updated value.
-}
+{-
+
+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
+the Free Software Foundation; either version 2 of the License, or
+(at your option) any later version.
+
+This program is distributed in the hope that it will be useful, but
+WITHOUT ANY WARRANTY; without even the implied warranty of
+MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+General Public License for more details.
+
+You should have received a copy of the GNU General Public License
+along with this program; if not, write to the Free Software
+Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
+02110-1301, USA.
+
+-}
+
module Ganeti.HTools.Node
- (
- Node(failN1, idx, f_mem, f_dsk, p_mem, p_dsk, slist, plist,
- p_rem, offline)
+ ( Node(..)
+ , List
-- * Constructor
, create
-- ** Finalization after data loading
, buildPeers
, setIdx
+ , setAlias
, setOffline
+ , setXmem
+ , setFmem
+ , setPri
+ , setSec
+ , setMdsk
+ , setMcpu
+ -- * Tag maps
+ , addTags
+ , delTags
+ , rejectAddTags
-- * Instance (re)location
, removePri
, removeSec
, addPri
+ , addPriEx
, addSec
- , setPri
- , setSec
+ , addSecEx
+ -- * Stats
+ , availDisk
+ , availMem
+ , availCpu
+ , conflictingPrimaries
-- * Formatting
+ , defaultFields
+ , showHeader
+ , showField
, list
+ -- * Misc stuff
+ , AssocList
+ , AllocElement
+ , noSecondary
+ , computeGroups
) where
-import Data.List
+import Data.List hiding (group)
+import qualified Data.Map as Map
+import qualified Data.Foldable as Foldable
+import Data.Ord (comparing)
import Text.Printf (printf)
import qualified Ganeti.HTools.Container as Container
import qualified Ganeti.HTools.Instance as Instance
-import qualified Ganeti.HTools.PeerMap as PeerMap
-
-import Ganeti.HTools.Utils
-
-data Node = Node { t_mem :: Double -- ^ total memory (Mib)
- , f_mem :: Int -- ^ free memory (MiB)
- , t_dsk :: Double -- ^ total disk space (MiB)
- , f_dsk :: Int -- ^ free disk space (MiB)
- , plist :: [Int] -- ^ list of primary instance indices
- , slist :: [Int] -- ^ list of secondary instance indices
- , idx :: Int -- ^ internal index for book-keeping
- , peers :: PeerMap.PeerMap -- ^ pnode to instance mapping
- , failN1:: Bool -- ^ whether the node has failed n1
- , r_mem :: Int -- ^ maximum memory needed for
- -- failover by primaries of this node
- , p_mem :: Double -- ^ percent of free memory
- , p_dsk :: Double -- ^ percent of free disk
- , p_rem :: Double -- ^ percent of reserved memory
- , offline :: Bool -- ^ whether the node should not be used
- -- for allocations and skipped from
- -- score computations
- } deriving (Show)
-
-{- | Create a new node.
-
-The index and the peers maps are empty, and will be need to be update
-later via the 'setIdx' and 'buildPeers' functions.
+import qualified Ganeti.HTools.PeerMap as P
--}
-create :: String -> String -> String -> String -> Node
-create mem_t_init mem_f_init dsk_t_init dsk_f_init =
- let mem_t = read mem_t_init
- mem_f = read mem_f_init
- dsk_t = read dsk_t_init
- dsk_f = read dsk_f_init
- in
- Node
- {
- t_mem = read mem_t_init,
- f_mem = read mem_f_init,
- t_dsk = read dsk_t_init,
- f_dsk = read dsk_f_init,
- plist = [],
- slist = [],
- failN1 = True,
- idx = -1,
- peers = PeerMap.empty,
- r_mem = 0,
- p_mem = (fromIntegral mem_f) / (fromIntegral mem_t),
- p_dsk = (fromIntegral dsk_f) / (fromIntegral dsk_t),
- p_rem = 0,
- offline = False
- }
+import qualified Ganeti.HTools.Types as T
+
+-- * Type declarations
+
+-- | The tag map type
+type TagMap = Map.Map String Int
+
+-- | The node type.
+data Node = Node
+ { name :: String -- ^ The node name
+ , alias :: String -- ^ The shortened name (for display purposes)
+ , tMem :: Double -- ^ Total memory (MiB)
+ , nMem :: Int -- ^ Node memory (MiB)
+ , fMem :: Int -- ^ Free memory (MiB)
+ , xMem :: Int -- ^ Unaccounted memory (MiB)
+ , tDsk :: Double -- ^ Total disk space (MiB)
+ , fDsk :: Int -- ^ Free disk space (MiB)
+ , tCpu :: Double -- ^ Total CPU count
+ , uCpu :: Int -- ^ Used VCPU count
+ , pList :: [T.Idx] -- ^ List of primary instance indices
+ , sList :: [T.Idx] -- ^ List of secondary instance indices
+ , idx :: T.Ndx -- ^ Internal index for book-keeping
+ , peers :: P.PeerMap -- ^ Pnode to instance mapping
+ , failN1 :: Bool -- ^ Whether the node has failed n1
+ , rMem :: Int -- ^ Maximum memory needed for failover by
+ -- primaries of this node
+ , pMem :: Double -- ^ Percent of free memory
+ , pDsk :: Double -- ^ Percent of free disk
+ , pRem :: Double -- ^ Percent of reserved memory
+ , pCpu :: Double -- ^ Ratio of virtual to physical CPUs
+ , mDsk :: Double -- ^ Minimum free disk ratio
+ , mCpu :: Double -- ^ Max ratio of virt-to-phys CPUs
+ , loDsk :: Int -- ^ Autocomputed from mDsk low disk
+ -- threshold
+ , hiCpu :: Int -- ^ Autocomputed from mCpu high cpu
+ -- threshold
+ , offline :: Bool -- ^ Whether the node should not be used
+ -- for allocations and skipped from score
+ -- computations
+ , utilPool :: T.DynUtil -- ^ Total utilisation capacity
+ , utilLoad :: T.DynUtil -- ^ Sum of instance utilisation
+ , pTags :: TagMap -- ^ Map of primary instance tags and their count
+ , group :: T.Gdx -- ^ The node's group (index)
+ } deriving (Show, Eq)
+
+instance T.Element Node where
+ nameOf = name
+ idxOf = idx
+ setAlias = setAlias
+ setIdx = setIdx
+ allNames n = [name n, alias n]
+
+-- | A simple name for the int, node association list.
+type AssocList = [(T.Ndx, Node)]
+
+-- | A simple name for a node map.
+type List = Container.Container Node
+
+-- | A simple name for an allocation element (here just for logistic
+-- reasons)
+type AllocElement = (List, Instance.Instance, [Node], T.Score)
+
+-- | Constant node index for a non-moveable instance.
+noSecondary :: T.Ndx
+noSecondary = -1
+
+-- * Helper functions
+
+-- | Add a tag to a tagmap
+addTag :: TagMap -> String -> TagMap
+addTag t s = Map.insertWith (+) s 1 t
+
+-- | Add multiple tags
+addTags :: TagMap -> [String] -> TagMap
+addTags = foldl' addTag
+
+-- | Adjust or delete a tag from a tagmap
+delTag :: TagMap -> String -> TagMap
+delTag t s = Map.update (\v -> if v > 1
+ then Just (v-1)
+ else Nothing)
+ s t
+
+-- | Remove multiple tags
+delTags :: TagMap -> [String] -> TagMap
+delTags = foldl' delTag
+
+-- | Check if we can add a list of tags to a tagmap
+rejectAddTags :: TagMap -> [String] -> Bool
+rejectAddTags t = any (`Map.member` t)
+
+-- | Check how many primary instances have conflicting tags. The
+-- algorithm to compute this is to sum the count of all tags, then
+-- subtract the size of the tag map (since each tag has at least one,
+-- non-conflicting instance); this is equivalent to summing the
+-- values in the tag map minus one.
+conflictingPrimaries :: Node -> Int
+conflictingPrimaries (Node { pTags = t }) = Foldable.sum t - Map.size t
+
+-- * Initialization functions
+
+-- | Create a new node.
+--
+-- The index and the peers maps are empty, and will be need to be
+-- update later via the 'setIdx' and 'buildPeers' functions.
+create :: String -> Double -> Int -> Int -> Double
+ -> Int -> Double -> Bool -> T.Gdx -> Node
+create name_init mem_t_init mem_n_init mem_f_init
+ dsk_t_init dsk_f_init cpu_t_init offline_init group_init =
+ Node { name = name_init
+ , alias = name_init
+ , tMem = mem_t_init
+ , nMem = mem_n_init
+ , fMem = mem_f_init
+ , tDsk = dsk_t_init
+ , fDsk = dsk_f_init
+ , tCpu = cpu_t_init
+ , uCpu = 0
+ , pList = []
+ , sList = []
+ , failN1 = True
+ , idx = -1
+ , peers = P.empty
+ , rMem = 0
+ , pMem = fromIntegral mem_f_init / mem_t_init
+ , pDsk = fromIntegral dsk_f_init / dsk_t_init
+ , pRem = 0
+ , pCpu = 0
+ , offline = offline_init
+ , xMem = 0
+ , mDsk = T.defReservedDiskRatio
+ , mCpu = T.defVcpuRatio
+ , loDsk = mDskToloDsk T.defReservedDiskRatio dsk_t_init
+ , hiCpu = mCpuTohiCpu T.defVcpuRatio cpu_t_init
+ , utilPool = T.baseUtil
+ , utilLoad = T.zeroUtil
+ , pTags = Map.empty
+ , group = group_init
+ }
+
+-- | Conversion formula from mDsk\/tDsk to loDsk
+mDskToloDsk :: Double -> Double -> Int
+mDskToloDsk mval tdsk = floor (mval * tdsk)
+
+-- | Conversion formula from mCpu\/tCpu to hiCpu
+mCpuTohiCpu :: Double -> Double -> Int
+mCpuTohiCpu mval tcpu = floor (mval * tcpu)
-- | Changes the index.
+--
-- This is used only during the building of the data structures.
-setIdx :: Node -> Int -> Node
+setIdx :: Node -> T.Ndx -> Node
setIdx t i = t {idx = i}
--- | Sets the offline attribute
+-- | Changes the alias.
+--
+-- This is used only during the building of the data structures.
+setAlias :: Node -> String -> Node
+setAlias t s = t { alias = s }
+
+-- | Sets the offline attribute.
setOffline :: Node -> Bool -> Node
setOffline t val = t { offline = val }
--- | Given the rmem, free memory and disk, computes the failn1 status.
-computeFailN1 :: Int -> Int -> Int -> Bool
-computeFailN1 new_rmem new_mem new_dsk =
- new_mem <= new_rmem || new_dsk <= 0
+-- | Sets the unnaccounted memory.
+setXmem :: Node -> Int -> Node
+setXmem t val = t { xMem = val }
--- | Given the new free memory and disk, fail if any of them is below zero.
-failHealth :: Int -> Int -> Bool
-failHealth new_mem new_dsk = new_mem <= 0 || new_dsk <= 0
+-- | Sets the max disk usage ratio
+setMdsk :: Node -> Double -> Node
+setMdsk t val = t { mDsk = val, loDsk = mDskToloDsk val (tDsk t) }
+
+-- | Sets the max cpu usage ratio
+setMcpu :: Node -> Double -> Node
+setMcpu t val = t { mCpu = val, hiCpu = mCpuTohiCpu val (tCpu t) }
-- | Computes the maximum reserved memory for peers from a peer map.
-computeMaxRes :: PeerMap.PeerMap -> PeerMap.Elem
-computeMaxRes new_peers = PeerMap.maxElem new_peers
+computeMaxRes :: P.PeerMap -> P.Elem
+computeMaxRes = P.maxElem
-- | Builds the peer map for a given node.
-buildPeers :: Node -> Container.Container Instance.Instance -> Int -> Node
-buildPeers t il num_nodes =
+buildPeers :: Node -> Instance.List -> Node
+buildPeers t il =
let mdata = map
(\i_idx -> let inst = Container.find i_idx il
- in (Instance.pnode inst, Instance.mem inst))
- (slist t)
- pmap = PeerMap.accumArray (+) 0 (0, num_nodes - 1) mdata
+ in (Instance.pNode inst, Instance.mem inst))
+ (sList t)
+ pmap = P.accumArray (+) mdata
new_rmem = computeMaxRes pmap
- new_failN1 = computeFailN1 new_rmem (f_mem t) (f_dsk t)
- new_prem = (fromIntegral new_rmem) / (t_mem t)
- in t {peers=pmap, failN1 = new_failN1, r_mem = new_rmem, p_rem = new_prem}
+ new_failN1 = fMem t <= new_rmem
+ new_prem = fromIntegral new_rmem / tMem t
+ in t {peers=pmap, failN1 = new_failN1, rMem = new_rmem, pRem = new_prem}
+
+-- | Assigns an instance to a node as primary and update the used VCPU
+-- count, utilisation data and tags map.
+setPri :: Node -> Instance.Instance -> Node
+setPri t inst = t { pList = Instance.idx inst:pList t
+ , uCpu = new_count
+ , pCpu = fromIntegral new_count / tCpu t
+ , utilLoad = utilLoad t `T.addUtil` Instance.util inst
+ , pTags = addTags (pTags t) (Instance.tags inst)
+ }
+ where new_count = uCpu t + Instance.vcpus inst
+
+-- | Assigns an instance to a node as secondary without other updates.
+setSec :: Node -> Instance.Instance -> Node
+setSec t inst = t { sList = Instance.idx inst:sList t
+ , utilLoad = old_load { T.dskWeight = T.dskWeight old_load +
+ T.dskWeight (Instance.util inst) }
+ }
+ where old_load = utilLoad t
+
+-- * Update functions
+
+-- | Sets the free memory.
+setFmem :: Node -> Int -> Node
+setFmem t new_mem =
+ let new_n1 = new_mem <= rMem t
+ new_mp = fromIntegral new_mem / tMem t
+ in t { fMem = new_mem, failN1 = new_n1, pMem = new_mp }
-- | Removes a primary instance.
removePri :: Node -> Instance.Instance -> Node
removePri t inst =
let iname = Instance.idx inst
- new_plist = delete iname (plist t)
- new_mem = f_mem t + Instance.mem inst
- new_dsk = f_dsk t + Instance.dsk inst
- new_mp = (fromIntegral new_mem) / (t_mem t)
- new_dp = (fromIntegral new_dsk) / (t_dsk t)
- new_failn1 = computeFailN1 (r_mem t) new_mem new_dsk
- in t {plist = new_plist, f_mem = new_mem, f_dsk = new_dsk,
- failN1 = new_failn1, p_mem = new_mp, p_dsk = new_dp}
+ new_plist = delete iname (pList t)
+ new_mem = fMem t + Instance.mem inst
+ new_dsk = fDsk t + Instance.dsk inst
+ new_mp = fromIntegral new_mem / tMem t
+ new_dp = fromIntegral new_dsk / tDsk t
+ new_failn1 = new_mem <= rMem t
+ new_ucpu = uCpu t - Instance.vcpus inst
+ new_rcpu = fromIntegral new_ucpu / tCpu t
+ new_load = utilLoad t `T.subUtil` Instance.util inst
+ in t { pList = new_plist, fMem = new_mem, fDsk = new_dsk
+ , failN1 = new_failn1, pMem = new_mp, pDsk = new_dp
+ , uCpu = new_ucpu, pCpu = new_rcpu, utilLoad = new_load
+ , pTags = delTags (pTags t) (Instance.tags inst) }
-- | Removes a secondary instance.
removeSec :: Node -> Instance.Instance -> Node
removeSec t inst =
let iname = Instance.idx inst
- pnode = Instance.pnode inst
- new_slist = delete iname (slist t)
- new_dsk = f_dsk t + Instance.dsk inst
+ pnode = Instance.pNode inst
+ new_slist = delete iname (sList t)
+ new_dsk = fDsk t + Instance.dsk inst
old_peers = peers t
- old_peem = PeerMap.find pnode old_peers
- new_peem = old_peem - (Instance.mem inst)
- new_peers = PeerMap.add pnode new_peem old_peers
- old_rmem = r_mem t
- new_rmem = if old_peem < old_rmem then
- old_rmem
- else
- computeMaxRes new_peers
- new_prem = (fromIntegral new_rmem) / (t_mem t)
- new_failn1 = computeFailN1 new_rmem (f_mem t) new_dsk
- new_dp = (fromIntegral new_dsk) / (t_dsk t)
- in t {slist = new_slist, f_dsk = new_dsk, peers = new_peers,
- failN1 = new_failn1, r_mem = new_rmem, p_dsk = new_dp,
- p_rem = new_prem}
-
--- | Adds a primary instance.
-addPri :: Node -> Instance.Instance -> Maybe Node
-addPri t inst =
+ old_peem = P.find pnode old_peers
+ new_peem = old_peem - Instance.mem inst
+ new_peers = if new_peem > 0
+ then P.add pnode new_peem old_peers
+ else P.remove pnode old_peers
+ old_rmem = rMem t
+ new_rmem = if old_peem < old_rmem
+ then old_rmem
+ else computeMaxRes new_peers
+ new_prem = fromIntegral new_rmem / tMem t
+ new_failn1 = fMem t <= new_rmem
+ new_dp = fromIntegral new_dsk / tDsk t
+ old_load = utilLoad t
+ new_load = old_load { T.dskWeight = T.dskWeight old_load -
+ T.dskWeight (Instance.util inst) }
+ in t { sList = new_slist, fDsk = new_dsk, peers = new_peers
+ , failN1 = new_failn1, rMem = new_rmem, pDsk = new_dp
+ , pRem = new_prem, utilLoad = new_load }
+
+-- | Adds a primary instance (basic version).
+addPri :: Node -> Instance.Instance -> T.OpResult Node
+addPri = addPriEx False
+
+-- | Adds a primary instance (extended version).
+addPriEx :: Bool -- ^ Whether to override the N+1 and
+ -- other /soft/ checks, useful if we
+ -- come from a worse status
+ -- (e.g. offline)
+ -> Node -- ^ The target node
+ -> Instance.Instance -- ^ The instance to add
+ -> T.OpResult Node -- ^ The result of the operation,
+ -- either the new version of the node
+ -- or a failure mode
+addPriEx force t inst =
let iname = Instance.idx inst
- new_mem = f_mem t - Instance.mem inst
- new_dsk = f_dsk t - Instance.dsk inst
- new_failn1 = computeFailN1 (r_mem t) new_mem new_dsk in
- if (failHealth new_mem new_dsk) || (new_failn1 && not (failN1 t)) then
- Nothing
- else
- let new_plist = iname:(plist t)
- new_mp = (fromIntegral new_mem) / (t_mem t)
- new_dp = (fromIntegral new_dsk) / (t_dsk t)
- in
- Just t {plist = new_plist, f_mem = new_mem, f_dsk = new_dsk,
- failN1 = new_failn1, p_mem = new_mp, p_dsk = new_dp}
-
--- | Adds a secondary instance.
-addSec :: Node -> Instance.Instance -> Int -> Maybe Node
-addSec t inst pdx =
+ new_mem = fMem t - Instance.mem inst
+ new_dsk = fDsk t - Instance.dsk inst
+ new_failn1 = new_mem <= rMem t
+ new_ucpu = uCpu t + Instance.vcpus inst
+ new_pcpu = fromIntegral new_ucpu / tCpu t
+ new_dp = fromIntegral new_dsk / tDsk t
+ l_cpu = mCpu t
+ new_load = utilLoad t `T.addUtil` Instance.util inst
+ inst_tags = Instance.tags inst
+ old_tags = pTags t
+ strict = not force
+ in case () of
+ _ | new_mem <= 0 -> T.OpFail T.FailMem
+ | new_dsk <= 0 -> T.OpFail T.FailDisk
+ | mDsk t > new_dp && strict -> T.OpFail T.FailDisk
+ | new_failn1 && not (failN1 t) && strict -> T.OpFail T.FailMem
+ | l_cpu >= 0 && l_cpu < new_pcpu && strict -> T.OpFail T.FailCPU
+ | rejectAddTags old_tags inst_tags -> T.OpFail T.FailTags
+ | otherwise ->
+ let new_plist = iname:pList t
+ new_mp = fromIntegral new_mem / tMem t
+ r = t { pList = new_plist, fMem = new_mem, fDsk = new_dsk
+ , failN1 = new_failn1, pMem = new_mp, pDsk = new_dp
+ , uCpu = new_ucpu, pCpu = new_pcpu
+ , utilLoad = new_load
+ , pTags = addTags old_tags inst_tags }
+ in T.OpGood r
+
+-- | Adds a secondary instance (basic version).
+addSec :: Node -> Instance.Instance -> T.Ndx -> T.OpResult Node
+addSec = addSecEx False
+
+-- | Adds a secondary instance (extended version).
+addSecEx :: Bool -> Node -> Instance.Instance -> T.Ndx -> T.OpResult Node
+addSecEx force t inst pdx =
let iname = Instance.idx inst
old_peers = peers t
- old_mem = f_mem t
- new_dsk = f_dsk t - Instance.dsk inst
- new_peem = PeerMap.find pdx old_peers + Instance.mem inst
- new_peers = PeerMap.add pdx new_peem old_peers
- new_rmem = max (r_mem t) new_peem
- new_prem = (fromIntegral new_rmem) / (t_mem t)
- new_failn1 = computeFailN1 new_rmem old_mem new_dsk in
- if (failHealth old_mem new_dsk) || (new_failn1 && not (failN1 t)) then
- Nothing
- else
- let new_slist = iname:(slist t)
- new_dp = (fromIntegral new_dsk) / (t_dsk t)
- in
- Just t {slist = new_slist, f_dsk = new_dsk,
- peers = new_peers, failN1 = new_failn1,
- r_mem = new_rmem, p_dsk = new_dp,
- p_rem = new_prem}
-
--- | Add a primary instance to a node without other updates
-setPri :: Node -> Int -> Node
-setPri t idx = t { plist = idx:(plist t) }
-
--- | Add a secondary instance to a node without other updates
-setSec :: Node -> Int -> Node
-setSec t idx = t { slist = idx:(slist t) }
-
--- | Simple converter to string.
-str :: Node -> String
-str t =
- printf ("Node %d (mem=%5d MiB, disk=%5.2f GiB)\n Primaries:" ++
- " %s\nSecondaries: %s")
- (idx t) (f_mem t) ((f_dsk t) `div` 1024)
- (commaJoin (map show (plist t)))
- (commaJoin (map show (slist t)))
+ old_mem = fMem t
+ new_dsk = fDsk t - Instance.dsk inst
+ new_peem = P.find pdx old_peers + Instance.mem inst
+ new_peers = P.add pdx new_peem old_peers
+ new_rmem = max (rMem t) new_peem
+ new_prem = fromIntegral new_rmem / tMem t
+ new_failn1 = old_mem <= new_rmem
+ new_dp = fromIntegral new_dsk / tDsk t
+ old_load = utilLoad t
+ new_load = old_load { T.dskWeight = T.dskWeight old_load +
+ T.dskWeight (Instance.util inst) }
+ strict = not force
+ in case () of
+ _ | new_dsk <= 0 -> T.OpFail T.FailDisk
+ | mDsk t > new_dp && strict -> T.OpFail T.FailDisk
+ | Instance.mem inst >= old_mem && strict -> T.OpFail T.FailMem
+ | new_failn1 && not (failN1 t) && strict -> T.OpFail T.FailMem
+ | otherwise ->
+ let new_slist = iname:sList t
+ r = t { sList = new_slist, fDsk = new_dsk
+ , peers = new_peers, failN1 = new_failn1
+ , rMem = new_rmem, pDsk = new_dp
+ , pRem = new_prem, utilLoad = new_load }
+ in T.OpGood r
+
+-- * Stats functions
+
+-- | Computes the amount of available disk on a given node
+availDisk :: Node -> Int
+availDisk t =
+ let _f = fDsk t
+ _l = loDsk t
+ in if _f < _l
+ then 0
+ else _f - _l
+
+-- | Computes the amount of available memory on a given node
+availMem :: Node -> Int
+availMem t =
+ let _f = fMem t
+ _l = rMem t
+ in if _f < _l
+ then 0
+ else _f - _l
+
+-- | Computes the amount of available memory on a given node
+availCpu :: Node -> Int
+availCpu t =
+ let _u = uCpu t
+ _l = hiCpu t
+ in if _l >= _u
+ then _l - _u
+ else 0
+
+-- * Display functions
+
+showField :: Node -> String -> String
+showField t field =
+ case field of
+ "idx" -> printf "%4d" $ idx t
+ "name" -> alias t
+ "fqdn" -> name t
+ "status" -> if offline t then "-"
+ else if failN1 t then "*" else " "
+ "tmem" -> printf "%5.0f" $ tMem t
+ "nmem" -> printf "%5d" $ nMem t
+ "xmem" -> printf "%5d" $ xMem t
+ "fmem" -> printf "%5d" $ fMem t
+ "imem" -> printf "%5d" imem
+ "rmem" -> printf "%5d" $ rMem t
+ "amem" -> printf "%5d" $ fMem t - rMem t
+ "tdsk" -> printf "%5.0f" $ tDsk t / 1024
+ "fdsk" -> printf "%5d" $ fDsk t `div` 1024
+ "tcpu" -> printf "%4.0f" $ tCpu t
+ "ucpu" -> printf "%4d" $ uCpu t
+ "pcnt" -> printf "%3d" $ length (pList t)
+ "scnt" -> printf "%3d" $ length (sList t)
+ "plist" -> show $ pList t
+ "slist" -> show $ sList t
+ "pfmem" -> printf "%6.4f" $ pMem t
+ "pfdsk" -> printf "%6.4f" $ pDsk t
+ "rcpu" -> printf "%5.2f" $ pCpu t
+ "cload" -> printf "%5.3f" uC
+ "mload" -> printf "%5.3f" uM
+ "dload" -> printf "%5.3f" uD
+ "nload" -> printf "%5.3f" uN
+ "ptags" -> intercalate "," . map (\(k, v) -> printf "%s=%d" k v) .
+ Map.toList $ pTags t
+ "peermap" -> show $ peers t
+ _ -> T.unknownField
+ where
+ T.DynUtil { T.cpuWeight = uC, T.memWeight = uM,
+ T.dskWeight = uD, T.netWeight = uN } = utilLoad t
+ imem = truncate (tMem t) - nMem t - xMem t - fMem t
+
+-- | Returns the header and numeric propery of a field
+showHeader :: String -> (String, Bool)
+showHeader field =
+ case field of
+ "idx" -> ("Index", True)
+ "name" -> ("Name", False)
+ "fqdn" -> ("Name", False)
+ "status" -> ("F", False)
+ "tmem" -> ("t_mem", True)
+ "nmem" -> ("n_mem", True)
+ "xmem" -> ("x_mem", True)
+ "fmem" -> ("f_mem", True)
+ "imem" -> ("i_mem", True)
+ "rmem" -> ("r_mem", True)
+ "amem" -> ("a_mem", True)
+ "tdsk" -> ("t_dsk", True)
+ "fdsk" -> ("f_dsk", True)
+ "tcpu" -> ("pcpu", True)
+ "ucpu" -> ("vcpu", True)
+ "pcnt" -> ("pcnt", True)
+ "scnt" -> ("scnt", True)
+ "plist" -> ("primaries", True)
+ "slist" -> ("secondaries", True)
+ "pfmem" -> ("p_fmem", True)
+ "pfdsk" -> ("p_fdsk", True)
+ "rcpu" -> ("r_cpu", True)
+ "cload" -> ("lCpu", True)
+ "mload" -> ("lMem", True)
+ "dload" -> ("lDsk", True)
+ "nload" -> ("lNet", True)
+ "ptags" -> ("PrimaryTags", False)
+ "peermap" -> ("PeerMap", False)
+ -- TODO: add node fields (group.uuid, group)
+ _ -> (T.unknownField, False)
-- | String converter for the node list functionality.
-list :: Int -> String -> Node -> String
-list mname n t =
- let pl = plist t
- sl = slist t
- mp = p_mem t
- dp = p_dsk t
- off = offline t
- fn = failN1 t
- in
- printf " %c %-*s %5.0f %5d %5d %5.0f %5d %3d %3d %.5f %.5f"
- (if off then '-' else if fn then '*' else ' ')
- mname n (t_mem t) (f_mem t) (r_mem t)
- ((t_dsk t) / 1024) ((f_dsk t) `div` 1024)
- (length pl) (length sl)
- mp dp
+list :: [String] -> Node -> [String]
+list fields t = map (showField t) fields
+
+
+defaultFields :: [String]
+defaultFields =
+ [ "status", "name", "tmem", "nmem", "imem", "xmem", "fmem"
+ , "rmem", "tdsk", "fdsk", "tcpu", "ucpu", "pcnt", "scnt"
+ , "pfmem", "pfdsk", "rcpu"
+ , "cload", "mload", "dload", "nload" ]
+
+-- | Split a list of nodes into a list of (node group UUID, list of
+-- associated nodes)
+computeGroups :: [Node] -> [(T.Gdx, [Node])]
+computeGroups nodes =
+ let nodes' = sortBy (comparing group) nodes
+ nodes'' = groupBy (\a b -> group a == group b) nodes'
+ in map (\nl -> (group (head nl), nl)) nodes''