, Solution(..)
, Table(..)
, Removal
+ , Score
-- * Generic functions
, totalResources
-- * First phase functions
old_s = Container.find old_sdx nl
int_p = Node.removePri old_p inst
int_s = Node.removeSec old_s inst
- new_p = Node.addPri int_s inst
- new_s = Node.addSec int_p inst old_sdx
- new_nl = if isNothing(new_p) || isNothing(new_s) then Nothing
- else Just $ Container.addTwo old_pdx (fromJust new_s)
- old_sdx (fromJust new_p) nl
+ new_nl = do -- Maybe monad
+ new_p <- Node.addPri int_s inst
+ new_s <- Node.addSec int_p inst old_sdx
+ return $ Container.addTwo old_pdx new_s old_sdx new_p nl
in (new_nl, Instance.setBoth inst old_sdx old_pdx, old_sdx, old_pdx)
-- Replace the primary (f:, r:np, f)
tgt_n = Container.find new_pdx nl
int_p = Node.removePri old_p inst
int_s = Node.removeSec old_s inst
- new_p = Node.addPri tgt_n inst
- new_s = Node.addSec int_s inst new_pdx
- new_nl = if isNothing(new_p) || isNothing(new_s) then Nothing
- else Just $ Container.add new_pdx (fromJust new_p) $
- Container.addTwo old_pdx int_p
- old_sdx (fromJust new_s) nl
+ new_nl = do -- Maybe monad
+ new_p <- Node.addPri tgt_n inst
+ new_s <- Node.addSec int_s inst new_pdx
+ return $ Container.add new_pdx new_p $
+ Container.addTwo old_pdx int_p old_sdx new_s nl
in (new_nl, Instance.setPri inst new_pdx, new_pdx, old_sdx)
-- Replace the secondary (r:ns)
old_s = Container.find old_sdx nl
tgt_n = Container.find new_sdx nl
int_s = Node.removeSec old_s inst
- new_s = Node.addSec tgt_n inst old_pdx
- new_nl = if isNothing(new_s) then Nothing
- else Just $ Container.addTwo new_sdx (fromJust new_s)
- old_sdx int_s nl
+ new_nl = Node.addSec tgt_n inst old_pdx >>=
+ \new_s -> return $ Container.addTwo new_sdx
+ new_s old_sdx int_s nl
in (new_nl, Instance.setSec inst new_sdx, old_pdx, new_sdx)
-- Replace the secondary and failover (r:np, f)
tgt_n = Container.find new_pdx nl
int_p = Node.removePri old_p inst
int_s = Node.removeSec old_s inst
- new_p = Node.addPri tgt_n inst
- new_s = Node.addSec int_p inst new_pdx
- new_nl = if isNothing(new_p) || isNothing(new_s) then Nothing
- else Just $ Container.add new_pdx (fromJust new_p) $
- Container.addTwo old_pdx (fromJust new_s)
- old_sdx int_s nl
+ new_nl = do -- Maybe monad
+ new_p <- Node.addPri tgt_n inst
+ new_s <- Node.addSec int_p inst new_pdx
+ return $ Container.add new_pdx new_p $
+ Container.addTwo old_pdx new_s old_sdx int_s nl
in (new_nl, Instance.setBoth inst new_pdx old_pdx, new_pdx, old_pdx)
-- Failver and replace the secondary (f, r:ns)
tgt_n = Container.find new_sdx nl
int_p = Node.removePri old_p inst
int_s = Node.removeSec old_s inst
- new_p = Node.addPri int_s inst
- new_s = Node.addSec tgt_n inst old_sdx
- new_nl = if isNothing(new_p) || isNothing(new_s) then Nothing
- else Just $ Container.add new_sdx (fromJust new_s) $
- Container.addTwo old_sdx (fromJust new_p)
- old_pdx int_p nl
+ new_nl = do -- Maybe monad
+ new_p <- Node.addPri int_s inst
+ new_s <- Node.addSec tgt_n inst old_sdx
+ return $ Container.add new_sdx new_s $
+ Container.addTwo old_sdx new_p old_pdx int_p nl
in (new_nl, Instance.setBoth inst old_sdx new_sdx, old_sdx, new_sdx)
checkSingleStep :: Table -- ^ The original table
else
if c == b then {- Failover and ... -}
if d == a then {- that's all -}
- ("f", [printf "migrate %s" i])
+ ("f", [printf "migrate -f %s" i])
else
(printf "f r:%s" d,
- [printf "migrate %s" i,
+ [printf "migrate -f %s" i,
printf "replace-disks -n %s %s" d i])
else
if d == a then {- ... and keep primary as secondary -}
(printf "r:%s f" c,
[printf "replace-disks -n %s %s" c i,
- printf "migrate %s" i])
+ printf "migrate -f %s" i])
else
if d == b then {- ... keep same secondary -}
(printf "f r:%s f" c,
- [printf "migrate %s" i,
+ [printf "migrate -f %s" i,
printf "replace-disks -n %s %s" c i,
- printf "migrate %s" i])
+ printf "migrate -f %s" i])
else {- Nothing in common -}
(printf "r:%s f r:%s" c d,
[printf "replace-disks -n %s %s" c i,
- printf "migrate %s" i,
+ printf "migrate -f %s" i,
printf "replace-disks -n %s %s" d i])
{-| Converts a placement to string format -}
formatCmds :: [[String]] -> String
formatCmds cmd_strs =
- unlines $ map (" echo " ++) $
+ unlines $
concat $ map (\(a, b) ->
- (printf "step %d" (a::Int)):(map ("gnt-instance " ++) b)) $
+ (printf "echo step %d" (a::Int)):
+ (printf "check"):
+ (map ("gnt-instance " ++) b)) $
zip [1..] cmd_strs
{-| Converts a solution to string format -}
let
{- node file: name t_mem n_mem f_mem t_disk f_disk -}
(ktn, nl) = loadTabular ndata
- (\ (name:tm:nm:fm:td:fd:[]) ->
+ (\ (name:tm:nm:fm:td:fd:fo:[]) ->
(name,
- Node.create (read tm) (read nm)
- (read fm) (read td) (read fd)))
+ if any (== "?") [tm,nm,fm,td,fd] || fo == "Y" then
+ Node.create 0 0 0 0 0 True
+ else
+ Node.create (read tm) (read nm) (read fm)
+ (read td) (read fd) False
+ ))
Node.setIdx
{- instance file: name mem disk status pnode snode -}
(kti, il) = loadTabular idata
in sum . map Instance.mem .
map rfind $ Node.plist node
+-- | Compute the amount of disk used by instances on a node (either primary
+-- or secondary).
+nodeIdsk :: Node.Node -> InstanceList -> Int
+nodeIdsk node il =
+ let rfind = flip Container.find $ il
+ in sum . map Instance.dsk .
+ map rfind $ (Node.plist node) ++ (Node.slist node)
+
-- | Check cluster data for consistency
checkData :: NodeList -> InstanceList -> NameList -> NameList
-> ([String], NodeList)
-checkData nl il ktn kti =
+checkData nl il ktn _ =
Container.mapAccum
(\ msgs node ->
let nname = fromJust $ lookup (Node.idx node) ktn
- delta_mem = (truncate $ Node.t_mem node) -
- (Node.n_mem node) -
- (Node.f_mem node) -
- (nodeImem node il)
- newn = Node.setXmem node delta_mem
- umsg = if delta_mem > 16
- then (printf "node %s has %6d MB of unaccounted \
- \memory "
- nname delta_mem):msgs
- else msgs
- in (umsg, newn)
+ nilst = map (flip Container.find $ il) (Node.plist node)
+ dilst = filter (not . Instance.running) nilst
+ adj_mem = sum . map Instance.mem $ dilst
+ delta_mem = (truncate $ Node.t_mem node)
+ - (Node.n_mem node)
+ - (Node.f_mem node)
+ - (nodeImem node il)
+ + adj_mem
+ delta_dsk = (truncate $ Node.t_dsk node)
+ - (Node.f_dsk node)
+ - (nodeIdsk node il)
+ newn = Node.setFmem (Node.setXmem node delta_mem)
+ (Node.f_mem node - adj_mem)
+ umsg1 = if delta_mem > 512 || delta_dsk > 1024
+ then [printf "node %s is missing %d MB ram \
+ \and %d GB disk"
+ nname delta_mem (delta_dsk `div` 1024)]
+ else []
+ in (msgs ++ umsg1, newn)
) [] nl