module Ganeti.HTools.Backend.Rapi
( loadData
, parseData
) where
import Control.Exception
import Data.List (isPrefixOf)
import Data.Maybe (fromMaybe)
import Network.Curl
import Network.Curl.Types ()
import Control.Monad
import Text.JSON (JSObject, fromJSObject, decodeStrict)
import Text.JSON.Types (JSValue(..))
import Text.Printf (printf)
import System.FilePath
import Ganeti.BasicTypes
import Ganeti.HTools.Loader
import Ganeti.HTools.Types
import Ganeti.JSON
import qualified Ganeti.HTools.Group as Group
import qualified Ganeti.HTools.Node as Node
import qualified Ganeti.HTools.Instance as Instance
import qualified Ganeti.Constants as C
filePrefix :: String
filePrefix = "file://"
getUrl :: (Monad m) => String -> IO (m String)
connTimeout :: Long
connTimeout = 15
queryTimeout :: Long
queryTimeout = 60
curlOpts :: [CurlOption]
curlOpts = [ CurlSSLVerifyPeer False
, CurlSSLVerifyHost 0
, CurlTimeout queryTimeout
, CurlConnectTimeout connTimeout
]
getUrl url = do
(code, !body) <- curlGetString url curlOpts
return (case code of
CurlOK -> return body
_ -> fail $ printf "Curl error for '%s', error %s"
url (show code))
ioErrToResult :: IO a -> IO (Result a)
ioErrToResult ioaction =
Control.Exception.catch (liftM Ok ioaction)
(\e -> return . Bad . show $ (e::IOException))
formatHost :: String -> String
formatHost master =
if ':' `elem` master
then master
else "https://" ++ master ++ ":" ++ show C.defaultRapiPort
getInstances :: NameAssoc
-> String
-> Result [(String, Instance.Instance)]
getInstances ktn body =
loadJSArray "Parsing instance data" body >>=
mapM (parseInstance ktn . fromJSObject)
getNodes :: NameAssoc -> String -> Result [(String, Node.Node)]
getNodes ktg body = loadJSArray "Parsing node data" body >>=
mapM (parseNode ktg . fromJSObject)
getGroups :: String -> Result [(String, Group.Group)]
getGroups body = loadJSArray "Parsing group data" body >>=
mapM (parseGroup . fromJSObject)
parseInstance :: NameAssoc
-> JSRecord
-> Result (String, Instance.Instance)
parseInstance ktn a = do
name <- tryFromObj "Parsing new instance" a "name"
let owner_name = "Instance '" ++ name ++ "', error while parsing data"
let extract s x = tryFromObj owner_name x s
disk <- extract "disk_usage" a
dsizes <- extract "disk.sizes" a
dspindles <- tryArrayMaybeFromObj owner_name a "disk.spindles"
beparams <- liftM fromJSObject (extract "beparams" a)
omem <- extract "oper_ram" a
mem <- case omem of
JSRational _ _ -> annotateResult owner_name (fromJVal omem)
_ -> extract "memory" beparams `mplus` extract "maxmem" beparams
vcpus <- extract "vcpus" beparams
pnode <- extract "pnode" a >>= lookupNode ktn name
snodes <- extract "snodes" a
snode <- case snodes of
[] -> return Node.noSecondary
x:_ -> readEitherString x >>= lookupNode ktn name
running <- extract "status" a
tags <- extract "tags" a
auto_balance <- extract "auto_balance" beparams
dt <- extract "disk_template" a
su <- extract "spindle_use" beparams
let disks = zipWith Instance.Disk dsizes dspindles
let inst = Instance.create name mem disk disks vcpus running tags
auto_balance pnode snode dt su []
return (name, inst)
parseNode :: NameAssoc -> JSRecord -> Result (String, Node.Node)
parseNode ktg a = do
name <- tryFromObj "Parsing new node" a "name"
let desc = "Node '" ++ name ++ "', error while parsing data"
extract key = tryFromObj desc a key
extractDef def key = fromObjWithDefault a key def
offline <- extract "offline"
drained <- extract "drained"
vm_cap <- annotateResult desc $ maybeFromObj a "vm_capable"
let vm_cap' = fromMaybe True vm_cap
ndparams <- extract "ndparams" >>= asJSObject
excl_stor <- tryFromObj desc (fromJSObject ndparams) "exclusive_storage"
guuid <- annotateResult desc $ maybeFromObj a "group.uuid"
guuid' <- lookupGroup ktg name (fromMaybe defaultGroupID guuid)
let live = not offline && vm_cap'
lvextract def = eitherLive live def . extract
lvextractDef def = eitherLive live def . extractDef def
sptotal <- if excl_stor
then lvextract 0 "sptotal"
else tryFromObj desc (fromJSObject ndparams) "spindle_count"
spfree <- lvextractDef 0 "spfree"
mtotal <- lvextract 0.0 "mtotal"
mnode <- lvextract 0 "mnode"
mfree <- lvextract 0 "mfree"
dtotal <- lvextractDef 0.0 "dtotal"
dfree <- lvextractDef 0 "dfree"
ctotal <- lvextract 0.0 "ctotal"
cnos <- lvextract 0 "cnos"
tags <- extract "tags"
let node = flip Node.setNodeTags tags $
Node.create name mtotal mnode mfree dtotal dfree ctotal cnos
(not live || drained) sptotal spfree guuid' excl_stor
return (name, node)
parseGroup :: JSRecord -> Result (String, Group.Group)
parseGroup a = do
name <- tryFromObj "Parsing new group" a "name"
let extract s = tryFromObj ("Group '" ++ name ++ "'") a s
uuid <- extract "uuid"
apol <- extract "alloc_policy"
ipol <- extract "ipolicy"
tags <- extract "tags"
return (uuid, Group.create name uuid apol [] ipol tags)
parseCluster :: JSObject JSValue -> Result ([String], IPolicy, String)
parseCluster obj = do
let obj' = fromJSObject obj
extract s = tryFromObj "Parsing cluster data" obj' s
master <- extract "master"
tags <- extract "tags"
ipolicy <- extract "ipolicy"
return (tags, ipolicy, master)
readDataHttp :: String
-> IO (Result String, Result String, Result String, Result String)
readDataHttp master = do
let url = formatHost master
group_body <- getUrl $ printf "%s/2/groups?bulk=1" url
node_body <- getUrl $ printf "%s/2/nodes?bulk=1" url
inst_body <- getUrl $ printf "%s/2/instances?bulk=1" url
info_body <- getUrl $ printf "%s/2/info" url
return (group_body, node_body, inst_body, info_body)
readDataFile:: String
-> IO (Result String, Result String, Result String, Result String)
readDataFile path = do
group_body <- ioErrToResult . readFile $ path </> "groups.json"
node_body <- ioErrToResult . readFile $ path </> "nodes.json"
inst_body <- ioErrToResult . readFile $ path </> "instances.json"
info_body <- ioErrToResult . readFile $ path </> "info.json"
return (group_body, node_body, inst_body, info_body)
readData :: String
-> IO (Result String, Result String, Result String, Result String)
readData url =
if filePrefix `isPrefixOf` url
then readDataFile (drop (length filePrefix) url)
else readDataHttp url
parseData :: (Result String, Result String, Result String, Result String)
-> Result ClusterData
parseData (group_body, node_body, inst_body, info_body) = do
group_data <- group_body >>= getGroups
let (group_names, group_idx) = assignIndices group_data
node_data <- node_body >>= getNodes group_names
let (node_names, node_idx) = assignIndices node_data
inst_data <- inst_body >>= getInstances node_names
let (_, inst_idx) = assignIndices inst_data
(tags, ipolicy, master) <-
info_body >>=
(fromJResult "Parsing cluster info" . decodeStrict) >>=
parseCluster
node_idx' <- setMaster node_names node_idx master
return (ClusterData group_idx node_idx' inst_idx tags ipolicy)
loadData :: String
-> IO (Result ClusterData)
loadData = fmap parseData . readData