graphql-engine/server/src-lib/Hasura/Backends/MSSQL/Instances/Schema.hs
Antoine Leblanc 1a4aad4ba1 server: introduce option to revert to v1 boolean collapse behaviour
GitOrigin-RevId: af6c944270301d8b17618a706ab328a28c0e51dc
2021-04-08 08:26:18 +00:00

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{-# OPTIONS_GHC -fno-warn-orphans #-}
module Hasura.Backends.MSSQL.Instances.Schema () where
import Hasura.Prelude
import qualified Data.HashMap.Strict as Map
import qualified Data.List.NonEmpty as NE
import qualified Database.ODBC.SQLServer as ODBC
import qualified Language.GraphQL.Draft.Syntax as G
import Data.Has
import Data.Text.Encoding (encodeUtf8)
import Data.Text.Extended
import qualified Hasura.Backends.MSSQL.Types as MSSQL
import qualified Hasura.GraphQL.Parser as P
import qualified Hasura.GraphQL.Schema.Build as GSB
import qualified Hasura.RQL.IR.Select as IR
import qualified Hasura.RQL.IR.Update as IR
import Hasura.GraphQL.Context
import Hasura.GraphQL.Parser hiding (EnumValueInfo, field)
import Hasura.GraphQL.Parser.Internal.Parser hiding (field)
import Hasura.GraphQL.Schema.Backend
import Hasura.GraphQL.Schema.BoolExp
import Hasura.GraphQL.Schema.Common
import Hasura.RQL.Types
----------------------------------------------------------------
-- BackendSchema instance
instance BackendSchema 'MSSQL where
-- top level parsers
buildTableQueryFields = GSB.buildTableQueryFields
buildTableRelayQueryFields = msBuildTableRelayQueryFields
buildTableInsertMutationFields = msBuildTableInsertMutationFields
buildTableUpdateMutationFields = msBuildTableUpdateMutationFields
buildTableDeleteMutationFields = msBuildTableDeleteMutationFields
buildFunctionQueryFields = msBuildFunctionQueryFields
buildFunctionRelayQueryFields = msBuildFunctionRelayQueryFields
buildFunctionMutationFields = msBuildFunctionMutationFields
-- backend extensions
relayExtension = const Nothing
nodesAggExtension = const Nothing
-- indivdual components
columnParser = msColumnParser
jsonPathArg = msJsonPathArg
orderByOperators = msOrderByOperators
comparisonExps = msComparisonExps
updateOperators = msUpdateOperators
offsetParser = msOffsetParser
mkCountType = msMkCountType
aggregateOrderByCountType = MSSQL.IntegerType
computedField = msComputedField
node = msNode
tableDistinctOn = msTableDistinctOn
remoteRelationshipField = msRemoteRelationshipField
-- SQL literals
columnDefaultValue = msColumnDefaultValue
----------------------------------------------------------------
-- Top level parsers
msBuildTableRelayQueryFields
:: MonadBuildSchema 'MSSQL r m n
=> SourceName
-> SourceConfig 'MSSQL
-> TableName 'MSSQL
-> TableInfo 'MSSQL
-> G.Name
-> NESeq (ColumnInfo 'MSSQL)
-> SelPermInfo 'MSSQL
-> m (Maybe (FieldParser n (QueryRootField UnpreparedValue)))
msBuildTableRelayQueryFields _sourceName _sourceInfo _tableName _tableInfo _gqlName _pkeyColumns _selPerms =
pure Nothing
msBuildTableInsertMutationFields
:: MonadBuildSchema 'MSSQL r m n
=> SourceName
-> SourceConfig 'MSSQL
-> TableName 'MSSQL
-> TableInfo 'MSSQL
-> G.Name
-> InsPermInfo 'MSSQL
-> Maybe (SelPermInfo 'MSSQL)
-> Maybe (UpdPermInfo 'MSSQL)
-> m [FieldParser n (MutationRootField UnpreparedValue)]
msBuildTableInsertMutationFields _sourceName _sourceInfo _tableName _tableInfo _gqlName _insPerms _selPerms _updPerms =
pure []
msBuildTableUpdateMutationFields
:: MonadBuildSchema 'MSSQL r m n
=> SourceName
-> SourceConfig 'MSSQL
-> TableName 'MSSQL
-> TableInfo 'MSSQL
-> G.Name
-> UpdPermInfo 'MSSQL
-> Maybe (SelPermInfo 'MSSQL)
-> m [FieldParser n (MutationRootField UnpreparedValue)]
msBuildTableUpdateMutationFields _sourceName _sourceInfo _tableName _tableInfo _gqlName _updPerns _selPerms =
pure []
msBuildTableDeleteMutationFields
:: MonadBuildSchema 'MSSQL r m n
=> SourceName
-> SourceConfig 'MSSQL
-> TableName 'MSSQL
-> TableInfo 'MSSQL
-> G.Name
-> DelPermInfo 'MSSQL
-> Maybe (SelPermInfo 'MSSQL)
-> m [FieldParser n (MutationRootField UnpreparedValue)]
msBuildTableDeleteMutationFields _sourceName _sourceInfo _tableName _tableInfo _gqlName _delPerns _selPerms =
pure []
msBuildFunctionQueryFields
:: MonadBuildSchema 'MSSQL r m n
=> SourceName
-> SourceConfig 'MSSQL
-> FunctionName 'MSSQL
-> FunctionInfo 'MSSQL
-> TableName 'MSSQL
-> SelPermInfo 'MSSQL
-> m [FieldParser n (QueryRootField UnpreparedValue)]
msBuildFunctionQueryFields _ _ _ _ _ _ =
pure []
msBuildFunctionRelayQueryFields
:: MonadBuildSchema 'MSSQL r m n
=> SourceName
-> SourceConfig 'MSSQL
-> FunctionName 'MSSQL
-> FunctionInfo 'MSSQL
-> TableName 'MSSQL
-> NESeq (ColumnInfo 'MSSQL)
-> SelPermInfo 'MSSQL
-> m (Maybe (FieldParser n (QueryRootField UnpreparedValue)))
msBuildFunctionRelayQueryFields _sourceName _sourceInfo _functionName _functionInfo _tableName _pkeyColumns _selPerms =
pure Nothing
msBuildFunctionMutationFields
:: MonadBuildSchema 'MSSQL r m n
=> SourceName
-> SourceConfig 'MSSQL
-> FunctionName 'MSSQL
-> FunctionInfo 'MSSQL
-> TableName 'MSSQL
-> SelPermInfo 'MSSQL
-> m [FieldParser n (MutationRootField UnpreparedValue)]
msBuildFunctionMutationFields _ _ _ _ _ _ =
pure []
mkMSSQLScalarTypeName :: MonadError QErr m => MSSQL.ScalarType -> m G.Name
mkMSSQLScalarTypeName = \case
MSSQL.WcharType -> pure stringScalar
MSSQL.WvarcharType -> pure stringScalar
MSSQL.WtextType -> pure stringScalar
MSSQL.FloatType -> pure floatScalar
-- integer types
MSSQL.IntegerType -> pure intScalar
-- boolean type
MSSQL.BitType -> pure boolScalar
scalarType -> G.mkName (MSSQL.scalarTypeDBName scalarType) `onNothing` throw400 ValidationFailed
("cannot use SQL type " <> scalarType <<> " in the GraphQL schema because its name is not a "
<> "valid GraphQL identifier")
----------------------------------------------------------------
-- Individual components
msColumnParser
:: (MonadSchema n m, MonadError QErr m)
=> ColumnType 'MSSQL
-> G.Nullability
-> m (Parser 'Both n (Opaque (ColumnValue 'MSSQL)))
msColumnParser columnType (G.Nullability isNullable) =
opaque . fmap (ColumnValue columnType) <$> case columnType of
ColumnScalar scalarType -> possiblyNullable scalarType <$> case scalarType of
-- bytestring
MSSQL.CharType -> pure $ ODBC.ByteStringValue . encodeUtf8 <$> P.string
MSSQL.VarcharType -> pure $ ODBC.ByteStringValue . encodeUtf8 <$> P.string
-- text
MSSQL.WcharType -> pure $ ODBC.TextValue <$> P.string
MSSQL.WvarcharType -> pure $ ODBC.TextValue <$> P.string
MSSQL.WtextType -> pure $ ODBC.TextValue <$> P.string
MSSQL.TextType -> pure $ ODBC.TextValue <$> P.string
-- integer
MSSQL.IntegerType -> pure $ ODBC.IntValue . fromIntegral <$> P.int
MSSQL.SmallintType -> pure $ ODBC.IntValue . fromIntegral <$> P.int
MSSQL.BigintType -> pure $ ODBC.IntValue . fromIntegral <$> P.int
MSSQL.TinyintType -> pure $ ODBC.IntValue . fromIntegral <$> P.int
-- float
MSSQL.NumericType -> pure $ ODBC.DoubleValue <$> P.float
MSSQL.DecimalType -> pure $ ODBC.DoubleValue <$> P.float
MSSQL.FloatType -> pure $ ODBC.DoubleValue <$> P.float
MSSQL.RealType -> pure $ ODBC.DoubleValue <$> P.float
-- boolean
MSSQL.BitType -> pure $ ODBC.BoolValue <$> P.boolean
_ -> do
name <- mkMSSQLScalarTypeName scalarType
let schemaType = P.NonNullable $ P.TNamed $ P.mkDefinition name Nothing P.TIScalar
pure $ Parser
{ pType = schemaType
, pParser =
valueToJSON (P.toGraphQLType schemaType) >=>
either (parseErrorWith ParseFailed . qeError) pure . (MSSQL.parseScalarValue scalarType)
}
ColumnEnumReference (EnumReference tableName enumValues) ->
case nonEmpty (Map.toList enumValues) of
Just enumValuesList -> do
tableGQLName <- tableGraphQLName tableName `onLeft` throwError
let enumName = tableGQLName <> $$(G.litName "_enum")
pure $ possiblyNullable MSSQL.VarcharType $ P.enum enumName Nothing (mkEnumValue <$> enumValuesList)
Nothing -> throw400 ValidationFailed "empty enum values"
where
-- Sadly, this combinator is not sound in general, so we cant export it
-- for general-purpose use. If we did, someone could write this:
--
-- mkParameter <$> opaque do
-- n <- int
-- pure (mkIntColumnValue (n + 1))
--
-- Now wed end up with a UVParameter that has a variable in it, so wed
-- parameterize over it. But when wed reuse the plan, we wouldnt know to
-- increment the value by 1, so wed use the wrong value!
--
-- We could theoretically solve this by retaining a reference to the parser
-- itself and re-parsing each new value, using the saved parser, which
-- would admittedly be neat. But its more complicated, and it isnt clear
-- that it would actually be useful, so for now we dont support it.
opaque :: MonadParse m => Parser 'Both m a -> Parser 'Both m (Opaque a)
opaque parser = parser
{ pParser = \case
P.GraphQLValue (G.VVariable var@Variable{ vInfo, vValue }) -> do
typeCheck False (P.toGraphQLType $ pType parser) var
P.mkOpaque (Just vInfo) <$> pParser parser (absurd <$> vValue)
value -> P.mkOpaque Nothing <$> pParser parser value
}
possiblyNullable _scalarType
| isNullable = fmap (fromMaybe ODBC.NullValue) . P.nullable
| otherwise = id
mkEnumValue :: (EnumValue, EnumValueInfo) -> (P.Definition P.EnumValueInfo, ScalarValue 'MSSQL)
mkEnumValue (EnumValue value, EnumValueInfo description) =
( P.mkDefinition value (G.Description <$> description) P.EnumValueInfo
, ODBC.TextValue $ G.unName value
)
msJsonPathArg
:: MonadParse n
=> ColumnType 'MSSQL
-> InputFieldsParser n (Maybe (IR.ColumnOp 'MSSQL))
msJsonPathArg _columnType = pure Nothing
msOrderByOperators
:: NonEmpty
( Definition P.EnumValueInfo
, (BasicOrderType 'MSSQL, NullsOrderType 'MSSQL)
)
msOrderByOperators = NE.fromList
[ ( define $$(G.litName "asc") "in ascending order, nulls first"
, (MSSQL.AscOrder, MSSQL.NullsFirst)
)
, ( define $$(G.litName "asc_nulls_first") "in ascending order, nulls first"
, (MSSQL.AscOrder, MSSQL.NullsFirst)
)
, ( define $$(G.litName "asc_nulls_last") "in ascending order, nulls last"
, (MSSQL.AscOrder, MSSQL.NullsLast)
)
, ( define $$(G.litName "desc") "in descending order, nulls last"
, (MSSQL.DescOrder, MSSQL.NullsLast)
)
, ( define $$(G.litName "desc_nulls_first") "in descending order, nulls first"
, (MSSQL.DescOrder, MSSQL.NullsFirst)
)
, ( define $$(G.litName "desc_nulls_last") "in descending order, nulls last"
, (MSSQL.DescOrder, MSSQL.NullsLast)
)
]
where
define name desc = P.mkDefinition name (Just desc) P.EnumValueInfo
msComparisonExps
:: forall m n r
. ( BackendSchema 'MSSQL
, MonadSchema n m
, MonadError QErr m
, MonadReader r m
, Has QueryContext r
)
=> ColumnType 'MSSQL
-> m (Parser 'Input n [ComparisonExp 'MSSQL])
msComparisonExps = P.memoize 'comparisonExps \columnType -> do
-- see Note [Columns in comparison expression are never nullable]
collapseIfNull <- asks $ qcDangerousBooleanCollapse . getter
-- parsers used for individual values
typedParser <- columnParser columnType (G.Nullability False)
nullableTextParser <- columnParser (ColumnScalar MSSQL.VarcharType) (G.Nullability True)
textParser <- columnParser (ColumnScalar MSSQL.VarcharType) (G.Nullability False)
let
columnListParser = P.list typedParser `P.bind` traverse P.openOpaque
textListParser = P.list textParser `P.bind` traverse P.openOpaque
-- field info
let
name = P.getName typedParser <> $$(G.litName "_MSSQL_comparison_exp")
desc = G.Description $ "Boolean expression to compare columns of type "
<> P.getName typedParser
<<> ". All fields are combined with logical 'AND'."
pure $ P.object name (Just desc) $ fmap catMaybes $ sequenceA $ concat
[
-- Common ops for all types
equalityOperators
collapseIfNull
(mkParameter <$> typedParser)
(mkListLiteral <$> columnListParser)
, comparisonOperators
collapseIfNull
(mkParameter <$> typedParser)
-- Ops for String like types
, guard (isScalarColumnWhere (`elem` MSSQL.stringTypes) columnType) *>
[ P.fieldOptional $$(G.litName "_like")
(Just "does the column match the given pattern")
(ALIKE . mkParameter <$> typedParser)
, P.fieldOptional $$(G.litName "_nlike")
(Just "does the column NOT match the given pattern")
(ANLIKE . mkParameter <$> typedParser)
]
-- Ops for Geometry/Geography types
, guard (isScalarColumnWhere (`elem` MSSQL.geoTypes) columnType) *>
[ P.fieldOptional $$(G.litName "_st_contains")
(Just "does the column contain the given value")
(ABackendSpecific . MSSQL.ASTContains . mkParameter <$> typedParser)
, P.fieldOptional $$(G.litName "_st_equals")
(Just "is the column equal to given value (directionality is ignored)")
(ABackendSpecific . MSSQL.ASTEquals . mkParameter <$> typedParser)
, P.fieldOptional $$(G.litName "_st_intersects")
(Just "does the column spatially intersect the given value")
(ABackendSpecific . MSSQL.ASTIntersects . mkParameter <$> typedParser)
, P.fieldOptional $$(G.litName "_st_overlaps")
(Just "does the column 'spatially overlap' (intersect but not completely contain) the given value")
(ABackendSpecific . MSSQL.ASTOverlaps . mkParameter <$> typedParser)
, P.fieldOptional $$(G.litName "_st_within")
(Just "is the column contained in the given value")
(ABackendSpecific . MSSQL.ASTWithin . mkParameter <$> typedParser)
]
-- Ops for Geometry types
, guard (isScalarColumnWhere (MSSQL.GeometryType ==) columnType) *>
[ P.fieldOptional $$(G.litName "_st_crosses")
(Just "does the column cross the given geometry value")
(ABackendSpecific . MSSQL.ASTCrosses . mkParameter <$> typedParser)
, P.fieldOptional $$(G.litName "_st_touches")
(Just "does the column have at least one point in common with the given geometry value")
(ABackendSpecific . MSSQL.ASTTouches . mkParameter <$> typedParser)
]
]
where
mkListLiteral :: [ColumnValue 'MSSQL] -> UnpreparedValue 'MSSQL
mkListLiteral =
P.UVLiteral . MSSQL.ListExpression . fmap (MSSQL.ValueExpression . cvValue)
msOffsetParser :: MonadParse n => Parser 'Both n (SQLExpression 'MSSQL)
msOffsetParser = MSSQL.ValueExpression . ODBC.IntValue . fromIntegral <$> P.int
msMkCountType
:: Maybe Bool
-- ^ distinct values
-> Maybe [Column 'MSSQL]
-> CountType 'MSSQL
msMkCountType _ Nothing = MSSQL.StarCountable
msMkCountType (Just True) (Just cols) =
maybe MSSQL.StarCountable MSSQL.DistinctCountable $ nonEmpty cols
msMkCountType _ (Just cols) =
maybe MSSQL.StarCountable MSSQL.NonNullFieldCountable $ nonEmpty cols
-- | Argument to distinct select on columns returned from table selection
-- > distinct_on: [table_select_column!]
msTableDistinctOn
-- :: forall m n. (BackendSchema 'MSSQL, MonadSchema n m, MonadTableInfo r m, MonadRole r m)
:: Applicative m
=> Applicative n
=> TableName 'MSSQL
-> SelPermInfo 'MSSQL
-> m (InputFieldsParser n (Maybe (XDistinct 'MSSQL, NonEmpty (Column 'MSSQL))))
msTableDistinctOn _table _selectPermissions = pure (pure Nothing)
-- | Various update operators
msUpdateOperators
-- :: forall m n r. (MonadSchema n m, MonadTableInfo r m)
:: Applicative m
=> TableName 'MSSQL -- ^ qualified name of the table
-> UpdPermInfo 'MSSQL -- ^ update permissions of the table
-> m (Maybe (InputFieldsParser n [(Column 'MSSQL, IR.UpdOpExpG (UnpreparedValue 'MSSQL))]))
msUpdateOperators _table _updatePermissions = pure Nothing
-- | Computed field parser.
-- Currently unsupported: returns Nothing for now.
msComputedField
:: MonadBuildSchema 'MSSQL r m n
=> ComputedFieldInfo 'MSSQL
-> SelPermInfo 'MSSQL
-> m (Maybe (FieldParser n (AnnotatedField 'MSSQL)))
msComputedField _fieldInfo _selectPemissions = pure Nothing
-- | Remote join field parser.
-- Currently unsupported: returns Nothing for now.
msRemoteRelationshipField
:: MonadBuildSchema 'MSSQL r m n
=> RemoteFieldInfo 'MSSQL
-> m (Maybe [FieldParser n (AnnotatedField 'MSSQL)])
msRemoteRelationshipField _remoteFieldInfo = pure Nothing
-- | The 'node' root field of a Relay request. Relay is currently unsupported on MSSQL,
-- meaning this parser will never be called: any attempt to create this parser should
-- therefore fail.
msNode
:: MonadBuildSchema 'MSSQL r m n
=> m ( Parser 'Output n
( HashMap
( TableName 'MSSQL)
( SourceName, SourceConfig 'MSSQL
, SelPermInfo 'MSSQL
, PrimaryKeyColumns 'MSSQL
, AnnotatedFields 'MSSQL
)
)
)
msNode = throw500 "MSSQL does not support relay; `node` should never be exposed in the schema."
----------------------------------------------------------------
-- SQL literals
-- FIXME: this is nonsensical for MSSQL, we'll need to adjust the corresponding mutation
-- and its representation.
msColumnDefaultValue :: Column 'MSSQL -> SQLExpression 'MSSQL
msColumnDefaultValue = const $ MSSQL.ValueExpression ODBC.NullValue