mirror of
https://github.com/hasura/graphql-engine.git
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ea5c92acae
PR-URL: https://github.com/hasura/graphql-engine-mono/pull/8876 GitOrigin-RevId: abfc18eeef96a1f3593bfe823adab4d161161333
678 lines
26 KiB
Haskell
678 lines
26 KiB
Haskell
{-# LANGUAGE Arrows #-}
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{-# LANGUAGE UndecidableInstances #-}
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-- | Description: Create/delete SQL tables to/from Hasura metadata.
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module Hasura.RQL.DDL.Schema.Table
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( TrackTable (..),
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runTrackTableQ,
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TrackTableV2 (..),
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runTrackTableV2Q,
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UntrackTable (..),
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runUntrackTableQ,
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dropTableInMetadata,
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SetTableIsEnum (..),
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runSetExistingTableIsEnumQ,
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SetTableCustomFields (..),
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runSetTableCustomFieldsQV2,
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SetTableCustomization (..),
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runSetTableCustomization,
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buildTableCache,
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checkConflictingNode,
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SetApolloFederationConfig (..),
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runSetApolloFederationConfig,
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)
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where
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import Control.Arrow.Extended
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import Control.Arrow.Interpret
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import Control.Lens hiding ((.=))
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import Control.Monad.Trans.Control (MonadBaseControl)
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import Data.Aeson
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import Data.Aeson.Ordered qualified as JO
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import Data.Align (align)
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import Data.HashMap.Strict qualified as HM
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import Data.HashMap.Strict.Extended qualified as Map
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import Data.HashMap.Strict.InsOrd qualified as OMap
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import Data.HashSet qualified as S
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import Data.Text.Casing (GQLNameIdentifier, fromCustomName)
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import Data.Text.Extended
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import Data.These (These (..))
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import Hasura.Backends.Postgres.SQL.Types (PGDescription (..), QualifiedTable)
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import Hasura.Base.Error
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import Hasura.EncJSON
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import Hasura.GraphQL.Context
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import Hasura.GraphQL.Namespace
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import Hasura.GraphQL.Parser.Name qualified as GName
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import Hasura.GraphQL.Schema.Common (textToGQLIdentifier)
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import Hasura.GraphQL.Schema.NamingCase
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import Hasura.Incremental qualified as Inc
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import Hasura.Prelude
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import Hasura.RQL.DDL.Schema.Cache.Common
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import Hasura.RQL.DDL.Schema.Enum (resolveEnumReferences)
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import Hasura.RQL.IR
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import Hasura.RQL.Types.Backend
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import Hasura.RQL.Types.BackendType
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import Hasura.RQL.Types.Column
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import Hasura.RQL.Types.Common
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import Hasura.RQL.Types.Eventing.Backend (BackendEventTrigger, dropTriggerAndArchiveEvents)
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import Hasura.RQL.Types.Metadata
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import Hasura.RQL.Types.Metadata.Backend
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import Hasura.RQL.Types.Metadata.Object
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import Hasura.RQL.Types.SchemaCache
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import Hasura.RQL.Types.SchemaCache.Build
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import Hasura.RQL.Types.SchemaCacheTypes
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import Hasura.RQL.Types.Source
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import Hasura.RQL.Types.SourceCustomization (applyFieldNameCaseIdentifier)
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import Hasura.RQL.Types.Table
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import Hasura.SQL.AnyBackend qualified as AB
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import Hasura.Server.Utils
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import Language.GraphQL.Draft.Syntax qualified as G
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data TrackTable b = TrackTable
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{ tSource :: SourceName,
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tName :: TableName b,
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tIsEnum :: Bool,
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tApolloFedConfig :: Maybe ApolloFederationConfig
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}
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deriving instance (Backend b) => Show (TrackTable b)
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deriving instance (Backend b) => Eq (TrackTable b)
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instance (Backend b) => FromJSON (TrackTable b) where
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parseJSON v = withOptions v <|> withoutOptions
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where
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withOptions = withObject "TrackTable" \o ->
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TrackTable
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<$> o .:? "source" .!= defaultSource
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<*> o .: "table"
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<*> o .:? "is_enum" .!= False
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<*> o .:? "apollo_federation_config"
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withoutOptions = TrackTable defaultSource <$> parseJSON v <*> pure False <*> pure Nothing
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data SetTableIsEnum b = SetTableIsEnum
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{ stieSource :: SourceName,
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stieTable :: TableName b,
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stieIsEnum :: Bool
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}
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deriving instance Eq (TableName b) => Eq (SetTableIsEnum b)
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deriving instance Show (TableName b) => Show (SetTableIsEnum b)
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instance Backend b => FromJSON (SetTableIsEnum b) where
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parseJSON = withObject "SetTableIsEnum" $ \o ->
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SetTableIsEnum
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<$> o .:? "source" .!= defaultSource
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<*> o .: "table"
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<*> o .: "is_enum"
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data UntrackTable b = UntrackTable
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{ utSource :: SourceName,
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utTable :: TableName b,
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utCascade :: Bool
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}
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deriving instance (Backend b) => Show (UntrackTable b)
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deriving instance (Backend b) => Eq (UntrackTable b)
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instance (Backend b) => FromJSON (UntrackTable b) where
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parseJSON = withObject "UntrackTable" $ \o ->
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UntrackTable
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<$> o .:? "source" .!= defaultSource
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<*> o .: "table"
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<*> o .:? "cascade" .!= False
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isTableTracked :: forall b. (Backend b) => SourceInfo b -> TableName b -> Bool
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isTableTracked sourceInfo tableName =
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isJust $ Map.lookup tableName $ _siTables sourceInfo
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-- | Track table/view, Phase 1:
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-- Validate table tracking operation. Fails if table is already being tracked,
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-- or if a function with the same name is being tracked.
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trackExistingTableOrViewP1 ::
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forall b m.
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(QErrM m, CacheRWM m, Backend b, MetadataM m) =>
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SourceName ->
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TableName b ->
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m ()
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trackExistingTableOrViewP1 source tableName = do
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sourceInfo <- askSourceInfo source
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when (isTableTracked @b sourceInfo tableName) $
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throw400 AlreadyTracked $
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"view/table already tracked: " <>> tableName
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let functionName = tableToFunction @b tableName
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when (isJust $ Map.lookup functionName $ _siFunctions @b sourceInfo) $
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throw400 NotSupported $
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"function with name " <> tableName <<> " already exists"
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-- | Check whether a given name would conflict with the current schema by doing
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-- an internal introspection
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checkConflictingNode ::
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forall m.
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MonadError QErr m =>
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SchemaCache ->
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Text ->
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m ()
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checkConflictingNode sc tnGQL = do
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let GQLContext queryParser _ _ = scUnauthenticatedGQLContext sc
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-- {
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-- __schema {
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-- queryType {
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-- fields {
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-- name
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-- }
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-- }
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-- }
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-- }
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introspectionQuery =
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[ G.SelectionField $
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G.Field
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Nothing
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GName.___schema
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mempty
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[]
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[ G.SelectionField $
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G.Field
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Nothing
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GName._queryType
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mempty
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[]
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[ G.SelectionField $
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G.Field
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Nothing
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GName._fields
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mempty
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[]
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[ G.SelectionField $
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G.Field
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Nothing
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GName._name
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mempty
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[]
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[]
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]
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]
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]
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]
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case queryParser introspectionQuery of
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Left _ -> pure ()
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Right results -> do
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case OMap.lookup (mkUnNamespacedRootFieldAlias GName.___schema) results of
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Just (RFRaw (JO.Object schema)) -> do
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let names = do
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JO.Object queryType <- JO.lookup "queryType" schema
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JO.Array fields <- JO.lookup "fields" queryType
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for fields \case
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JO.Object field -> do
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JO.String name <- JO.lookup "name" field
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pure name
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_ -> Nothing
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case names of
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Nothing -> pure ()
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Just ns ->
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when (tnGQL `elem` ns) $
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throw400 RemoteSchemaConflicts $
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"node "
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<> tnGQL
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<> " already exists in current graphql schema"
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_ -> pure ()
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trackExistingTableOrViewP2 ::
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forall b m.
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(MonadError QErr m, CacheRWM m, MetadataM m, BackendMetadata b) =>
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SourceName ->
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TableName b ->
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Bool ->
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TableConfig b ->
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Maybe ApolloFederationConfig ->
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m EncJSON
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trackExistingTableOrViewP2 source tableName isEnum config apolloFedConfig = do
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sc <- askSchemaCache
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{-
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The next line does more than what it says on the tin. Removing the following
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call to 'checkConflictingNode' causes memory usage to spike when newly
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tracking a large amount (~100) of tables. The memory usage can be triggered
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by first creating a large amount of tables through SQL, without tracking the
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tables, and then clicking "track all" in the console. Curiously, this high
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memory usage happens even when no substantial GraphQL schema is generated.
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-}
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checkConflictingNode sc $ snakeCaseTableName @b tableName
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let metadata = tmApolloFederationConfig .~ apolloFedConfig $ mkTableMeta tableName isEnum config
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buildSchemaCacheFor
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( MOSourceObjId source $
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AB.mkAnyBackend $
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SMOTable @b tableName
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)
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$ MetadataModifier
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$ metaSources . ix source . toSourceMetadata . smTables %~ OMap.insert tableName metadata
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pure successMsg
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runTrackTableQ ::
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forall b m.
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(MonadError QErr m, CacheRWM m, MetadataM m, BackendMetadata b) =>
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TrackTable b ->
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m EncJSON
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runTrackTableQ (TrackTable source qt isEnum apolloFedConfig) = do
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trackExistingTableOrViewP1 @b source qt
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trackExistingTableOrViewP2 @b source qt isEnum emptyTableConfig apolloFedConfig
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data TrackTableV2 b = TrackTableV2
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{ ttv2Table :: TrackTable b,
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ttv2Configuration :: TableConfig b
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}
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deriving (Show, Eq)
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instance (Backend b) => FromJSON (TrackTableV2 b) where
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parseJSON = withObject "TrackTableV2" $ \o -> do
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table <- parseJSON $ Object o
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configuration <- o .:? "configuration" .!= emptyTableConfig
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pure $ TrackTableV2 table configuration
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runTrackTableV2Q ::
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forall b m.
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(MonadError QErr m, CacheRWM m, MetadataM m, BackendMetadata b) =>
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TrackTableV2 b ->
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m EncJSON
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runTrackTableV2Q (TrackTableV2 (TrackTable source qt isEnum apolloFedConfig) config) = do
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trackExistingTableOrViewP1 @b source qt
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trackExistingTableOrViewP2 @b source qt isEnum config apolloFedConfig
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runSetExistingTableIsEnumQ :: forall b m. (MonadError QErr m, CacheRWM m, MetadataM m, BackendMetadata b) => SetTableIsEnum b -> m EncJSON
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runSetExistingTableIsEnumQ (SetTableIsEnum source tableName isEnum) = do
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void $ askTableInfo @b source tableName -- assert that table is tracked
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buildSchemaCacheFor
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(MOSourceObjId source $ AB.mkAnyBackend $ SMOTable @b tableName)
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$ MetadataModifier
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$ tableMetadataSetter @b source tableName . tmIsEnum .~ isEnum
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return successMsg
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data SetTableCustomization b = SetTableCustomization
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{ _stcSource :: SourceName,
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_stcTable :: TableName b,
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_stcConfiguration :: TableConfig b
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}
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deriving (Show, Eq)
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instance (Backend b) => FromJSON (SetTableCustomization b) where
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parseJSON = withObject "SetTableCustomization" $ \o ->
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SetTableCustomization
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<$> o .:? "source" .!= defaultSource
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<*> o .: "table"
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<*> o .: "configuration"
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data SetTableCustomFields = SetTableCustomFields
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{ _stcfSource :: SourceName,
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_stcfTable :: QualifiedTable,
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_stcfCustomRootFields :: TableCustomRootFields,
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_stcfCustomColumnNames :: HashMap (Column ('Postgres 'Vanilla)) G.Name
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}
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deriving (Show, Eq)
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instance FromJSON SetTableCustomFields where
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parseJSON = withObject "SetTableCustomFields" $ \o ->
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SetTableCustomFields
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<$> o .:? "source" .!= defaultSource
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<*> o .: "table"
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<*> o .:? "custom_root_fields" .!= emptyCustomRootFields
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<*> o .:? "custom_column_names" .!= Map.empty
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runSetTableCustomFieldsQV2 ::
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(QErrM m, CacheRWM m, MetadataM m) => SetTableCustomFields -> m EncJSON
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runSetTableCustomFieldsQV2 (SetTableCustomFields source tableName rootFields columnNames) = do
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void $ askTableInfo @('Postgres 'Vanilla) source tableName -- assert that table is tracked
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let columnConfig = (\name -> mempty {_ccfgCustomName = Just name}) <$> columnNames
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let tableConfig = TableConfig @('Postgres 'Vanilla) rootFields columnConfig Nothing Automatic
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buildSchemaCacheFor
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(MOSourceObjId source $ AB.mkAnyBackend $ SMOTable @('Postgres 'Vanilla) tableName)
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$ MetadataModifier
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$ tableMetadataSetter source tableName . tmConfiguration .~ tableConfig
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return successMsg
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runSetTableCustomization ::
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forall b m.
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(QErrM m, CacheRWM m, MetadataM m, Backend b) =>
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SetTableCustomization b ->
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m EncJSON
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runSetTableCustomization (SetTableCustomization source table config) = do
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void $ askTableInfo @b source table
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buildSchemaCacheFor
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(MOSourceObjId source $ AB.mkAnyBackend $ SMOTable @b table)
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$ MetadataModifier
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$ tableMetadataSetter source table . tmConfiguration .~ config
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return successMsg
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unTrackExistingTableOrViewP1 ::
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forall b m.
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(CacheRM m, QErrM m, Backend b) =>
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UntrackTable b ->
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m ()
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unTrackExistingTableOrViewP1 (UntrackTable source vn _) = do
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schemaCache <- askSchemaCache
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void $
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unsafeTableInfo @b source vn (scSources schemaCache)
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`onNothing` throw400 AlreadyUntracked ("view/table already untracked: " <>> vn)
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unTrackExistingTableOrViewP2 ::
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forall b m.
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(CacheRWM m, QErrM m, MetadataM m, BackendMetadata b, BackendEventTrigger b, MonadIO m) =>
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UntrackTable b ->
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m EncJSON
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unTrackExistingTableOrViewP2 (UntrackTable source tableName cascade) = do
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sc <- askSchemaCache
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sourceConfig <- askSourceConfig @b source
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sourceInfo <- askTableInfo @b source tableName
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let triggers = HM.keys $ _tiEventTriggerInfoMap sourceInfo
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-- Get relational, query template and function dependants
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let allDeps =
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getDependentObjs
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sc
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(SOSourceObj source $ AB.mkAnyBackend $ SOITable @b tableName)
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indirectDeps = mapMaybe getIndirectDep allDeps
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-- Report bach with an error if cascade is not set
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unless (null indirectDeps || cascade) $
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reportDependentObjectsExist indirectDeps
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-- Purge all the dependents from state
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metadataModifier <- execWriterT do
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traverse_ purgeSourceAndSchemaDependencies indirectDeps
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tell $ dropTableInMetadata @b source tableName
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-- delete the table and its direct dependencies
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withNewInconsistentObjsCheck $ buildSchemaCache metadataModifier
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-- drop all the hasura SQL triggers present on the table
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for_ triggers $ \triggerName -> do
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dropTriggerAndArchiveEvents @b sourceConfig triggerName tableName
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pure successMsg
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where
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getIndirectDep :: SchemaObjId -> Maybe SchemaObjId
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getIndirectDep = \case
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sourceObj@(SOSourceObj s exists) ->
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-- If the dependency is to any other source, it automatically is an
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-- indirect dependency, hence the cast is safe here. However, we don't
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-- have these cross source dependencies yet
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AB.unpackAnyBackend @b exists >>= \case
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(SOITableObj dependentTableName _) ->
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if not (s == source && tableName == dependentTableName) then Just sourceObj else Nothing
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_ -> Just sourceObj
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-- A remote schema can have a remote relationship with a table. So when a
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-- table is dropped, the remote relationship in remote schema also needs to
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-- be removed.
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sourceObj@(SORemoteSchemaRemoteRelationship {}) -> Just sourceObj
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_ -> Nothing
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runUntrackTableQ ::
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forall b m.
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(CacheRWM m, QErrM m, MetadataM m, BackendMetadata b, BackendEventTrigger b, MonadIO m) =>
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UntrackTable b ->
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m EncJSON
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runUntrackTableQ q = do
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unTrackExistingTableOrViewP1 @b q
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unTrackExistingTableOrViewP2 @b q
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-- | Builds an initial table cache. Does not fill in permissions or event triggers, and the returned
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-- @FieldInfoMap@s only contain columns, not relationships; those pieces of information are filled
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-- in later.
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buildTableCache ::
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forall arr m b.
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( ArrowChoice arr,
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Inc.ArrowDistribute arr,
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ArrowWriter (Seq (Either InconsistentMetadata MetadataDependency)) arr,
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Inc.ArrowCache m arr,
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MonadIO m,
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MonadBaseControl IO m,
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BackendMetadata b
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) =>
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( SourceName,
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SourceConfig b,
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DBTablesMetadata b,
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[TableBuildInput b],
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Inc.Dependency Inc.InvalidationKey,
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Maybe (BackendIntrospection b),
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NamingCase
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)
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`arr` Map.HashMap (TableName b) (TableCoreInfoG b (ColumnInfo b) (ColumnInfo b))
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buildTableCache = Inc.cache proc (source, sourceConfig, dbTablesMeta, tableBuildInputs, reloadMetadataInvalidationKey, sourceIntrospection, tCase) -> do
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rawTableInfos <-
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(|
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Inc.keyed
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( \tableName tables ->
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(|
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withRecordInconsistency
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( do
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table <- noDuplicateTables -< tables
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case Map.lookup (_tbiName table) dbTablesMeta of
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Nothing ->
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throwA
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-<
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err400 NotExists $ "no such table/view exists in source: " <>> _tbiName table
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Just metadataTable ->
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buildRawTableInfo -< (table, metadataTable, sourceConfig, reloadMetadataInvalidationKey, biEnumValues <$> sourceIntrospection)
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)
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|) (mkTableMetadataObject source tableName)
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)
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|) (Map.groupOnNE _tbiName tableBuildInputs)
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let rawTableCache = catMaybes rawTableInfos
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enumTables = flip mapMaybe rawTableCache \rawTableInfo ->
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(,,) <$> _tciPrimaryKey rawTableInfo <*> pure (_tciCustomConfig rawTableInfo) <*> _tciEnumValues rawTableInfo
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tableInfos <-
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interpretWriter
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-< for rawTableCache \table -> withRecordInconsistencyM (mkTableMetadataObject source (_tciName table)) do
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processTableInfo enumTables table tCase
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returnA -< catMaybes tableInfos
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where
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mkTableMetadataObject source name =
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MetadataObject
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( MOSourceObjId source $
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AB.mkAnyBackend $
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SMOTable @b name
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)
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(toJSON name)
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noDuplicateTables = proc tables -> case tables of
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table :| [] -> returnA -< table
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_ -> throwA -< err400 AlreadyExists "duplication definition for table"
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-- Step 1: Build the raw table cache from metadata information.
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buildRawTableInfo ::
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ErrorA
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QErr
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arr
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( TableBuildInput b,
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DBTableMetadata b,
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SourceConfig b,
|
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Inc.Dependency Inc.InvalidationKey,
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Maybe (HashMap (TableName b) EnumValues)
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)
|
||
(TableCoreInfoG b (RawColumnInfo b) (Column b))
|
||
buildRawTableInfo = Inc.cache proc (tableBuildInput, metadataTable, sourceConfig, reloadMetadataInvalidationKey, sourceIntrospection) -> do
|
||
let TableBuildInput name isEnum config apolloFedConfig = tableBuildInput
|
||
columns :: [RawColumnInfo b] = _ptmiColumns metadataTable
|
||
columnMap = mapFromL (FieldName . toTxt . rciName) columns
|
||
primaryKey = _ptmiPrimaryKey metadataTable
|
||
description = buildDescription name config metadataTable
|
||
rawPrimaryKey <- liftEitherA -< traverse (resolvePrimaryKeyColumns columnMap) primaryKey
|
||
enumValues <- do
|
||
if isEnum
|
||
then do
|
||
case HM.lookup name =<< sourceIntrospection of
|
||
Just enumValues -> returnA -< Just enumValues
|
||
_ -> do
|
||
-- We want to make sure we reload enum values whenever someone explicitly calls
|
||
-- `reload_metadata`.
|
||
Inc.dependOn -< reloadMetadataInvalidationKey
|
||
eitherEnums <- bindA -< fetchAndValidateEnumValues sourceConfig name rawPrimaryKey columns
|
||
liftEitherA -< Just <$> eitherEnums
|
||
else returnA -< Nothing
|
||
|
||
returnA
|
||
-<
|
||
TableCoreInfo
|
||
{ _tciName = name,
|
||
_tciFieldInfoMap = columnMap,
|
||
_tciPrimaryKey = primaryKey,
|
||
_tciUniqueConstraints = _ptmiUniqueConstraints metadataTable,
|
||
_tciForeignKeys = S.map unForeignKeyMetadata $ _ptmiForeignKeys metadataTable,
|
||
_tciViewInfo = _ptmiViewInfo metadataTable,
|
||
_tciEnumValues = enumValues,
|
||
_tciCustomConfig = config,
|
||
_tciDescription = description,
|
||
_tciExtraTableMetadata = _ptmiExtraTableMetadata metadataTable,
|
||
_tciApolloFederationConfig = apolloFedConfig,
|
||
_tciCustomObjectTypes = fromMaybe mempty $ _ptmiCustomObjectTypes metadataTable
|
||
}
|
||
|
||
-- Step 2: Process the raw table cache to replace Postgres column types with logical column
|
||
-- types.
|
||
processTableInfo ::
|
||
QErrM n =>
|
||
Map.HashMap (TableName b) (PrimaryKey b (Column b), TableConfig b, EnumValues) ->
|
||
TableCoreInfoG b (RawColumnInfo b) (Column b) ->
|
||
NamingCase ->
|
||
n (TableCoreInfoG b (ColumnInfo b) (ColumnInfo b))
|
||
processTableInfo enumTables rawInfo tCase = do
|
||
let columns = _tciFieldInfoMap rawInfo
|
||
enumReferences = resolveEnumReferences enumTables (_tciForeignKeys rawInfo)
|
||
columnInfoMap <-
|
||
collectColumnConfiguration columns (_tciCustomConfig rawInfo)
|
||
>>= traverse (processColumnInfo tCase enumReferences (_tciName rawInfo))
|
||
assertNoDuplicateFieldNames (Map.elems columnInfoMap)
|
||
|
||
primaryKey <- traverse (resolvePrimaryKeyColumns columnInfoMap) (_tciPrimaryKey rawInfo)
|
||
pure
|
||
rawInfo
|
||
{ _tciFieldInfoMap = columnInfoMap,
|
||
_tciPrimaryKey = primaryKey
|
||
}
|
||
|
||
resolvePrimaryKeyColumns ::
|
||
forall n a. (QErrM n) => HashMap FieldName a -> PrimaryKey b (Column b) -> n (PrimaryKey b a)
|
||
resolvePrimaryKeyColumns columnMap = traverseOf (pkColumns . traverse) \columnName ->
|
||
Map.lookup (FieldName (toTxt columnName)) columnMap
|
||
`onNothing` throw500 "column in primary key not in table!"
|
||
|
||
collectColumnConfiguration ::
|
||
(QErrM n) =>
|
||
FieldInfoMap (RawColumnInfo b) ->
|
||
TableConfig b ->
|
||
n (FieldInfoMap (RawColumnInfo b, GQLNameIdentifier, Maybe G.Description))
|
||
collectColumnConfiguration columns TableConfig {..} = do
|
||
let configByFieldName = mapKeys (fromCol @b) _tcColumnConfig
|
||
Map.traverseWithKey
|
||
(\fieldName -> pairColumnInfoAndConfig fieldName >=> extractColumnConfiguration fieldName)
|
||
(align columns configByFieldName)
|
||
|
||
pairColumnInfoAndConfig ::
|
||
QErrM n =>
|
||
FieldName ->
|
||
These (RawColumnInfo b) ColumnConfig ->
|
||
n (RawColumnInfo b, ColumnConfig)
|
||
pairColumnInfoAndConfig fieldName = \case
|
||
This column -> pure (column, mempty)
|
||
These column config -> pure (column, config)
|
||
That _ ->
|
||
throw400 NotExists $
|
||
"configuration was given for the column " <> fieldName <<> ", but no such column exists"
|
||
|
||
extractColumnConfiguration ::
|
||
QErrM n =>
|
||
FieldName ->
|
||
(RawColumnInfo b, ColumnConfig) ->
|
||
n (RawColumnInfo b, GQLNameIdentifier, Maybe G.Description)
|
||
extractColumnConfiguration fieldName (columnInfo, ColumnConfig {..}) = do
|
||
name <- (fromCustomName <$> _ccfgCustomName) `onNothing` textToGQLIdentifier (getFieldNameTxt fieldName)
|
||
pure (columnInfo, name, description)
|
||
where
|
||
description :: Maybe G.Description
|
||
description = case _ccfgComment of
|
||
Automatic -> rciDescription columnInfo
|
||
(Explicit explicitDesc) -> G.Description . toTxt <$> explicitDesc
|
||
|
||
processColumnInfo ::
|
||
(QErrM n) =>
|
||
NamingCase ->
|
||
Map.HashMap (Column b) (NonEmpty (EnumReference b)) ->
|
||
TableName b ->
|
||
(RawColumnInfo b, GQLNameIdentifier, Maybe G.Description) ->
|
||
n (ColumnInfo b)
|
||
processColumnInfo tCase tableEnumReferences tableName (rawInfo, name, description) = do
|
||
resolvedType <- resolveColumnType
|
||
pure
|
||
ColumnInfo
|
||
{ ciColumn = pgCol,
|
||
ciName = (applyFieldNameCaseIdentifier tCase name),
|
||
ciPosition = rciPosition rawInfo,
|
||
ciType = resolvedType,
|
||
ciIsNullable = rciIsNullable rawInfo,
|
||
ciDescription = description,
|
||
ciMutability = rciMutability rawInfo
|
||
}
|
||
where
|
||
pgCol = rciName rawInfo
|
||
resolveColumnType =
|
||
case Map.lookup pgCol tableEnumReferences of
|
||
-- no references? not an enum
|
||
Nothing -> pure $ ColumnScalar (rciType rawInfo)
|
||
-- one reference? is an enum
|
||
Just (enumReference :| []) -> pure $ ColumnEnumReference enumReference
|
||
-- multiple referenced enums? the schema is strange, so let’s reject it
|
||
Just enumReferences ->
|
||
throw400 ConstraintViolation $
|
||
"column "
|
||
<> rciName rawInfo <<> " in table "
|
||
<> tableName
|
||
<<> " references multiple enum tables ("
|
||
<> commaSeparated (map (dquote . erTable) $ toList enumReferences)
|
||
<> ")"
|
||
|
||
assertNoDuplicateFieldNames columns =
|
||
void $ flip Map.traverseWithKey (Map.groupOn ciName columns) \name columnsWithName ->
|
||
case columnsWithName of
|
||
one : two : more ->
|
||
throw400 AlreadyExists $
|
||
"the definitions of columns "
|
||
<> englishList "and" (dquote . ciColumn <$> (one :| two : more))
|
||
<> " are in conflict: they are mapped to the same field name, " <>> name
|
||
_ -> pure ()
|
||
|
||
buildDescription :: TableName b -> TableConfig b -> DBTableMetadata b -> Maybe PGDescription
|
||
buildDescription tableName tableConfig tableMetadata =
|
||
case _tcComment tableConfig of
|
||
Automatic -> _ptmiDescription tableMetadata <|> Just autogeneratedDescription
|
||
Explicit description -> PGDescription . toTxt <$> description
|
||
where
|
||
autogeneratedDescription =
|
||
PGDescription $ "columns and relationships of " <>> tableName
|
||
|
||
data SetApolloFederationConfig b = SetApolloFederationConfig
|
||
{ _safcSource :: SourceName,
|
||
_safcTable :: TableName b,
|
||
-- | Apollo Federation config for the table, setting `Nothing` would disable
|
||
-- Apollo Federation support on the table.
|
||
_safcApolloFederationConfig :: Maybe ApolloFederationConfig
|
||
}
|
||
|
||
instance (Backend b) => FromJSON (SetApolloFederationConfig b) where
|
||
parseJSON = withObject "SetApolloFederationConfig" $ \o ->
|
||
SetApolloFederationConfig
|
||
<$> o .:? "source" .!= defaultSource
|
||
<*> o .: "table"
|
||
<*> o .:? "apollo_federation_config"
|
||
|
||
runSetApolloFederationConfig ::
|
||
forall b m.
|
||
(QErrM m, CacheRWM m, MetadataM m, Backend b) =>
|
||
SetApolloFederationConfig b ->
|
||
m EncJSON
|
||
runSetApolloFederationConfig (SetApolloFederationConfig source table apolloFedConfig) = do
|
||
void $ askTableInfo @b source table
|
||
buildSchemaCacheFor
|
||
(MOSourceObjId source $ AB.mkAnyBackend $ SMOTable @b table)
|
||
-- NOTE (paritosh): This API behaves like a PUT API now. In future, when
|
||
-- the `ApolloFederationConfig` is complex, we should probably reconsider
|
||
-- this approach of replacing the configuration everytime the API is called
|
||
-- and maybe throw some error if the configuration is already there.
|
||
$ MetadataModifier
|
||
$ tableMetadataSetter @b source table . tmApolloFederationConfig .~ apolloFedConfig
|
||
return successMsg
|