{-# LANGUAGE DeriveAnyClass #-}
{-# LANGUAGE DuplicateRecordFields #-}
{-# LANGUAGE QuasiQuotes #-}
{-# LANGUAGE ScopedTypeVariables #-}
module OpenlabTools where
import Control.Monad.Logger qualified as Logger
import Control.Monad.Logger.CallStack
import Control.Monad.Reader
import Data.Aeson.BetterErrors qualified as Json
import Data.Error.Tree
import Data.HashMap.Strict qualified as HashMap
import Data.List qualified as List
import Data.Maybe (listToMaybe)
import Data.Text qualified as Text
import Data.Time (UTCTime, getCurrentTime)
import Data.Time.Clock (addUTCTime)
import Debug.Trace
import GHC.Records (HasField (..))
import GHC.Stack qualified
import Json qualified
import Label
import Network.HTTP.Client.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 Network.Wai.Parse qualified as Wai
import OpenTelemetry.Trace qualified as Otel hiding (getTracer, inSpan, inSpan')
import OpenTelemetry.Trace.Core qualified as Otel hiding (inSpan, inSpan')
import OpenTelemetry.Trace.Monad qualified as Otel
import PossehlAnalyticsPrelude
import Pretty
import System.Environment qualified as Env
import System.IO qualified as IO
import Text.HTML.TagSoup qualified as Soup
import UnliftIO
import Prelude hiding (span, until)
heatmap :: AppT IO ByteString
heatmap = do
Http.httpBS [fmt|GET https://mapall.space/heatmap/show.php?id=OpenLab+Augsburg|]
<&> (.responseBody)
<&> Soup.parseTags
<&> Soup.canonicalizeTags
<&> findHeatmap
<&> fromMaybe ""
where
firstSection f t = t & Soup.sections f & listToMaybe
match :: Soup.Tag ByteString -> Soup.Tag ByteString -> Bool
match x (t :: Soup.Tag ByteString) = (Soup.~==) @ByteString t x
findHeatmap t =
t
& firstSection (match (Soup.TagOpen ("") [("class", "heatmap")]))
>>= firstSection (match (Soup.TagOpen "table" []))
<&> getTable
<&> Soup.renderTags
-- get the table from opening tag to closing tag (allowing nested tables)
getTable = go 0
where
go _ [] = []
go d (el : els)
| match (Soup.TagOpen "table" []) el = el : go (traceShowId $ d + 1) els
| match (Soup.TagClose "table") el = if d <= 1 then [el] else el : go (traceShowId $ d - 1) els
| otherwise = el : go d els
main :: IO ()
main =
runApp
-- ( do
-- -- todo: trace that to the init functions as well
-- Otel.inSpan "whatcd-resolver main function" Otel.defaultSpanArguments $ do
-- _ <- runTransaction migrate
-- htmlUi
-- )
inSpan :: (MonadUnliftIO m, Otel.MonadTracer m) => Text -> m a -> m a
inSpan name = Otel.inSpan name Otel.defaultSpanArguments
inSpan' :: (MonadUnliftIO m, Otel.MonadTracer m) => Text -> (Otel.Span -> m a) -> m a
inSpan' name = Otel.inSpan' name Otel.defaultSpanArguments
zipT2 ::
forall l1 l2 t1 t2.
( HasField l1 (T2 l1 [t1] l2 [t2]) [t1],
HasField l2 (T2 l1 [t1] l2 [t2]) [t2]
) =>
T2 l1 [t1] l2 [t2] ->
[T2 l1 t1 l2 t2]
zipT2 xs =
zipWith
(\t1 t2 -> T2 (label @l1 t1) (label @l2 t2))
(getField @l1 xs)
(getField @l2 xs)
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)
newtype Optional a = OptionalInternal (Maybe a)
mkOptional :: a -> Optional a
mkOptional defaultValue = OptionalInternal $ Just defaultValue
defaults :: Optional a
defaults = OptionalInternal Nothing
instance HasField "withDefault" (Optional a) (a -> a) where
getField (OptionalInternal m) defaultValue = case m of
Nothing -> defaultValue
Just a -> a
httpJson ::
( MonadIO m,
MonadThrow m
) =>
(Optional (Label "contentType" ByteString)) ->
Otel.Span ->
Json.Parse ErrorTree b ->
Http.Request ->
m b
httpJson opts span parser req = do
let opts' = opts.withDefault (label @"contentType" "application/json")
Http.httpBS req
>>= assertM
span
( \resp -> do
let statusCode = resp & Http.responseStatus & (.statusCode)
contentType =
resp
& Http.responseHeaders
& List.lookup "content-type"
<&> Wai.parseContentType
<&> (\(ct, _mimeAttributes) -> ct)
if
| statusCode == 200,
Just ct <- contentType,
ct == opts'.contentType ->
Right $ (resp & Http.responseBody)
| statusCode == 200,
Just otherType <- contentType ->
Left [fmt|Server returned a non-json body, with content-type "{otherType}"|]
| statusCode == 200,
Nothing <- contentType ->
Left [fmt|Server returned a body with unspecified content type|]
| code <- statusCode -> Left [fmt|Server returned an non-200 error code, code {code}: {resp & showPretty}|]
)
>>= assertM
span
( \body ->
Json.parseStrict parser body
& first (Json.parseErrorTree "could not parse redacted response")
)
assertM :: (MonadThrow f, MonadIO f) => Otel.Span -> (t -> Either ErrorTree a) -> t -> f a
assertM span f v = case f v of
Right a -> pure a
Left err -> appThrowTree span err
data Cache a = Cache
{ until :: UTCTime,
result :: a
}
newCache result = do
until <- getCurrentTime
newIORef Cache {..}
updateCache cache result = do
until <- getCurrentTime <&> ((5 * 60) `addUTCTime`)
_ <- writeIORef cache Cache {..}
pure ()
updateCacheIfNewer :: (MonadUnliftIO m) => IORef (Cache b) -> m b -> m b
updateCacheIfNewer cache act = withRunInIO $ \runInIO -> do
old <- readIORef cache
now <- getCurrentTime
if old.until < now
then do
res <- runInIO act
updateCache cache res
pure res
else pure old.result
runApp :: IO ()
runApp = withTracer $ \tracer -> do
cache <- newCache ""
let appT = withRunInIO $ \runInIO -> Warp.run 9099 $ \req respond -> do
new <- runInIO $ updateCacheIfNewer cache heatmap
respond $ Wai.responseLBS Http.status200 [] (new & toLazyBytes)
runReaderT appT.unAppT Context {..}
-- pgFormat <- readTools (label @"toolsEnvVar" "OPENLAB_TOOLS_TOOLS") (readTool "pg_format")
-- let config = label @"logDatabaseQueries" LogDatabaseQueries
-- pgConnPool <-
-- Pool.newPool $
-- Pool.defaultPoolConfig
-- {- resource init action -} (Postgres.connectPostgreSQL (db & TmpPg.toConnectionString))
-- {- resource destruction -} Postgres.close
-- {- unusedResourceOpenTime -} 10
-- {- max resources across all stripes -} 20
-- 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 {..}
withTracer :: (Otel.Tracer -> IO c) -> IO c
withTracer f = do
setDefaultEnv "OTEL_SERVICE_NAME" "whatcd-resolver"
bracket
-- Install the SDK, pulling configuration from the environment
Otel.initializeGlobalTracerProvider
-- Ensure that any spans that haven't been exported yet are flushed
Otel.shutdownTracerProvider
-- Get a tracer so you can create spans
(\tracerProvider -> f $ Otel.makeTracer tracerProvider "whatcd-resolver" Otel.tracerOptions)
setDefaultEnv :: String -> String -> IO ()
setDefaultEnv envName defaultValue = do
Env.lookupEnv envName >>= \case
Just _env -> pure ()
Nothing -> Env.setEnv envName defaultValue
data Context = Context
{ tracer :: Otel.Tracer
}
newtype AppT m a = AppT {unAppT :: ReaderT Context m a}
deriving newtype (Functor, Applicative, Monad, MonadIO, MonadUnliftIO, MonadThrow)
data AppException = AppException Text
deriving stock (Show)
deriving anyclass (Exception)
-- | A specialized variant of @addEvent@ that records attributes conforming to
-- the OpenTelemetry specification's
-- <https://github.com/open-telemetry/opentelemetry-specification/blob/49c2f56f3c0468ceb2b69518bcadadd96e0a5a8b/specification/trace/semantic_conventions/exceptions.md semantic conventions>
--
-- @since 0.0.1.0
recordException ::
( MonadIO m,
HasField "message" r Text,
HasField "type_" r Text
) =>
Otel.Span ->
r ->
m ()
recordException span dat = liftIO $ do
callStack <- GHC.Stack.whoCreated dat.message
newEventTimestamp <- Just <$> Otel.getTimestamp
Otel.addEvent span $
Otel.NewEvent
{ newEventName = "exception",
newEventAttributes =
HashMap.fromList
[ ("exception.type", Otel.toAttribute @Text dat.type_),
("exception.message", Otel.toAttribute @Text dat.message),
("exception.stacktrace", Otel.toAttribute @Text $ Text.unlines $ map stringToText callStack)
],
..
}
appThrowTree :: (MonadThrow m, MonadIO m) => Otel.Span -> ErrorTree -> m a
appThrowTree span exc = do
let msg = prettyErrorTree exc
recordException
span
( T2
(label @"type_" "AppException")
(label @"message" msg)
)
throwM $ AppException msg
orAppThrowTree :: (MonadThrow m, MonadIO m) => Otel.Span -> Either ErrorTree a -> m a
orAppThrowTree span = \case
Left err -> appThrowTree span 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) => Otel.MonadTracer (AppT m) where
getTracer = AppT $ asks (.tracer)