{-# LANGUAGE DeriveAnyClass #-} {-# LANGUAGE DuplicateRecordFields #-} {-# LANGUAGE QuasiQuotes #-} module WhatcdResolver where import Control.Category qualified as Cat import Control.Monad.Logger qualified as Logger import Control.Monad.Logger.CallStack import Control.Monad.Reader import Data.Aeson qualified as Json import Data.Aeson.BetterErrors qualified as Json import Data.Aeson.KeyMap qualified as KeyMap import Data.Error.Tree import Data.List qualified as List import Data.List.NonEmpty qualified as NonEmpty import Data.Map.Strict qualified as Map import Data.Pool (Pool) import Data.Pool qualified as Pool import Data.Text qualified as Text import Database.PostgreSQL.Simple (Binary (Binary), Only (..)) import Database.PostgreSQL.Simple qualified as Postgres import Database.PostgreSQL.Simple.SqlQQ (sql) import Database.PostgreSQL.Simple.Types (PGArray (PGArray)) import Database.PostgreSQL.Simple.Types qualified as Postgres import Database.Postgres.Temp qualified as TmpPg import FieldParser qualified as Field import GHC.Records (HasField (..)) import IHP.HSX.QQ (hsx) import Json qualified import Json.Enc (Enc) import Json.Enc qualified as Enc import Label import Multipart2 qualified as Multipart import Network.HTTP.Conduit qualified as Http import Network.HTTP.Simple qualified as Http import Network.HTTP.Types import Network.HTTP.Types qualified as Http import Network.Wai qualified as Wai import Network.Wai.Handler.Warp qualified as Warp import PossehlAnalyticsPrelude import Postgres.Decoder qualified as Dec import Postgres.MonadPostgres import Pretty import RunCommand import System.Directory qualified as Dir import System.Directory qualified as Xdg import System.FilePath (()) import System.IO qualified as IO import Text.Blaze.Html (Html) import Text.Blaze.Html.Renderer.Pretty qualified as Html.Pretty import Text.Blaze.Html.Renderer.Utf8 qualified as Html import Text.Blaze.Html5 qualified as Html import UnliftIO htmlUi :: App () htmlUi = do let debug = True withRunInIO $ \runInIO -> Warp.run 8080 $ \req respond -> do let catchAppException act = try act >>= \case Right a -> pure a Left (AppException err) -> do runInIO (logError err) respond (Wai.responseLBS Http.status500 [] "") catchAppException $ do let renderHtml = if debug then Html.Pretty.renderHtml >>> stringToText >>> textToBytesUtf8 >>> toLazyBytes else Html.renderHtml let h act = do res <- runInIO act respond . Wai.responseLBS Http.ok200 [("Content-Type", "text/html")] . renderHtml $ res let mp parser = Multipart.parseMultipartOrThrow appThrowTree parser req let torrentIdMp = mp ( do label @"torrentId" <$> Multipart.field "torrent-id" ((Field.utf8 >>> Field.signedDecimal >>> Field.bounded @Int "int")) ) case req & Wai.pathInfo & Text.intercalate "/" of "" -> h mainHtml "snips/redacted/search" -> do h $ do dat <- mp ( do label @"searchstr" <$> Multipart.field "redacted-search" Cat.id ) snipsRedactedSearch dat "snips/redacted/torrentDataJson" -> h $ do dat <- torrentIdMp mkVal <$> (runTransaction $ getTorrentById dat) "snips/redacted/getTorrentFile" -> h $ do dat <- torrentIdMp runTransaction $ do inserted <- redactedGetTorrentFileAndInsert dat running <- lift @Transaction $ doTransmissionRequest' (transmissionRequestAddTorrent inserted) updateTransmissionTorrentHashById ( T2 (getLabel @"torrentHash" running) (getLabel @"torrentId" dat) ) pure $ everySecond "snips/transmission/getTorrentState" (Enc.object [("torrent-hash", Enc.text running.torrentHash)]) "Starting" -- TODO: this is bad duplication?? "snips/redacted/startTorrentFile" -> h $ do dat <- torrentIdMp runTransaction $ do file <- getTorrentFileById dat running <- lift @Transaction $ doTransmissionRequest' (transmissionRequestAddTorrent file) updateTransmissionTorrentHashById ( T2 (getLabel @"torrentHash" running) (getLabel @"torrentId" dat) ) pure $ everySecond "snips/transmission/getTorrentState" (Enc.object [("torrent-hash", Enc.text running.torrentHash)]) "Starting" "snips/transmission/getTorrentState" -> h $ do dat <- mp $ label @"torrentHash" <$> Multipart.field "torrent-hash" Field.utf8 status <- doTransmissionRequest' ( transmissionRequestListOnlyTorrents ( T2 (label @"ids" [label @"torrentHash" dat.torrentHash]) (label @"fields" ["hashString"]) ) (Json.keyLabel @"torrentHash" "hashString" Json.asText) ) <&> List.find (\torrent -> torrent.torrentHash == dat.torrentHash) pure $ case status of Nothing -> [hsx|ERROR unknown|] Just _torrent -> [hsx|Running|] _ -> h mainHtml where everySecond :: Text -> Enc -> Html -> Html everySecond call extraData innerHtml = [hsx|
{innerHtml}
|] mainHtml = runTransaction $ do bestStale :: [TorrentData] <- getBestTorrents actual <- getAndUpdateTransmissionTorrentsStatus ( bestStale & mapMaybe ( \td -> case td.torrentStatus of InTransmission h -> Just h _ -> Nothing ) <&> (,()) & Map.fromList ) let fresh = bestStale -- we have to update the status of every torrent that’s not in tranmission anymore -- TODO I feel like it’s easier (& more correct?) to just do the database request again … <&> ( \td -> case td.torrentStatus of InTransmission hash -> case actual & Map.lookup hash of -- TODO this is also pretty dumb, cause it assumes that we have the torrent file if it was in transmission before, -- which is an internal factum that is established in getBestTorrents (and might change later) Nothing -> td {torrentStatus = NotInTransmissionYet} Just () -> td _ -> td ) bestTorrentsTable <- getBestTorrentsTable fresh transmissionTorrentsTable <- lift @Transaction getTransmissionTorrentsTable pure $ Html.docTypeHtml [hsx|
{bestTorrentsTable}
{transmissionTorrentsTable}
|] snipsRedactedSearch :: ( MonadLogger m, MonadIO m, MonadPostgres m, HasField "searchstr" r ByteString, MonadThrow m ) => r -> m Html snipsRedactedSearch dat = do t <- redactedSearchAndInsert [ ("searchstr", dat.searchstr) ] runTransaction $ do t best :: [TorrentData] <- getBestTorrents getBestTorrentsTable best getBestTorrentsTable :: (MonadPostgres m) => [TorrentData] -> Transaction m Html getBestTorrentsTable best = do let localTorrent b = case b.torrentStatus of NoTorrentFileYet -> [hsx||] InTransmission _hash -> [hsx|Started.|] NotInTransmissionYet -> [hsx||] let bestRows = best & foldMap ( \b -> do [hsx| {localTorrent b} {Html.toHtml @Int b.groupId} {Html.toHtml @Text b.torrentGroupJson.artist} {Html.toHtml @Text b.torrentGroupJson.groupName} {Html.toHtml @Int b.seedingWeight}
|] ) pure $ [hsx| {bestRows}
Local Group ID Artist Name Weight Torrent Torrent Group
|] -- | Fetch the current status from transmission, and remove the tranmission hash from our database -- iff it does not exist in transmission anymore getAndUpdateTransmissionTorrentsStatus :: (MonadIO m, MonadTransmission m, MonadThrow m, MonadLogger m, MonadPostgres m) => Map (Label "torrentHash" Text) () -> Transaction m (Map (Label "torrentHash" Text) ()) getAndUpdateTransmissionTorrentsStatus knownTorrents = do let fields = ["hashString"] logInfo [fmt|known: {showPretty knownTorrents}|] actualTorrents <- lift @Transaction $ doTransmissionRequest' ( transmissionRequestListOnlyTorrents ( T2 (label @"fields" fields) (label @"ids" (Map.keys knownTorrents)) ) $ do torrentHash <- Json.keyLabel @"torrentHash" "hashString" Json.asText pure (torrentHash, ()) ) <&> Map.fromList logInfo [fmt|actual: {showPretty actualTorrents}|] let toDelete = Map.difference knownTorrents actualTorrents logInfo [fmt|toDelete: {showPretty toDelete}|] execute [fmt| UPDATE redacted.torrents_json SET transmission_torrent_hash = NULL WHERE transmission_torrent_hash = ANY (?::text[]) |] $ Only (toDelete & Map.keys <&> (.torrentHash) & PGArray :: PGArray Text) pure actualTorrents getTransmissionTorrentsTable :: (MonadIO m, MonadTransmission m, MonadThrow m, MonadLogger m) => m Html getTransmissionTorrentsTable = do let fields = [ "hashString", "name", "percentDone", "percentComplete", "downloadDir", "files" ] doTransmissionRequest' ( transmissionRequestListAllTorrents fields $ do Json.asObject <&> KeyMap.toMapText ) <&> \resp -> toTable ( resp & List.sortOn (\m -> m & Map.lookup "percentDone" & fromMaybe (Json.Number 0)) <&> Map.toList -- TODO & List.take 100 ) -- | Render an arbitrary json value to HTML in a more-or-less reasonable fashion. mkVal :: Json.Value -> Html mkVal = \case Json.Number n -> Html.toHtml @Text $ showToText n Json.String s -> Html.toHtml @Text s Json.Bool True -> [hsx|true|] Json.Bool False -> [hsx|false|] Json.Null -> [hsx|null|] Json.Array arr -> arr & foldMap (\el -> Html.li $ mkVal el) & Html.ol Json.Object obj -> obj & KeyMap.toMapText & Map.toList & foldMap (\(k, v) -> Html.dt (Html.toHtml @Text k) <> Html.dd (mkVal v)) & Html.dl -- | Render a table-like structure of json values as an HTML table. toTable :: [[(Text, Json.Value)]] -> Html toTable xs = case xs & nonEmpty of Nothing -> [hsx|

No results.

|] Just xs' -> do let headers = xs' & NonEmpty.head <&> fst <&> (\h -> [hsx|{h}|]) & mconcat let vals = xs' & foldMap (Html.tr . foldMap (Html.td . mkVal . snd)) [hsx| {headers} {vals}
|] data TransmissionRequest = TransmissionRequest { method :: Text, arguments :: Map Text Enc, tag :: Maybe Int } deriving stock (Show) testTransmission :: Show out => (TransmissionRequest, Json.Parse Error out) -> IO (Either TmpPg.StartError ()) testTransmission req = runAppWith $ doTransmissionRequest transmissionConnectionConfig req >>= liftIO . printPretty transmissionConnectionConfig :: T2 "host" Text "port" Text transmissionConnectionConfig = (T2 (label @"host" "localhost") (label @"port" "9091")) transmissionRequestListAllTorrents :: Monad m => [Text] -> Json.ParseT e m out -> (TransmissionRequest, Json.ParseT e m [out]) transmissionRequestListAllTorrents fields parseTorrent = ( TransmissionRequest { method = "torrent-get", arguments = Map.fromList [ ("fields", Enc.list Enc.text fields) ], tag = Nothing }, Json.key "torrents" $ Json.eachInArray parseTorrent ) transmissionRequestListOnlyTorrents :: ( HasField "ids" r1 [(Label "torrentHash" Text)], HasField "fields" r1 [Text], Monad m ) => r1 -> Json.ParseT e m out -> (TransmissionRequest, Json.ParseT e m [out]) transmissionRequestListOnlyTorrents dat parseTorrent = ( TransmissionRequest { method = "torrent-get", arguments = Map.fromList [ ("ids", Enc.list (\i -> Enc.text i.torrentHash) dat.ids), ("fields", Enc.list Enc.text dat.fields) ], tag = Nothing }, Json.key "torrents" $ Json.eachInArray parseTorrent ) transmissionRequestAddTorrent :: (HasField "torrentFile" r ByteString, Monad m) => r -> ( TransmissionRequest, Json.ParseT err m (T2 "torrentHash" Text "torrentName" Text) ) transmissionRequestAddTorrent dat = ( TransmissionRequest { method = "torrent-add", arguments = Map.fromList [ ("metainfo", Enc.base64Bytes dat.torrentFile), ("paused", Enc.bool True) ], tag = Nothing }, do let p method = Json.key method $ do hash <- Json.keyLabel @"torrentHash" "hashString" Json.asText name <- Json.keyLabel @"torrentName" "name" Json.asText pure $ T2 hash name p "torrent-duplicate" Json.<|> p "torrent-added" ) data TransmissionResponse output = TransmissionResponse { result :: TransmissionResponseStatus, arguments :: Maybe output, tag :: Maybe Int } deriving stock (Show) data TransmissionResponseStatus = TransmissionResponseSuccess | TransmissionResponseFailure Text deriving stock (Show) doTransmissionRequest' :: ( MonadIO m, MonadTransmission m, MonadThrow m, MonadLogger m ) => (TransmissionRequest, Json.Parse Error output) -> m output doTransmissionRequest' req = do resp <- doTransmissionRequest transmissionConnectionConfig req case resp.result of TransmissionResponseFailure err -> appThrowTree (nestedError "Transmission RPC error" $ singleError $ newError err) TransmissionResponseSuccess -> case resp.arguments of Nothing -> appThrowTree "Transmission RPC error: No `arguments` field in response" Just out -> pure out -- | Contact the transmission RPC, and do the CSRF protection dance. -- -- Spec: https://github.com/transmission/transmission/blob/main/docs/rpc-spec.md doTransmissionRequest :: ( MonadIO m, MonadTransmission m, HasField "host" t1 Text, HasField "port" t1 Text, MonadThrow m, MonadLogger m ) => t1 -> (TransmissionRequest, Json.Parse Error output) -> m (TransmissionResponse output) doTransmissionRequest dat (req, parser) = do sessionId <- getTransmissionId let body = Enc.object ( [ ("method", req.method & Enc.text), ("arguments", Enc.map id req.arguments) ] <> (req.tag & maybe [] (\t -> [("tag", t & Enc.int)])) ) logDebug [fmt|transmission request: {showPrettyJsonEncoding body.unEnc}|] let httpReq = [fmt|http://{dat.host}:{dat.port}/transmission/rpc|] & Http.setRequestMethod "POST" & Http.setRequestBodyLBS (Enc.encToBytesUtf8Lazy body) & (sessionId & maybe id (Http.setRequestHeader "X-Transmission-Session-Id" . (: []))) resp <- Http.httpBS httpReq -- Implement the CSRF protection thingy case resp & Http.getResponseStatus & (.statusCode) of 409 -> do tid <- resp & Http.getResponseHeader "X-Transmission-Session-Id" & nonEmpty & annotate [fmt|Missing "X-Transmission-Session-Id" header in 409 response: {showPretty resp}|] & unwrapIOError & liftIO <&> NonEmpty.head setTransmissionId tid doTransmissionRequest dat (req, parser) 200 -> resp & Http.getResponseBody & Json.parseStrict ( Json.mapError singleError $ do result <- Json.key "result" Json.asText <&> \case "success" -> TransmissionResponseSuccess err -> TransmissionResponseFailure err arguments <- Json.keyMay "arguments" parser tag <- Json.keyMay "tag" (Field.jsonParser (Field.jsonNumber >>> Field.boundedScientificIntegral "tag too long")) pure TransmissionResponse {..} ) & first (Json.parseErrorTree "Cannot parse transmission RPC response") & \case Right a -> pure a Left err -> do case Json.eitherDecodeStrict' @Json.Value (resp & Http.getResponseBody) of Left _err -> pure () Right val -> logInfo [fmt|failing transmission response: {showPrettyJson val}|] appThrowTree err _ -> liftIO $ unwrapIOError $ Left [fmt|Non-200 response: {showPretty resp}|] redactedSearch :: (MonadLogger m, MonadIO m, MonadThrow m) => [(ByteString, ByteString)] -> Json.Parse ErrorTree a -> m a redactedSearch advanced = redactedApiRequestJson ( T2 (label @"action" "browse") (label @"actionArgs" ((advanced <&> second Just))) ) redactedGetTorrentFile :: ( MonadLogger m, MonadIO m, MonadThrow m, HasField "torrentId" dat Int ) => dat -> m ByteString redactedGetTorrentFile dat = redactedApiRequest ( T2 (label @"action" "download") (label @"actionArgs" [("id", Just (dat.torrentId & showToText @Int & textToBytesUtf8))]) ) test :: Bool -> IO (Either TmpPg.StartError ()) test doSearch = runAppWith $ do _ <- runTransaction migrate when doSearch $ do transaction <- bla _ <- runTransaction transaction pure () htmlUi -- fix -- ( \io -> do -- logInfo "delay" -- liftIO $ threadDelay 10_000_000 -- io -- ) bla :: (MonadThrow m, MonadIO m, MonadLogger m, MonadPostgres m) => m (Transaction m ()) bla = do t1 <- redactedSearchAndInsert [ ("searchstr", "cherish"), ("artistname", "kirinji"), -- ("year", "1982"), -- ("format", "MP3"), -- ("releasetype", "album"), ("order_by", "year") ] t3 <- redactedSearchAndInsert [ ("searchstr", "mouss et hakim"), ("artistname", "mouss et hakim"), -- ("year", "1982"), -- ("format", "MP3"), -- ("releasetype", "album"), ("order_by", "year") ] t2 <- redactedSearchAndInsert [ ("searchstr", "thriller"), ("artistname", "michael jackson"), -- ("year", "1982"), -- ("format", "MP3"), -- ("releasetype", "album"), ("order_by", "year") ] pure (t1 >> t2 >> t3) redactedSearchAndInsert :: ( MonadLogger m, MonadIO m, MonadPostgres m, MonadThrow m ) => [(ByteString, ByteString)] -> m (Transaction m ()) redactedSearchAndInsert x = redactedSearch x ( do status <- Json.key "status" Json.asText when (status /= "success") $ do Json.throwCustomError [fmt|Status was not "success", but {status}|] Json.key "response" $ do Json.key "results" $ sequence_ <$> ( Json.eachInArray $ do groupId <- Json.key "groupId" (Json.asIntegral @_ @Int) groupName <- Json.key "groupName" Json.asText fullJsonResult <- Json.asObject -- remove torrents cause they are inserted separately below <&> KeyMap.filterWithKey (\k _ -> k /= "torrents") <&> Json.Object let insertTourGroup = do _ <- execute [fmt| DELETE FROM redacted.torrent_groups WHERE group_id = ?::integer |] (Only groupId) executeManyReturningWith [fmt| INSERT INTO redacted.torrent_groups ( group_id, group_name, full_json_result ) VALUES ( ?, ? , ? ) RETURNING (id) |] [ ( groupId, groupName, fullJsonResult ) ] (label @"tourGroupIdPg" <$> Dec.fromField @Int) >>= ensureSingleRow insertTorrents <- Json.key "torrents" $ do torrents <- Json.eachInArray $ do torrentId <- Json.keyLabel @"torrentId" "torrentId" (Json.asIntegral @_ @Int) fullJsonResultT <- label @"fullJsonResult" <$> Json.asValue pure $ T2 torrentId fullJsonResultT pure $ \dat -> do _ <- execute [sql| DELETE FROM redacted.torrents_json WHERE torrent_id = ANY (?::integer[]) |] (Only $ torrents & unzipT2 & (.torrentId) & PGArray) execute [sql| INSERT INTO redacted.torrents_json (torrent_id, torrent_group, full_json_result) SELECT inputs.torrent_id, static.torrent_group, inputs.full_json_result FROM (SELECT * FROM UNNEST(?::integer[], ?::jsonb[])) AS inputs(torrent_id, full_json_result) CROSS JOIN (VALUES(?::integer)) as static(torrent_group) |] ( torrents & unzipT2 & \t -> ( t.torrentId & PGArray, t.fullJsonResult & PGArray, dat.tourGroupIdPg ) ) pure () pure (insertTourGroup >>= insertTorrents) ) ) redactedGetTorrentFileAndInsert :: ( HasField "torrentId" r Int, MonadPostgres m, MonadThrow m, MonadIO m, MonadLogger m ) => r -> Transaction m (Label "torrentFile" ByteString) redactedGetTorrentFileAndInsert dat = do bytes <- redactedGetTorrentFile dat execute [sql| UPDATE redacted.torrents_json SET torrent_file = ?::bytea WHERE torrent_id = ?::integer |] ( (Binary bytes :: Binary ByteString), dat.torrentId ) >>= assertOneUpdated "redactedGetTorrentFileAndInsert" >>= \() -> pure (label @"torrentFile" bytes) getTorrentFileById :: ( MonadPostgres m, HasField "torrentId" r Int, MonadThrow m ) => r -> Transaction m (Label "torrentFile" ByteString) getTorrentFileById dat = do queryWith [sql| SELECT torrent_file FROM redacted.torrents WHERE torrent_id = ?::integer |] (Only $ (dat.torrentId :: Int)) (label @"torrentFile" <$> decBytea) >>= ensureSingleRow updateTransmissionTorrentHashById :: ( MonadPostgres m, HasField "torrentId" r Int, HasField "torrentHash" r Text ) => r -> Transaction m (Label "numberOfRowsAffected" Natural) updateTransmissionTorrentHashById dat = do execute [sql| UPDATE redacted.torrents_json SET transmission_torrent_hash = ?::text WHERE torrent_id = ?::integer |] ( dat.torrentHash :: Text, dat.torrentId :: Int ) decBytea :: Dec.Decoder ByteString decBytea = Dec.fromField @(Binary ByteString) <&> (.fromBinary) assertOneUpdated :: (HasField "numberOfRowsAffected" r Natural, MonadThrow m) => Text -> r -> m () assertOneUpdated name x = case x.numberOfRowsAffected of 1 -> pure () n -> appThrowTree ([fmt|{name :: Text}: Expected to update exactly one row, but updated {n :: Natural} row(s)|]) migrate :: MonadPostgres m => Transaction m (Label "numberOfRowsAffected" Natural) migrate = do execute_ [sql| CREATE SCHEMA IF NOT EXISTS redacted; CREATE TABLE IF NOT EXISTS redacted.torrent_groups ( id SERIAL PRIMARY KEY, group_id INTEGER, group_name TEXT, full_json_result JSONB, UNIQUE(group_id) ); CREATE TABLE IF NOT EXISTS redacted.torrents_json ( id SERIAL PRIMARY KEY, torrent_id INTEGER, torrent_group SERIAL NOT NULL REFERENCES redacted.torrent_groups(id) ON DELETE CASCADE, full_json_result JSONB, UNIQUE(torrent_id) ); ALTER TABLE redacted.torrents_json ADD COLUMN IF NOT EXISTS torrent_file bytea NULL; ALTER TABLE redacted.torrents_json ADD COLUMN IF NOT EXISTS transmission_torrent_hash text NULL; -- inflect out values of the full json CREATE OR REPLACE VIEW redacted.torrents AS SELECT t.id, t.torrent_id, t.torrent_group, -- the seeding weight is used to find the best torrent in a group. ( (full_json_result->'seeders')::integer*3 + (full_json_result->'snatches')::integer) AS seeding_weight, t.full_json_result, t.torrent_file, t.transmission_torrent_hash FROM redacted.torrents_json t; CREATE INDEX IF NOT EXISTS torrents_json_seeding ON redacted.torrents_json(((full_json_result->'seeding')::integer)); CREATE INDEX IF NOT EXISTS torrents_json_snatches ON redacted.torrents_json(((full_json_result->'snatches')::integer)); |] data TorrentData = TorrentData { groupId :: Int, torrentId :: Int, seedingWeight :: Int, torrentJson :: Json.Value, torrentGroupJson :: T2 "artist" Text "groupName" Text, torrentStatus :: TorrentStatus } data TorrentStatus = NoTorrentFileYet | NotInTransmissionYet | InTransmission (Label "torrentHash" Text) getTorrentById :: (MonadPostgres m, HasField "torrentId" r Int, MonadThrow m) => r -> Transaction m Json.Value getTorrentById dat = do queryWith [sql| SELECT full_json_result FROM redacted.torrents WHERE torrent_id = ?::integer |] (getLabel @"torrentId" dat) (Dec.json Json.asValue) >>= ensureSingleRow -- | Find the best torrent for each torrent group (based on the seeding_weight) getBestTorrents :: MonadPostgres m => Transaction m [TorrentData] getBestTorrents = do queryWith [sql| SELECT * FROM ( SELECT DISTINCT ON (group_id) tg.group_id, t.torrent_id, seeding_weight, t.full_json_result AS torrent_json, tg.full_json_result AS torrent_group_json, t.torrent_file IS NOT NULL, t.transmission_torrent_hash FROM redacted.torrents t JOIN redacted.torrent_groups tg ON tg.id = t.torrent_group ORDER BY group_id, seeding_weight DESC ) as _ ORDER BY seeding_weight DESC |] () ( do groupId <- Dec.fromField @Int torrentId <- Dec.fromField @Int seedingWeight <- Dec.fromField @Int torrentJson <- Dec.json Json.asValue torrentGroupJson <- ( Dec.json $ do artist <- Json.keyLabel @"artist" "artist" Json.asText groupName <- Json.keyLabel @"groupName" "groupName" Json.asText pure $ T2 artist groupName ) hasTorrentFile <- Dec.fromField @Bool transmissionTorrentHash <- Dec.fromField @(Maybe Text) pure $ TorrentData { torrentStatus = if | not hasTorrentFile -> NoTorrentFileYet | Nothing <- transmissionTorrentHash -> NotInTransmissionYet | Just hash <- transmissionTorrentHash -> InTransmission (label @"torrentHash" hash), .. } ) hush :: Either a1 a2 -> Maybe a2 hush (Left _) = Nothing hush (Right a) = Just a unzipT2 :: forall l1 t1 l2 t2. [T2 l1 t1 l2 t2] -> T2 l1 [t1] l2 [t2] unzipT2 xs = xs <&> toTup & unzip & fromTup where toTup :: forall a b. T2 a t1 b t2 -> (t1, t2) toTup (T2 a b) = (getField @a a, getField @b b) fromTup :: (a, b) -> T2 l1 a l2 b fromTup (t1, t2) = T2 (label @l1 t1) (label @l2 t2) unzipT3 :: forall l1 t1 l2 t2 l3 t3. [T3 l1 t1 l2 t2 l3 t3] -> T3 l1 [t1] l2 [t2] l3 [t3] unzipT3 xs = xs <&> toTup & unzip3 & fromTup where toTup :: forall a b c. T3 a t1 b t2 c t3 -> (t1, t2, t3) toTup (T3 a b c) = (getField @a a, getField @b b, getField @c c) fromTup :: (a, b, c) -> T3 l1 a l2 b l3 c fromTup (t1, t2, t3) = T3 (label @l1 t1) (label @l2 t2) (label @l3 t3) -- | Do a request to the redacted API. If you know what that is, you know how to find the API docs. redactedApiRequest :: ( MonadThrow m, MonadIO m, MonadLogger m, HasField "action" p ByteString, HasField "actionArgs" p [(ByteString, Maybe ByteString)] ) => p -> m ByteString redactedApiRequest dat = do authKey <- runCommandExpect0 "pass" ["internet/redacted/api-keys/whatcd-resolver"] let req = [fmt|https://redacted.ch/ajax.php|] & Http.setRequestMethod "GET" & Http.setQueryString (("action", Just dat.action) : dat.actionArgs) & Http.setRequestHeader "Authorization" [authKey] Http.httpBS req >>= assertM ( \resp -> case resp & Http.responseStatus & (.statusCode) of 200 -> Right $ resp & Http.responseBody _ -> Left [fmt|Redacted returned an non-200 error code: {resp & showPretty}|] ) redactedApiRequestJson :: ( MonadThrow m, MonadIO m, MonadLogger m, HasField "action" p ByteString, HasField "actionArgs" p [(ByteString, Maybe ByteString)] ) => p -> Json.Parse ErrorTree a -> m a redactedApiRequestJson dat parse = do redactedApiRequest dat >>= ( Json.parseStrict parse >>> first (Json.parseErrorTree "could not parse redacted response") >>> assertM id ) assertM :: MonadThrow f => (t -> Either ErrorTree a) -> t -> f a assertM f v = case f v of Right a -> pure a Left err -> appThrowTree err runAppWith :: AppT IO a -> IO (Either TmpPg.StartError a) runAppWith appT = withDb $ \db -> do tools <- initMonadTools (label @"envvar" "WHATCD_RESOLVER_TOOLS") let config = label @"logDatabaseQueries" LogDatabaseQueries pgConnPool <- Pool.createPool (Postgres.connectPostgreSQL (db & TmpPg.toConnectionString)) Postgres.close {- number of stripes -} 5 {- unusedResourceOpenTime -} 10 {- max resources per stripe -} 10 transmissionSessionId <- newEmptyMVar let newAppT = do logInfo [fmt|Running with config: {showPretty config}|] logInfo [fmt|Connected to database at {db & TmpPg.toDataDirectory} on socket {db & TmpPg.toConnectionString}|] appT runReaderT newAppT.unAppT Context {..} withDb :: (TmpPg.DB -> IO a) -> IO (Either TmpPg.StartError a) withDb act = do dataDir <- Xdg.getXdgDirectory Xdg.XdgData "whatcd-resolver" let databaseDir = dataDir "database" let socketDir = dataDir "database-socket" Dir.createDirectoryIfMissing True socketDir initDbConfig <- Dir.doesDirectoryExist databaseDir >>= \case True -> pure TmpPg.Zlich False -> do putStderrLn [fmt|Database does not exist yet, creating in "{databaseDir}"|] Dir.createDirectoryIfMissing True databaseDir pure TmpPg.DontCare let cfg = mempty { TmpPg.dataDirectory = TmpPg.Permanent (databaseDir), TmpPg.socketDirectory = TmpPg.Permanent socketDir, TmpPg.port = pure $ Just 5432, TmpPg.initDbConfig } TmpPg.withConfig cfg $ \db -> do -- print [fmt|data dir: {db & TmpPg.toDataDirectory}|] -- print [fmt|conn string: {db & TmpPg.toConnectionString}|] act db data Context = Context { config :: Label "logDatabaseQueries" DatabaseLogging, tools :: Tools, pgConnPool :: Pool Postgres.Connection, transmissionSessionId :: MVar ByteString } newtype AppT m a = AppT {unAppT :: ReaderT Context m a} deriving newtype (Functor, Applicative, Monad, MonadIO, MonadUnliftIO, MonadThrow) type App a = AppT IO a data AppException = AppException Text deriving stock (Show) deriving anyclass (Exception) appThrowTree :: MonadThrow m => ErrorTree -> m a appThrowTree exc = throwM $ AppException $ prettyErrorTree exc orAppThrowTree :: MonadThrow m => Either ErrorTree a -> m a orAppThrowTree = \case Left err -> appThrowTree err Right a -> pure a instance MonadIO m => MonadLogger (AppT m) where monadLoggerLog loc src lvl msg = liftIO $ Logger.defaultOutput IO.stderr loc src lvl (Logger.toLogStr msg) instance Monad m => MonadTools (AppT m) where getTools = AppT $ asks (.tools) class MonadTransmission m where getTransmissionId :: m (Maybe ByteString) setTransmissionId :: ByteString -> m () instance (MonadIO m) => MonadTransmission (AppT m) where getTransmissionId = AppT (asks (.transmissionSessionId)) >>= tryTakeMVar setTransmissionId t = do var <- AppT $ asks (.transmissionSessionId) putMVar var t instance (MonadThrow m, MonadUnliftIO m) => MonadPostgres (AppT m) where execute qry params = do conf <- lift $ AppT (asks (.config)) logQueryIfEnabled conf qry (HasSingleParam params) pgExecute qry params execute_ qry = do conf <- lift $ AppT (asks (.config)) logQueryIfEnabled @(Only Text) conf qry HasNoParams pgExecute_ qry executeMany qry params = do conf <- lift $ AppT (asks (.config)) logQueryIfEnabled conf qry (HasMultiParams params) pgExecuteMany qry params executeManyReturningWith qry params dec = do conf <- lift $ AppT (asks (.config)) logQueryIfEnabled conf qry (HasMultiParams params) pgExecuteManyReturningWith qry params dec queryWith qry params decoder = do conf <- lift $ AppT (asks (.config)) logQueryIfEnabled conf qry (HasSingleParam params) pgQueryWith qry params decoder -- TODO: log these queries as well with `logQueryIfEnabled`, but test out whether it works with query_ and foldRows first. queryWith_ = pgQueryWith_ foldRows = pgFold runTransaction = runPGTransaction runPGTransaction :: MonadUnliftIO m => Transaction (AppT m) a -> AppT m a runPGTransaction (Transaction transaction) = do pool <- AppT ask <&> (.pgConnPool) withRunInIO $ \unliftIO -> withPGTransaction pool $ \conn -> do unliftIO $ runReaderT transaction conn -- | Perform a Postgres action within a transaction withPGTransaction :: -- | Postgres connection pool to be used for the action Pool Postgres.Connection -> -- | DB-action to be performed (Postgres.Connection -> IO a) -> -- | Result of the DB-action IO a withPGTransaction connPool f = Pool.withResource connPool (\conn -> Postgres.withTransaction conn (f conn)) data HasQueryParams param = HasNoParams | HasSingleParam param | HasMultiParams [param] -- | Log the postgres query depending on the setting of @config.debugInfo.logDatabaseQueries@. logQueryIfEnabled :: forall params config m. ( Postgres.ToRow params, MonadUnliftIO m, MonadLogger m, MonadTools m, HasField "logDatabaseQueries" config DatabaseLogging ) => config -> Postgres.Query -> HasQueryParams params -> Transaction m () logQueryIfEnabled config qry params = do -- In case we have query logging enabled, we want to do that let formattedQuery = case params of HasNoParams -> pgFormatQueryNoParams' qry HasSingleParam p -> pgFormatQuery' qry p HasMultiParams ps -> pgFormatQueryMany' qry ps let doLog errs = errs & nestedMultiError "Postgres query" & prettyErrorTree & logDebug & lift let addQuery = do formattedQuery <&> newError <&> singleError let addExplain = do q <- formattedQuery pgQueryWith_ ( "EXPLAIN " <> ( -- TODO: this is not nice, but the only way to get the `executeMany` form to work with this -- because we need the query with all elements already interpolated. Postgres.Query (q & textToBytesUtf8) ) ) (Dec.fromField @Text) <&> Text.intercalate "\n" <&> newError <&> singleError case config.logDatabaseQueries of DontLogDatabaseQueries -> pure () LogDatabaseQueries -> do aq <- addQuery doLog (aq :| []) LogDatabaseQueriesAndExplain -> do aq <- addQuery -- XXX: stuff like `CREATE SCHEMA` cannot be EXPLAINed, so we should catch exceptions here -- and just ignore anything that errors (if it errors because of a problem with the query, it would have been caught by the query itself. ex <- addExplain doLog (nestedError "Query" aq :| [nestedError "Explain" ex]) data DatabaseLogging = DontLogDatabaseQueries | LogDatabaseQueries | LogDatabaseQueriesAndExplain deriving stock (Show)