self.enabled:
return 0, "", "progress already enabled!"
self.on()
return 0, "", "progress enabled"
elif cmd['prefix'] == "progress off":
if not self.enabled:
return 0, "", "progress already disabled!"
self.off()
self.clear()
return 0, "", "progress disabled"
else:
raise NotImplementedError(cmd['prefix'])
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