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d66abcefab
PR-URL: https://github.com/hasura/graphql-engine-mono/pull/5032 GitOrigin-RevId: 206a673f4bd59700436f6160feeb7df415f637ad
347 lines
13 KiB
Haskell
347 lines
13 KiB
Haskell
{-# LANGUAGE ApplicativeDo #-}
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{-# LANGUAGE TemplateHaskell #-}
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-- | This module provides common building blocks for composing Schema Parsers
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-- used in the schema of Update Mutations.
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module Hasura.GraphQL.Schema.Update
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( UpdateOperator (..),
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updateOperator,
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buildUpdateOperators,
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presetColumns,
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setOp,
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incOp,
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updateTable,
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updateTableByPk,
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mkUpdateObject,
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)
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where
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import Data.Has (Has (getter))
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import Data.HashMap.Strict qualified as M
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import Data.HashMap.Strict.Extended qualified as M
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import Data.List.NonEmpty qualified as NE
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import Data.Text.Extended ((<>>))
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import Hasura.Base.Error (QErr)
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import Hasura.Base.ToErrorValue
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import Hasura.GraphQL.Schema.Backend (BackendSchema (..), BackendTableSelectSchema (..), MonadBuildSchema, columnParser)
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import Hasura.GraphQL.Schema.BoolExp (boolExp)
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import Hasura.GraphQL.Schema.Common (Scenario (..), mapField, partialSQLExpToUnpreparedValue)
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import Hasura.GraphQL.Schema.Mutation (mutationSelectionSet, primaryKeysArguments)
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import Hasura.GraphQL.Schema.NamingCase
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import Hasura.GraphQL.Schema.Parser qualified as P
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import Hasura.GraphQL.Schema.Table (getTableGQLName, tableColumns, tablePermissions, tableUpdateColumns)
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import Hasura.GraphQL.Schema.Typename
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import Hasura.Prelude
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import Hasura.RQL.IR.BoolExp (AnnBoolExp, annBoolExpTrue)
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import Hasura.RQL.IR.Returning (MutationOutputG (..))
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import Hasura.RQL.IR.Root (RemoteRelationshipField)
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import Hasura.RQL.IR.Update (AnnotatedUpdateG (..))
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import Hasura.RQL.IR.Value
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import Hasura.RQL.Types.Backend (Backend (..))
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import Hasura.RQL.Types.Column (ColumnInfo (..), isNumCol)
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import Hasura.RQL.Types.Source
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import Hasura.RQL.Types.Table
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import Language.GraphQL.Draft.Syntax (Description (..), Name (..), Nullability (..), litName)
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-- | @UpdateOperator b m n op@ represents one single update operator for a
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-- backend @b@.
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--
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-- The type variable @op@ is the backend-specific data type that represents
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-- update operators, typically in the form of a sum-type with an
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-- @UnpreparedValue b@ in each constructor.
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--
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-- The @UpdateOperator b m n@ is a @Functor@. There exist building blocks of
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-- common update operators (such as 'setOp', etc.) which have @op ~
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-- UnpreparedValue b@. The Functor instance lets you wrap the generic update
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-- operators in backend-specific tags.
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data UpdateOperator b m n op = UpdateOperator
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{ updateOperatorApplicableColumn :: ColumnInfo b -> Bool,
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updateOperatorParser ::
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Name ->
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TableName b ->
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NonEmpty (ColumnInfo b) ->
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m (P.InputFieldsParser n (HashMap (Column b) op))
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}
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deriving (Functor)
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-- | The top-level component for building update operators parsers.
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--
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-- * It implements the @preset@ functionality from Update Permissions (see
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-- <https://hasura.io/docs/latest/graphql/core/auth/authorization/permission-rules.html#column-presets
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-- Permissions user docs>). Use the 'presetColumns' function to extract those from the update permissions.
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-- * It validates that that the update fields parsed are sound when taken as a
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-- whole, i.e. that some changes are actually specified (either in the
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-- mutation query text or in update preset columns) and that each column is
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-- only used in one operator.
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buildUpdateOperators ::
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forall b r m n op.
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MonadBuildSchema b r m n =>
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-- | Columns with @preset@ expressions
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(HashMap (Column b) op) ->
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-- | Update operators to include in the Schema
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[UpdateOperator b m n op] ->
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TableInfo b ->
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m (P.InputFieldsParser n (HashMap (Column b) op))
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buildUpdateOperators presetCols ops tableInfo = do
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parsers :: P.InputFieldsParser n [HashMap (Column b) op] <-
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sequenceA . catMaybes <$> traverse (runUpdateOperator tableInfo) ops
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pure $
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parsers
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`P.bindFields` ( \opExps -> do
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let withPreset = presetCols : opExps
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mergeDisjoint @b withPreset
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)
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-- | The columns that have 'preset' definitions applied to them. (see
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-- <https://hasura.io/docs/latest/graphql/core/auth/authorization/permission-rules.html#column-presets
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-- Permissions user docs>)
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presetColumns :: UpdPermInfo b -> HashMap (Column b) (UnpreparedValue b)
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presetColumns = fmap partialSQLExpToUnpreparedValue . upiSet
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-- | Produce an InputFieldsParser from an UpdateOperator, but only if the operator
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-- applies to the table (i.e., it admits a non-empty column set).
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runUpdateOperator ::
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forall b r m n op.
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MonadBuildSchema b r m n =>
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TableInfo b ->
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UpdateOperator b m n op ->
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m
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( Maybe
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( P.InputFieldsParser
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n
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(HashMap (Column b) op)
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)
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)
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runUpdateOperator tableInfo UpdateOperator {..} = do
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let tableName = tableInfoName tableInfo
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tableGQLName <- getTableGQLName tableInfo
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columns <- tableUpdateColumns tableInfo
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let applicableCols :: Maybe (NonEmpty (ColumnInfo b)) =
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nonEmpty . filter updateOperatorApplicableColumn $ columns
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(sequenceA :: Maybe (m a) -> m (Maybe a))
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(applicableCols <&> updateOperatorParser tableGQLName tableName)
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-- | Merge the results of parsed update operators. Throws an error if the same
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-- column has been specified in multiple operators.
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mergeDisjoint ::
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forall b m t.
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(Backend b, P.MonadParse m) =>
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[HashMap (Column b) t] ->
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m (HashMap (Column b) t)
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mergeDisjoint parsedResults = do
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let unioned = M.unionsAll parsedResults
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duplicates = M.keys $ M.filter (not . null . NE.tail) unioned
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unless (null duplicates) $
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P.parseError
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( "Column found in multiple operators: "
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<> toErrorValue duplicates
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<> "."
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)
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return $ M.map NE.head unioned
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-- | Construct a parser for a single update operator.
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--
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-- @updateOperator _ "op" fp MkOp ["col1","col2"]@ gives a parser that accepts
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-- objects in the shape of:
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--
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-- > op: {
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-- > col1: "x",
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-- > col2: "y"
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-- > }
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--
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-- And (morally) parses into values:
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--
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-- > M.fromList [("col1", MkOp (fp "x")), ("col2", MkOp (fp "y"))]
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updateOperator ::
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forall n r m b a.
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(P.MonadParse n, MonadReader r m, Has MkTypename r, Backend b) =>
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Name ->
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Name ->
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(ColumnInfo b -> m (P.Parser 'P.Both n a)) ->
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NonEmpty (ColumnInfo b) ->
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Description ->
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Description ->
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m (P.InputFieldsParser n (HashMap (Column b) a))
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updateOperator tableGQLName opName mkParser columns opDesc objDesc = do
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fieldParsers :: NonEmpty (P.InputFieldsParser n (Maybe (Column b, a))) <-
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for columns \columnInfo -> do
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let fieldName = ciName columnInfo
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fieldDesc = ciDescription columnInfo
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fieldParser <- mkParser columnInfo
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pure $
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P.fieldOptional fieldName fieldDesc fieldParser
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`mapField` \value -> (ciColumn columnInfo, value)
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objName <- mkTypename $ tableGQLName <> opName <> $$(litName "_input")
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pure $
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fmap (M.fromList . (fold :: Maybe [(Column b, a)] -> [(Column b, a)])) $
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P.fieldOptional opName (Just opDesc) $
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P.object objName (Just objDesc) $
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(catMaybes . toList) <$> sequenceA fieldParsers
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{-# ANN updateOperator ("HLint: ignore Use tuple-section" :: String) #-}
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setOp ::
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forall b n r m.
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( BackendSchema b,
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MonadReader r m,
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Has MkTypename r,
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Has NamingCase r,
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MonadError QErr m,
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P.MonadSchema n m
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) =>
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UpdateOperator b m n (UnpreparedValue b)
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setOp = UpdateOperator {..}
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where
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updateOperatorApplicableColumn = const True
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updateOperatorParser tableGQLName tableName columns = do
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let typedParser columnInfo =
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fmap mkParameter
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<$> columnParser
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(ciType columnInfo)
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(Nullability $ ciIsNullable columnInfo)
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updateOperator
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tableGQLName
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$$(litName "_set")
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typedParser
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columns
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"sets the columns of the filtered rows to the given values"
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(Description $ "input type for updating data in table " <>> tableName)
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incOp ::
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forall b m n r.
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( Backend b,
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MonadReader r m,
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MonadError QErr m,
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P.MonadSchema n m,
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BackendSchema b,
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Has MkTypename r,
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Has NamingCase r
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) =>
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UpdateOperator b m n (UnpreparedValue b)
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incOp = UpdateOperator {..}
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where
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updateOperatorApplicableColumn = isNumCol
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updateOperatorParser tableGQLName tableName columns = do
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let typedParser columnInfo =
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fmap mkParameter
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<$> columnParser
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(ciType columnInfo)
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(Nullability $ ciIsNullable columnInfo)
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updateOperator
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tableGQLName
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$$(litName "_inc")
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typedParser
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columns
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"increments the numeric columns with given value of the filtered values"
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(Description $ "input type for incrementing numeric columns in table " <>> tableName)
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-- | Construct a root field, normally called update_tablename, that can be used
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-- to update rows in a DB table specified by filters. Only returns a parser if
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-- there are columns the user is allowed to update; otherwise returns Nothing.
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updateTable ::
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forall b r m n.
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( MonadBuildSchema b r m n,
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BackendTableSelectSchema b
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) =>
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-- | backend-specific data needed to perform an update mutation
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P.InputFieldsParser n (BackendUpdate b (UnpreparedValue b)) ->
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Scenario ->
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-- | table source
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SourceInfo b ->
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-- | table info
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TableInfo b ->
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-- | field display name
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Name ->
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-- | field description, if any
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Maybe Description ->
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m (Maybe (P.FieldParser n (AnnotatedUpdateG b (RemoteRelationshipField UnpreparedValue) (UnpreparedValue b))))
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updateTable backendUpdate scenario sourceInfo tableInfo fieldName description = runMaybeT do
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let tableName = tableInfoName tableInfo
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columns = tableColumns tableInfo
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whereName = $$(litName "where")
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whereDesc = "filter the rows which have to be updated"
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viewInfo = _tciViewInfo $ _tiCoreInfo tableInfo
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guard $ isMutable viIsUpdatable viewInfo
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updatePerms <- MaybeT $ _permUpd <$> tablePermissions tableInfo
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-- If we're in a frontend scenario, we should not include backend_only updates
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-- For more info see Note [Backend only permissions]
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guard $ not $ scenario == Frontend && upiBackendOnly updatePerms
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whereArg <- lift $ P.field whereName (Just whereDesc) <$> boolExp sourceInfo tableInfo
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selection <- lift $ mutationSelectionSet sourceInfo tableInfo
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tCase <- asks getter
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let argsParser = liftA2 (,) backendUpdate whereArg
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pure $
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P.subselection fieldName description argsParser selection
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<&> mkUpdateObject tableName columns updatePerms (Just tCase) . fmap MOutMultirowFields
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-- | Construct a root field, normally called 'update_tablename_by_pk', that can be used
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-- to update a single in a DB table, specified by primary key. Only returns a
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-- parser if there are columns the user is allowed to update and if the user has
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-- select permissions on all primary keys; otherwise returns Nothing.
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updateTableByPk ::
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forall b r m n.
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MonadBuildSchema b r m n =>
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BackendTableSelectSchema b =>
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-- | backend-specific data needed to perform an update mutation
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P.InputFieldsParser n (BackendUpdate b (UnpreparedValue b)) ->
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Scenario ->
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-- | table source
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SourceInfo b ->
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-- | table info
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TableInfo b ->
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-- | field display name
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Name ->
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-- | field description, if any
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Maybe Description ->
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m (Maybe (P.FieldParser n (AnnotatedUpdateG b (RemoteRelationshipField UnpreparedValue) (UnpreparedValue b))))
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updateTableByPk backendUpdate scenario sourceInfo tableInfo fieldName description = runMaybeT $ do
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let columns = tableColumns tableInfo
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tableName = tableInfoName tableInfo
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viewInfo = _tciViewInfo $ _tiCoreInfo tableInfo
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guard $ isMutable viIsUpdatable viewInfo
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updatePerms <- MaybeT $ _permUpd <$> tablePermissions tableInfo
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-- If we're in a frontend scenario, we should not include backend_only updates
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-- For more info see Note [Backend only permissions]
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guard $ not $ scenario == Frontend && upiBackendOnly updatePerms
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pkArgs <- MaybeT $ primaryKeysArguments tableInfo
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selection <- MaybeT $ tableSelectionSet sourceInfo tableInfo
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tCase <- asks getter
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lift $ do
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tableGQLName <- getTableGQLName tableInfo
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pkObjectName <- mkTypename $ tableGQLName <> $$(litName "_pk_columns_input")
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let pkFieldName = $$(litName "pk_columns")
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pkObjectDesc = Description $ "primary key columns input for table: " <> unName tableGQLName
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pkParser = P.object pkObjectName (Just pkObjectDesc) pkArgs
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argsParser = (,) <$> backendUpdate <*> P.field pkFieldName Nothing pkParser
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pure $
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P.subselection fieldName description argsParser selection
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<&> mkUpdateObject tableName columns updatePerms (Just tCase) . fmap MOutSinglerowObject
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mkUpdateObject ::
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Backend b =>
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TableName b ->
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[ColumnInfo b] ->
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UpdPermInfo b ->
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(Maybe NamingCase) ->
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( ( BackendUpdate b (UnpreparedValue b),
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AnnBoolExp b (UnpreparedValue b)
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),
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MutationOutputG b (RemoteRelationshipField UnpreparedValue) (UnpreparedValue b)
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) ->
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AnnotatedUpdateG b (RemoteRelationshipField UnpreparedValue) (UnpreparedValue b)
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mkUpdateObject _auTable _auAllCols updatePerms _auNamingConvention ((_auBackend, whereExp), _auOutput) =
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AnnotatedUpdateG {..}
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where
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permissionFilter = fmap partialSQLExpToUnpreparedValue <$> upiFilter updatePerms
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_auWhere = (permissionFilter, whereExp)
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_auCheck = maybe annBoolExpTrue ((fmap . fmap) partialSQLExpToUnpreparedValue) $ upiCheck updatePerms
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