{-# LANGUAGE CPP #-} {-# LANGUAGE DataKinds #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE KindSignatures #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE RecordWildCards #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE TypeOperators #-} {-# LANGUAGE PolyKinds #-} module Servant.Ekg where import Control.Concurrent.MVar import Control.Exception import Control.Monad import qualified Data.HashMap.Strict as H import Data.Monoid import Data.Proxy import Data.Text (Text) import qualified Data.Text as T import qualified Data.Text.Encoding as T import Data.Time.Clock import GHC.TypeLits import Network.HTTP.Types (Method, Status (..)) import Network.Wai import Servant.API import System.Metrics import qualified System.Metrics.Counter as Counter import qualified System.Metrics.Distribution as Distribution import qualified System.Metrics.Gauge as Gauge gaugeInflight :: Gauge.Gauge -> Middleware gaugeInflight inflight application request respond = bracket_ (Gauge.inc inflight) (Gauge.dec inflight) (application request respond) -- | Count responses with 2XX, 4XX, 5XX, and XXX response codes. countResponseCodes :: (Counter.Counter, Counter.Counter, Counter.Counter, Counter.Counter) -> Middleware countResponseCodes (c2XX, c4XX, c5XX, cXXX) application request respond = application request respond' where respond' res = count (responseStatus res) >> respond res count Status{statusCode = sc } | 200 <= sc && sc < 300 = Counter.inc c2XX | 400 <= sc && sc < 500 = Counter.inc c4XX | 500 <= sc && sc < 600 = Counter.inc c5XX | otherwise = Counter.inc cXXX responseTimeDistribution :: Distribution.Distribution -> Middleware responseTimeDistribution dist application request respond = bracket getCurrentTime stop $ const $ application request respond where stop t1 = do t2 <- getCurrentTime let dt = diffUTCTime t2 t1 Distribution.add dist $ fromRational $ (*1000) $ toRational dt data Meters = Meters { metersInflight :: Gauge.Gauge , metersC2XX :: Counter.Counter , metersC4XX :: Counter.Counter , metersC5XX :: Counter.Counter , metersCXXX :: Counter.Counter , metersTime :: Distribution.Distribution } monitorEndpoints :: HasEndpoint api => Proxy api -> Store -> MVar (H.HashMap Text Meters) -> Middleware monitorEndpoints proxy store meters application request respond = do let path = case getEndpoint proxy request of Nothing -> "unknown" Just (ps,method) -> T.intercalate "." $ ps <> [T.decodeUtf8 method] Meters{..} <- modifyMVar meters $ \ms -> case H.lookup path ms of Nothing -> do let prefix = "servant.path." <> path <> "." metersInflight <- createGauge (prefix <> "in_flight") store metersC2XX <- createCounter (prefix <> "responses.2XX") store metersC4XX <- createCounter (prefix <> "responses.4XX") store metersC5XX <- createCounter (prefix <> "responses.5XX") store metersCXXX <- createCounter (prefix <> "responses.XXX") store metersTime <- createDistribution (prefix <> "time_ms") store let m = Meters{..} return (H.insert path m ms, m) Just m -> return (ms,m) let application' = responseTimeDistribution metersTime . countResponseCodes (metersC2XX, metersC4XX, metersC5XX, metersCXXX) . gaugeInflight metersInflight $ application application' request respond class HasEndpoint a where getEndpoint :: Proxy a -> Request -> Maybe ([Text], Method) instance (HasEndpoint (a :: *), HasEndpoint (b :: *)) => HasEndpoint (a :<|> b) where getEndpoint _ req = getEndpoint (Proxy :: Proxy a) req `mplus` getEndpoint (Proxy :: Proxy b) req instance (KnownSymbol (path :: Symbol), HasEndpoint (sub :: *)) => HasEndpoint (path :> sub) where getEndpoint _ req = case pathInfo req of p:ps | p == T.pack (symbolVal (Proxy :: Proxy path)) -> do (end, method) <- getEndpoint (Proxy :: Proxy sub) req{ pathInfo = ps } return (p:end, method) _ -> Nothing instance (KnownSymbol (capture :: Symbol), HasEndpoint (sub :: *)) => HasEndpoint (Capture capture a :> sub) where getEndpoint _ req = case pathInfo req of _:ps -> do (end, method) <- getEndpoint (Proxy :: Proxy sub) req{ pathInfo = ps } let p = T.pack $ (':':) $ symbolVal (Proxy :: Proxy capture) return (p:end, method) _ -> Nothing instance HasEndpoint (sub :: *) => HasEndpoint (Header h a :> sub) where getEndpoint _ = getEndpoint (Proxy :: Proxy sub) instance HasEndpoint (sub :: *) => HasEndpoint (QueryParam (h :: Symbol) a :> sub) where getEndpoint _ = getEndpoint (Proxy :: Proxy sub) instance HasEndpoint (sub :: *) => HasEndpoint (QueryParams (h :: Symbol) a :> sub) where getEndpoint _ = getEndpoint (Proxy :: Proxy sub) instance HasEndpoint (sub :: *) => HasEndpoint (QueryFlag h :> sub) where getEndpoint _ = getEndpoint (Proxy :: Proxy sub) instance HasEndpoint (sub :: *) => HasEndpoint (ReqBody cts a :> sub) where getEndpoint _ = getEndpoint (Proxy :: Proxy sub) instance HasEndpoint (sub :: *) => HasEndpoint (RemoteHost :> sub) where getEndpoint _ = getEndpoint (Proxy :: Proxy sub) instance HasEndpoint (sub :: *) => HasEndpoint (IsSecure :> sub) where getEndpoint _ = getEndpoint (Proxy :: Proxy sub) instance HasEndpoint (sub :: *) => HasEndpoint (HttpVersion :> sub) where getEndpoint _ = getEndpoint (Proxy :: Proxy sub) instance HasEndpoint (sub :: *) => HasEndpoint (Vault :> sub) where getEndpoint _ = getEndpoint (Proxy :: Proxy sub) instance HasEndpoint (sub :: *) => HasEndpoint (WithNamedContext x y sub) where getEndpoint _ = getEndpoint (Proxy :: Proxy sub) instance ReflectMethod method => HasEndpoint (Verb method status cts a) where getEndpoint _ req = case pathInfo req of [] | requestMethod req == method -> Just ([], method) _ -> Nothing where method = reflectMethod (Proxy :: Proxy method) instance HasEndpoint (Raw) where getEndpoint _ _ = Just ([],"RAW") #if MIN_VERSION_servant(0,8,1) instance HasEndpoint (sub :: *) => HasEndpoint (CaptureAll (h :: Symbol) a :> sub) where getEndpoint _ = getEndpoint (Proxy :: Proxy sub) #endif