{- System.Process enhancements, including additional ways of running
- processes, and logging.
-
- Copyright 2012-2020 Joey Hess <id@joeyh.name>
-
- License: BSD-2-clause
-}
{-# LANGUAGE CPP, Rank2Types, LambdaCase #-}
{-# OPTIONS_GHC -fno-warn-tabs #-}
module Utility.Process (
module X,
StdHandle(..),
readProcess,
readProcess',
readProcessEnv,
writeReadProcessEnv,
forceSuccessProcess,
forceSuccessProcess',
checkSuccessProcess,
withNullHandle,
createProcess,
withCreateProcess,
waitForProcess,
cleanupProcess,
hGetLineUntilExitOrEOF,
startInteractiveProcess,
stdinHandle,
stdoutHandle,
stderrHandle,
processHandle,
devNull,
) where
import qualified Utility.Process.Shim
import Utility.Process.Shim as X (CreateProcess(..), ProcessHandle, StdStream(..), CmdSpec(..), proc, getPid, getProcessExitCode, shell, terminateProcess, interruptProcessGroupOf)
import Utility.Misc
import Utility.Exception
import Utility.Monad
import System.Exit
import System.IO
import System.Log.Logger
import Control.Monad.IO.Class
import Control.Concurrent.Async
import qualified Data.ByteString as S
data StdHandle = StdinHandle | StdoutHandle | StderrHandle
deriving (Eq)
-- | Normally, when reading from a process, it does not need to be fed any
-- standard input.
readProcess :: FilePath -> [String] -> IO String
readProcess cmd args = readProcess' (proc cmd args)
readProcessEnv :: FilePath -> [String] -> Maybe [(String, String)] -> IO String
readProcessEnv cmd args environ =
readProcess' $ (proc cmd args) { env = environ }
readProcess' :: CreateProcess -> IO String
readProcess' p = withCreateProcess p' go
where
p' = p { std_out = CreatePipe }
go _ (Just h) _ pid = do
output <- hGetContentsStrict h
hClose h
forceSuccessProcess p' pid
return output
go _ _ _ _ = error "internal"
-- | Runs an action to write to a process on its stdin,
-- returns its output, and also allows specifying the environment.
writeReadProcessEnv
:: FilePath
-> [String]
-> Maybe [(String, String)]
-> (Maybe (Handle -> IO ()))
-> IO S.ByteString
writeReadProcessEnv cmd args environ writestdin = withCreateProcess p go
where
p = (proc cmd args)
{ std_in = CreatePipe
, std_out = CreatePipe
, std_err = Inherit
, env = environ
}
go (Just inh) (Just outh) _ pid = do
let reader = hClose outh `after` S.hGetContents outh
let writer = do
maybe (return ()) (\a -> a inh >> hFlush inh) writestdin
hClose inh
(output, ()) <- concurrently reader writer
forceSuccessProcess p pid
return output
go _ _ _ _ = error "internal"
-- | Waits for a ProcessHandle, and throws an IOError if the process
-- did not exit successfully.
forceSuccessProcess :: CreateProcess -> ProcessHandle -> IO ()
forceSuccessProcess p pid = waitForProcess pid >>= forceSuccessProcess' p
forceSuccessProcess' :: CreateProcess -> ExitCode -> IO ()
forceSuccessProcess' _ ExitSuccess = return ()
forceSuccessProcess' p (ExitFailure n) = fail $
showCmd p ++ " exited " ++ show n
-- | Waits for a ProcessHandle and returns True if it exited successfully.
checkSuccessProcess :: ProcessHandle -> IO Bool
checkSuccessProcess pid = do
code <- waitForProcess pid
return $ code == ExitSuccess
withNullHandle :: (MonadIO m, MonadMask m) => (Handle -> m a) -> m a
withNullHandle = bracket
(liftIO $ openFile devNull WriteMode)
(liftIO . hClose)
devNull :: FilePath
#ifndef mingw32_HOST_OS
devNull = "/dev/null"
#else
-- Use device namespace to prevent GHC from rewriting path
devNull = "\\\\.\\NUL"
#endif
-- | Extract a desired handle from createProcess's tuple.
-- These partial functions are safe as long as createProcess is run
-- with appropriate parameters to set up the desired handle.
-- Get it wrong and the runtime crash will always happen, so should be
-- easily noticed.
type HandleExtractor = (Maybe Handle, Maybe Handle, Maybe Handle, ProcessHandle) -> Handle
stdinHandle :: HandleExtractor
stdinHandle (Just h, _, _, _) = h
stdinHandle _ = error "expected stdinHandle"
stdoutHandle :: HandleExtractor
stdoutHandle (_, Just h, _, _) = h
stdoutHandle _ = error "expected stdoutHandle"
stderrHandle :: HandleExtractor
stderrHandle (_, _, Just h, _) = h
stderrHandle _ = error "expected stderrHandle"
processHandle :: (Maybe Handle, Maybe Handle, Maybe Handle, ProcessHandle) -> ProcessHandle
processHandle (_, _, _, pid) = pid
-- | Shows the command that a CreateProcess will run.
showCmd :: CreateProcess -> String
showCmd = go . cmdspec
where
go (ShellCommand s) = s
go (RawCommand c ps) = c ++ " " ++ show ps
-- | Starts an interactive process. Unlike runInteractiveProcess in
-- System.Process, stderr is inherited.
startInteractiveProcess
:: FilePath
-> [String]
-> Maybe [(String, String)]
-> IO (ProcessHandle, Handle, Handle)
startInteractiveProcess cmd args environ = do
let p = (proc cmd args)
{ std_in = CreatePipe
, std_out = CreatePipe
, std_err = Inherit
, env = environ
}
(Just from, Just to, _, pid) <- createProcess p
return (pid, to, from)
-- | Wrapper around 'System.Process.createProcess' that does debug logging.
createProcess :: CreateProcess -> IO (Maybe Handle, Maybe Handle, Maybe Handle, ProcessHandle)
createProcess p = do
r@(_, _, _, h) <- Utility.Process.Shim.createProcess p
debugProcess p h
return r
-- | Wrapper around 'System.Process.withCreateProcess' that does debug logging.
withCreateProcess :: CreateProcess -> (Maybe Handle -> Maybe Handle -> Maybe Handle -> ProcessHandle -> IO a) -> IO a
withCreateProcess p action = bracket (createProcess p) cleanupProcess
(\(m_in, m_out, m_err, ph) -> action m_in m_out m_err ph)
-- | Debugging trace for a CreateProcess.
debugProcess :: CreateProcess -> ProcessHandle -> IO ()
debugProcess p h = do
pid <- getPid h
debugM "Utility.Process" $ unwords
[ describePid pid
, action ++ ":"
, showCmd p
]
where
action
| piped (std_in p) && piped (std_out p) = "chat"
| piped (std_in p) = "feed"
| piped (std_out p) = "read"
| otherwise = "call"
piped Inherit = False
piped _ = True
describePid :: Maybe Utility.Process.Shim.Pid -> String
describePid Nothing = "process"
describePid (Just p) = "process [" ++ show p ++ "]"
-- | Wrapper around 'System.Process.waitForProcess' that does debug logging.
waitForProcess :: ProcessHandle -> IO ExitCode
waitForProcess h = do
-- Have to get pid before waiting, which closes the ProcessHandle.
pid <- getPid h
r <- Utility.Process.Shim.waitForProcess h
debugM "Utility.Process" (describePid pid ++ " done " ++ show r)
return r
cleanupProcess :: (Maybe Handle, Maybe Handle, Maybe Handle, ProcessHandle) -> IO ()
#if MIN_VERSION_process(1,6,4)
cleanupProcess = Utility.Process.Shim.cleanupProcess
#else
cleanupProcess (mb_stdin, mb_stdout, mb_stderr, pid) = do
-- Unlike the real cleanupProcess, this does not wait
-- for the process to finish in the background, so if
-- the process ignores SIGTERM, this can block until the process
-- gets around the exiting.
terminateProcess pid
let void _ = return ()
maybe (return ()) (void . tryNonAsync . hClose) mb_stdin
maybe (return ()) hClose mb_stdout
maybe (return ()) hClose mb_stderr
void $ waitForProcess pid
#endif
{- | Like hGetLine, reads a line from the Handle. Returns Nothing if end of
- file is reached, or the handle is closed, or if the process has exited
- and there is nothing more buffered to read from the handle.
-
- This is useful to protect against situations where the process might
- have transferred the handle being read to another process, and so
- the handle could remain open after the process has exited. That is a rare
- situation, but can happen. Consider a the process that started up a
- daemon, and the daemon inherited stderr from it, rather than the more
- usual behavior of closing the file descriptor. Reading from stderr
- would block past the exit of the process.
-
- In that situation, this will detect when the process has exited,
- and avoid blocking forever. But will still return anything the process
- buffered to the handle before exiting.
-
- Note on newline mode: This ignores whatever newline mode is configured
- for the handle, because there is no way to query that. On Windows,
- it will remove any \r coming before the \n. On other platforms,
- it does not treat \r specially.
-}
hGetLineUntilExitOrEOF :: ProcessHandle -> Handle -> IO (Maybe String)
hGetLineUntilExitOrEOF ph h = go []
where
go buf = do
ready <- waitforinputorerror smalldelay
if ready
then getloop buf go
else getProcessExitCode ph >>= \case
-- Process still running, wait longer.
Nothing -> go buf
-- Process is done. It's possible
-- that it output something and exited
-- since the prior hWaitForInput,
-- so check one more time for any buffered
-- output.
Just _ -> finalcheck buf
finalcheck buf = do
ready <- waitforinputorerror 0
if ready
then getloop buf finalcheck
-- No remaining buffered input, though the handle
-- may not be EOF if something else is keeping it
-- open. Treated the same as EOF.
else eofwithnolineend buf
-- On exception, proceed as if there was input;
-- EOF and any encoding issues are dealt with
-- when reading from the handle.
waitforinputorerror t = hWaitForInput h t
`catchNonAsync` const (pure True)
getchar =
catcherr EOF $
-- If the handle is closed, reading from it is
-- an IllegalOperation.
catcherr IllegalOperation $
Just <$> hGetChar h
where
catcherr t = catchIOErrorType t (const (pure Nothing))
getloop buf cont =
getchar >>= \case
Just c
| c == '\n' -> return (Just (gotline buf))
| otherwise -> cont (c:buf)
Nothing -> eofwithnolineend buf
#ifndef mingw32_HOST_OS
gotline buf = reverse buf
#else
gotline ('\r':buf) = reverse buf
gotline buf = reverse buf
#endif
eofwithnolineend buf = return $
if null buf
then Nothing -- no line read
else Just (reverse buf)
-- Tenth of a second delay. If the process exits with the FD being
-- held open, will wait up to twice this long before returning.
-- This delay could be made smaller. However, that is an unusual
-- case, and making it too small would cause lots of wakeups while
-- waiting for output. Bearing in mind that this could be run on
-- many processes at the same time.
smalldelay = 100 -- milliseconds