graphql-engine/server/src-lib/Hasura/Backends/MSSQL/Instances/Execute.hs
Antoine Leblanc dec8579db8 Allow backend execution to happen on the base app monad.
### Description

Each Backend executes queries against the database in a slightly different stack: Postgres uses its own `TXeT`, MSSQL uses a variant of it, BigQuery is simply in `ExceptT QErr IO`... To accommodate those variations, we had originally introduced an `ExecutionMonad b` type family in `BackendExecute`, allowing each backend to describe its own stack. It was then up to that backend's `BackendTransport` instance to implement running said stack, and converting the result back into our main app monad.

However, this was not without complications: `TraceT` is one of them: as it usually needs to be on the top of the stack, converting from one stack to the other implies the use `interpTraceT`, which is quite monstrous. Furthermore, as part of the Entitlement Services work, we're trying to move to a "Services" architecture in which the entire engine runs in one base monad, that delegates features and dependencies to monad constraints; and as a result we'd like to minimize the number of different monad stacks we have to maintain and translate from and to in the codebase.

To improve things, this PR changes `ExecutionMonad b` from an _absolute_ stack to a _relative_ one: i.e.: what needs to be stacked on top of our base monad for the execution. In `Transport`, we then only need to pop the top of the stack, and voila. This greatly simplifies the implementation of the backends, as there's no longer any need to do any stack transformation: MySQL's implementation becomes a `runIdentityT`! This also removes most mentions of `TraceT` from the execution code since it's no longer required: we can rely on the base monad's existing `MonadTrace` constraint.

To continue encapsulating monadic actions in `DBStepInfo` and avoid threading a bunch of `forall` all over the place, this PR introduces a small local helper: `OnBaseMonad`. One only downside of all this is that this requires adding `MonadBaseControl IO m` constraint all over the place: previously, we would run directly on `IO` and lift, and would therefore not need to bring that constraint all the way.

PR-URL: https://github.com/hasura/graphql-engine-mono/pull/7789
GitOrigin-RevId: e9b2e431c5c47fa9851abf87545c0415ff6d1a12
2023-02-09 14:40:04 +00:00

462 lines
16 KiB
Haskell

{-# OPTIONS_GHC -fno-warn-orphans #-}
-- | MSSQL Instances Execute
--
-- Defines a 'BackendExecute' type class instance for MSSQL.
--
-- This module implements the needed functionality for implementing a 'BackendExecute'
-- instance for MSSQL, which defines an interface for translating a root field into an execution plan
-- and interacting with a database.
--
-- This module includes the MSSQL implementation of queries, mutations, and more.
module Hasura.Backends.MSSQL.Instances.Execute
( MultiplexedQuery' (..),
multiplexRootReselect,
)
where
import Control.Monad.Trans.Control (MonadBaseControl)
import Data.Aeson.Extended qualified as J
import Data.Environment qualified as Env
import Data.HashMap.Strict qualified as Map
import Data.HashMap.Strict.InsOrd qualified as OMap
import Data.HashSet qualified as Set
import Data.List.NonEmpty qualified as NE
import Data.Text.Extended qualified as T
import Database.MSSQL.Transaction qualified as Tx
import Database.ODBC.SQLServer qualified as ODBC
import Hasura.Backends.MSSQL.Connection
import Hasura.Backends.MSSQL.Execute.Delete
import Hasura.Backends.MSSQL.Execute.Insert
import Hasura.Backends.MSSQL.Execute.QueryTags
import Hasura.Backends.MSSQL.Execute.Update
import Hasura.Backends.MSSQL.FromIr.Constants (jsonFieldName)
import Hasura.Backends.MSSQL.Plan
import Hasura.Backends.MSSQL.SQL.Error
import Hasura.Backends.MSSQL.SQL.Value (txtEncodedColVal)
import Hasura.Backends.MSSQL.ToQuery as TQ
import Hasura.Backends.MSSQL.Types.Internal as TSQL
import Hasura.Base.Error
import Hasura.EncJSON
import Hasura.GraphQL.Execute.Backend
import Hasura.GraphQL.Execute.Subscription.Plan
import Hasura.GraphQL.Namespace (RootFieldAlias (..), RootFieldMap)
import Hasura.GraphQL.Schema.Options qualified as Options
import Hasura.Prelude
import Hasura.QueryTags (QueryTagsComment)
import Hasura.RQL.IR
import Hasura.RQL.Types.Backend as RQLTypes
import Hasura.RQL.Types.Column qualified as RQLColumn
import Hasura.RQL.Types.Common as RQLTypes
import Hasura.SQL.AnyBackend qualified as AB
import Hasura.SQL.Backend
import Hasura.Session
import Language.GraphQL.Draft.Syntax qualified as G
import Network.HTTP.Types qualified as HTTP
instance BackendExecute 'MSSQL where
type PreparedQuery 'MSSQL = Text
type MultiplexedQuery 'MSSQL = MultiplexedQuery'
type ExecutionMonad 'MSSQL = ExceptT QErr
mkDBQueryPlan = msDBQueryPlan
mkDBMutationPlan = msDBMutationPlan
mkLiveQuerySubscriptionPlan = msDBLiveQuerySubscriptionPlan
mkDBStreamingSubscriptionPlan _ _ _ _ _ _ = throw500 "Streaming subscriptions are not supported for MS-SQL sources yet"
mkDBQueryExplain = msDBQueryExplain
mkSubscriptionExplain = msDBSubscriptionExplain
mkDBRemoteRelationshipPlan =
msDBRemoteRelationshipPlan
-- * Multiplexed query
data MultiplexedQuery' = MultiplexedQuery'
{ reselect :: Reselect,
subscriptionQueryTagsComment :: QueryTagsComment
}
instance T.ToTxt MultiplexedQuery' where
toTxt (MultiplexedQuery' reselect queryTags) =
T.toTxt $ toQueryPretty (fromReselect reselect) `withQueryTags` queryTags
-- * Query
msDBQueryPlan ::
forall m.
( MonadError QErr m,
MonadReader QueryTagsComment m
) =>
UserInfo ->
Env.Environment ->
SourceName ->
SourceConfig 'MSSQL ->
QueryDB 'MSSQL Void (UnpreparedValue 'MSSQL) ->
[HTTP.Header] ->
Maybe G.Name ->
m (DBStepInfo 'MSSQL)
msDBQueryPlan userInfo _env sourceName sourceConfig qrf _ _ = do
let sessionVariables = _uiSession userInfo
statement <- planQuery sessionVariables qrf
queryTags <- ask
-- Append Query tags comment to the select statement
let printer = fromSelect statement `withQueryTagsPrinter` queryTags
queryString = ODBC.renderQuery (toQueryPretty printer)
pure $ DBStepInfo @'MSSQL sourceName sourceConfig (Just queryString) (runSelectQuery printer) ()
where
runSelectQuery queryPrinter = OnBaseMonad do
let queryTx = encJFromText <$> Tx.singleRowQueryE defaultMSSQLTxErrorHandler (toQueryFlat queryPrinter)
mssqlRunReadOnly (_mscExecCtx sourceConfig) queryTx
runShowplan ::
MonadIO m =>
ODBC.Query ->
Tx.TxET QErr m [Text]
runShowplan query = Tx.withTxET defaultMSSQLTxErrorHandler do
Tx.unitQuery "SET SHOWPLAN_TEXT ON"
texts <- Tx.multiRowQuery query
Tx.unitQuery "SET SHOWPLAN_TEXT OFF"
-- we don't need to use 'finally' here - if an exception occurs,
-- the connection is removed from the resource pool in 'withResource'.
pure texts
msDBQueryExplain ::
MonadError QErr m =>
RootFieldAlias ->
UserInfo ->
SourceName ->
SourceConfig 'MSSQL ->
QueryDB 'MSSQL Void (UnpreparedValue 'MSSQL) ->
[HTTP.Header] ->
Maybe G.Name ->
m (AB.AnyBackend DBStepInfo)
msDBQueryExplain fieldName userInfo sourceName sourceConfig qrf _ _ = do
let sessionVariables = _uiSession userInfo
statement <- planQuery sessionVariables qrf
let query = toQueryPretty (fromSelect statement)
queryString = ODBC.renderQuery query
odbcQuery = OnBaseMonad $
mssqlRunReadOnly
(_mscExecCtx sourceConfig)
do
showplan <- runShowplan query
pure
( encJFromJValue $
ExplainPlan
fieldName
(Just queryString)
(Just showplan)
)
pure $
AB.mkAnyBackend $
DBStepInfo @'MSSQL sourceName sourceConfig Nothing odbcQuery ()
msDBSubscriptionExplain ::
(MonadIO m, MonadBaseControl IO m, MonadError QErr m) =>
SubscriptionQueryPlan 'MSSQL (MultiplexedQuery 'MSSQL) ->
m SubscriptionQueryPlanExplanation
msDBSubscriptionExplain (SubscriptionQueryPlan plan sourceConfig cohortId _dynamicConnection variables _) = do
let (MultiplexedQuery' reselect _queryTags) = _plqpQuery plan
query = toQueryPretty $ fromSelect $ multiplexRootReselect [(cohortId, variables)] reselect
mssqlExecCtx = (_mscExecCtx sourceConfig)
explainInfo <- liftEitherM $ runExceptT $ (mssqlRunReadOnly mssqlExecCtx) (runShowplan query)
pure $ SubscriptionQueryPlanExplanation (T.toTxt query) explainInfo variables
-- | Producing the correct SQL-level list comprehension to multiplex a query
-- Problem description:
--
-- Generate a query that repeats the same query N times but with
-- certain slots replaced:
--
-- [ Select x y | (x,y) <- [..] ]
--
-- Caution: Be aware that this query has a @FOR JSON@ clause at the top-level
-- and hence its results may be split up across multiple rows. Use
-- 'Database.MSSQL.Transaction.forJsonQueryE' to handle this.
multiplexRootReselect ::
[(CohortId, CohortVariables)] ->
TSQL.Reselect ->
TSQL.Select
multiplexRootReselect variables rootReselect =
emptySelect
{ selectTop = NoTop,
selectProjections =
[ FieldNameProjection
Aliased
{ aliasedThing =
TSQL.FieldName
{ fieldNameEntity = rowAlias,
fieldName = resultIdAlias
},
aliasedAlias = resultIdAlias
},
ExpressionProjection
Aliased
{ aliasedThing =
ColumnExpression
( TSQL.FieldName
{ fieldNameEntity = resultAlias,
fieldName = jsonFieldName
}
),
aliasedAlias = resultAlias
}
],
selectFrom =
Just $
FromOpenJson
Aliased
{ aliasedThing =
OpenJson
{ openJsonExpression =
ValueExpression (ODBC.TextValue $ lbsToTxt $ J.encode variables),
openJsonWith =
Just $
NE.fromList
[ ScalarField GuidType DataLengthUnspecified resultIdAlias (Just $ IndexPath RootPath 0),
JsonField resultVarsAlias (Just $ IndexPath RootPath 1)
]
},
aliasedAlias = rowAlias
},
selectJoins =
[ Join
{ joinSource = JoinReselect rootReselect,
joinJoinAlias =
JoinAlias
{ joinAliasEntity = resultAlias,
joinAliasField = Just jsonFieldName
}
}
],
selectWhere = Where mempty,
selectFor =
JsonFor ForJson {jsonCardinality = JsonArray, jsonRoot = NoRoot},
selectOrderBy = Nothing,
selectOffset = Nothing
}
-- * Mutation
msDBMutationPlan ::
forall m.
( MonadError QErr m,
MonadReader QueryTagsComment m
) =>
UserInfo ->
Env.Environment ->
Options.StringifyNumbers ->
SourceName ->
SourceConfig 'MSSQL ->
MutationDB 'MSSQL Void (UnpreparedValue 'MSSQL) ->
[HTTP.Header] ->
Maybe G.Name ->
m (DBStepInfo 'MSSQL)
msDBMutationPlan userInfo _environment stringifyNum sourceName sourceConfig mrf _headers _gName = do
go <$> case mrf of
MDBInsert annInsert -> executeInsert userInfo stringifyNum sourceConfig annInsert
MDBDelete annDelete -> executeDelete userInfo stringifyNum sourceConfig annDelete
MDBUpdate annUpdate -> executeUpdate userInfo stringifyNum sourceConfig annUpdate
MDBFunction {} -> throw400 NotSupported "function mutations are not supported in MSSQL"
where
go v = DBStepInfo @'MSSQL sourceName sourceConfig Nothing v ()
-- * Subscription
msDBLiveQuerySubscriptionPlan ::
forall m.
( MonadError QErr m,
MonadIO m,
MonadBaseControl IO m,
MonadReader QueryTagsComment m
) =>
UserInfo ->
SourceName ->
SourceConfig 'MSSQL ->
Maybe G.Name ->
RootFieldMap (QueryDB 'MSSQL Void (UnpreparedValue 'MSSQL)) ->
[HTTP.Header] ->
Maybe G.Name ->
m (SubscriptionQueryPlan 'MSSQL (MultiplexedQuery 'MSSQL))
msDBLiveQuerySubscriptionPlan UserInfo {_uiSession, _uiRole} _sourceName sourceConfig namespace rootFields _ _ = do
(reselect, prepareState) <- planSubscription (OMap.mapKeys _rfaAlias rootFields) _uiSession
cohortVariables <- prepareStateCohortVariables sourceConfig _uiSession prepareState
queryTags <- ask
let parameterizedPlan = ParameterizedSubscriptionQueryPlan _uiRole $ (MultiplexedQuery' reselect queryTags)
pure $
SubscriptionQueryPlan parameterizedPlan sourceConfig dummyCohortId () cohortVariables namespace
prepareStateCohortVariables ::
(MonadError QErr m, MonadIO m, MonadBaseControl IO m) =>
SourceConfig 'MSSQL ->
SessionVariables ->
PrepareState ->
m CohortVariables
prepareStateCohortVariables sourceConfig session prepState = do
(namedVars, posVars) <- validateVariables sourceConfig session prepState
let PrepareState {sessionVariables} = prepState
pure $
mkCohortVariables
sessionVariables
session
namedVars
posVars
mempty -- streaming cursor variables are kept empty because streaming subscriptions aren't yet supported for MS-SQL
-- | Ensure that the set of variables (with value instantiations) that occur in
-- a (RQL) query produce a well-formed and executable (SQL) query when
-- considered in isolation.
--
-- This helps avoiding cascading failures in multiplexed queries.
--
-- c.f. https://github.com/hasura/graphql-engine-mono/issues/1210.
validateVariables ::
(MonadError QErr m, MonadIO m, MonadBaseControl IO m) =>
SourceConfig 'MSSQL ->
SessionVariables ->
PrepareState ->
m (ValidatedQueryVariables, ValidatedSyntheticVariables)
validateVariables sourceConfig sessionVariableValues prepState = do
let PrepareState {sessionVariables, namedArguments, positionalArguments} = prepState
-- We generate a single 'canary' query in the form:
--
-- SELECT ... [session].[x-hasura-foo] as [x-hasura-foo], ... as a, ... as b, ...
-- FROM OPENJSON('...')
-- WITH ([x-hasura-foo] NVARCHAR(MAX)) as [session]
--
-- where 'a', 'b', etc. are aliases given to positional arguments.
-- Named arguments and session variables are aliased to themselves.
--
-- The idea being that if the canary query succeeds we can be
-- reasonably confident that adding these variables to a query being
-- polled will not crash the poller.
occSessionVars =
filterSessionVariables
(\k _ -> Set.member k sessionVariables)
sessionVariableValues
expSes, expNamed, expPos :: [Aliased Expression]
expSes = sessionReference <$> getSessionVariables occSessionVars
expNamed =
map
( \(n, v) -> Aliased (ValueExpression (RQLColumn.cvValue v)) (G.unName n)
)
$ Map.toList
$ namedArguments
-- For positional args we need to be a bit careful not to capture names
-- from expNamed and expSes (however unlikely)
expPos =
zipWith
(\n v -> Aliased (ValueExpression (RQLColumn.cvValue v)) n)
(freshVars (expNamed <> expSes))
positionalArguments
projAll :: [Projection]
projAll = map ExpressionProjection (expSes <> expNamed <> expPos)
canaryQuery =
if null projAll
then Nothing
else
Just $
renderQuery
emptySelect
{ selectProjections = projAll,
selectFrom = sessionOpenJson occSessionVars
}
for_
canaryQuery
( \q -> do
_ :: [[ODBC.Value]] <- liftEitherM $ runExceptT $ mssqlRunReadOnly (_mscExecCtx sourceConfig) (Tx.multiRowQueryE defaultMSSQLTxErrorHandler q)
pure ()
)
pure
( ValidatedVariables $ txtEncodedColVal <$> namedArguments,
ValidatedVariables $ txtEncodedColVal <$> positionalArguments
)
where
renderQuery :: Select -> ODBC.Query
renderQuery = toQueryFlat . fromSelect
freshVars :: [Aliased a] -> [Text]
freshVars boundNames = filter (not . (`elem` map aliasedAlias boundNames)) chars
-- Infinite list of expression aliases.
chars :: [Text]
chars = [y T.<>> x | y <- [""] <|> chars, x <- ['a' .. 'z']]
sessionOpenJson :: SessionVariables -> Maybe From
sessionOpenJson occSessionVars =
nonEmpty (getSessionVariables occSessionVars)
<&> \fields ->
FromOpenJson $
Aliased
( OpenJson
(ValueExpression $ ODBC.TextValue $ lbsToTxt $ J.encode occSessionVars)
(pure (sessField <$> fields))
)
"session"
sessField :: Text -> JsonFieldSpec
sessField var = StringField var Nothing
sessionReference :: Text -> Aliased Expression
sessionReference var = Aliased (ColumnExpression (TSQL.FieldName var "session")) var
-- * Remote Relationships (e.g. DB-to-DB Joins, remote schema joins, etc.)
-- | Construct an action (i.e. 'DBStepInfo') which can marshal some remote
-- relationship information into a form that SQL Server can query against.
--
-- XXX: Currently unimplemented; the Postgres implementation uses
-- @jsonb_to_recordset@ to query the remote relationship, however this
-- functionality doesn't exist in SQL Server.
--
-- NOTE: The following typeclass constraints will be necessary when implementing
-- this function for real:
--
-- @
-- MonadQueryTags m
-- Backend 'MSSQL
-- @
msDBRemoteRelationshipPlan ::
forall m.
( MonadError QErr m
) =>
UserInfo ->
SourceName ->
SourceConfig 'MSSQL ->
-- | List of json objects, each of which becomes a row of the table.
NonEmpty J.Object ->
-- | The above objects have this schema
--
-- XXX: What is this for/what does this mean?
HashMap RQLTypes.FieldName (RQLTypes.Column 'MSSQL, RQLTypes.ScalarType 'MSSQL) ->
-- | This is a field name from the lhs that *has* to be selected in the
-- response along with the relationship.
RQLTypes.FieldName ->
(RQLTypes.FieldName, SourceRelationshipSelection 'MSSQL Void UnpreparedValue) ->
[HTTP.Header] ->
Maybe G.Name ->
Options.StringifyNumbers ->
m (DBStepInfo 'MSSQL)
msDBRemoteRelationshipPlan userInfo sourceName sourceConfig lhs lhsSchema argumentId relationship _headers _gName _stringifyNumbers = do
-- `stringifyNumbers` is not currently handled in any SQL Server operation
statement <- planSourceRelationship (_uiSession userInfo) lhs lhsSchema argumentId relationship
let printer = fromSelect statement
queryString = ODBC.renderQuery $ toQueryPretty printer
odbcQuery = runSelectQuery printer
pure $ DBStepInfo @'MSSQL sourceName sourceConfig (Just queryString) odbcQuery ()
where
runSelectQuery queryPrinter = OnBaseMonad do
let queryTx = encJFromText <$> Tx.singleRowQueryE defaultMSSQLTxErrorHandler (toQueryFlat queryPrinter)
mssqlRunReadOnly (_mscExecCtx sourceConfig) queryTx