graphql-engine/server/src-lib/Hasura/GraphQL/Schema/Build.hs
Evie Ciobanu d76aab99e1 server: postgres multiple updates
PR-URL: https://github.com/hasura/graphql-engine-mono/pull/4837
GitOrigin-RevId: 505f669298298fd004dfc4e84eaa0d21df055216
2022-07-18 15:16:47 +00:00

330 lines
16 KiB
Haskell

-- | This module provides building blocks for the GraphQL Schema that the
-- GraphQL Engine presents.
--
-- The functions defined here are used to serve as default implementations for
-- their namesakes in the 'BackendSchema' type class.
--
-- When, for some backend, you want to implement a new feature that manifests
-- itself visibly in the schema (e.g., if you're developing support for update
-- mutations), this module is likely where your efforts should start.
--
-- Using these functions help us present a consistent GraphQL schema across
-- different backends.
--
-- There is a bit of tension however, as sometimes we intentionally do want the
-- GraphQL Schema relating to some backend to be different in some way.
--
-- It could be that a backend only has limited support for some common feature,
-- or, more interestingly, that some backend just does things differently (c.f.
-- MSSQL's @MERGE@ statement with PostgreSQL's @INSERT .. ON CONFLICT@, which
-- are similar enough that we want to use the same overall upsert schema but
-- different enough that we want to use different field names)
--
-- When you want to implement new schema for a backend, there is overall three
-- different ways do deal with this tension:
--
-- 1. You can duplicate existing code and implement the new behavior in the
-- duplicate.
-- 2. You can infuse the new behavior into existing code and switch dynamically
-- at runtime (or via type class instance dispatch, which is the same
-- for our purposes)
-- 3. You can refactor the existing building blocks and compose them differently
-- at use sites to get the desired behavior nuances.
--
-- Of these three, steps 1. and 2. are by far the easiest to execute, while 3.
-- requires some critical thought. However, both 1. and 2. produce legacy code
-- that is difficult to maintain and understand.
--
-- As a guideline, if you find yourself wanting add new behavior to some of
-- these functions it's very likely that you should consider refactoring them
-- instead, thus shifting the responsibility deciding on the correct behavior to
-- use sites.
--
-- It an ongoing effort to adapt and refactor these building blocks such that
-- they have the sizes and shapes that result in the most elegant uses of them
-- that we can manage.
module Hasura.GraphQL.Schema.Build
( buildTableDeleteMutationFields,
buildTableInsertMutationFields,
buildTableQueryAndSubscriptionFields,
buildTableStreamingSubscriptionFields,
buildTableUpdateMutationFields,
setFieldNameCase,
buildFieldDescription,
)
where
import Data.Has (getter)
import Data.Text.Casing qualified as C
import Data.Text.Extended
import Hasura.GraphQL.Schema.Backend (BackendTableSelectSchema (..), MonadBuildSchema)
import Hasura.GraphQL.Schema.Common
import Hasura.GraphQL.Schema.Mutation
import Hasura.GraphQL.Schema.NamingCase
import Hasura.GraphQL.Schema.Parser hiding (EnumValueInfo, field)
import Hasura.GraphQL.Schema.Select
import Hasura.GraphQL.Schema.SubscriptionStream (selectStreamTable)
import Hasura.GraphQL.Schema.Table (tableSelectPermissions)
import Hasura.GraphQL.Schema.Update (updateTable, updateTableByPk)
import Hasura.Prelude
import Hasura.RQL.IR
import Hasura.RQL.Types.Backend
import Hasura.RQL.Types.Common
import Hasura.RQL.Types.Permission
import Hasura.RQL.Types.SchemaCache
import Hasura.RQL.Types.Source
import Hasura.RQL.Types.SourceCustomization
import Hasura.RQL.Types.Table
import Hasura.Server.Types (StreamingSubscriptionsCtx (..))
import Language.GraphQL.Draft.Syntax qualified as G
-- | Builds field name with proper case. Please note that this is a pure
-- function as all the validation has already been done while preparing
-- @GQLNameIdentifier@.
setFieldNameCase ::
NamingCase ->
TableInfo b ->
CustomRootField ->
(C.GQLNameIdentifier -> C.GQLNameIdentifier) ->
C.GQLNameIdentifier ->
G.Name
setFieldNameCase tCase tInfo crf getFieldName tableName =
(applyFieldNameCaseIdentifier tCase fieldIdentifier)
where
tccName = fmap (`C.Identifier` []) . _tcCustomName . _tciCustomConfig . _tiCoreInfo $ tInfo
crfName = fmap (`C.Identifier` []) (_crfName crf)
fieldIdentifier = fromMaybe (getFieldName (fromMaybe tableName tccName)) crfName
-- | buildTableQueryAndSubscriptionFields builds the field parsers of a table.
-- It returns a tuple with array of field parsers that correspond to the field
-- parsers of the query root and the field parsers of the subscription root
buildTableQueryAndSubscriptionFields ::
forall b r m n.
( MonadBuildSchema b r m n,
BackendTableSelectSchema b
) =>
SourceInfo b ->
TableName b ->
TableInfo b ->
StreamingSubscriptionsCtx ->
C.GQLNameIdentifier ->
m
( [FieldParser n (QueryDB b (RemoteRelationshipField UnpreparedValue) (UnpreparedValue b))],
[FieldParser n (QueryDB b (RemoteRelationshipField UnpreparedValue) (UnpreparedValue b))]
)
buildTableQueryAndSubscriptionFields sourceInfo tableName tableInfo streamSubCtx gqlName = do
tCase <- asks getter
-- select table
selectName <- mkRootFieldName $ setFieldNameCase tCase tableInfo _tcrfSelect mkSelectField gqlName
-- select table by pk
selectPKName <- mkRootFieldName $ setFieldNameCase tCase tableInfo _tcrfSelectByPk mkSelectByPkField gqlName
-- select table aggregate
selectAggName <- mkRootFieldName $ setFieldNameCase tCase tableInfo _tcrfSelectAggregate mkSelectAggregateField gqlName
selectPermission <- tableSelectPermissions tableInfo
selectTableParser <- optionalFieldParser QDBMultipleRows $ selectTable sourceInfo tableInfo selectName selectDesc
selectTableByPkParser <- optionalFieldParser QDBSingleRow $ selectTableByPk sourceInfo tableInfo selectPKName selectPKDesc
selectTableAggregateParser <- optionalFieldParser QDBAggregation $ selectTableAggregate sourceInfo tableInfo selectAggName selectAggDesc
case selectPermission of
-- No select permission found for the current role, so
-- no root fields will be accessible to the role
Nothing -> pure (mempty, mempty)
-- Filter the root fields which have been enabled
Just SelPermInfo {..} -> do
selectStreamParser <-
if (isRootFieldAllowed SRFTSelectStream spiAllowedSubscriptionRootFields && streamSubCtx == StreamingSubscriptionsEnabled)
then buildTableStreamingSubscriptionFields sourceInfo tableName tableInfo gqlName
else pure mempty
let (querySelectTableParser, subscriptionSelectTableParser) =
getQueryAndSubscriptionRootFields
selectTableParser
(isRootFieldAllowed QRFTSelect spiAllowedQueryRootFields)
(isRootFieldAllowed SRFTSelect spiAllowedSubscriptionRootFields)
(querySelectTableByPkParser, subscriptionSelectTableByPkParser) =
getQueryAndSubscriptionRootFields
selectTableByPkParser
(isRootFieldAllowed QRFTSelectByPk spiAllowedQueryRootFields)
(isRootFieldAllowed SRFTSelectByPk spiAllowedSubscriptionRootFields)
(querySelectTableAggParser, subscriptionSelectTableAggParser) =
getQueryAndSubscriptionRootFields
selectTableAggregateParser
(isRootFieldAllowed QRFTSelectAggregate spiAllowedQueryRootFields)
(isRootFieldAllowed SRFTSelectAggregate spiAllowedSubscriptionRootFields)
queryRootFields = catMaybes [querySelectTableParser, querySelectTableByPkParser, querySelectTableAggParser]
subscriptionRootFields =
selectStreamParser
<> catMaybes [subscriptionSelectTableParser, subscriptionSelectTableByPkParser, subscriptionSelectTableAggParser]
pure (queryRootFields, subscriptionRootFields)
where
selectDesc = buildFieldDescription defaultSelectDesc $ _crfComment _tcrfSelect
selectPKDesc = buildFieldDescription defaultSelectPKDesc $ _crfComment _tcrfSelectByPk
selectAggDesc = buildFieldDescription defaultSelectAggDesc $ _crfComment _tcrfSelectAggregate
defaultSelectDesc = "fetch data from the table: " <>> tableName
defaultSelectPKDesc = "fetch data from the table: " <> tableName <<> " using primary key columns"
defaultSelectAggDesc = "fetch aggregated fields from the table: " <>> tableName
TableCustomRootFields {..} = _tcCustomRootFields . _tciCustomConfig $ _tiCoreInfo tableInfo
-- This function checks if a root field is allowed to be exposed
-- in the query root and a subscription root and when it is allowed,
-- the parser will be returned.
getQueryAndSubscriptionRootFields parser allowedInQuery allowedInSubscription =
case (allowedInQuery, allowedInSubscription) of
(True, True) -> (parser, parser)
(True, False) -> (parser, Nothing)
(False, True) -> (Nothing, parser)
(False, False) -> (Nothing, Nothing)
buildTableStreamingSubscriptionFields ::
forall b r m n.
( MonadBuildSchema b r m n,
BackendTableSelectSchema b
) =>
SourceInfo b ->
TableName b ->
TableInfo b ->
C.GQLNameIdentifier ->
m [FieldParser n (QueryDB b (RemoteRelationshipField UnpreparedValue) (UnpreparedValue b))]
buildTableStreamingSubscriptionFields sourceInfo tableName tableInfo tableIdentifier = do
tCase <- asks getter
let customRootFields = _tcCustomRootFields $ _tciCustomConfig $ _tiCoreInfo tableInfo
selectDesc = Just $ G.Description $ "fetch data from the table in a streaming manner : " <>> tableName
selectStreamName <-
mkRootFieldName $ setFieldNameCase tCase tableInfo (_tcrfSelectStream customRootFields) mkSelectStreamField tableIdentifier
catMaybes
<$> sequenceA
[ optionalFieldParser QDBStreamMultipleRows $ selectStreamTable sourceInfo tableInfo selectStreamName selectDesc
]
buildTableInsertMutationFields ::
forall b r m n.
MonadBuildSchema b r m n =>
BackendTableSelectSchema b =>
(SourceInfo b -> TableInfo b -> m (InputFieldsParser n (BackendInsert b (UnpreparedValue b)))) ->
Scenario ->
SourceInfo b ->
TableName b ->
TableInfo b ->
C.GQLNameIdentifier ->
m [FieldParser n (AnnotatedInsert b (RemoteRelationshipField UnpreparedValue) (UnpreparedValue b))]
buildTableInsertMutationFields backendInsertAction scenario sourceInfo tableName tableInfo gqlName = do
tCase <- asks getter
-- insert in table
insertName <- mkRootFieldName $ setFieldNameCase tCase tableInfo _tcrfInsert mkInsertField gqlName
-- insert one in table
insertOneName <- mkRootFieldName $ setFieldNameCase tCase tableInfo _tcrfInsertOne mkInsertOneField gqlName
insert <- insertIntoTable backendInsertAction scenario sourceInfo tableInfo insertName insertDesc
-- Select permissions are required for insertOne: the selection set is the
-- same as a select on that table, and it therefore can't be populated if the
-- user doesn't have select permissions.
insertOne <- insertOneIntoTable backendInsertAction scenario sourceInfo tableInfo insertOneName insertOneDesc
pure $ catMaybes [insert, insertOne]
where
insertDesc = buildFieldDescription defaultInsertDesc $ _crfComment _tcrfInsert
insertOneDesc = buildFieldDescription defaultInsertOneDesc $ _crfComment _tcrfInsertOne
defaultInsertDesc = "insert data into the table: " <>> tableName
defaultInsertOneDesc = "insert a single row into the table: " <>> tableName
TableCustomRootFields {..} = _tcCustomRootFields . _tciCustomConfig $ _tiCoreInfo tableInfo
-- | This function is the basic building block for update mutations. It
-- implements the mutation schema in the general shape described in
-- @https://hasura.io/docs/latest/graphql/core/databases/postgres/mutations/update.html@.
--
-- Something that varies between backends is the @update operators@ that they
-- support (i.e. the schema fields @_set@, @_inc@, etc., see
-- <src/Hasura.Backends.Postgres.Instances.Schema.html#updateOperators Hasura.Backends.Postgres.Instances.Schema.updateOperators> for an example
-- implementation). Therefore, this function is parameterised over a monadic
-- action that produces the operators that the backend supports in the context
-- of some table and associated update permissions.
--
-- Apart from this detail, the rest of the arguments are the same as those
-- of @BackendSchema.@'Hasura.GraphQL.Schema.Backend.buildTableUpdateMutationFields'.
--
-- The suggested way to use this is like:
--
-- > instance BackendSchema MyBackend where
-- > ...
-- > buildTableUpdateMutationFields = GSB.buildTableUpdateMutationFields myBackendUpdateOperators
-- > ...
buildTableUpdateMutationFields ::
forall b r m n.
( MonadBuildSchema b r m n,
BackendTableSelectSchema b
) =>
-- | an action that builds @BackendUpdate@ with the
-- backend-specific data needed to perform an update mutation
( TableInfo b ->
m
(InputFieldsParser n (BackendUpdate b (UnpreparedValue b)))
) ->
Scenario ->
-- | The source that the table lives in
SourceInfo b ->
-- | The name of the table being acted on
TableName b ->
-- | table info
TableInfo b ->
-- | field display name
C.GQLNameIdentifier ->
m [FieldParser n (AnnotatedUpdateG b (RemoteRelationshipField UnpreparedValue) (UnpreparedValue b))]
buildTableUpdateMutationFields mkBackendUpdate scenario sourceInfo tableName tableInfo gqlName = do
tCase <- asks getter
backendUpdate <- mkBackendUpdate tableInfo
-- update table
updateName <- mkRootFieldName $ setFieldNameCase tCase tableInfo _tcrfUpdate mkUpdateField gqlName
-- update table by pk
updatePKName <- mkRootFieldName $ setFieldNameCase tCase tableInfo _tcrfUpdateByPk mkUpdateByPkField gqlName
update <- updateTable backendUpdate scenario sourceInfo tableInfo updateName updateDesc
-- Primary keys can only be tested in the `where` clause if a primary key
-- exists on the table and if the user has select permissions on all columns
-- that make up the key.
updateByPk <- updateTableByPk backendUpdate scenario sourceInfo tableInfo updatePKName updatePKDesc
pure $ catMaybes [update, updateByPk]
where
updateDesc = buildFieldDescription defaultUpdateDesc $ _crfComment _tcrfUpdate
updatePKDesc = buildFieldDescription defaultUpdatePKDesc $ _crfComment _tcrfUpdateByPk
defaultUpdateDesc = "update data of the table: " <>> tableName
defaultUpdatePKDesc = "update single row of the table: " <>> tableName
TableCustomRootFields {..} = _tcCustomRootFields . _tciCustomConfig $ _tiCoreInfo tableInfo
buildTableDeleteMutationFields ::
forall b r m n.
( MonadBuildSchema b r m n,
BackendTableSelectSchema b
) =>
Scenario ->
SourceInfo b ->
TableName b ->
TableInfo b ->
C.GQLNameIdentifier ->
m [FieldParser n (AnnDelG b (RemoteRelationshipField UnpreparedValue) (UnpreparedValue b))]
buildTableDeleteMutationFields scenario sourceInfo tableName tableInfo gqlName = do
tCase <- asks getter
-- delete from table
deleteName <- mkRootFieldName $ setFieldNameCase tCase tableInfo _tcrfDelete mkDeleteField gqlName
-- delete from table by pk
deletePKName <- mkRootFieldName $ setFieldNameCase tCase tableInfo _tcrfDeleteByPk mkDeleteByPkField gqlName
delete <- deleteFromTable scenario sourceInfo tableInfo deleteName deleteDesc
-- Primary keys can only be tested in the `where` clause if the user has
-- select permissions for them, which at the very least requires select
-- permissions.
deleteByPk <- deleteFromTableByPk scenario sourceInfo tableInfo deletePKName deletePKDesc
pure $ catMaybes [delete, deleteByPk]
where
deleteDesc = buildFieldDescription defaultDeleteDesc $ _crfComment _tcrfDelete
deletePKDesc = buildFieldDescription defaultDeletePKDesc $ _crfComment _tcrfDeleteByPk
defaultDeleteDesc = "delete data from the table: " <>> tableName
defaultDeletePKDesc = "delete single row from the table: " <>> tableName
TableCustomRootFields {..} = _tcCustomRootFields . _tciCustomConfig $ _tiCoreInfo tableInfo
buildFieldDescription :: Text -> Comment -> Maybe G.Description
buildFieldDescription defaultDescription = \case
Automatic -> Just $ G.Description defaultDescription
Explicit comment -> G.Description . toTxt <$> comment