{-# LANGUAGE UndecidableInstances #-} {-# OPTIONS_GHC -fno-warn-orphans #-} -- | Postgres Instances Execute -- -- This module implements the needed functionality for implementing a 'BackendExecute' -- instance for Postgres, which defines an interface for translating a root field into -- an execution plan and interacting with a database. -- -- This module includes the Postgres implementation of queries, mutations, and more. module Hasura.Backends.Postgres.Instances.Execute ( PreparedSql (..), ) where import Control.Monad.Trans.Control qualified as MT import Data.Aeson qualified as J import Data.Environment qualified as Env import Data.HashMap.Strict qualified as Map import Data.HashMap.Strict.InsOrd qualified as OMap import Data.IntMap qualified as IntMap import Data.Sequence qualified as Seq import Database.PG.Query qualified as Q import Hasura.Backends.Postgres.Connection.MonadTx import Hasura.Backends.Postgres.Execute.Insert (convertToSQLTransaction) import Hasura.Backends.Postgres.Execute.Mutation qualified as PGE import Hasura.Backends.Postgres.Execute.Prepare ( PlanningSt (..), PrepArgMap, initPlanningSt, prepareWithPlan, prepareWithoutPlan, withUserVars, ) import Hasura.Backends.Postgres.Execute.Subscription qualified as PGL import Hasura.Backends.Postgres.Execute.Types (PGSourceConfig (..), dmlTxErrorHandler) import Hasura.Backends.Postgres.SQL.DML qualified as S import Hasura.Backends.Postgres.SQL.Types qualified as PG import Hasura.Backends.Postgres.SQL.Value qualified as PG import Hasura.Backends.Postgres.Translate.Select (PostgresAnnotatedFieldJSON) import Hasura.Backends.Postgres.Translate.Select qualified as DS import Hasura.Backends.Postgres.Types.Function qualified as PG import Hasura.Backends.Postgres.Types.Update qualified as BackendUpdate import Hasura.Base.Error (QErr) import Hasura.EncJSON (EncJSON, encJFromBS, encJFromJValue) import Hasura.GraphQL.Execute.Backend ( BackendExecute (..), DBStepInfo (..), ExplainPlan (..), convertRemoteSourceRelationship, ) import Hasura.GraphQL.Execute.Subscription.Plan ( ParameterizedSubscriptionQueryPlan (..), SubscriptionQueryPlan (..), SubscriptionQueryPlanExplanation (..), mkCohortVariables, newCohortId, ) import Hasura.GraphQL.Namespace ( RootFieldAlias (..), RootFieldMap, ) import Hasura.GraphQL.Namespace qualified as G import Hasura.GraphQL.Schema.Options qualified as Options import Hasura.Prelude import Hasura.QueryTags ( QueryTagsComment (..), emptyQueryTagsComment, ) import Hasura.RQL.IR import Hasura.RQL.IR.Delete qualified as IR import Hasura.RQL.IR.Insert qualified as IR import Hasura.RQL.IR.Returning qualified as IR import Hasura.RQL.IR.Select qualified as IR import Hasura.RQL.IR.Update qualified as IR import Hasura.RQL.Types.Backend import Hasura.RQL.Types.Column ( ColumnType (..), ColumnValue (..), ciName, ) import Hasura.RQL.Types.Common ( FieldName (..), JsonAggSelect (..), SourceName, ) import Hasura.RQL.Types.Function import Hasura.SQL.AnyBackend qualified as AB import Hasura.SQL.Backend import Hasura.Session (UserInfo (..)) import Hasura.Tracing qualified as Tracing import Language.GraphQL.Draft.Syntax qualified as G data PreparedSql = PreparedSql { _psQuery :: !Q.Query, _psPrepArgs :: !PrepArgMap } instance ( Backend ('Postgres pgKind), PostgresAnnotatedFieldJSON pgKind ) => BackendExecute ('Postgres pgKind) where type PreparedQuery ('Postgres pgKind) = PreparedSql type MultiplexedQuery ('Postgres pgKind) = PGL.MultiplexedQuery type ExecutionMonad ('Postgres pgKind) = Tracing.TraceT (Q.TxET QErr IO) mkDBQueryPlan = pgDBQueryPlan mkDBMutationPlan = pgDBMutationPlan mkLiveQuerySubscriptionPlan = pgDBLiveQuerySubscriptionPlan mkDBStreamingSubscriptionPlan = pgDBStreamingSubscriptionPlan mkDBQueryExplain = pgDBQueryExplain mkSubscriptionExplain = pgDBSubscriptionExplain mkDBRemoteRelationshipPlan = pgDBRemoteRelationshipPlan -- query pgDBQueryPlan :: forall pgKind m. ( MonadError QErr m, Backend ('Postgres pgKind), PostgresAnnotatedFieldJSON pgKind, MonadReader QueryTagsComment m ) => UserInfo -> Env.Environment -> SourceName -> SourceConfig ('Postgres pgKind) -> QueryDB ('Postgres pgKind) Void (UnpreparedValue ('Postgres pgKind)) -> m (DBStepInfo ('Postgres pgKind)) pgDBQueryPlan userInfo _env sourceName sourceConfig qrf = do (preparedQuery, PlanningSt _ _ planVals) <- flip runStateT initPlanningSt $ traverse (prepareWithPlan userInfo) qrf queryTagsComment <- ask let preparedSQLWithQueryTags = appendPreparedSQLWithQueryTags (irToRootFieldPlan planVals preparedQuery) queryTagsComment let (action, preparedSQL) = mkCurPlanTx userInfo preparedSQLWithQueryTags pure $ DBStepInfo @('Postgres pgKind) sourceName sourceConfig preparedSQL action pgDBQueryExplain :: forall pgKind m. ( MonadError QErr m, Backend ('Postgres pgKind), PostgresAnnotatedFieldJSON pgKind ) => RootFieldAlias -> UserInfo -> SourceName -> SourceConfig ('Postgres pgKind) -> QueryDB ('Postgres pgKind) Void (UnpreparedValue ('Postgres pgKind)) -> m (AB.AnyBackend DBStepInfo) pgDBQueryExplain fieldName userInfo sourceName sourceConfig rootSelection = do preparedQuery <- traverse (prepareWithoutPlan userInfo) rootSelection let PreparedSql querySQL _ = irToRootFieldPlan mempty preparedQuery textSQL = Q.getQueryText querySQL -- CAREFUL!: an `EXPLAIN ANALYZE` here would actually *execute* this -- query, maybe resulting in privilege escalation: withExplain = "EXPLAIN (FORMAT TEXT) " <> textSQL let action = liftTx $ Q.listQE dmlTxErrorHandler (Q.fromText withExplain) () True <&> \planList -> encJFromJValue $ ExplainPlan fieldName (Just textSQL) (Just $ map runIdentity planList) pure $ AB.mkAnyBackend $ DBStepInfo @('Postgres pgKind) sourceName sourceConfig Nothing action pgDBSubscriptionExplain :: ( MonadError QErr m, MonadIO m, MT.MonadBaseControl IO m ) => SubscriptionQueryPlan ('Postgres pgKind) (MultiplexedQuery ('Postgres pgKind)) -> m SubscriptionQueryPlanExplanation pgDBSubscriptionExplain plan = do let parameterizedPlan = _sqpParameterizedPlan plan pgExecCtx = _pscExecCtx $ _sqpSourceConfig plan queryText = Q.getQueryText . PGL.unMultiplexedQuery $ _plqpQuery parameterizedPlan -- CAREFUL!: an `EXPLAIN ANALYZE` here would actually *execute* this -- query, maybe resulting in privilege escalation: explainQuery = Q.fromText $ "EXPLAIN (FORMAT TEXT) " <> queryText cohortId <- newCohortId explanationLines <- liftEitherM $ runExceptT $ runTx pgExecCtx Q.ReadOnly $ map runIdentity <$> PGL.executeQuery explainQuery [(cohortId, _sqpVariables plan)] pure $ SubscriptionQueryPlanExplanation queryText explanationLines $ _sqpVariables plan -- mutation convertDelete :: forall pgKind m. ( MonadError QErr m, Backend ('Postgres pgKind), PostgresAnnotatedFieldJSON pgKind, MonadReader QueryTagsComment m ) => UserInfo -> IR.AnnDelG ('Postgres pgKind) Void (UnpreparedValue ('Postgres pgKind)) -> Options.StringifyNumbers -> m (Tracing.TraceT (Q.TxET QErr IO) EncJSON) convertDelete userInfo deleteOperation stringifyNum = do queryTags <- ask preparedDelete <- traverse (prepareWithoutPlan userInfo) deleteOperation pure $ flip runReaderT queryTags $ PGE.execDeleteQuery stringifyNum userInfo (preparedDelete, Seq.empty) convertUpdate :: forall pgKind m. ( MonadError QErr m, Backend ('Postgres pgKind), PostgresAnnotatedFieldJSON pgKind, MonadReader QueryTagsComment m ) => UserInfo -> IR.AnnotatedUpdateG ('Postgres pgKind) Void (UnpreparedValue ('Postgres pgKind)) -> Options.StringifyNumbers -> m (Tracing.TraceT (Q.TxET QErr IO) EncJSON) convertUpdate userInfo updateOperation stringifyNum = do queryTags <- ask preparedUpdate <- traverse (prepareWithoutPlan userInfo) updateOperation if BackendUpdate.isEmpty $ IR._auBackend updateOperation then pure $ pure $ IR.buildEmptyMutResp $ IR._auOutput preparedUpdate else pure $ flip runReaderT queryTags $ PGE.execUpdateQuery stringifyNum userInfo (preparedUpdate, Seq.empty) convertInsert :: forall pgKind m. ( MonadError QErr m, Backend ('Postgres pgKind), PostgresAnnotatedFieldJSON pgKind, MonadReader QueryTagsComment m ) => UserInfo -> IR.AnnotatedInsert ('Postgres pgKind) Void (UnpreparedValue ('Postgres pgKind)) -> Options.StringifyNumbers -> m (Tracing.TraceT (Q.TxET QErr IO) EncJSON) convertInsert userInfo insertOperation stringifyNum = do queryTags <- ask preparedInsert <- traverse (prepareWithoutPlan userInfo) insertOperation pure $ flip runReaderT queryTags $ convertToSQLTransaction preparedInsert userInfo Seq.empty stringifyNum -- | A pared-down version of 'Query.convertQuerySelSet', for use in execution of -- special case of SQL function mutations (see 'MDBFunction'). convertFunction :: forall pgKind m. ( MonadError QErr m, Backend ('Postgres pgKind), PostgresAnnotatedFieldJSON pgKind, MonadReader QueryTagsComment m ) => UserInfo -> JsonAggSelect -> -- | VOLATILE function as 'SelectExp' IR.AnnSimpleSelectG ('Postgres pgKind) Void (UnpreparedValue ('Postgres pgKind)) -> m (Tracing.TraceT (Q.TxET QErr IO) EncJSON) convertFunction userInfo jsonAggSelect unpreparedQuery = do queryTags <- ask -- Transform the RQL AST into a prepared SQL query (preparedQuery, PlanningSt _ _ planVals) <- flip runStateT initPlanningSt $ traverse (prepareWithPlan userInfo) unpreparedQuery let queryResultFn = case jsonAggSelect of JASMultipleRows -> QDBMultipleRows JASSingleObject -> QDBSingleRow let preparedSQLWithQueryTags = appendPreparedSQLWithQueryTags (irToRootFieldPlan planVals $ queryResultFn preparedQuery) queryTags pure $! fst $ mkCurPlanTx userInfo preparedSQLWithQueryTags -- forget (Maybe PreparedSql) pgDBMutationPlan :: forall pgKind m. ( MonadError QErr m, Backend ('Postgres pgKind), PostgresAnnotatedFieldJSON pgKind, MonadReader QueryTagsComment m ) => UserInfo -> Options.StringifyNumbers -> SourceName -> SourceConfig ('Postgres pgKind) -> MutationDB ('Postgres pgKind) Void (UnpreparedValue ('Postgres pgKind)) -> m (DBStepInfo ('Postgres pgKind)) pgDBMutationPlan userInfo stringifyNum sourceName sourceConfig mrf = do go <$> case mrf of MDBInsert s -> convertInsert userInfo s stringifyNum MDBUpdate s -> convertUpdate userInfo s stringifyNum MDBDelete s -> convertDelete userInfo s stringifyNum MDBFunction returnsSet s -> convertFunction userInfo returnsSet s where go v = DBStepInfo @('Postgres pgKind) sourceName sourceConfig Nothing v -- subscription pgDBLiveQuerySubscriptionPlan :: forall pgKind m. ( MonadError QErr m, MonadIO m, Backend ('Postgres pgKind), PostgresAnnotatedFieldJSON pgKind, MonadReader QueryTagsComment m ) => UserInfo -> SourceName -> SourceConfig ('Postgres pgKind) -> Maybe G.Name -> RootFieldMap (QueryDB ('Postgres pgKind) Void (UnpreparedValue ('Postgres pgKind))) -> m (SubscriptionQueryPlan ('Postgres pgKind) (MultiplexedQuery ('Postgres pgKind))) pgDBLiveQuerySubscriptionPlan userInfo _sourceName sourceConfig namespace unpreparedAST = do (preparedAST, PGL.QueryParametersInfo {..}) <- flip runStateT mempty $ for unpreparedAST $ traverse (PGL.resolveMultiplexedValue (_uiSession userInfo)) subscriptionQueryTagsComment <- ask let multiplexedQuery = PGL.mkMultiplexedQuery $ OMap.mapKeys _rfaAlias preparedAST multiplexedQueryWithQueryTags = multiplexedQuery {PGL.unMultiplexedQuery = appendSQLWithQueryTags (PGL.unMultiplexedQuery multiplexedQuery) subscriptionQueryTagsComment} roleName = _uiRole userInfo parameterizedPlan = ParameterizedSubscriptionQueryPlan roleName multiplexedQueryWithQueryTags -- We need to ensure that the values provided for variables are correct according to Postgres. -- Without this check an invalid value for a variable for one instance of the subscription will -- take down the entire multiplexed query. validatedQueryVars <- PGL.validateVariables (_pscExecCtx sourceConfig) _qpiReusableVariableValues validatedSyntheticVars <- PGL.validateVariables (_pscExecCtx sourceConfig) $ toList _qpiSyntheticVariableValues -- TODO validatedQueryVars validatedSyntheticVars let cohortVariables = mkCohortVariables _qpiReferencedSessionVariables (_uiSession userInfo) validatedQueryVars validatedSyntheticVars mempty -- live query subscriptions don't use the streaming cursor variables pure $ SubscriptionQueryPlan parameterizedPlan sourceConfig cohortVariables namespace pgDBStreamingSubscriptionPlan :: forall pgKind m. ( MonadError QErr m, MonadIO m, Backend ('Postgres pgKind), PostgresAnnotatedFieldJSON pgKind, MonadReader QueryTagsComment m ) => UserInfo -> SourceName -> SourceConfig ('Postgres pgKind) -> (RootFieldAlias, (QueryDB ('Postgres pgKind) Void (UnpreparedValue ('Postgres pgKind)))) -> m (SubscriptionQueryPlan ('Postgres pgKind) (MultiplexedQuery ('Postgres pgKind))) pgDBStreamingSubscriptionPlan userInfo _sourceName sourceConfig (rootFieldAlias, unpreparedAST) = do (preparedAST, PGL.QueryParametersInfo {..}) <- flip runStateT mempty $ traverse (PGL.resolveMultiplexedValue (_uiSession userInfo)) unpreparedAST subscriptionQueryTagsComment <- ask let multiplexedQuery = PGL.mkStreamingMultiplexedQuery (G._rfaAlias rootFieldAlias, preparedAST) multiplexedQueryWithQueryTags = multiplexedQuery {PGL.unMultiplexedQuery = appendSQLWithQueryTags (PGL.unMultiplexedQuery multiplexedQuery) subscriptionQueryTagsComment} roleName = _uiRole userInfo parameterizedPlan = ParameterizedSubscriptionQueryPlan roleName multiplexedQueryWithQueryTags -- We need to ensure that the values provided for variables are correct according to Postgres. -- Without this check an invalid value for a variable for one instance of the subscription will -- take down the entire multiplexed query. validatedQueryVars <- PGL.validateVariables (_pscExecCtx sourceConfig) _qpiReusableVariableValues validatedSyntheticVars <- PGL.validateVariables (_pscExecCtx sourceConfig) $ toList _qpiSyntheticVariableValues validatedCursorVars <- PGL.validateVariables (_pscExecCtx sourceConfig) $ getCursorVars unpreparedAST let cohortVariables = mkCohortVariables _qpiReferencedSessionVariables (_uiSession userInfo) validatedQueryVars validatedSyntheticVars validatedCursorVars pure $ SubscriptionQueryPlan parameterizedPlan sourceConfig cohortVariables $ _rfaNamespace rootFieldAlias where getCursorVars qdb = case qdb of QDBStreamMultipleRows (IR.AnnSelectStreamG () _ _ _ args _) -> let cursorArg = IR._ssaCursorArg args colInfo = IR._sciColInfo cursorArg in Map.singleton (ciName colInfo) (IR._sciInitialValue cursorArg) _ -> mempty -- turn the current plan into a transaction mkCurPlanTx :: UserInfo -> PreparedSql -> (Tracing.TraceT (Q.TxET QErr IO) EncJSON, Maybe PreparedSql) mkCurPlanTx userInfo ps@(PreparedSql q prepMap) = -- generate the SQL and prepared vars or the bytestring let args = withUserVars (_uiSession userInfo) prepMap -- WARNING: this quietly assumes the intmap keys are contiguous prepArgs = fst <$> IntMap.elems args in (,Just ps) $ Tracing.trace "Postgres" $ liftTx $ asSingleRowJsonResp q prepArgs -- | This function is generally used on the result of 'selectQuerySQL', -- 'selectAggregateQuerySQL' or 'connectionSelectSQL' to run said query and get -- back the resulting JSON. asSingleRowJsonResp :: Q.Query -> [Q.PrepArg] -> Q.TxE QErr EncJSON asSingleRowJsonResp query args = encJFromBS . runIdentity . Q.getRow <$> Q.rawQE dmlTxErrorHandler query args True -- convert a query from an intermediate representation to... another irToRootFieldPlan :: ( Backend ('Postgres pgKind), DS.PostgresAnnotatedFieldJSON pgKind ) => PrepArgMap -> QueryDB ('Postgres pgKind) Void S.SQLExp -> PreparedSql irToRootFieldPlan prepped = \case QDBMultipleRows s -> mkPreparedSql (DS.selectQuerySQL JASMultipleRows) s QDBSingleRow s -> mkPreparedSql (DS.selectQuerySQL JASSingleObject) s QDBAggregation s -> mkPreparedSql DS.selectAggregateQuerySQL s QDBConnection s -> mkPreparedSql DS.connectionSelectQuerySQL s QDBStreamMultipleRows s -> mkPreparedSql DS.selectStreamQuerySQL s where mkPreparedSql :: (t -> Q.Query) -> t -> PreparedSql mkPreparedSql f simpleSel = PreparedSql (f simpleSel) prepped -- Append Query Tags to the Prepared SQL appendPreparedSQLWithQueryTags :: PreparedSql -> QueryTagsComment -> PreparedSql appendPreparedSQLWithQueryTags preparedSQL queryTags = preparedSQL {_psQuery = appendSQLWithQueryTags query queryTags} where query = _psQuery preparedSQL appendSQLWithQueryTags :: Q.Query -> QueryTagsComment -> Q.Query appendSQLWithQueryTags query queryTags = query {Q.getQueryText = queryText <> _unQueryTagsComment queryTags} where queryText = Q.getQueryText query -------------------------------------------------------------------------------- -- Remote Relationships (e.g. DB-to-DB Joins, remote schema joins, etc.) -------------------------------------------------------------------------------- -- | Construct an action (i.e. 'DBStepInfo') which can marshal some remote -- relationship information into a form that Postgres can query against. pgDBRemoteRelationshipPlan :: forall pgKind m. ( MonadError QErr m, Backend ('Postgres pgKind), PostgresAnnotatedFieldJSON pgKind ) => UserInfo -> SourceName -> SourceConfig ('Postgres pgKind) -> -- | List of json objects, each of which becomes a row of the table. NonEmpty J.Object -> -- | The above objects have this schema -- -- XXX: What is this for/what does this mean? HashMap FieldName (Column ('Postgres pgKind), ScalarType ('Postgres pgKind)) -> -- | This is a field name from the lhs that *has* to be selected in the -- response along with the relationship. FieldName -> (FieldName, IR.SourceRelationshipSelection ('Postgres pgKind) Void UnpreparedValue) -> m (DBStepInfo ('Postgres pgKind)) pgDBRemoteRelationshipPlan userInfo sourceName sourceConfig lhs lhsSchema argumentId relationship = do -- NOTE: 'QueryTags' currently cannot support remote relationship queries. -- -- In the future if we want to add support we'll need to add a new type of -- metadata (e.g. 'ParameterizedQueryHash' doesn't make sense here) and find -- a root field name that makes sense to attach to it. flip runReaderT emptyQueryTagsComment $ pgDBQueryPlan userInfo Env.emptyEnvironment sourceName sourceConfig rootSelection where coerceToColumn = PG.unsafePGCol . getFieldNameTxt joinColumnMapping = mapKeys coerceToColumn lhsSchema rowsArgument :: UnpreparedValue ('Postgres pgKind) rowsArgument = UVParameter Nothing $ ColumnValue (ColumnScalar PG.PGJSONB) $ PG.PGValJSONB $ Q.JSONB $ J.toJSON lhs jsonToRecordSet :: IR.SelectFromG ('Postgres pgKind) (UnpreparedValue ('Postgres pgKind)) recordSetDefinitionList = (coerceToColumn argumentId, PG.PGBigInt) : Map.toList (fmap snd joinColumnMapping) jsonToRecordSet = IR.FromFunction (PG.QualifiedObject "pg_catalog" $ PG.FunctionName "jsonb_to_recordset") (FunctionArgsExp [PG.AEInput rowsArgument] mempty) (Just recordSetDefinitionList) rootSelection = convertRemoteSourceRelationship (fst <$> joinColumnMapping) jsonToRecordSet (PG.unsafePGCol $ getFieldNameTxt argumentId) (ColumnScalar PG.PGBigInt) relationship