{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE FunctionalDependencies #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE CPP #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE NoImplicitPrelude #-}
{-# LANGUAGE BangPatterns #-}
module RIO.Prelude.Logger
(
withLogFunc
, newLogFunc
, LogFunc
, HasLogFunc (..)
, logOptionsHandle
, LogOptions
, setLogMinLevel
, setLogMinLevelIO
, setLogVerboseFormat
, setLogVerboseFormatIO
, setLogTerminal
, setLogUseTime
, setLogUseColor
, setLogUseLoc
, setLogFormat
, setLogLevelColors
, setLogSecondaryColor
, setLogAccentColors
, logDebug
, logInfo
, logWarn
, logError
, logOther
, logSticky
, logStickyDone
, logDebugS
, logInfoS
, logWarnS
, logErrorS
, logOtherS
, logGeneric
, mkLogFunc
, logOptionsMemory
, LogLevel (..)
, LogSource
, CallStack
, displayCallStack
, noLogging
, logFuncUseColorL
, logFuncLogLevelColorsL
, logFuncSecondaryColorL
, logFuncAccentColorsL
, glog
, GLogFunc
, gLogFuncClassic
, mkGLogFunc
, contramapMaybeGLogFunc
, contramapGLogFunc
, HasGLogFunc(..)
, HasLogLevel(..)
, HasLogSource(..)
) where
import RIO.Prelude.Reexports hiding ((<>))
import RIO.Prelude.Renames
import RIO.Prelude.Display
import RIO.Prelude.Lens
import Data.Text (Text)
import qualified Data.Text as T
import Control.Monad.IO.Class (MonadIO, liftIO)
import GHC.Stack (HasCallStack, CallStack, SrcLoc (..), getCallStack, callStack)
import Data.Time
import qualified Data.Text.IO as TIO
import Data.Bits
import Data.ByteString.Builder (toLazyByteString, char7, byteString, hPutBuilder)
import Data.ByteString.Builder.Extra (flush)
import GHC.IO.Handle.Internals (wantWritableHandle)
import GHC.IO.Encoding.Types (textEncodingName)
import GHC.IO.Handle.Types (Handle__ (..))
import qualified Data.ByteString as B
import System.IO (localeEncoding)
import GHC.Foreign (peekCString, withCString)
import Data.Semigroup (Semigroup (..))
#if MIN_VERSION_base(4,12,0)
import Data.Functor.Contravariant
#endif
data LogLevel = LevelDebug | LevelInfo | LevelWarn | LevelError | LevelOther !Text
deriving (Eq, Show, Read, Ord)
type LogSource = Text
class HasLogFunc env where
logFuncL :: Lens' env LogFunc
instance HasLogFunc LogFunc where
logFuncL = id
data LogFunc = LogFunc
{ unLogFunc :: !(CallStack -> LogSource -> LogLevel -> Utf8Builder -> IO ())
, lfOptions :: !(Maybe LogOptions)
}
instance Semigroup LogFunc where
LogFunc f o1 <> LogFunc g o2 = LogFunc
{ unLogFunc = \a b c d -> f a b c d *> g a b c d
, lfOptions = o1 `mplus` o2
}
instance Monoid LogFunc where
mempty = mkLogFunc $ \_ _ _ _ -> return ()
mappend = (<>)
mkLogFunc :: (CallStack -> LogSource -> LogLevel -> Utf8Builder -> IO ()) -> LogFunc
mkLogFunc f = LogFunc f Nothing
logGeneric
:: (MonadIO m, MonadReader env m, HasLogFunc env, HasCallStack)
=> LogSource
-> LogLevel
-> Utf8Builder
-> m ()
logGeneric src level str = do
LogFunc logFunc _ <- view logFuncL
liftIO $ logFunc callStack src level str
logDebug
:: (MonadIO m, MonadReader env m, HasLogFunc env, HasCallStack)
=> Utf8Builder
-> m ()
logDebug = logGeneric "" LevelDebug
logInfo
:: (MonadIO m, MonadReader env m, HasLogFunc env, HasCallStack)
=> Utf8Builder
-> m ()
logInfo = logGeneric "" LevelInfo
logWarn
:: (MonadIO m, MonadReader env m, HasLogFunc env, HasCallStack)
=> Utf8Builder
-> m ()
logWarn = logGeneric "" LevelWarn
logError
:: (MonadIO m, MonadReader env m, HasLogFunc env, HasCallStack)
=> Utf8Builder
-> m ()
logError = logGeneric "" LevelError
logOther
:: (MonadIO m, MonadReader env m, HasLogFunc env, HasCallStack)
=> Text
-> Utf8Builder
-> m ()
logOther = logGeneric "" . LevelOther
logDebugS
:: (MonadIO m, MonadReader env m, HasLogFunc env, HasCallStack)
=> LogSource
-> Utf8Builder
-> m ()
logDebugS src = logGeneric src LevelDebug
logInfoS
:: (MonadIO m, MonadReader env m, HasLogFunc env, HasCallStack)
=> LogSource
-> Utf8Builder
-> m ()
logInfoS src = logGeneric src LevelInfo
logWarnS
:: (MonadIO m, MonadReader env m, HasLogFunc env, HasCallStack)
=> LogSource
-> Utf8Builder
-> m ()
logWarnS src = logGeneric src LevelWarn
logErrorS
:: (MonadIO m, MonadReader env m, HasLogFunc env, HasCallStack)
=> LogSource
-> Utf8Builder
-> m ()
logErrorS src = logGeneric src LevelError
logOtherS
:: (MonadIO m, MonadReader env m, HasLogFunc env, HasCallStack)
=> Text
-> LogSource
-> Utf8Builder
-> m ()
logOtherS src = logGeneric src . LevelOther
logSticky :: (MonadIO m, HasCallStack, MonadReader env m, HasLogFunc env) => Utf8Builder -> m ()
logSticky = logOther "sticky"
logStickyDone :: (MonadIO m, HasCallStack, MonadReader env m, HasLogFunc env) => Utf8Builder -> m ()
logStickyDone = logOther "sticky-done"
canUseUtf8 :: MonadIO m => Handle -> m Bool
canUseUtf8 h = liftIO $ wantWritableHandle "canUseUtf8" h $ \h_ -> do
return $ (textEncodingName <$> haCodec h_) == Just "UTF-8"
logOptionsMemory :: MonadIO m => m (IORef Builder, LogOptions)
logOptionsMemory = do
ref <- newIORef mempty
let options = LogOptions
{ logMinLevel = return LevelInfo
, logVerboseFormat = return False
, logTerminal = True
, logUseTime = False
, logUseColor = False
, logColors = defaultLogColors
, logUseLoc = False
, logFormat = id
, logSend = \new -> atomicModifyIORef' ref $ \old -> (old <> new, ())
}
return (ref, options)
logOptionsHandle
:: MonadIO m
=> Handle
-> Bool
-> m LogOptions
logOptionsHandle handle' verbose = liftIO $ do
terminal <- hIsTerminalDevice handle'
useUtf8 <- canUseUtf8 handle'
unicode <- if useUtf8 then return True else getCanUseUnicode
return LogOptions
{ logMinLevel = return $ if verbose then LevelDebug else LevelInfo
, logVerboseFormat = return verbose
, logTerminal = terminal
, logUseTime = verbose
#if WINDOWS
, logUseColor = False
#else
, logUseColor = verbose && terminal
#endif
, logColors = defaultLogColors
, logUseLoc = verbose
, logFormat = id
, logSend = \builder ->
if useUtf8 && unicode
then hPutBuilder handle' (builder <> flush)
else do
let lbs = toLazyByteString builder
bs = toStrictBytes lbs
case decodeUtf8' bs of
Left e -> error $ "mkLogOptions: invalid UTF8 sequence: " ++ show (e, bs)
Right text -> do
let text'
| unicode = text
| otherwise = T.map replaceUnicode text
TIO.hPutStr handle' text'
hFlush handle'
}
-- | Taken from GHC: determine if we should use Unicode syntax
getCanUseUnicode :: IO Bool
getCanUseUnicode = do
let enc = localeEncoding
str = "\x2018\x2019"
test = withCString enc str $ \cstr -> do
str' <- peekCString enc cstr
return (str == str')
test `catchIO` \_ -> return False
-- | Given a 'LogOptions' value, returns both a new 'LogFunc' and a sub-routine that
-- disposes it.
--
-- Intended for use if you want to deal with the teardown of 'LogFunc' yourself,
-- otherwise prefer the 'withLogFunc' function instead.
--
-- @since 0.1.3.0
newLogFunc :: (MonadIO n, MonadIO m) => LogOptions -> n (LogFunc, m ())
newLogFunc options =
if logTerminal options then do
var <- newMVar (mempty,0)
return (LogFunc
{ unLogFunc = stickyImpl var options (simpleLogFunc options)
, lfOptions = Just options
}
, do (state,_) <- takeMVar var
unless (B.null state) (liftIO $ logSend options "\n")
)
else
return (LogFunc
{ unLogFunc = \cs src level str ->
simpleLogFunc options cs src (noSticky level) str
, lfOptions = Just options
}
, return ()
)
-- | Given a 'LogOptions' value, run the given function with the
-- specified 'LogFunc'. A common way to use this function is:
--
-- @
-- let isVerbose = False -- get from the command line instead
-- logOptions' <- logOptionsHandle stderr isVerbose
-- let logOptions = setLogUseTime True logOptions'
-- withLogFunc logOptions $ \\lf -> do
-- let app = App -- application specific environment
-- { appLogFunc = lf
-- , appOtherStuff = ...
-- }
-- runRIO app $ do
-- logInfo "Starting app"
-- myApp
-- @
--
-- @since 0.0.0.0
withLogFunc :: MonadUnliftIO m => LogOptions -> (LogFunc -> m a) -> m a
withLogFunc options inner = withRunInIO $ \run -> do
bracket (newLogFunc options)
snd
(run . inner . fst)
-- | Replace Unicode characters with non-Unicode equivalents
replaceUnicode :: Char -> Char
replaceUnicode '\x2018' = '`'
replaceUnicode '\x2019' = '\''
replaceUnicode c = c
noSticky :: LogLevel -> LogLevel
noSticky (LevelOther "sticky-done") = LevelInfo
noSticky (LevelOther "sticky") = LevelInfo
noSticky level = level
-- | Configuration for how to create a 'LogFunc'. Intended to be used
-- with the 'withLogFunc' function.
--
-- @since 0.0.0.0
data LogOptions = LogOptions
{ logMinLevel :: !(IO LogLevel)
, logVerboseFormat :: !(IO Bool)
, logTerminal :: !Bool
, logUseTime :: !Bool
, logUseColor :: !Bool
, logColors :: !LogColors
, logUseLoc :: !Bool
, logFormat :: !(Utf8Builder -> Utf8Builder)
, logSend :: !(Builder -> IO ())
}
-- | ANSI color codes for use in the configuration of the creation of a
-- 'LogFunc'.
--
-- @since 0.1.18.0
data LogColors = LogColors
{ -- | The color associated with each 'LogLevel'.
logColorLogLevels :: !(LogLevel -> Utf8Builder)
-- | The color of secondary content.
, logColorSecondary :: !Utf8Builder
-- | The color of accents, which are indexed by 'Int'.
, logColorAccents :: !(Int -> Utf8Builder)
}
defaultLogColors :: LogColors
defaultLogColors = LogColors
{ logColorLogLevels = defaultLogLevelColors
, logColorSecondary = defaultLogSecondaryColor
, logColorAccents = defaultLogAccentColors
}
defaultLogLevelColors :: LogLevel -> Utf8Builder
defaultLogLevelColors LevelDebug = "\ESC[32m" -- Green
defaultLogLevelColors LevelInfo = "\ESC[34m" -- Blue
defaultLogLevelColors LevelWarn = "\ESC[33m" -- Yellow
defaultLogLevelColors LevelError = "\ESC[31m" -- Red
defaultLogLevelColors (LevelOther _) = "\ESC[35m" -- Magenta
defaultLogSecondaryColor :: Utf8Builder
defaultLogSecondaryColor = "\ESC[90m" -- Bright black (gray)
defaultLogAccentColors :: Int -> Utf8Builder
defaultLogAccentColors = const "\ESC[92m" -- Bright green
-- | Set the minimum log level. Messages below this level will not be
-- printed.
--
-- Default: in verbose mode, 'LevelDebug'. Otherwise, 'LevelInfo'.
--
-- @since 0.0.0.0
setLogMinLevel :: LogLevel -> LogOptions -> LogOptions
setLogMinLevel level options = options { logMinLevel = return level }
-- | Refer to 'setLogMinLevel'. This modifier allows to alter the verbose format
-- value dynamically at runtime.
--
-- Default: in verbose mode, 'LevelDebug'. Otherwise, 'LevelInfo'.
--
-- @since 0.1.3.0
setLogMinLevelIO :: IO LogLevel -> LogOptions -> LogOptions
setLogMinLevelIO getLevel options = options { logMinLevel = getLevel }
-- | Use the verbose format for printing log messages.
--
-- Default: follows the value of the verbose flag.
--
-- @since 0.0.0.0
setLogVerboseFormat :: Bool -> LogOptions -> LogOptions
setLogVerboseFormat v options = options { logVerboseFormat = return v }
-- | Refer to 'setLogVerboseFormat'. This modifier allows to alter the verbose
-- format value dynamically at runtime.
--
-- Default: follows the value of the verbose flag.
--
-- @since 0.1.3.0
setLogVerboseFormatIO :: IO Bool -> LogOptions -> LogOptions
setLogVerboseFormatIO getVerboseLevel options =
options { logVerboseFormat = getVerboseLevel }
-- | Do we treat output as a terminal. If @True@, we will enabled
-- sticky logging functionality.
--
-- Default: checks if the @Handle@ provided to 'logOptionsHandle' is a
-- terminal with 'hIsTerminalDevice'.
--
-- @since 0.0.0.0
setLogTerminal :: Bool -> LogOptions -> LogOptions
setLogTerminal t options = options { logTerminal = t }
-- | Include the time when printing log messages.
--
-- Default: `True` in debug mode, `False` otherwise.
--
-- @since 0.0.0.0
setLogUseTime :: Bool -> LogOptions -> LogOptions
setLogUseTime t options = options { logUseTime = t }
-- | Use ANSI color codes in the log output.
--
-- Default: `True` if in verbose mode /and/ the 'Handle' is a terminal device.
--
-- @since 0.0.0.0
setLogUseColor :: Bool -> LogOptions -> LogOptions
setLogUseColor c options = options { logUseColor = c }
-- | ANSI color codes for 'LogLevel' in the log output.
--
-- Default: 'LevelDebug' = \"\\ESC[32m\" -- Green
-- 'LevelInfo' = \"\\ESC[34m\" -- Blue
-- 'LevelWarn' = \"\\ESC[33m\" -- Yellow
-- 'LevelError' = \"\\ESC[31m\" -- Red
-- 'LevelOther' _ = \"\\ESC[35m\" -- Magenta
--
-- @since 0.1.18.0
setLogLevelColors :: (LogLevel -> Utf8Builder) -> LogOptions -> LogOptions
setLogLevelColors logLevelColors options =
let lc = (logColors options){ logColorLogLevels = logLevelColors }
in options { logColors = lc }
-- | ANSI color codes for secondary content in the log output.
--
-- Default: \"\\ESC[90m\" -- Bright black (gray)
--
-- @since 0.1.18.0
setLogSecondaryColor :: Utf8Builder -> LogOptions -> LogOptions
setLogSecondaryColor c options =
let lc = (logColors options){ logColorSecondary = c }
in options { logColors = lc }
-- | ANSI color codes for accents in the log output. Accent colors are indexed
-- by 'Int'.
--
-- Default: 'const' \"\\ESC[92m\" -- Bright green, for all indicies
--
-- @since 0.1.18.0
setLogAccentColors
:: (Int -> Utf8Builder) -- ^ This should be a total function.
-> LogOptions
-> LogOptions
setLogAccentColors accentColors options =
let lc = (logColors options){ logColorAccents = accentColors }
in options { logColors = lc }
-- | Use code location in the log output.
--
-- Default: `True` if in verbose mode, `False` otherwise.
--
-- @since 0.1.2.0
setLogUseLoc :: Bool -> LogOptions -> LogOptions
setLogUseLoc l options = options { logUseLoc = l }
-- | Set format method for messages
--
-- Default: `id`
--
-- @since 0.1.13.0
setLogFormat :: (Utf8Builder -> Utf8Builder) -> LogOptions -> LogOptions
setLogFormat f options = options { logFormat = f }
simpleLogFunc :: LogOptions -> CallStack -> LogSource -> LogLevel -> Utf8Builder -> IO ()
simpleLogFunc lo cs src level msg = do
logLevel <- logMinLevel lo
logVerbose <- logVerboseFormat lo
when (level >= logLevel) $ do
timestamp <- getTimestamp logVerbose
logSend lo $ getUtf8Builder $
timestamp <>
getLevel logVerbose <>
ansi reset <>
getSource <>
logFormat lo msg <>
getLoc <>
ansi reset <>
"\n"
where
reset = "\ESC[0m"
lc = logColors lo
levelColor = logColorLogLevels lc level
timestampColor = logColorSecondary lc
locColor = logColorSecondary lc
ansi :: Utf8Builder -> Utf8Builder
ansi xs | logUseColor lo = xs
| otherwise = mempty
getTimestamp :: Bool -> IO Utf8Builder
getTimestamp logVerbose
| logVerbose && logUseTime lo =
do now <- getZonedTime
return $ ansi timestampColor <> fromString (formatTime' now) <> ": "
| otherwise = return mempty
where
formatTime' =
take timestampLength . formatTime defaultTimeLocale "%F %T.%q"
getLevel :: Bool -> Utf8Builder
getLevel logVerbose
| logVerbose = ansi levelColor <>
case level of
LevelDebug -> "[debug] "
LevelInfo -> "[info] "
LevelWarn -> "[warn] "
LevelError -> "[error] "
LevelOther name ->
"[" <>
display name <>
"] "
| otherwise = mempty
getSource :: Utf8Builder
getSource = case src of
"" -> ""
_ -> "(" <> display src <> ") "
getLoc :: Utf8Builder
getLoc
| logUseLoc lo = ansi locColor <> "\n@(" <> displayCallStack cs <> ")"
| otherwise = mempty
-- | Convert a 'CallStack' value into a 'Utf8Builder' indicating
-- the first source location.
--
-- TODO Consider showing the entire call stack instead.
--
-- @since 0.0.0.0
displayCallStack :: CallStack -> Utf8Builder
displayCallStack cs =
case reverse $ getCallStack cs of
[] -> "<no call stack found>"
(_desc, loc):_ ->
let file = srcLocFile loc
in fromString file <>
":" <>
displayShow (srcLocStartLine loc) <>
":" <>
displayShow (srcLocStartCol loc)
-- | The length of a timestamp in the format "YYYY-MM-DD hh:mm:ss.μμμμμμ".
-- This definition is top-level in order to avoid multiple reevaluation at runtime.
timestampLength :: Int
timestampLength =
length (formatTime defaultTimeLocale "%F %T.000000" (UTCTime (ModifiedJulianDay 0) 0))
stickyImpl
:: MVar (ByteString,Int) -> LogOptions
-> (CallStack -> LogSource -> LogLevel -> Utf8Builder -> IO ())
-> CallStack -> LogSource -> LogLevel -> Utf8Builder -> IO ()
stickyImpl ref lo logFunc loc src level msgOrig = modifyMVar_ ref $ \(sticky,stickyLen) -> do
let backSpaceChar = '\8'
repeating = mconcat . replicate stickyLen . char7
clear = logSend lo
(repeating backSpaceChar <>
repeating ' ' <>
repeating backSpaceChar)
logLevel <- logMinLevel lo
case level of
LevelOther "sticky-done" -> do
clear
logFunc loc src LevelInfo msgOrig
return (mempty,0)
LevelOther "sticky" -> do
clear
let bs = toStrictBytes $ toLazyByteString $ getUtf8Builder msgOrig
logSend lo (byteString bs <> flush)
return (bs, utf8CharacterCount bs)
_
| level >= logLevel -> do
clear
logFunc loc src level msgOrig
unless (B.null sticky) $ logSend lo (byteString sticky <> flush)
return (sticky,stickyLen)
| otherwise -> return (sticky,stickyLen)
-- | The number of Unicode characters in a UTF-8 encoded byte string,
-- excluding ANSI CSI sequences.
utf8CharacterCount :: ByteString -> Int
utf8CharacterCount = go 0
where
go !n bs = case B.uncons bs of
Nothing -> n
Just (c,bs)
| c .&. 0xC0 == 0x80 -> go n bs -- UTF-8 continuation
| c == 0x1B -> go n $ dropCSI bs -- ANSI escape
| otherwise -> go (n+1) bs
dropCSI bs = case B.uncons bs of
Just (0x5B,bs2) -> B.drop 1 $ B.dropWhile isSequenceByte bs2
_ -> bs
isSequenceByte c = c >= 0x20 && c <= 0x3F
-- | Is the log func configured to use color output?
--
-- Intended for use by code which wants to optionally add additional color to
-- its log messages.
--
-- @since 0.1.0.0
logFuncUseColorL :: HasLogFunc env => SimpleGetter env Bool
logFuncUseColorL = logFuncL.to (maybe False logUseColor . lfOptions)
-- | What color is the log func configured to use for each 'LogLevel'?
--
-- Intended for use by code which wants to optionally add additional color to
-- its log messages.
--
-- @since 0.1.18.0
logFuncLogLevelColorsL :: HasLogFunc env
=> SimpleGetter env (LogLevel -> Utf8Builder)
logFuncLogLevelColorsL = logFuncL.to
(maybe defaultLogLevelColors
(logColorLogLevels . logColors) . lfOptions)
-- | What color is the log func configured to use for secondary content?
--
-- Intended for use by code which wants to optionally add additional color to
-- its log messages.
--
-- @since 0.1.18.0
logFuncSecondaryColorL :: HasLogFunc env
=> SimpleGetter env Utf8Builder
logFuncSecondaryColorL = logFuncL.to
(maybe defaultLogSecondaryColor
(logColorSecondary . logColors) . lfOptions)
-- | What accent colors, indexed by 'Int', is the log func configured to use?
--
-- Intended for use by code which wants to optionally add additional color to
-- its log messages.
--
-- @since 0.1.18.0
logFuncAccentColorsL :: HasLogFunc env
=> SimpleGetter env (Int -> Utf8Builder)
logFuncAccentColorsL = logFuncL.to
(maybe defaultLogAccentColors
(logColorAccents . logColors) . lfOptions)
-- | Disable logging capabilities in a given sub-routine
--
-- Intended to skip logging in general purpose implementations, where secrets
-- might be logged accidently.
--
-- @since 0.1.5.0
noLogging :: (HasLogFunc env, MonadReader env m) => m a -> m a
noLogging = local (set logFuncL mempty)
--------------------------------------------------------------------------------
--
-- $type-generic-intro
--
-- When logging takes on a more semantic meaning and the logs need to
-- be digested, acted upon, translated or serialized upstream (to
-- e.g. a JSON logging server), we have 'GLogFunc' (as in "generic log
-- function"), and is accessed via 'HasGLogFunc'.
--
-- There is only one function to log in this system: the 'glog'
-- function, which can log any message. You determine the log levels
-- or severity of messages when needed.
--
-- Using 'RIO.Prelude.mapRIO' and 'contramapGLogFunc' (or
-- 'contramapMaybeGLogFunc'), you can build hierarchies of loggers.
--
-- Example:
--
-- @
-- import RIO
--
-- data DatabaseMsg = Connected String | Query String | Disconnected deriving Show
-- data WebMsg = Request String | Error String | DatabaseMsg DatabaseMsg deriving Show
-- data AppMsg = InitMsg String | WebMsg WebMsg deriving Show
--
-- main :: IO ()
-- main =
-- runRIO
-- (mkGLogFunc (\stack msg -> print msg))
-- (do glog (InitMsg "Ready to go!")
-- runWeb
-- (do glog (Request "/foo")
-- runDB (do glog (Connected "127.0.0.1")
-- glog (Query "SELECT 1"))
-- glog (Error "Oh noes!")))
--
-- runDB :: RIO (GLogFunc DatabaseMsg) () -> RIO (GLogFunc WebMsg) ()
-- runDB = mapRIO (contramapGLogFunc DatabaseMsg)
--
-- runWeb :: RIO (GLogFunc WebMsg) () -> RIO (GLogFunc AppMsg) ()
-- runWeb = mapRIO (contramapGLogFunc WebMsg)
-- @
--
-- If we instead decided that we only wanted to log database queries,
-- and not bother the upstream with connect/disconnect messages, we
-- could simplify the constructor to @DatabaseQuery String@:
--
-- @
-- data WebMsg = Request String | Error String | DatabaseQuery String deriving Show
-- @
--
-- And then @runDB@ could use 'contramapMaybeGLogFunc' to parse only queries:
--
-- @
-- runDB =
-- mapRIO
-- (contramapMaybeGLogFunc
-- (\msg ->
-- case msg of
-- Query string -> pure (DatabaseQuery string)
-- _ -> Nothing))
-- @
--
-- This way, upstream only has to care about queries and not
-- connect/disconnect constructors.
-- | An app is capable of generic logging if it implements this.
--
-- @since 0.1.13.0
class HasGLogFunc env where
type GMsg env
gLogFuncL :: Lens' env (GLogFunc (GMsg env))
-- | Quick way to run a RIO that only has a logger in its environment.
--
-- @since 0.1.13.0
instance HasGLogFunc (GLogFunc msg) where
type GMsg (GLogFunc msg) = msg
gLogFuncL = id
-- | A generic logger of some type @msg@.
--
-- Your 'GLocFunc' can re-use the existing classical logging framework
-- of RIO, and/or implement additional transforms,
-- filters. Alternatively, you may log to a JSON source in a database,
-- or anywhere else as needed. You can decide how to log levels or
-- severities based on the constructors in your type. You will
-- normally determine this in your main app entry point.
--
-- @since 0.1.13.0
newtype GLogFunc msg = GLogFunc (CallStack -> msg -> IO ())
#if MIN_VERSION_base(4,12,0)
instance Contravariant GLogFunc where
contramap = contramapGLogFunc
{-# INLINABLE contramap #-}
#endif
instance Semigroup (GLogFunc msg) where
GLogFunc f <> GLogFunc g = GLogFunc (\a b -> f a b *> g a b)
instance Monoid (GLogFunc msg) where
mempty = mkGLogFunc $ \_ _ -> return ()
mappend = (<>)
contramapMaybeGLogFunc :: (a -> Maybe b) -> GLogFunc b -> GLogFunc a
contramapMaybeGLogFunc f (GLogFunc io) =
GLogFunc (\stack msg -> maybe (pure ()) (io stack) (f msg))
{-# INLINABLE contramapMaybeGLogFunc #-}
contramapGLogFunc :: (a -> b) -> GLogFunc b -> GLogFunc a
contramapGLogFunc f (GLogFunc io) = GLogFunc (\stack msg -> io stack (f msg))
{-# INLINABLE contramapGLogFunc #-}
mkGLogFunc :: (CallStack -> msg -> IO ()) -> GLogFunc msg
mkGLogFunc = GLogFunc
glog ::
(MonadIO m, HasCallStack, HasGLogFunc env, MonadReader env m)
=> GMsg env
-> m ()
glog t = do
GLogFunc gLogFunc <- view gLogFuncL
liftIO (gLogFunc callStack t)
{-# INLINABLE glog #-}
class HasLogLevel msg where
getLogLevel :: msg -> LogLevel
class HasLogSource msg where
getLogSource :: msg -> LogSource
gLogFuncClassic ::
(HasLogLevel msg, HasLogSource msg, Display msg) => LogFunc -> GLogFunc msg
gLogFuncClassic (LogFunc {unLogFunc = io}) =
mkGLogFunc
(\theCallStack msg ->
liftIO
(io theCallStack (getLogSource msg) (getLogLevel msg) (display msg)))