module Linker ( getHValue, showLinkerState,
linkExpr, linkDecls, unload, withExtendedLinkEnv,
extendLinkEnv, deleteFromLinkEnv,
extendLoadedPkgs,
linkPackages,initDynLinker,linkModule,
linkCmdLineLibs,
PersistentLinkerState, saveLinkerGlobals, restoreLinkerGlobals
) where
#include "HsVersions.h"
import GHCi
import GHCi.RemoteTypes
import LoadIface
import ByteCodeLink
import ByteCodeAsm
import ByteCodeTypes
import TcRnMonad
import Packages
import DriverPhases
import Finder
import HscTypes
import Name
import NameEnv
import NameSet
import UniqFM
import Module
import ListSetOps
import DynFlags
import BasicTypes
import Outputable
import Panic
import Util
import ErrUtils
import SrcLoc
import qualified Maybes
import UniqSet
import FastString
import Platform
import SysTools
import Control.Monad
import Control.Applicative((<|>))
import Data.IORef
import Data.List
import Data.Maybe
import Control.Concurrent.MVar
import System.FilePath
import System.Directory
import Exception
GLOBAL_VAR_M(v_PersistentLinkerState, newMVar (panic "Dynamic linker not initialised"), MVar PersistentLinkerState)
GLOBAL_VAR(v_InitLinkerDone, False, Bool)
modifyPLS_ :: (PersistentLinkerState -> IO PersistentLinkerState) -> IO ()
modifyPLS_ f = readIORef v_PersistentLinkerState >>= flip modifyMVar_ f
modifyPLS :: (PersistentLinkerState -> IO (PersistentLinkerState, a)) -> IO a
modifyPLS f = readIORef v_PersistentLinkerState >>= flip modifyMVar f
data PersistentLinkerState
= PersistentLinkerState {
closure_env :: ClosureEnv,
itbl_env :: !ItblEnv,
bcos_loaded :: ![Linkable],
objs_loaded :: ![Linkable],
pkgs_loaded :: ![UnitId],
temp_sos :: ![(FilePath, String)] }
emptyPLS :: DynFlags -> PersistentLinkerState
emptyPLS _ = PersistentLinkerState {
closure_env = emptyNameEnv,
itbl_env = emptyNameEnv,
pkgs_loaded = init_pkgs,
bcos_loaded = [],
objs_loaded = [],
temp_sos = [] }
where init_pkgs = [rtsUnitId]
extendLoadedPkgs :: [UnitId] -> IO ()
extendLoadedPkgs pkgs =
modifyPLS_ $ \s ->
return s{ pkgs_loaded = pkgs ++ pkgs_loaded s }
extendLinkEnv :: [(Name,ForeignHValue)] -> IO ()
extendLinkEnv new_bindings =
modifyPLS_ $ \pls -> do
let ce = closure_env pls
let new_ce = extendClosureEnv ce new_bindings
return pls{ closure_env = new_ce }
deleteFromLinkEnv :: [Name] -> IO ()
deleteFromLinkEnv to_remove =
modifyPLS_ $ \pls -> do
let ce = closure_env pls
let new_ce = delListFromNameEnv ce to_remove
return pls{ closure_env = new_ce }
getHValue :: HscEnv -> Name -> IO ForeignHValue
getHValue hsc_env name = do
initDynLinker hsc_env
pls <- modifyPLS $ \pls -> do
if (isExternalName name) then do
(pls', ok) <- linkDependencies hsc_env pls noSrcSpan
[nameModule name]
if (failed ok) then throwGhcExceptionIO (ProgramError "")
else return (pls', pls')
else
return (pls, pls)
case lookupNameEnv (closure_env pls) name of
Just (_,aa) -> return aa
Nothing
-> ASSERT2(isExternalName name, ppr name)
do let sym_to_find = nameToCLabel name "closure"
m <- lookupClosure hsc_env (unpackFS sym_to_find)
case m of
Just hvref -> mkFinalizedHValue hsc_env hvref
Nothing -> linkFail "ByteCodeLink.lookupCE"
(unpackFS sym_to_find)
linkDependencies :: HscEnv -> PersistentLinkerState
-> SrcSpan -> [Module]
-> IO (PersistentLinkerState, SuccessFlag)
linkDependencies hsc_env pls span needed_mods = do
let hpt = hsc_HPT hsc_env
dflags = hsc_dflags hsc_env
maybe_normal_osuf <- checkNonStdWay dflags span
(lnks, pkgs) <- getLinkDeps hsc_env hpt pls
maybe_normal_osuf span needed_mods
pls1 <- linkPackages' hsc_env pkgs pls
linkModules hsc_env pls1 lnks
withExtendedLinkEnv :: (ExceptionMonad m) =>
[(Name,ForeignHValue)] -> m a -> m a
withExtendedLinkEnv new_env action
= gbracket (liftIO $ extendLinkEnv new_env)
(\_ -> reset_old_env)
(\_ -> action)
where
reset_old_env = liftIO $ do
modifyPLS_ $ \pls ->
let cur = closure_env pls
new = delListFromNameEnv cur (map fst new_env)
in return pls{ closure_env = new }
showLinkerState :: DynFlags -> IO ()
showLinkerState dflags
= do pls <- readIORef v_PersistentLinkerState >>= readMVar
log_action dflags dflags NoReason SevDump noSrcSpan defaultDumpStyle
(vcat [text "----- Linker state -----",
text "Pkgs:" <+> ppr (pkgs_loaded pls),
text "Objs:" <+> ppr (objs_loaded pls),
text "BCOs:" <+> ppr (bcos_loaded pls)])
initDynLinker :: HscEnv -> IO ()
initDynLinker hsc_env =
modifyPLS_ $ \pls0 -> do
done <- readIORef v_InitLinkerDone
if done then return pls0
else do writeIORef v_InitLinkerDone True
reallyInitDynLinker hsc_env
reallyInitDynLinker :: HscEnv -> IO PersistentLinkerState
reallyInitDynLinker hsc_env = do
let dflags = hsc_dflags hsc_env
pls0 = emptyPLS dflags
initObjLinker hsc_env
pls <- linkPackages' hsc_env (preloadPackages (pkgState dflags)) pls0
linkCmdLineLibs' hsc_env pls
linkCmdLineLibs :: HscEnv -> IO ()
linkCmdLineLibs hsc_env = do
initDynLinker hsc_env
modifyPLS_ $ \pls -> do
linkCmdLineLibs' hsc_env pls
linkCmdLineLibs' :: HscEnv -> PersistentLinkerState -> IO PersistentLinkerState
linkCmdLineLibs' hsc_env pls =
do
let dflags@(DynFlags { ldInputs = cmdline_ld_inputs
, libraryPaths = lib_paths}) = hsc_dflags hsc_env
let minus_ls = [ lib | Option ('-':'l':lib) <- cmdline_ld_inputs ]
libspecs <- mapM (locateLib hsc_env False lib_paths) minus_ls
classified_ld_inputs <- mapM (classifyLdInput dflags)
[ f | FileOption _ f <- cmdline_ld_inputs ]
let platform = targetPlatform dflags
let (framework_paths, frameworks) =
if platformUsesFrameworks platform
then (frameworkPaths dflags, cmdlineFrameworks dflags)
else ([],[])
let cmdline_lib_specs = catMaybes classified_ld_inputs
++ libspecs
++ map Framework frameworks
if null cmdline_lib_specs then return pls
else do
let all_paths = let paths = framework_paths
++ lib_paths
++ [ takeDirectory dll | DLLPath dll <- libspecs ]
in nub $ map normalise paths
pathCache <- mapM (addLibrarySearchPath hsc_env) all_paths
pls1 <- foldM (preloadLib hsc_env lib_paths framework_paths) pls
cmdline_lib_specs
maybePutStr dflags "final link ... "
ok <- resolveObjs hsc_env
mapM_ (removeLibrarySearchPath hsc_env) $ reverse pathCache
if succeeded ok then maybePutStrLn dflags "done"
else throwGhcExceptionIO (ProgramError "linking extra libraries/objects failed")
return pls1
classifyLdInput :: DynFlags -> FilePath -> IO (Maybe LibrarySpec)
classifyLdInput dflags f
| isObjectFilename platform f = return (Just (Object f))
| isDynLibFilename platform f = return (Just (DLLPath f))
| otherwise = do
log_action dflags dflags NoReason SevInfo noSrcSpan defaultUserStyle
(text ("Warning: ignoring unrecognised input `" ++ f ++ "'"))
return Nothing
where platform = targetPlatform dflags
preloadLib
:: HscEnv -> [String] -> [String] -> PersistentLinkerState
-> LibrarySpec -> IO PersistentLinkerState
preloadLib hsc_env lib_paths framework_paths pls lib_spec = do
maybePutStr dflags ("Loading object " ++ showLS lib_spec ++ " ... ")
case lib_spec of
Object static_ish -> do
(b, pls1) <- preload_static lib_paths static_ish
maybePutStrLn dflags (if b then "done" else "not found")
return pls1
Archive static_ish -> do
b <- preload_static_archive lib_paths static_ish
maybePutStrLn dflags (if b then "done" else "not found")
return pls
DLL dll_unadorned -> do
maybe_errstr <- loadDLL hsc_env (mkSOName platform dll_unadorned)
case maybe_errstr of
Nothing -> maybePutStrLn dflags "done"
Just mm | platformOS platform /= OSDarwin ->
preloadFailed mm lib_paths lib_spec
Just mm | otherwise -> do
let libfile = ("lib" ++ dll_unadorned) <.> "so"
err2 <- loadDLL hsc_env libfile
case err2 of
Nothing -> maybePutStrLn dflags "done"
Just _ -> preloadFailed mm lib_paths lib_spec
return pls
DLLPath dll_path -> do
do maybe_errstr <- loadDLL hsc_env dll_path
case maybe_errstr of
Nothing -> maybePutStrLn dflags "done"
Just mm -> preloadFailed mm lib_paths lib_spec
return pls
Framework framework ->
if platformUsesFrameworks (targetPlatform dflags)
then do maybe_errstr <- loadFramework hsc_env framework_paths framework
case maybe_errstr of
Nothing -> maybePutStrLn dflags "done"
Just mm -> preloadFailed mm framework_paths lib_spec
return pls
else panic "preloadLib Framework"
where
dflags = hsc_dflags hsc_env
platform = targetPlatform dflags
preloadFailed :: String -> [String] -> LibrarySpec -> IO ()
preloadFailed sys_errmsg paths spec
= do maybePutStr dflags "failed.\n"
throwGhcExceptionIO $
CmdLineError (
"user specified .o/.so/.DLL could not be loaded ("
++ sys_errmsg ++ ")\nWhilst trying to load: "
++ showLS spec ++ "\nAdditional directories searched:"
++ (if null paths then " (none)" else
intercalate "\n" (map (" "++) paths)))
preload_static _paths name
= do b <- doesFileExist name
if not b then return (False, pls)
else if dynamicGhc
then do pls1 <- dynLoadObjs hsc_env pls [name]
return (True, pls1)
else do loadObj hsc_env name
return (True, pls)
preload_static_archive _paths name
= do b <- doesFileExist name
if not b then return False
else do if dynamicGhc
then panic "Loading archives not supported"
else loadArchive hsc_env name
return True
linkExpr :: HscEnv -> SrcSpan -> UnlinkedBCO -> IO ForeignHValue
linkExpr hsc_env span root_ul_bco
= do {
; initDynLinker hsc_env
; modifyPLS $ \pls0 -> do {
; (pls, ok) <- linkDependencies hsc_env pls0 span needed_mods
; if failed ok then
throwGhcExceptionIO (ProgramError "")
else do {
let ie = itbl_env pls
ce = closure_env pls
; let nobreakarray = error "no break array"
bco_ix = mkNameEnv [(unlinkedBCOName root_ul_bco, 0)]
; resolved <- linkBCO hsc_env ie ce bco_ix nobreakarray root_ul_bco
; [root_hvref] <- createBCOs hsc_env [resolved]
; fhv <- mkFinalizedHValue hsc_env root_hvref
; return (pls, fhv)
}}}
where
free_names = nameSetElems (bcoFreeNames root_ul_bco)
needed_mods :: [Module]
needed_mods = [ nameModule n | n <- free_names,
isExternalName n,
not (isWiredInName n)
]
dieWith :: DynFlags -> SrcSpan -> MsgDoc -> IO a
dieWith dflags span msg = throwGhcExceptionIO (ProgramError (showSDoc dflags (mkLocMessage SevFatal span msg)))
checkNonStdWay :: DynFlags -> SrcSpan -> IO (Maybe FilePath)
checkNonStdWay dflags srcspan
| gopt Opt_ExternalInterpreter dflags = return Nothing
| interpWays == haskellWays = return Nothing
| objectSuf dflags == normalObjectSuffix && not (null haskellWays)
= failNonStd dflags srcspan
| otherwise = return (Just (interpTag ++ "o"))
where
haskellWays = filter (not . wayRTSOnly) (ways dflags)
interpTag = case mkBuildTag interpWays of
"" -> ""
tag -> tag ++ "_"
normalObjectSuffix :: String
normalObjectSuffix = phaseInputExt StopLn
failNonStd :: DynFlags -> SrcSpan -> IO (Maybe FilePath)
failNonStd dflags srcspan = dieWith dflags srcspan $
text "Cannot load" <+> compWay <+>
text "objects when GHC is built" <+> ghciWay $$
text "To fix this, either:" $$
text " (1) Use -fexternal-interprter, or" $$
text " (2) Build the program twice: once" <+>
ghciWay <> text ", and then" $$
text " with" <+> compWay <+>
text "using -osuf to set a different object file suffix."
where compWay
| WayDyn `elem` ways dflags = text "-dynamic"
| WayProf `elem` ways dflags = text "-prof"
| otherwise = text "normal"
ghciWay
| dynamicGhc = text "with -dynamic"
| rtsIsProfiled = text "with -prof"
| otherwise = text "the normal way"
getLinkDeps :: HscEnv -> HomePackageTable
-> PersistentLinkerState
-> Maybe FilePath
-> SrcSpan
-> [Module]
-> IO ([Linkable], [UnitId])
getLinkDeps hsc_env hpt pls replace_osuf span mods
= do {
; (mods_s, pkgs_s) <- follow_deps (filterOut isInteractiveModule mods)
emptyUniqSet emptyUniqSet;
; let {
mods_needed = mods_s `minusList` linked_mods ;
pkgs_needed = pkgs_s `minusList` pkgs_loaded pls ;
linked_mods = map (moduleName.linkableModule)
(objs_loaded pls ++ bcos_loaded pls) }
; let { osuf = objectSuf dflags }
; lnks_needed <- mapM (get_linkable osuf) mods_needed
; return (lnks_needed, pkgs_needed) }
where
dflags = hsc_dflags hsc_env
this_pkg = thisPackage dflags
follow_deps :: [Module]
-> UniqSet ModuleName
-> UniqSet UnitId
-> IO ([ModuleName], [UnitId])
follow_deps [] acc_mods acc_pkgs
= return (uniqSetToList acc_mods, uniqSetToList acc_pkgs)
follow_deps (mod:mods) acc_mods acc_pkgs
= do
mb_iface <- initIfaceCheck hsc_env $
loadInterface msg mod (ImportByUser False)
iface <- case mb_iface of
Maybes.Failed err -> throwGhcExceptionIO (ProgramError (showSDoc dflags err))
Maybes.Succeeded iface -> return iface
when (mi_boot iface) $ link_boot_mod_error mod
let
pkg = moduleUnitId mod
deps = mi_deps iface
pkg_deps = dep_pkgs deps
(boot_deps, mod_deps) = partitionWith is_boot (dep_mods deps)
where is_boot (m,True) = Left m
is_boot (m,False) = Right m
boot_deps' = filter (not . (`elementOfUniqSet` acc_mods)) boot_deps
acc_mods' = addListToUniqSet acc_mods (moduleName mod : mod_deps)
acc_pkgs' = addListToUniqSet acc_pkgs $ map fst pkg_deps
if pkg /= this_pkg
then follow_deps mods acc_mods (addOneToUniqSet acc_pkgs' pkg)
else follow_deps (map (mkModule this_pkg) boot_deps' ++ mods)
acc_mods' acc_pkgs'
where
msg = text "need to link module" <+> ppr mod <+>
text "due to use of Template Haskell"
link_boot_mod_error mod =
throwGhcExceptionIO (ProgramError (showSDoc dflags (
text "module" <+> ppr mod <+>
text "cannot be linked; it is only available as a boot module")))
no_obj :: Outputable a => a -> IO b
no_obj mod = dieWith dflags span $
text "cannot find object file for module " <>
quotes (ppr mod) $$
while_linking_expr
while_linking_expr = text "while linking an interpreted expression"
get_linkable osuf mod_name
| Just mod_info <- lookupUFM hpt mod_name
= adjust_linkable (Maybes.expectJust "getLinkDeps" (hm_linkable mod_info))
| otherwise
= do
mb_stuff <- findHomeModule hsc_env mod_name
case mb_stuff of
Found loc mod -> found loc mod
_ -> no_obj mod_name
where
found loc mod = do {
mb_lnk <- findObjectLinkableMaybe mod loc ;
case mb_lnk of {
Nothing -> no_obj mod ;
Just lnk -> adjust_linkable lnk
}}
adjust_linkable lnk
| Just new_osuf <- replace_osuf = do
new_uls <- mapM (adjust_ul new_osuf)
(linkableUnlinked lnk)
return lnk{ linkableUnlinked=new_uls }
| otherwise =
return lnk
adjust_ul new_osuf (DotO file) = do
MASSERT(osuf `isSuffixOf` file)
let file_base = fromJust (stripExtension osuf file)
new_file = file_base <.> new_osuf
ok <- doesFileExist new_file
if (not ok)
then dieWith dflags span $
text "cannot find object file "
<> quotes (text new_file) $$ while_linking_expr
else return (DotO new_file)
adjust_ul _ (DotA fp) = panic ("adjust_ul DotA " ++ show fp)
adjust_ul _ (DotDLL fp) = panic ("adjust_ul DotDLL " ++ show fp)
adjust_ul _ l@(BCOs {}) = return l
linkDecls :: HscEnv -> SrcSpan -> CompiledByteCode -> IO ()
linkDecls hsc_env span cbc@CompiledByteCode{..} = do
initDynLinker hsc_env
modifyPLS $ \pls0 -> do
(pls, ok) <- linkDependencies hsc_env pls0 span needed_mods
if failed ok
then throwGhcExceptionIO (ProgramError "")
else do
let ie = plusNameEnv (itbl_env pls) bc_itbls
ce = closure_env pls
new_bindings <- linkSomeBCOs hsc_env ie ce [cbc]
nms_fhvs <- makeForeignNamedHValueRefs hsc_env new_bindings
let pls2 = pls { closure_env = extendClosureEnv ce nms_fhvs
, itbl_env = ie }
return (pls2, ())
where
free_names = concatMap (nameSetElems . bcoFreeNames) bc_bcos
needed_mods :: [Module]
needed_mods = [ nameModule n | n <- free_names,
isExternalName n,
not (isWiredInName n)
]
linkModule :: HscEnv -> Module -> IO ()
linkModule hsc_env mod = do
initDynLinker hsc_env
modifyPLS_ $ \pls -> do
(pls', ok) <- linkDependencies hsc_env pls noSrcSpan [mod]
if (failed ok) then throwGhcExceptionIO (ProgramError "could not link module")
else return pls'
linkModules :: HscEnv -> PersistentLinkerState -> [Linkable]
-> IO (PersistentLinkerState, SuccessFlag)
linkModules hsc_env pls linkables
= mask_ $ do
let (objs, bcos) = partition isObjectLinkable
(concatMap partitionLinkable linkables)
(pls1, ok_flag) <- dynLinkObjs hsc_env pls objs
if failed ok_flag then
return (pls1, Failed)
else do
pls2 <- dynLinkBCOs hsc_env pls1 bcos
return (pls2, Succeeded)
partitionLinkable :: Linkable -> [Linkable]
partitionLinkable li
= let li_uls = linkableUnlinked li
li_uls_obj = filter isObject li_uls
li_uls_bco = filter isInterpretable li_uls
in
case (li_uls_obj, li_uls_bco) of
(_:_, _:_) -> [li {linkableUnlinked=li_uls_obj},
li {linkableUnlinked=li_uls_bco}]
_ -> [li]
findModuleLinkable_maybe :: [Linkable] -> Module -> Maybe Linkable
findModuleLinkable_maybe lis mod
= case [LM time nm us | LM time nm us <- lis, nm == mod] of
[] -> Nothing
[li] -> Just li
_ -> pprPanic "findModuleLinkable" (ppr mod)
linkableInSet :: Linkable -> [Linkable] -> Bool
linkableInSet l objs_loaded =
case findModuleLinkable_maybe objs_loaded (linkableModule l) of
Nothing -> False
Just m -> linkableTime l == linkableTime m
dynLinkObjs :: HscEnv -> PersistentLinkerState -> [Linkable]
-> IO (PersistentLinkerState, SuccessFlag)
dynLinkObjs hsc_env pls objs = do
let (objs_loaded', new_objs) = rmDupLinkables (objs_loaded pls) objs
pls1 = pls { objs_loaded = objs_loaded' }
unlinkeds = concatMap linkableUnlinked new_objs
wanted_objs = map nameOfObject unlinkeds
if interpreterDynamic (hsc_dflags hsc_env)
then do pls2 <- dynLoadObjs hsc_env pls1 wanted_objs
return (pls2, Succeeded)
else do mapM_ (loadObj hsc_env) wanted_objs
ok <- resolveObjs hsc_env
if succeeded ok then do
return (pls1, Succeeded)
else do
pls2 <- unload_wkr hsc_env [] pls1
return (pls2, Failed)
dynLoadObjs :: HscEnv -> PersistentLinkerState -> [FilePath]
-> IO PersistentLinkerState
dynLoadObjs _ pls [] = return pls
dynLoadObjs hsc_env pls objs = do
let dflags = hsc_dflags hsc_env
let platform = targetPlatform dflags
let minus_ls = [ lib | Option ('-':'l':lib) <- ldInputs dflags ]
let minus_big_ls = [ lib | Option ('-':'L':lib) <- ldInputs dflags ]
(soFile, libPath , libName) <- newTempLibName dflags (soExt platform)
let
dflags2 = dflags {
ldInputs =
concatMap
(\(lp, l) ->
[ Option ("-L" ++ lp)
, Option ("-Wl,-rpath")
, Option ("-Wl," ++ lp)
, Option ("-l" ++ l)
])
(temp_sos pls)
++ concatMap
(\lp ->
[ Option ("-L" ++ lp)
, Option ("-Wl,-rpath")
, Option ("-Wl," ++ lp)
])
minus_big_ls
++ map (\l -> Option ("-l" ++ l)) minus_ls,
ways = [WayDyn],
buildTag = mkBuildTag [WayDyn],
outputFile = Just soFile
}
linkDynLib dflags2 objs (pkgs_loaded pls)
consIORef (filesToNotIntermediateClean dflags) soFile
m <- loadDLL hsc_env soFile
case m of
Nothing -> return pls { temp_sos = (libPath, libName) : temp_sos pls }
Just err -> panic ("Loading temp shared object failed: " ++ err)
rmDupLinkables :: [Linkable]
-> [Linkable]
-> ([Linkable],
[Linkable])
rmDupLinkables already ls
= go already [] ls
where
go already extras [] = (already, extras)
go already extras (l:ls)
| linkableInSet l already = go already extras ls
| otherwise = go (l:already) (l:extras) ls
dynLinkBCOs :: HscEnv -> PersistentLinkerState -> [Linkable]
-> IO PersistentLinkerState
dynLinkBCOs hsc_env pls bcos = do
let (bcos_loaded', new_bcos) = rmDupLinkables (bcos_loaded pls) bcos
pls1 = pls { bcos_loaded = bcos_loaded' }
unlinkeds :: [Unlinked]
unlinkeds = concatMap linkableUnlinked new_bcos
cbcs :: [CompiledByteCode]
cbcs = map byteCodeOfObject unlinkeds
ies = map bc_itbls cbcs
gce = closure_env pls
final_ie = foldr plusNameEnv (itbl_env pls) ies
names_and_refs <- linkSomeBCOs hsc_env final_ie gce cbcs
let (to_add, to_drop) = partition (isExternalName.fst) names_and_refs
freeHValueRefs hsc_env (map snd to_drop)
new_binds <- makeForeignNamedHValueRefs hsc_env to_add
return pls1 { closure_env = extendClosureEnv gce new_binds,
itbl_env = final_ie }
linkSomeBCOs :: HscEnv
-> ItblEnv
-> ClosureEnv
-> [CompiledByteCode]
-> IO [(Name,HValueRef)]
linkSomeBCOs hsc_env ie ce mods = foldr fun do_link mods []
where
fun CompiledByteCode{..} inner accum =
case bc_breaks of
Nothing -> inner ((panic "linkSomeBCOs: no break array", bc_bcos) : accum)
Just mb -> withForeignRef (modBreaks_flags mb) $ \breakarray ->
inner ((breakarray, bc_bcos) : accum)
do_link [] = return []
do_link mods = do
let flat = [ (breakarray, bco) | (breakarray, bcos) <- mods, bco <- bcos ]
names = map (unlinkedBCOName . snd) flat
bco_ix = mkNameEnv (zip names [0..])
resolved <- sequence [ linkBCO hsc_env ie ce bco_ix breakarray bco
| (breakarray, bco) <- flat ]
hvrefs <- createBCOs hsc_env resolved
return (zip names hvrefs)
makeForeignNamedHValueRefs
:: HscEnv -> [(Name,HValueRef)] -> IO [(Name,ForeignHValue)]
makeForeignNamedHValueRefs hsc_env bindings =
mapM (\(n, hvref) -> (n,) <$> mkFinalizedHValue hsc_env hvref) bindings
unload :: HscEnv
-> [Linkable]
-> IO ()
unload hsc_env linkables
= mask_ $ do
initDynLinker hsc_env
new_pls
<- modifyPLS $ \pls -> do
pls1 <- unload_wkr hsc_env linkables pls
return (pls1, pls1)
let dflags = hsc_dflags hsc_env
debugTraceMsg dflags 3 $
text "unload: retaining objs" <+> ppr (objs_loaded new_pls)
debugTraceMsg dflags 3 $
text "unload: retaining bcos" <+> ppr (bcos_loaded new_pls)
return ()
unload_wkr :: HscEnv
-> [Linkable]
-> PersistentLinkerState
-> IO PersistentLinkerState
unload_wkr hsc_env keep_linkables pls = do
let (objs_to_keep, bcos_to_keep) = partition isObjectLinkable keep_linkables
discard keep l = not (linkableInSet l keep)
(objs_to_unload, remaining_objs_loaded) =
partition (discard objs_to_keep) (objs_loaded pls)
(bcos_to_unload, remaining_bcos_loaded) =
partition (discard bcos_to_keep) (bcos_loaded pls)
mapM_ unloadObjs objs_to_unload
mapM_ unloadObjs bcos_to_unload
when (not (null (objs_to_unload ++
filter (not . null . linkableObjs) bcos_to_unload))) $
purgeLookupSymbolCache hsc_env
let bcos_retained = map linkableModule remaining_bcos_loaded
keep_name (n,_) = isExternalName n &&
nameModule n `elem` bcos_retained
itbl_env' = filterNameEnv keep_name (itbl_env pls)
closure_env' = filterNameEnv keep_name (closure_env pls)
new_pls = pls { itbl_env = itbl_env',
closure_env = closure_env',
bcos_loaded = remaining_bcos_loaded,
objs_loaded = remaining_objs_loaded }
return new_pls
where
unloadObjs :: Linkable -> IO ()
unloadObjs lnk
| dynamicGhc = return ()
| otherwise
= mapM_ (unloadObj hsc_env) [f | DotO f <- linkableUnlinked lnk]
data LibrarySpec
= Object FilePath
| Archive FilePath
| DLL String
| DLLPath FilePath
| Framework String
partOfGHCi :: [PackageName]
partOfGHCi
| isWindowsHost || isDarwinHost = []
| otherwise = map (PackageName . mkFastString)
["base", "template-haskell", "editline"]
showLS :: LibrarySpec -> String
showLS (Object nm) = "(static) " ++ nm
showLS (Archive nm) = "(static archive) " ++ nm
showLS (DLL nm) = "(dynamic) " ++ nm
showLS (DLLPath nm) = "(dynamic) " ++ nm
showLS (Framework nm) = "(framework) " ++ nm
linkPackages :: HscEnv -> [UnitId] -> IO ()
linkPackages hsc_env new_pkgs = do
initDynLinker hsc_env
modifyPLS_ $ \pls -> do
linkPackages' hsc_env new_pkgs pls
linkPackages' :: HscEnv -> [UnitId] -> PersistentLinkerState
-> IO PersistentLinkerState
linkPackages' hsc_env new_pks pls = do
pkgs' <- link (pkgs_loaded pls) new_pks
return $! pls { pkgs_loaded = pkgs' }
where
dflags = hsc_dflags hsc_env
link :: [UnitId] -> [UnitId] -> IO [UnitId]
link pkgs new_pkgs =
foldM link_one pkgs new_pkgs
link_one pkgs new_pkg
| new_pkg `elem` pkgs
= return pkgs
| Just pkg_cfg <- lookupPackage dflags new_pkg
= do {
pkgs' <- link pkgs (depends pkg_cfg)
; linkPackage hsc_env pkg_cfg
; return (new_pkg : pkgs') }
| otherwise
= throwGhcExceptionIO (CmdLineError ("unknown package: " ++ unitIdString new_pkg))
linkPackage :: HscEnv -> PackageConfig -> IO ()
linkPackage hsc_env pkg
= do
let dflags = hsc_dflags hsc_env
platform = targetPlatform dflags
dirs | interpreterDynamic dflags = Packages.libraryDynDirs pkg
| otherwise = Packages.libraryDirs pkg
let hs_libs = Packages.hsLibraries pkg
hs_libs' = filter ("HSffi" /=) hs_libs
extra_libs =
(if null (Packages.extraGHCiLibraries pkg)
then Packages.extraLibraries pkg
else Packages.extraGHCiLibraries pkg)
++ [ lib | '-':'l':lib <- Packages.ldOptions pkg ]
hs_classifieds <- mapM (locateLib hsc_env True dirs) hs_libs'
extra_classifieds <- mapM (locateLib hsc_env False dirs) extra_libs
let classifieds = hs_classifieds ++ extra_classifieds
let known_dlls = [ dll | DLLPath dll <- classifieds ]
dlls = [ dll | DLL dll <- classifieds ]
objs = [ obj | Object obj <- classifieds ]
archs = [ arch | Archive arch <- classifieds ]
let dll_paths = map takeDirectory known_dlls
all_paths = nub $ map normalise $ dll_paths ++ dirs
pathCache <- mapM (addLibrarySearchPath hsc_env) all_paths
maybePutStr dflags
("Loading package " ++ sourcePackageIdString pkg ++ " ... ")
when (packageName pkg `notElem` partOfGHCi) $ do
loadFrameworks hsc_env platform pkg
mapM_ (load_dyn hsc_env)
(known_dlls ++ map (mkSOName platform) dlls)
mapM_ (loadObj hsc_env) objs
mapM_ (loadArchive hsc_env) archs
maybePutStr dflags "linking ... "
ok <- resolveObjs hsc_env
mapM_ (removeLibrarySearchPath hsc_env) $ reverse pathCache
if succeeded ok
then maybePutStrLn dflags "done."
else let errmsg = "unable to load package `"
++ sourcePackageIdString pkg ++ "'"
in throwGhcExceptionIO (InstallationError errmsg)
load_dyn :: HscEnv -> FilePath -> IO ()
load_dyn hsc_env dll = do
r <- loadDLL hsc_env dll
case r of
Nothing -> return ()
Just err -> throwGhcExceptionIO (CmdLineError ("can't load .so/.DLL for: "
++ dll ++ " (" ++ err ++ ")" ))
loadFrameworks :: HscEnv -> Platform -> PackageConfig -> IO ()
loadFrameworks hsc_env platform pkg
= when (platformUsesFrameworks platform) $ mapM_ load frameworks
where
fw_dirs = Packages.frameworkDirs pkg
frameworks = Packages.frameworks pkg
load fw = do r <- loadFramework hsc_env fw_dirs fw
case r of
Nothing -> return ()
Just err -> throwGhcExceptionIO (CmdLineError ("can't load framework: "
++ fw ++ " (" ++ err ++ ")" ))
locateLib :: HscEnv -> Bool -> [FilePath] -> String -> IO LibrarySpec
locateLib hsc_env is_hs dirs lib
| not is_hs
= findDll `orElse`
findSysDll `orElse`
tryImpLib `orElse`
tryGcc `orElse`
findArchive `orElse`
assumeDll
| loading_dynamic_hs_libs
= findHSDll `orElse`
findDynObject `orElse`
assumeDll
| loading_profiled_hs_libs
= findArchive `orElse`
assumeDll
| otherwise
= findObject `orElse`
findArchive `orElse`
assumeDll
where
dflags = hsc_dflags hsc_env
obj_file = lib <.> "o"
dyn_obj_file = lib <.> "dyn_o"
arch_file = "lib" ++ lib ++ lib_tag <.> "a"
lib_tag = if is_hs && loading_profiled_hs_libs then "_p" else ""
loading_profiled_hs_libs = interpreterProfiled dflags
loading_dynamic_hs_libs = interpreterDynamic dflags
import_libs = [lib <.> "lib", "lib" ++ lib <.> "lib", "lib" ++ lib <.> "dll.a"]
hs_dyn_lib_name = lib ++ '-':programName dflags ++ projectVersion dflags
hs_dyn_lib_file = mkHsSOName platform hs_dyn_lib_name
so_name = mkSOName platform lib
lib_so_name = "lib" ++ so_name
dyn_lib_file = case (arch, os) of
(ArchX86_64, OSSolaris2) -> "64" </> so_name
_ -> so_name
findObject = liftM (fmap Object) $ findFile dirs obj_file
findDynObject = liftM (fmap Object) $ findFile dirs dyn_obj_file
findArchive = let local = liftM (fmap Archive) $ findFile dirs arch_file
linked = liftM (fmap Archive) $ searchForLibUsingGcc dflags arch_file dirs
in liftM2 (<|>) local linked
findHSDll = liftM (fmap DLLPath) $ findFile dirs hs_dyn_lib_file
findDll = liftM (fmap DLLPath) $ findFile dirs dyn_lib_file
findSysDll = fmap (fmap $ DLL . takeFileName) $ findSystemLibrary hsc_env so_name
tryGcc = let short = liftM (fmap DLLPath) $ searchForLibUsingGcc dflags so_name dirs
full = liftM (fmap DLLPath) $ searchForLibUsingGcc dflags lib_so_name dirs
in liftM2 (<|>) short full
tryImpLib = case os of
OSMinGW32 -> let check name = liftM (fmap Archive) $ searchForLibUsingGcc dflags name dirs
in apply (map check import_libs)
_ -> return Nothing
assumeDll = return (DLL lib)
infixr `orElse`
f `orElse` g = f >>= maybe g return
apply [] = return Nothing
apply (x:xs) = do x' <- x
if isJust x'
then return x'
else apply xs
platform = targetPlatform dflags
arch = platformArch platform
os = platformOS platform
searchForLibUsingGcc :: DynFlags -> String -> [FilePath] -> IO (Maybe FilePath)
searchForLibUsingGcc dflags so dirs = do
str <- askCc dflags (map (FileOption "-B") dirs
++ [Option "--print-file-name", Option so])
let file = case lines str of
[] -> ""
l:_ -> l
if (file == so)
then return Nothing
else return (Just file)
loadFramework :: HscEnv -> [FilePath] -> FilePath -> IO (Maybe String)
loadFramework hsc_env extraPaths rootname
= do { either_dir <- tryIO getHomeDirectory
; let homeFrameworkPath = case either_dir of
Left _ -> []
Right dir -> [dir </> "Library/Frameworks"]
ps = extraPaths ++ homeFrameworkPath ++ defaultFrameworkPaths
; mb_fwk <- findFile ps fwk_file
; case mb_fwk of
Just fwk_path -> loadDLL hsc_env fwk_path
Nothing -> return (Just "not found") }
where
fwk_file = rootname <.> "framework" </> rootname
defaultFrameworkPaths = ["/Library/Frameworks", "/System/Library/Frameworks"]
maybePutStr :: DynFlags -> String -> IO ()
maybePutStr dflags s
= when (verbosity dflags > 1) $
do let act = log_action dflags
act dflags
NoReason
SevInteractive
noSrcSpan
defaultUserStyle
(text s)
maybePutStrLn :: DynFlags -> String -> IO ()
maybePutStrLn dflags s = maybePutStr dflags (s ++ "\n")
saveLinkerGlobals :: IO (MVar PersistentLinkerState, Bool)
saveLinkerGlobals = liftM2 (,) (readIORef v_PersistentLinkerState) (readIORef v_InitLinkerDone)
restoreLinkerGlobals :: (MVar PersistentLinkerState, Bool) -> IO ()
restoreLinkerGlobals (pls, ild) = do
writeIORef v_PersistentLinkerState pls
writeIORef v_InitLinkerDone ild