graphql-engine/server/src-lib/Hasura/RQL/DDL/Metadata.hs
2022-11-23 07:54:53 +00:00

761 lines
35 KiB
Haskell

module Hasura.RQL.DDL.Metadata
( runReplaceMetadata,
runReplaceMetadataV2,
runExportMetadata,
runExportMetadataV2,
runClearMetadata,
runReloadMetadata,
runDumpInternalState,
runGetInconsistentMetadata,
runDropInconsistentMetadata,
runGetCatalogState,
runSetCatalogState,
runTestWebhookTransform,
runSetMetricsConfig,
runRemoveMetricsConfig,
module Hasura.RQL.DDL.Metadata.Types,
)
where
import Control.Lens (to, (.~), (^.), (^?))
import Control.Monad.Trans.Control (MonadBaseControl)
import Data.Aeson qualified as J
import Data.Aeson.Ordered qualified as AO
import Data.Attoparsec.Text qualified as AT
import Data.Bifunctor (first)
import Data.Bitraversable
import Data.ByteString.Lazy qualified as BL
import Data.CaseInsensitive qualified as CI
import Data.Environment qualified as Env
import Data.Has (Has, getter)
import Data.HashMap.Strict qualified as Map
import Data.HashMap.Strict.InsOrd.Extended qualified as OMap
import Data.HashSet qualified as HS
import Data.HashSet qualified as Set
import Data.List qualified as L
import Data.List.Extended qualified as L
import Data.SerializableBlob qualified as SB
import Data.Text qualified as T
import Data.Text.Encoding qualified as TE
import Data.Text.Extended (dquoteList, (<<>))
import Hasura.Base.Error
import Hasura.EncJSON
import Hasura.Eventing.EventTrigger (logQErr)
import Hasura.Logging qualified as HL
import Hasura.Metadata.Class
import Hasura.Prelude hiding (first)
import Hasura.RQL.DDL.Action
import Hasura.RQL.DDL.ComputedField
import Hasura.RQL.DDL.CustomTypes
import Hasura.RQL.DDL.Endpoint
import Hasura.RQL.DDL.EventTrigger
import Hasura.RQL.DDL.InheritedRoles
import Hasura.RQL.DDL.Metadata.Types
import Hasura.RQL.DDL.Permission
import Hasura.RQL.DDL.Relationship
import Hasura.RQL.DDL.RemoteRelationship
import Hasura.RQL.DDL.ScheduledTrigger
import Hasura.RQL.DDL.Schema
import Hasura.RQL.DDL.Schema.Source
import Hasura.RQL.DDL.Webhook.Transform
import Hasura.RQL.Types.Allowlist
import Hasura.RQL.Types.ApiLimit
import Hasura.RQL.Types.Backend
import Hasura.RQL.Types.Common
import Hasura.RQL.Types.Endpoint
import Hasura.RQL.Types.EventTrigger
import Hasura.RQL.Types.EventTrigger qualified as ET
import Hasura.RQL.Types.Eventing.Backend (BackendEventTrigger (..))
import Hasura.RQL.Types.Metadata
import Hasura.RQL.Types.Metadata.Backend
import Hasura.RQL.Types.Metadata.Object
import Hasura.RQL.Types.Network
import Hasura.RQL.Types.OpenTelemetry
import Hasura.RQL.Types.QueryCollection
import Hasura.RQL.Types.ScheduledTrigger
import Hasura.RQL.Types.SchemaCache
import Hasura.RQL.Types.SchemaCache.Build
import Hasura.RQL.Types.Source (SourceInfo (..))
import Hasura.RQL.Types.SourceCustomization
import Hasura.SQL.AnyBackend qualified as AB
import Hasura.SQL.Backend (BackendType (..))
import Hasura.SQL.BackendMap qualified as BackendMap
import Network.HTTP.Client.Transformable qualified as HTTP
runClearMetadata ::
forall m r.
( MonadIO m,
CacheRWM m,
MetadataM m,
MonadMetadataStorageQueryAPI m,
MonadBaseControl IO m,
MonadReader r m,
Has (HL.Logger HL.Hasura) r,
MonadEventLogCleanup m
) =>
ClearMetadata ->
m EncJSON
runClearMetadata _ = do
metadata <- getMetadata
-- Clean up all sources, drop hdb_catalog schema from source
for_ (OMap.toList $ _metaSources metadata) $ \(sourceName, backendSourceMetadata) ->
AB.dispatchAnyBackend @BackendMetadata (unBackendSourceMetadata backendSourceMetadata) \(_sourceMetadata :: SourceMetadata b) -> do
sourceInfo <- askSourceInfo @b sourceName
-- We do not bother dropping all dependencies on the source, because the
-- metadata is going to be replaced with an empty metadata. And dropping the
-- depdencies would lead to rebuilding of schema cache which is of no use here
-- since we do not use the rebuilt schema cache. Hence, we only clean up the
-- 'hdb_catalog' tables from the source.
runPostDropSourceHook sourceName sourceInfo
-- We can infer whether the server is started with `--database-url` option
-- (or corresponding env variable) by checking the existence of @'defaultSource'
-- in current metadata.
let maybeDefaultSourceMetadata = metadata ^? metaSources . ix defaultSource . to unBackendSourceMetadata
emptyMetadata' = case maybeDefaultSourceMetadata of
Nothing -> emptyMetadata
Just exists ->
-- If default postgres source is defined, we need to set metadata
-- which contains only default source without any tables and functions.
let emptyDefaultSource =
AB.dispatchAnyBackend @Backend exists \(s :: SourceMetadata b) ->
BackendSourceMetadata $
AB.mkAnyBackend @b $
SourceMetadata
@b
defaultSource
(_smKind @b s)
mempty
mempty
(_smConfiguration @b s)
Nothing
emptySourceCustomization
Nothing
in emptyMetadata
& metaSources %~ OMap.insert defaultSource emptyDefaultSource
runReplaceMetadataV1 $ RMWithSources emptyMetadata'
{- Note [Cleanup for dropped triggers]
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
There was an issue (https://github.com/hasura/graphql-engine/issues/5461)
fixed (via https://github.com/hasura/graphql-engine/pull/6137) related to
event triggers while replacing metadata in the catalog prior to metadata
separation. The metadata separation solves the issue naturally, since the
'hdb_catalog.event_triggers' table is no more in use and new/updated event
triggers are processed in building schema cache. But we need to drop the
database trigger and archive events for dropped event triggers. This is handled
explicitly in @'runReplaceMetadata' function.
-}
-- | Replace the 'current metadata' with the 'new metadata'
-- The 'new metadata' might come via the 'Import Metadata' in console
runReplaceMetadata ::
( CacheRWM m,
MetadataM m,
MonadIO m,
MonadBaseControl IO m,
MonadMetadataStorageQueryAPI m,
MonadReader r m,
Has (HL.Logger HL.Hasura) r,
MonadEventLogCleanup m
) =>
ReplaceMetadata ->
m EncJSON
runReplaceMetadata = \case
RMReplaceMetadataV1 v1args -> runReplaceMetadataV1 v1args
RMReplaceMetadataV2 v2args -> runReplaceMetadataV2 v2args
runReplaceMetadataV1 ::
( CacheRWM m,
MetadataM m,
MonadIO m,
MonadBaseControl IO m,
MonadMetadataStorageQueryAPI m,
MonadReader r m,
Has (HL.Logger HL.Hasura) r,
MonadEventLogCleanup m
) =>
ReplaceMetadataV1 ->
m EncJSON
runReplaceMetadataV1 =
(successMsg <$) . runReplaceMetadataV2 . ReplaceMetadataV2 NoAllowInconsistentMetadata
runReplaceMetadataV2 ::
forall m r.
( CacheRWM m,
MetadataM m,
MonadIO m,
MonadBaseControl IO m,
MonadMetadataStorageQueryAPI m,
MonadReader r m,
Has (HL.Logger HL.Hasura) r,
MonadEventLogCleanup m
) =>
ReplaceMetadataV2 ->
m EncJSON
runReplaceMetadataV2 ReplaceMetadataV2 {..} = do
logger :: (HL.Logger HL.Hasura) <- asks getter
-- we drop all the future cron trigger events before inserting the new metadata
-- and re-populating future cron events below
let introspectionDisabledRoles =
case _rmv2Metadata of
RMWithSources m -> _metaSetGraphqlIntrospectionOptions m
RMWithoutSources _ -> mempty
oldMetadata <- getMetadata
oldSchemaCache <- askSchemaCache
(cronTriggersMetadata, cronTriggersToBeAdded) <- processCronTriggers oldMetadata
metadata <- case _rmv2Metadata of
RMWithSources m -> pure $ m {_metaCronTriggers = cronTriggersMetadata}
RMWithoutSources MetadataNoSources {..} -> do
let maybeDefaultSourceMetadata = oldMetadata ^? metaSources . ix defaultSource . toSourceMetadata
defaultSourceMetadata <-
onNothing maybeDefaultSourceMetadata $
throw400 NotSupported "cannot import metadata without sources since no default source is defined"
let newDefaultSourceMetadata =
BackendSourceMetadata $
AB.mkAnyBackend
defaultSourceMetadata
{ _smTables = _mnsTables,
_smFunctions = _mnsFunctions
}
pure $
Metadata
(OMap.singleton defaultSource newDefaultSourceMetadata)
_mnsRemoteSchemas
_mnsQueryCollections
_mnsAllowlist
_mnsCustomTypes
_mnsActions
cronTriggersMetadata
(_metaRestEndpoints oldMetadata)
emptyApiLimit
emptyMetricsConfig
mempty
introspectionDisabledRoles
emptyNetwork
mempty
emptyOpenTelemetryConfig
putMetadata metadata
let oldSources = _metaSources oldMetadata
let newSources = _metaSources metadata
-- Clean up the sources that are not present in the new metadata
for_ (OMap.toList oldSources) $ \(oldSource, oldSourceBackendMetadata) -> do
-- If the source present in old metadata is not present in the new metadata,
-- clean that source.
onNothing (OMap.lookup oldSource newSources) $ do
AB.dispatchAnyBackend @BackendMetadata (unBackendSourceMetadata oldSourceBackendMetadata) \(_oldSourceMetadata :: SourceMetadata b) -> do
sourceInfo <- askSourceInfo @b oldSource
runPostDropSourceHook oldSource sourceInfo
pure (BackendSourceMetadata (AB.mkAnyBackend _oldSourceMetadata))
-- Check for duplicate trigger names in the new source metadata
for_ (OMap.toList newSources) $ \(source, newBackendSourceMetadata) -> do
for_ (OMap.lookup source oldSources) $ \_oldBackendSourceMetadata ->
dispatch newBackendSourceMetadata \(newSourceMetadata :: SourceMetadata b) -> do
let newTriggerNames = concatMap (OMap.keys . _tmEventTriggers) (OMap.elems $ _smTables newSourceMetadata)
duplicateTriggerNamesInNewMetadata = newTriggerNames \\ (L.uniques newTriggerNames)
unless (null duplicateTriggerNamesInNewMetadata) $ do
throw400 NotSupported ("Event trigger with duplicate names not allowed: " <> dquoteList (map triggerNameToTxt duplicateTriggerNamesInNewMetadata))
let cacheInvalidations =
CacheInvalidations
{ ciMetadata = False,
ciRemoteSchemas = mempty,
ciSources = Set.fromList $ OMap.keys newSources,
ciDataConnectors = mempty
}
buildSchemaCacheWithInvalidations cacheInvalidations mempty
case _rmv2AllowInconsistentMetadata of
AllowInconsistentMetadata -> pure ()
NoAllowInconsistentMetadata -> throwOnInconsistencies
-- populate future cron events for all the new cron triggers that are imported
for_ cronTriggersToBeAdded $ \CronTriggerMetadata {..} ->
populateInitialCronTriggerEvents ctSchedule ctName
-- See Note [Cleanup for dropped triggers]
dropSourceSQLTriggers logger oldSchemaCache (_metaSources oldMetadata) (_metaSources metadata)
generateSQLTriggerCleanupSchedules (_metaSources oldMetadata) (_metaSources metadata)
encJFromJValue . formatInconsistentObjs . scInconsistentObjs <$> askSchemaCache
where
{- Note [Cron triggers behaviour with replace metadata]
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
When the metadata is replaced, we delete only the cron triggers
that were deleted, instead of deleting all the old cron triggers (which
existed in the metadata before it was replaced) and inserting all the
new cron triggers. This is done this way, because when a cron trigger is
dropped, the cron events associated with it will also be dropped from the DB
and when a new cron trigger is added, new cron events are generated by the
graphql-engine. So, this way we only delete and insert the data which has been changed.
The cron triggers that were deleted is calculated by getting a diff
of the old cron triggers and the new cron triggers. Note that we don't just
check the name of the trigger to calculate the diff, the whole cron trigger
definition is considered in the calculation.
Note: Only cron triggers with `include_in_metadata` set to `true` can be updated/deleted
via the replace metadata API. Cron triggers with `include_in_metadata` can only be modified
via the `create_cron_trigger` and `delete_cron_trigger` APIs.
-}
processCronTriggers oldMetadata = do
let (oldCronTriggersIncludedInMetadata, oldCronTriggersNotIncludedInMetadata) =
OMap.partition ctIncludeInMetadata (_metaCronTriggers oldMetadata)
allNewCronTriggers =
case _rmv2Metadata of
RMWithoutSources m -> _mnsCronTriggers m
RMWithSources m -> _metaCronTriggers m
-- this function is intended to use with `Map.differenceWith`, it's used when two
-- equal keys are encountered, then the values are compared to calculate the diff.
-- see https://hackage.haskell.org/package/unordered-containers-0.2.14.0/docs/Data-HashMap-Internal.html#v:differenceWith
leftIfDifferent l r
| l == r = Nothing
| otherwise = Just l
cronTriggersToBeAdded =
Map.differenceWith
leftIfDifferent
(OMap.toHashMap allNewCronTriggers)
(OMap.toHashMap oldCronTriggersIncludedInMetadata)
cronTriggersToBeDropped =
Map.differenceWith
leftIfDifferent
(OMap.toHashMap oldCronTriggersIncludedInMetadata)
(OMap.toHashMap allNewCronTriggers)
dropFutureCronEvents $ MetadataCronTriggers $ Map.keys cronTriggersToBeDropped
cronTriggers <- do
-- traverse over the new cron triggers and check if any of them
-- already exists as a cron trigger with "included_in_metadata: false"
for_ allNewCronTriggers $ \ct ->
when (ctName ct `OMap.member` oldCronTriggersNotIncludedInMetadata) $
throw400 AlreadyExists $
"cron trigger with name "
<> ctName ct
<<> " already exists as a cron trigger with \"included_in_metadata\" as false"
-- we add the old cron triggers with included_in_metadata set to false with the
-- newly added cron triggers
pure $ allNewCronTriggers <> oldCronTriggersNotIncludedInMetadata
pure $ (cronTriggers, cronTriggersToBeAdded)
dropSourceSQLTriggers ::
HL.Logger HL.Hasura ->
SchemaCache ->
InsOrdHashMap SourceName BackendSourceMetadata ->
InsOrdHashMap SourceName BackendSourceMetadata ->
m ()
dropSourceSQLTriggers (HL.Logger logger) oldSchemaCache oldSources newSources = do
-- NOTE: the current implementation of this function has an edge case.
-- The edge case is that when a `SourceA` which contained some event triggers
-- is modified to point to a new database, this function will try to drop the
-- SQL triggers of the dropped event triggers on the new database which doesn't exist.
-- In the current implementation, this doesn't throw an error because the trigger is dropped
-- using `DROP IF EXISTS..` meaning this silently fails without throwing an error.
for_ (OMap.toList newSources) $ \(source, newBackendSourceMetadata) -> do
for_ (OMap.lookup source oldSources) $ \oldBackendSourceMetadata ->
compose source (unBackendSourceMetadata newBackendSourceMetadata) (unBackendSourceMetadata oldBackendSourceMetadata) \(newSourceMetadata :: SourceMetadata b) -> do
dispatch oldBackendSourceMetadata \oldSourceMetadata -> do
let oldTriggersMap = getTriggersMap oldSourceMetadata
newTriggersMap = getTriggersMap newSourceMetadata
droppedEventTriggers = OMap.keys $ oldTriggersMap `OMap.difference` newTriggersMap
retainedNewTriggers = newTriggersMap `OMap.intersection` oldTriggersMap
catcher e@QErr {qeCode}
| qeCode == Unexpected = pure () -- NOTE: This information should be returned by the inconsistent_metadata response, so doesn't need additional logging.
| otherwise = throwError e -- rethrow other errors
-- This will swallow Unexpected exceptions for sources if allow_inconsistent_metadata is enabled
-- This should be ok since if the sources are already missing from the cache then they should
-- not need to be removed.
--
-- TODO: Determine if any errors should be thrown from askSourceConfig at all if the errors are just being discarded
return $
flip catchError catcher do
sourceConfig <- askSourceConfig @b source
for_ droppedEventTriggers $
\triggerName -> do
tableName <- getTableNameFromTrigger @b oldSchemaCache source triggerName
dropTriggerAndArchiveEvents @b sourceConfig triggerName tableName
for_ (OMap.toList retainedNewTriggers) $ \(retainedNewTriggerName, retainedNewTriggerConf) ->
case OMap.lookup retainedNewTriggerName oldTriggersMap of
Nothing -> pure ()
Just oldTriggerConf -> do
let newTriggerOps = etcDefinition retainedNewTriggerConf
oldTriggerOps = etcDefinition oldTriggerConf
isDroppedOp old new = isJust old && isNothing new
droppedOps =
[ (bool Nothing (Just INSERT) (isDroppedOp (tdInsert oldTriggerOps) (tdInsert newTriggerOps))),
(bool Nothing (Just UPDATE) (isDroppedOp (tdUpdate oldTriggerOps) (tdUpdate newTriggerOps))),
(bool Nothing (Just ET.DELETE) (isDroppedOp (tdDelete oldTriggerOps) (tdDelete newTriggerOps)))
]
tableName <- getTableNameFromTrigger @b oldSchemaCache source retainedNewTriggerName
dropDanglingSQLTrigger @b sourceConfig retainedNewTriggerName tableName (Set.fromList $ catMaybes droppedOps)
where
compose ::
SourceName ->
AB.AnyBackend i ->
AB.AnyBackend i ->
(forall b. BackendEventTrigger b => i b -> i b -> m ()) ->
m ()
compose sourceName x y f = AB.composeAnyBackend @BackendEventTrigger f x y (logger $ HL.UnstructuredLog HL.LevelInfo $ SB.fromText $ "Event trigger clean up couldn't be done on the source " <> sourceName <<> " because it has changed its type")
generateSQLTriggerCleanupSchedules ::
InsOrdHashMap SourceName BackendSourceMetadata ->
InsOrdHashMap SourceName BackendSourceMetadata ->
m ()
generateSQLTriggerCleanupSchedules oldSources newSources = do
-- If there are any event trigger cleanup configs with different cron then delete the older schedules
-- generate cleanup logs for new event trigger cleanup config
for_ (OMap.toList newSources) $ \(source, newBackendSourceMetadata) -> do
for_ (OMap.lookup source oldSources) $ \oldBackendSourceMetadata ->
AB.dispatchAnyBackend @BackendEventTrigger (unBackendSourceMetadata newBackendSourceMetadata) \(newSourceMetadata :: SourceMetadata b) -> do
dispatch oldBackendSourceMetadata \oldSourceMetadata -> do
sourceInfo@(SourceInfo _ _ _ sourceConfig _ _) <- askSourceInfo @b source
let getEventMapWithCC sourceMeta = Map.fromList $ concatMap (getAllETWithCleanupConfigInTableMetadata . snd) $ OMap.toList $ _smTables sourceMeta
oldEventTriggersWithCC = getEventMapWithCC oldSourceMetadata
newEventTriggersWithCC = getEventMapWithCC newSourceMetadata
-- event triggers with cleanup config that existed in old metadata but are missing in new metadata
differenceMap = Map.difference oldEventTriggersWithCC newEventTriggersWithCC
for_ (Map.toList differenceMap) $ \(triggerName, cleanupConfig) -> do
deleteAllScheduledCleanups @b sourceConfig triggerName
pure cleanupConfig
for_ (Map.toList newEventTriggersWithCC) $ \(triggerName, cleanupConfig) -> do
(`onLeft` logQErr) =<< generateCleanupSchedules (AB.mkAnyBackend sourceInfo) triggerName cleanupConfig
dispatch (BackendSourceMetadata bs) = AB.dispatchAnyBackend @BackendEventTrigger bs
-- | Only includes the cron triggers with `included_in_metadata` set to `True`
processCronTriggersMetadata :: Metadata -> Metadata
processCronTriggersMetadata metadata =
let cronTriggersIncludedInMetadata = OMap.filter ctIncludeInMetadata $ _metaCronTriggers metadata
in metadata {_metaCronTriggers = cronTriggersIncludedInMetadata}
runExportMetadata ::
forall m.
(QErrM m, MetadataM m) =>
ExportMetadata ->
m EncJSON
runExportMetadata ExportMetadata {} =
encJFromOrderedValue . metadataToOrdJSON <$> (processCronTriggersMetadata <$> getMetadata)
runExportMetadataV2 ::
forall m.
(QErrM m, MetadataM m) =>
MetadataResourceVersion ->
ExportMetadata ->
m EncJSON
runExportMetadataV2 currentResourceVersion ExportMetadata {} = do
exportMetadata <- processCronTriggersMetadata <$> getMetadata
pure $
encJFromOrderedValue $
AO.object
[ ("resource_version", AO.toOrdered currentResourceVersion),
("metadata", metadataToOrdJSON exportMetadata)
]
runReloadMetadata :: (QErrM m, CacheRWM m, MetadataM m) => ReloadMetadata -> m EncJSON
runReloadMetadata (ReloadMetadata reloadRemoteSchemas reloadSources reloadRecreateEventTriggers reloadDataConnectors) = do
metadata <- getMetadata
let allSources = HS.fromList $ OMap.keys $ _metaSources metadata
allRemoteSchemas = HS.fromList $ OMap.keys $ _metaRemoteSchemas metadata
allDataConnectors =
maybe mempty (HS.fromList . OMap.keys . unBackendConfigWrapper) $
BackendMap.lookup @'DataConnector $
_metaBackendConfigs metadata
checkRemoteSchema name =
unless (HS.member name allRemoteSchemas) $
throw400 NotExists $
"Remote schema with name " <> name <<> " not found in metadata"
checkSource name =
unless (HS.member name allSources) $
throw400 NotExists $
"Source with name " <> name <<> " not found in metadata"
checkDataConnector name =
unless (HS.member name allDataConnectors) $
throw400 NotExists $
"Data connector with name " <> name <<> " not found in metadata"
remoteSchemaInvalidations <- case reloadRemoteSchemas of
RSReloadAll -> pure allRemoteSchemas
RSReloadList l -> mapM_ checkRemoteSchema l *> pure l
sourcesInvalidations <- case reloadSources of
RSReloadAll -> pure allSources
RSReloadList l -> mapM_ checkSource l *> pure l
recreateEventTriggersSources <- case reloadRecreateEventTriggers of
RSReloadAll -> pure allSources
RSReloadList l -> mapM_ checkSource l *> pure l
dataConnectorInvalidations <- case reloadDataConnectors of
RSReloadAll -> pure allDataConnectors
RSReloadList l -> mapM_ checkDataConnector l *> pure l
let cacheInvalidations =
CacheInvalidations
{ ciMetadata = True,
ciRemoteSchemas = remoteSchemaInvalidations,
ciSources = sourcesInvalidations,
ciDataConnectors = dataConnectorInvalidations
}
buildSchemaCacheWithOptions (CatalogUpdate $ Just recreateEventTriggersSources) cacheInvalidations metadata
inconsObjs <- scInconsistentObjs <$> askSchemaCache
pure . encJFromJValue . J.object $
[ "message" J..= ("success" :: Text),
"is_consistent" J..= null inconsObjs
]
<> ["inconsistent_objects" J..= inconsObjs | not (null inconsObjs)]
runDumpInternalState ::
(QErrM m, CacheRM m) =>
DumpInternalState ->
m EncJSON
runDumpInternalState _ =
encJFromJValue <$> askSchemaCache
runGetInconsistentMetadata ::
(QErrM m, CacheRM m) =>
GetInconsistentMetadata ->
m EncJSON
runGetInconsistentMetadata _ = do
inconsObjs <- scInconsistentObjs <$> askSchemaCache
return $ encJFromJValue $ formatInconsistentObjs inconsObjs
formatInconsistentObjs :: [InconsistentMetadata] -> J.Value
formatInconsistentObjs inconsObjs =
J.object
[ "is_consistent" J..= null inconsObjs,
"inconsistent_objects" J..= inconsObjs
]
runDropInconsistentMetadata ::
(QErrM m, CacheRWM m, MetadataM m) =>
DropInconsistentMetadata ->
m EncJSON
runDropInconsistentMetadata _ = do
sc <- askSchemaCache
let inconsSchObjs = L.nub . concatMap imObjectIds $ scInconsistentObjs sc
-- Note: when building the schema cache, we try to put dependents after their dependencies in the
-- list of inconsistent objects, so reverse the list to start with dependents first. This is not
-- perfect — a completely accurate solution would require performing a topological sort — but it
-- seems to work well enough for now.
MetadataModifier {..} <- execWriterT $ mapM_ (tell . purgeMetadataObj) (reverse inconsSchObjs)
metadata <- getMetadata
putMetadata $ runMetadataModifier metadata
buildSchemaCache mempty
-- after building the schema cache, we need to check the inconsistent metadata, if any
-- are only those which are not droppable
newInconsistentObjects <- scInconsistentObjs <$> askSchemaCache
let droppableInconsistentObjects = filter droppableInconsistentMetadata newInconsistentObjects
unless (null droppableInconsistentObjects) $
throwError
(err400 Unexpected "cannot continue due to new inconsistent metadata")
{ qeInternal = Just $ ExtraInternal $ J.toJSON newInconsistentObjects
}
return successMsg
purgeMetadataObj :: MetadataObjId -> MetadataModifier
purgeMetadataObj = \case
MOSource source -> MetadataModifier $ metaSources %~ OMap.delete source
MOSourceObjId source exists -> AB.dispatchAnyBackend @BackendMetadata exists $ handleSourceObj source
MORemoteSchema rsn -> dropRemoteSchemaInMetadata rsn
MORemoteSchemaPermissions rsName role -> dropRemoteSchemaPermissionInMetadata rsName role
MORemoteSchemaRemoteRelationship rsName typeName relName ->
dropRemoteSchemaRemoteRelationshipInMetadata rsName typeName relName
MOCustomTypes -> clearCustomTypesInMetadata
MOAction action -> dropActionInMetadata action -- Nothing
MOActionPermission action role -> dropActionPermissionInMetadata action role
MOCronTrigger ctName -> dropCronTriggerInMetadata ctName
MOEndpoint epName -> dropEndpointInMetadata epName
MOInheritedRole role -> dropInheritedRoleInMetadata role
MOQueryCollectionsQuery cName lq -> dropListedQueryFromQueryCollections cName lq
MODataConnectorAgent agentName ->
MetadataModifier $
metaBackendConfigs
%~ BackendMap.modify @'DataConnector (BackendConfigWrapper . OMap.delete agentName . unBackendConfigWrapper)
MOOpenTelemetry subobject ->
case subobject of
OtelSubobjectAll ->
MetadataModifier $ metaOpenTelemetryConfig .~ emptyOpenTelemetryConfig
OtelSubobjectExporterOtlp ->
MetadataModifier $ metaOpenTelemetryConfig . ocExporterOtlp .~ defaultOtelExporterConfig
OtelSubobjectBatchSpanProcessor ->
MetadataModifier $ metaOpenTelemetryConfig . ocBatchSpanProcessor .~ defaultOtelBatchSpanProcessorConfig
where
handleSourceObj :: forall b. BackendMetadata b => SourceName -> SourceMetadataObjId b -> MetadataModifier
handleSourceObj source = \case
SMOTable qt -> dropTableInMetadata @b source qt
SMOFunction qf -> dropFunctionInMetadata @b source qf
SMOFunctionPermission qf rn -> dropFunctionPermissionInMetadata @b source qf rn
SMOTableObj qt tableObj ->
MetadataModifier $
tableMetadataSetter @b source qt %~ case tableObj of
MTORel rn _ -> dropRelationshipInMetadata rn
MTOPerm rn pt -> dropPermissionInMetadata rn pt
MTOTrigger trn -> dropEventTriggerInMetadata trn
MTOComputedField ccn -> dropComputedFieldInMetadata ccn
MTORemoteRelationship rn -> dropRemoteRelationshipInMetadata rn
dropListedQueryFromQueryCollections :: CollectionName -> ListedQuery -> MetadataModifier
dropListedQueryFromQueryCollections cName lq = MetadataModifier $ removeAndCleanupMetadata
where
removeAndCleanupMetadata m =
let newQueryCollection = filteredCollection (_metaQueryCollections m)
-- QueryCollections = InsOrdHashMap CollectionName CreateCollection
filteredCollection :: QueryCollections -> QueryCollections
filteredCollection qc = OMap.filter (isNonEmptyCC) $ OMap.adjust (collectionModifier) (cName) qc
collectionModifier :: CreateCollection -> CreateCollection
collectionModifier cc@CreateCollection {..} =
cc
{ _ccDefinition =
let oldQueries = _cdQueries _ccDefinition
in _ccDefinition
{ _cdQueries = filter (/= lq) oldQueries
}
}
isNonEmptyCC :: CreateCollection -> Bool
isNonEmptyCC = not . null . _cdQueries . _ccDefinition
cleanupAllowList :: MetadataAllowlist -> MetadataAllowlist
cleanupAllowList = OMap.filterWithKey (\_ _ -> OMap.member cName newQueryCollection)
cleanupRESTEndpoints :: Endpoints -> Endpoints
cleanupRESTEndpoints endpoints = OMap.filter (not . isFaultyQuery . _edQuery . _ceDefinition) endpoints
isFaultyQuery :: QueryReference -> Bool
isFaultyQuery QueryReference {..} = _qrCollectionName == cName && _qrQueryName == (_lqName lq)
in m
{ _metaQueryCollections = newQueryCollection,
_metaAllowlist = cleanupAllowList (_metaAllowlist m),
_metaRestEndpoints = cleanupRESTEndpoints (_metaRestEndpoints m)
}
runGetCatalogState ::
(MonadMetadataStorageQueryAPI m) => GetCatalogState -> m EncJSON
runGetCatalogState _ =
encJFromJValue <$> fetchCatalogState
runSetCatalogState ::
(MonadMetadataStorageQueryAPI m) => SetCatalogState -> m EncJSON
runSetCatalogState SetCatalogState {..} = do
updateCatalogState _scsType _scsState
pure successMsg
runSetMetricsConfig ::
(MonadIO m, CacheRWM m, MetadataM m, MonadError QErr m) =>
MetricsConfig ->
m EncJSON
runSetMetricsConfig mc = do
withNewInconsistentObjsCheck $
buildSchemaCache $
MetadataModifier $
metaMetricsConfig .~ mc
pure successMsg
runRemoveMetricsConfig ::
(MonadIO m, CacheRWM m, MetadataM m, MonadError QErr m) =>
m EncJSON
runRemoveMetricsConfig = do
withNewInconsistentObjsCheck $
buildSchemaCache $
MetadataModifier $
metaMetricsConfig .~ emptyMetricsConfig
pure successMsg
data TestTransformError
= RequestInitializationError HTTP.HttpException
| RequestTransformationError HTTP.Request TransformErrorBundle
runTestWebhookTransform ::
(QErrM m) =>
TestWebhookTransform ->
m EncJSON
runTestWebhookTransform (TestWebhookTransform env headers urlE payload rt _ sv) = do
url <- case urlE of
URL url' -> interpolateFromEnv env url'
EnvVar var ->
let err = throwError $ err400 NotFound "Missing Env Var"
in maybe err (pure . T.pack) $ Env.lookupEnv env var
headers' <- traverse (traverse (fmap TE.encodeUtf8 . interpolateFromEnv env . TE.decodeUtf8)) headers
result <- runExceptT $ do
initReq <- hoistEither $ first RequestInitializationError $ HTTP.mkRequestEither url
let req = initReq & HTTP.body .~ pure (J.encode payload) & HTTP.headers .~ headers'
reqTransform = requestFields rt
engine = templateEngine rt
reqTransformCtx = fmap mkRequestContext $ mkReqTransformCtx url sv engine
hoistEither $ first (RequestTransformationError req) $ applyRequestTransform reqTransformCtx reqTransform req
case result of
Right transformed ->
packTransformResult $ Right transformed
Left (RequestTransformationError _ err) -> packTransformResult (Left err)
-- NOTE: In the following case we have failed before producing a valid request.
Left (RequestInitializationError err) ->
let errorBundle =
TransformErrorBundle $
pure $
J.object ["error_code" J..= J.String "Request Initialization Error", "message" J..= J.String (tshow err)]
in throw400WithDetail ValidationFailed "request transform validation failed" $ J.toJSON errorBundle
interpolateFromEnv :: MonadError QErr m => Env.Environment -> Text -> m Text
interpolateFromEnv env url =
case AT.parseOnly parseEnvTemplate url of
Left _ -> throwError $ err400 ParseFailed "Invalid Url Template"
Right xs ->
let lookup' var = maybe (Left var) (Right . T.pack) $ Env.lookupEnv env (T.unpack var)
result = traverse (fmap indistinct . bitraverse lookup' pure) xs
err e =
throwError $
err400 NotFound $
"Missing Env Var: "
<> e
<> ". For security reasons when testing request options real environment variable values are not available. Please enter a mock value for "
<> e
<> " in the Sample Env Variables list. See https://hasura.io/docs/latest/graphql/core/actions/rest-connectors/#action-transforms-sample-context"
in either err (pure . fold) result
-- | Deserialize a JSON or X-WWW-URL-FORMENCODED body from an
-- 'HTTP.Request' as 'J.Value'.
decodeBody :: Maybe BL.ByteString -> J.Value
decodeBody Nothing = J.Null
decodeBody (Just bs) = fromMaybe J.Null $ jsonToValue bs <|> formUrlEncodedToValue bs
-- | Attempt to encode a 'ByteString' as an Aeson 'Value'
jsonToValue :: BL.ByteString -> Maybe J.Value
jsonToValue bs = J.decode bs
-- | Quote a 'ByteString' then attempt to encode it as a JSON
-- String. This is necessary for 'x-www-url-formencoded' bodies. They
-- are a list of key/value pairs encoded as a raw 'ByteString' with no
-- quoting whereas JSON Strings must be quoted.
formUrlEncodedToValue :: BL.ByteString -> Maybe J.Value
formUrlEncodedToValue bs = J.decode ("\"" <> bs <> "\"")
parseEnvTemplate :: AT.Parser [Either T.Text T.Text]
parseEnvTemplate = AT.many1 $ pEnv <|> pLit <|> fmap Right "{"
where
pEnv = fmap (Left) $ "{{" *> AT.takeWhile1 (/= '}') <* "}}"
pLit = fmap Right $ AT.takeWhile1 (/= '{')
indistinct :: Either a a -> a
indistinct = either id id
packTransformResult :: (MonadError QErr m) => Either TransformErrorBundle HTTP.Request -> m EncJSON
packTransformResult = \case
Right req ->
pure . encJFromJValue $
J.object
[ "webhook_url" J..= (req ^. HTTP.url),
"method" J..= (req ^. HTTP.method),
"headers" J..= (first CI.foldedCase <$> (req ^. HTTP.headers)),
"body" J..= decodeBody (req ^. HTTP.body)
]
Left err -> throw400WithDetail ValidationFailed "request transform validation failed" $ J.toJSON err