{-# OPTIONS_GHC -Wall #-}
{-# LANGUAGE DataKinds #-}
{-# LANGUAGE DeriveFunctor #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE FunctionalDependencies #-}
{-# LANGUAGE GADTs #-}
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE PackageImports #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TemplateHaskell #-}
{-# LANGUAGE UndecidableInstances #-}
module Data.Swagger.Internal.Schema.Validation where
import Prelude ()
import Prelude.Compat
import Control.Applicative
import Control.Lens
import Control.Monad (when)
import Data.Aeson hiding (Result)
import Data.Aeson.Encode.Pretty (encodePretty)
import Data.Foldable (for_, sequenceA_,
traverse_)
import Data.HashMap.Strict (HashMap)
import qualified Data.HashMap.Strict as HashMap
import qualified Data.HashMap.Strict.InsOrd as InsOrdHashMap
import qualified "unordered-containers" Data.HashSet as HashSet
import Data.Proxy
import Data.Scientific (Scientific, isInteger)
import Data.Text (Text)
import qualified Data.Text as Text
import qualified Data.Text.Lazy as TL
import qualified Data.Text.Lazy.Encoding as TL
import Data.Vector (Vector)
import qualified Data.Vector as Vector
import Data.Swagger.Declare
import Data.Swagger.Internal
import Data.Swagger.Internal.Schema
import Data.Swagger.Lens
validatePrettyToJSON :: forall a. (ToJSON a, ToSchema a) => a -> Maybe String
validatePrettyToJSON = renderValidationErrors validateToJSON
validateToJSON :: forall a. (ToJSON a, ToSchema a) => a -> [ValidationError]
validateToJSON = validateToJSONWithPatternChecker (\_pattern _str -> True)
validateToJSONWithPatternChecker :: forall a. (ToJSON a, ToSchema a) => (Pattern -> Text -> Bool) -> a -> [ValidationError]
validateToJSONWithPatternChecker checker = validateJSONWithPatternChecker checker defs sch . toJSON
where
(defs, sch) = runDeclare (declareSchema (Proxy :: Proxy a)) mempty
renderValidationErrors
:: forall a. (ToJSON a, ToSchema a)
=> (a -> [ValidationError]) -> a -> Maybe String
renderValidationErrors f x =
case f x of
[] -> Nothing
errors -> Just $ unlines
[ "Validation against the schema fails:"
, unlines (map (" * " ++) errors)
, "JSON value:"
, ppJSONString (toJSON x)
, ""
, "Swagger Schema:"
, ppJSONString (toJSON schema_)
, ""
, "Swagger Description Context:"
, ppJSONString (toJSON refs_)
]
where
ppJSONString = TL.unpack . TL.decodeUtf8 . encodePretty
(refs_, schema_) = runDeclare (declareSchema (Proxy :: Proxy a)) mempty
validateJSON :: Definitions Schema -> Schema -> Value -> [ValidationError]
validateJSON = validateJSONWithPatternChecker (\_pattern _str -> True)
validateJSONWithPatternChecker :: (Pattern -> Text -> Bool) -> Definitions Schema -> Schema -> Value -> [ValidationError]
validateJSONWithPatternChecker checker defs sch js =
case runValidation (validateWithSchema js) cfg sch of
Failed xs -> xs
Passed _ -> mempty
where
cfg = defaultConfig
{ configPatternChecker = checker
, configDefinitions = defs }
type ValidationError = String
data Result a
= Failed [ValidationError]
| Passed a
deriving (Eq, Show, Functor)
instance Applicative Result where
pure = Passed
Passed f <*> Passed x = Passed (f x)
Failed xs <*> Failed ys = Failed (xs <> ys)
Failed xs <*> _ = Failed xs
_ <*> Failed ys = Failed ys
instance Alternative Result where
empty = Failed mempty
Passed x <|> _ = Passed x
_ <|> y = y
instance Monad Result where
return = pure
Passed x >>= f = f x
Failed xs >>= _ = Failed xs
data Config = Config
{
configPatternChecker :: Pattern -> Text -> Bool
, configDefinitions :: Definitions Schema
}
defaultConfig :: Config
defaultConfig = Config
{ configPatternChecker = \_pattern _str -> True
, configDefinitions = mempty
}
newtype Validation s a = Validation { runValidation :: Config -> s -> Result a }
deriving (Functor)
instance Applicative (Validation schema) where
pure x = Validation (\_ _ -> pure x)
Validation f <*> Validation x = Validation (\c s -> f c s <*> x c s)
instance Alternative (Validation schema) where
empty = Validation (\_ _ -> empty)
Validation x <|> Validation y = Validation (\c s -> x c s <|> y c s)
instance Profunctor Validation where
dimap f g (Validation k) = Validation (\c s -> fmap g (k c (f s)))
instance Choice Validation where
left' (Validation g) = Validation (\c -> either (fmap Left . g c) (pure . Right))
right' (Validation g) = Validation (\c -> either (pure . Left) (fmap Right . g c))
instance Monad (Validation s) where
return = pure
Validation x >>= f = Validation (\c s -> x c s >>= \y -> runValidation (f y) c s)
(>>) = (*>)
withConfig :: (Config -> Validation s a) -> Validation s a
withConfig f = Validation (\c -> runValidation (f c) c)
withSchema :: (s -> Validation s a) -> Validation s a
withSchema f = Validation (\c s -> runValidation (f s) c s)
invalid :: String -> Validation schema a
invalid msg = Validation (\_ _ -> Failed [msg])
valid :: Validation schema ()
valid = pure ()
checkMissing :: Validation s () -> Lens' s (Maybe a) -> (a -> Validation s ()) -> Validation s ()
checkMissing missing l g = withSchema $ \sch ->
case sch ^. l of
Nothing -> missing
Just x -> g x
check :: Lens' s (Maybe a) -> (a -> Validation s ()) -> Validation s ()
check = checkMissing valid
sub :: t -> Validation t a -> Validation s a
sub = lmap . const
sub_ :: Getting a s a -> Validation a r -> Validation s r
sub_ = lmap . view
withRef :: Reference -> (Schema -> Validation s a) -> Validation s a
withRef (Reference ref) f = withConfig $ \cfg ->
case InsOrdHashMap.lookup ref (configDefinitions cfg) of
Nothing -> invalid $ "unknown schema " ++ show ref
Just s -> f s
validateWithSchemaRef :: Referenced Schema -> Value -> Validation s ()
validateWithSchemaRef (Ref ref) js = withRef ref $ \sch -> sub sch (validateWithSchema js)
validateWithSchemaRef (Inline s) js = sub s (validateWithSchema js)
validateWithSchema :: Value -> Validation Schema ()
validateWithSchema value = do
validateSchemaType value
sub_ paramSchema $ validateEnum value
validateWithParamSchema :: Value -> Validation (ParamSchema t) ()
validateWithParamSchema value = do
validateParamSchemaType value
validateEnum value
validateInteger :: Scientific -> Validation (ParamSchema t) ()
validateInteger n = do
when (not (isInteger n)) $
invalid ("not an integer")
validateNumber n
validateNumber :: Scientific -> Validation (ParamSchema t) ()
validateNumber n = withConfig $ \_cfg -> withSchema $ \sch -> do
let exMax = Just True == sch ^. exclusiveMaximum
exMin = Just True == sch ^. exclusiveMinimum
check maximum_ $ \m ->
when (if exMax then (n >= m) else (n > m)) $
invalid ("value " ++ show n ++ " exceeds maximum (should be " ++ if exMax then "<" else "<=" ++ show m ++ ")")
check minimum_ $ \m ->
when (if exMin then (n <= m) else (n < m)) $
invalid ("value " ++ show n ++ " falls below minimum (should be " ++ if exMin then ">" else ">=" ++ show m ++ ")")
check multipleOf $ \k ->
when (not (isInteger (n / k))) $
invalid ("expected a multiple of " ++ show k ++ " but got " ++ show n)
validateString :: Text -> Validation (ParamSchema t) ()
validateString s = do
check maxLength $ \n ->
when (len > fromInteger n) $
invalid ("string is too long (length should be <=" ++ show n ++ ")")
check minLength $ \n ->
when (len < fromInteger n) $
invalid ("string is too short (length should be >=" ++ show n ++ ")")
check pattern $ \regex -> do
withConfig $ \cfg -> do
when (not (configPatternChecker cfg regex s)) $
invalid ("string does not match pattern " ++ show regex)
where
len = Text.length s
validateArray :: Vector Value -> Validation (ParamSchema t) ()
validateArray xs = do
check maxItems $ \n ->
when (len > fromInteger n) $
invalid ("array exceeds maximum size (should be <=" ++ show n ++ ")")
check minItems $ \n ->
when (len < fromInteger n) $
invalid ("array is too short (size should be >=" ++ show n ++ ")")
check items $ \case
SwaggerItemsPrimitive _ itemSchema -> sub itemSchema $ traverse_ validateWithParamSchema xs
SwaggerItemsObject itemSchema -> traverse_ (validateWithSchemaRef itemSchema) xs
SwaggerItemsArray itemSchemas -> do
when (len /= length itemSchemas) $
invalid ("array size is invalid (should be exactly " ++ show (length itemSchemas) ++ ")")
sequenceA_ (zipWith validateWithSchemaRef itemSchemas (Vector.toList xs))
check uniqueItems $ \unique ->
when (unique && not allUnique) $
invalid ("array is expected to contain unique items, but it does not")
where
len = Vector.length xs
allUnique = len == HashSet.size (HashSet.fromList (Vector.toList xs))
validateObject :: HashMap Text Value -> Validation Schema ()
validateObject o = withSchema $ \sch ->
case sch ^. discriminator of
Just pname -> case fromJSON <$> HashMap.lookup pname o of
Just (Success ref) -> validateWithSchemaRef ref (Object o)
Just (Error msg) -> invalid ("failed to parse discriminator property " ++ show pname ++ ": " ++ show msg)
Nothing -> invalid ("discriminator property " ++ show pname ++ "is missing")
Nothing -> do
check maxProperties $ \n ->
when (size > n) $
invalid ("object size exceeds maximum (total number of properties should be <=" ++ show n ++ ")")
check minProperties $ \n ->
when (size < n) $
invalid ("object size is too small (total number of properties should be >=" ++ show n ++ ")")
validateRequired
validateProps
where
size = fromIntegral (HashMap.size o)
validateRequired = withSchema $ \sch -> traverse_ validateReq (sch ^. required)
validateReq n =
when (not (HashMap.member n o)) $
invalid ("property " ++ show n ++ " is required, but not found in " ++ show (encode o))
validateProps = withSchema $ \sch -> do
for_ (HashMap.toList o) $ \(k, v) ->
case v of
Null | not (k `elem` (sch ^. required)) -> valid
_ ->
case InsOrdHashMap.lookup k (sch ^. properties) of
Nothing -> checkMissing (unknownProperty k) additionalProperties $ validateAdditional k v
Just s -> validateWithSchemaRef s v
validateAdditional _ _ (AdditionalPropertiesAllowed True) = valid
validateAdditional k _ (AdditionalPropertiesAllowed False) = invalid $ "additionalProperties=false but extra property " <> show k <> " found"
validateAdditional _ v (AdditionalPropertiesSchema s) = validateWithSchemaRef s v
unknownProperty :: Text -> Validation s a
unknownProperty pname = invalid $
"property " <> show pname <> " is found in JSON value, but it is not mentioned in Swagger schema"
validateEnum :: Value -> Validation (ParamSchema t) ()
validateEnum value = do
check enum_ $ \xs ->
when (value `notElem` xs) $
invalid ("expected one of " ++ show (encode xs) ++ " but got " ++ show value)
inferSchemaTypes :: Schema -> [SwaggerType 'SwaggerKindSchema]
inferSchemaTypes sch = inferParamSchemaTypes (sch ^. paramSchema) ++
[ SwaggerObject | any ($ sch)
[ has (additionalProperties._Just)
, has (maxProperties._Just)
, has (minProperties._Just)
, has (properties.folded)
, has (required.folded) ] ]
inferParamSchemaTypes :: ParamSchema t -> [SwaggerType t]
inferParamSchemaTypes sch = concat
[ [ SwaggerArray | any ($ sch)
[ has (items._Just)
, has (maxItems._Just)
, has (minItems._Just)
, has (uniqueItems._Just) ] ]
, [ SwaggerInteger | any ($ sch)
[ has (exclusiveMaximum._Just)
, has (exclusiveMinimum._Just)
, has (maximum_._Just)
, has (minimum_._Just)
, has (multipleOf._Just) ] ]
, [ SwaggerString | any ($ sch)
[ has (maxLength._Just)
, has (minLength._Just)
, has (pattern._Just) ] ]
]
validateSchemaType :: Value -> Validation Schema ()
validateSchemaType value = withSchema $ \sch ->
case (sch ^. type_, value) of
(Just SwaggerNull, Null) -> valid
(Just SwaggerBoolean, Bool _) -> valid
(Just SwaggerInteger, Number n) -> sub_ paramSchema (validateInteger n)
(Just SwaggerNumber, Number n) -> sub_ paramSchema (validateNumber n)
(Just SwaggerString, String s) -> sub_ paramSchema (validateString s)
(Just SwaggerArray, Array xs) -> sub_ paramSchema (validateArray xs)
(Just SwaggerObject, Object o) -> validateObject o
(Nothing, Null) -> valid
(Nothing, Bool _) -> valid
(Nothing, Number n) -> sub_ paramSchema (validateNumber n)
(Nothing, String s) -> sub_ paramSchema (validateString s)
(Nothing, Array xs) -> sub_ paramSchema (validateArray xs)
(Nothing, Object o) -> validateObject o
bad -> invalid $ "expected JSON value of type " ++ showType bad
validateParamSchemaType :: Value -> Validation (ParamSchema t) ()
validateParamSchemaType value = withSchema $ \sch ->
case (sch ^. type_, value) of
(Just SwaggerBoolean, Bool _) -> valid
(Just SwaggerInteger, Number n) -> validateInteger n
(Just SwaggerNumber, Number n) -> validateNumber n
(Just SwaggerString, String s) -> validateString s
(Just SwaggerArray, Array xs) -> validateArray xs
(Nothing, Bool _) -> valid
(Nothing, Number n) -> validateNumber n
(Nothing, String s) -> validateString s
(Nothing, Array xs) -> validateArray xs
bad -> invalid $ "expected JSON value of type " ++ showType bad
showType :: (Maybe (SwaggerType t), Value) -> String
showType (Just ty, _) = show ty
showType (Nothing, Null) = "SwaggerNull"
showType (Nothing, Bool _) = "SwaggerBoolean"
showType (Nothing, Number _) = "SwaggerNumber"
showType (Nothing, String _) = "SwaggerString"
showType (Nothing, Array _) = "SwaggerArray"
showType (Nothing, Object _) = "SwaggerObject"