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173 lines
6.8 KiB
Haskell
173 lines
6.8 KiB
Haskell
{-| This module (along with the various @Hasura.RQL.DDL.Schema.*@ modules) provides operations to
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load and modify the Hasura catalog and schema cache.
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* The /catalog/ refers to the set of PostgreSQL tables and views that store all schema information
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known by Hasura. This includes any tracked Postgres tables, views, and functions, all remote
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schemas, and any additionaly Hasura-specific information such as permissions and relationships.
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Primitive functions for loading and modifying the catalog are defined in
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"Hasura.RQL.DDL.Schema.Catalog", but most uses are wrapped by other functions to synchronize
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catalog information with the information in the schema cache.
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* The /schema cache/ is a process-global value of type 'SchemaCache' that stores an in-memory
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representation of the data stored in the catalog. The in-memory representation is not identical
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to the data in the catalog, since it has some post-processing applied to it in order to make it
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easier to consume for other parts of the system, such as GraphQL schema generation. For example,
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although column information is represented by 'RawColumnInfo', the schema cache contains
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“processed” 'ColumnInfo' values, instead.
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Ultimately, the catalog is the source of truth for all information contained in the schema
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cache, but to avoid rebuilding the entire schema cache on every change to the catalog, various
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functions incrementally update the cache when they modify the catalog.
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-}
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{-# LANGUAGE RecordWildCards #-}
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module Hasura.RQL.DDL.Schema
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( module Hasura.RQL.DDL.Schema.Cache
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, module Hasura.RQL.DDL.Schema.Catalog
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, module Hasura.RQL.DDL.Schema.Function
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, module Hasura.RQL.DDL.Schema.Rename
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, module Hasura.RQL.DDL.Schema.Table
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, RunSQL(..)
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, runRunSQL
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, isSchemaCacheBuildRequiredRunSQL
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) where
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import Hasura.Prelude
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import qualified Data.Text as T
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import qualified Data.Text.Encoding as TE
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import qualified Database.PG.Query as Q
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import qualified Database.PostgreSQL.LibPQ as PQ
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import qualified Text.Regex.TDFA as TDFA
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import Data.Aeson
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import Data.Aeson.Casing
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import Data.Aeson.TH
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import Language.Haskell.TH.Syntax (Lift)
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import Hasura.EncJSON
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import Hasura.RQL.DDL.Schema.Cache
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import Hasura.RQL.DDL.Schema.Catalog
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import Hasura.RQL.DDL.Schema.Function
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import Hasura.RQL.DDL.Schema.Rename
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import Hasura.RQL.DDL.Schema.Table
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import Hasura.RQL.Instances ()
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import Hasura.RQL.Types
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import Hasura.Server.Utils (quoteRegex)
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data RunSQL
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= RunSQL
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{ rSql :: Text
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, rCascade :: !Bool
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, rCheckMetadataConsistency :: !(Maybe Bool)
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, rTxAccessMode :: !Q.TxAccess
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} deriving (Show, Eq, Lift)
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instance FromJSON RunSQL where
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parseJSON = withObject "RunSQL" $ \o -> do
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rSql <- o .: "sql"
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rCascade <- o .:? "cascade" .!= False
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rCheckMetadataConsistency <- o .:? "check_metadata_consistency"
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isReadOnly <- o .:? "read_only" .!= False
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let rTxAccessMode = if isReadOnly then Q.ReadOnly else Q.ReadWrite
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pure RunSQL{..}
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instance ToJSON RunSQL where
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toJSON RunSQL {..} =
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object
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[ "sql" .= rSql
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, "cascade" .= rCascade
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, "check_metadata_consistency" .= rCheckMetadataConsistency
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, "read_only" .=
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case rTxAccessMode of
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Q.ReadOnly -> True
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Q.ReadWrite -> False
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]
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-- | see Note [Checking metadata consistency in run_sql]
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isSchemaCacheBuildRequiredRunSQL :: RunSQL -> Bool
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isSchemaCacheBuildRequiredRunSQL RunSQL {..} =
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case rTxAccessMode of
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Q.ReadOnly -> False
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Q.ReadWrite -> fromMaybe (containsDDLKeyword rSql) rCheckMetadataConsistency
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where
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containsDDLKeyword :: Text -> Bool
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containsDDLKeyword = TDFA.match $$(quoteRegex
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TDFA.defaultCompOpt
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{ TDFA.caseSensitive = False
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, TDFA.multiline = True
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, TDFA.lastStarGreedy = True }
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TDFA.defaultExecOpt
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{ TDFA.captureGroups = False }
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"\\balter\\b|\\bdrop\\b|\\breplace\\b|\\bcreate function\\b|\\bcomment on\\b")
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runRunSQL :: (MonadTx m, CacheRWM m, HasSQLGenCtx m) => RunSQL -> m EncJSON
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runRunSQL q@RunSQL {..}
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-- see Note [Checking metadata consistency in run_sql]
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| isSchemaCacheBuildRequiredRunSQL q
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= withMetadataCheck rCascade $ execRawSQL rSql
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| otherwise
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= execRawSQL rSql
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where
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execRawSQL :: (MonadTx m) => Text -> m EncJSON
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execRawSQL =
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fmap (encJFromJValue @RunSQLRes) . liftTx . Q.multiQE rawSqlErrHandler . Q.fromText
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where
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rawSqlErrHandler txe =
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(err400 PostgresError "query execution failed") { qeInternal = Just $ toJSON txe }
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{- Note [Checking metadata consistency in run_sql]
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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SQL queries executed by run_sql may change the Postgres schema in arbitrary
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ways. We attempt to automatically update the metadata to reflect those changes
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as much as possible---for example, if a table is renamed, we want to update the
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metadata to track the table under its new name instead of its old one. This
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schema diffing (plus some integrity checking) is handled by withMetadataCheck.
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But this process has overhead---it involves reloading the metadata, diffing it,
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and rebuilding the schema cache---so we don’t want to do it if it isn’t
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necessary. The user can explicitly disable the check via the
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check_metadata_consistency option, and we also skip it if the current
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transaction is in READ ONLY mode, since the schema can’t be modified in that
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case, anyway.
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However, even if neither read_only or check_metadata_consistency is passed, lots
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of queries may not modify the schema at all. As a (fairly stupid) heuristic, we
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check if the query contains any keywords for DDL operations, and if not, we skip
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the metadata check as well. -}
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data RunSQLRes
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= RunSQLRes
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{ rrResultType :: !Text
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, rrResult :: !Value
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} deriving (Show, Eq)
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$(deriveJSON (aesonDrop 2 snakeCase) ''RunSQLRes)
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instance Q.FromRes RunSQLRes where
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fromRes (Q.ResultOkEmpty _) =
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return $ RunSQLRes "CommandOk" Null
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fromRes (Q.ResultOkData res) = do
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csvRows <- resToCSV res
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return $ RunSQLRes "TuplesOk" $ toJSON csvRows
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where
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resToCSV :: PQ.Result -> ExceptT Text IO [[Text]]
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resToCSV r = do
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nr <- liftIO $ PQ.ntuples r
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nc <- liftIO $ PQ.nfields r
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hdr <- forM [0..pred nc] $ \ic -> do
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colNameBS <- liftIO $ PQ.fname r ic
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maybe (return "unknown") decodeBS colNameBS
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rows <- forM [0..pred nr] $ \ir ->
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forM [0..pred nc] $ \ic -> do
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cellValBS <- liftIO $ PQ.getvalue r ir ic
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maybe (return "NULL") decodeBS cellValBS
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return $ hdr:rows
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decodeBS = either (throwError . T.pack . show) return . TE.decodeUtf8'
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