{-
-Copyright (C) 2009 Google Inc.
+Copyright (C) 2009, 2010 Google Inc.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
module Main (main) where
-import Data.Char (toUpper)
+import Data.Char (toUpper, isAlphaNum)
import Data.List
import Data.Function
+import Data.Maybe (isJust, fromJust)
+import Data.Ord (comparing)
import Monad
-import System
+import System (exitWith, ExitCode(..))
+import System.FilePath
import System.IO
import qualified System
import Ganeti.HTools.Types
import Ganeti.HTools.CLI
import Ganeti.HTools.ExtLoader
+import Ganeti.HTools.Text (serializeCluster)
-- | Options list and functions
options :: [OptType]
options =
[ oPrintNodes
- , oNodeFile
- , oInstFile
+ , oDataFile
, oNodeSim
, oRapiMaster
, oLuxiSocket
, oINodes
, oMaxCpu
, oMinDisk
+ , oTieredSpec
+ , oSaveCluster
, oShowVer
, oShowHelp
]
-data Phase = PInitial | PFinal
+-- | The allocation phase we're in (initial, after tiered allocs, or
+-- after regular allocation).
+data Phase = PInitial
+ | PFinal
+ | PTiered
statsData :: [(String, Cluster.CStats -> String)]
-statsData = [ ("SCORE", printf "%.8f" . Cluster.cs_score)
- , ("INST_CNT", printf "%d" . Cluster.cs_ninst)
- , ("MEM_FREE", printf "%d" . Cluster.cs_fmem)
- , ("MEM_AVAIL", printf "%d" . Cluster.cs_amem)
+statsData = [ ("SCORE", printf "%.8f" . Cluster.csScore)
+ , ("INST_CNT", printf "%d" . Cluster.csNinst)
+ , ("MEM_FREE", printf "%d" . Cluster.csFmem)
+ , ("MEM_AVAIL", printf "%d" . Cluster.csAmem)
, ("MEM_RESVD",
- \cs -> printf "%d" (Cluster.cs_fmem cs - Cluster.cs_amem cs))
- , ("MEM_INST", printf "%d" . Cluster.cs_imem)
+ \cs -> printf "%d" (Cluster.csFmem cs - Cluster.csAmem cs))
+ , ("MEM_INST", printf "%d" . Cluster.csImem)
, ("MEM_OVERHEAD",
- \cs -> printf "%d" (Cluster.cs_xmem cs + Cluster.cs_nmem cs))
+ \cs -> printf "%d" (Cluster.csXmem cs + Cluster.csNmem cs))
, ("MEM_EFF",
- \cs -> printf "%.8f" (fromIntegral (Cluster.cs_imem cs) /
- Cluster.cs_tmem cs))
- , ("DSK_FREE", printf "%d" . Cluster.cs_fdsk)
- , ("DSK_AVAIL", printf "%d ". Cluster.cs_adsk)
+ \cs -> printf "%.8f" (fromIntegral (Cluster.csImem cs) /
+ Cluster.csTmem cs))
+ , ("DSK_FREE", printf "%d" . Cluster.csFdsk)
+ , ("DSK_AVAIL", printf "%d". Cluster.csAdsk)
, ("DSK_RESVD",
- \cs -> printf "%d" (Cluster.cs_fdsk cs - Cluster.cs_adsk cs))
- , ("DSK_INST", printf "%d" . Cluster.cs_idsk)
+ \cs -> printf "%d" (Cluster.csFdsk cs - Cluster.csAdsk cs))
+ , ("DSK_INST", printf "%d" . Cluster.csIdsk)
, ("DSK_EFF",
- \cs -> printf "%.8f" (fromIntegral (Cluster.cs_idsk cs) /
- Cluster.cs_tdsk cs))
- , ("CPU_INST", printf "%d" . Cluster.cs_icpu)
+ \cs -> printf "%.8f" (fromIntegral (Cluster.csIdsk cs) /
+ Cluster.csTdsk cs))
+ , ("CPU_INST", printf "%d" . Cluster.csIcpu)
, ("CPU_EFF",
- \cs -> printf "%.8f" (fromIntegral (Cluster.cs_icpu cs) /
- Cluster.cs_tcpu cs))
- , ("MNODE_MEM_AVAIL", printf "%d" . Cluster.cs_mmem)
- , ("MNODE_DSK_AVAIL", printf "%d" . Cluster.cs_mdsk)
+ \cs -> printf "%.8f" (fromIntegral (Cluster.csIcpu cs) /
+ Cluster.csTcpu cs))
+ , ("MNODE_MEM_AVAIL", printf "%d" . Cluster.csMmem)
+ , ("MNODE_DSK_AVAIL", printf "%d" . Cluster.csMdsk)
]
-specData :: [(String, Options -> String)]
-specData = [ ("MEM", printf "%d" . optIMem)
- , ("DSK", printf "%d" . optIDsk)
- , ("CPU", printf "%d" . optIVCPUs)
- , ("RQN", printf "%d" . optINodes)
+specData :: [(String, RSpec -> String)]
+specData = [ ("MEM", printf "%d" . rspecMem)
+ , ("DSK", printf "%d" . rspecDsk)
+ , ("CPU", printf "%d" . rspecCpu)
]
clusterData :: [(String, Cluster.CStats -> String)]
-clusterData = [ ("MEM", printf "%.0f" . Cluster.cs_tmem)
- , ("DSK", printf "%.0f" . Cluster.cs_tdsk)
- , ("CPU", printf "%.0f" . Cluster.cs_tcpu)
+clusterData = [ ("MEM", printf "%.0f" . Cluster.csTmem)
+ , ("DSK", printf "%.0f" . Cluster.csTdsk)
+ , ("CPU", printf "%.0f" . Cluster.csTcpu)
+ , ("VCPU", printf "%d" . Cluster.csVcpu)
]
--- | Recursively place instances on the cluster until we're out of space
-iterateDepth :: Node.List
- -> Instance.List
- -> Instance.Instance
- -> Int
- -> [Instance.Instance]
- -> Result (FailStats, Node.List, [Instance.Instance])
-iterateDepth nl il newinst nreq ixes =
- let depth = length ixes
- newname = printf "new-%d" depth::String
- newidx = length (Container.elems il) + depth
- newi2 = Instance.setIdx (Instance.setName newinst newname) newidx
- in case Cluster.tryAlloc nl il newi2 nreq of
- Bad s -> Bad s
- Ok (errs, _, sols3) ->
- case sols3 of
- Nothing -> Ok (Cluster.collapseFailures errs, nl, ixes)
- Just (_, (xnl, xi, _)) ->
- iterateDepth xnl il newinst nreq $! (xi:ixes)
-
-- | Function to print stats for a given phase
printStats :: Phase -> Cluster.CStats -> [(String, String)]
printStats ph cs =
where kind = case ph of
PInitial -> "INI"
PFinal -> "FIN"
+ PTiered -> "TRL"
-- | Print final stats and related metrics
printResults :: Node.List -> Int -> Int -> [(FailMode, Int)] -> IO ()
let fin_stats = Cluster.totalResources fin_nl
fin_instances = num_instances + allocs
- when (num_instances + allocs /= Cluster.cs_ninst fin_stats) $
+ when (num_instances + allocs /= Cluster.csNinst fin_stats) $
do
hPrintf stderr "ERROR: internal inconsistency, allocated (%d)\
\ != counted (%d)\n" (num_instances + allocs)
- (Cluster.cs_ninst fin_stats)
+ (Cluster.csNinst fin_stats) :: IO ()
exitWith $ ExitFailure 1
printKeys $ printStats PFinal fin_stats
-- this should be the final entry
printKeys [("OK", "1")]
--- | Format a list of key/values as a shell fragment
+formatRSpec :: Double -> String -> RSpec -> [(String, String)]
+formatRSpec m_cpu s r =
+ [ ("KM_" ++ s ++ "_CPU", show $ rspecCpu r)
+ , ("KM_" ++ s ++ "_NPU", show $ fromIntegral (rspecCpu r) / m_cpu)
+ , ("KM_" ++ s ++ "_MEM", show $ rspecMem r)
+ , ("KM_" ++ s ++ "_DSK", show $ rspecDsk r)
+ ]
+
+printAllocationStats :: Double -> Node.List -> Node.List -> IO ()
+printAllocationStats m_cpu ini_nl fin_nl = do
+ let ini_stats = Cluster.totalResources ini_nl
+ fin_stats = Cluster.totalResources fin_nl
+ (rini, ralo, runa) = Cluster.computeAllocationDelta ini_stats fin_stats
+ printKeys $ formatRSpec m_cpu "USED" rini
+ printKeys $ formatRSpec m_cpu "POOL"ralo
+ printKeys $ formatRSpec m_cpu "UNAV" runa
+
+-- | Ensure a value is quoted if needed
+ensureQuoted :: String -> String
+ensureQuoted v = if not (all (\c -> (isAlphaNum c || c == '.')) v)
+ then '\'':v ++ "'"
+ else v
+
+-- | Format a list of key\/values as a shell fragment
printKeys :: [(String, String)] -> IO ()
-printKeys = mapM_ (\(k, v) -> printf "HTS_%s=%s\n" (map toUpper k) v)
+printKeys = mapM_ (\(k, v) ->
+ printf "HTS_%s=%s\n" (map toUpper k) (ensureQuoted v))
+
+printInstance :: Node.List -> Instance.Instance -> [String]
+printInstance nl i = [ Instance.name i
+ , Container.nameOf nl $ Instance.pNode i
+ , let sdx = Instance.sNode i
+ in if sdx == Node.noSecondary then ""
+ else Container.nameOf nl sdx
+ , show (Instance.mem i)
+ , show (Instance.dsk i)
+ , show (Instance.vcpus i)
+ ]
-- | Main function.
main :: IO ()
exitWith $ ExitFailure 1
let verbose = optVerbose opts
+ ispec = optISpec opts
+ shownodes = optShowNodes opts
- (fixed_nl, il, csf) <- loadExternalData opts
+ (fixed_nl, il, _) <- loadExternalData opts
- printKeys $ map (\(a, fn) -> ("SPEC_" ++ a, fn opts)) specData
+ printKeys $ map (\(a, fn) -> ("SPEC_" ++ a, fn ispec)) specData
+ printKeys [ ("SPEC_RQN", printf "%d" (optINodes opts)) ]
let num_instances = length $ Container.elems il
let offline_names = optOffline opts
all_nodes = Container.elems fixed_nl
all_names = map Node.name all_nodes
- offline_wrong = filter (flip notElem all_names) offline_names
+ offline_wrong = filter (`notElem` all_names) offline_names
offline_indices = map Node.idx $
- filter (\n -> elem (Node.name n) offline_names)
+ filter (\n ->
+ Node.name n `elem` offline_names ||
+ Node.alias n `elem` offline_names)
all_nodes
req_nodes = optINodes opts
m_cpu = optMcpu opts
when (length offline_wrong > 0) $ do
hPrintf stderr "Error: Wrong node name(s) set as offline: %s\n"
- (commaJoin offline_wrong)
+ (commaJoin offline_wrong) :: IO ()
exitWith $ ExitFailure 1
when (req_nodes /= 1 && req_nodes /= 2) $ do
- hPrintf stderr "Error: Invalid required nodes (%d)\n" req_nodes
+ hPrintf stderr "Error: Invalid required nodes (%d)\n"
+ req_nodes :: IO ()
exitWith $ ExitFailure 1
- let nm = Container.map (\n -> if elem (Node.idx n) offline_indices
+ let nm = Container.map (\n -> if Node.idx n `elem` offline_indices
then Node.setOffline n True
else n) fixed_nl
nl = Container.map (flip Node.setMdsk m_dsk . flip Node.setMcpu m_cpu)
nm
+ csf = commonSuffix fixed_nl il
when (length csf > 0 && verbose > 1) $
hPrintf stderr "Note: Stripping common suffix of '%s' from names\n" csf
- when (optShowNodes opts) $
+ when (isJust shownodes) $
do
hPutStrLn stderr "Initial cluster status:"
- hPutStrLn stderr $ Cluster.printNodes nl
+ hPutStrLn stderr $ Cluster.printNodes nl (fromJust shownodes)
let ini_cv = Cluster.compCV nl
ini_stats = Cluster.totalResources nl
printKeys $ printStats PInitial ini_stats
let bad_nodes = fst $ Cluster.computeBadItems nl il
- when (length bad_nodes > 0) $ do
- -- This is failn1 case, so we print the same final stats and
- -- exit early
- printResults nl num_instances 0 [(FailN1, 1)]
- exitWith ExitSuccess
-
- let nmlen = Container.maxNameLen nl
- newinst = Instance.create "new" (optIMem opts) (optIDsk opts)
- (optIVCPUs opts) "ADMIN_down" (-1) (-1)
-
- let result = iterateDepth nl il newinst req_nodes []
- (ereason, fin_nl, ixes) <- (case result of
- Bad s -> do
- hPrintf stderr "Failure: %s\n" s
- exitWith $ ExitFailure 1
- Ok x -> return x)
+ stop_allocation = length bad_nodes > 0
+ result_noalloc = ([(FailN1, 1)]::FailStats, nl, il, [])
+
+ -- utility functions
+ let iofspec spx = Instance.create "new" (rspecMem spx) (rspecDsk spx)
+ (rspecCpu spx) "running" [] (-1) (-1)
+ exitifbad val = (case val of
+ Bad s -> do
+ hPrintf stderr "Failure: %s\n" s :: IO ()
+ exitWith $ ExitFailure 1
+ Ok x -> return x)
+
+
+ let reqinst = iofspec ispec
+
+ -- Run the tiered allocation, if enabled
+
+ (case optTieredSpec opts of
+ Nothing -> return ()
+ Just tspec -> do
+ (_, trl_nl, trl_il, trl_ixes) <-
+ if stop_allocation
+ then return result_noalloc
+ else exitifbad (Cluster.tieredAlloc nl il (iofspec tspec)
+ req_nodes [])
+ let fin_trl_ixes = reverse trl_ixes
+ ix_byspec = groupBy ((==) `on` Instance.specOf) fin_trl_ixes
+ spec_map = map (\ixs -> (Instance.specOf $ head ixs, length ixs))
+ ix_byspec::[(RSpec, Int)]
+ spec_map' = map (\(spec, cnt) ->
+ printf "%d,%d,%d=%d" (rspecMem spec)
+ (rspecDsk spec) (rspecCpu spec) cnt)
+ spec_map::[String]
+
+ when (verbose > 1) $ do
+ hPutStrLn stderr "Tiered allocation map"
+ hPutStr stderr . unlines . map ((:) ' ' . intercalate " ") $
+ formatTable (map (printInstance trl_nl) fin_trl_ixes)
+ [False, False, False, True, True, True]
+
+ when (isJust shownodes) $ do
+ hPutStrLn stderr ""
+ hPutStrLn stderr "Tiered allocation status:"
+ hPutStrLn stderr $ Cluster.printNodes trl_nl (fromJust shownodes)
+
+ when (isJust $ optSaveCluster opts) $
+ do
+ let out_path = (fromJust $ optSaveCluster opts) <.> "tiered"
+ adata = serializeCluster trl_nl trl_il
+ writeFile out_path adata
+ hPrintf stderr "The cluster state after tiered allocation\
+ \ has been written to file '%s'\n"
+ out_path
+ printKeys $ printStats PTiered (Cluster.totalResources trl_nl)
+ printKeys [("TSPEC", intercalate " " spec_map')]
+ printAllocationStats m_cpu nl trl_nl)
+
+ -- Run the standard (avg-mode) allocation
+
+ (ereason, fin_nl, fin_il, ixes) <-
+ if stop_allocation
+ then return result_noalloc
+ else exitifbad (Cluster.iterateAlloc nl il reqinst req_nodes [])
+
let allocs = length ixes
fin_ixes = reverse ixes
- ix_namelen = maximum . map (length . Instance.name) $ fin_ixes
- sreason = reverse $ sortBy (compare `on` snd) ereason
-
- when (verbose > 1) $
- hPutStr stderr . unlines $
- map (\i -> printf "Inst: %*s %-*s %-*s"
- ix_namelen (Instance.name i)
- nmlen (Container.nameOf fin_nl $ Instance.pnode i)
- nmlen (let sdx = Instance.snode i
- in if sdx == Node.noSecondary then ""
- else Container.nameOf fin_nl sdx)
- ) fin_ixes
-
- when (optShowNodes opts) $
+ sreason = reverse $ sortBy (comparing snd) ereason
+
+ when (verbose > 1) $ do
+ hPutStrLn stderr "Instance map"
+ hPutStr stderr . unlines . map ((:) ' ' . intercalate " ") $
+ formatTable (map (printInstance fin_nl) fin_ixes)
+ [False, False, False, True, True, True]
+ when (isJust shownodes) $
do
hPutStrLn stderr ""
hPutStrLn stderr "Final cluster status:"
- hPutStrLn stderr $ Cluster.printNodes fin_nl
+ hPutStrLn stderr $ Cluster.printNodes fin_nl (fromJust shownodes)
+
+ when (isJust $ optSaveCluster opts) $
+ do
+ let out_path = (fromJust $ optSaveCluster opts) <.> "alloc"
+ adata = serializeCluster fin_nl fin_il
+ writeFile out_path adata
+ hPrintf stderr "The cluster state after standard allocation\
+ \ has been written to file '%s'\n"
+ out_path
printResults fin_nl num_instances allocs sreason