root / htools / Ganeti / HTools / Program / Hcheck.hs @ 3c0687b5
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{-| Cluster checker. |
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-} |
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{- |
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Copyright (C) 2012 Google Inc. |
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This program is free software; you can redistribute it and/or modify |
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it under the terms of the GNU General Public License as published by |
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the Free Software Foundation; either version 2 of the License, or |
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(at your option) any later version. |
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|
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This program is distributed in the hope that it will be useful, but |
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WITHOUT ANY WARRANTY; without even the implied warranty of |
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU |
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General Public License for more details. |
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|
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You should have received a copy of the GNU Gene52al Public License |
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along with this program; if not, write to the Free Software |
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Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA |
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02110-1301, USA. |
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-} |
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module Ganeti.HTools.Program.Hcheck (main, options) where |
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import Control.Monad |
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import List (transpose) |
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import System.Exit |
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import System.IO |
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import Text.Printf (printf) |
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|
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import qualified Ganeti.HTools.Container as Container |
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import qualified Ganeti.HTools.Cluster as Cluster |
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import qualified Ganeti.HTools.Group as Group |
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import qualified Ganeti.HTools.Node as Node |
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import qualified Ganeti.HTools.Instance as Instance |
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import qualified Ganeti.HTools.Program.Hbal as Hbal |
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import Ganeti.HTools.CLI |
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import Ganeti.HTools.ExtLoader |
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import Ganeti.HTools.Loader |
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import Ganeti.HTools.Types |
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|
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-- | Options list and functions. |
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options :: [OptType] |
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options = |
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[ oDataFile |
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, oDiskMoves |
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, oDynuFile |
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, oEvacMode |
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, oExInst |
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, oExTags |
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, oIAllocSrc |
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, oInstMoves |
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, oLuxiSocket |
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, oMachineReadable |
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, oMaxCpu |
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, oMaxSolLength |
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, oMinDisk |
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, oMinGain |
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, oMinGainLim |
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, oMinScore |
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, oNoSimulation |
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, oOfflineNode |
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, oQuiet |
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, oRapiMaster |
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, oSelInst |
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, oShowHelp |
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, oShowVer |
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, oVerbose |
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] |
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|
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-- | Check phase - are we before (initial) or after rebalance. |
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data Phase = Initial |
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| Rebalanced |
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-- | Level of presented statistics. |
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data Level = GroupLvl |
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| ClusterLvl |
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|
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-- | Prefix for machine readable names |
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htcPrefix :: String |
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htcPrefix = "HCHECK" |
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-- | Data showed both per group and per cluster. |
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commonData :: [(String, String)] |
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commonData =[ ("N1_FAIL", "Nodes not N+1 happy") |
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, ("CONFLICT_TAGS", "Nodes with conflicting instances") |
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, ("OFFLINE_PRI", "Instances with primary on an offline node") |
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, ("OFFLINE_SEC", "Instances with seondary on an offline node") |
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] |
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-- | Data showed per group. |
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groupData :: [(String, String)] |
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groupData = commonData ++ [("SCORE", "Group score")] |
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-- | Data showed per cluster. |
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clusterData :: [(String, String)] |
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clusterData = commonData ++ |
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[ ("NEED_REBALANCE", "Cluster is not healthy") |
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, ("CAN_REBALANCE", "Possible to run rebalance") |
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] |
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-- | Phase-specific prefix for machine readable version. |
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phasePrefix :: Phase -> String |
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phasePrefix Initial = "INIT" |
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phasePrefix Rebalanced = "FINAL" |
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-- | Level-specific prefix for machine readable version. |
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levelPrefix :: Level -> String |
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levelPrefix GroupLvl = "GROUP" |
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levelPrefix ClusterLvl = "CLUSTER" |
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-- | Machine-readable keys to show depending on given level. |
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keysData :: Level -> [String] |
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keysData GroupLvl = map fst groupData |
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keysData ClusterLvl = map fst clusterData |
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-- | Description of phases for human readable version. |
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phaseDescr :: Phase -> String |
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phaseDescr Initial = "initially" |
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phaseDescr Rebalanced = "after rebalancing" |
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-- | Description to show depending on given level. |
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descrData :: Level -> [String] |
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descrData GroupLvl = map snd groupData |
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descrData ClusterLvl = map snd clusterData |
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-- | Human readable prefix for statistics. |
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phaseLevelDescr :: Phase -> Level -> Maybe String -> String |
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phaseLevelDescr phase GroupLvl (Just name) = |
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printf "Statistics for group %s %s\n" name $ phaseDescr phase |
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phaseLevelDescr phase GroupLvl Nothing = |
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printf "Statistics for group %s\n" $ phaseDescr phase |
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phaseLevelDescr phase ClusterLvl _ = |
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printf "Cluster statistics %s\n" $ phaseDescr phase |
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-- | Format a list of key, value as a shell fragment. |
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printKeysHTC :: [(String, String)] -> IO () |
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printKeysHTC = printKeys htcPrefix |
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-- | Prepare string from boolean value. |
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printBool :: Bool -- ^ Whether the result should be machine readable |
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-> Bool -- ^ Value to be converted to string |
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-> String |
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printBool True True = "1" |
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printBool True False = "0" |
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printBool False b = show b |
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-- | Print mapping from group idx to group uuid (only in machine readable mode). |
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printGroupsMappings :: Group.List -> IO () |
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printGroupsMappings gl = do |
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let extract_vals = \g -> (printf "GROUP_UUID_%d" $ Group.idx g :: String, |
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printf "%s" $ Group.uuid g :: String) |
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printpairs = map extract_vals (Container.elems gl) |
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printKeysHTC printpairs |
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-- | Prepare a single key given a certain level and phase of simulation. |
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prepareKey :: Level -> Phase -> Maybe String -> String -> String |
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prepareKey level phase Nothing suffix = |
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printf "%s_%s_%s" (phasePrefix phase) (levelPrefix level) suffix |
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prepareKey level phase (Just idx) suffix = |
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printf "%s_%s_%s_%s" (phasePrefix phase) (levelPrefix level) idx suffix |
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-- | Print all the statistics for given level and phase. |
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printStats :: Int -- ^ Verbosity level |
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-> Bool -- ^ If the output should be machine readable |
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-> Level -- ^ Level on which we are printing |
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-> Phase -- ^ Current phase of simulation |
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-> [String] -- ^ Values to print |
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-> Maybe String -- ^ Additional data for groups |
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-> IO () |
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printStats _ True level phase values gidx = do |
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let keys = map (prepareKey level phase gidx) (keysData level) |
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printKeysHTC $ zip keys values |
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printStats verbose False level phase values name = do |
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let prefix = phaseLevelDescr phase level name |
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descr = descrData level |
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unless (verbose == 0) $ do |
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printf "\n%s" prefix :: IO () |
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mapM_ (\(a,b) -> printf " %s: %s\n" a b) (zip descr values) |
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-- | Extract name or idx from group. |
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extractGroupData :: Bool -> Group.Group -> String |
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extractGroupData True grp = printf "%d" $ Group.idx grp |
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extractGroupData False grp = Group.name grp |
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-- | Prepare values for group. |
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prepareGroupValues :: [Int] -> Double -> [String] |
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prepareGroupValues stats score = |
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map (printf "%d") stats ++ [printf "%.8f" score] |
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-- | Prepare values for cluster. |
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prepareClusterValues :: Bool -> [Int] -> [Bool] -> [String] |
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prepareClusterValues machineread stats bstats = |
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map (printf "%d") stats ++ map (printBool machineread) bstats |
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-- | Print all the statistics on a group level. |
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printGroupStats :: Int -> Bool -> Phase -> Group.Group -> [Int] -> Double |
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-> IO () |
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printGroupStats verbose machineread phase grp stats score = do |
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let values = prepareGroupValues stats score |
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extradata = extractGroupData machineread grp |
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printStats verbose machineread GroupLvl phase values (Just extradata) |
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-- | Print all the statistics on a cluster (global) level. |
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printClusterStats :: Int -> Bool -> Phase -> [Int] -> Bool -> Bool -> IO () |
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printClusterStats verbose machineread phase stats needhbal canhbal = do |
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let values = prepareClusterValues machineread stats [needhbal, canhbal] |
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printStats verbose machineread ClusterLvl phase values Nothing |
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-- | Check if any of cluster metrics is non-zero. |
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clusterNeedsRebalance :: [Int] -> Bool |
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clusterNeedsRebalance stats = sum stats > 0 |
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{- | Check group for N+1 hapiness, conflicts of primaries on nodes and |
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instances residing on offline nodes. |
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-} |
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perGroupChecks :: Int -> Bool -> Phase -> Group.List -> |
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(Gdx, (Node.List, Instance.List)) -> IO ([Int]) |
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perGroupChecks verbose machineread phase gl (gidx, (nl, il)) = do |
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let grp = Container.find gidx gl |
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offnl = filter Node.offline (Container.elems nl) |
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n1violated = length $ fst $ Cluster.computeBadItems nl il |
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conflicttags = length $ filter (>0) |
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(map Node.conflictingPrimaries (Container.elems nl)) |
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offline_pri = sum . map length $ map Node.pList offnl |
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offline_sec = length $ map Node.sList offnl |
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score = Cluster.compCV nl |
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groupstats = [ n1violated |
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, conflicttags |
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, offline_pri |
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, offline_sec |
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] |
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printGroupStats verbose machineread phase grp groupstats score |
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return groupstats |
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-- | Use Hbal's iterateDepth to simulate group rebalance. |
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executeSimulation :: Options -> Cluster.Table -> Double -> |
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Gdx -> Node.List -> Instance.List -> |
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IO ( (Gdx, (Node.List, Instance.List)) ) |
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executeSimulation opts ini_tbl min_cv gidx nl il = do |
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let imlen = maximum . map (length . Instance.alias) $ Container.elems il |
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nmlen = maximum . map (length . Node.alias) $ Container.elems nl |
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(fin_tbl, _) <- Hbal.iterateDepth False ini_tbl |
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(optMaxLength opts) |
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(optDiskMoves opts) |
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(optInstMoves opts) |
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nmlen imlen [] min_cv |
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(optMinGainLim opts) (optMinGain opts) |
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(optEvacMode opts) |
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let (Cluster.Table fin_nl fin_il _ _) = fin_tbl |
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return (gidx, (fin_nl, fin_il)) |
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-- | Simulate group rebalance if group's score is not good |
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maybeSimulateGroupRebalance :: Options -> (Gdx, (Node.List, Instance.List)) |
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-> IO ((Gdx, (Node.List, Instance.List))) |
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maybeSimulateGroupRebalance opts (gidx, (nl, il)) = do |
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let ini_cv = Cluster.compCV nl |
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ini_tbl = Cluster.Table nl il ini_cv [] |
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min_cv = optMinScore opts |
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if (ini_cv < min_cv) |
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then return (gidx, (nl, il)) |
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else executeSimulation opts ini_tbl min_cv gidx nl il |
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-- | Decide whether to simulate rebalance. |
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maybeSimulateRebalance :: Bool -- ^ Whether to simulate rebalance |
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-> Options -- ^ Command line options |
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-> [(Gdx, (Node.List, Instance.List))] -- ^ Group data |
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-> IO([(Gdx, (Node.List, Instance.List))]) |
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maybeSimulateRebalance True opts cluster = |
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mapM (maybeSimulateGroupRebalance opts) cluster |
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maybeSimulateRebalance False _ cluster = return cluster |
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-- | Prints the final @OK@ marker in machine readable output. |
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printFinalHTC :: Bool -> IO () |
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printFinalHTC = printFinal htcPrefix |
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-- | Main function. |
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main :: Options -> [String] -> IO () |
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main opts args = do |
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unless (null args) $ do |
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hPutStrLn stderr "Error: this program doesn't take any arguments." |
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exitWith $ ExitFailure 1 |
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let verbose = optVerbose opts |
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machineread = optMachineReadable opts |
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nosimulation = optNoSimulation opts |
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(ClusterData gl fixed_nl ilf _ _) <- loadExternalData opts |
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nlf <- setNodeStatus opts fixed_nl |
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let splitinstances = Cluster.findSplitInstances nlf ilf |
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splitcluster = Cluster.splitCluster nlf ilf |
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when machineread $ printGroupsMappings gl |
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groupsstats <- mapM (perGroupChecks verbose machineread Initial gl) splitcluster |
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let clusterstats = map sum (transpose groupsstats) :: [Int] |
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needrebalance = clusterNeedsRebalance clusterstats |
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canrebalance = length splitinstances == 0 |
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printClusterStats verbose machineread Initial clusterstats needrebalance |
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canrebalance |
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when nosimulation $ do |
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unless (verbose == 0 || machineread) $ |
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printf "Running in no-simulation mode. Exiting.\n" |
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when (length splitinstances > 0) $ do |
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unless (verbose == 0 || machineread) $ |
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printf "Split instances found, simulation of re-balancing not possible\n" |
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unless needrebalance $ do |
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unless (verbose == 0 || machineread) $ |
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printf "No need to rebalance cluster, no problems found. Exiting.\n" |
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let exitOK = nosimulation || not needrebalance |
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simulate = not nosimulation && length splitinstances == 0 && needrebalance |
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rebalancedcluster <- maybeSimulateRebalance simulate opts splitcluster |
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when (simulate || machineread) $ do |
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newgroupstats <- mapM (perGroupChecks verbose machineread Rebalanced gl) |
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rebalancedcluster |
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-- We do not introduce new split instances during rebalance |
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let newsplitinstances = splitinstances |
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newclusterstats = map sum (transpose newgroupstats) :: [Int] |
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newneedrebalance = clusterNeedsRebalance clusterstats |
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newcanrebalance = length newsplitinstances == 0 |
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printClusterStats verbose machineread Rebalanced newclusterstats |
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newneedrebalance newcanrebalance |
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printFinalHTC machineread |
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unless exitOK $ exitWith $ ExitFailure 1 |