module Distribution.Simple.Program.Run (
ProgramInvocation(..),
IOEncoding(..),
emptyProgramInvocation,
simpleProgramInvocation,
programInvocation,
multiStageProgramInvocation,
runProgramInvocation,
getProgramInvocationOutput,
getProgramInvocationLBS,
getProgramInvocationOutputAndErrors,
getEffectiveEnvironment,
) where
import Distribution.Compat.Prelude
import Prelude ()
import Distribution.Compat.Environment
import Distribution.Simple.Program.Types
import Distribution.Simple.Utils
import Distribution.Utils.Generic
import Distribution.Verbosity
import System.FilePath (searchPathSeparator)
import qualified Data.ByteString.Lazy as LBS
import qualified Data.Map as Map
data ProgramInvocation = ProgramInvocation {
progInvokePath :: FilePath,
progInvokeArgs :: [String],
progInvokeEnv :: [(String, Maybe String)],
progInvokePathEnv :: [FilePath],
progInvokeCwd :: Maybe FilePath,
progInvokeInput :: Maybe IOData,
progInvokeInputEncoding :: IOEncoding,
progInvokeOutputEncoding :: IOEncoding
}
data IOEncoding = IOEncodingText
| IOEncodingUTF8
encodeToIOData :: IOEncoding -> IOData -> IOData
encodeToIOData _ iod@(IODataBinary _) = iod
encodeToIOData IOEncodingText iod@(IODataText _) = iod
encodeToIOData IOEncodingUTF8 (IODataText str) = IODataBinary (toUTF8LBS str)
emptyProgramInvocation :: ProgramInvocation
emptyProgramInvocation =
ProgramInvocation {
progInvokePath = "",
progInvokeArgs = [],
progInvokeEnv = [],
progInvokePathEnv = [],
progInvokeCwd = Nothing,
progInvokeInput = Nothing,
progInvokeInputEncoding = IOEncodingText,
progInvokeOutputEncoding = IOEncodingText
}
simpleProgramInvocation :: FilePath -> [String] -> ProgramInvocation
simpleProgramInvocation path args =
emptyProgramInvocation {
progInvokePath = path,
progInvokeArgs = args
}
programInvocation :: ConfiguredProgram -> [String] -> ProgramInvocation
programInvocation prog args =
emptyProgramInvocation {
progInvokePath = programPath prog,
progInvokeArgs = programDefaultArgs prog
++ args
++ programOverrideArgs prog,
progInvokeEnv = programOverrideEnv prog
}
runProgramInvocation :: Verbosity -> ProgramInvocation -> IO ()
runProgramInvocation verbosity
ProgramInvocation {
progInvokePath = path,
progInvokeArgs = args,
progInvokeEnv = [],
progInvokePathEnv = [],
progInvokeCwd = Nothing,
progInvokeInput = Nothing
} =
rawSystemExit verbosity path args
runProgramInvocation verbosity
ProgramInvocation {
progInvokePath = path,
progInvokeArgs = args,
progInvokeEnv = envOverrides,
progInvokePathEnv = extraPath,
progInvokeCwd = mcwd,
progInvokeInput = Nothing
} = do
pathOverride <- getExtraPathEnv envOverrides extraPath
menv <- getEffectiveEnvironment (envOverrides ++ pathOverride)
exitCode <- rawSystemIOWithEnv verbosity
path args
mcwd menv
Nothing Nothing Nothing
when (exitCode /= ExitSuccess) $
exitWith exitCode
runProgramInvocation verbosity
ProgramInvocation {
progInvokePath = path,
progInvokeArgs = args,
progInvokeEnv = envOverrides,
progInvokePathEnv = extraPath,
progInvokeCwd = mcwd,
progInvokeInput = Just inputStr,
progInvokeInputEncoding = encoding
} = do
pathOverride <- getExtraPathEnv envOverrides extraPath
menv <- getEffectiveEnvironment (envOverrides ++ pathOverride)
(_, errors, exitCode) <- rawSystemStdInOut verbosity
path args
mcwd menv
(Just input) IODataModeBinary
when (exitCode /= ExitSuccess) $
die' verbosity $ "'" ++ path ++ "' exited with an error:\n" ++ errors
where
input = encodeToIOData encoding inputStr
getProgramInvocationOutput :: Verbosity -> ProgramInvocation -> IO String
getProgramInvocationOutput verbosity inv = do
(output, errors, exitCode) <- getProgramInvocationOutputAndErrors verbosity inv
when (exitCode /= ExitSuccess) $
die' verbosity $ "'" ++ progInvokePath inv ++ "' exited with an error:\n" ++ errors
return output
getProgramInvocationLBS :: Verbosity -> ProgramInvocation -> IO LBS.ByteString
getProgramInvocationLBS verbosity inv = do
(output, errors, exitCode) <- getProgramInvocationIODataAndErrors verbosity inv IODataModeBinary
when (exitCode /= ExitSuccess) $
die' verbosity $ "'" ++ progInvokePath inv ++ "' exited with an error:\n" ++ errors
return output
getProgramInvocationOutputAndErrors :: Verbosity -> ProgramInvocation
-> IO (String, String, ExitCode)
getProgramInvocationOutputAndErrors verbosity inv = case progInvokeOutputEncoding inv of
IOEncodingText -> do
(output, errors, exitCode) <- getProgramInvocationIODataAndErrors verbosity inv IODataModeText
return (output, errors, exitCode)
IOEncodingUTF8 -> do
(output', errors, exitCode) <- getProgramInvocationIODataAndErrors verbosity inv IODataModeBinary
return (normaliseLineEndings (fromUTF8LBS output'), errors, exitCode)
getProgramInvocationIODataAndErrors
:: KnownIODataMode mode => Verbosity -> ProgramInvocation -> IODataMode mode
-> IO (mode, String, ExitCode)
getProgramInvocationIODataAndErrors
verbosity
ProgramInvocation
{ progInvokePath = path
, progInvokeArgs = args
, progInvokeEnv = envOverrides
, progInvokePathEnv = extraPath
, progInvokeCwd = mcwd
, progInvokeInput = minputStr
, progInvokeInputEncoding = encoding
}
mode = do
pathOverride <- getExtraPathEnv envOverrides extraPath
menv <- getEffectiveEnvironment (envOverrides ++ pathOverride)
rawSystemStdInOut verbosity path args mcwd menv input mode
where
input = encodeToIOData encoding <$> minputStr
getExtraPathEnv :: [(String, Maybe String)] -> [FilePath] -> IO [(String, Maybe String)]
getExtraPathEnv _ [] = return []
getExtraPathEnv env extras = do
mb_path <- case lookup "PATH" env of
Just x -> return x
Nothing -> lookupEnv "PATH"
let extra = intercalate [searchPathSeparator] extras
path' = case mb_path of
Nothing -> extra
Just path -> extra ++ searchPathSeparator : path
return [("PATH", Just path')]
getEffectiveEnvironment :: [(String, Maybe String)]
-> IO (Maybe [(String, String)])
getEffectiveEnvironment [] = return Nothing
getEffectiveEnvironment overrides =
fmap (Just . Map.toList . apply overrides . Map.fromList) getEnvironment
where
apply os env = foldl' (flip update) env os
update (var, Nothing) = Map.delete var
update (var, Just val) = Map.insert var val
multiStageProgramInvocation
:: ProgramInvocation
-> (ProgramInvocation, ProgramInvocation, ProgramInvocation)
-> [String]
-> [ProgramInvocation]
multiStageProgramInvocation simple (initial, middle, final) args =
let argSize inv = length (progInvokePath inv)
+ foldl' (\s a -> length a + 1 + s) 1 (progInvokeArgs inv)
fixedArgSize = maximum (map argSize [simple, initial, middle, final])
chunkSize = maxCommandLineSize fixedArgSize
in case splitChunks chunkSize args of
[] -> [ simple ]
[c] -> [ simple `appendArgs` c ]
(c:c2:cs) | (xs, x) <- unsnocNE (c2:|cs) ->
[ initial `appendArgs` c ]
++ [ middle `appendArgs` c'| c' <- xs ]
++ [ final `appendArgs` x ]
where
appendArgs :: ProgramInvocation -> [String] -> ProgramInvocation
inv `appendArgs` as = inv { progInvokeArgs = progInvokeArgs inv ++ as }
splitChunks :: Int -> [[a]] -> [[[a]]]
splitChunks len = unfoldr $ \s ->
if null s then Nothing
else Just (chunk len s)
chunk :: Int -> [[a]] -> ([[a]], [[a]])
chunk len (s:_) | length s >= len = error toolong
chunk len ss = chunk' [] len ss
chunk' :: [[a]] -> Int -> [[a]] -> ([[a]], [[a]])
chunk' acc len (s:ss)
| len' < len = chunk' (s:acc) (lenlen'1) ss
where len' = length s
chunk' acc _ ss = (reverse acc, ss)
toolong = "multiStageProgramInvocation: a single program arg is larger "
++ "than the maximum command line length!"
maxCommandLineSize :: Int
maxCommandLineSize = 30 * 1024