graphql-engine/server/src-lib/Hasura/GraphQL/Execute/Backend.hs

module Hasura.GraphQL.Execute.Backend
  ( BackendExecute (..),
    DBStepInfo (..),
    ExecutionPlan,
    ExecutionStep (..),
    ExplainPlan (..),
    MonadQueryTags (..),
    convertRemoteSourceRelationship,
  )
where

import Control.Monad.Trans.Control (MonadBaseControl)
import Data.Aeson qualified as J
import Data.Aeson.Casing qualified as J
import Data.Aeson.Ordered qualified as JO
import Data.Kind (Type)
import Data.Tagged
import Data.Text.Extended
import Data.Text.NonEmpty (mkNonEmptyTextUnsafe)
import Database.PG.Query qualified as Q
import Hasura.Base.Error
import Hasura.EncJSON
import Hasura.GraphQL.Execute.Action.Types (ActionExecutionPlan)
import Hasura.GraphQL.Execute.LiveQuery.Plan
import Hasura.GraphQL.Execute.RemoteJoin.Types
import Hasura.GraphQL.Namespace (RootFieldAlias, RootFieldMap)
import Hasura.GraphQL.Parser hiding (Type)
import Hasura.GraphQL.Transport.HTTP.Protocol qualified as GH
import Hasura.Metadata.Class
import Hasura.Prelude
import Hasura.QueryTags
import Hasura.RQL.DDL.Schema.Cache (CacheRWT)
import Hasura.RQL.IR
import Hasura.RQL.Types.Action
import Hasura.RQL.Types.Backend
import Hasura.RQL.Types.Column (ColumnType, fromCol)
import Hasura.RQL.Types.Common
import Hasura.RQL.Types.QueryTags (QueryTagsConfig)
import Hasura.RQL.Types.RemoteSchema
import Hasura.RQL.Types.ResultCustomization
import Hasura.RQL.Types.Run (RunT (..))
import Hasura.RQL.Types.SchemaCache.Build (MetadataT (..))
import Hasura.SQL.AnyBackend qualified as AB
import Hasura.SQL.Backend
import Hasura.Session
import Hasura.Tracing (TraceT)
import Language.GraphQL.Draft.Syntax qualified as G
import Network.HTTP.Types qualified as HTTP

-- | This typeclass enacapsulates how a given backend translates a root field into an execution
-- plan. For now, each root field maps to one execution step, but in the future, when we have
-- a client-side dataloader, each root field might translate into a multi-step plan.
class
  ( Backend b,
    ToTxt (MultiplexedQuery b),
    Monad (ExecutionMonad b)
  ) =>
  BackendExecute (b :: BackendType)
  where
  -- generated query information
  type PreparedQuery b :: Type
  type MultiplexedQuery b :: Type
  type ExecutionMonad b :: Type -> Type

  -- execution plan generation
  mkDBQueryPlan ::
    forall m.
    ( MonadError QErr m,
      MonadQueryTags m,
      MonadReader QueryTagsComment m
    ) =>
    UserInfo ->
    SourceName ->
    SourceConfig b ->
    QueryDB b (Const Void) (UnpreparedValue b) ->
    m (DBStepInfo b)
  mkDBMutationPlan ::
    forall m.
    ( MonadError QErr m,
      MonadQueryTags m,
      MonadReader QueryTagsComment m
    ) =>
    UserInfo ->
    Bool ->
    SourceName ->
    SourceConfig b ->
    MutationDB b (Const Void) (UnpreparedValue b) ->
    m (DBStepInfo b)
  mkDBSubscriptionPlan ::
    forall m.
    ( MonadError QErr m,
      MonadIO m,
      MonadBaseControl IO m,
      MonadReader QueryTagsComment m
    ) =>
    UserInfo ->
    SourceName ->
    SourceConfig b ->
    Maybe G.Name ->
    RootFieldMap (QueryDB b (Const Void) (UnpreparedValue b)) ->
    m (LiveQueryPlan b (MultiplexedQuery b))
  mkDBQueryExplain ::
    forall m.
    ( MonadError QErr m
    ) =>
    RootFieldAlias ->
    UserInfo ->
    SourceName ->
    SourceConfig b ->
    QueryDB b (Const Void) (UnpreparedValue b) ->
    m (AB.AnyBackend DBStepInfo)
  mkLiveQueryExplain ::
    ( MonadError QErr m,
      MonadIO m,
      MonadBaseControl IO m
    ) =>
    LiveQueryPlan b (MultiplexedQuery b) ->
    m LiveQueryPlanExplanation

  mkDBRemoteRelationshipPlan ::
    forall m.
    ( MonadError QErr m,
      MonadQueryTags m
    ) =>
    UserInfo ->
    SourceName ->
    SourceConfig b ->
    -- | List of json objects, each of which becomes a row of the table.
    NonEmpty J.Object ->
    -- | The above objects have this schema.
    HashMap FieldName (Column b, ScalarType b) ->
    -- | This is a field name from the lhs that *has* to be selected in the
    -- response along with the relationship.
    FieldName ->
    (FieldName, SourceRelationshipSelection b (Const Void) UnpreparedValue) ->
    m (DBStepInfo b)

-- | This is a helper function to convert a remote source's relationship to a
-- normal relationship to a temporary table. This function can be used to
-- implement executeRemoteRelationship function in databases which support
-- constructing a temporary table for a list of json objects.
convertRemoteSourceRelationship ::
  forall b.
  (Backend b) =>
  -- | Join columns for the relationship
  HashMap (Column b) (Column b) ->
  -- | The LHS of the join, this is the expression which selects from json
  -- objects
  SelectFromG b (UnpreparedValue b) ->
  -- | This is the __argument__ id column, that needs to be added to the response
  -- This is used by by the remote joins processing logic to convert the
  -- response from upstream to join indices
  Column b ->
  -- | This is the type of the __argument__ id column
  ColumnType b ->
  -- | The relationship column and its name (how it should be selected in the
  -- response)
  (FieldName, SourceRelationshipSelection b (Const Void) UnpreparedValue) ->
  QueryDB b (Const Void) (UnpreparedValue b)
convertRemoteSourceRelationship
  columnMapping
  selectFrom
  argumentIdColumn
  argumentIdColumnType
  (relationshipName, relationship) =
    QDBMultipleRows simpleSelect
    where
      -- TODO: FieldName should have also been a wrapper around NonEmptyText
      relName = RelName $ mkNonEmptyTextUnsafe $ getFieldNameTxt relationshipName

      relationshipField = case relationship of
        SourceRelationshipObject s ->
          AFObjectRelation $ AnnRelationSelectG relName columnMapping s
        SourceRelationshipArray s ->
          AFArrayRelation $ ASSimple $ AnnRelationSelectG relName columnMapping s
        SourceRelationshipArrayAggregate s ->
          AFArrayRelation $ ASAggregate $ AnnRelationSelectG relName columnMapping s

      argumentIdField =
        ( fromCol @b argumentIdColumn,
          AFColumn $
            AnnColumnField
              { _acfColumn = argumentIdColumn,
                _acfType = argumentIdColumnType,
                _acfAsText = False,
                _acfOp = Nothing,
                _acfCaseBoolExpression = Nothing
              }
        )

      simpleSelect =
        AnnSelectG
          { _asnFields = [argumentIdField, (relationshipName, relationshipField)],
            _asnFrom = selectFrom,
            _asnPerm = TablePerm annBoolExpTrue Nothing,
            _asnArgs = noSelectArgs,
            _asnStrfyNum = False
          }

data DBStepInfo b = DBStepInfo
  { dbsiSourceName :: SourceName,
    dbsiSourceConfig :: SourceConfig b,
    dbsiPreparedQuery :: Maybe (PreparedQuery b),
    dbsiAction :: ExecutionMonad b EncJSON
  }

-- | The result of an explain query: for a given root field (denoted by its name): the generated SQL
-- query, and the detailed explanation obtained from the database (if any). We mostly use this type
-- as an intermediary step, and immediately tranform any value we obtain into an equivalent JSON
-- representation.
data ExplainPlan = ExplainPlan
  { _fpField :: !RootFieldAlias,
    _fpSql :: !(Maybe Text),
    _fpPlan :: !(Maybe [Text])
  }
  deriving (Show, Eq, Generic)

instance J.ToJSON ExplainPlan where
  toJSON = J.genericToJSON $ J.aesonPrefix J.camelCase

-- | One execution step to processing a GraphQL query (e.g. one root field).
data ExecutionStep where
  -- | A query to execute against the database
  ExecStepDB ::
    HTTP.ResponseHeaders ->
    AB.AnyBackend DBStepInfo ->
    Maybe RemoteJoins ->
    ExecutionStep
  -- | Execute an action
  ExecStepAction ::
    ActionExecutionPlan ->
    ActionsInfo ->
    Maybe RemoteJoins ->
    ExecutionStep
  -- | A graphql query to execute against a remote schema
  ExecStepRemote ::
    !RemoteSchemaInfo ->
    !ResultCustomizer ->
    !GH.GQLReqOutgoing ->
    ExecutionStep
  -- | Output a plain JSON object
  ExecStepRaw ::
    JO.Value ->
    ExecutionStep

-- | The series of steps that need to be executed for a given query. For now, those steps are all
-- independent. In the future, when we implement a client-side dataloader and generalized joins,
-- this will need to be changed into an annotated tree.
type ExecutionPlan = RootFieldMap ExecutionStep

class (Monad m) => MonadQueryTags m where
  -- | Creates Query Tags. These are appended to the Generated SQL.
  -- Helps users to use native database monitoring tools to get some 'application-context'.
  createQueryTags ::
    QueryTagsAttributes -> Maybe QueryTagsConfig -> Tagged m QueryTagsComment

instance (MonadQueryTags m) => MonadQueryTags (ReaderT r m) where
  createQueryTags qtSourceConfig attr = retag (createQueryTags @m qtSourceConfig attr) :: Tagged (ReaderT r m) QueryTagsComment

instance (MonadQueryTags m) => MonadQueryTags (ExceptT e m) where
  createQueryTags qtSourceConfig attr = retag (createQueryTags @m qtSourceConfig attr) :: Tagged (ExceptT e m) QueryTagsComment

instance (MonadQueryTags m) => MonadQueryTags (TraceT m) where
  createQueryTags qtSourceConfig attr = retag (createQueryTags @m qtSourceConfig attr) :: Tagged (TraceT m) QueryTagsComment

instance (MonadQueryTags m) => MonadQueryTags (MetadataStorageT m) where
  createQueryTags qtSourceConfig attr = retag (createQueryTags @m qtSourceConfig attr) :: Tagged (MetadataStorageT m) QueryTagsComment

instance (MonadQueryTags m) => MonadQueryTags (Q.TxET QErr m) where
  createQueryTags qtSourceConfig attr = retag (createQueryTags @m qtSourceConfig attr) :: Tagged (Q.TxET QErr m) QueryTagsComment

instance (MonadQueryTags m) => MonadQueryTags (MetadataT m) where
  createQueryTags qtSourceConfig attr = retag (createQueryTags @m qtSourceConfig attr) :: Tagged (MetadataT m) QueryTagsComment

instance (MonadQueryTags m) => MonadQueryTags (CacheRWT m) where
  createQueryTags qtSourceConfig attr = retag (createQueryTags @m qtSourceConfig attr) :: Tagged (CacheRWT m) QueryTagsComment

instance (MonadQueryTags m) => MonadQueryTags (RunT m) where
  createQueryTags qtSourceConfig attr = retag (createQueryTags @m qtSourceConfig attr) :: Tagged (RunT m) QueryTagsComment