graphql-engine/server/src-lib/Hasura/RQL/DML/Mutation.hs
2020-10-22 14:07:48 +01:00

216 lines
7.4 KiB
Haskell

module Hasura.RQL.DML.Mutation
( Mutation(..)
, mkMutation
, MutationRemoteJoinCtx
, runMutation
, executeMutationOutputQuery
, mutateAndFetchCols
, mkSelCTEFromColVals
)
where
import Hasura.Prelude
import qualified Data.Environment as Env
import qualified Data.HashMap.Strict as Map
import qualified Data.Sequence as DS
import qualified Database.PG.Query as Q
import qualified Network.HTTP.Client as HTTP
import qualified Network.HTTP.Types as N
import qualified Hasura.SQL.DML as S
import qualified Hasura.Tracing as Tracing
import Data.Text.Extended
import Hasura.EncJSON
import Hasura.RQL.DML.Internal
import Hasura.RQL.DML.RemoteJoin
import Hasura.RQL.DML.Returning
import Hasura.RQL.DML.Returning.Types
import Hasura.RQL.DML.Select
import Hasura.RQL.Instances ()
import Hasura.RQL.Types
import Hasura.SQL.Types
import Hasura.SQL.Value
import Hasura.Server.Version (HasVersion)
import Hasura.Session
type MutationRemoteJoinCtx = (HTTP.Manager, [N.Header], UserInfo)
data Mutation
= Mutation
{ _mTable :: !QualifiedTable
, _mQuery :: !(S.CTE, DS.Seq Q.PrepArg)
, _mOutput :: !MutationOutput
, _mCols :: ![PGColumnInfo]
, _mRemoteJoins :: !(Maybe (RemoteJoins, MutationRemoteJoinCtx))
, _mStrfyNum :: !Bool
}
mkMutation
:: Maybe MutationRemoteJoinCtx
-> QualifiedTable
-> (S.CTE, DS.Seq Q.PrepArg)
-> MutationOutput
-> [PGColumnInfo]
-> Bool
-> Mutation
mkMutation ctx table query output' allCols strfyNum =
let (output, remoteJoins) = getRemoteJoinsMutationOutput output'
remoteJoinsCtx = (,) <$> remoteJoins <*> ctx
in Mutation table query output allCols remoteJoinsCtx strfyNum
runMutation
::
( HasVersion
, MonadTx m
, MonadIO m
, Tracing.MonadTrace m
)
=> Env.Environment
-> Mutation
-> m EncJSON
runMutation env mut =
bool (mutateAndReturn env mut) (mutateAndSel env mut) $
hasNestedFld $ _mOutput mut
mutateAndReturn
::
( HasVersion
, MonadTx m
, MonadIO m
, Tracing.MonadTrace m
)
=> Env.Environment
-> Mutation
-> m EncJSON
mutateAndReturn env (Mutation qt (cte, p) mutationOutput allCols remoteJoins strfyNum) =
executeMutationOutputQuery env sqlQuery (toList p) remoteJoins
where
sqlQuery = Q.fromBuilder $ toSQL $
mkMutationOutputExp qt allCols Nothing cte mutationOutput strfyNum
{- Note: [Prepared statements in Mutations]
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
The SQL statements we generate for mutations seem to include the actual values
in the statements in some cases which pretty much makes them unfit for reuse
(Handling relationships in the returning clause is the source of this
complexity). Further, `PGConn` has an internal cache which maps a statement to
a 'prepared statement id' on Postgres. As we prepare more and more single-use
SQL statements we end up leaking memory both on graphql-engine and Postgres
till the connection is closed. So a simpler but very crude fix is to not use
prepared statements for mutations. The performance of insert mutations
shouldn't be affected but updates and delete mutations with complex boolean
conditions **might** see some degradation.
-}
mutateAndSel
::
( HasVersion
, MonadTx m
, MonadIO m
, Tracing.MonadTrace m
)
=> Env.Environment
-> Mutation
-> m EncJSON
mutateAndSel env (Mutation qt q mutationOutput allCols remoteJoins strfyNum) = do
-- Perform mutation and fetch unique columns
MutateResp _ columnVals <- liftTx $ mutateAndFetchCols qt allCols q strfyNum
selCTE <- mkSelCTEFromColVals qt allCols columnVals
let selWith = mkMutationOutputExp qt allCols Nothing selCTE mutationOutput strfyNum
-- Perform select query and fetch returning fields
executeMutationOutputQuery env (Q.fromBuilder $ toSQL selWith) [] remoteJoins
executeMutationOutputQuery
::
( HasVersion
, MonadTx m
, MonadIO m
, Tracing.MonadTrace m
)
=> Env.Environment
-> Q.Query -- ^ SQL query
-> [Q.PrepArg] -- ^ Prepared params
-> Maybe (RemoteJoins, MutationRemoteJoinCtx) -- ^ Remote joins context
-> m EncJSON
executeMutationOutputQuery env query prepArgs = \case
Nothing ->
runIdentity . Q.getRow
-- See Note [Prepared statements in Mutations]
<$> liftTx (Q.rawQE dmlTxErrorHandler query prepArgs False)
Just (remoteJoins, (httpManager, reqHeaders, userInfo)) ->
executeQueryWithRemoteJoins env httpManager reqHeaders userInfo query prepArgs remoteJoins
mutateAndFetchCols
:: QualifiedTable
-> [PGColumnInfo]
-> (S.CTE, DS.Seq Q.PrepArg)
-> Bool
-> Q.TxE QErr (MutateResp TxtEncodedPGVal)
mutateAndFetchCols qt cols (cte, p) strfyNum =
Q.getAltJ . runIdentity . Q.getRow
-- See Note [Prepared statements in Mutations]
<$> Q.rawQE dmlTxErrorHandler (Q.fromBuilder sql) (toList p) False
where
aliasIden = Iden $ qualObjectToText qt <> "__mutation_result"
tabFrom = FromIden aliasIden
tabPerm = TablePerm annBoolExpTrue Nothing
selFlds = flip map cols $
\ci -> (fromPGCol $ pgiColumn ci, mkAnnColumnFieldAsText ci)
sql = toSQL selectWith
selectWith = S.SelectWith [(S.Alias aliasIden, cte)] select
select = S.mkSelect {S.selExtr = [S.Extractor extrExp Nothing]}
extrExp = S.applyJsonBuildObj
[ S.SELit "affected_rows", affRowsSel
, S.SELit "returning_columns", colSel
]
affRowsSel = S.SESelect $
S.mkSelect
{ S.selExtr = [S.Extractor S.countStar Nothing]
, S.selFrom = Just $ S.FromExp [S.FIIden aliasIden]
}
colSel = S.SESelect $ mkSQLSelect JASMultipleRows $
AnnSelectG selFlds tabFrom tabPerm noSelectArgs strfyNum
-- | Note:- Using sorted columns is necessary to enable casting the rows returned by VALUES expression to table type.
-- For example, let's consider the table, `CREATE TABLE test (id serial primary key, name text not null, age int)`.
-- The generated values expression should be in order of columns;
-- `SELECT ("row"::table).* VALUES (1, 'Robert', 23) AS "row"`.
mkSelCTEFromColVals
:: (MonadError QErr m)
=> QualifiedTable -> [PGColumnInfo] -> [ColumnValues TxtEncodedPGVal] -> m S.CTE
mkSelCTEFromColVals qt allCols colVals =
S.CTESelect <$> case colVals of
[] -> return selNoRows
_ -> do
tuples <- mapM mkTupsFromColVal colVals
let fromItem = S.FIValues (S.ValuesExp tuples) (S.Alias rowAlias) Nothing
return S.mkSelect
{ S.selExtr = [extractor]
, S.selFrom = Just $ S.FromExp [fromItem]
}
where
rowAlias = Iden "row"
extractor = S.selectStar' $ S.QualIden rowAlias $ Just $ S.TypeAnn $ toSQLTxt qt
sortedCols = sortCols allCols
mkTupsFromColVal colVal =
fmap S.TupleExp $ forM sortedCols $ \ci -> do
let pgCol = pgiColumn ci
val <- onNothing (Map.lookup pgCol colVal) $
throw500 $ "column " <> pgCol <<> " not found in returning values"
pure $ txtEncodedToSQLExp (pgiType ci) val
selNoRows =
S.mkSelect { S.selExtr = [S.selectStar]
, S.selFrom = Just $ S.mkSimpleFromExp qt
, S.selWhere = Just $ S.WhereFrag $ S.BELit False
}
txtEncodedToSQLExp colTy = \case
TENull -> S.SENull
TELit textValue ->
S.withTyAnn (unsafePGColumnToRepresentation colTy) $ S.SELit textValue