graphql-engine/server/src-lib/Hasura/GraphQL/Schema.hs
Antoine Leblanc 2152911e24 server: introduce Hasura.Base (take 2)
GitOrigin-RevId: 0dd10f1ccd338b1cf382ebff59b6ee7f209d39a1
2021-05-11 15:19:33 +00:00

713 lines
34 KiB
Haskell

{-# LANGUAGE Arrows #-}
{-# LANGUAGE ViewPatterns #-}
module Hasura.GraphQL.Schema
( buildGQLContext
) where
import Hasura.Prelude
import qualified Data.Aeson as J
import qualified Data.HashMap.Strict as Map
import qualified Data.HashMap.Strict.InsOrd as OMap
import qualified Data.HashSet as Set
import qualified Language.GraphQL.Draft.Syntax as G
import Control.Arrow.Extended
import Control.Lens.Extended
import Control.Monad.Unique
import Data.Has
import Data.List.Extended (duplicates)
import Data.Text.Extended
import qualified Hasura.GraphQL.Parser as P
import qualified Hasura.SQL.AnyBackend as AB
import Hasura.Base.Error
import Hasura.GraphQL.Context
import Hasura.GraphQL.Execute.Types
import Hasura.GraphQL.Parser (Kind (..), Parser, Schema (..),
UnpreparedValue (..))
import Hasura.GraphQL.Parser.Class
import Hasura.GraphQL.Parser.Internal.Parser (FieldParser (..))
import Hasura.GraphQL.Schema.Backend
import Hasura.GraphQL.Schema.Common
import Hasura.GraphQL.Schema.Instances ()
import Hasura.GraphQL.Schema.Introspect
import Hasura.GraphQL.Schema.Postgres
import Hasura.GraphQL.Schema.Remote (buildRemoteParser)
import Hasura.GraphQL.Schema.Select
import Hasura.GraphQL.Schema.Table
import Hasura.RQL.DDL.Schema.Cache.Common
import Hasura.RQL.Types
import Hasura.Session
----------------------------------------------------------------
-- Building contexts
buildGQLContext
:: forall arr m
. ( ArrowChoice arr
, ArrowWriter (Seq InconsistentMetadata) arr
, ArrowKleisli m arr
, MonadError QErr m
, MonadIO m
, MonadUnique m
, HasServerConfigCtx m
)
=> ( GraphQLQueryType
, SourceCache
, RemoteSchemaCache
, ActionCache
, NonObjectTypeMap
)
`arr`
( HashMap RoleName (RoleContext GQLContext)
, GQLContext
)
buildGQLContext =
proc (queryType, sources, allRemoteSchemas, allActions, nonObjectCustomTypes) -> do
ServerConfigCtx functionPermsCtx remoteSchemaPermsCtx sqlGenCtx@(SQLGenCtx stringifyNum boolCollapse) _maintenanceMode _experimentalFeatures <-
bindA -< askServerConfigCtx
let remoteSchemasRoles = concatMap (Map.keys . _rscPermissions . fst . snd) $ Map.toList allRemoteSchemas
let nonTableRoles =
Set.insert adminRoleName $
(allActionInfos ^.. folded.aiPermissions.to Map.keys.folded)
<> Set.fromList (bool mempty remoteSchemasRoles $ remoteSchemaPermsCtx == RemoteSchemaPermsEnabled)
allActionInfos = Map.elems allActions
allTableRoles = Set.fromList $ getTableRoles =<< Map.elems sources
adminRemoteRelationshipQueryCtx =
allRemoteSchemas
<&> (\(remoteSchemaCtx, _metadataObj) ->
(_rscIntro remoteSchemaCtx, _rscParsed remoteSchemaCtx))
allRoles :: Set.HashSet RoleName
allRoles = nonTableRoles <> allTableRoles
-- The function permissions context doesn't actually matter because the
-- admin will have access to the function anyway
adminQueryContext = QueryContext
stringifyNum
boolCollapse
queryType
adminRemoteRelationshipQueryCtx
FunctionPermissionsInferred
-- build the admin DB-only context so that we can check against name clashes with remotes
-- TODO: Is there a better way to check for conflicts without actually building the admin schema?
adminHasuraDBContext <- bindA -<
buildFullestDBSchema adminQueryContext sources allActionInfos nonObjectCustomTypes
-- TODO factor out the common function; throw500 in both cases:
queryFieldNames :: [G.Name] <- bindA -<
case P.discardNullability $ P.parserType $ fst adminHasuraDBContext of
-- It really ought to be this case; anything else is a programming error.
P.TNamed (P.Definition _ _ _ (P.TIObject (P.ObjectInfo rootFields _interfaces))) ->
pure $ fmap P.dName rootFields
_ -> throw500 "We encountered an root query of unexpected GraphQL type. It should be an object type."
let mutationFieldNames :: [G.Name]
mutationFieldNames =
case P.discardNullability . P.parserType <$> snd adminHasuraDBContext of
Just (P.TNamed def) ->
case P.dInfo def of
-- It really ought to be this case; anything else is a programming error.
P.TIObject (P.ObjectInfo rootFields _interfaces) -> fmap P.dName rootFields
_ -> []
_ -> []
-- This block of code checks that there are no conflicting root field names between remotes.
remotes <- remoteSchemaFields -< (queryFieldNames, mutationFieldNames, allRemoteSchemas)
let adminQueryRemotes = concatMap (piQuery . snd . snd) remotes
adminMutationRemotes = concatMap (concat . piMutation . snd . snd) remotes
roleContexts <- bindA -<
( Set.toMap allRoles & Map.traverseWithKey \role () ->
case queryType of
QueryHasura ->
buildRoleContext (sqlGenCtx, queryType, functionPermsCtx) sources allRemoteSchemas allActionInfos
nonObjectCustomTypes remotes role remoteSchemaPermsCtx
QueryRelay ->
buildRelayRoleContext (sqlGenCtx, queryType, functionPermsCtx) sources allActionInfos
nonObjectCustomTypes role
)
unauthenticated <- bindA -< unauthenticatedContext adminQueryRemotes adminMutationRemotes remoteSchemaPermsCtx
returnA -< (roleContexts, unauthenticated)
buildRoleContext
:: forall m. (MonadError QErr m, MonadIO m, MonadUnique m)
=> (SQLGenCtx, GraphQLQueryType, FunctionPermissionsCtx) -> SourceCache -> RemoteSchemaCache
-> [ActionInfo] -> NonObjectTypeMap
-> [( RemoteSchemaName , (IntrospectionResult, ParsedIntrospection))]
-> RoleName
-> RemoteSchemaPermsCtx
-> m (RoleContext GQLContext)
buildRoleContext (SQLGenCtx stringifyNum boolCollapse, queryType, functionPermsCtx) sources
allRemoteSchemas allActionInfos nonObjectCustomTypes remotes role remoteSchemaPermsCtx = do
roleBasedRemoteSchemas <-
if | role == adminRoleName -> pure remotes
| remoteSchemaPermsCtx == RemoteSchemaPermsEnabled -> buildRoleBasedRemoteSchemaParser role allRemoteSchemas
-- when remote schema permissions are not enabled, then remote schemas
-- are a public entity which is accesible to all the roles
| otherwise -> pure remotes
let queryRemotes = getQueryRemotes $ snd . snd <$> roleBasedRemoteSchemas
mutationRemotes = getMutationRemotes $ snd . snd <$> roleBasedRemoteSchemas
remoteRelationshipQueryContext = Map.fromList roleBasedRemoteSchemas
roleQueryContext = QueryContext
stringifyNum
boolCollapse
queryType
remoteRelationshipQueryContext
functionPermsCtx
buildSource :: forall b. BackendSchema b => SourceInfo b ->
m ( [FieldParser (P.ParseT Identity) (QueryRootField UnpreparedValue)]
, [FieldParser (P.ParseT Identity) (MutationRootField UnpreparedValue)]
, [FieldParser (P.ParseT Identity) (MutationRootField UnpreparedValue)]
)
buildSource (SourceInfo sourceName tables functions sourceConfig) = do
let validFunctions = takeValidFunctions functions
validTables = takeValidTables tables
xNodesAgg = nodesAggExtension @b sourceConfig
xRelay = relayExtension @b sourceConfig
runMonadSchema role roleQueryContext sources (BackendExtension @b xRelay xNodesAgg) $
(,,)
<$> buildQueryFields sourceName sourceConfig validTables validFunctions
<*> buildMutationFields Frontend sourceName sourceConfig validTables validFunctions
<*> buildMutationFields Backend sourceName sourceConfig validTables validFunctions
fieldsList <- traverse (buildBackendSource buildSource) $ toList sources
let (queryFields, mutationFrontendFields, mutationBackendFields) = mconcat fieldsList
-- It's okay to run the rest of this while assuming that the backend is 'Postgres:
-- the only remaining parsers are for actions, that are postgres specific, or for
-- remotes, which are backend-agnostic.
-- In the long term, all backend-specific processing should be moved to `buildSource`, and this
-- block should be running in the schema for a `None` backend.
runMonadSchema role roleQueryContext sources (BackendExtension @('Postgres 'Vanilla) (Just ()) (Just ())) $ do
mutationParserFrontend <-
buildMutationParser mutationRemotes allActionInfos nonObjectCustomTypes mutationFrontendFields
mutationParserBackend <-
buildMutationParser mutationRemotes allActionInfos nonObjectCustomTypes mutationBackendFields
subscriptionParser <- buildSubscriptionParser queryFields allActionInfos
queryParserFrontend <- buildQueryParser queryFields queryRemotes
allActionInfos nonObjectCustomTypes mutationParserFrontend subscriptionParser
queryParserBackend <- buildQueryParser queryFields queryRemotes
allActionInfos nonObjectCustomTypes mutationParserBackend subscriptionParser
let frontendContext = GQLContext (finalizeParser queryParserFrontend)
(finalizeParser <$> mutationParserFrontend)
let backendContext = GQLContext (finalizeParser queryParserBackend)
(finalizeParser <$> mutationParserBackend)
pure $ RoleContext frontendContext $ Just backendContext
where
getQueryRemotes
:: [ParsedIntrospection]
-> [P.FieldParser (P.ParseT Identity) RemoteField]
getQueryRemotes = concatMap piQuery
getMutationRemotes
:: [ParsedIntrospection]
-> [P.FieldParser (P.ParseT Identity) RemoteField]
getMutationRemotes = concatMap (concat . piMutation)
buildRelayRoleContext
:: forall m. (MonadError QErr m, MonadIO m, MonadUnique m)
=> (SQLGenCtx, GraphQLQueryType, FunctionPermissionsCtx) -> SourceCache -> [ActionInfo] -> NonObjectTypeMap
-> RoleName
-> m (RoleContext GQLContext)
buildRelayRoleContext (SQLGenCtx stringifyNum boolCollapse, queryType, functionPermsCtx) sources
allActionInfos nonObjectCustomTypes role = do
-- TODO: At the time of writing this, remote schema queries are not supported in relay.
-- When they are supported, we should get do what `buildRoleContext` does. Since, they
-- are not supported yet, we use `mempty` below for `RemoteRelationshipQueryContext`.
let roleQueryContext = QueryContext
stringifyNum
boolCollapse
queryType
mempty
functionPermsCtx
buildSource :: forall b. BackendSchema b => SourceInfo b ->
m ( [FieldParser (P.ParseT Identity) (QueryRootField UnpreparedValue)]
, [FieldParser (P.ParseT Identity) (MutationRootField UnpreparedValue)]
, [FieldParser (P.ParseT Identity) (MutationRootField UnpreparedValue)]
)
buildSource (SourceInfo sourceName tables functions sourceConfig) = do
let validFunctions = takeValidFunctions functions
validTables = takeValidTables tables
xNodesAgg = nodesAggExtension @b sourceConfig
xRelay = relayExtension @b sourceConfig
runMonadSchema role roleQueryContext sources (BackendExtension @b xRelay xNodesAgg) $
(,,)
<$> buildRelayQueryFields sourceName sourceConfig validTables validFunctions
<*> buildMutationFields Frontend sourceName sourceConfig validTables validFunctions
<*> buildMutationFields Backend sourceName sourceConfig validTables validFunctions
fieldsList <- traverse (buildBackendSource buildSource) $ toList sources
-- It's okay to run the rest of this while assuming that the backend is 'Postgres:
-- the only remaining parsers are for actions, that are postgres specific, or for
-- remotes, which are backend-agnostic.
-- In the long term, all backend-specific processing should be moved to `buildSource`, and this
-- block should be running in the schema for a `None` backend.
runMonadSchema role roleQueryContext sources (BackendExtension @('Postgres 'Vanilla) (Just ()) (Just ())) $ do
-- Add node root field.
-- FIXME: for now this is PG-only. This isn't a problem yet since for now only PG supports relay.
-- To fix this, we'd need to first generalize `nodeField`.
nodeField_ <- nodeField
let (queryPGFields', mutationFrontendFields, mutationBackendFields) = mconcat fieldsList
queryPGFields = nodeField_:queryPGFields'
-- Remote schema mutations aren't exposed in relay because many times it throws
-- the conflicting definitions error between the relay types like `Node`, `PageInfo` etc
mutationParserFrontend <-
buildMutationParser mempty allActionInfos nonObjectCustomTypes mutationFrontendFields
mutationParserBackend <-
buildMutationParser mempty allActionInfos nonObjectCustomTypes mutationBackendFields
subscriptionParser <- P.safeSelectionSet subscriptionRoot Nothing queryPGFields
<&> fmap (fmap (P.handleTypename (RFRaw . J.String. G.unName)))
queryParserFrontend <- queryWithIntrospectionHelper queryPGFields
mutationParserFrontend subscriptionParser
queryParserBackend <- queryWithIntrospectionHelper queryPGFields
mutationParserBackend subscriptionParser
let frontendContext = GQLContext (finalizeParser queryParserFrontend)
(finalizeParser <$> mutationParserFrontend)
let backendContext = GQLContext (finalizeParser queryParserBackend)
(finalizeParser <$> mutationParserBackend)
pure $ RoleContext frontendContext $ Just backendContext
buildFullestDBSchema
:: forall m. (MonadError QErr m, MonadIO m, MonadUnique m)
=> QueryContext -> SourceCache -> [ActionInfo] -> NonObjectTypeMap
-> m ( Parser 'Output (P.ParseT Identity) (OMap.InsOrdHashMap G.Name (QueryRootField UnpreparedValue))
, Maybe (Parser 'Output (P.ParseT Identity) (OMap.InsOrdHashMap G.Name (MutationRootField UnpreparedValue)))
)
buildFullestDBSchema queryContext sources allActionInfos nonObjectCustomTypes = do
let buildSource :: forall b. BackendSchema b => SourceInfo b ->
m ( [FieldParser (P.ParseT Identity) (QueryRootField UnpreparedValue)]
, [FieldParser (P.ParseT Identity) (MutationRootField UnpreparedValue)]
)
buildSource (SourceInfo sourceName tables functions sourceConfig) = do
let validFunctions = takeValidFunctions functions
validTables = takeValidTables tables
xNodesAgg = nodesAggExtension @b sourceConfig
xRelay = relayExtension @b sourceConfig
runMonadSchema adminRoleName queryContext sources (BackendExtension @b xRelay xNodesAgg) $
(,)
<$> buildQueryFields sourceName sourceConfig validTables validFunctions
<*> buildMutationFields Frontend sourceName sourceConfig validTables validFunctions
fieldsList <- traverse (buildBackendSource buildSource) $ toList sources
let (queryFields, mutationFrontendFields) = mconcat fieldsList
-- It's okay to run the rest of this while assuming that the backend is 'Postgres:
-- the only remaining parsers are for actions, that are postgres specific, or for
-- remotes, which are backend-agnostic.
-- In the long term, all backend-specific processing should be moved to `buildSource`, and this
-- block should be running in the schema for a `None` backend.
runMonadSchema adminRoleName queryContext sources (BackendExtension @('Postgres 'Vanilla) (Just ()) (Just ())) $ do
mutationParserFrontend <-
-- NOTE: we omit remotes here on purpose since we're trying to check name
-- clashes with remotes:
buildMutationParser mempty allActionInfos nonObjectCustomTypes mutationFrontendFields
subscriptionParser <- buildSubscriptionParser queryFields allActionInfos
queryParserFrontend <- buildQueryParser queryFields mempty
allActionInfos nonObjectCustomTypes mutationParserFrontend subscriptionParser
pure (queryParserFrontend, mutationParserFrontend)
-- The `unauthenticatedContext` is used when the user queries the graphql-engine
-- with a role that it's unaware of. Before remote schema permissions, remotes
-- were considered to be a public entity, hence, we allowed an unknown role also
-- to query the remotes. To maintain backwards compatibility, we check if the
-- remote schema permissions are enabled, and if it's we don't expose the remote
-- schema fields in the unauthenticatedContext, otherwise we expose them.
unauthenticatedContext
:: forall m
. ( MonadError QErr m
, MonadIO m
, MonadUnique m
)
=> [P.FieldParser (P.ParseT Identity) RemoteField]
-> [P.FieldParser (P.ParseT Identity) RemoteField]
-> RemoteSchemaPermsCtx
-> m GQLContext
unauthenticatedContext adminQueryRemotes adminMutationRemotes remoteSchemaPermsCtx = P.runSchemaT $ do
let isRemoteSchemaPermsEnabled = remoteSchemaPermsCtx == RemoteSchemaPermsEnabled
queryFields = bool (fmap (fmap RFRemote) adminQueryRemotes) [] isRemoteSchemaPermsEnabled
mutationFields = bool (fmap (fmap RFRemote) adminMutationRemotes) [] isRemoteSchemaPermsEnabled
mutationParser <-
if null adminMutationRemotes
then pure Nothing
else P.safeSelectionSet mutationRoot Nothing mutationFields
<&> Just . fmap (fmap (P.handleTypename (RFRaw . J.String . G.unName)))
subscriptionParser <-
P.safeSelectionSet subscriptionRoot Nothing []
<&> fmap (fmap (P.handleTypename (RFRaw . J.String . G.unName)))
queryParser <- queryWithIntrospectionHelper queryFields mutationParser subscriptionParser
pure $ GQLContext (finalizeParser queryParser) (finalizeParser <$> mutationParser)
----------------------------------------------------------------
-- Building parser fields
buildRoleBasedRemoteSchemaParser
:: forall m
. (MonadError QErr m, MonadUnique m, MonadIO m)
=> RoleName
-> RemoteSchemaCache
-> m [(RemoteSchemaName, (IntrospectionResult, ParsedIntrospection))]
buildRoleBasedRemoteSchemaParser roleName remoteSchemaCache = do
let remoteSchemaIntroInfos = map fst $ toList remoteSchemaCache
remoteSchemaPerms <-
for remoteSchemaIntroInfos $ \(RemoteSchemaCtx remoteSchemaName _ remoteSchemaInfo _ _ permissions) ->
for (Map.lookup roleName permissions) $ \introspectRes -> do
(queryParsers, mutationParsers, subscriptionParsers) <-
P.runSchemaT @m @(P.ParseT Identity) $ buildRemoteParser introspectRes remoteSchemaInfo
let parsedIntrospection = ParsedIntrospection queryParsers mutationParsers subscriptionParsers
return (remoteSchemaName, (introspectRes, parsedIntrospection))
return $ catMaybes remoteSchemaPerms
-- checks that there are no conflicting root field names between remotes and
-- hasura fields
remoteSchemaFields
:: forall arr m
. ( ArrowChoice arr
, ArrowWriter (Seq InconsistentMetadata) arr
, ArrowKleisli m arr
, MonadError QErr m
)
=> ([G.Name], [G.Name], HashMap RemoteSchemaName (RemoteSchemaCtx, MetadataObject))
`arr`
[( RemoteSchemaName , (IntrospectionResult, ParsedIntrospection))]
remoteSchemaFields = proc (queryFieldNames, mutationFieldNames, allRemoteSchemas) -> do
(| foldlA' (\okSchemas (newSchemaName, (newSchemaContext, newMetadataObject)) -> do
checkedDuplicates <- (| withRecordInconsistency (do
let (queryOld, mutationOld) =
unzip $ fmap ((\case ParsedIntrospection q m _ -> (q,m)) . snd . snd) okSchemas
let ParsedIntrospection queryNew mutationNew _subscriptionNew
= _rscParsed newSchemaContext
-- Check for conflicts between remotes
bindErrorA -<
for_ (duplicates (fmap (P.getName . fDefinition) (queryNew ++ concat queryOld))) $
\name -> throw400 Unexpected $ "Duplicate remote field " <> squote name
-- Check for conflicts between this remote and the tables
bindErrorA -<
for_ (duplicates (fmap (P.getName . fDefinition) queryNew ++ queryFieldNames)) $
\name -> throw400 RemoteSchemaConflicts $ "Field cannot be overwritten by remote field " <> squote name
-- Ditto, but for mutations
case mutationNew of
Nothing -> returnA -< ()
Just ms -> do
bindErrorA -<
for_ (duplicates (fmap (P.getName . fDefinition) (ms ++ concat (catMaybes mutationOld)))) $
\name -> throw400 Unexpected $ "Duplicate remote field " <> squote name
-- Ditto, but for mutations
bindErrorA -<
for_ (duplicates (fmap (P.getName . fDefinition) ms ++ mutationFieldNames)) $
\name -> throw400 Unexpected $ "Field cannot be overwritten by remote field " <> squote name
-- No need to check subscriptions as these are not supported
returnA -< ()
) |) newMetadataObject
case checkedDuplicates of
Nothing -> returnA -< okSchemas
Just _ -> returnA -< (newSchemaName, ( _rscIntro newSchemaContext,_rscParsed newSchemaContext)):okSchemas
) |) [] (Map.toList allRemoteSchemas)
buildQueryFields
:: forall b r m n
. MonadBuildSchema b r m n
=> SourceName
-> SourceConfig b
-> TableCache b
-> FunctionCache b
-> m [P.FieldParser n (QueryRootField UnpreparedValue)]
buildQueryFields sourceName sourceConfig tables (takeExposedAs FEAQuery -> functions) = do
roleName <- askRoleName
functionPermsCtx <- asks $ qcFunctionPermsContext . getter
tableSelectExpParsers <- for (Map.toList tables) \(tableName, tableInfo) -> do
tableGQLName <- getTableGQLName @b tableName
-- FIXME: retrieve permissions directly from tableInfo to avoid a sourceCache lookup
selectPerms <- tableSelectPermissions tableName
for selectPerms $ buildTableQueryFields sourceName sourceConfig tableName tableInfo tableGQLName
functionSelectExpParsers <- for (Map.toList functions) \(functionName, functionInfo) -> runMaybeT $ do
guard
$ roleName == adminRoleName
|| roleName `elem` _fiPermissions functionInfo
|| functionPermsCtx == FunctionPermissionsInferred
let targetTable = _fiReturnType functionInfo
selectPerms <- MaybeT $ tableSelectPermissions targetTable
lift $ buildFunctionQueryFields sourceName sourceConfig functionName functionInfo targetTable selectPerms
pure $ concat $ catMaybes $ tableSelectExpParsers <> functionSelectExpParsers
buildRelayQueryFields
:: forall b r m n
. MonadBuildSchema b r m n
=> SourceName
-> SourceConfig b
-> TableCache b
-> FunctionCache b
-> m [P.FieldParser n (QueryRootField UnpreparedValue)]
buildRelayQueryFields sourceName sourceConfig tables (takeExposedAs FEAQuery -> functions) = do
tableConnectionFields <- for (Map.toList tables) \(tableName, tableInfo) -> runMaybeT do
tableGQLName <- getTableGQLName @b tableName
pkeyColumns <- hoistMaybe $ tableInfo ^? tiCoreInfo.tciPrimaryKey._Just.pkColumns
-- FIXME: retrieve permissions directly from tableInfo to avoid a sourceCache lookup
selectPerms <- MaybeT $ tableSelectPermissions tableName
MaybeT $ buildTableRelayQueryFields sourceName sourceConfig tableName tableInfo tableGQLName pkeyColumns selectPerms
functionConnectionFields <- for (Map.toList functions) $ \(functionName, functionInfo) -> runMaybeT do
let returnTable = _fiReturnType functionInfo
-- FIXME: only extract the TableInfo once to avoid redundant cache lookups
pkeyColumns <- MaybeT $ (^? tiCoreInfo.tciPrimaryKey._Just.pkColumns) <$> askTableInfo returnTable
selectPerms <- MaybeT $ tableSelectPermissions returnTable
MaybeT $ buildFunctionRelayQueryFields sourceName sourceConfig functionName functionInfo returnTable pkeyColumns selectPerms
pure $ catMaybes $ tableConnectionFields <> functionConnectionFields
buildMutationFields
:: forall b r m n
. MonadBuildSchema b r m n
=> Scenario
-> SourceName
-> SourceConfig b
-> TableCache b
-> FunctionCache b
-> m [P.FieldParser n (MutationRootField UnpreparedValue)]
buildMutationFields scenario sourceName sourceConfig tables (takeExposedAs FEAMutation -> functions) = do
roleName <- askRoleName
tableMutations <- for (Map.toList tables) \(tableName, tableInfo) -> do
tableGQLName <- getTableGQLName @b tableName
-- FIXME: retrieve permissions directly from tableInfo to avoid a sourceCache lookup
tablePerms <- tablePermissions tableName
for tablePerms \RolePermInfo{..} -> do
let viewInfo = _tciViewInfo $ _tiCoreInfo tableInfo
inserts <- runMaybeT $ do
guard $ isMutable viIsInsertable viewInfo
insertPerms <- hoistMaybe $ do
-- If we're in a frontend scenario, we should not include backend_only inserts
insertPerms <- _permIns
if scenario == Frontend && ipiBackendOnly insertPerms
then Nothing
else Just insertPerms
lift $
buildTableInsertMutationFields sourceName sourceConfig tableName tableInfo
tableGQLName insertPerms _permSel _permUpd
updates <- runMaybeT $ do
guard $ isMutable viIsUpdatable viewInfo
updatePerms <- hoistMaybe _permUpd
lift $ buildTableUpdateMutationFields sourceName sourceConfig tableName tableInfo tableGQLName updatePerms _permSel
deletes <- runMaybeT $ do
guard $ isMutable viIsDeletable viewInfo
deletePerms <- hoistMaybe _permDel
lift $ buildTableDeleteMutationFields sourceName sourceConfig tableName tableInfo tableGQLName deletePerms _permSel
pure $ concat $ catMaybes [inserts, updates, deletes]
functionMutations <- for (Map.toList functions) \(functionName, functionInfo) -> runMaybeT $ do
let targetTable = _fiReturnType functionInfo
selectPerms <- MaybeT $ tableSelectPermissions targetTable
-- A function exposed as mutation must have a function permission
-- configured for the role. See Note [Function Permissions]
guard $
-- when function permissions are inferred, we don't expose the
-- mutation functions for non-admin roles. See Note [Function Permissions]
roleName == adminRoleName || roleName `elem` (_fiPermissions functionInfo)
lift $ buildFunctionMutationFields sourceName sourceConfig functionName functionInfo targetTable selectPerms
pure $ concat $ catMaybes $ tableMutations <> functionMutations
----------------------------------------------------------------
-- Building root parser from fields
-- | Prepare the parser for query-type GraphQL requests, but with introspection
-- for queries, mutations and subscriptions built in.
buildQueryParser
:: forall m n r
. ( MonadSchema n m
, MonadTableInfo r m
, MonadRole r m
, Has QueryContext r
, Has (BackendExtension ('Postgres 'Vanilla)) r
)
=> [P.FieldParser n (QueryRootField UnpreparedValue)]
-> [P.FieldParser n RemoteField]
-> [ActionInfo]
-> NonObjectTypeMap
-> Maybe (Parser 'Output n (OMap.InsOrdHashMap G.Name (MutationRootField UnpreparedValue)))
-> Parser 'Output n (OMap.InsOrdHashMap G.Name (QueryRootField UnpreparedValue))
-> m (Parser 'Output n (OMap.InsOrdHashMap G.Name (QueryRootField UnpreparedValue)))
buildQueryParser pgQueryFields remoteFields allActions nonObjectCustomTypes mutationParser subscriptionParser = do
actionQueryFields <- concat <$> traverse (buildActionQueryFields nonObjectCustomTypes) allActions
let allQueryFields = pgQueryFields <> actionQueryFields <> map (fmap RFRemote) remoteFields
queryWithIntrospectionHelper allQueryFields mutationParser subscriptionParser
queryWithIntrospectionHelper
:: (MonadSchema n m, MonadError QErr m)
=> [P.FieldParser n (QueryRootField UnpreparedValue)]
-> Maybe (Parser 'Output n (OMap.InsOrdHashMap G.Name (MutationRootField UnpreparedValue)))
-> Parser 'Output n (OMap.InsOrdHashMap G.Name (QueryRootField UnpreparedValue))
-> m (Parser 'Output n (OMap.InsOrdHashMap G.Name (QueryRootField UnpreparedValue)))
queryWithIntrospectionHelper basicQueryFP mutationP subscriptionP = do
basicQueryP <- queryRootFromFields basicQueryFP
emptyIntro <- emptyIntrospection
allBasicTypes <- collectTypes $
[ P.parserType basicQueryP
, P.parserType subscriptionP
]
++ maybeToList (P.parserType <$> mutationP)
allIntrospectionTypes <- collectTypes . P.parserType =<< queryRootFromFields emptyIntro
let allTypes = Map.unions
[ allBasicTypes
, Map.filterWithKey (\name _info -> name /= queryRoot) allIntrospectionTypes
]
partialSchema = Schema
{ sDescription = Nothing
, sTypes = allTypes
, sQueryType = P.parserType basicQueryP
, sMutationType = P.parserType <$> mutationP
, sSubscriptionType = Just $ P.parserType subscriptionP
, sDirectives = defaultDirectives
}
let partialQueryFields =
basicQueryFP ++ (fmap RFRaw <$> [schema partialSchema, typeIntrospection partialSchema])
P.safeSelectionSet queryRoot Nothing partialQueryFields
<&> fmap (fmap (P.handleTypename (RFRaw . J.String . G.unName)))
queryRootFromFields
:: forall n m
. (MonadError QErr m, MonadParse n)
=> [P.FieldParser n (QueryRootField UnpreparedValue)]
-> m (Parser 'Output n (OMap.InsOrdHashMap G.Name (QueryRootField UnpreparedValue)))
queryRootFromFields fps =
P.safeSelectionSet queryRoot Nothing fps
<&> fmap (fmap (P.handleTypename (RFRaw . J.String . G.unName)))
emptyIntrospection
:: forall m n
. (MonadSchema n m, MonadError QErr m)
=> m [P.FieldParser n (QueryRootField UnpreparedValue)]
emptyIntrospection = do
emptyQueryP <- queryRootFromFields @n []
introspectionTypes <- collectTypes (P.parserType emptyQueryP)
let introspectionSchema = Schema
{ sDescription = Nothing
, sTypes = introspectionTypes
, sQueryType = P.parserType emptyQueryP
, sMutationType = Nothing
, sSubscriptionType = Nothing
, sDirectives = mempty
}
return $ fmap (fmap RFRaw) [schema introspectionSchema, typeIntrospection introspectionSchema]
collectTypes
:: forall m a
. (MonadError QErr m, P.HasTypeDefinitions a)
=> a
-> m (HashMap G.Name (P.Definition P.SomeTypeInfo))
collectTypes x = P.collectTypeDefinitions x
`onLeft` \(P.ConflictingDefinitions (type1, origin1) (_type2, origins)) -> throw500 $
"Found conflicting definitions for " <> P.getName type1 <<> ". The definition at " <> origin1 <<>
" differs from the the definition at " <> commaSeparated origins <<> "."
-- | Prepare the parser for subscriptions. Every postgres query field is
-- exposed as a subscription along with fields to get the status of
-- asynchronous actions.
buildSubscriptionParser
:: forall m n r
. ( MonadSchema n m
, MonadTableInfo r m
, MonadRole r m
, Has QueryContext r
, Has (BackendExtension ('Postgres 'Vanilla)) r
)
=> [P.FieldParser n (QueryRootField UnpreparedValue)]
-> [ActionInfo]
-> m (Parser 'Output n (OMap.InsOrdHashMap G.Name (QueryRootField UnpreparedValue)))
buildSubscriptionParser queryFields allActions = do
actionSubscriptionFields <- concat <$> traverse buildActionSubscriptionFields allActions
let subscriptionFields = queryFields <> actionSubscriptionFields
P.safeSelectionSet subscriptionRoot Nothing subscriptionFields
<&> fmap (fmap (P.handleTypename (RFRaw . J.String . G.unName)))
buildMutationParser
:: forall m n r
. ( MonadSchema n m
, MonadTableInfo r m
, MonadRole r m
, Has QueryContext r
, Has (BackendExtension ('Postgres 'Vanilla)) r
)
=> [P.FieldParser n RemoteField]
-> [ActionInfo]
-> NonObjectTypeMap
-> [P.FieldParser n (MutationRootField UnpreparedValue)]
-> m (Maybe (Parser 'Output n (OMap.InsOrdHashMap G.Name (MutationRootField UnpreparedValue))))
buildMutationParser allRemotes allActions nonObjectCustomTypes mutationFields = do
actionParsers <- concat <$> traverse (buildActionMutationFields nonObjectCustomTypes) allActions
let mutationFieldsParser =
mutationFields <>
actionParsers <>
fmap (fmap RFRemote) allRemotes
if null mutationFieldsParser
then pure Nothing
else P.safeSelectionSet mutationRoot (Just $ G.Description "mutation root") mutationFieldsParser
<&> Just . fmap (fmap (P.handleTypename (RFRaw . J.String . G.unName)))
----------------------------------------------------------------
-- local helpers
takeExposedAs :: FunctionExposedAs -> FunctionCache b -> FunctionCache b
takeExposedAs x = Map.filter ((== x) . _fiExposedAs)
subscriptionRoot :: G.Name
subscriptionRoot = $$(G.litName "subscription_root")
mutationRoot :: G.Name
mutationRoot = $$(G.litName "mutation_root")
queryRoot :: G.Name
queryRoot = $$(G.litName "query_root")
finalizeParser :: Parser 'Output (P.ParseT Identity) a -> ParserFn a
finalizeParser parser = runIdentity . P.runParseT . P.runParser parser
runMonadSchema
:: forall b m a
. Monad m
=> RoleName
-> QueryContext
-> SourceCache
-> BackendExtension b
-> P.SchemaT
(P.ParseT Identity)
(ReaderT ( RoleName
, SourceCache
, QueryContext
, BackendExtension b
) m
) a
-> m a
runMonadSchema roleName queryContext pgSources extensions m =
flip runReaderT (roleName, pgSources, queryContext, extensions) $ P.runSchemaT m
-- | Whether the request is sent with `x-hasura-use-backend-only-permissions` set to `true`.
data Scenario = Backend | Frontend deriving (Enum, Show, Eq)
type RemoteSchemaCache = HashMap RemoteSchemaName (RemoteSchemaCtx, MetadataObject)
buildBackendSource
:: (forall b. BackendSchema b => SourceInfo b -> r)
-> AB.AnyBackend SourceInfo
-> r
buildBackendSource f e = AB.dispatchAnyBackend @BackendSchema e f