mirror of
https://github.com/hasura/graphql-engine.git
synced 2024-12-18 04:51:35 +03:00
c0d2bc6653
add remote joins: Create relationships across database and remote schemas (#2392) Co-authored-by: Aleksandra Sikora <ola.zxcvbnm@gmail.com> Co-authored-by: Chris Done <chrisdone@gmail.com> Co-authored-by: Chris Done <github@chrisdone.com> Co-authored-by: wawhal <rishichandra.wawhal@gmail.com> Co-authored-by: Aravind Shankar <aravind@hasura.io> Co-authored-by: Brandon Simmons <brandon.m.simmons@gmail.com> Co-authored-by: Rishichandra Wawhal <rishi@hasura.io> Co-authored-by: Brandon Simmons <brandon@hasura.io> Co-authored-by: nizar-m <19857260+nizar-m@users.noreply.github.com> Co-authored-by: Praveen Durairaju <praveend.web@gmail.com> Co-authored-by: rakeshkky <12475069+rakeshkky@users.noreply.github.com> Co-authored-by: Anon Ray <rayanon004@gmail.com> Co-authored-by: Shahidh K Muhammed <shahidh@hasura.io> Co-authored-by: soorajshankar <soorajshankar@users.noreply.github.com> Co-authored-by: Sooraj Sanker <sooraj@Soorajs-MacBook-Pro.local> Co-authored-by: Karthikeyan Chinnakonda <karthikeyan@hasura.io> Co-authored-by: Aleksandra Sikora <ola.zxcvbnm@gmail.com>
343 lines
15 KiB
Haskell
343 lines
15 KiB
Haskell
{-# LANGUAGE UndecidableInstances #-}
|
||
|
||
-- | Construction of multiplexed live query plans; see "Hasura.GraphQL.Execute.LiveQuery" for
|
||
-- details.
|
||
module Hasura.GraphQL.Execute.LiveQuery.Plan
|
||
( MultiplexedQuery
|
||
, mkMultiplexedQuery
|
||
, resolveMultiplexedValue
|
||
|
||
, CohortId
|
||
, newCohortId
|
||
, CohortVariables
|
||
, executeMultiplexedQuery
|
||
|
||
, LiveQueryPlan(..)
|
||
, ParameterizedLiveQueryPlan(..)
|
||
, ReusableLiveQueryPlan
|
||
, ValidatedQueryVariables
|
||
, buildLiveQueryPlan
|
||
, reuseLiveQueryPlan
|
||
|
||
, LiveQueryPlanExplanation
|
||
, explainLiveQueryPlan
|
||
) where
|
||
|
||
import Hasura.Prelude
|
||
import Hasura.Session
|
||
|
||
import qualified Data.Aeson.Casing as J
|
||
import qualified Data.Aeson.Extended as J
|
||
import qualified Data.Aeson.TH as J
|
||
import qualified Data.HashMap.Strict as Map
|
||
import qualified Data.Text as T
|
||
import qualified Data.UUID.V4 as UUID
|
||
import qualified Database.PG.Query as Q
|
||
import qualified Language.GraphQL.Draft.Syntax as G
|
||
|
||
-- remove these when array encoding is merged
|
||
import qualified Database.PG.Query.PTI as PTI
|
||
import qualified PostgreSQL.Binary.Encoding as PE
|
||
|
||
import Control.Lens
|
||
import Data.Has
|
||
import Data.UUID (UUID)
|
||
|
||
import qualified Hasura.GraphQL.Resolve as GR
|
||
import qualified Hasura.GraphQL.Resolve.Action as RA
|
||
import qualified Hasura.GraphQL.Resolve.Types as GR
|
||
import qualified Hasura.GraphQL.Transport.HTTP.Protocol as GH
|
||
import qualified Hasura.GraphQL.Validate as GV
|
||
import qualified Hasura.GraphQL.Validate.Types as GV
|
||
import qualified Hasura.SQL.DML as S
|
||
|
||
import Hasura.Db
|
||
import Hasura.EncJSON
|
||
import Hasura.GraphQL.Utils
|
||
import Hasura.RQL.Types
|
||
import Hasura.SQL.Error
|
||
import Hasura.SQL.Types
|
||
import Hasura.SQL.Value
|
||
import Hasura.Server.Version (HasVersion)
|
||
|
||
-- -------------------------------------------------------------------------------------------------
|
||
-- Multiplexed queries
|
||
|
||
newtype MultiplexedQuery = MultiplexedQuery { unMultiplexedQuery :: Q.Query }
|
||
deriving (Show, Eq, Hashable, J.ToJSON)
|
||
|
||
mkMultiplexedQuery :: Map.HashMap G.Alias GR.QueryRootFldResolved -> MultiplexedQuery
|
||
mkMultiplexedQuery rootFields = MultiplexedQuery . Q.fromBuilder . toSQL $ S.mkSelect
|
||
{ S.selExtr =
|
||
-- SELECT _subs.result_id, _fld_resp.root AS result
|
||
[ S.Extractor (mkQualIden (Iden "_subs") (Iden "result_id")) Nothing
|
||
, S.Extractor (mkQualIden (Iden "_fld_resp") (Iden "root")) (Just . S.Alias $ Iden "result") ]
|
||
, S.selFrom = Just $ S.FromExp [S.FIJoin $
|
||
S.JoinExpr subsInputFromItem S.LeftOuter responseLateralFromItem (S.JoinOn $ S.BELit True)]
|
||
}
|
||
where
|
||
-- FROM unnest($1::uuid[], $2::json[]) _subs (result_id, result_vars)
|
||
subsInputFromItem = S.FIUnnest
|
||
[S.SEPrep 1 `S.SETyAnn` S.TypeAnn "uuid[]", S.SEPrep 2 `S.SETyAnn` S.TypeAnn "json[]"]
|
||
(S.Alias $ Iden "_subs")
|
||
[S.SEIden $ Iden "result_id", S.SEIden $ Iden "result_vars"]
|
||
|
||
-- LEFT OUTER JOIN LATERAL ( ... ) _fld_resp
|
||
responseLateralFromItem = S.mkLateralFromItem selectRootFields (S.Alias $ Iden "_fld_resp")
|
||
selectRootFields = S.mkSelect
|
||
{ S.selExtr = [S.Extractor rootFieldsJsonAggregate (Just . S.Alias $ Iden "root")]
|
||
, S.selFrom = Just . S.FromExp $
|
||
flip map (Map.toList rootFields) $ \(fieldAlias, resolvedAST) ->
|
||
S.mkSelFromItem (GR.toSQLSelect resolvedAST) (S.Alias $ aliasToIden fieldAlias)
|
||
}
|
||
|
||
-- json_build_object('field1', field1.root, 'field2', field2.root, ...)
|
||
rootFieldsJsonAggregate = S.SEFnApp "json_build_object" rootFieldsJsonPairs Nothing
|
||
rootFieldsJsonPairs = flip concatMap (Map.keys rootFields) $ \fieldAlias ->
|
||
[ S.SELit (G.unName $ G.unAlias fieldAlias)
|
||
, mkQualIden (aliasToIden fieldAlias) (Iden "root") ]
|
||
|
||
mkQualIden prefix = S.SEQIden . S.QIden (S.QualIden prefix Nothing) -- TODO fix this Nothing of course
|
||
aliasToIden = Iden . G.unName . G.unAlias
|
||
|
||
-- | Resolves an 'GR.UnresolvedVal' by converting 'GR.UVPG' values to SQL expressions that refer to
|
||
-- the @result_vars@ input object, collecting variable values along the way.
|
||
resolveMultiplexedValue
|
||
:: (MonadState (GV.ReusableVariableValues, Seq (WithScalarType PGScalarValue)) m)
|
||
=> GR.UnresolvedVal -> m S.SQLExp
|
||
resolveMultiplexedValue = \case
|
||
GR.UVPG annPGVal -> do
|
||
let GR.AnnPGVal varM _ colVal = annPGVal
|
||
varJsonPath <- case varM of
|
||
Just varName -> do
|
||
modifying _1 $ Map.insert varName colVal
|
||
pure ["query", G.unName $ G.unVariable varName]
|
||
Nothing -> do
|
||
syntheticVarIndex <- gets (length . snd)
|
||
modifying _2 (|> colVal)
|
||
pure ["synthetic", T.pack $ show syntheticVarIndex]
|
||
pure $ fromResVars (PGTypeScalar $ pstType colVal) varJsonPath
|
||
GR.UVSessVar ty sessVar -> pure $ fromResVars ty ["session", sessionVariableToText sessVar]
|
||
GR.UVSQL sqlExp -> pure sqlExp
|
||
GR.UVSession -> pure $ fromResVars (PGTypeScalar PGJSON) ["session"]
|
||
where
|
||
fromResVars pgType jPath = addTypeAnnotation pgType $ S.SEOpApp (S.SQLOp "#>>")
|
||
[ S.SEQIden $ S.QIden (S.QualIden (Iden "_subs") Nothing) (Iden "result_vars")
|
||
, S.SEArray $ map S.SELit jPath
|
||
]
|
||
addTypeAnnotation pgType = flip S.SETyAnn (S.mkTypeAnn pgType) . case pgType of
|
||
PGTypeScalar scalarType -> withConstructorFn scalarType
|
||
PGTypeArray _ -> id
|
||
|
||
newtype CohortId = CohortId { unCohortId :: UUID }
|
||
deriving (Show, Eq, Hashable, J.ToJSON, Q.FromCol)
|
||
|
||
newCohortId :: (MonadIO m) => m CohortId
|
||
newCohortId = CohortId <$> liftIO UUID.nextRandom
|
||
|
||
data CohortVariables
|
||
= CohortVariables
|
||
{ _cvSessionVariables :: !SessionVariables
|
||
, _cvQueryVariables :: !ValidatedQueryVariables
|
||
, _cvSyntheticVariables :: !ValidatedSyntheticVariables
|
||
-- ^ To allow more queries to be multiplexed together, we introduce “synthetic” variables for
|
||
-- /all/ SQL literals in a query, even if they don’t correspond to any GraphQL variable. For
|
||
-- example, the query
|
||
--
|
||
-- > subscription latest_tracks($condition: tracks_bool_exp!) {
|
||
-- > tracks(where: $tracks_bool_exp) {
|
||
-- > id
|
||
-- > title
|
||
-- > }
|
||
-- > }
|
||
--
|
||
-- might be executed with similar values for @$condition@, such as @{"album_id": {"_eq": "1"}}@
|
||
-- and @{"album_id": {"_eq": "2"}}@.
|
||
--
|
||
-- Normally, we wouldn’t bother parameterizing over the @1@ and @2@ literals in the resulting
|
||
-- query because we can’t cache that query plan (since different @$condition@ values could lead to
|
||
-- different SQL). However, for live queries, we can still take advantage of the similarity
|
||
-- between the two queries by multiplexing them together, so we replace them with references to
|
||
-- synthetic variables.
|
||
} deriving (Show, Eq, Generic)
|
||
instance Hashable CohortVariables
|
||
|
||
instance J.ToJSON CohortVariables where
|
||
toJSON (CohortVariables sessionVars queryVars syntheticVars) =
|
||
J.object ["session" J..= sessionVars, "query" J..= queryVars, "synthetic" J..= syntheticVars]
|
||
|
||
-- These types exist only to use the Postgres array encoding.
|
||
newtype CohortIdArray = CohortIdArray { unCohortIdArray :: [CohortId] }
|
||
deriving (Show, Eq)
|
||
instance Q.ToPrepArg CohortIdArray where
|
||
toPrepVal (CohortIdArray l) = Q.toPrepValHelper PTI.unknown encoder $ map unCohortId l
|
||
where
|
||
encoder = PE.array 2950 . PE.dimensionArray foldl' (PE.encodingArray . PE.uuid)
|
||
newtype CohortVariablesArray = CohortVariablesArray { unCohortVariablesArray :: [CohortVariables] }
|
||
deriving (Show, Eq)
|
||
instance Q.ToPrepArg CohortVariablesArray where
|
||
toPrepVal (CohortVariablesArray l) =
|
||
Q.toPrepValHelper PTI.unknown encoder (map J.toJSON l)
|
||
where
|
||
encoder = PE.array 114 . PE.dimensionArray foldl' (PE.encodingArray . PE.json_ast)
|
||
|
||
executeMultiplexedQuery
|
||
:: (MonadTx m) => MultiplexedQuery -> [(CohortId, CohortVariables)] -> m [(CohortId, EncJSON)]
|
||
executeMultiplexedQuery (MultiplexedQuery query) = executeQuery query
|
||
|
||
-- | Internal; used by both 'executeMultiplexedQuery' and 'explainLiveQueryPlan'.
|
||
executeQuery :: (MonadTx m, Q.FromRow a) => Q.Query -> [(CohortId, CohortVariables)] -> m [a]
|
||
executeQuery query cohorts =
|
||
let (cohortIds, cohortVars) = unzip cohorts
|
||
preparedArgs = (CohortIdArray cohortIds, CohortVariablesArray cohortVars)
|
||
in liftTx $ Q.listQE defaultTxErrorHandler query preparedArgs True
|
||
|
||
-- -------------------------------------------------------------------------------------------------
|
||
-- Variable validation
|
||
|
||
-- | When running multiplexed queries, we have to be especially careful about user input, since
|
||
-- invalid values will cause the query to fail, causing collateral damage for anyone else
|
||
-- multiplexed into the same query. Therefore, we pre-validate variables against Postgres by
|
||
-- executing a no-op query of the shape
|
||
--
|
||
-- > SELECT 'v1'::t1, 'v2'::t2, ..., 'vn'::tn
|
||
--
|
||
-- so if any variable values are invalid, the error will be caught early.
|
||
newtype ValidatedVariables f = ValidatedVariables (f TxtEncodedPGVal)
|
||
deriving instance (Show (f TxtEncodedPGVal)) => Show (ValidatedVariables f)
|
||
deriving instance (Eq (f TxtEncodedPGVal)) => Eq (ValidatedVariables f)
|
||
deriving instance (Hashable (f TxtEncodedPGVal)) => Hashable (ValidatedVariables f)
|
||
deriving instance (J.ToJSON (f TxtEncodedPGVal)) => J.ToJSON (ValidatedVariables f)
|
||
|
||
type ValidatedQueryVariables = ValidatedVariables (Map.HashMap G.Variable)
|
||
type ValidatedSyntheticVariables = ValidatedVariables []
|
||
|
||
-- | Checks if the provided arguments are valid values for their corresponding types.
|
||
-- Generates SQL of the format "select 'v1'::t1, 'v2'::t2 ..."
|
||
validateVariables
|
||
:: (Traversable f, MonadError QErr m, MonadIO m)
|
||
=> PGExecCtx
|
||
-> f (WithScalarType PGScalarValue)
|
||
-> m (ValidatedVariables f)
|
||
validateVariables pgExecCtx variableValues = do
|
||
let valSel = mkValidationSel $ toList variableValues
|
||
Q.Discard () <- runTx' $ liftTx $
|
||
Q.rawQE dataExnErrHandler (Q.fromBuilder $ toSQL valSel) [] False
|
||
pure . ValidatedVariables $ fmap (txtEncodedPGVal . pstValue) variableValues
|
||
where
|
||
mkExtrs = map (flip S.Extractor Nothing . toTxtValue)
|
||
mkValidationSel vars =
|
||
S.mkSelect { S.selExtr = mkExtrs vars }
|
||
runTx' tx = do
|
||
res <- liftIO $ runExceptT (runLazyTx' pgExecCtx tx)
|
||
liftEither res
|
||
|
||
-- Explicitly look for the class of errors raised when the format of a value provided
|
||
-- for a type is incorrect.
|
||
dataExnErrHandler = mkTxErrorHandler (has _PGDataException)
|
||
|
||
-- -------------------------------------------------------------------------------------------------
|
||
-- Live query plans
|
||
|
||
-- | A self-contained, ready-to-execute live query plan. Contains enough information to find an
|
||
-- existing poller that this can be added to /or/ to create a new poller if necessary.
|
||
data LiveQueryPlan
|
||
= LiveQueryPlan
|
||
{ _lqpParameterizedPlan :: !ParameterizedLiveQueryPlan
|
||
, _lqpVariables :: !CohortVariables
|
||
} deriving Show
|
||
|
||
data ParameterizedLiveQueryPlan
|
||
= ParameterizedLiveQueryPlan
|
||
{ _plqpRole :: !RoleName
|
||
, _plqpQuery :: !MultiplexedQuery
|
||
} deriving (Show)
|
||
$(J.deriveToJSON (J.aesonDrop 4 J.snakeCase) ''ParameterizedLiveQueryPlan)
|
||
|
||
data ReusableLiveQueryPlan
|
||
= ReusableLiveQueryPlan
|
||
{ _rlqpParameterizedPlan :: !ParameterizedLiveQueryPlan
|
||
, _rlqpSyntheticVariableValues :: !ValidatedSyntheticVariables
|
||
, _rlqpQueryVariableTypes :: !GV.ReusableVariableTypes
|
||
} deriving (Show)
|
||
$(J.deriveToJSON (J.aesonDrop 4 J.snakeCase) ''ReusableLiveQueryPlan)
|
||
|
||
-- | Constructs a new execution plan for a live query and returns a reusable version of the plan if
|
||
-- possible.
|
||
buildLiveQueryPlan
|
||
:: ( MonadError QErr m
|
||
, MonadReader r m
|
||
, Has UserInfo r
|
||
, Has GR.FieldMap r
|
||
, Has GR.OrdByCtx r
|
||
, Has GR.QueryCtxMap r
|
||
, Has SQLGenCtx r
|
||
, HasVersion
|
||
, MonadIO m
|
||
)
|
||
=> PGExecCtx
|
||
-> GV.QueryReusability
|
||
-> RA.QueryActionExecuter
|
||
-> GV.SelSet
|
||
-> m (LiveQueryPlan, Maybe ReusableLiveQueryPlan)
|
||
buildLiveQueryPlan pgExecCtx initialReusability actionExecutioner fields = do
|
||
((resolvedASTs, (queryVariableValues, syntheticVariableValues)), finalReusability) <-
|
||
GV.runReusabilityTWith initialReusability . flip runStateT mempty $
|
||
fmap Map.fromList . for (toList fields) $ \field -> case GV._fName field of
|
||
"__typename" -> throwVE "you cannot create a subscription on '__typename' field"
|
||
_ -> do
|
||
unresolvedAST <- GR.queryFldToPGAST field actionExecutioner
|
||
resolvedAST <- GR.traverseQueryRootFldAST resolveMultiplexedValue unresolvedAST
|
||
|
||
let (_, remoteJoins) = GR.toPGQuery resolvedAST
|
||
-- Reject remote relationships in subscription live query
|
||
when (remoteJoins /= mempty) $
|
||
throw400 NotSupported
|
||
"Remote relationships are not allowed in subscriptions"
|
||
pure (GV._fAlias field, resolvedAST)
|
||
|
||
userInfo <- asks getter
|
||
let multiplexedQuery = mkMultiplexedQuery resolvedASTs
|
||
roleName = _uiRole userInfo
|
||
parameterizedPlan = ParameterizedLiveQueryPlan roleName multiplexedQuery
|
||
|
||
-- We need to ensure that the values provided for variables are correct according to Postgres.
|
||
-- Without this check an invalid value for a variable for one instance of the subscription will
|
||
-- take down the entire multiplexed query.
|
||
validatedQueryVars <- validateVariables pgExecCtx queryVariableValues
|
||
validatedSyntheticVars <- validateVariables pgExecCtx (toList syntheticVariableValues)
|
||
let cohortVariables = CohortVariables (_uiSession userInfo) validatedQueryVars validatedSyntheticVars
|
||
plan = LiveQueryPlan parameterizedPlan cohortVariables
|
||
varTypes = finalReusability ^? GV._Reusable
|
||
reusablePlan = ReusableLiveQueryPlan parameterizedPlan validatedSyntheticVars <$> varTypes
|
||
pure (plan, reusablePlan)
|
||
|
||
reuseLiveQueryPlan
|
||
:: (MonadError QErr m, MonadIO m)
|
||
=> PGExecCtx
|
||
-> SessionVariables
|
||
-> Maybe GH.VariableValues
|
||
-> ReusableLiveQueryPlan
|
||
-> m LiveQueryPlan
|
||
reuseLiveQueryPlan pgExecCtx sessionVars queryVars reusablePlan = do
|
||
let ReusableLiveQueryPlan parameterizedPlan syntheticVars queryVarTypes = reusablePlan
|
||
annVarVals <- GV.validateVariablesForReuse queryVarTypes queryVars
|
||
validatedVars <- validateVariables pgExecCtx annVarVals
|
||
pure $ LiveQueryPlan parameterizedPlan (CohortVariables sessionVars validatedVars syntheticVars)
|
||
|
||
data LiveQueryPlanExplanation
|
||
= LiveQueryPlanExplanation
|
||
{ _lqpeSql :: !Text
|
||
, _lqpePlan :: ![Text]
|
||
} deriving (Show)
|
||
$(J.deriveToJSON (J.aesonDrop 5 J.snakeCase) ''LiveQueryPlanExplanation)
|
||
|
||
explainLiveQueryPlan :: (MonadTx m, MonadIO m) => LiveQueryPlan -> m LiveQueryPlanExplanation
|
||
explainLiveQueryPlan plan = do
|
||
let parameterizedPlan = _lqpParameterizedPlan plan
|
||
queryText = Q.getQueryText . unMultiplexedQuery $ _plqpQuery parameterizedPlan
|
||
explainQuery = Q.fromText $ "EXPLAIN (FORMAT TEXT) " <> queryText
|
||
cohortId <- newCohortId
|
||
explanationLines <- map runIdentity <$> executeQuery explainQuery [(cohortId, _lqpVariables plan)]
|
||
pure $ LiveQueryPlanExplanation queryText explanationLines
|