{-# LANGUAGE BangPatterns #-}
{-# LANGUAGE CPP #-}
{-# LANGUAGE ExistentialQuantification #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE NoImplicitPrelude #-}
{-# LANGUAGE Trustworthy #-}

-- TODO: use the new Windows IO manager
module GHC.Event.TimerManager
    ( -- * Types
      TimerManager

      -- * Creation
    , new
    , newWith
    , newDefaultBackend
    , emControl

      -- * Running
    , finished
    , loop
    , step
    , shutdown
    , cleanup
    , wakeManager

      -- * Registering interest in timeout events
    , TimeoutCallback
    , TimeoutKey
    , registerTimeout
    , updateTimeout
    , unregisterTimeout
    ) where

#include "EventConfig.h"

------------------------------------------------------------------------
-- Imports

import Control.Exception (finally)
import Data.Foldable (sequence_)
import Data.IORef (IORef, atomicModifyIORef', mkWeakIORef, newIORef, readIORef,
                   writeIORef)
import GHC.Base
import GHC.Clock (getMonotonicTimeNSec)
import GHC.Conc.Signal (runHandlers)
import GHC.Enum (maxBound)
import GHC.Num (Num(..))
import GHC.Real (quot, fromIntegral)
import GHC.Show (Show(..))
import GHC.Event.Control
import GHC.Event.Internal (Backend, Event, evtRead, Timeout(..))
import GHC.Event.Unique (UniqueSource, newSource, newUnique)
import GHC.Event.TimeOut
import System.Posix.Types (Fd)

import qualified GHC.Event.Internal as I
import qualified GHC.Event.PSQ as Q

#if defined(HAVE_POLL)
import qualified GHC.Event.Poll   as Poll
#else
# error not implemented for this operating system
#endif

------------------------------------------------------------------------
-- Types

data State = Created
           | Running
           | Dying
           | Finished
             deriving ( Eq   -- ^ @since 4.7.0.0
                      , Show -- ^ @since 4.7.0.0
                      )

-- | The event manager state.
data TimerManager = TimerManager
    { emBackend      :: !Backend
    , emTimeouts     :: {-# UNPACK #-} !(IORef TimeoutQueue)
    , emState        :: {-# UNPACK #-} !(IORef State)
    , emUniqueSource :: {-# UNPACK #-} !UniqueSource
    , emControl      :: {-# UNPACK #-} !Control
    }

------------------------------------------------------------------------
-- Creation

handleControlEvent :: TimerManager -> Fd -> Event -> IO ()
handleControlEvent mgr fd _evt = do
  msg <- readControlMessage (emControl mgr) fd
  case msg of
    CMsgWakeup      -> return ()
    CMsgDie         -> writeIORef (emState mgr) Finished
    CMsgSignal fp s -> runHandlers fp s

newDefaultBackend :: IO Backend
#if defined(HAVE_POLL)
newDefaultBackend = Poll.new
#else
newDefaultBackend = errorWithoutStackTrace "no back end for this platform"
#endif

-- | Create a new event manager.
new :: IO TimerManager
new = newWith =<< newDefaultBackend

newWith :: Backend -> IO TimerManager
newWith be = do
  timeouts <- newIORef Q.empty
  ctrl <- newControl True
  state <- newIORef Created
  us <- newSource
  _ <- mkWeakIORef state $ do
               st <- atomicModifyIORef' state $ \s -> (Finished, s)
               when (st /= Finished) $ do
                 I.delete be
                 closeControl ctrl
  let mgr = TimerManager { emBackend = be
                         , emTimeouts = timeouts
                         , emState = state
                         , emUniqueSource = us
                         , emControl = ctrl
                         }
  _ <- I.modifyFd be (controlReadFd ctrl) mempty evtRead
  _ <- I.modifyFd be (wakeupReadFd ctrl) mempty evtRead
  return mgr

-- | Asynchronously shuts down the event manager, if running.
shutdown :: TimerManager -> IO ()
shutdown mgr = do
  state <- atomicModifyIORef' (emState mgr) $ \s -> (Dying, s)
  when (state == Running) $ sendDie (emControl mgr)

finished :: TimerManager -> IO Bool
finished mgr = (== Finished) `liftM` readIORef (emState mgr)

cleanup :: TimerManager -> IO ()
cleanup mgr = do
  writeIORef (emState mgr) Finished
  I.delete (emBackend mgr)
  closeControl (emControl mgr)

------------------------------------------------------------------------
-- Event loop

-- | Start handling events.  This function loops until told to stop,
-- using 'shutdown'.
--
-- /Note/: This loop can only be run once per 'TimerManager', as it
-- closes all of its control resources when it finishes.
loop :: TimerManager -> IO ()
loop mgr = do
  state <- atomicModifyIORef' (emState mgr) $ \s -> case s of
    Created -> (Running, s)
    _       -> (s, s)
  case state of
    Created -> go `finally` cleanup mgr
    Dying   -> cleanup mgr
    _       -> do cleanup mgr
                  errorWithoutStackTrace $ "GHC.Event.Manager.loop: state is already " ++
                      show state
 where
  go = do running <- step mgr
          when running go

step :: TimerManager -> IO Bool
step mgr = do
  timeout <- mkTimeout
  _ <- I.poll (emBackend mgr) (Just timeout) (handleControlEvent mgr)
  state <- readIORef (emState mgr)
  state `seq` return (state == Running)
 where

  -- | Call all expired timer callbacks and return the time to the
  -- next timeout.
  mkTimeout :: IO Timeout
  mkTimeout = do
      now <- getMonotonicTimeNSec
      (expired, timeout) <- atomicModifyIORef' (emTimeouts mgr) $ \tq ->
           let (expired, tq') = Q.atMost now tq
               timeout = case Q.minView tq' of
                 Nothing             -> Forever
                 Just (Q.E _ t _, _) ->
                     -- This value will always be positive since the call
                     -- to 'atMost' above removed any timeouts <= 'now'
                     let t' = t - now in t' `seq` Timeout t'
           in (tq', (expired, timeout))
      sequence_ $ map Q.value expired
      return timeout

-- | Wake up the event manager.
wakeManager :: TimerManager -> IO ()
wakeManager mgr = sendWakeup (emControl mgr)

------------------------------------------------------------------------
-- Registering interest in timeout events

expirationTime :: Int -> IO Q.Prio
expirationTime us = do
    now <- getMonotonicTimeNSec
    let expTime
          -- Currently we treat overflows by clamping to maxBound. If humanity
          -- still exists in 2500 CE we will ned to be a bit more careful here.
          -- See #15158.
          | (maxBound - now) `quot` 1000 < fromIntegral us  = maxBound
          | otherwise                                       = now + ns
          where ns = 1000 * fromIntegral us
    return expTime

-- | Register a timeout in the given number of microseconds.  The
-- returned 'TimeoutKey' can be used to later unregister or update the
-- timeout.  The timeout is automatically unregistered after the given
-- time has passed.
registerTimeout :: TimerManager -> Int -> TimeoutCallback -> IO TimeoutKey
registerTimeout mgr us cb = do
  !key <- newUnique (emUniqueSource mgr)
  if us <= 0 then cb
    else do
      expTime <- expirationTime us

      -- "unsafeInsertNew" is safe - the key must not exist in the PSQ. It
      -- doesn't because we just generated it from a unique supply.
      editTimeouts mgr (Q.unsafeInsertNew key expTime cb)
  return $ TK key

-- | Unregister an active timeout.
unregisterTimeout :: TimerManager -> TimeoutKey -> IO ()
unregisterTimeout mgr (TK key) =
  editTimeouts mgr (Q.delete key)

-- | Update an active timeout to fire in the given number of
-- microseconds.
updateTimeout :: TimerManager -> TimeoutKey -> Int -> IO ()
updateTimeout mgr (TK key) us = do
  expTime <- expirationTime us
  editTimeouts mgr (Q.adjust (const expTime) key)

editTimeouts :: TimerManager -> TimeoutEdit -> IO ()
editTimeouts mgr g = do
  wake <- atomicModifyIORef' (emTimeouts mgr) f
  when wake (wakeManager mgr)
  where
    f q = (q', wake)
      where
        q' = g q
        wake = case Q.minView q of
                Nothing -> True
                Just (Q.E _ t0 _, _) ->
                  case Q.minView q' of
                    Just (Q.E _ t1 _, _) ->
                      -- don't wake the manager if the
                      -- minimum element didn't change.
                      t0 /= t1
                    _ -> True