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|
{-# LANGUAGE GADTs, DeriveGeneric, StandaloneDeriving, ScopedTypeVariables,
GeneralizedNewtypeDeriving, ExistentialQuantification, RecordWildCards #-}
{-# OPTIONS_GHC -fno-warn-name-shadowing -fno-warn-orphans #-}
-- |
-- Remote GHCi message types and serialization.
--
-- For details on Remote GHCi, see Note [Remote GHCi] in
-- compiler/GHC/Runtime/Interpreter.hs.
--
module GHCi.Message
( Message(..), Msg(..)
, THMessage(..), THMsg(..)
, QResult(..)
, EvalStatus_(..), EvalStatus, EvalResult(..), EvalOpts(..), EvalExpr(..)
, SerializableException(..)
, toSerializableException, fromSerializableException
, THResult(..), THResultType(..)
, ResumeContext(..)
, QState(..)
, getMessage, putMessage, getTHMessage, putTHMessage
, Pipe(..), remoteCall, remoteTHCall, readPipe, writePipe
) where
import Prelude -- See note [Why do we import Prelude here?]
import GHCi.RemoteTypes
import GHCi.FFI
import GHCi.TH.Binary () -- For Binary instances
import GHCi.BreakArray
import GHC.LanguageExtensions
import GHC.Exts.Heap
import GHC.ForeignSrcLang
import GHC.Fingerprint
import Control.Concurrent
import Control.Exception
import Data.Binary
import Data.Binary.Get
import Data.Binary.Put
import Data.ByteString (ByteString)
import qualified Data.ByteString as B
import qualified Data.ByteString.Lazy as LB
import Data.Dynamic
import Data.Typeable (TypeRep)
import Data.IORef
import Data.Map (Map)
import Foreign
import GHC.Generics
import GHC.Stack.CCS
import qualified Language.Haskell.TH as TH
import qualified Language.Haskell.TH.Syntax as TH
import System.Exit
import System.IO
import System.IO.Error
-- -----------------------------------------------------------------------------
-- The RPC protocol between GHC and the interactive server
-- | A @Message a@ is a message that returns a value of type @a@.
-- These are requests sent from GHC to the server.
data Message a where
-- | Exit the iserv process
Shutdown :: Message ()
RtsRevertCAFs :: Message ()
-- RTS Linker -------------------------------------------
-- These all invoke the corresponding functions in the RTS Linker API.
InitLinker :: Message ()
LookupSymbol :: String -> Message (Maybe (RemotePtr ()))
LookupClosure :: String -> Message (Maybe HValueRef)
LoadDLL :: String -> Message (Maybe String)
LoadArchive :: String -> Message () -- error?
LoadObj :: String -> Message () -- error?
UnloadObj :: String -> Message () -- error?
AddLibrarySearchPath :: String -> Message (RemotePtr ())
RemoveLibrarySearchPath :: RemotePtr () -> Message Bool
ResolveObjs :: Message Bool
FindSystemLibrary :: String -> Message (Maybe String)
-- Interpreter -------------------------------------------
-- | Create a set of BCO objects, and return HValueRefs to them
-- Note: Each ByteString contains a Binary-encoded [ResolvedBCO], not
-- a ResolvedBCO. The list is to allow us to serialise the ResolvedBCOs
-- in parallel. See @createBCOs@ in compiler/GHC/Runtime/Interpreter.hs.
CreateBCOs :: [LB.ByteString] -> Message [HValueRef]
-- | Release 'HValueRef's
FreeHValueRefs :: [HValueRef] -> Message ()
-- | Add entries to the Static Pointer Table
AddSptEntry :: Fingerprint -> HValueRef -> Message ()
-- | Malloc some data and return a 'RemotePtr' to it
MallocData :: ByteString -> Message (RemotePtr ())
MallocStrings :: [ByteString] -> Message [RemotePtr ()]
-- | Calls 'GHCi.FFI.prepareForeignCall'
PrepFFI :: FFIConv -> [FFIType] -> FFIType -> Message (RemotePtr C_ffi_cif)
-- | Free data previously created by 'PrepFFI'
FreeFFI :: RemotePtr C_ffi_cif -> Message ()
-- | Create an info table for a constructor
MkConInfoTable
:: Bool -- TABLES_NEXT_TO_CODE
-> Int -- ptr words
-> Int -- non-ptr words
-> Int -- constr tag
-> Int -- pointer tag
-> ByteString -- constructor desccription
-> Message (RemotePtr StgInfoTable)
-- | Evaluate a statement
EvalStmt
:: EvalOpts
-> EvalExpr HValueRef {- IO [a] -}
-> Message (EvalStatus [HValueRef]) {- [a] -}
-- | Resume evaluation of a statement after a breakpoint
ResumeStmt
:: EvalOpts
-> RemoteRef (ResumeContext [HValueRef])
-> Message (EvalStatus [HValueRef])
-- | Abandon evaluation of a statement after a breakpoint
AbandonStmt
:: RemoteRef (ResumeContext [HValueRef])
-> Message ()
-- | Evaluate something of type @IO String@
EvalString
:: HValueRef {- IO String -}
-> Message (EvalResult String)
-- | Evaluate something of type @String -> IO String@
EvalStringToString
:: HValueRef {- String -> IO String -}
-> String
-> Message (EvalResult String)
-- | Evaluate something of type @IO ()@
EvalIO
:: HValueRef {- IO a -}
-> Message (EvalResult ())
-- | Create a set of CostCentres with the same module name
MkCostCentres
:: String -- module, RemotePtr so it can be shared
-> [(String,String)] -- (name, SrcSpan)
-> Message [RemotePtr CostCentre]
-- | Show a 'CostCentreStack' as a @[String]@
CostCentreStackInfo
:: RemotePtr CostCentreStack
-> Message [String]
-- | Create a new array of breakpoint flags
NewBreakArray
:: Int -- size
-> Message (RemoteRef BreakArray)
-- | Enable a breakpoint
EnableBreakpoint
:: RemoteRef BreakArray
-> Int -- index
-> Bool -- on or off
-> Message ()
-- | Query the status of a breakpoint (True <=> enabled)
BreakpointStatus
:: RemoteRef BreakArray
-> Int -- index
-> Message Bool -- True <=> enabled
-- | Get a reference to a free variable at a breakpoint
GetBreakpointVar
:: HValueRef -- the AP_STACK from EvalBreak
-> Int
-> Message (Maybe HValueRef)
-- Template Haskell -------------------------------------------
-- For more details on how TH works with Remote GHCi, see
-- Note [Remote Template Haskell] in libraries/ghci/GHCi/TH.hs.
-- | Start a new TH module, return a state token that should be
StartTH :: Message (RemoteRef (IORef QState))
-- | Evaluate a TH computation.
--
-- Returns a ByteString, because we have to force the result
-- before returning it to ensure there are no errors lurking
-- in it. The TH types don't have NFData instances, and even if
-- they did, we have to serialize the value anyway, so we might
-- as well serialize it to force it.
RunTH
:: RemoteRef (IORef QState)
-> HValueRef {- e.g. TH.Q TH.Exp -}
-> THResultType
-> Maybe TH.Loc
-> Message (QResult ByteString)
-- | Run the given mod finalizers.
RunModFinalizers :: RemoteRef (IORef QState)
-> [RemoteRef (TH.Q ())]
-> Message (QResult ())
-- | Remote interface to GHC.Exts.Heap.getClosureData. This is used by
-- the GHCi debugger to inspect values in the heap for :print and
-- type reconstruction.
GetClosure
:: HValueRef
-> Message (GenClosure HValueRef)
-- | Evaluate something. This is used to support :force in GHCi.
Seq
:: HValueRef
-> Message (EvalStatus ())
-- | Resume forcing a free variable in a breakpoint (#2950)
ResumeSeq
:: RemoteRef (ResumeContext ())
-> Message (EvalStatus ())
deriving instance Show (Message a)
-- | Template Haskell return values
data QResult a
= QDone a
-- ^ RunTH finished successfully; return value follows
| QException String
-- ^ RunTH threw an exception
| QFail String
-- ^ RunTH called 'fail'
deriving (Generic, Show)
instance Binary a => Binary (QResult a)
-- | Messages sent back to GHC from GHCi.TH, to implement the methods
-- of 'Quasi'. For an overview of how TH works with Remote GHCi, see
-- Note [Remote Template Haskell] in GHCi.TH.
data THMessage a where
NewName :: String -> THMessage (THResult TH.Name)
Report :: Bool -> String -> THMessage (THResult ())
LookupName :: Bool -> String -> THMessage (THResult (Maybe TH.Name))
Reify :: TH.Name -> THMessage (THResult TH.Info)
ReifyFixity :: TH.Name -> THMessage (THResult (Maybe TH.Fixity))
ReifyType :: TH.Name -> THMessage (THResult TH.Type)
ReifyInstances :: TH.Name -> [TH.Type] -> THMessage (THResult [TH.Dec])
ReifyRoles :: TH.Name -> THMessage (THResult [TH.Role])
ReifyAnnotations :: TH.AnnLookup -> TypeRep
-> THMessage (THResult [ByteString])
ReifyModule :: TH.Module -> THMessage (THResult TH.ModuleInfo)
ReifyConStrictness :: TH.Name -> THMessage (THResult [TH.DecidedStrictness])
AddDependentFile :: FilePath -> THMessage (THResult ())
AddTempFile :: String -> THMessage (THResult FilePath)
AddModFinalizer :: RemoteRef (TH.Q ()) -> THMessage (THResult ())
AddCorePlugin :: String -> THMessage (THResult ())
AddTopDecls :: [TH.Dec] -> THMessage (THResult ())
AddForeignFilePath :: ForeignSrcLang -> FilePath -> THMessage (THResult ())
IsExtEnabled :: Extension -> THMessage (THResult Bool)
ExtsEnabled :: THMessage (THResult [Extension])
StartRecover :: THMessage ()
EndRecover :: Bool -> THMessage ()
FailIfErrs :: THMessage (THResult ())
-- | Indicates that this RunTH is finished, and the next message
-- will be the result of RunTH (a QResult).
RunTHDone :: THMessage ()
deriving instance Show (THMessage a)
data THMsg = forall a . (Binary a, Show a) => THMsg (THMessage a)
getTHMessage :: Get THMsg
getTHMessage = do
b <- getWord8
case b of
0 -> THMsg <$> NewName <$> get
1 -> THMsg <$> (Report <$> get <*> get)
2 -> THMsg <$> (LookupName <$> get <*> get)
3 -> THMsg <$> Reify <$> get
4 -> THMsg <$> ReifyFixity <$> get
5 -> THMsg <$> (ReifyInstances <$> get <*> get)
6 -> THMsg <$> ReifyRoles <$> get
7 -> THMsg <$> (ReifyAnnotations <$> get <*> get)
8 -> THMsg <$> ReifyModule <$> get
9 -> THMsg <$> ReifyConStrictness <$> get
10 -> THMsg <$> AddDependentFile <$> get
11 -> THMsg <$> AddTempFile <$> get
12 -> THMsg <$> AddTopDecls <$> get
13 -> THMsg <$> (IsExtEnabled <$> get)
14 -> THMsg <$> return ExtsEnabled
15 -> THMsg <$> return StartRecover
16 -> THMsg <$> EndRecover <$> get
17 -> THMsg <$> return FailIfErrs
18 -> return (THMsg RunTHDone)
19 -> THMsg <$> AddModFinalizer <$> get
20 -> THMsg <$> (AddForeignFilePath <$> get <*> get)
21 -> THMsg <$> AddCorePlugin <$> get
22 -> THMsg <$> ReifyType <$> get
n -> error ("getTHMessage: unknown message " ++ show n)
putTHMessage :: THMessage a -> Put
putTHMessage m = case m of
NewName a -> putWord8 0 >> put a
Report a b -> putWord8 1 >> put a >> put b
LookupName a b -> putWord8 2 >> put a >> put b
Reify a -> putWord8 3 >> put a
ReifyFixity a -> putWord8 4 >> put a
ReifyInstances a b -> putWord8 5 >> put a >> put b
ReifyRoles a -> putWord8 6 >> put a
ReifyAnnotations a b -> putWord8 7 >> put a >> put b
ReifyModule a -> putWord8 8 >> put a
ReifyConStrictness a -> putWord8 9 >> put a
AddDependentFile a -> putWord8 10 >> put a
AddTempFile a -> putWord8 11 >> put a
AddTopDecls a -> putWord8 12 >> put a
IsExtEnabled a -> putWord8 13 >> put a
ExtsEnabled -> putWord8 14
StartRecover -> putWord8 15
EndRecover a -> putWord8 16 >> put a
FailIfErrs -> putWord8 17
RunTHDone -> putWord8 18
AddModFinalizer a -> putWord8 19 >> put a
AddForeignFilePath lang a -> putWord8 20 >> put lang >> put a
AddCorePlugin a -> putWord8 21 >> put a
ReifyType a -> putWord8 22 >> put a
data EvalOpts = EvalOpts
{ useSandboxThread :: Bool
, singleStep :: Bool
, breakOnException :: Bool
, breakOnError :: Bool
}
deriving (Generic, Show)
instance Binary EvalOpts
data ResumeContext a = ResumeContext
{ resumeBreakMVar :: MVar ()
, resumeStatusMVar :: MVar (EvalStatus a)
, resumeThreadId :: ThreadId
}
-- | We can pass simple expressions to EvalStmt, consisting of values
-- and application. This allows us to wrap the statement to be
-- executed in another function, which is used by GHCi to implement
-- :set args and :set prog. It might be worthwhile to extend this
-- little language in the future.
data EvalExpr a
= EvalThis a
| EvalApp (EvalExpr a) (EvalExpr a)
deriving (Generic, Show)
instance Binary a => Binary (EvalExpr a)
type EvalStatus a = EvalStatus_ a a
data EvalStatus_ a b
= EvalComplete Word64 (EvalResult a)
| EvalBreak Bool
HValueRef{- AP_STACK -}
Int {- break index -}
Int {- uniq of ModuleName -}
(RemoteRef (ResumeContext b))
(RemotePtr CostCentreStack) -- Cost centre stack
deriving (Generic, Show)
instance Binary a => Binary (EvalStatus_ a b)
data EvalResult a
= EvalException SerializableException
| EvalSuccess a
deriving (Generic, Show)
instance Binary a => Binary (EvalResult a)
-- SomeException can't be serialized because it contains dynamic
-- types. However, we do very limited things with the exceptions that
-- are thrown by interpreted computations:
--
-- * We print them, e.g. "*** Exception: <something>"
-- * UserInterrupt has a special meaning
-- * In ghc -e, exitWith should exit with the appropriate exit code
--
-- So all we need to do is distinguish UserInterrupt and ExitCode, and
-- all other exceptions can be represented by their 'show' string.
--
data SerializableException
= EUserInterrupt
| EExitCode ExitCode
| EOtherException String
deriving (Generic, Show)
toSerializableException :: SomeException -> SerializableException
toSerializableException ex
| Just UserInterrupt <- fromException ex = EUserInterrupt
| Just (ec::ExitCode) <- fromException ex = (EExitCode ec)
| otherwise = EOtherException (show (ex :: SomeException))
fromSerializableException :: SerializableException -> SomeException
fromSerializableException EUserInterrupt = toException UserInterrupt
fromSerializableException (EExitCode c) = toException c
fromSerializableException (EOtherException str) = toException (ErrorCall str)
instance Binary ExitCode
instance Binary SerializableException
data THResult a
= THException String
| THComplete a
deriving (Generic, Show)
instance Binary a => Binary (THResult a)
data THResultType = THExp | THPat | THType | THDec | THAnnWrapper
deriving (Enum, Show, Generic)
instance Binary THResultType
-- | The server-side Template Haskell state. This is created by the
-- StartTH message. A new one is created per module that GHC
-- typechecks.
data QState = QState
{ qsMap :: Map TypeRep Dynamic
-- ^ persistent data between splices in a module
, qsLocation :: Maybe TH.Loc
-- ^ location for current splice, if any
, qsPipe :: Pipe
-- ^ pipe to communicate with GHC
}
instance Show QState where show _ = "<QState>"
-- Orphan instances of Binary for Ptr / FunPtr by conversion to Word64.
-- This is to support Binary StgInfoTable which includes these.
instance Binary (Ptr a) where
put p = put (fromIntegral (ptrToWordPtr p) :: Word64)
get = (wordPtrToPtr . fromIntegral) <$> (get :: Get Word64)
instance Binary (FunPtr a) where
put = put . castFunPtrToPtr
get = castPtrToFunPtr <$> get
-- Binary instances to support the GetClosure message
instance Binary StgInfoTable
instance Binary ClosureType
instance Binary PrimType
instance Binary a => Binary (GenClosure a)
data Msg = forall a . (Binary a, Show a) => Msg (Message a)
getMessage :: Get Msg
getMessage = do
b <- getWord8
case b of
0 -> Msg <$> return Shutdown
1 -> Msg <$> return InitLinker
2 -> Msg <$> LookupSymbol <$> get
3 -> Msg <$> LookupClosure <$> get
4 -> Msg <$> LoadDLL <$> get
5 -> Msg <$> LoadArchive <$> get
6 -> Msg <$> LoadObj <$> get
7 -> Msg <$> UnloadObj <$> get
8 -> Msg <$> AddLibrarySearchPath <$> get
9 -> Msg <$> RemoveLibrarySearchPath <$> get
10 -> Msg <$> return ResolveObjs
11 -> Msg <$> FindSystemLibrary <$> get
12 -> Msg <$> CreateBCOs <$> get
13 -> Msg <$> FreeHValueRefs <$> get
14 -> Msg <$> MallocData <$> get
15 -> Msg <$> MallocStrings <$> get
16 -> Msg <$> (PrepFFI <$> get <*> get <*> get)
17 -> Msg <$> FreeFFI <$> get
18 -> Msg <$> (MkConInfoTable <$> get <*> get <*> get <*> get <*> get <*> get)
19 -> Msg <$> (EvalStmt <$> get <*> get)
20 -> Msg <$> (ResumeStmt <$> get <*> get)
21 -> Msg <$> (AbandonStmt <$> get)
22 -> Msg <$> (EvalString <$> get)
23 -> Msg <$> (EvalStringToString <$> get <*> get)
24 -> Msg <$> (EvalIO <$> get)
25 -> Msg <$> (MkCostCentres <$> get <*> get)
26 -> Msg <$> (CostCentreStackInfo <$> get)
27 -> Msg <$> (NewBreakArray <$> get)
28 -> Msg <$> (EnableBreakpoint <$> get <*> get <*> get)
29 -> Msg <$> (BreakpointStatus <$> get <*> get)
30 -> Msg <$> (GetBreakpointVar <$> get <*> get)
31 -> Msg <$> return StartTH
32 -> Msg <$> (RunModFinalizers <$> get <*> get)
33 -> Msg <$> (AddSptEntry <$> get <*> get)
34 -> Msg <$> (RunTH <$> get <*> get <*> get <*> get)
35 -> Msg <$> (GetClosure <$> get)
36 -> Msg <$> (Seq <$> get)
37 -> Msg <$> return RtsRevertCAFs
38 -> Msg <$> (ResumeSeq <$> get)
_ -> error $ "Unknown Message code " ++ (show b)
putMessage :: Message a -> Put
putMessage m = case m of
Shutdown -> putWord8 0
InitLinker -> putWord8 1
LookupSymbol str -> putWord8 2 >> put str
LookupClosure str -> putWord8 3 >> put str
LoadDLL str -> putWord8 4 >> put str
LoadArchive str -> putWord8 5 >> put str
LoadObj str -> putWord8 6 >> put str
UnloadObj str -> putWord8 7 >> put str
AddLibrarySearchPath str -> putWord8 8 >> put str
RemoveLibrarySearchPath ptr -> putWord8 9 >> put ptr
ResolveObjs -> putWord8 10
FindSystemLibrary str -> putWord8 11 >> put str
CreateBCOs bco -> putWord8 12 >> put bco
FreeHValueRefs val -> putWord8 13 >> put val
MallocData bs -> putWord8 14 >> put bs
MallocStrings bss -> putWord8 15 >> put bss
PrepFFI conv args res -> putWord8 16 >> put conv >> put args >> put res
FreeFFI p -> putWord8 17 >> put p
MkConInfoTable tc p n t pt d -> putWord8 18 >> put tc >> put p >> put n >> put t >> put pt >> put d
EvalStmt opts val -> putWord8 19 >> put opts >> put val
ResumeStmt opts val -> putWord8 20 >> put opts >> put val
AbandonStmt val -> putWord8 21 >> put val
EvalString val -> putWord8 22 >> put val
EvalStringToString str val -> putWord8 23 >> put str >> put val
EvalIO val -> putWord8 24 >> put val
MkCostCentres mod ccs -> putWord8 25 >> put mod >> put ccs
CostCentreStackInfo ptr -> putWord8 26 >> put ptr
NewBreakArray sz -> putWord8 27 >> put sz
EnableBreakpoint arr ix b -> putWord8 28 >> put arr >> put ix >> put b
BreakpointStatus arr ix -> putWord8 29 >> put arr >> put ix
GetBreakpointVar a b -> putWord8 30 >> put a >> put b
StartTH -> putWord8 31
RunModFinalizers a b -> putWord8 32 >> put a >> put b
AddSptEntry a b -> putWord8 33 >> put a >> put b
RunTH st q loc ty -> putWord8 34 >> put st >> put q >> put loc >> put ty
GetClosure a -> putWord8 35 >> put a
Seq a -> putWord8 36 >> put a
RtsRevertCAFs -> putWord8 37
ResumeSeq a -> putWord8 38 >> put a
-- -----------------------------------------------------------------------------
-- Reading/writing messages
data Pipe = Pipe
{ pipeRead :: Handle
, pipeWrite :: Handle
, pipeLeftovers :: IORef (Maybe ByteString)
}
remoteCall :: Binary a => Pipe -> Message a -> IO a
remoteCall pipe msg = do
writePipe pipe (putMessage msg)
readPipe pipe get
remoteTHCall :: Binary a => Pipe -> THMessage a -> IO a
remoteTHCall pipe msg = do
writePipe pipe (putTHMessage msg)
readPipe pipe get
writePipe :: Pipe -> Put -> IO ()
writePipe Pipe{..} put
| LB.null bs = return ()
| otherwise = do
LB.hPut pipeWrite bs
hFlush pipeWrite
where
bs = runPut put
readPipe :: Pipe -> Get a -> IO a
readPipe Pipe{..} get = do
leftovers <- readIORef pipeLeftovers
m <- getBin pipeRead get leftovers
case m of
Nothing -> throw $
mkIOError eofErrorType "GHCi.Message.remoteCall" (Just pipeRead) Nothing
Just (result, new_leftovers) -> do
writeIORef pipeLeftovers new_leftovers
return result
getBin
:: Handle -> Get a -> Maybe ByteString
-> IO (Maybe (a, Maybe ByteString))
getBin h get leftover = go leftover (runGetIncremental get)
where
go Nothing (Done leftover _ msg) =
return (Just (msg, if B.null leftover then Nothing else Just leftover))
go _ Done{} = throwIO (ErrorCall "getBin: Done with leftovers")
go (Just leftover) (Partial fun) = do
go Nothing (fun (Just leftover))
go Nothing (Partial fun) = do
-- putStrLn "before hGetSome"
b <- B.hGetSome h (32*1024)
-- printf "hGetSome: %d\n" (B.length b)
if B.null b
then return Nothing
else go Nothing (fun (Just b))
go _lft (Fail _rest _off str) =
throwIO (ErrorCall ("getBin: " ++ str))
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