{-# LANGUAGE Arrows #-} {-# LANGUAGE TemplateHaskell #-} {-# LANGUAGE UndecidableInstances #-} -- | Types/functions shared between modules that implement "Hasura.RQL.DDL.Schema.Cache". Other -- modules should not import this module directly. module Hasura.RQL.DDL.Schema.Cache.Common ( BuildOutputs (..), CacheBuild, CacheBuildParams (CacheBuildParams), InvalidationKeys (..), ikMetadata, ikRemoteSchemas, ikSources, NonColumnTableInputs (..), RebuildableSchemaCache (RebuildableSchemaCache, lastBuiltSchemaCache), TableBuildInput (TableBuildInput, _tbiName), TablePermissionInputs (..), addTableContext, bindErrorA, boAllowlist, boApiLimits, boMetricsConfig, boTlsAllowlist, boActions, boCronTriggers, boCustomTypes, boEndpoints, boQueryCollections, boRemoteSchemas, boRoles, boSources, buildInfoMap, buildInfoMapPreservingMetadata, initialInvalidationKeys, invalidateKeys, mkTableInputs, runCacheBuild, runCacheBuildM, withRecordDependencies, ) where import Control.Arrow.Extended import Control.Arrow.Interpret import Control.Lens import Control.Monad.Trans.Control (MonadBaseControl) import Control.Monad.Unique import Data.HashMap.Strict.Extended qualified as M import Data.HashMap.Strict.InsOrd qualified as OMap import Data.Sequence qualified as Seq import Data.Text.Extended import Hasura.Base.Error import Hasura.Incremental qualified as Inc import Hasura.Prelude import Hasura.RQL.Types import Hasura.RQL.Types.Endpoint import Hasura.Server.Types import Hasura.Session import Network.HTTP.Client.Manager (HasHttpManagerM (..)) import Network.HTTP.Client.Transformable qualified as HTTP -- | 'InvalidationKeys' used to apply requested 'CacheInvalidations'. data InvalidationKeys = InvalidationKeys { _ikMetadata :: !Inc.InvalidationKey, _ikRemoteSchemas :: !(HashMap RemoteSchemaName Inc.InvalidationKey), _ikSources :: !(HashMap SourceName Inc.InvalidationKey) } deriving (Show, Eq, Generic) instance Inc.Cacheable InvalidationKeys instance Inc.Select InvalidationKeys $(makeLenses ''InvalidationKeys) initialInvalidationKeys :: InvalidationKeys initialInvalidationKeys = InvalidationKeys Inc.initialInvalidationKey mempty mempty invalidateKeys :: CacheInvalidations -> InvalidationKeys -> InvalidationKeys invalidateKeys CacheInvalidations {..} InvalidationKeys {..} = InvalidationKeys { _ikMetadata = if ciMetadata then Inc.invalidate _ikMetadata else _ikMetadata, _ikRemoteSchemas = foldl' (flip invalidate) _ikRemoteSchemas ciRemoteSchemas, _ikSources = foldl' (flip invalidate) _ikSources ciSources } where invalidate :: (Eq a, Hashable a) => a -> HashMap a Inc.InvalidationKey -> HashMap a Inc.InvalidationKey invalidate = M.alter $ Just . maybe Inc.initialInvalidationKey Inc.invalidate data TableBuildInput b = TableBuildInput { _tbiName :: !(TableName b), _tbiIsEnum :: !Bool, _tbiConfiguration :: !(TableConfig b) } deriving (Show, Eq, Generic) instance (Backend b) => NFData (TableBuildInput b) instance (Backend b) => Inc.Cacheable (TableBuildInput b) data NonColumnTableInputs b = NonColumnTableInputs { _nctiTable :: !(TableName b), _nctiObjectRelationships :: ![ObjRelDef b], _nctiArrayRelationships :: ![ArrRelDef b], _nctiComputedFields :: ![ComputedFieldMetadata b], _nctiRemoteRelationships :: ![RemoteRelationship] } deriving (Show, Eq, Generic) data TablePermissionInputs b = TablePermissionInputs { _tpiTable :: !(TableName b), _tpiInsert :: ![InsPermDef b], _tpiSelect :: ![SelPermDef b], _tpiUpdate :: ![UpdPermDef b], _tpiDelete :: ![DelPermDef b] } deriving (Generic) deriving instance (Backend b, Show (TableName b)) => Show (TablePermissionInputs b) deriving instance (Backend b, Eq (TableName b)) => Eq (TablePermissionInputs b) instance (Backend b) => Inc.Cacheable (TablePermissionInputs b) mkTableInputs :: TableMetadata b -> (TableBuildInput b, NonColumnTableInputs b, TablePermissionInputs b) mkTableInputs TableMetadata {..} = (buildInput, nonColumns, permissions) where buildInput = TableBuildInput _tmTable _tmIsEnum _tmConfiguration nonColumns = NonColumnTableInputs _tmTable (OMap.elems _tmObjectRelationships) (OMap.elems _tmArrayRelationships) (OMap.elems _tmComputedFields) (OMap.elems _tmRemoteRelationships) permissions = TablePermissionInputs _tmTable (OMap.elems _tmInsertPermissions) (OMap.elems _tmSelectPermissions) (OMap.elems _tmUpdatePermissions) (OMap.elems _tmDeletePermissions) -- | The direct output of 'buildSchemaCacheRule'. Contains most of the things necessary to build a -- schema cache, but dependencies and inconsistent metadata objects are collected via a separate -- 'MonadWriter' side channel. data BuildOutputs = BuildOutputs { _boSources :: SourceCache, _boActions :: !ActionCache, -- | We preserve the 'MetadataObject' from the original catalog metadata in the output so we can -- reuse it later if we need to mark the remote schema inconsistent during GraphQL schema -- generation (because of field conflicts). _boRemoteSchemas :: !(HashMap RemoteSchemaName (RemoteSchemaCtx, MetadataObject)), _boAllowlist :: !InlinedAllowlist, _boCustomTypes :: !AnnotatedCustomTypes, _boCronTriggers :: !(M.HashMap TriggerName CronTriggerInfo), _boEndpoints :: !(M.HashMap EndpointName (EndpointMetadata GQLQueryWithText)), _boApiLimits :: !ApiLimit, _boMetricsConfig :: !MetricsConfig, _boRoles :: !(HashMap RoleName Role), _boTlsAllowlist :: ![TlsAllow], _boQueryCollections :: !QueryCollections } $(makeLenses ''BuildOutputs) -- | Parameters required for schema cache build data CacheBuildParams = CacheBuildParams { _cbpManager :: !HTTP.Manager, _cbpPGSourceResolver :: !(SourceResolver ('Postgres 'Vanilla)), _cbpMSSQLSourceResolver :: !(SourceResolver 'MSSQL), _cbpServerConfigCtx :: !ServerConfigCtx } -- | The monad in which @'RebuildableSchemaCache' is being run newtype CacheBuild a = CacheBuild (ReaderT CacheBuildParams (ExceptT QErr IO) a) deriving ( Functor, Applicative, Monad, MonadError QErr, MonadReader CacheBuildParams, MonadIO, MonadBase IO, MonadBaseControl IO, MonadUnique ) instance HasHttpManagerM CacheBuild where askHttpManager = asks _cbpManager instance HasServerConfigCtx CacheBuild where askServerConfigCtx = asks _cbpServerConfigCtx instance MonadResolveSource CacheBuild where getPGSourceResolver = asks _cbpPGSourceResolver getMSSQLSourceResolver = asks _cbpMSSQLSourceResolver runCacheBuild :: ( MonadIO m, MonadError QErr m ) => CacheBuildParams -> CacheBuild a -> m a runCacheBuild params (CacheBuild m) = do liftEitherM $ liftIO $ runExceptT (runReaderT m params) runCacheBuildM :: ( MonadIO m, MonadError QErr m, HasHttpManagerM m, HasServerConfigCtx m, MonadResolveSource m ) => CacheBuild a -> m a runCacheBuildM m = do params <- CacheBuildParams <$> askHttpManager <*> getPGSourceResolver <*> getMSSQLSourceResolver <*> askServerConfigCtx runCacheBuild params m data RebuildableSchemaCache = RebuildableSchemaCache { lastBuiltSchemaCache :: !SchemaCache, _rscInvalidationMap :: !InvalidationKeys, _rscRebuild :: !(Inc.Rule (ReaderT BuildReason CacheBuild) (Metadata, InvalidationKeys) SchemaCache) } bindErrorA :: (ArrowChoice arr, ArrowKleisli m arr, ArrowError e arr, MonadError e m) => arr (m a) a bindErrorA = liftEitherA <<< arrM \m -> (Right <$> m) `catchError` (pure . Left) {-# INLINE bindErrorA #-} withRecordDependencies :: (ArrowWriter (Seq CollectedInfo) arr) => WriterA (Seq SchemaDependency) arr (e, s) a -> arr (e, (MetadataObject, (SchemaObjId, s))) a withRecordDependencies f = proc (e, (metadataObject, (schemaObjectId, s))) -> do (result, dependencies) <- runWriterA f -< (e, s) recordDependencies -< (metadataObject, schemaObjectId, toList dependencies) returnA -< result {-# INLINEABLE withRecordDependencies #-} noDuplicates :: (MonadWriter (Seq CollectedInfo) m) => (a -> MetadataObject) -> [a] -> m (Maybe a) noDuplicates mkMetadataObject = \case [] -> pure Nothing [value] -> pure $ Just value values@(value : _) -> do let objectId = _moId $ mkMetadataObject value definitions = map (_moDefinition . mkMetadataObject) values tell $ Seq.singleton $ CIInconsistency (DuplicateObjects objectId definitions) return Nothing -- | Processes a list of catalog metadata into a map of processed information, marking any duplicate -- entries inconsistent. buildInfoMap :: ( ArrowChoice arr, Inc.ArrowDistribute arr, ArrowWriter (Seq CollectedInfo) arr, Eq k, Hashable k ) => (a -> k) -> (a -> MetadataObject) -> (e, a) `arr` Maybe b -> (e, [a]) `arr` HashMap k b buildInfoMap extractKey mkMetadataObject buildInfo = proc (e, infos) -> (M.groupOn extractKey infos >- returnA) >-> (| Inc.keyed ( \_ duplicateInfos -> (noDuplicates mkMetadataObject duplicateInfos >- interpretWriter) >-> (| traverseA (\info -> (e, info) >- buildInfo) |) >-> (\info -> join info >- returnA) ) |) >-> (\infoMap -> M.catMaybes infoMap >- returnA) {-# INLINEABLE buildInfoMap #-} -- | Like 'buildInfo', but includes each processed info’s associated 'MetadataObject' in the result. -- This is useful if the results will be further processed, and the 'MetadataObject' is still needed -- to mark the object inconsistent. buildInfoMapPreservingMetadata :: ( ArrowChoice arr, Inc.ArrowDistribute arr, ArrowWriter (Seq CollectedInfo) arr, Eq k, Hashable k ) => (a -> k) -> (a -> MetadataObject) -> (e, a) `arr` Maybe b -> (e, [a]) `arr` HashMap k (b, MetadataObject) buildInfoMapPreservingMetadata extractKey mkMetadataObject buildInfo = buildInfoMap extractKey mkMetadataObject proc (e, info) -> ((e, info) >- buildInfo) >-> \result -> result <&> (,mkMetadataObject info) >- returnA {-# INLINEABLE buildInfoMapPreservingMetadata #-} addTableContext :: (Backend b) => TableName b -> Text -> Text addTableContext tableName e = "in table " <> tableName <<> ": " <> e