shrub/pkg/hs/urbit-king/lib/Ur/Vere/Pier.hs

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{-# OPTIONS_GHC -Wwarn #-}
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{-|
Top-Level Pier Management
This is the code that starts the IO drivers and deals with
communication between the serf, the log, and the IO drivers.
-}
module Ur.Vere.Pier
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( booted, resumed, pier, runPersist, runCompute, generateBootSeq
) where
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import Ur.Prelude
import System.Random
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import Ur.Arvo
import Ur.King.Config
import Ur.Vere.Pier.Types
import Data.Text (append)
import System.Posix.Files (ownerModes, setFileMode)
import Ur.King.App (HasConfigDir(..))
import Ur.Vere.Ames (ames)
import Ur.Vere.Behn (behn)
import Ur.Vere.Clay (clay)
import Ur.Vere.Http.Client (client)
import Ur.Vere.Http.Server (serv)
import Ur.Vere.Log (EventLog)
import Ur.Vere.Serf (Serf, SerfState(..), doJob, sStderr)
import RIO.Directory
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import qualified System.Console.Terminal.Size as TSize
import qualified System.Entropy as Ent
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import qualified Ur.King.API as King
import qualified Ur.Time as Time
import qualified Ur.Vere.Log as Log
import qualified Ur.Vere.Serf as Serf
import qualified Ur.Vere.Term as Term
import qualified Ur.Vere.Term.API as Term
import qualified Ur.Vere.Term.Demux as Term
--------------------------------------------------------------------------------
_ioDrivers = [] :: [IODriver]
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setupPierDirectory :: FilePath -> RIO e ()
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setupPierDirectory shipPath = do
for_ ["put", "get", "log", "chk"] $ \seg -> do
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let pax = shipPath <> "/.urb/" <> seg
createDirectoryIfMissing True pax
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io $ setFileMode pax ownerModes
-- Load pill into boot sequence. -----------------------------------------------
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genEntropy :: RIO e Word512
genEntropy = fromIntegral . bytesAtom <$> io (Ent.getEntropy 64)
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generateBootSeq :: Ship -> Pill -> Bool -> LegacyBootEvent -> RIO e BootSeq
generateBootSeq ship Pill{..} lite boot = do
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ent <- genEntropy
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let ovums = preKern ent <> pKernelOvums <> postKern <> pUserspaceOvums
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pure $ BootSeq ident pBootFormulas ovums
where
ident = LogIdentity ship isFake (fromIntegral $ length pBootFormulas)
preKern ent = [ EvBlip $ BlipEvArvo $ ArvoEvWhom () ship
, EvBlip $ BlipEvArvo $ ArvoEvWack () ent
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]
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postKern = [ EvBlip $ BlipEvTerm $ TermEvBoot (1,()) lite boot ]
isFake = case boot of
Fake _ -> True
_ -> False
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-- Write a batch of jobs into the event log ------------------------------------
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writeJobs :: EventLog -> Vector Job -> RIO e ()
writeJobs log !jobs = do
expect <- Log.nextEv log
events <- fmap fromList $ traverse fromJob (zip [expect..] $ toList jobs)
Log.appendEvents log events
where
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fromJob :: (EventId, Job) -> RIO e ByteString
fromJob (expectedId, job) = do
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unless (expectedId == jobId job) $
error $ show ("bad job id!", expectedId, jobId job)
pure $ jamBS $ jobPayload job
jobPayload :: Job -> Noun
jobPayload (RunNok (LifeCyc _ m n)) = toNoun (m, n)
jobPayload (DoWork (Work _ m d o)) = toNoun (m, d, o)
-- Boot a new ship. ------------------------------------------------------------
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booted :: (HasPierConfig e, HasLogFunc e)
=> Pill -> Bool -> Serf.Flags -> Ship -> LegacyBootEvent
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-> RAcquire e (Serf e, EventLog, SerfState)
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booted pill lite flags ship boot = do
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seq@(BootSeq ident x y) <- rio $ generateBootSeq ship pill lite boot
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rio $ logTrace "BootSeq Computed"
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pierPath <- view pierPathL
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liftRIO (setupPierDirectory pierPath)
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rio $ logTrace "Directory Setup"
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log <- Log.new (pierPath <> "/.urb/log") ident
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rio $ logTrace "Event Log Initialized"
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serf <- Serf.run (Serf.Config pierPath flags)
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rio $ logTrace "Serf Started"
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rio $ do
(events, serfSt) <- Serf.bootFromSeq serf seq
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logTrace "Boot Sequence completed"
Serf.snapshot serf serfSt
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logTrace "Snapshot taken"
writeJobs log (fromList events)
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logTrace "Events written"
pure (serf, log, serfSt)
-- Resume an existing ship. ----------------------------------------------------
resumed :: (HasPierConfig e, HasLogFunc e)
=> Serf.Flags
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-> RAcquire e (Serf e, EventLog, SerfState)
resumed flags = do
top <- view pierPathL
log <- Log.existing (top <> "/.urb/log")
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serf <- Serf.run (Serf.Config top flags)
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serfSt <- rio $ Serf.replay serf log
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rio $ Serf.snapshot serf serfSt
pure (serf, log, serfSt)
-- Run Pier --------------------------------------------------------------------
acquireWorker :: RIO e () -> RAcquire e (Async ())
acquireWorker act = mkRAcquire (async act) cancel
pier :: e. (HasConfigDir e, HasLogFunc e, HasNetworkConfig e, HasPierConfig e)
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=> (Serf e, EventLog, SerfState)
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-> RAcquire e ()
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pier (serf, log, ss) = do
computeQ <- newTQueueIO
persistQ <- newTQueueIO
executeQ <- newTQueueIO
saveM <- newEmptyTMVarIO
shutdownM <- newEmptyTMVarIO
kapi King.kingAPI
termApiQ <- atomically $ do
q <- newTQueue
writeTVar (King.kTermConn kapi) (Just $ writeTQueue q)
pure q
let shutdownEvent = putTMVar shutdownM ()
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inst <- io (KingId . UV . fromIntegral <$> randomIO @Word16)
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-- (sz, local) <- Term.localClient
-- (waitExternalTerm, termServPort) <- Term.termServer
(demux, muxed) <- atomically $ do
res <- Term.mkDemux
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-- Term.addDemux local res
pure (res, Term.useDemux res)
-- rio $ logInfo $ display $
-- "TERMSERV Terminal Server running on port: " <> tshow termServPort
acquireWorker $ forever $ do
logTrace "TERMSERV Waiting for external terminal."
atomically $ do
ext <- Term.connClient <$> readTQueue termApiQ
Term.addDemux ext demux
logTrace "TERMSERV External terminal connected."
swapMVar (sStderr serf) (atomically . Term.trace muxed)
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let logId = Log.identity log
let ship = who logId
-- Our call above to set the logging function which echos errors from the
-- Serf doesn't have the appended \r\n because those \r\n s are added in
-- the c serf code. Logging output from our haskell process must manually
-- add them.
let showErr = atomically . Term.trace muxed . (flip append "\r\n")
let (bootEvents, startDrivers) =
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drivers inst ship (isFake logId)
(writeTQueue computeQ)
shutdownEvent
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(TSize.Window 80 24, muxed)
showErr
io $ atomically $ for_ bootEvents (writeTQueue computeQ)
tExe <- startDrivers >>= router (readTQueue executeQ)
tDisk <- runPersist log persistQ (writeTQueue executeQ)
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tCpu <- runCompute serf ss
(readTQueue computeQ)
(takeTMVar saveM)
(takeTMVar shutdownM)
(Term.spin muxed)
(Term.stopSpin muxed)
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(writeTQueue persistQ)
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tSaveSignal <- saveSignalThread saveM
-- Wait for something to die.
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let ded = asum [ death "effect thread" tExe
, death "persist thread" tDisk
, death "compute thread" tCpu
]
atomically ded >>= \case
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Left (txt, exn) -> logError $ displayShow ("Somthing died", txt, exn)
Right tag -> logError $ displayShow ("something simply exited", tag)
atomically $ (Term.spin muxed) (Just "shutdown")
death :: Text -> Async () -> STM (Either (Text, SomeException) Text)
death tag tid = do
waitCatchSTM tid <&> \case
Left exn -> Left (tag, exn)
Right () -> Right tag
saveSignalThread :: TMVar () -> RAcquire e (Async ())
saveSignalThread tm = mkRAcquire start cancel
where
start = async $ forever $ do
threadDelay (120 * 1000000) -- 120 seconds
atomically $ putTMVar tm ()
-- Start All Drivers -----------------------------------------------------------
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data Drivers e = Drivers
{ dAmes :: EffCb e AmesEf
, dBehn :: EffCb e BehnEf
, dHttpClient :: EffCb e HttpClientEf
, dHttpServer :: EffCb e HttpServerEf
, dNewt :: EffCb e NewtEf
, dSync :: EffCb e SyncEf
, dTerm :: EffCb e TermEf
}
drivers :: (HasLogFunc e, HasNetworkConfig e, HasPierConfig e)
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=> KingId -> Ship -> Bool -> (Ev -> STM ())
-> STM()
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-> (TSize.Window Word, Term.Client)
-> (Text -> RIO e ())
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-> ([Ev], RAcquire e (Drivers e))
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drivers inst who isFake plan shutdownSTM termSys stderr =
(initialEvents, runDrivers)
where
(behnBorn, runBehn) = behn inst plan
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(amesBorn, runAmes) = ames inst who isFake plan stderr
(httpBorn, runHttp) = serv inst plan isFake
(clayBorn, runClay) = clay inst plan
(irisBorn, runIris) = client inst plan
(termBorn, runTerm) = Term.term termSys shutdownSTM inst plan
initialEvents = mconcat [behnBorn, clayBorn, amesBorn, httpBorn,
termBorn, irisBorn]
runDrivers = do
dNewt <- runAmes
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dBehn <- liftAcquire $ runBehn
dAmes <- pure $ const $ pure ()
dHttpClient <- runIris
dHttpServer <- runHttp
dSync <- runClay
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dTerm <- runTerm
pure (Drivers{..})
-- Route Effects to Drivers ----------------------------------------------------
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router :: HasLogFunc e => STM FX -> Drivers e -> RAcquire e (Async ())
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router waitFx Drivers{..} =
mkRAcquire start cancel
where
start = async $ forever $ do
fx <- atomically waitFx
for_ fx $ \ef -> do
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logEffect ef
case ef of
GoodParse (EfVega _ _) -> error "TODO"
GoodParse (EfExit _ _) -> error "TODO"
GoodParse (EfVane (VEAmes ef)) -> dAmes ef
GoodParse (EfVane (VEBehn ef)) -> dBehn ef
GoodParse (EfVane (VEBoat ef)) -> dSync ef
GoodParse (EfVane (VEClay ef)) -> dSync ef
GoodParse (EfVane (VEHttpClient ef)) -> dHttpClient ef
GoodParse (EfVane (VEHttpServer ef)) -> dHttpServer ef
GoodParse (EfVane (VENewt ef)) -> dNewt ef
GoodParse (EfVane (VESync ef)) -> dSync ef
GoodParse (EfVane (VETerm ef)) -> dTerm ef
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FailParse n -> logError
$ display
$ pack @Text (ppShow n)
-- Compute Thread --------------------------------------------------------------
data ComputeRequest
= CREvent Ev
| CRSave ()
| CRShutdown ()
deriving (Eq, Show)
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logEvent :: HasLogFunc e => Ev -> RIO e ()
logEvent ev =
logDebug $ display $ "[EVENT]\n" <> pretty
where
pretty :: Text
pretty = pack $ unlines $ fmap ("\t" <>) $ lines $ ppShow ev
logEffect :: HasLogFunc e => Lenient Ef -> RIO e ()
logEffect ef =
logDebug $ display $ "[EFFECT]\n" <> pretty ef
where
pretty :: Lenient Ef -> Text
pretty = \case
GoodParse e -> pack $ unlines $ fmap ("\t" <>) $ lines $ ppShow e
FailParse n -> pack $ unlines $ fmap ("\t" <>) $ lines $ ppShow n
runCompute :: e. HasLogFunc e
=> Serf e
-> SerfState
-> STM Ev
-> STM ()
-> STM ()
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-> (Maybe Text -> STM ())
-> STM ()
-> ((Job, FX) -> STM ())
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-> RAcquire e (Async ())
runCompute serf ss getEvent getSaveSignal getShutdownSignal
showSpinner hideSpinner putResult =
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mkRAcquire (async (go ss)) cancel
where
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go :: SerfState -> RIO e ()
go ss = do
cr <- atomically $
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CRShutdown <$> getShutdownSignal <|>
CRSave <$> getSaveSignal <|>
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CREvent <$> getEvent
case cr of
CREvent ev -> do
logEvent ev
wen <- io Time.now
eId <- pure (ssNextEv ss)
mug <- pure (ssLastMug ss)
atomically $ showSpinner (getSpinnerNameForEvent ev)
(job', ss', fx) <- doJob serf $ DoWork $ Work eId mug wen ev
atomically $ hideSpinner
atomically (putResult (job', fx))
go ss'
CRSave () -> do
logDebug $ "Taking periodic snapshot"
Serf.snapshot serf ss
go ss
CRShutdown () -> do
-- When shutting down, we first request a snapshot, and then we
-- just exit this recursive processing, which will cause the serf
-- to exit from its RAcquire.
logDebug $ "Shutting down compute system..."
Serf.snapshot serf ss
pure ()
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-- Persist Thread --------------------------------------------------------------
data PersistExn = BadEventId EventId EventId
deriving Show
instance Exception PersistExn where
displayException (BadEventId expected got) =
unlines [ "Out-of-order event id send to persist thread."
, "\tExpected " <> show expected <> " but got " <> show got
]
runPersist :: e. (HasPierConfig e, HasLogFunc e)
=> EventLog
-> TQueue (Job, FX)
-> (FX -> STM ())
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-> RAcquire e (Async ())
runPersist log inpQ out =
mkRAcquire runThread cancel
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where
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runThread :: RIO e (Async ())
runThread = asyncBound $ do
dryRun <- view dryRunL
forever $ do
writs <- atomically getBatchFromQueue
unless dryRun $ do
events <- validateJobsAndGetBytes (toNullable writs)
Log.appendEvents log events
atomically $ for_ writs $ \(_,fx) -> out fx
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validateJobsAndGetBytes :: [(Job, FX)] -> RIO e (Vector ByteString)
validateJobsAndGetBytes writs = do
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expect <- Log.nextEv log
fmap fromList
$ for (zip [expect..] writs)
$ \(expectedId, (j, fx)) -> do
unless (expectedId == jobId j) $
throwIO (BadEventId expectedId (jobId j))
case j of
RunNok _ ->
error "This shouldn't happen here!"
DoWork (Work eId mug wen ev) ->
pure $ jamBS $ toNoun (mug, wen, ev)
getBatchFromQueue :: STM (NonNull [(Job, FX)])
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getBatchFromQueue =
readTQueue inpQ >>= go . singleton
where
go acc =
tryReadTQueue inpQ >>= \case
Nothing -> pure (reverse acc)
Just item -> go (item <| acc)