{-# LANGUAGE CPP #-}
{-# LANGUAGE StandaloneDeriving #-}
{-# LANGUAGE UndecidableInstances #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE TemplateHaskell #-}
{-# OPTIONS_GHC -fno-warn-orphans #-}

-- | The monad used for the command-line executable @stack@.

module Stack.Types.StackT
  (StackT
  ,StackLoggingT
  ,runStackT
  ,runStackTGlobal
  ,runStackLoggingT
  ,runStackLoggingTGlobal
  ,runInnerStackT
  ,runInnerStackLoggingT
  ,newTLSManager
  ,logSticky
  ,logStickyDone)
  where

import           Control.Applicative
import           Control.Concurrent.MVar
import           Control.Monad
import           Control.Monad.Base
import           Control.Monad.Catch
import           Control.Monad.IO.Class
import           Control.Monad.Logger
import           Control.Monad.Reader hiding (lift)
import           Control.Monad.Trans.Control
import qualified Data.ByteString.Char8 as S8
import           Data.Char
import           Data.List (stripPrefix)
import           Data.Maybe
import           Data.Monoid
import           Data.Text (Text)
import qualified Data.Text as T
import qualified Data.Text.Encoding as T
import qualified Data.Text.Encoding.Error as T
import qualified Data.Text.IO as T
import           Data.Time
import           GHC.Foreign (withCString, peekCString)
import           Language.Haskell.TH
import           Language.Haskell.TH.Syntax (lift)
import           Network.HTTP.Client.Conduit (HasHttpManager(..))
import           Network.HTTP.Conduit
import           Prelude -- Fix AMP warning
import           System.FilePath
import           Stack.Types.Config (GlobalOpts (..))
import           Stack.Types.Internal
import           System.Console.ANSI
import           System.IO
import           System.Log.FastLogger

#ifndef MIN_VERSION_time
#define MIN_VERSION_time(x, y, z) 0
#endif
#if !MIN_VERSION_time(1, 5, 0)
import           System.Locale
#endif

--------------------------------------------------------------------------------
-- Main StackT monad transformer

-- | The monad used for the executable @stack@.
newtype StackT config m a =
  StackT {unStackT :: ReaderT (Env config) m a}
  deriving (Functor,Applicative,Monad,MonadIO,MonadReader (Env config),MonadThrow,MonadCatch,MonadMask,MonadTrans)

deriving instance (MonadBase b m) => MonadBase b (StackT config m)

instance MonadBaseControl b m => MonadBaseControl b (StackT config m) where
    type StM (StackT config m) a = ComposeSt (StackT config) m a
    liftBaseWith     = defaultLiftBaseWith
    restoreM         = defaultRestoreM

instance MonadTransControl (StackT config) where
    type StT (StackT config) a = StT (ReaderT (Env config)) a
    liftWith = defaultLiftWith StackT unStackT
    restoreT = defaultRestoreT StackT

-- | Takes the configured log level into account.
instance MonadIO m => MonadLogger (StackT config m) where
    monadLoggerLog = stickyLoggerFunc

instance MonadIO m => MonadLoggerIO (StackT config m) where
    askLoggerIO = getStickyLoggerFunc

-- | Run a Stack action, using global options.
runStackTGlobal :: (MonadIO m)
                => Manager -> config -> GlobalOpts -> StackT config m a -> m a
runStackTGlobal manager config GlobalOpts{..} =
    runStackT manager globalLogLevel config globalTerminal (isJust globalReExecVersion)

-- | Run a Stack action.
runStackT :: (MonadIO m)
          => Manager -> LogLevel -> config -> Bool -> Bool -> StackT config m a -> m a
runStackT manager logLevel config terminal reExec m = do
    ansiTerminal <- liftIO $ hSupportsANSI stderr
    canUseUnicode <- liftIO getCanUseUnicode
    withSticky
        terminal
        (\sticky ->
              runReaderT
                  (unStackT m)
                  (Env config logLevel terminal ansiTerminal reExec manager sticky canUseUnicode))

-- | 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 `catchIOError` \_ -> return False

--------------------------------------------------------------------------------
-- Logging only StackLoggingT monad transformer

-- | Monadic environment for 'StackLoggingT'.
data LoggingEnv = LoggingEnv
    { lenvLogLevel :: !LogLevel
    , lenvTerminal :: !Bool
    , lenvAnsiTerminal :: !Bool
    , lenvReExec :: !Bool
    , lenvManager :: !Manager
    , lenvSticky :: !Sticky
    , lenvSupportsUnicode :: !Bool
    }

-- | The monad used for logging in the executable @stack@ before
-- anything has been initialized.
newtype StackLoggingT m a = StackLoggingT
    { unStackLoggingT :: ReaderT LoggingEnv m a
    } deriving (Functor,Applicative,Monad,MonadIO,MonadThrow,MonadReader LoggingEnv,MonadCatch,MonadMask,MonadTrans)

deriving instance (MonadBase b m) => MonadBase b (StackLoggingT m)

instance MonadBaseControl b m => MonadBaseControl b (StackLoggingT m) where
    type StM (StackLoggingT m) a = ComposeSt StackLoggingT m a
    liftBaseWith     = defaultLiftBaseWith
    restoreM         = defaultRestoreM

instance MonadTransControl StackLoggingT where
    type StT StackLoggingT a = StT (ReaderT LoggingEnv) a
    liftWith = defaultLiftWith StackLoggingT unStackLoggingT
    restoreT = defaultRestoreT StackLoggingT

-- | Takes the configured log level into account.
instance (MonadIO m) => MonadLogger (StackLoggingT m) where
    monadLoggerLog = stickyLoggerFunc

instance HasSticky LoggingEnv where
    getSticky = lenvSticky

instance HasLogLevel LoggingEnv where
    getLogLevel = lenvLogLevel

instance HasHttpManager LoggingEnv where
    getHttpManager = lenvManager

instance HasTerminal LoggingEnv where
    getTerminal = lenvTerminal
    getAnsiTerminal = lenvAnsiTerminal

instance HasReExec LoggingEnv where
    getReExec = lenvReExec

instance HasSupportsUnicode LoggingEnv where
    getSupportsUnicode = lenvSupportsUnicode

runInnerStackT :: (HasHttpManager r, HasLogLevel r, HasTerminal r, HasReExec r, MonadReader r m, MonadIO m)
               => config -> StackT config IO a -> m a
runInnerStackT config inner = do
    manager <- asks getHttpManager
    logLevel <- asks getLogLevel
    terminal <- asks getTerminal
    reExec <- asks getReExec
    liftIO $ runStackT manager logLevel config terminal reExec inner

runInnerStackLoggingT :: (HasHttpManager r, HasLogLevel r, HasTerminal r, HasReExec r, MonadReader r m, MonadIO m)
                      => StackLoggingT IO a -> m a
runInnerStackLoggingT inner = do
    manager <- asks getHttpManager
    logLevel <- asks getLogLevel
    terminal <- asks getTerminal
    reExec <- asks getReExec
    liftIO $ runStackLoggingT manager logLevel terminal reExec inner

-- | Run the logging monad, using global options.
runStackLoggingTGlobal :: MonadIO m
                       => Manager -> GlobalOpts -> StackLoggingT m a -> m a
runStackLoggingTGlobal manager GlobalOpts{..} =
    runStackLoggingT manager globalLogLevel globalTerminal (isJust globalReExecVersion)

-- | Run the logging monad.
runStackLoggingT :: MonadIO m
                 => Manager -> LogLevel -> Bool -> Bool -> StackLoggingT m a -> m a
runStackLoggingT manager logLevel terminal reExec m = do
    ansiTerminal <- liftIO $ hSupportsANSI stderr
    canUseUnicode <- liftIO getCanUseUnicode
    withSticky
        terminal
        (\sticky ->
              runReaderT
                  (unStackLoggingT m)
                  LoggingEnv
                  { lenvLogLevel = logLevel
                  , lenvManager = manager
                  , lenvSticky = sticky
                  , lenvTerminal = terminal
                  , lenvAnsiTerminal = ansiTerminal
                  , lenvReExec = reExec
                  , lenvSupportsUnicode = canUseUnicode
                  })

-- | Convenience for getting a 'Manager'
newTLSManager :: MonadIO m => m Manager
newTLSManager = liftIO $ newManager tlsManagerSettings

--------------------------------------------------------------------------------
-- Logging functionality
stickyLoggerFunc
    :: (HasSticky r, HasLogLevel r, HasSupportsUnicode r, HasTerminal r, ToLogStr msg, MonadReader r m, MonadIO m)
    => Loc -> LogSource -> LogLevel -> msg -> m ()
stickyLoggerFunc loc src level msg = do
    func <- getStickyLoggerFunc
    liftIO $ func loc src level msg

getStickyLoggerFunc
    :: (HasSticky r, HasLogLevel r, HasSupportsUnicode r, HasTerminal r, ToLogStr msg, MonadReader r m)
    => m (Loc -> LogSource -> LogLevel -> msg -> IO ())
getStickyLoggerFunc = do
    sticky <- asks getSticky
    logLevel <- asks getLogLevel
    supportsUnicode <- asks getSupportsUnicode
    supportsAnsi <- asks getAnsiTerminal
    return $ stickyLoggerFuncImpl sticky logLevel supportsUnicode supportsAnsi

stickyLoggerFuncImpl
    :: ToLogStr msg
    => Sticky -> LogLevel -> Bool -> Bool
    -> (Loc -> LogSource -> LogLevel -> msg -> IO ())
stickyLoggerFuncImpl (Sticky mref) maxLogLevel supportsUnicode supportsAnsi loc src level msg =
    case mref of
        Nothing ->
            loggerFunc
                supportsAnsi
                maxLogLevel
                out
                loc
                src
                (case level of
                     LevelOther "sticky-done" -> LevelInfo
                     LevelOther "sticky" -> LevelInfo
                     _ -> level)
                msg
        Just ref -> do
            sticky <- takeMVar ref
            let backSpaceChar = '\8'
                repeating = S8.replicate (maybe 0 T.length sticky)
                clear = S8.hPutStr out
                    (repeating backSpaceChar <>
                     repeating ' ' <>
                     repeating backSpaceChar)

            -- Convert some GHC-generated Unicode characters as necessary
            let msgText
                    | supportsUnicode = msgTextRaw
                    | otherwise = T.map replaceUnicode msgTextRaw

            newState <-
                case level of
                    LevelOther "sticky-done" -> do
                        clear
                        T.hPutStrLn out msgText
                        hFlush out
                        return Nothing
                    LevelOther "sticky" -> do
                        clear
                        T.hPutStr out msgText
                        hFlush out
                        return (Just msgText)
                    _
                      | level >= maxLogLevel -> do
                          clear
                          loggerFunc supportsAnsi maxLogLevel out loc src level $ toLogStr msgText
                          case sticky of
                              Nothing ->
                                  return Nothing
                              Just line -> do
                                  T.hPutStr out line >> hFlush out
                                  return sticky
                      | otherwise ->
                          return sticky
            putMVar ref newState
  where
    out = stderr
    msgTextRaw = T.decodeUtf8With T.lenientDecode msgBytes
    msgBytes = fromLogStr (toLogStr msg)

-- | Replace Unicode characters with non-Unicode equivalents
replaceUnicode :: Char -> Char
replaceUnicode '\x2018' = '`'
replaceUnicode '\x2019' = '\''
replaceUnicode c = c

-- | Logging function takes the log level into account.
loggerFunc :: ToLogStr msg
           => Bool -> LogLevel -> Handle -> Loc -> Text -> LogLevel -> msg -> IO ()
loggerFunc supportsAnsi maxLogLevel outputChannel loc _src level msg =
   when (level >= maxLogLevel)
        (liftIO (do out <- getOutput
                    T.hPutStrLn outputChannel out))
  where
    getOutput = do
      timestamp <- getTimestamp
      l <- getLevel
      lc <- getLoc
      return $ T.concat
        [ T.pack timestamp
        , T.pack l
        , T.pack (ansi [Reset])
        , T.decodeUtf8 (fromLogStr (toLogStr msg))
        , T.pack lc
        , T.pack (ansi [Reset])
        ]
     where
       ansi xs | supportsAnsi = setSGRCode xs
               | otherwise = ""
       getTimestamp
         | maxLogLevel <= LevelDebug =
           do now <- getZonedTime
              return $
                  ansi [SetColor Foreground Vivid Black]
                  ++ formatTime' now ++ ": "
         | otherwise = return ""
         where
           formatTime' =
               take timestampLength . formatTime defaultTimeLocale "%F %T.%q"
       getLevel
         | maxLogLevel <= LevelDebug =
           return ((case level of
                      LevelDebug -> ansi [SetColor Foreground Dull Green]
                      LevelInfo -> ansi [SetColor Foreground Dull Blue]
                      LevelWarn -> ansi [SetColor Foreground Dull Yellow]
                      LevelError -> ansi [SetColor Foreground Dull Red]
                      LevelOther _ -> ansi [SetColor Foreground Dull Magenta]) ++
                   "[" ++
                   map toLower (drop 5 (show level)) ++
                   "] ")
         | otherwise = return ""
       getLoc
         | maxLogLevel <= LevelDebug =
           return $
               ansi [SetColor Foreground Vivid Black] ++
               "\n@(" ++ fileLocStr ++ ")"
         | otherwise = return ""
       fileLocStr =
         fromMaybe file (stripPrefix dirRoot file) ++
         ':' :
         line loc ++
         ':' :
         char loc
         where
           file = loc_filename loc
           line = show . fst . loc_start
           char = show . snd . loc_start
       dirRoot = $(lift . T.unpack . fromJust . T.stripSuffix (T.pack $ "Stack" </> "Types" </> "StackT.hs") . T.pack . loc_filename =<< location)

-- | 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))

-- | With a sticky state, do the thing.
withSticky :: (MonadIO m)
           => Bool -> (Sticky -> m b) -> m b
withSticky terminal m =
    if terminal
       then do state <- liftIO (newMVar Nothing)
               originalMode <- liftIO (hGetBuffering stdout)
               liftIO (hSetBuffering stdout NoBuffering)
               a <- m (Sticky (Just state))
               state' <- liftIO (takeMVar state)
               liftIO (when (isJust state') (S8.putStr "\n"))
               liftIO (hSetBuffering stdout originalMode)
               return a
       else m (Sticky Nothing)

-- | Write a "sticky" line to the terminal. Any subsequent lines will
-- overwrite this one, and that same line will be repeated below
-- again. In other words, the line sticks at the bottom of the output
-- forever. Running this function again will replace the sticky line
-- with a new sticky line. When you want to get rid of the sticky
-- line, run 'logStickyDone'.
--
logSticky :: Q Exp
logSticky =
    logOther "sticky"

-- | This will print out the given message with a newline and disable
-- any further stickiness of the line until a new call to 'logSticky'
-- happens.
--
-- It might be better at some point to have a 'runSticky' function
-- that encompasses the logSticky->logStickyDone pairing.
logStickyDone :: Q Exp
logStickyDone =
    logOther "sticky-done"