module Ganeti.HTools.Luxi
( loadData
, parseData
) where
import qualified Control.Exception as E
import Text.JSON.Types
import qualified Text.JSON
import qualified Ganeti.Luxi as L
import Ganeti.HTools.Loader
import Ganeti.HTools.Types
import qualified Ganeti.HTools.Group as Group
import qualified Ganeti.HTools.Node as Node
import qualified Ganeti.HTools.Instance as Instance
import Ganeti.HTools.JSON
getData :: (Monad m) => JSValue -> m JSValue
getData (JSObject o) = fromObj (fromJSObject o) "data"
getData x = fail $ "Invalid input, expected dict entry but got " ++ show x
parseQueryField :: (Monad m) => JSValue -> m (JSValue, JSValue)
parseQueryField (JSArray [status, result]) = return (status, result)
parseQueryField o =
fail $ "Invalid query field, expected (status, value) but got " ++ show o
parseQueryRow :: (Monad m) => JSValue -> m [(JSValue, JSValue)]
parseQueryRow (JSArray arr) = mapM parseQueryField arr
parseQueryRow o =
fail $ "Invalid query row result, expected array but got " ++ show o
parseQueryResult :: (Monad m) => JSValue -> m [[(JSValue, JSValue)]]
parseQueryResult (JSArray arr) = mapM parseQueryRow arr
parseQueryResult o =
fail $ "Invalid query result, expected array but got " ++ show o
extractArray :: (Monad m) => JSValue -> m [[(JSValue, JSValue)]]
extractArray v =
getData v >>= parseQueryResult
fromJValWithStatus :: (Text.JSON.JSON a, Monad m) => (JSValue, JSValue) -> m a
fromJValWithStatus (st, v) = do
st' <- fromJVal st
L.checkRS st' v >>= fromJVal
genericConvert :: (Text.JSON.JSON a) =>
String
-> String
-> String
-> (JSValue, JSValue)
-> Result a
genericConvert otype oname oattr =
annotateResult (otype ++ " '" ++ oname ++
"', error while reading attribute '" ++
oattr ++ "'") . fromJValWithStatus
queryNodesMsg :: L.LuxiOp
queryNodesMsg =
L.Query L.QRNode ["name", "mtotal", "mnode", "mfree", "dtotal", "dfree",
"ctotal", "offline", "drained", "vm_capable",
"ndp/spindle_count", "group.uuid"] ()
queryInstancesMsg :: L.LuxiOp
queryInstancesMsg =
L.Query L.QRInstance ["name", "disk_usage", "be/memory", "be/vcpus",
"status", "pnode", "snodes", "tags", "oper_ram",
"be/auto_balance", "disk_template",
"be/spindle_use"] ()
queryClusterInfoMsg :: L.LuxiOp
queryClusterInfoMsg = L.QueryClusterInfo
queryGroupsMsg :: L.LuxiOp
queryGroupsMsg =
L.Query L.QRGroup ["uuid", "name", "alloc_policy", "ipolicy"] ()
queryNodes :: L.Client -> IO (Result JSValue)
queryNodes = L.callMethod queryNodesMsg
queryInstances :: L.Client -> IO (Result JSValue)
queryInstances = L.callMethod queryInstancesMsg
queryClusterInfo :: L.Client -> IO (Result JSValue)
queryClusterInfo = L.callMethod queryClusterInfoMsg
queryGroups :: L.Client -> IO (Result JSValue)
queryGroups = L.callMethod queryGroupsMsg
getInstances :: NameAssoc
-> JSValue
-> Result [(String, Instance.Instance)]
getInstances ktn arr = extractArray arr >>= mapM (parseInstance ktn)
parseInstance :: NameAssoc
-> [(JSValue, JSValue)]
-> Result (String, Instance.Instance)
parseInstance ktn [ name, disk, mem, vcpus
, status, pnode, snodes, tags, oram
, auto_balance, disk_template, su ] = do
xname <- annotateResult "Parsing new instance" (fromJValWithStatus name)
let convert a = genericConvert "Instance" xname a
xdisk <- convert "disk_usage" disk
xmem <- case oram of
(_, JSRational _ _) -> convert "oper_ram" oram
_ -> convert "be/memory" mem
xvcpus <- convert "be/vcpus" vcpus
xpnode <- convert "pnode" pnode >>= lookupNode ktn xname
xsnodes <- convert "snodes" snodes::Result [JSString]
snode <- if null xsnodes
then return Node.noSecondary
else lookupNode ktn xname (fromJSString $ head xsnodes)
xrunning <- convert "status" status
xtags <- convert "tags" tags
xauto_balance <- convert "auto_balance" auto_balance
xdt <- convert "disk_template" disk_template
xsu <- convert "be/spindle_use" su
let inst = Instance.create xname xmem xdisk xvcpus
xrunning xtags xauto_balance xpnode snode xdt xsu
return (xname, inst)
parseInstance _ v = fail ("Invalid instance query result: " ++ show v)
getNodes :: NameAssoc -> JSValue -> Result [(String, Node.Node)]
getNodes ktg arr = extractArray arr >>= mapM (parseNode ktg)
parseNode :: NameAssoc -> [(JSValue, JSValue)] -> Result (String, Node.Node)
parseNode ktg [ name, mtotal, mnode, mfree, dtotal, dfree
, ctotal, offline, drained, vm_capable, spindles, g_uuid ]
= do
xname <- annotateResult "Parsing new node" (fromJValWithStatus name)
let convert a = genericConvert "Node" xname a
xoffline <- convert "offline" offline
xdrained <- convert "drained" drained
xvm_capable <- convert "vm_capable" vm_capable
xspindles <- convert "spindles" spindles
xgdx <- convert "group.uuid" g_uuid >>= lookupGroup ktg xname
node <- if xoffline || xdrained || not xvm_capable
then return $ Node.create xname 0 0 0 0 0 0 True xspindles xgdx
else do
xmtotal <- convert "mtotal" mtotal
xmnode <- convert "mnode" mnode
xmfree <- convert "mfree" mfree
xdtotal <- convert "dtotal" dtotal
xdfree <- convert "dfree" dfree
xctotal <- convert "ctotal" ctotal
return $ Node.create xname xmtotal xmnode xmfree
xdtotal xdfree xctotal False xspindles xgdx
return (xname, node)
parseNode _ v = fail ("Invalid node query result: " ++ show v)
getClusterData :: JSValue -> Result ([String], IPolicy)
getClusterData (JSObject obj) = do
let errmsg = "Parsing cluster info"
obj' = fromJSObject obj
ctags <- tryFromObj errmsg obj' "tags"
cpol <- tryFromObj errmsg obj' "ipolicy"
return (ctags, cpol)
getClusterData _ = Bad $ "Cannot parse cluster info, not a JSON record"
getGroups :: JSValue -> Result [(String, Group.Group)]
getGroups jsv = extractArray jsv >>= mapM parseGroup
parseGroup :: [(JSValue, JSValue)] -> Result (String, Group.Group)
parseGroup [uuid, name, apol, ipol] = do
xname <- annotateResult "Parsing new group" (fromJValWithStatus name)
let convert a = genericConvert "Group" xname a
xuuid <- convert "uuid" uuid
xapol <- convert "alloc_policy" apol
xipol <- convert "ipolicy" ipol
return (xuuid, Group.create xname xuuid xapol xipol)
parseGroup v = fail ("Invalid group query result: " ++ show v)
readData :: String
-> IO (Result JSValue, Result JSValue, Result JSValue, Result JSValue)
readData master =
E.bracket
(L.getClient master)
L.closeClient
(\s -> do
nodes <- queryNodes s
instances <- queryInstances s
cinfo <- queryClusterInfo s
groups <- queryGroups s
return (groups, nodes, instances, cinfo)
)
parseData :: (Result JSValue, Result JSValue, Result JSValue, Result JSValue)
-> Result ClusterData
parseData (groups, nodes, instances, cinfo) = do
group_data <- groups >>= getGroups
let (group_names, group_idx) = assignIndices group_data
node_data <- nodes >>= getNodes group_names
let (node_names, node_idx) = assignIndices node_data
inst_data <- instances >>= getInstances node_names
let (_, inst_idx) = assignIndices inst_data
(ctags, cpol) <- cinfo >>= getClusterData
return (ClusterData group_idx node_idx inst_idx ctags cpol)
loadData :: String
-> IO (Result ClusterData)
loadData = fmap parseData . readData