module Ganeti.HTools.Backend.IAlloc
( readRequest
, runIAllocator
, processRelocate
, loadData
, formatAllocate
, formatIAllocResult
, formatMultiAlloc
) where
import Data.Either ()
import Data.Maybe (fromMaybe, isJust, fromJust)
import Data.List
import Control.Monad
import System.Time
import Text.JSON (JSObject, JSValue(JSArray),
makeObj, encodeStrict, decodeStrict, fromJSObject, showJSON)
import Ganeti.BasicTypes
import qualified Ganeti.HTools.Cluster as Cluster
import qualified Ganeti.HTools.Cluster.Evacuate as Evacuate
import qualified Ganeti.HTools.Container as Container
import qualified Ganeti.HTools.Group as Group
import qualified Ganeti.HTools.Node as Node
import qualified Ganeti.HTools.Instance as Instance
import qualified Ganeti.HTools.Nic as Nic
import qualified Ganeti.Constants as C
import Ganeti.HTools.AlgorithmParams (AlgorithmOptions)
import Ganeti.HTools.CLI
import Ganeti.HTools.Loader
import Ganeti.HTools.Types
import Ganeti.JSON
import Ganeti.Types ( EvacMode(ChangePrimary, ChangeSecondary)
, adminStateFromRaw, AdminState(..))
import Ganeti.Utils
type IAllocResult = (String, JSValue, Node.List, Instance.List)
parseNic :: String -> JSRecord -> Result Nic.Nic
parseNic n a = do
mac <- maybeFromObj a "mac"
ip <- maybeFromObj a "ip"
mode <- maybeFromObj a "mode" >>= \m -> case m of
Just "bridged" -> Ok $ Just Nic.Bridged
Just "routed" -> Ok $ Just Nic.Routed
Just "openvswitch" -> Ok $ Just Nic.OpenVSwitch
Nothing -> Ok Nothing
_ -> Bad $ "invalid NIC mode in instance " ++ n
link <- maybeFromObj a "link"
bridge <- maybeFromObj a "bridge"
network <- maybeFromObj a "network"
return (Nic.create mac ip mode link bridge network)
parseBaseInstance :: String
-> JSRecord
-> Result (String, Instance.Instance)
parseBaseInstance n a = do
let errorMessage = "invalid data for instance '" ++ n ++ "'"
let extract x = tryFromObj errorMessage a x
disk <- extract "disk_space_total"
jsdisks <- extract "disks" >>= toArray >>= asObjectList
dsizes <- mapM (flip (tryFromObj errorMessage) "size" . fromJSObject) jsdisks
dspindles <- mapM (annotateResult errorMessage .
flip maybeFromObj "spindles" . fromJSObject) jsdisks
let disks = zipWith Instance.Disk dsizes dspindles
mem <- extract "memory"
vcpus <- extract "vcpus"
tags <- extract "tags"
dt <- extract "disk_template"
su <- extract "spindle_use"
nics <- extract "nics" >>= toArray >>= asObjectList >>=
mapM (parseNic n . fromJSObject)
state <- (tryFromObj errorMessage a "admin_state" >>= adminStateFromRaw)
`mplus` Ok AdminUp
let getRunSt AdminOffline = StatusOffline
getRunSt AdminDown = StatusDown
getRunSt AdminUp = Running
forthcoming <- extract "forthcoming" `orElse` Ok False
return
(n,
Instance.create n mem disk disks vcpus (getRunSt state) tags
True 0 0 dt su nics forthcoming)
parseInstance :: NameAssoc
-> String
-> JSRecord
-> Result (String, Instance.Instance)
parseInstance ktn n a = do
base <- parseBaseInstance n a
nodes <- fromObj a "nodes"
(pnode, snodes) <-
case nodes of
[] -> Bad $ "empty node list for instance " ++ n
x:xs -> readEitherString x >>= \x' -> return (x', xs)
pidx <- lookupNode ktn n pnode
sidx <- case snodes of
[] -> return Node.noSecondary
x:_ -> readEitherString x >>= lookupNode ktn n
return (n, Instance.setBoth (snd base) pidx sidx)
parseNode :: NameAssoc
-> String
-> JSRecord
-> Result (String, Node.Node)
parseNode ktg n a = do
let desc = "invalid data for node '" ++ n ++ "'"
extract x = tryFromObj desc a x
extractDef def key = fromObjWithDefault a key def
offline <- extract "offline"
drained <- extract "drained"
guuid <- extract "group"
vm_capable <- annotateResult desc $ maybeFromObj a "vm_capable"
let vm_capable' = fromMaybe True vm_capable
gidx <- lookupGroup ktg n guuid
ndparams <- extract "ndparams" >>= asJSObject
tags <- extractDef [] "tags"
excl_stor <- tryFromObj desc (fromJSObject ndparams) "exclusive_storage"
let live = not offline && vm_capable'
lvextract def = eitherLive live def . extract
sptotal <- if excl_stor
then lvextract 0 "total_spindles"
else tryFromObj desc (fromJSObject ndparams) "spindle_count"
spfree <- lvextract 0 "free_spindles"
mtotal <- lvextract 0.0 "total_memory"
mnode <- lvextract 0 "reserved_memory"
mfree <- lvextract 0 "free_memory"
dtotal <- lvextract 0.0 "total_disk"
dfree <- lvextract 0 "free_disk"
ctotal <- lvextract 0.0 "total_cpus"
cnos <- lvextract 0 "reserved_cpus"
let node = flip Node.setNodeTags tags $
Node.create n mtotal mnode mfree dtotal dfree ctotal cnos
(not live || drained) sptotal spfree gidx excl_stor
return (n, node)
parseGroup :: String
-> JSRecord
-> Result (String, Group.Group)
parseGroup u a = do
let extract x = tryFromObj ("invalid data for group '" ++ u ++ "'") a x
name <- extract "name"
apol <- extract "alloc_policy"
nets <- extract "networks"
ipol <- extract "ipolicy"
tags <- extract "tags"
return (u, Group.create name u apol nets ipol tags)
parseData :: ClockTime
-> String
-> Result ([String], Request)
parseData now body = do
decoded <- fromJResult "Parsing input IAllocator message" (decodeStrict body)
let obj = fromJSObject decoded
extrObj x = tryFromObj "invalid iallocator message" obj x
request <- liftM fromJSObject (extrObj "request")
let extrFromReq r x = tryFromObj "invalid request dict" r x
let extrReq x = extrFromReq request x
glist <- liftM fromJSObject (extrObj "nodegroups")
gobj <- mapM (\(x, y) -> asJSObject y >>= parseGroup x . fromJSObject) glist
let (ktg, gl) = assignIndices gobj
nlist <- liftM fromJSObject (extrObj "nodes")
nobj <- mapM (\(x,y) ->
asJSObject y >>= parseNode ktg x . fromJSObject) nlist
let (ktn, nl) = assignIndices nobj
ilist <- extrObj "instances"
let idata = fromJSObject ilist
iobj <- mapM (\(x,y) ->
asJSObject y >>= parseInstance ktn x . fromJSObject) idata
let (kti, il) = assignIndices iobj
ctags <- extrObj "cluster_tags"
cdata1 <- mergeData [] [] [] [] now (ClusterData gl nl il ctags defIPolicy)
let (msgs, fix_nl) = checkData (cdNodes cdata1) (cdInstances cdata1)
cdata = cdata1 { cdNodes = fix_nl }
map_n = cdNodes cdata
map_i = cdInstances cdata
map_g = cdGroups cdata
optype <- extrReq "type"
rqtype <-
case () of
_ | optype == C.iallocatorModeAlloc ->
do
rname <- extrReq "name"
rgn <- maybeFromObj request "group_name"
req_nodes <- extrReq "required_nodes"
inew <- parseBaseInstance rname request
let io = updateExclTags (extractExTags ctags) $ snd inew
return $ Allocate io (Cluster.AllocDetails req_nodes rgn)
| optype == C.iallocatorModeReloc ->
do
rname <- extrReq "name"
ridx <- lookupInstance kti rname
req_nodes <- extrReq "required_nodes"
ex_nodes <- extrReq "relocate_from"
ex_idex <- mapM (Container.findByName map_n) ex_nodes
return $ Relocate ridx req_nodes (map Node.idx ex_idex)
| optype == C.iallocatorModeChgGroup ->
do
rl_names <- extrReq "instances"
rl_insts <- mapM (liftM Instance.idx .
Container.findByName map_i) rl_names
gr_uuids <- extrReq "target_groups"
gr_idxes <- mapM (liftM Group.idx .
Container.findByName map_g) gr_uuids
return $ ChangeGroup rl_insts gr_idxes
| optype == C.iallocatorModeNodeEvac ->
do
rl_names <- extrReq "instances"
rl_insts <- mapM (Container.findByName map_i) rl_names
let rl_idx = map Instance.idx rl_insts
rl_mode <- extrReq "evac_mode"
return $ NodeEvacuate rl_idx rl_mode
| optype == C.iallocatorModeMultiAlloc ->
do
arry <- extrReq "instances" :: Result [JSObject JSValue]
let inst_reqs = map fromJSObject arry
prqs <- forM inst_reqs (\r ->
do
rname <- extrFromReq r "name"
rgn <- maybeFromObj request "group_name"
req_nodes <- extrFromReq r "required_nodes"
inew <- parseBaseInstance rname r
let io = updateExclTags (extractExTags ctags)
$ snd inew
return (io, Cluster.AllocDetails
req_nodes rgn))
return $ MultiAllocate prqs
| otherwise -> fail ("Invalid request type '" ++ optype ++ "'")
return (msgs, Request rqtype cdata)
formatResponse :: Bool
-> String
-> JSValue
-> String
formatResponse success info result =
let e_success = ("success", showJSON success)
e_info = ("info", showJSON info)
e_result = ("result", result)
in encodeStrict $ makeObj [e_success, e_info, e_result]
describeSolution :: Cluster.GenericAllocSolution a -> String
describeSolution = intercalate ", " . Cluster.asLog
formatAllocate :: Instance.List
-> Cluster.GenericAllocSolution a
-> Result IAllocResult
formatAllocate il as = do
let info = describeSolution as
case Cluster.asSolution as of
Nothing -> fail info
Just (nl, inst, nodes, _) ->
do
let il' = Container.add (Instance.idx inst) inst il
return (info, showJSON $ map Node.name nodes, nl, il')
formatMultiAlloc :: ( Node.List, Instance.List
, Cluster.GenericAllocSolutionList a)
-> Result IAllocResult
formatMultiAlloc (fin_nl, fin_il, ars) =
let rars = reverse ars
(allocated, failed) = partition (isJust . Cluster.asSolution . snd) rars
aars = map (\(_, ar) ->
let (_, inst, nodes, _) = fromJust $ Cluster.asSolution ar
iname = Instance.name inst
nnames = map Node.name nodes
in (iname, nnames)) allocated
fars = map (\(inst, ar) ->
let iname = Instance.name inst
in (iname, describeSolution ar)) failed
info = show (length failed) ++ " instances failed to allocate and " ++
show (length allocated) ++ " were allocated successfully"
in return (info, showJSON (aars, fars), fin_nl, fin_il)
formatNodeEvac :: Group.List
-> Node.List
-> Instance.List
-> (Node.List, Instance.List, Evacuate.EvacSolution)
-> Result IAllocResult
formatNodeEvac gl nl il (fin_nl, fin_il, es) =
let iname = Instance.name . flip Container.find il
nname = Node.name . flip Container.find nl
gname = Group.name . flip Container.find gl
fes = map (\(idx, msg) -> (iname idx, msg)) $ Evacuate.esFailed es
mes = map (\(idx, gdx, ndxs) -> (iname idx, gname gdx, map nname ndxs))
$ Evacuate.esMoved es
failed = length fes
moved = length mes
info = show failed ++ " instances failed to move and " ++ show moved ++
" were moved successfully"
in Ok (info, showJSON (mes, fes, Evacuate.esOpCodes es), fin_nl, fin_il)
processRelocate :: AlgorithmOptions
-> Group.List
-> Node.List
-> Instance.List
-> Idx
-> Int
-> [Ndx]
-> Result (Node.List, Instance.List, [Ndx])
processRelocate opts gl nl il idx 1 exndx = do
let orig = Container.find idx il
sorig = Instance.sNode orig
porig = Instance.pNode orig
mir_type = Instance.mirrorType orig
(exp_node, node_type, reloc_type) <-
case mir_type of
MirrorNone -> fail "Can't relocate non-mirrored instances"
MirrorInternal -> return (sorig, "secondary", ChangeSecondary)
MirrorExternal -> return (porig, "primary", ChangePrimary)
when (exndx /= [exp_node]) .
fail $ "Unsupported request: excluded nodes not equal to\
\ instance's " ++ node_type ++ "(" ++ show exp_node
++ " versus " ++ show exndx ++ ")"
(nl', il', esol) <- Evacuate.tryNodeEvac opts gl nl il reloc_type [idx]
nodes <- case lookup idx (Evacuate.esFailed esol) of
Just msg -> fail msg
Nothing ->
case lookup idx (map (\(a, _, b) -> (a, b))
(Evacuate.esMoved esol)) of
Nothing ->
fail "Internal error: lost instance idx during move"
Just n -> return n
let inst = Container.find idx il'
pnode = Instance.pNode inst
snode = Instance.sNode inst
nodes' <-
case mir_type of
MirrorNone -> fail "Internal error: mirror type none after relocation?!"
MirrorInternal ->
do
when (snode == sorig) $
fail "Internal error: instance didn't change secondary node?!"
when (snode == pnode) $
fail "Internal error: selected primary as new secondary?!"
if nodes == [pnode, snode]
then return [snode]
else fail $ "Internal error: inconsistent node list (" ++
show nodes ++ ") versus instance nodes (" ++ show pnode ++
"," ++ show snode ++ ")"
MirrorExternal ->
do
when (pnode == porig) $
fail "Internal error: instance didn't change primary node?!"
if nodes == [pnode]
then return nodes
else fail $ "Internal error: inconsistent node list (" ++
show nodes ++ ") versus instance node (" ++ show pnode ++ ")"
return (nl', il', nodes')
processRelocate _ _ _ _ _ reqn _ =
fail $ "Exchange " ++ show reqn ++ " nodes mode is not implemented"
formatRelocate :: (Node.List, Instance.List, [Ndx])
-> Result IAllocResult
formatRelocate (nl, il, ndxs) =
let nodes = map (`Container.find` nl) ndxs
names = map Node.name nodes
in Ok ("success", showJSON names, nl, il)
processRequest :: AlgorithmOptions -> Request -> Result IAllocResult
processRequest opts request =
let Request rqtype (ClusterData gl nl il _ _) = request
in case rqtype of
Allocate xi (Cluster.AllocDetails reqn Nothing) ->
Cluster.tryMGAlloc opts gl nl il xi reqn >>= formatAllocate il
Allocate xi (Cluster.AllocDetails reqn (Just gn)) ->
Cluster.tryGroupAlloc opts gl nl il gn xi reqn >>= formatAllocate il
Relocate idx reqn exnodes ->
processRelocate opts gl nl il idx reqn exnodes >>= formatRelocate
ChangeGroup gdxs idxs ->
Cluster.tryChangeGroup opts gl nl il idxs gdxs >>=
formatNodeEvac gl nl il
NodeEvacuate xi mode ->
Evacuate.tryNodeEvac opts gl nl il mode xi >>=
formatNodeEvac gl nl il
MultiAllocate xies ->
Cluster.allocList opts gl nl il xies [] >>= formatMultiAlloc
readRequest :: FilePath -> IO Request
readRequest fp = do
now <- getClockTime
input_data <- case fp of
"-" -> getContents
_ -> readFile fp
case parseData now input_data of
Bad err -> exitErr err
Ok (fix_msgs, rq) -> maybeShowWarnings fix_msgs >> return rq
formatIAllocResult :: Result IAllocResult
-> (Maybe (Node.List, Instance.List), String)
formatIAllocResult iallocResult =
let (ok, info, result, cdata) =
case iallocResult of
Ok (msg, r, nl, il) -> (True, "Request successful: " ++ msg, r,
Just (nl, il))
Bad msg -> (False, "Request failed: " ++ msg, JSArray [], Nothing)
rstring = formatResponse ok info result
in (cdata, rstring)
runIAllocator :: AlgorithmOptions
-> Request -> (Maybe (Node.List, Instance.List), String)
runIAllocator opts request = formatIAllocResult $ processRequest opts request
loadData :: FilePath
-> IO (Result ClusterData)
loadData fp = do
Request _ cdata <- readRequest fp
return $ Ok cdata