shrub/pkg/king/app/Main.hs

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{-
# Booting a Ship
- TODO Don't just boot, also run the ship (unless `-x` is set).
- TODO Figure out why ships booted by us don't work.
# Event Pruning
- `king discard-events NUM_EVENTS`: Delete the last `n` events from
the event log.
- `king discard-events-interactive`: Iterate through the events in
the event log, from last to first, pretty-print each event, and
ask if it should be pruned.
# `-L` -- Local-Only Networking
Localhost-only networking, even on real ships.
# `-O` -- Networking Disabled
Run networking drivers, but configure them to never send any packages
and to never open any ports.
# `-N` -- Dry Run
Disable all persistence and use no-op networking.
# `-x` -- Exit Immediately
When creating a new ship, or booting an existing one, simply get to
a good state, snapshot, and then exit. Don't do anything that has
any effect on the outside world, just boot or catch the snapshot up
to the event log.
# Implement subcommands to test event and effect parsing.
- `king * --collect-fx`: All effects that come from the serf get
written into the `effects` LMDB database.
- `king clear-fx PIER`: Deletes all collected effects.
- `king full-replay PIER`: Replays the whole event log events, print
any failures. On success, replace the snapshot.
# Full Replay -- An Integration Test
- Copy the event log:
- Create a new event log at the destination.
- Stream events from the first event log.
- Parse each event.
- Re-Serialize each event.
- Verify that the round-trip was successful.
- Write the event into the new database.
- Replay the event log at the destination.
- If `--collect-fx` is set, then record effects as well.
- Snapshot.
- Verify that the final mug is the same as it was before.
# Implement Remaining Serf Flags
- `DebugRam`: Memory debugging.
- `DebugCpu`: Profiling
- `CheckCorrupt`: Heap Corruption Tests
- `CheckFatal`: TODO What is this?
- `Verbose`: TODO Just the `-v` flag?
- `DryRun`: TODO Just the `-N` flag?
- `Quiet`: TODO Just the `-q` flag?
- `Hashless`: Don't use hashboard for jets.
- `Trace`: TODO What does this do?
-}
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module Main (main) where
import UrbitPrelude
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import Arvo
import Data.Acquire
import Data.Conduit
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import Data.Conduit.List hiding (replicate, take)
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import Data.RAcquire
import Noun hiding (Parser)
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import Noun.Atom
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import RIO.Directory
import Vere.Pier
import Vere.Pier.Types
import Vere.Serf
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import Control.Concurrent (myThreadId, runInBoundThread)
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import Control.Exception (AsyncException(UserInterrupt))
import Control.Lens ((&))
import Data.Default (def)
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import KingApp (runApp)
import System.Environment (getProgName)
import System.Posix.Signals (Handler(Catch), installHandler, sigTERM)
import Text.Show.Pretty (pPrint)
import Urbit.Time (Wen)
import Vere.Dawn
import Vere.LockFile (lockFile)
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import qualified CLI as CLI
import qualified Data.Set as Set
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import qualified Data.Text as T
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import qualified EventBrowser as EventBrowser
import qualified System.IO.LockFile.Internal as Lock
import qualified Vere.Log as Log
import qualified Vere.Pier as Pier
import qualified Vere.Serf as Serf
import qualified Vere.Term as Term
--------------------------------------------------------------------------------
zod :: Ship
zod = 0
--------------------------------------------------------------------------------
removeFileIfExists :: HasLogFunc env => FilePath -> RIO env ()
removeFileIfExists pax = do
exists <- doesFileExist pax
when exists $ do
removeFile pax
--------------------------------------------------------------------------------
tryBootFromPill :: HasLogFunc e => FilePath -> FilePath -> Ship -> RIO e ()
tryBootFromPill pillPath shipPath ship = do
rwith bootedPier $ \(serf, log, ss) -> do
logTrace "Booting"
logTrace $ displayShow ss
io $ threadDelay 500000
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ss <- shutdown serf 0
logTrace $ displayShow ss
logTrace "Booted!"
where
bootedPier = do
lockFile shipPath
Pier.booted pillPath shipPath [] ship
runAcquire :: (MonadUnliftIO m, MonadIO m)
=> Acquire a -> m a
runAcquire act = with act pure
runRAcquire :: (MonadUnliftIO (m e), MonadIO (m e), MonadReader e (m e))
=> RAcquire e a -> m e a
runRAcquire act = rwith act pure
tryPlayShip :: HasLogFunc e => FilePath -> RIO e ()
tryPlayShip shipPath = do
runRAcquire $ do
lockFile shipPath
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rio $ logTrace "RESUMING SHIP"
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sls <- Pier.resumed shipPath []
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rio $ logTrace "SHIP RESUMED"
Pier.pier shipPath Nothing sls
tryResume :: HasLogFunc e => FilePath -> RIO e ()
tryResume shipPath = do
rwith resumedPier $ \(serf, log, ss) -> do
logTrace (displayShow ss)
threadDelay 500000
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ss <- shutdown serf 0
logTrace (displayShow ss)
logTrace "Resumed!"
where
resumedPier = do
lockFile shipPath
Pier.resumed shipPath []
tryFullReplay :: HasLogFunc e => FilePath -> RIO e ()
tryFullReplay shipPath = do
wipeSnapshot
tryResume shipPath
where
wipeSnapshot = do
logTrace "wipeSnapshot"
logDebug $ display $ pack @Text ("Wiping " <> north)
logDebug $ display $ pack @Text ("Wiping " <> south)
removeFileIfExists north
removeFileIfExists south
north = shipPath <> "/.urb/chk/north.bin"
south = shipPath <> "/.urb/chk/south.bin"
--------------------------------------------------------------------------------
checkEvs :: forall e. HasLogFunc e => FilePath -> Word64 -> Word64 -> RIO e ()
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checkEvs pierPath first last = do
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rwith (Log.existing logPath) $ \log -> do
let ident = Log.identity log
logTrace (displayShow ident)
runConduit $ Log.streamEvents log first
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.| showEvents first (fromIntegral $ lifecycleLen ident)
where
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logPath :: FilePath
logPath = pierPath <> "/.urb/log"
showEvents :: EventId -> EventId -> ConduitT ByteString Void (RIO e) ()
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showEvents eId _ | eId > last = pure ()
showEvents eId cycle =
await >>= \case
Nothing -> lift $ logTrace "Everything checks out."
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Just bs -> do
lift $ do
n <- io $ cueBSExn bs
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when (eId > cycle) $ do
(mug, wen, evNoun) <- unpackJob n
fromNounErr evNoun &
either (logError . displayShow) pure
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showEvents (succ eId) cycle
unpackJob :: Noun -> RIO e (Mug, Wen, Noun)
unpackJob = io . fromNounExn
--------------------------------------------------------------------------------
{-
This runs the serf at `$top/.tmpdir`, but we disable snapshots,
so this should never actually be created. We just do this to avoid
letting the serf use an existing snapshot.
-}
collectAllFx :: e. HasLogFunc e => FilePath -> RIO e ()
collectAllFx top = do
logTrace $ display $ pack @Text top
rwith collectedFX $ \() ->
logTrace "Done collecting effects!"
where
tmpDir :: FilePath
tmpDir = top <> "/.tmpdir"
collectedFX :: RAcquire e ()
collectedFX = do
lockFile top
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log <- Log.existing (top <> "/.urb/log")
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serf <- Serf.run (Serf.Config tmpDir serfFlags)
rio $ Serf.collectFX serf log
serfFlags :: Serf.Flags
serfFlags = [Serf.Hashless, Serf.DryRun]
--------------------------------------------------------------------------------
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{-
Interesting
-}
testPill :: HasLogFunc e => FilePath -> Bool -> Bool -> RIO e ()
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testPill pax showPil showSeq = do
putStrLn "Reading pill file."
pillBytes <- readFile pax
putStrLn "Cueing pill file."
pillNoun <- io $ cueBS pillBytes & either throwIO pure
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putStrLn "Parsing pill file."
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pill <- fromNounErr pillNoun & either (throwIO . uncurry ParseErr) pure
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putStrLn "Using pill to generate boot sequence."
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bootSeq <- generateBootSeq zod pill
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putStrLn "Validate jam/cue and toNoun/fromNoun on pill value"
reJam <- validateNounVal pill
putStrLn "Checking if round-trip matches input file:"
unless (reJam == pillBytes) $ do
putStrLn " Our jam does not match the file...\n"
putStrLn " This is surprising, but it is probably okay."
when showPil $ do
putStrLn "\n\n== Pill ==\n"
io $ pPrint pill
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when showSeq $ do
putStrLn "\n\n== Boot Sequence ==\n"
io $ pPrint bootSeq
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validateNounVal :: (HasLogFunc e, Eq a, ToNoun a, FromNoun a)
=> a -> RIO e ByteString
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validateNounVal inpVal = do
putStrLn " jam"
inpByt <- evaluate $ jamBS $ toNoun inpVal
putStrLn " cue"
outNon <- cueBS inpByt & either throwIO pure
putStrLn " fromNoun"
outVal <- fromNounErr outNon & either (throwIO . uncurry ParseErr) pure
putStrLn " toNoun"
outNon <- evaluate (toNoun outVal)
putStrLn " jam"
outByt <- evaluate $ jamBS outNon
putStrLn "Checking if: x == cue (jam x)"
unless (inpVal == outVal) $
error "Value fails test: x == cue (jam x)"
putStrLn "Checking if: jam x == jam (cue (jam x))"
unless (inpByt == outByt) $
error "Value fails test: jam x == jam (cue (jam x))"
pure outByt
--------------------------------------------------------------------------------
newShip :: HasLogFunc e => CLI.New -> CLI.Opts -> RIO e ()
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newShip CLI.New{..} _ = do
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tryBootFromPill nPillPath pierPath (Ship 0)
where
pierPath = fromMaybe ("./" <> unpack nShipAddr) nPierPath
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runShip :: HasLogFunc e => CLI.Run -> CLI.Opts -> RIO e ()
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runShip (CLI.Run pierPath) _ = tryPlayShip pierPath
startBrowser :: HasLogFunc e => FilePath -> RIO e ()
startBrowser pierPath = runRAcquire $ do
lockFile pierPath
log <- Log.existing (pierPath <> "/.urb/log")
rio $ EventBrowser.run log
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cordToUW :: Cord -> Maybe UW
cordToUW = fromNoun . toNoun
checkDawn :: HasLogFunc e => FilePath -> RIO e ()
checkDawn keyfilePath = do
-- The keyfile is a jammed Seed then rendered in UW format
text <- readFileUtf8 keyfilePath
asAtom <- case cordToUW (Cord $ T.strip text) of
Nothing -> error "Couldn't parse keyfile. Hint: keyfiles start with 0w?"
Just (UW a) -> pure a
asNoun <- cueExn asAtom
seed :: Seed <- case fromNoun asNoun of
Nothing -> error "Keyfile does not seem to contain a seed."
Just s -> pure s
print $ show seed
e <- dawnVent seed
case e of
Left x -> putStrLn "Left"
Right y -> putStrLn "Right"
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main :: IO ()
main = do
mainTid <- myThreadId
let onTermSig = throwTo mainTid UserInterrupt
installHandler sigTERM (Catch onTermSig) Nothing
CLI.parseArgs >>= runApp . \case
CLI.CmdRun r o -> runShip r o
CLI.CmdNew n o -> newShip n o
CLI.CmdBug (CLI.CollectAllFX pax) -> collectAllFx pax
CLI.CmdBug (CLI.EventBrowser pax) -> startBrowser pax
CLI.CmdBug (CLI.ValidatePill pax pil seq) -> testPill pax pil seq
CLI.CmdBug (CLI.ValidateEvents pax f l) -> checkEvs pax f l
CLI.CmdBug (CLI.ValidateFX pax f l) -> checkFx pax f l
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CLI.CmdBug (CLI.CheckDawn pax) -> checkDawn pax
CLI.CmdCon port -> connTerm port
--------------------------------------------------------------------------------
connTerm :: e. HasLogFunc e => Word16 -> RIO e ()
connTerm port =
Term.runTerminalClient (fromIntegral port)
--------------------------------------------------------------------------------
checkFx :: HasLogFunc e
=> FilePath -> Word64 -> Word64 -> RIO e ()
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checkFx pierPath first last =
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rwith (Log.existing logPath) $ \log ->
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runConduit $ streamFX log first last
.| tryParseFXStream
where
logPath = pierPath <> "/.urb/log"
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streamFX :: HasLogFunc e
=> Log.EventLog -> Word64 -> Word64
-> ConduitT () ByteString (RIO e) ()
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streamFX log first last = do
Log.streamEffectsRows log first .| loop
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where
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loop = await >>= \case Nothing -> pure ()
Just (eId, bs) | eId > last -> pure ()
Just (eId, bs) -> yield bs >> loop
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tryParseFXStream :: HasLogFunc e => ConduitT ByteString Void (RIO e) ()
tryParseFXStream = loop
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where
loop = await >>= \case
Nothing -> pure ()
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Just bs -> do
n <- liftIO (cueBSExn bs)
fromNounErr n & either (logError . displayShow) pure
loop
{-
tryCopyLog :: IO ()
tryCopyLog = do
let logPath = "/Users/erg/src/urbit/zod/.urb/falselog/"
falselogPath = "/Users/erg/src/urbit/zod/.urb/falselog2/"
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persistQ <- newTQueueIO
releaseQ <- newTQueueIO
(ident, nextEv, events) <-
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with (do { log <- Log.existing logPath
; Pier.runPersist log persistQ (writeTQueue releaseQ)
; pure log
})
\log -> do
ident <- pure $ Log.identity log
events <- runConduit (Log.streamEvents log 1 .| consume)
nextEv <- Log.nextEv log
pure (ident, nextEv, events)
print ident
print nextEv
print (length events)
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persistQ2 <- newTQueueIO
releaseQ2 <- newTQueueIO
with (do { log <- Log.new falselogPath ident
; Pier.runPersist log persistQ2 (writeTQueue releaseQ2)
; pure log
})
$ \log2 -> do
let writs = zip [1..] events <&> \(id, a) ->
(Writ id Nothing a, [])
print "About to write"
for_ writs $ \w ->
atomically (writeTQueue persistQ2 w)
print "About to wait"
replicateM_ 100 $ do
atomically $ readTQueue releaseQ2
print "Done"
-}