{-| High-Level Event-Log Interface TODO Effects storage logic is messy. -} module Urbit.Vere.Log ( EventLog, identity, nextEv, lastEv , new, existing , streamEvents, appendEvents, trimEvents , streamEffectsRows, writeEffectsRow ) where import Urbit.Prelude hiding (init) import Data.Conduit import Data.RAcquire import Database.LMDB.Raw import Foreign.Marshal.Alloc import Foreign.Ptr import Urbit.Vere.Pier.Types import Foreign.Storable (peek, poke, sizeOf) import qualified Data.ByteString.Unsafe as BU import qualified Data.Vector as V -- Types ----------------------------------------------------------------------- type Env = MDB_env type Val = MDB_val type Txn = MDB_txn type Dbi = MDB_dbi type Cur = MDB_cursor data EventLog = EventLog { env :: Env , _metaTbl :: Dbi , eventsTbl :: Dbi , effectsTbl :: Dbi , identity :: LogIdentity , numEvents :: IORef EventId } nextEv :: EventLog -> RIO e EventId nextEv = fmap succ . readIORef . numEvents lastEv :: EventLog -> RIO e EventId lastEv = readIORef . numEvents data EventLogExn = NoLogIdentity | MissingEvent EventId | BadNounInLogIdentity ByteString DecodeErr ByteString | BadKeyInEventLog | BadWriteLogIdentity LogIdentity | BadWriteEvent EventId | BadWriteEffect EventId deriving Show -- Instances ------------------------------------------------------------------- instance Exception EventLogExn where -- Open/Close an Event Log ----------------------------------------------------- rawOpen :: MonadIO m => FilePath -> m Env rawOpen dir = io $ do env <- mdb_env_create mdb_env_set_maxdbs env 3 mdb_env_set_mapsize env (100 * 1024 * 1024 * 1024) mdb_env_open env dir [] pure env create :: HasLogFunc e => FilePath -> LogIdentity -> RIO e EventLog create dir id = do logDebug $ display (pack @Text $ "Creating LMDB database: " <> dir) logDebug $ display (pack @Text $ "Log Identity: " <> show id) env <- rawOpen dir (m, e, f) <- createTables env clearEvents env e writeIdent env m id EventLog env m e f id <$> newIORef 0 where createTables env = rwith (writeTxn env) $ \txn -> io $ (,,) <$> mdb_dbi_open txn (Just "META") [MDB_CREATE] <*> mdb_dbi_open txn (Just "EVENTS") [MDB_CREATE, MDB_INTEGERKEY] <*> mdb_dbi_open txn (Just "EFFECTS") [MDB_CREATE, MDB_INTEGERKEY] open :: HasLogFunc e => FilePath -> RIO e EventLog open dir = do logDebug $ display (pack @Text $ "Opening LMDB database: " <> dir) env <- rawOpen dir (m, e, f) <- openTables env id <- getIdent env m logDebug $ display (pack @Text $ "Log Identity: " <> show id) numEvs <- getNumEvents env e EventLog env m e f id <$> newIORef numEvs where openTables env = rwith (writeTxn env) $ \txn -> io $ (,,) <$> mdb_dbi_open txn (Just "META") [] <*> mdb_dbi_open txn (Just "EVENTS") [MDB_INTEGERKEY] <*> mdb_dbi_open txn (Just "EFFECTS") [MDB_CREATE, MDB_INTEGERKEY] close :: HasLogFunc e => FilePath -> EventLog -> RIO e () close dir (EventLog env meta events effects _ _) = do logDebug $ display (pack @Text $ "Closing LMDB database: " <> dir) io $ do mdb_dbi_close env meta mdb_dbi_close env events mdb_dbi_close env effects mdb_env_sync_flush env mdb_env_close env -- Create a new event log or open an existing one. ----------------------------- existing :: HasLogFunc e => FilePath -> RAcquire e EventLog existing dir = mkRAcquire (open dir) (close dir) new :: HasLogFunc e => FilePath -> LogIdentity -> RAcquire e EventLog new dir id = mkRAcquire (create dir id) (close dir) -- Read/Write Log Identity ----------------------------------------------------- {-| A read-only transaction that commits at the end. Use this when opening database handles. -} _openTxn :: Env -> RAcquire e Txn _openTxn env = mkRAcquire begin commit where begin = io $ mdb_txn_begin env Nothing True commit = io . mdb_txn_commit {-| A read-only transaction that aborts at the end. Use this when reading data from already-opened databases. -} readTxn :: Env -> RAcquire e Txn readTxn env = mkRAcquire begin abort where begin = io $ mdb_txn_begin env Nothing True abort = io . mdb_txn_abort {-| A read-write transaction that commits upon sucessful completion and aborts on exception. Use this when reading data from already-opened databases. -} writeTxn :: Env -> RAcquire e Txn writeTxn env = mkRAcquireType begin finalize where begin = io $ mdb_txn_begin env Nothing False finalize txn = io . \case ReleaseNormal -> mdb_txn_commit txn ReleaseEarly -> mdb_txn_commit txn ReleaseException -> mdb_txn_abort txn cursor :: Txn -> Dbi -> RAcquire e Cur cursor txn dbi = mkRAcquire open close where open = io $ mdb_cursor_open txn dbi close = io . mdb_cursor_close getIdent :: HasLogFunc e => Env -> Dbi -> RIO e LogIdentity getIdent env dbi = do logDebug "Reading log identity" getTbl env >>= traverse decodeIdent >>= \case Nothing -> throwIO NoLogIdentity Just li -> pure li where decodeIdent :: (Noun, Noun, Noun) -> RIO e LogIdentity decodeIdent = fromNounExn . toNoun getTbl :: Env -> RIO e (Maybe (Noun, Noun, Noun)) getTbl env = do rwith (readTxn env) $ \txn -> do who <- getMb txn dbi "who" fake <- getMb txn dbi "is-fake" life <- getMb txn dbi "life" pure $ (,,) <$> who <*> fake <*> life writeIdent :: HasLogFunc e => Env -> Dbi -> LogIdentity -> RIO e () writeIdent env metaTbl ident@LogIdentity{..} = do logDebug "Writing log identity" let flags = compileWriteFlags [] rwith (writeTxn env) $ \txn -> do x <- putNoun flags txn metaTbl "who" (toNoun who) y <- putNoun flags txn metaTbl "is-fake" (toNoun isFake) z <- putNoun flags txn metaTbl "life" (toNoun lifecycleLen) unless (x && y && z) $ do throwIO (BadWriteLogIdentity ident) -- Latest Event Number --------------------------------------------------------- getNumEvents :: Env -> Dbi -> RIO e Word64 getNumEvents env eventsTbl = rwith (readTxn env) $ \txn -> rwith (cursor txn eventsTbl) $ \cur -> withKVPtrs' nullVal nullVal $ \pKey pVal -> io $ mdb_cursor_get MDB_LAST cur pKey pVal >>= \case False -> pure 0 True -> peek pKey >>= mdbValToWord64 -- Write Events ---------------------------------------------------------------- clearEvents :: Env -> Dbi -> RIO e () clearEvents env eventsTbl = rwith (writeTxn env) $ \txn -> rwith (cursor txn eventsTbl) $ \cur -> withKVPtrs' nullVal nullVal $ \pKey pVal -> do let loop = io (mdb_cursor_get MDB_LAST cur pKey pVal) >>= \case False -> pure () True -> do io $ mdb_cursor_del (compileWriteFlags []) cur loop loop appendEvents :: EventLog -> Vector ByteString -> RIO e () appendEvents log !events = do numEvs <- readIORef (numEvents log) next <- pure (numEvs + 1) doAppend $ zip [next..] $ toList events writeIORef (numEvents log) (numEvs + word (length events)) where flags = compileWriteFlags [MDB_NOOVERWRITE] doAppend = \kvs -> rwith (writeTxn $ env log) $ \txn -> for_ kvs $ \(k,v) -> do putBytes flags txn (eventsTbl log) k v >>= \case True -> pure () False -> throwIO (BadWriteEvent k) writeEffectsRow :: EventLog -> EventId -> ByteString -> RIO e () writeEffectsRow log k v = do rwith (writeTxn $ env log) $ \txn -> putBytes flags txn (effectsTbl log) k v >>= \case True -> pure () False -> throwIO (BadWriteEffect k) where flags = compileWriteFlags [] -- Read Events ----------------------------------------------------------------- trimEvents :: HasLogFunc e => EventLog -> Word64 -> RIO e () trimEvents log start = do last <- lastEv log rwith (writeTxn $ env log) $ \txn -> for_ [start..last] $ \eId -> withWordPtr eId $ \pKey -> do let key = MDB_val 8 (castPtr pKey) found <- io $ mdb_del txn (eventsTbl log) key Nothing unless found $ throwIO (MissingEvent eId) writeIORef (numEvents log) (pred start) streamEvents :: HasLogFunc e => EventLog -> Word64 -> ConduitT () ByteString (RIO e) () streamEvents log first = do batch <- lift $ readBatch log first unless (null batch) $ do for_ batch yield streamEvents log (first + word (length batch)) streamEffectsRows :: ∀e. HasLogFunc e => EventLog -> EventId -> ConduitT () (Word64, ByteString) (RIO e) () streamEffectsRows log = go where go :: EventId -> ConduitT () (Word64, ByteString) (RIO e) () go next = do batch <- lift $ readRowsBatch (env log) (effectsTbl log) next unless (null batch) $ do for_ batch yield go (next + fromIntegral (length batch)) {-| Read 1000 rows from the events table, starting from event `first`. Throws `MissingEvent` if an event was missing from the log. -} readBatch :: EventLog -> Word64 -> RIO e (V.Vector ByteString) readBatch log first = start where start = do last <- lastEv log if (first > last) then pure mempty else readRows $ fromIntegral $ min 1000 $ ((last+1) - first) assertFound :: EventId -> Bool -> RIO e () assertFound id found = do unless found $ throwIO $ MissingEvent id readRows count = withWordPtr first $ \pIdx -> withKVPtrs' (MDB_val 8 (castPtr pIdx)) nullVal $ \pKey pVal -> rwith (readTxn $ env log) $ \txn -> rwith (cursor txn $ eventsTbl log) $ \cur -> do assertFound first =<< io (mdb_cursor_get MDB_SET_KEY cur pKey pVal) fetchRows count cur pKey pVal fetchRows count cur pKey pVal = do env <- ask V.generateM count $ \i -> runRIO env $ do key <- io $ peek pKey >>= mdbValToWord64 val <- io $ peek pVal >>= mdbValToBytes idx <- pure (first + word i) unless (key == idx) $ throwIO $ MissingEvent idx when (count /= succ i) $ do assertFound idx =<< io (mdb_cursor_get MDB_NEXT cur pKey pVal) pure val {-| Read 1000 rows from the database, starting from key `first`. -} readRowsBatch :: ∀e. HasLogFunc e => Env -> Dbi -> Word64 -> RIO e (V.Vector (Word64, ByteString)) readRowsBatch env dbi first = readRows where readRows = do logDebug $ display ("(readRowsBatch) From: " <> tshow first) withWordPtr first $ \pIdx -> withKVPtrs' (MDB_val 8 (castPtr pIdx)) nullVal $ \pKey pVal -> rwith (readTxn env) $ \txn -> rwith (cursor txn dbi) $ \cur -> io (mdb_cursor_get MDB_SET_RANGE cur pKey pVal) >>= \case False -> pure mempty True -> V.unfoldrM (fetchBatch cur pKey pVal) 1000 fetchBatch :: Cur -> Ptr Val -> Ptr Val -> Word -> RIO e (Maybe ((Word64, ByteString), Word)) fetchBatch cur pKey pVal 0 = pure Nothing fetchBatch cur pKey pVal n = do key <- io $ peek pKey >>= mdbValToWord64 val <- io $ peek pVal >>= mdbValToBytes io $ mdb_cursor_get MDB_NEXT cur pKey pVal >>= \case False -> pure $ Just ((key, val), 0) True -> pure $ Just ((key, val), pred n) -- Utils ----------------------------------------------------------------------- withKVPtrs' :: (MonadIO m, MonadUnliftIO m) => Val -> Val -> (Ptr Val -> Ptr Val -> m a) -> m a withKVPtrs' k v cb = withRunInIO $ \run -> withKVPtrs k v $ \x y -> run (cb x y) nullVal :: MDB_val nullVal = MDB_val 0 nullPtr word :: Int -> Word64 word = fromIntegral assertExn :: Exception e => Bool -> e -> IO () assertExn True _ = pure () assertExn False e = throwIO e eitherExn :: Exception e => Either a b -> (a -> e) -> IO b eitherExn eat exn = either (throwIO . exn) pure eat byteStringAsMdbVal :: ByteString -> (MDB_val -> IO a) -> IO a byteStringAsMdbVal bs k = BU.unsafeUseAsCStringLen bs $ \(ptr,sz) -> k (MDB_val (fromIntegral sz) (castPtr ptr)) mdbValToWord64 :: MDB_val -> IO Word64 mdbValToWord64 (MDB_val sz ptr) = do assertExn (sz == 8) BadKeyInEventLog peek (castPtr ptr) withWord64AsMDBval :: (MonadIO m, MonadUnliftIO m) => Word64 -> (MDB_val -> m a) -> m a withWord64AsMDBval w cb = do withWordPtr w $ \p -> cb (MDB_val (fromIntegral (sizeOf w)) (castPtr p)) withWordPtr :: (MonadIO m, MonadUnliftIO m) => Word64 -> (Ptr Word64 -> m a) -> m a withWordPtr w cb = withRunInIO $ \run -> allocaBytes (sizeOf w) (\p -> poke p w >> run (cb p)) -- Lower-Level Operations ------------------------------------------------------ getMb :: MonadIO m => Txn -> Dbi -> ByteString -> m (Maybe Noun) getMb txn db key = io $ byteStringAsMdbVal key $ \mKey -> mdb_get txn db mKey >>= traverse (mdbValToNoun key) mdbValToBytes :: MDB_val -> IO ByteString mdbValToBytes (MDB_val sz ptr) = do BU.unsafePackCStringLen (castPtr ptr, fromIntegral sz) mdbValToNoun :: ByteString -> MDB_val -> IO Noun mdbValToNoun key (MDB_val sz ptr) = do bs <- BU.unsafePackCStringLen (castPtr ptr, fromIntegral sz) let res = cueBS bs eitherExn res (\err -> BadNounInLogIdentity key err bs) putNoun :: MonadIO m => MDB_WriteFlags -> Txn -> Dbi -> ByteString -> Noun -> m Bool putNoun flags txn db key val = io $ byteStringAsMdbVal key $ \mKey -> byteStringAsMdbVal (jamBS val) $ \mVal -> mdb_put flags txn db mKey mVal putBytes :: MonadIO m => MDB_WriteFlags -> Txn -> Dbi -> Word64 -> ByteString -> m Bool putBytes flags txn db id bs = io $ withWord64AsMDBval id $ \idVal -> byteStringAsMdbVal bs $ \mVal -> mdb_put flags txn db idVal mVal