import Data.Either ()
import Data.Maybe
import Control.Monad
-import Text.JSON
+import Text.JSON (JSObject, JSValue(JSBool, JSString, JSArray),
+ makeObj, encodeStrict, decodeStrict,
+ fromJSObject, toJSString)
import Text.Printf (printf)
-import Ganeti.HTools.Utils ()
-
-
--- Some constants
-
-{-- Our cheap monad-like stuff.
-
-Thi is needed since Either e a is already a monad instance somewhere
-in the standard libraries (Control.Monad.Error) and we don't need that
-entire thing.
-
--}
-combine :: (Either String a) -> (a -> Either String b) -> (Either String b)
-combine (Left s) _ = Left s
-combine (Right s) f = f s
-
-ensureList :: [Either String a] -> Either String [a]
-ensureList lst =
- foldr (\elem accu ->
- case (elem, accu) of
- (Left x, _) -> Left x
- (_, Left x) -> Left x -- should never happen
- (Right e, Right a) -> Right (e:a)
- )
- (Right []) lst
-
-listHead :: Either String [a] -> Either String a
-listHead lst =
- case lst of
- Left x -> Left x
- Right (x:_) -> Right x
- Right [] -> Left "List empty"
-
-loadJSArray :: String -> Either String [JSObject JSValue]
-loadJSArray s = resultToEither $ decodeStrict s
-
-fromObj :: JSON a => String -> JSObject JSValue -> Either String a
-fromObj k o =
- case lookup k (fromJSObject o) of
- Nothing -> Left $ printf "key '%s' not found" k
- Just val -> resultToEither $ readJSON val
-
-getStringElement :: String -> JSObject JSValue -> Either String String
-getStringElement = fromObj
-
-getIntElement :: String -> JSObject JSValue -> Either String Int
-getIntElement = fromObj
-
-getListElement :: String -> JSObject JSValue
- -> Either String [JSValue]
-getListElement = fromObj
-
-readString :: JSValue -> Either String String
-readString v =
- case v of
- JSString s -> Right $ fromJSString s
- _ -> Left "Wrong JSON type"
-
-concatElems :: Either String String
- -> Either String String
- -> Either String String
-concatElems = apply2 (\x y -> x ++ "|" ++ y)
-
-apply1 :: (a -> b) -> Either String a -> Either String b
-apply1 fn a =
- case a of
- Left x -> Left x
- Right y -> Right $ fn y
-
-apply2 :: (a -> b -> c)
- -> Either String a
- -> Either String b
- -> Either String c
-apply2 fn a b =
- case (a, b) of
- (Right x, Right y) -> Right $ fn x y
- (Left x, _) -> Left x
- (_, Left y) -> Left y
-
-parseList :: (JSObject JSValue -> Either String String)
- -> [JSObject JSValue]
- ->Either String String
-parseList fn idata =
- let ml = ensureList $ map fn idata
- in ml `combine` (Right . unlines)
-
-parseInstance :: JSObject JSValue -> Either String String
-parseInstance a =
- let name = getStringElement "name" a
+import Ganeti.HTools.Utils
+import qualified Ganeti.HTools.Node as Node
+import qualified Ganeti.HTools.Instance as Instance
+
+data RqType
+ = Allocate
+ | Relocate
+ deriving (Eq, Show)
+
+data Request
+ = RqAlloc String String String
+ | RqReloc String String String
+
+parseInstance :: String -> JSObject JSValue -> Result String
+parseInstance n a =
+ let name = Ok n
disk = case getIntElement "disk_usage" a of
- Left _ -> let log_sz = apply2 (+)
- (getIntElement "sda_size" a)
- (getIntElement "sdb_size" a)
- in apply2 (+) log_sz (Right $ 128 * 2)
- Right x -> Right x
- bep = fromObj "beparams" a
- pnode = getStringElement "pnode" a
- snode = (listHead $ getListElement "snodes" a) `combine` readString
- mem = case bep of
- Left _ -> getIntElement "admin_ram" a
- Right o -> getIntElement "memory" o
- running = getStringElement "status" a
+ Bad _ -> let all_d = getListElement "disks" a >>= asObjectList
+ szd = all_d >>=
+ (sequence .
+ map (getIntElement "size"))
+ sze = liftM (map (+128)) szd
+ szf = liftM sum sze
+ in szf
+ x@(Ok _) -> x
+ nodes = getListElement "nodes" a
+ pnode = liftM head nodes >>= readEitherString
+ snode = liftM (head . tail) nodes >>= readEitherString
+ mem = getIntElement "memory" a
+ running = Ok "running" --getStringElement "status" a
in
- concatElems name $
- concatElems (show `apply1` mem) $
- concatElems (show `apply1` disk) $
- concatElems running $
- concatElems pnode snode
-
-parseNode :: JSObject JSValue -> Either String String
-parseNode a =
- let name = getStringElement "name" a
- mtotal = getIntElement "mtotal" a
- mnode = getIntElement "mnode" a
- mfree = getIntElement "mfree" a
- dtotal = getIntElement "dtotal" a
- dfree = getIntElement "dfree" a
- in concatElems name $
- concatElems (show `apply1` mtotal) $
- concatElems (show `apply1` mnode) $
- concatElems (show `apply1` mfree) $
- concatElems (show `apply1` dtotal) (show `apply1` dfree)
-
-parseData :: String -> Maybe String
+ name |+ (show `liftM` mem) |+
+ (show `liftM` disk) |+ running |+ pnode |+ snode
+
+parseNode :: String -> JSObject JSValue -> Result String
+parseNode n a =
+ let name = Ok n
+ mtotal = getIntElement "total_memory" a
+ mnode = getIntElement "reserved_memory" a
+ mfree = getIntElement "free_memory" a
+ dtotal = getIntElement "total_disk" a
+ dfree = getIntElement "free_disk" a
+ in name |+ (show `liftM` mtotal) |+
+ (show `liftM` mnode) |+
+ (show `liftM` mfree) |+
+ (show `liftM` dtotal) |+
+ (show `liftM` dfree)
+
+validateRequest :: String -> Result RqType
+validateRequest rq =
+ case rq of
+ "allocate" -> Ok Allocate
+ "relocate" -> Ok Relocate
+ _ -> Bad ("Invalid request type '" ++ rq ++ "'")
+
+parseData :: String -> Result Request
+parseData body =
+ do
+ decoded <- fromJResult $ decodeStrict body
+ let obj = decoded -- decoded `combineEithers` fromJSObject
+ -- request parser
+ request <- getObjectElement "request" obj
+ rname <- getStringElement "name" request
+ rtype <- getStringElement "type" request >>= validateRequest
+ inew <- (\x -> if x == Allocate then parseInstance rname request
+ else Ok "") rtype
+ -- existing intstance parsing
+ ilist <- getObjectElement "instances" obj
+ let idata = fromJSObject ilist
+ iobj <- (sequence . map (\(x,y) -> asJSObject y >>= parseInstance x))
+ idata
+ let ilines = unlines iobj
+ -- existing node parsing
+ nlist <- getObjectElement "nodes" obj
+ let ndata = fromJSObject nlist
+ nobj <- (sequence . map (\(x,y) -> asJSObject y >>= parseNode x))
+ ndata
+ let nlines = unlines nobj
+ return $ (\ r nl il inew rnam ->
+ case r of
+ Allocate -> RqAlloc inew nl il
+ Relocate -> RqReloc rnam nl il)
+ rtype nlines ilines inew rname
-parseData x = Just x
formatResponse :: Bool -> String -> [String] -> String
formatResponse success info nodes =