From 19fcec84d8d7d21e796c7624e521b60d28ee21ed Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sun, 7 Apr 2024 20:45:59 +0200 Subject: Adding upstream version 16.2.11+ds. Signed-off-by: Daniel Baumann --- src/pybind/mgr/pg_autoscaler/module.py | 802 +++++++++++++++++++++++++++++++++ 1 file changed, 802 insertions(+) create mode 100644 src/pybind/mgr/pg_autoscaler/module.py (limited to 'src/pybind/mgr/pg_autoscaler/module.py') diff --git a/src/pybind/mgr/pg_autoscaler/module.py b/src/pybind/mgr/pg_autoscaler/module.py new file mode 100644 index 000000000..b1be10ba2 --- /dev/null +++ b/src/pybind/mgr/pg_autoscaler/module.py @@ -0,0 +1,802 @@ +""" +Automatically scale pg_num based on how much data is stored in each pool. +""" + +import json +import mgr_util +import threading +from typing import Any, Dict, List, Optional, Set, Tuple, TYPE_CHECKING, Union +import uuid +from prettytable import PrettyTable +from mgr_module import HealthChecksT, CLIReadCommand, CLIWriteCommand, CRUSHMap, MgrModule, Option, OSDMap + +""" +Some terminology is made up for the purposes of this module: + + - "raw pgs": pg count after applying replication, i.e. the real resource + consumption of a pool. + - "grow/shrink" - increase/decrease the pg_num in a pool + - "crush subtree" - non-overlapping domains in crush hierarchy: used as + units of resource management. +""" + +INTERVAL = 5 + +PG_NUM_MIN = 32 # unless specified on a per-pool basis + +if TYPE_CHECKING: + import sys + if sys.version_info >= (3, 8): + from typing import Literal + else: + from typing_extensions import Literal + + PassT = Literal['first', 'second', 'third'] + + +def nearest_power_of_two(n: int) -> int: + v = int(n) + + v -= 1 + v |= v >> 1 + v |= v >> 2 + v |= v >> 4 + v |= v >> 8 + v |= v >> 16 + + # High bound power of two + v += 1 + + # Low bound power of tow + x = v >> 1 + + return x if (v - n) > (n - x) else v + + +def effective_target_ratio(target_ratio: float, + total_target_ratio: float, + total_target_bytes: int, + capacity: int) -> float: + """ + Returns the target ratio after normalizing for ratios across pools and + adjusting for capacity reserved by pools that have target_size_bytes set. + """ + target_ratio = float(target_ratio) + if total_target_ratio: + target_ratio = target_ratio / total_target_ratio + + if total_target_bytes and capacity: + fraction_available = 1.0 - min(1.0, float(total_target_bytes) / capacity) + target_ratio *= fraction_available + + return target_ratio + + +class PgAdjustmentProgress(object): + """ + Keeps the initial and target pg_num values + """ + + def __init__(self, pool_id: int, pg_num: int, pg_num_target: int) -> None: + self.ev_id = str(uuid.uuid4()) + self.pool_id = pool_id + self.reset(pg_num, pg_num_target) + + def reset(self, pg_num: int, pg_num_target: int) -> None: + self.pg_num = pg_num + self.pg_num_target = pg_num_target + + def update(self, module: MgrModule, progress: float) -> None: + desc = 'increasing' if self.pg_num < self.pg_num_target else 'decreasing' + module.remote('progress', 'update', self.ev_id, + ev_msg="PG autoscaler %s pool %d PGs from %d to %d" % + (desc, self.pool_id, self.pg_num, self.pg_num_target), + ev_progress=progress, + refs=[("pool", self.pool_id)]) + + +class CrushSubtreeResourceStatus: + def __init__(self) -> None: + self.root_ids: List[int] = [] + self.osds: Set[int] = set() + self.osd_count: Optional[int] = None # Number of OSDs + self.pg_target: Optional[int] = None # Ideal full-capacity PG count? + self.pg_current = 0 # How many PGs already? + self.pg_left = 0 + self.capacity: Optional[int] = None # Total capacity of OSDs in subtree + self.pool_ids: List[int] = [] + self.pool_names: List[str] = [] + self.pool_count: Optional[int] = None + self.pool_used = 0 + self.total_target_ratio = 0.0 + self.total_target_bytes = 0 # including replication / EC overhead + + +class PgAutoscaler(MgrModule): + """ + PG autoscaler. + """ + NATIVE_OPTIONS = [ + 'mon_target_pg_per_osd', + 'mon_max_pg_per_osd', + ] + + MODULE_OPTIONS = [ + Option( + name='sleep_interval', + type='secs', + default=60), + + Option( + name='noautoscale', + type='bool', + desc='global autoscale flag', + long_desc=('Option to turn on/off the autoscaler for all pools'), + default=False), + ] + + def __init__(self, *args: Any, **kwargs: Any) -> None: + super(PgAutoscaler, self).__init__(*args, **kwargs) + self._shutdown = threading.Event() + self._event: Dict[int, PgAdjustmentProgress] = {} + + # So much of what we do peeks at the osdmap that it's easiest + # to just keep a copy of the pythonized version. + self._osd_map = None + if TYPE_CHECKING: + self.sleep_interval = 60 + self.mon_target_pg_per_osd = 0 + self.noautoscale = False + + def config_notify(self) -> None: + for opt in self.NATIVE_OPTIONS: + setattr(self, + opt, + self.get_ceph_option(opt)) + self.log.debug(' native option %s = %s', opt, getattr(self, opt)) + for opt in self.MODULE_OPTIONS: + setattr(self, + opt['name'], + self.get_module_option(opt['name'])) + self.log.debug(' mgr option %s = %s', + opt['name'], getattr(self, opt['name'])) + + @CLIReadCommand('osd pool autoscale-status') + def _command_autoscale_status(self, format: str = 'plain') -> Tuple[int, str, str]: + """ + report on pool pg_num sizing recommendation and intent + """ + osdmap = self.get_osdmap() + pools = osdmap.get_pools_by_name() + ps, root_map = self._get_pool_status(osdmap, pools) + + if format in ('json', 'json-pretty'): + return 0, json.dumps(ps, indent=4, sort_keys=True), '' + else: + table = PrettyTable(['POOL', 'SIZE', 'TARGET SIZE', + 'RATE', 'RAW CAPACITY', + 'RATIO', 'TARGET RATIO', + 'EFFECTIVE RATIO', + 'BIAS', + 'PG_NUM', +# 'IDEAL', + 'NEW PG_NUM', 'AUTOSCALE', + 'BULK'], + border=False) + table.left_padding_width = 0 + table.right_padding_width = 2 + table.align['POOL'] = 'l' + table.align['SIZE'] = 'r' + table.align['TARGET SIZE'] = 'r' + table.align['RATE'] = 'r' + table.align['RAW CAPACITY'] = 'r' + table.align['RATIO'] = 'r' + table.align['TARGET RATIO'] = 'r' + table.align['EFFECTIVE RATIO'] = 'r' + table.align['BIAS'] = 'r' + table.align['PG_NUM'] = 'r' +# table.align['IDEAL'] = 'r' + table.align['NEW PG_NUM'] = 'r' + table.align['AUTOSCALE'] = 'l' + table.align['BULK'] = 'l' + for p in ps: + if p['would_adjust']: + final = str(p['pg_num_final']) + else: + final = '' + if p['target_bytes'] > 0: + ts = mgr_util.format_bytes(p['target_bytes'], 6) + else: + ts = '' + if p['target_ratio'] > 0.0: + tr = '%.4f' % p['target_ratio'] + else: + tr = '' + if p['effective_target_ratio'] > 0.0: + etr = '%.4f' % p['effective_target_ratio'] + else: + etr = '' + table.add_row([ + p['pool_name'], + mgr_util.format_bytes(p['logical_used'], 6), + ts, + p['raw_used_rate'], + mgr_util.format_bytes(p['subtree_capacity'], 6), + '%.4f' % p['capacity_ratio'], + tr, + etr, + p['bias'], + p['pg_num_target'], +# p['pg_num_ideal'], + final, + p['pg_autoscale_mode'], + str(p['bulk']) + ]) + return 0, table.get_string(), '' + + def complete_all_progress_events(self) -> None: + for pool_id in list(self._event): + ev = self._event[pool_id] + self.remote('progress', 'complete', ev.ev_id) + del self._event[pool_id] + + def set_autoscale_mode_all_pools(self, status: str) -> None: + osdmap = self.get_osdmap() + pools = osdmap.get_pools_by_name() + for pool_name, _ in pools.items(): + self.mon_command({ + 'prefix': 'osd pool set', + 'pool': pool_name, + 'var': 'pg_autoscale_mode', + 'val': status + }) + @CLIWriteCommand("osd pool get noautoscale") + def get_noautoscale(self) -> Tuple[int, str, str]: + """ + Get the noautoscale flag to see if all pools + are setting the autoscaler on or off as well + as newly created pools in the future. + """ + + if self.noautoscale == None: + raise TypeError("noautoscale cannot be None") + elif self.noautoscale: + return 0, "", "noautoscale is on" + else: + return 0, "", "noautoscale is off" + + @CLIWriteCommand("osd pool unset noautoscale") + def unset_noautoscale(self) -> Tuple[int, str, str]: + """ + Unset the noautoscale flag so all pools will + have autoscale enabled (including newly created + pools in the future). + """ + if not self.noautoscale: + return 0, "", "noautoscale is already unset!" + else: + self.set_module_option("noautoscale", False) + self.mon_command({ + 'prefix': 'config set', + 'who': 'global', + 'name': 'osd_pool_default_pg_autoscale_mode', + 'value': 'on' + }) + self.set_autoscale_mode_all_pools("on") + return 0, "", "noautoscale is unset, all pools now have autoscale on" + + @CLIWriteCommand("osd pool set noautoscale") + def set_noautoscale(self) -> Tuple[int, str, str]: + """ + set the noautoscale for all pools (including + newly created pools in the future) + and complete all on-going progress events + regarding PG-autoscaling. + """ + if self.noautoscale: + return 0, "", "noautoscale is already set!" + else: + self.set_module_option("noautoscale", True) + self.mon_command({ + 'prefix': 'config set', + 'who': 'global', + 'name': 'osd_pool_default_pg_autoscale_mode', + 'value': 'off' + }) + self.set_autoscale_mode_all_pools("off") + self.complete_all_progress_events() + return 0, "", "noautoscale is set, all pools now have autoscale off" + + def serve(self) -> None: + self.config_notify() + while not self._shutdown.is_set(): + self._maybe_adjust() + self._update_progress_events() + self._shutdown.wait(timeout=self.sleep_interval) + + def shutdown(self) -> None: + self.log.info('Stopping pg_autoscaler') + self._shutdown.set() + + def identify_subtrees_and_overlaps(self, + osdmap: OSDMap, + crush: CRUSHMap, + result: Dict[int, CrushSubtreeResourceStatus], + overlapped_roots: Set[int], + roots: List[CrushSubtreeResourceStatus]) -> \ + Tuple[List[CrushSubtreeResourceStatus], + Set[int]]: + + # We identify subtrees and overlapping roots from osdmap + for pool_id, pool in osdmap.get_pools().items(): + crush_rule = crush.get_rule_by_id(pool['crush_rule']) + assert crush_rule is not None + cr_name = crush_rule['rule_name'] + root_id = crush.get_rule_root(cr_name) + assert root_id is not None + osds = set(crush.get_osds_under(root_id)) + + # Are there overlapping roots? + s = None + for prev_root_id, prev in result.items(): + if osds & prev.osds: + s = prev + if prev_root_id != root_id: + overlapped_roots.add(prev_root_id) + overlapped_roots.add(root_id) + self.log.warning("pool %s won't scale due to overlapping roots: %s", + pool['pool_name'], overlapped_roots) + self.log.warning("Please See: https://docs.ceph.com/en/" + "latest/rados/operations/placement-groups" + "/#automated-scaling") + break + if not s: + s = CrushSubtreeResourceStatus() + roots.append(s) + result[root_id] = s + s.root_ids.append(root_id) + s.osds |= osds + s.pool_ids.append(pool_id) + s.pool_names.append(pool['pool_name']) + s.pg_current += pool['pg_num_target'] * pool['size'] + target_ratio = pool['options'].get('target_size_ratio', 0.0) + if target_ratio: + s.total_target_ratio += target_ratio + else: + target_bytes = pool['options'].get('target_size_bytes', 0) + if target_bytes: + s.total_target_bytes += target_bytes * osdmap.pool_raw_used_rate(pool_id) + return roots, overlapped_roots + + def get_subtree_resource_status(self, + osdmap: OSDMap, + crush: CRUSHMap) -> Tuple[Dict[int, CrushSubtreeResourceStatus], + Set[int]]: + """ + For each CRUSH subtree of interest (i.e. the roots under which + we have pools), calculate the current resource usages and targets, + such as how many PGs there are, vs. how many PGs we would + like there to be. + """ + result: Dict[int, CrushSubtreeResourceStatus] = {} + roots: List[CrushSubtreeResourceStatus] = [] + overlapped_roots: Set[int] = set() + # identify subtrees and overlapping roots + roots, overlapped_roots = self.identify_subtrees_and_overlaps(osdmap, + crush, result, overlapped_roots, roots) + # finish subtrees + all_stats = self.get('osd_stats') + for s in roots: + assert s.osds is not None + s.osd_count = len(s.osds) + s.pg_target = s.osd_count * self.mon_target_pg_per_osd + s.pg_left = s.pg_target + s.pool_count = len(s.pool_ids) + capacity = 0 + for osd_stats in all_stats['osd_stats']: + if osd_stats['osd'] in s.osds: + # Intentionally do not apply the OSD's reweight to + # this, because we want to calculate PG counts based + # on the physical storage available, not how it is + # reweighted right now. + capacity += osd_stats['kb'] * 1024 + + s.capacity = capacity + self.log.debug('root_ids %s pools %s with %d osds, pg_target %d', + s.root_ids, + s.pool_ids, + s.osd_count, + s.pg_target) + + return result, overlapped_roots + + def _calc_final_pg_target( + self, + p: Dict[str, Any], + pool_name: str, + root_map: Dict[int, CrushSubtreeResourceStatus], + root_id: int, + capacity_ratio: float, + bias: float, + even_pools: Dict[str, Dict[str, Any]], + bulk_pools: Dict[str, Dict[str, Any]], + func_pass: 'PassT', + bulk: bool, + ) -> Union[Tuple[float, int, int], Tuple[None, None, None]]: + """ + `profile` determines behaviour of the autoscaler. + `first_pass` flag used to determine if this is the first + pass where the caller tries to calculate/adjust pools that has + used_ratio > even_ratio else this is the second pass, + we calculate final_ratio by giving it 1 / pool_count + of the root we are currently looking at. + """ + if func_pass == 'first': + # first pass to deal with small pools (no bulk flag) + # calculating final_pg_target based on capacity ratio + # we also keep track of bulk_pools to be used in second pass + if not bulk: + final_ratio = capacity_ratio + pg_left = root_map[root_id].pg_left + assert pg_left is not None + used_pg = final_ratio * pg_left + root_map[root_id].pg_left -= int(used_pg) + root_map[root_id].pool_used += 1 + pool_pg_target = used_pg / p['size'] * bias + else: + bulk_pools[pool_name] = p + return None, None, None + + elif func_pass == 'second': + # second pass we calculate the final_pg_target + # for pools that have used_ratio > even_ratio + # and we keep track of even pools to be used in third pass + pool_count = root_map[root_id].pool_count + assert pool_count is not None + even_ratio = 1 / (pool_count - root_map[root_id].pool_used) + used_ratio = capacity_ratio + + if used_ratio > even_ratio: + root_map[root_id].pool_used += 1 + else: + even_pools[pool_name] = p + return None, None, None + + final_ratio = max(used_ratio, even_ratio) + pg_left = root_map[root_id].pg_left + assert pg_left is not None + used_pg = final_ratio * pg_left + root_map[root_id].pg_left -= int(used_pg) + pool_pg_target = used_pg / p['size'] * bias + + else: + # third pass we just split the pg_left to all even_pools + pool_count = root_map[root_id].pool_count + assert pool_count is not None + final_ratio = 1 / (pool_count - root_map[root_id].pool_used) + pool_pg_target = (final_ratio * root_map[root_id].pg_left) / p['size'] * bias + + min_pg = p.get('options', {}).get('pg_num_min', PG_NUM_MIN) + max_pg = p.get('options', {}).get('pg_num_max') + final_pg_target = max(min_pg, nearest_power_of_two(pool_pg_target)) + if max_pg and max_pg < final_pg_target: + final_pg_target = max_pg + self.log.info("Pool '{0}' root_id {1} using {2} of space, bias {3}, " + "pg target {4} quantized to {5} (current {6})".format( + p['pool_name'], + root_id, + capacity_ratio, + bias, + pool_pg_target, + final_pg_target, + p['pg_num_target'] + )) + return final_ratio, pool_pg_target, final_pg_target + + def _get_pool_pg_targets( + self, + osdmap: OSDMap, + pools: Dict[str, Dict[str, Any]], + crush_map: CRUSHMap, + root_map: Dict[int, CrushSubtreeResourceStatus], + pool_stats: Dict[int, Dict[str, int]], + ret: List[Dict[str, Any]], + threshold: float, + func_pass: 'PassT', + overlapped_roots: Set[int], + ) -> Tuple[List[Dict[str, Any]], Dict[str, Dict[str, Any]] , Dict[str, Dict[str, Any]]]: + """ + Calculates final_pg_target of each pools and determine if it needs + scaling, this depends on the profile of the autoscaler. For scale-down, + we start out with a full complement of pgs and only descrease it when other + pools needs more pgs due to increased usage. For scale-up, we start out with + the minimal amount of pgs and only scale when there is increase in usage. + """ + even_pools: Dict[str, Dict[str, Any]] = {} + bulk_pools: Dict[str, Dict[str, Any]] = {} + for pool_name, p in pools.items(): + pool_id = p['pool'] + if pool_id not in pool_stats: + # race with pool deletion; skip + continue + + # FIXME: we assume there is only one take per pool, but that + # may not be true. + crush_rule = crush_map.get_rule_by_id(p['crush_rule']) + assert crush_rule is not None + cr_name = crush_rule['rule_name'] + root_id = crush_map.get_rule_root(cr_name) + assert root_id is not None + if root_id in overlapped_roots: + # skip pools + # with overlapping roots + self.log.warn("pool %d contains an overlapping root %d" + "... skipping scaling", pool_id, root_id) + continue + capacity = root_map[root_id].capacity + assert capacity is not None + if capacity == 0: + self.log.debug('skipping empty subtree %s', cr_name) + continue + + raw_used_rate = osdmap.pool_raw_used_rate(pool_id) + + pool_logical_used = pool_stats[pool_id]['stored'] + bias = p['options'].get('pg_autoscale_bias', 1.0) + target_bytes = 0 + # ratio takes precedence if both are set + if p['options'].get('target_size_ratio', 0.0) == 0.0: + target_bytes = p['options'].get('target_size_bytes', 0) + + # What proportion of space are we using? + actual_raw_used = pool_logical_used * raw_used_rate + actual_capacity_ratio = float(actual_raw_used) / capacity + + pool_raw_used = max(pool_logical_used, target_bytes) * raw_used_rate + capacity_ratio = float(pool_raw_used) / capacity + + self.log.info("effective_target_ratio {0} {1} {2} {3}".format( + p['options'].get('target_size_ratio', 0.0), + root_map[root_id].total_target_ratio, + root_map[root_id].total_target_bytes, + capacity)) + + target_ratio = effective_target_ratio(p['options'].get('target_size_ratio', 0.0), + root_map[root_id].total_target_ratio, + root_map[root_id].total_target_bytes, + capacity) + + # determine if the pool is a bulk + bulk = False + flags = p['flags_names'].split(",") + if "bulk" in flags: + bulk = True + + capacity_ratio = max(capacity_ratio, target_ratio) + final_ratio, pool_pg_target, final_pg_target = self._calc_final_pg_target( + p, pool_name, root_map, root_id, + capacity_ratio, bias, even_pools, + bulk_pools, func_pass, bulk) + + if final_ratio is None: + continue + + adjust = False + if (final_pg_target > p['pg_num_target'] * threshold or + final_pg_target < p['pg_num_target'] / threshold) and \ + final_ratio >= 0.0 and \ + final_ratio <= 1.0: + adjust = True + + assert pool_pg_target is not None + ret.append({ + 'pool_id': pool_id, + 'pool_name': p['pool_name'], + 'crush_root_id': root_id, + 'pg_autoscale_mode': p['pg_autoscale_mode'], + 'pg_num_target': p['pg_num_target'], + 'logical_used': pool_logical_used, + 'target_bytes': target_bytes, + 'raw_used_rate': raw_used_rate, + 'subtree_capacity': capacity, + 'actual_raw_used': actual_raw_used, + 'raw_used': pool_raw_used, + 'actual_capacity_ratio': actual_capacity_ratio, + 'capacity_ratio': capacity_ratio, + 'target_ratio': p['options'].get('target_size_ratio', 0.0), + 'effective_target_ratio': target_ratio, + 'pg_num_ideal': int(pool_pg_target), + 'pg_num_final': final_pg_target, + 'would_adjust': adjust, + 'bias': p.get('options', {}).get('pg_autoscale_bias', 1.0), + 'bulk': bulk, + }) + + return ret, bulk_pools, even_pools + + def _get_pool_status( + self, + osdmap: OSDMap, + pools: Dict[str, Dict[str, Any]], + threshold: float = 3.0, + ) -> Tuple[List[Dict[str, Any]], + Dict[int, CrushSubtreeResourceStatus]]: + assert threshold >= 2.0 + + crush_map = osdmap.get_crush() + root_map, overlapped_roots = self.get_subtree_resource_status(osdmap, crush_map) + df = self.get('df') + pool_stats = dict([(p['id'], p['stats']) for p in df['pools']]) + + ret: List[Dict[str, Any]] = [] + + # Iterate over all pools to determine how they should be sized. + # First call of _get_pool_pg_targets() is to find/adjust pools that uses more capacaity than + # the even_ratio of other pools and we adjust those first. + # Second call make use of the even_pools we keep track of in the first call. + # All we need to do is iterate over those and give them 1/pool_count of the + # total pgs. + + ret, bulk_pools, _ = self._get_pool_pg_targets(osdmap, pools, crush_map, root_map, + pool_stats, ret, threshold, 'first', overlapped_roots) + + ret, _, even_pools = self._get_pool_pg_targets(osdmap, bulk_pools, crush_map, root_map, + pool_stats, ret, threshold, 'second', overlapped_roots) + + ret, _, _ = self._get_pool_pg_targets(osdmap, even_pools, crush_map, root_map, + pool_stats, ret, threshold, 'third', overlapped_roots) + + return (ret, root_map) + + def _update_progress_events(self) -> None: + if self.noautoscale: + return + osdmap = self.get_osdmap() + pools = osdmap.get_pools() + for pool_id in list(self._event): + ev = self._event[pool_id] + pool_data = pools.get(pool_id) + if pool_data is None or pool_data['pg_num'] == pool_data['pg_num_target'] or ev.pg_num == ev.pg_num_target: + # pool is gone or we've reached our target + self.remote('progress', 'complete', ev.ev_id) + del self._event[pool_id] + continue + ev.update(self, (ev.pg_num - pool_data['pg_num']) / (ev.pg_num - ev.pg_num_target)) + + def _maybe_adjust(self) -> None: + if self.noautoscale: + return + self.log.info('_maybe_adjust') + osdmap = self.get_osdmap() + if osdmap.get_require_osd_release() < 'nautilus': + return + pools = osdmap.get_pools_by_name() + self.log.debug("pool: {0}".format(json.dumps(pools, indent=4, + sort_keys=True))) + ps, root_map = self._get_pool_status(osdmap, pools) + + # Anyone in 'warn', set the health message for them and then + # drop them from consideration. + too_few = [] + too_many = [] + bytes_and_ratio = [] + health_checks: Dict[str, Dict[str, Union[int, str, List[str]]]] = {} + + total_bytes = dict([(r, 0) for r in iter(root_map)]) + total_target_bytes = dict([(r, 0.0) for r in iter(root_map)]) + target_bytes_pools: Dict[int, List[int]] = dict([(r, []) for r in iter(root_map)]) + + for p in ps: + pool_id = p['pool_id'] + pool_opts = pools[p['pool_name']]['options'] + if pool_opts.get('target_size_ratio', 0) > 0 and pool_opts.get('target_size_bytes', 0) > 0: + bytes_and_ratio.append( + 'Pool %s has target_size_bytes and target_size_ratio set' % p['pool_name']) + total_bytes[p['crush_root_id']] += max( + p['actual_raw_used'], + p['target_bytes'] * p['raw_used_rate']) + if p['target_bytes'] > 0: + total_target_bytes[p['crush_root_id']] += p['target_bytes'] * p['raw_used_rate'] + target_bytes_pools[p['crush_root_id']].append(p['pool_name']) + if not p['would_adjust']: + continue + if p['pg_autoscale_mode'] == 'warn': + msg = 'Pool %s has %d placement groups, should have %d' % ( + p['pool_name'], + p['pg_num_target'], + p['pg_num_final']) + if p['pg_num_final'] > p['pg_num_target']: + too_few.append(msg) + else: + too_many.append(msg) + + if p['pg_autoscale_mode'] == 'on': + # Note that setting pg_num actually sets pg_num_target (see + # OSDMonitor.cc) + r = self.mon_command({ + 'prefix': 'osd pool set', + 'pool': p['pool_name'], + 'var': 'pg_num', + 'val': str(p['pg_num_final']) + }) + + # create new event or update existing one to reflect + # progress from current state to the new pg_num_target + pool_data = pools[p['pool_name']] + pg_num = pool_data['pg_num'] + new_target = p['pg_num_final'] + if pool_id in self._event: + self._event[pool_id].reset(pg_num, new_target) + else: + self._event[pool_id] = PgAdjustmentProgress(pool_id, pg_num, new_target) + self._event[pool_id].update(self, 0.0) + + if r[0] != 0: + # FIXME: this is a serious and unexpected thing, + # we should expose it as a cluster log error once + # the hook for doing that from ceph-mgr modules is + # in. + self.log.error("pg_num adjustment on {0} to {1} failed: {2}" + .format(p['pool_name'], + p['pg_num_final'], r)) + + if too_few: + summary = "{0} pools have too few placement groups".format( + len(too_few)) + health_checks['POOL_TOO_FEW_PGS'] = { + 'severity': 'warning', + 'summary': summary, + 'count': len(too_few), + 'detail': too_few + } + if too_many: + summary = "{0} pools have too many placement groups".format( + len(too_many)) + health_checks['POOL_TOO_MANY_PGS'] = { + 'severity': 'warning', + 'summary': summary, + 'count': len(too_many), + 'detail': too_many + } + + too_much_target_bytes = [] + for root_id, total in total_bytes.items(): + total_target = int(total_target_bytes[root_id]) + capacity = root_map[root_id].capacity + assert capacity is not None + if total_target > 0 and total > capacity and capacity: + too_much_target_bytes.append( + 'Pools %s overcommit available storage by %.03fx due to ' + 'target_size_bytes %s on pools %s' % ( + root_map[root_id].pool_names, + total / capacity, + mgr_util.format_bytes(total_target, 5, colored=False), + target_bytes_pools[root_id] + ) + ) + elif total_target > capacity and capacity: + too_much_target_bytes.append( + 'Pools %s overcommit available storage by %.03fx due to ' + 'collective target_size_bytes of %s' % ( + root_map[root_id].pool_names, + total / capacity, + mgr_util.format_bytes(total_target, 5, colored=False), + ) + ) + if too_much_target_bytes: + health_checks['POOL_TARGET_SIZE_BYTES_OVERCOMMITTED'] = { + 'severity': 'warning', + 'summary': "%d subtrees have overcommitted pool target_size_bytes" % len(too_much_target_bytes), + 'count': len(too_much_target_bytes), + 'detail': too_much_target_bytes, + } + + if bytes_and_ratio: + health_checks['POOL_HAS_TARGET_SIZE_BYTES_AND_RATIO'] = { + 'severity': 'warning', + 'summary': "%d pools have both target_size_bytes and target_size_ratio set" % len(bytes_and_ratio), + 'count': len(bytes_and_ratio), + 'detail': bytes_and_ratio, + } + + self.set_health_checks(health_checks) -- cgit v1.2.3