{-# LANGUAGE TypeSynonymInstances, FlexibleInstances, TupleSections,
             GeneralizedNewtypeDeriving, DeriveTraversable #-}
{-# OPTIONS_GHC -fno-warn-orphans #-}

{-| JSON utility functions. -}

{-

Copyright (C) 2009, 2010, 2011, 2012, 2013 Google Inc.
All rights reserved.

Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are
met:

1. Redistributions of source code must retain the above copyright notice,
this list of conditions and the following disclaimer.

2. Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.

THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR
CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

-}

module Ganeti.JSON
  ( fromJResult
  , fromJResultE
  , readJSONWithDesc
  , readEitherString
  , JSRecord
  , loadJSArray
  , fromObj
  , maybeFromObj
  , fromObjWithDefault
  , fromKeyValue
  , fromJVal
  , fromJValE
  , jsonHead
  , getMaybeJsonHead
  , getMaybeJsonElem
  , asJSObject
  , asObjectList
  , tryFromObj
  , arrayMaybeFromJVal
  , tryArrayMaybeFromObj
  , toArray
  , optionalJSField
  , optFieldsToObj
  , containerFromList
  , lookupContainer
  , alterContainerL
  , readContainer
  , mkUsedKeys
  , allUsedKeys
  , DictObject(..)
  , showJSONtoDict
  , readJSONfromDict
  , ArrayObject(..)
  , HasStringRepr(..)
  , GenericContainer(..)
  , emptyContainer
  , Container
  , MaybeForJSON(..)
  , TimeAsDoubleJSON(..)
  , Tuple5(..)
  , nestedAccessByKey
  , nestedAccessByKeyDotted
  , branchOnField
  , addField
  , maybeParseMap
  )
  where

import Control.Applicative
import Control.DeepSeq
import Control.Monad.Error.Class
import Control.Monad.Fail (MonadFail)
import Control.Monad.Writer
import qualified Data.ByteString as BS
import qualified Data.ByteString.UTF8 as UTF8
import qualified Data.Foldable as F
import qualified Data.Text as T
import qualified Data.Traversable as F
import Data.Maybe (fromMaybe, catMaybes)
import qualified Data.Map as Map
import qualified Data.Set as Set
import qualified Data.Semigroup as Sem
import System.Time (ClockTime(..))
import Text.Printf (printf)

import qualified Text.JSON as J
import qualified Text.JSON.Types as JT
import Text.JSON.Pretty (pp_value)

-- Note: this module should not import any Ganeti-specific modules
-- beside BasicTypes and Compact, since it's used in THH which is used
-- itself to build many other modules.

import Ganeti.BasicTypes
import Ganeti.Compat

-- Remove after we require >= 1.8.58
-- See: https://github.com/ndmitchell/hlint/issues/24
{-# ANN module "HLint: ignore Unused LANGUAGE pragma" #-}

-- * JSON-related functions

instance NFData J.JSValue where
  rnf J.JSNull           = ()
  rnf (J.JSBool b)       = rnf b
  rnf (J.JSRational b r) = rnf b `seq` rnf r
  rnf (J.JSString s)     = rnf $ J.fromJSString s
  rnf (J.JSArray a)      = rnf a
  rnf (J.JSObject o)     = rnf o

instance (NFData a) => NFData (J.JSObject a) where
  rnf = rnf . J.fromJSObject

-- | A type alias for a field of a JSRecord.
type JSField = (String, J.JSValue)

-- | A type alias for the list-based representation of J.JSObject.
type JSRecord = [JSField]

-- | Annotate @readJSON@ error messages with descriptions of what
-- is being parsed into what.
readJSONWithDesc :: (J.JSON a)
                 => String                    -- ^ description of @a@
                 -> J.JSValue                 -- ^ input value
                 -> J.Result a
readJSONWithDesc name input =
  case J.readJSON input of
    J.Ok r    -> J.Ok r
    J.Error e -> J.Error $ "Can't parse value for '" ++ name ++ "': " ++ e

-- | Converts a JSON Result into a monadic value.
fromJResult :: (Monad m, MonadFail m) => String -> J.Result a -> m a
fromJResult s (J.Error x) = fail (s ++ ": " ++ x)
fromJResult _ (J.Ok x) = return x

-- | Converts a JSON Result into a MonadError value.
fromJResultE :: (Error e, MonadError e m) => String -> J.Result a -> m a
fromJResultE s (J.Error x) = throwError . strMsg $ s ++ ": " ++ x
fromJResultE _ (J.Ok x) = return x

-- | Tries to read a string from a JSON value.
--
-- In case the value was not a string, we fail the read (in the
-- context of the current monad.
readEitherString :: (MonadFail m) => J.JSValue -> m String
readEitherString v =
  case v of
    J.JSString s -> return $ J.fromJSString s
    _ -> fail "Wrong JSON type"

-- | Converts a JSON message into an array of JSON objects.
loadJSArray :: MonadFail m
               => String -- ^ Operation description (for error reporting)
               -> String -- ^ Input message
               -> m [J.JSObject J.JSValue]
loadJSArray s = fromJResult s . J.decodeStrict

-- | Helper function for missing-key errors
buildNoKeyError :: JSRecord -> String -> String
buildNoKeyError o k =
  printf "key '%s' not found, object contains only %s" k (show (map fst o))

-- | Reads the value of a key in a JSON object.
fromObj :: (J.JSON a, MonadFail m) => JSRecord -> String -> m a
fromObj o k =
  case lookup k o of
    Nothing -> fail $ buildNoKeyError o k
    Just val -> fromKeyValue k val

-- | Reads the value of an optional key in a JSON object. Missing
-- keys, or keys that have a \'null\' value, will be returned as
-- 'Nothing', otherwise we attempt deserialisation and return a 'Just'
-- value.
maybeFromObj :: (J.JSON a, MonadFail m) =>
                JSRecord -> String -> m (Maybe a)
maybeFromObj o k =
  case lookup k o of
    Nothing -> return Nothing
    -- a optional key with value JSNull is the same as missing, since
    -- we can't convert it meaningfully anyway to a Haskell type, and
    -- the Python code can emit 'null' for optional values (depending
    -- on usage), and finally our encoding rules treat 'null' values
    -- as 'missing'
    Just J.JSNull -> return Nothing
    Just val -> liftM Just (fromKeyValue k val)

-- | Reads the value of a key in a JSON object with a default if
-- missing. Note that both missing keys and keys with value \'null\'
-- will cause the default value to be returned.
fromObjWithDefault :: (J.JSON a, MonadFail m) =>
                      JSRecord -> String -> a -> m a
fromObjWithDefault o k d = liftM (fromMaybe d) $ maybeFromObj o k

arrayMaybeFromJVal :: (J.JSON a, Monad m, MonadFail m) =>
  J.JSValue -> m [Maybe a]
arrayMaybeFromJVal (J.JSArray xs) =
  mapM parse xs
    where
      parse J.JSNull = return Nothing
      parse x = liftM Just $ fromJVal x
arrayMaybeFromJVal v =
  fail $ "Expecting array, got '" ++ show (pp_value v) ++ "'"

-- | Reads an array of optional items
arrayMaybeFromObj :: (J.JSON a, MonadFail m) =>
                     JSRecord -> String -> m [Maybe a]
arrayMaybeFromObj o k =
  case lookup k o of
    Just a -> arrayMaybeFromJVal a
    _ -> fail $ buildNoKeyError o k

-- | Wrapper for arrayMaybeFromObj with better diagnostic
tryArrayMaybeFromObj :: (J.JSON a)
                     => String     -- ^ Textual "owner" in error messages
                     -> JSRecord   -- ^ The object array
                     -> String     -- ^ The desired key from the object
                     -> Result [Maybe a]
tryArrayMaybeFromObj t o = annotateResult t . arrayMaybeFromObj o

-- | Reads a JValue, that originated from an object key.
fromKeyValue :: (J.JSON a, MonadFail m)
              => String     -- ^ The key name
              -> J.JSValue  -- ^ The value to read
              -> m a
fromKeyValue k val =
  fromJResult (printf "key '%s'" k) (J.readJSON val)

-- | Small wrapper over readJSON.
fromJVal :: (Monad m, MonadFail m, J.JSON a) => J.JSValue -> m a
fromJVal v =
  case J.readJSON v of
    J.Error s -> fail ("Cannot convert value '" ++ show (pp_value v) ++
                       "', error: " ++ s)
    J.Ok x -> return x

-- | Small wrapper over 'readJSON' for 'MonadError'.
fromJValE :: (Error e, MonadError e m, J.JSON a) => J.JSValue -> m a
fromJValE v =
  case J.readJSON v of
    J.Error s -> throwError . strMsg $
                  "Cannot convert value '" ++ show (pp_value v) ++
                  "', error: " ++ s
    J.Ok x -> return x

-- | Helper function that returns Null or first element of the list.
jsonHead :: (J.JSON b) => [a] -> (a -> b) -> J.JSValue
jsonHead [] _ = J.JSNull
jsonHead (x:_) f = J.showJSON $ f x

-- | Helper for extracting Maybe values from a possibly empty list.
getMaybeJsonHead :: (J.JSON b) => [a] -> (a -> Maybe b) -> J.JSValue
getMaybeJsonHead [] _ = J.JSNull
getMaybeJsonHead (x:_) f = maybe J.JSNull J.showJSON (f x)

-- | Helper for extracting Maybe values from a list that might be too short.
getMaybeJsonElem :: (J.JSON b) => [a] -> Int -> (a -> Maybe b) -> J.JSValue
getMaybeJsonElem [] _ _ = J.JSNull
getMaybeJsonElem xs 0 f = getMaybeJsonHead xs f
getMaybeJsonElem (_:xs) n f
  | n < 0 = J.JSNull
  | otherwise = getMaybeJsonElem xs (n - 1) f

-- | Converts a JSON value into a JSON object.
asJSObject :: (Monad m, MonadFail m) => J.JSValue -> m (J.JSObject J.JSValue)
asJSObject (J.JSObject a) = return a
asJSObject _ = fail "not an object"

-- | Coneverts a list of JSON values into a list of JSON objects.
asObjectList :: (Monad m, MonadFail m) =>
  [J.JSValue] -> m [J.JSObject J.JSValue]
asObjectList = mapM asJSObject

-- | Try to extract a key from an object with better error reporting
-- than fromObj.
tryFromObj :: (J.JSON a) =>
              String     -- ^ Textual "owner" in error messages
           -> JSRecord   -- ^ The object array
           -> String     -- ^ The desired key from the object
           -> Result a
tryFromObj t o = annotateResult t . fromObj o

-- | Ensure a given JSValue is actually a JSArray.
toArray :: (Monad m, MonadFail m) => J.JSValue -> m [J.JSValue]
toArray (J.JSArray arr) = return arr
toArray o =
  fail $ "Invalid input, expected array but got " ++ show (pp_value o)

-- | Creates a Maybe JSField. If the value string is Nothing, the JSField
-- will be Nothing as well.
optionalJSField :: (J.JSON a) => String -> Maybe a -> Maybe JSField
optionalJSField name (Just value) = Just (name, J.showJSON value)
optionalJSField _ Nothing = Nothing

-- | Creates an object with all the non-Nothing fields of the given list.
optFieldsToObj :: [Maybe JSField] -> J.JSValue
optFieldsToObj = J.makeObj . catMaybes

-- * Container type (special type for JSON serialisation)

-- | Class of types that can be converted from Strings. This is
-- similar to the 'Read' class, but it's using a different
-- serialisation format, so we have to define a separate class. Mostly
-- useful for custom key types in JSON dictionaries, which have to be
-- backed by strings.
class HasStringRepr a where
  fromStringRepr :: (MonadFail m) => String -> m a
  toStringRepr :: a -> String

-- | Trivial instance 'HasStringRepr' for 'String'.
instance HasStringRepr String where
  fromStringRepr = return
  toStringRepr = id

-- | The container type, a wrapper over Data.Map
newtype GenericContainer a b =
  GenericContainer { fromContainer :: Map.Map a b }
  deriving (Show, Eq, Ord, Functor, F.Foldable, F.Traversable)

instance (NFData a, NFData b) => NFData (GenericContainer a b) where
  rnf = rnf . Map.toList . fromContainer

-- | The empty container.
emptyContainer :: GenericContainer a b
emptyContainer = GenericContainer Map.empty

-- | Type alias for string keys.
type Container = GenericContainer BS.ByteString

instance HasStringRepr BS.ByteString where
  fromStringRepr = return . UTF8.fromString
  toStringRepr = UTF8.toString

-- | Creates a GenericContainer from a list of key-value pairs.
containerFromList :: Ord a => [(a,b)] -> GenericContainer a b
containerFromList = GenericContainer . Map.fromList

-- | Looks up a value in a container with a default value.
-- If a key has no value, a given monadic default is returned.
-- This allows simple error handling, as the default can be
-- 'mzero', 'failError' etc.
lookupContainer :: (Monad m, Ord a)
                => m b -> a -> GenericContainer a b -> m b
lookupContainer dflt k = maybe dflt return . Map.lookup k . fromContainer

-- | Updates a value inside a container.
-- The signature of the function is crafted so that it can be directly
-- used as a lens.
alterContainerL :: (Functor f, Ord a)
                => a
                -> (Maybe b -> f (Maybe b))
                -> GenericContainer a b
                -> f (GenericContainer a b)
alterContainerL key f (GenericContainer m) =
  fmap (\v -> GenericContainer $ Map.alter (const v) key m)
       (f $ Map.lookup key m)

-- | Container loader.
readContainer :: (MonadFail m, HasStringRepr a, Ord a, J.JSON b) =>
                 J.JSObject J.JSValue -> m (GenericContainer a b)
readContainer obj = do
  let kjvlist = J.fromJSObject obj
  kalist <- mapM (\(k, v) -> do
                    k' <- fromStringRepr k
                    v' <- fromKeyValue k v
                    return (k', v')) kjvlist
  return $ GenericContainer (Map.fromList kalist)

{-# ANN showContainer "HLint: ignore Use ***" #-}
-- | Container dumper.
showContainer :: (HasStringRepr a, J.JSON b) =>
                 GenericContainer a b -> J.JSValue
showContainer =
  J.makeObj . map (\(k, v) -> (toStringRepr k, J.showJSON v)) .
  Map.toList . fromContainer

instance (HasStringRepr a, Ord a, J.JSON b) =>
         J.JSON (GenericContainer a b) where
  showJSON = showContainer
  readJSON (J.JSObject o) = readContainer o
  readJSON v = fail $ "Failed to load container, expected object but got "
               ++ show (pp_value v)

-- * Types that (de)serialize in a special form of JSON

newtype UsedKeys = UsedKeys (Maybe (Set.Set T.Text))

instance Sem.Semigroup UsedKeys where
  (UsedKeys xs) <> (UsedKeys ys) = UsedKeys $ liftA2 Set.union xs ys

instance Monoid UsedKeys where
  mempty = UsedKeys (Just Set.empty)
  mappend = (Sem.<>)

mkUsedKeys :: Set.Set T.Text -> UsedKeys
mkUsedKeys = UsedKeys . Just

allUsedKeys :: UsedKeys
allUsedKeys = UsedKeys Nothing

-- | Class of objects that can be converted from and to 'JSObject'
-- lists-format.
class DictObject a where
  toDict :: a -> [(String, J.JSValue)]
  fromDictWKeys :: [(String, J.JSValue)] -> WriterT UsedKeys J.Result a
  fromDict :: [(String, J.JSValue)] -> J.Result a
  fromDict = liftM fst . runWriterT . fromDictWKeys

-- | A default implementation of 'showJSON' using 'toDict'.
showJSONtoDict :: (DictObject a) => a -> J.JSValue
showJSONtoDict = J.makeObj . toDict

-- | A default implementation of 'readJSON' using 'fromDict'.
-- Checks that the input value is a JSON object and
-- converts it using 'fromDict'.
-- Also checks the input contains only the used keys returned by 'fromDict'.
readJSONfromDict :: (DictObject a)
                 => J.JSValue -> J.Result a
readJSONfromDict jsv = do
  dict <- liftM J.fromJSObject $ J.readJSON jsv

  (r, UsedKeys keys) <- runWriterT $ fromDictWKeys dict
  -- check that no superfluous dictionary keys are present
  case keys of
    Just allowedSet | not (Set.null superfluous) ->
        fail $ "Superfluous dictionary keys: "
               ++ show (Set.toAscList superfluous) ++ ", but only "
               ++ show (Set.toAscList allowedSet) ++ " allowed."
      where
        superfluous = Set.fromList (map (T.pack . fst) dict) Set.\\ allowedSet
    _ -> return ()
  return r

-- | Class of objects that can be converted from and to @[JSValue]@ with
-- a fixed length and order.
class ArrayObject a where
  toJSArray :: a -> [J.JSValue]
  fromJSArray :: [J.JSValue] -> J.Result a

-- * General purpose data types for working with JSON

-- | A Maybe newtype that allows for serialization more appropriate to the
-- semantics of Maybe and JSON in our calls. Does not produce needless
-- and confusing dictionaries.
--
-- In particular, `J.JSNull` corresponds to `Nothing`.
-- This also means that this `Maybe a` newtype should not be used with `a`
-- values that themselves can serialize to `null`.
newtype MaybeForJSON a = MaybeForJSON { unMaybeForJSON :: Maybe a }
  deriving (Show, Eq, Ord)
instance (J.JSON a) => J.JSON (MaybeForJSON a) where
  readJSON J.JSNull = return $ MaybeForJSON Nothing
  readJSON x        = (MaybeForJSON . Just) `liftM` J.readJSON x
  showJSON (MaybeForJSON (Just x)) = J.showJSON x
  showJSON (MaybeForJSON Nothing)  = J.JSNull

newtype TimeAsDoubleJSON
    = TimeAsDoubleJSON { unTimeAsDoubleJSON :: ClockTime }
  deriving (Show, Eq, Ord)
instance J.JSON TimeAsDoubleJSON where
  readJSON v = do
      t <- J.readJSON v :: J.Result Double
      return . TimeAsDoubleJSON . uncurry TOD
             $ divMod (round $ t * pico) (pico :: Integer)
    where
      pico :: (Num a) => a
      pico = 10^(12 :: Int)
  showJSON (TimeAsDoubleJSON (TOD ss ps)) = J.showJSON
      (fromIntegral ss + fromIntegral ps / 10^(12 :: Int) :: Double)

-- Text.JSON from the JSON package only has instances for tuples up to size 4.
-- We use these newtypes so that we don't get a breakage once the 'json'
-- package adds instances for larger tuples (or have to resort to CPP).

newtype Tuple5 a b c d e = Tuple5 { unTuple5 :: (a, b, c, d, e) }

instance (J.JSON a, J.JSON b, J.JSON c, J.JSON d, J.JSON e)
         => J.JSON (Tuple5 a b c d e) where
  readJSON (J.JSArray [a,b,c,d,e]) =
    Tuple5 <$> ((,,,,) <$> J.readJSON a
                       <*> J.readJSON b
                       <*> J.readJSON c
                       <*> J.readJSON d
                       <*> J.readJSON e)
  readJSON _ = fail "Unable to read Tuple5"
  showJSON (Tuple5 (a, b, c, d, e)) =
    J.JSArray
      [ J.showJSON a
      , J.showJSON b
      , J.showJSON c
      , J.showJSON d
      , J.showJSON e
      ]


-- | Look up a value in a JSON object. Accessing @["a", "b", "c"]@ on an
-- object is equivalent as accessing @myobject.a.b.c@ on a JavaScript object.
--
-- An error is returned if the object doesn't have such an accessor or if
-- any value during the nested access is not an object at all.
nestedAccessByKey :: [String] -> J.JSValue -> J.Result J.JSValue
nestedAccessByKey keys json = case keys of
  []   -> return json
  k:ks -> case json of
            J.JSObject obj -> J.valFromObj k obj >>= nestedAccessByKey ks
            _ -> J.Error $ "Cannot access non-object with key '" ++ k ++ "'"


-- | Same as `nestedAccessByKey`, but accessing with a dotted string instead
-- (like @nestedAccessByKeyDotted "a.b.c"@).
nestedAccessByKeyDotted :: String -> J.JSValue -> J.Result J.JSValue
nestedAccessByKeyDotted s =
  nestedAccessByKey (map T.unpack . T.splitOn (T.pack ".") . T.pack $ s)


-- | Branch decoding on a field in a JSON object.
branchOnField :: String -- ^ fieldname to branch on
              -> (J.JSValue -> J.Result a)
                  -- ^ decoding function if field is present and @true@; field
                  -- will already be removed in the input
              -> (J.JSValue -> J.Result a)
                 -- ^ decoding function otherwise
              -> J.JSValue -> J.Result a
branchOnField k ifTrue ifFalse (J.JSObject jobj) =
  let fields = J.fromJSObject jobj
      jobj' = J.JSObject . J.toJSObject $ filter ((/=) k . fst) fields
  in if lookup k fields == Just (J.JSBool True)
       then ifTrue jobj'
       else ifFalse jobj'
branchOnField k _ _ _ = J.Error $ "Need an object to branch on key " ++ k

-- | Add a field to a JSON object; to nothing, if the argument is not an object.
addField :: (String, J.JSValue) -> J.JSValue -> J.JSValue
addField (n,v) (J.JSObject obj) = J.JSObject $ JT.set_field obj n v
addField _ jsval = jsval

-- | Maybe obtain a map from a JSON object.
maybeParseMap :: J.JSON a => J.JSValue -> Maybe (Map.Map String a)
maybeParseMap =liftM fromContainer . readContainer <=< asJSObject