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{-# OPTIONS_GHC -Wall #-}
module Plugins.Monitors.AlsaSpec
( main
, spec
) where
import Control.Concurrent
import Control.Concurrent.Async
import Control.Monad
import Plugins.Monitors.Alsa
import System.FilePath
import System.IO
import System.IO.Temp
import System.Posix.Files
import System.Process
import Test.Hspec
main :: IO ()
main = hspec spec
spec :: Spec
spec = do
describe "Alsa.getWaitMonitor" $
it "produces the expected timeline (using a fake alsactl)"
runFakeAlsactlTest
describe "Alsa.parseOptsIncludingMonitorArgs" $ do
it "works with empty args" $ do
opts <- parseOptsIncludingMonitorArgs []
aoAlsaCtlPath opts `shouldBe` Nothing
it "parses --alsactl=foo" $ do
opts <- parseOptsIncludingMonitorArgs ["--", "--alsactl=foo"]
aoAlsaCtlPath opts `shouldBe` Just "foo"
runFakeAlsactlTest :: Expectation
runFakeAlsactlTest =
withSystemTempDirectory "xmobar-test" $ \tmpDir -> do
let fifoPath = tmpDir </> "fifo"
fakeAlsactlPath = tmpDir </> "fake-alsactl"
writeFile fakeAlsactlPath $
unlines
[ "#!/bin/bash"
, "[[ $1 == monitor ]] || exit 99"
, "exec cat \"$2\""
]
setFileMode fakeAlsactlPath ownerModes
withFifoWriteHandle fifoPath $ \fifo -> do
timeline <- newMVar [] :: IO (MVar [TimelineEntry])
runVolumeCompleted <- newEmptyMVar :: IO (MVar Bool) -- True -> quit
waiterTaskIsRunning <- newEmptyMVar :: IO (MVar ())
waiterTaskIsWaiting <- newEmptyMVar :: IO (MVar ())
waitFunc <- getMonitorWaiter fifoPath (Just fakeAlsactlPath)
let addToTimeline e = modifyMVar_ timeline (pure . (e :))
emitEvent = do
addToTimeline EventEmitted
hPutStrLn fifo "#17 (2,0,0,Master Playback Volume,0) VALUE"
hFlush fifo
putNow mv val = do
ok <- tryPutMVar mv val
unless ok $ expectationFailure "Expected the MVar to be empty"
simulateRunVolumeCompleted = putNow runVolumeCompleted False
quitWaiter = putNow runVolumeCompleted True
waiterTaskMain = do
addToTimeline RunVolume
putNow waiterTaskIsRunning ()
q <- takeMVar runVolumeCompleted
unless q $ do
addToTimeline Waiting
putNow waiterTaskIsWaiting ()
waitFunc
waiterTaskMain
delay_ms = threadDelay . (* 1000)
withAsync waiterTaskMain $ \waiterTask -> do
takeMVar waiterTaskIsRunning
simulateRunVolumeCompleted
takeMVar waiterTaskIsWaiting
takeMVar waiterTaskIsRunning -- Waiter returns instantly once
simulateRunVolumeCompleted
takeMVar waiterTaskIsWaiting
emitEvent
takeMVar waiterTaskIsRunning
simulateRunVolumeCompleted
takeMVar waiterTaskIsWaiting
let iters = 3
burstSize = 5
replicateM_ iters $ do
emitEvent
takeMVar waiterTaskIsRunning
-- Now more events start to accumulate during runVolume
replicateM_ burstSize emitEvent
delay_ms 250 -- Give the events time to go through the pipe
simulateRunVolumeCompleted
-- runVolume completed and should run once more due to
-- accumulated events
takeMVar waiterTaskIsWaiting
takeMVar waiterTaskIsRunning
simulateRunVolumeCompleted
takeMVar waiterTaskIsWaiting
emitEvent
takeMVar waiterTaskIsRunning
quitWaiter
wait waiterTask
timelineValue <- reverse <$> readMVar timeline
timelineValue `shouldBe`
[RunVolume, Waiting, RunVolume, Waiting, EventEmitted, RunVolume, Waiting]
++ concat
(replicate iters $
[EventEmitted, RunVolume]
++ replicate burstSize EventEmitted
++ [Waiting, RunVolume, Waiting])
++ [EventEmitted, RunVolume]
data TimelineEntry = EventEmitted | Waiting | RunVolume
deriving(Eq)
instance Show TimelineEntry where
show x =
case x of
EventEmitted -> "E"
Waiting -> "W"
RunVolume -> "R"
withFifoWriteHandle :: FilePath -> (Handle -> IO b) -> IO b
withFifoWriteHandle fifoPath body = do
createNamedPipe fifoPath ownerModes
-- Can't seem to get the writing to the FIFO to work internally
withCreateProcess
(proc "bash" ["-c", "cat >> \"$0\"", fifoPath]) {std_in = CreatePipe}
$ \(Just h) _ _ _ -> do
hSetBuffering h LineBuffering
body h
|