{-# LANGUAGE CPP #-}
module DsForeign ( dsForeigns ) where
#include "HsVersions.h"
import TcRnMonad
import CoreSyn
import DsCCall
import DsMonad
import HsSyn
import DataCon
import CoreUnfold
import Id
import Literal
import Module
import Name
import Type
import RepType
import TyCon
import Coercion
import TcEnv
import TcType
import CmmExpr
import CmmUtils
import HscTypes
import ForeignCall
import TysWiredIn
import TysPrim
import PrelNames
import BasicTypes
import SrcLoc
import Outputable
import FastString
import DynFlags
import Platform
import Config
import OrdList
import Pair
import Util
import Hooks
import Encoding
import Data.Maybe
import Data.List
type Binding = (Id, CoreExpr)
dsForeigns :: [LForeignDecl Id]
-> DsM (ForeignStubs, OrdList Binding)
dsForeigns fos = getHooked dsForeignsHook dsForeigns' >>= ($ fos)
dsForeigns' :: [LForeignDecl Id]
-> DsM (ForeignStubs, OrdList Binding)
dsForeigns' []
= return (NoStubs, nilOL)
dsForeigns' fos = do
fives <- mapM do_ldecl fos
let
(hs, cs, idss, bindss) = unzip4 fives
fe_ids = concat idss
fe_init_code = map foreignExportInitialiser fe_ids
return (ForeignStubs
(vcat hs)
(vcat cs $$ vcat fe_init_code),
foldr (appOL . toOL) nilOL bindss)
where
do_ldecl (L loc decl) = putSrcSpanDs loc (do_decl decl)
do_decl (ForeignImport { fd_name = id, fd_co = co, fd_fi = spec }) = do
traceIf (text "fi start" <+> ppr id)
let id' = unLoc id
(bs, h, c) <- dsFImport id' co spec
traceIf (text "fi end" <+> ppr id)
return (h, c, [], bs)
do_decl (ForeignExport { fd_name = L _ id, fd_co = co
, fd_fe = CExport (L _ (CExportStatic _ ext_nm cconv)) _ }) = do
(h, c, _, _) <- dsFExport id co ext_nm cconv False
return (h, c, [id], [])
dsFImport :: Id
-> Coercion
-> ForeignImport
-> DsM ([Binding], SDoc, SDoc)
dsFImport id co (CImport cconv safety mHeader spec _) =
dsCImport id co spec (unLoc cconv) (unLoc safety) mHeader
dsCImport :: Id
-> Coercion
-> CImportSpec
-> CCallConv
-> Safety
-> Maybe Header
-> DsM ([Binding], SDoc, SDoc)
dsCImport id co (CLabel cid) cconv _ _ = do
dflags <- getDynFlags
let ty = pFst $ coercionKind co
fod = case tyConAppTyCon_maybe (dropForAlls ty) of
Just tycon
| tyConUnique tycon == funPtrTyConKey ->
IsFunction
_ -> IsData
(resTy, foRhs) <- resultWrapper ty
ASSERT(fromJust resTy `eqType` addrPrimTy)
let
rhs = foRhs (Lit (MachLabel cid stdcall_info fod))
rhs' = Cast rhs co
stdcall_info = fun_type_arg_stdcall_info dflags cconv ty
in
return ([(id, rhs')], empty, empty)
dsCImport id co (CFunction target) cconv@PrimCallConv safety _
= dsPrimCall id co (CCall (CCallSpec target cconv safety))
dsCImport id co (CFunction target) cconv safety mHeader
= dsFCall id co (CCall (CCallSpec target cconv safety)) mHeader
dsCImport id co CWrapper cconv _ _
= dsFExportDynamic id co cconv
fun_type_arg_stdcall_info :: DynFlags -> CCallConv -> Type -> Maybe Int
fun_type_arg_stdcall_info dflags StdCallConv ty
| Just (tc,[arg_ty]) <- splitTyConApp_maybe ty,
tyConUnique tc == funPtrTyConKey
= let
(bndrs, _) = tcSplitPiTys arg_ty
fe_arg_tys = mapMaybe binderRelevantType_maybe bndrs
in Just $ sum (map (widthInBytes . typeWidth . typeCmmType dflags . getPrimTyOf) fe_arg_tys)
fun_type_arg_stdcall_info _ _other_conv _
= Nothing
dsFCall :: Id -> Coercion -> ForeignCall -> Maybe Header
-> DsM ([(Id, Expr TyVar)], SDoc, SDoc)
dsFCall fn_id co fcall mDeclHeader = do
let
ty = pFst $ coercionKind co
(tv_bndrs, rho) = tcSplitForAllTyVarBndrs ty
(arg_tys, io_res_ty) = tcSplitFunTys rho
args <- newSysLocalsDs arg_tys
(val_args, arg_wrappers) <- mapAndUnzipM unboxArg (map Var args)
let
work_arg_ids = [v | Var v <- val_args]
(ccall_result_ty, res_wrapper) <- boxResult io_res_ty
ccall_uniq <- newUnique
work_uniq <- newUnique
dflags <- getDynFlags
(fcall', cDoc) <-
case fcall of
CCall (CCallSpec (StaticTarget _ cName mUnitId isFun)
CApiConv safety) ->
do wrapperName <- mkWrapperName "ghc_wrapper" (unpackFS cName)
let fcall' = CCall (CCallSpec
(StaticTarget NoSourceText
wrapperName mUnitId
True)
CApiConv safety)
c = includes
$$ fun_proto <+> braces (cRet <> semi)
includes = vcat [ text "#include <" <> ftext h <> text ">"
| Header _ h <- nub headers ]
fun_proto = cResType <+> pprCconv <+> ppr wrapperName <> parens argTypes
cRet
| isVoidRes = cCall
| otherwise = text "return" <+> cCall
cCall = if isFun
then ppr cName <> parens argVals
else if null arg_tys
then ppr cName
else panic "dsFCall: Unexpected arguments to FFI value import"
raw_res_ty = case tcSplitIOType_maybe io_res_ty of
Just (_ioTyCon, res_ty) -> res_ty
Nothing -> io_res_ty
isVoidRes = raw_res_ty `eqType` unitTy
(mHeader, cResType)
| isVoidRes = (Nothing, text "void")
| otherwise = toCType raw_res_ty
pprCconv = ccallConvAttribute CApiConv
mHeadersArgTypeList
= [ (header, cType <+> char 'a' <> int n)
| (t, n) <- zip arg_tys [1..]
, let (header, cType) = toCType t ]
(mHeaders, argTypeList) = unzip mHeadersArgTypeList
argTypes = if null argTypeList
then text "void"
else hsep $ punctuate comma argTypeList
mHeaders' = mDeclHeader : mHeader : mHeaders
headers = catMaybes mHeaders'
argVals = hsep $ punctuate comma
[ char 'a' <> int n
| (_, n) <- zip arg_tys [1..] ]
return (fcall', c)
_ ->
return (fcall, empty)
let
worker_ty = mkForAllTys tv_bndrs (mkFunTys (map idType work_arg_ids) ccall_result_ty)
tvs = map binderVar tv_bndrs
the_ccall_app = mkFCall dflags ccall_uniq fcall' val_args ccall_result_ty
work_rhs = mkLams tvs (mkLams work_arg_ids the_ccall_app)
work_id = mkSysLocal (fsLit "$wccall") work_uniq worker_ty
work_app = mkApps (mkVarApps (Var work_id) tvs) val_args
wrapper_body = foldr ($) (res_wrapper work_app) arg_wrappers
wrap_rhs = mkLams (tvs ++ args) wrapper_body
wrap_rhs' = Cast wrap_rhs co
fn_id_w_inl = fn_id `setIdUnfolding` mkInlineUnfoldingWithArity
(length args) wrap_rhs'
return ([(work_id, work_rhs), (fn_id_w_inl, wrap_rhs')], empty, cDoc)
dsPrimCall :: Id -> Coercion -> ForeignCall
-> DsM ([(Id, Expr TyVar)], SDoc, SDoc)
dsPrimCall fn_id co fcall = do
let
ty = pFst $ coercionKind co
(tvs, fun_ty) = tcSplitForAllTys ty
(arg_tys, io_res_ty) = tcSplitFunTys fun_ty
args <- newSysLocalsDs arg_tys
ccall_uniq <- newUnique
dflags <- getDynFlags
let
call_app = mkFCall dflags ccall_uniq fcall (map Var args) io_res_ty
rhs = mkLams tvs (mkLams args call_app)
rhs' = Cast rhs co
return ([(fn_id, rhs')], empty, empty)
dsFExport :: Id
-> Coercion
-> CLabelString
-> CCallConv
-> Bool
-> DsM ( SDoc
, SDoc
, String
, Int
)
dsFExport fn_id co ext_name cconv isDyn = do
let
ty = pSnd $ coercionKind co
(bndrs, orig_res_ty) = tcSplitPiTys ty
fe_arg_tys' = mapMaybe binderRelevantType_maybe bndrs
fe_arg_tys | isDyn = tail fe_arg_tys'
| otherwise = fe_arg_tys'
(res_ty, is_IO_res_ty) = case tcSplitIOType_maybe orig_res_ty of
Just (_ioTyCon, res_ty) -> (res_ty, True)
Nothing -> (orig_res_ty, False)
dflags <- getDynFlags
return $
mkFExportCBits dflags ext_name
(if isDyn then Nothing else Just fn_id)
fe_arg_tys res_ty is_IO_res_ty cconv
dsFExportDynamic :: Id
-> Coercion
-> CCallConv
-> DsM ([Binding], SDoc, SDoc)
dsFExportDynamic id co0 cconv = do
mod <- getModule
dflags <- getDynFlags
let fe_nm = mkFastString $ zEncodeString
(moduleStableString mod ++ "$" ++ toCName dflags id)
cback <- newSysLocalDs arg_ty
newStablePtrId <- dsLookupGlobalId newStablePtrName
stable_ptr_tycon <- dsLookupTyCon stablePtrTyConName
let
stable_ptr_ty = mkTyConApp stable_ptr_tycon [arg_ty]
export_ty = mkFunTy stable_ptr_ty arg_ty
bindIOId <- dsLookupGlobalId bindIOName
stbl_value <- newSysLocalDs stable_ptr_ty
(h_code, c_code, typestring, args_size) <- dsFExport id (mkRepReflCo export_ty) fe_nm cconv True
let
adj_args = [ mkIntLitInt dflags (ccallConvToInt cconv)
, Var stbl_value
, Lit (MachLabel fe_nm mb_sz_args IsFunction)
, Lit (mkMachString typestring)
]
adjustor = fsLit "createAdjustor"
mb_sz_args = case cconv of
StdCallConv -> Just args_size
_ -> Nothing
ccall_adj <- dsCCall adjustor adj_args PlayRisky (mkTyConApp io_tc [res_ty])
let io_app = mkLams tvs $
Lam cback $
mkApps (Var bindIOId)
[ Type stable_ptr_ty
, Type res_ty
, mkApps (Var newStablePtrId) [ Type arg_ty, Var cback ]
, Lam stbl_value ccall_adj
]
fed = (id `setInlineActivation` NeverActive, Cast io_app co0)
return ([fed], h_code, c_code)
where
ty = pFst (coercionKind co0)
(tvs,sans_foralls) = tcSplitForAllTys ty
([arg_ty], fn_res_ty) = tcSplitFunTys sans_foralls
Just (io_tc, res_ty) = tcSplitIOType_maybe fn_res_ty
toCName :: DynFlags -> Id -> String
toCName dflags i = showSDoc dflags (pprCode CStyle (ppr (idName i)))
mkFExportCBits :: DynFlags
-> FastString
-> Maybe Id
-> [Type]
-> Type
-> Bool
-> CCallConv
-> (SDoc,
SDoc,
String,
Int
)
mkFExportCBits dflags c_nm maybe_target arg_htys res_hty is_IO_res_ty cc
= (header_bits, c_bits, type_string,
sum [ widthInBytes (typeWidth rep) | (_,_,_,rep) <- aug_arg_info]
)
where
arg_info :: [(SDoc,
SDoc,
Type,
CmmType)]
arg_info = [ let stg_type = showStgType ty in
(arg_cname n stg_type,
stg_type,
ty,
typeCmmType dflags (getPrimTyOf ty))
| (ty,n) <- zip arg_htys [1::Int ..] ]
arg_cname n stg_ty
| libffi = char '*' <> parens (stg_ty <> char '*') <>
text "args" <> brackets (int (n-1))
| otherwise = text ('a':show n)
libffi = cLibFFI && isNothing maybe_target
type_string
| libffi = primTyDescChar dflags res_hty : arg_type_string
| otherwise = arg_type_string
arg_type_string = [primTyDescChar dflags ty | (_,_,ty,_) <- arg_info]
aug_arg_info
| isNothing maybe_target = stable_ptr_arg : insertRetAddr dflags cc arg_info
| otherwise = arg_info
stable_ptr_arg =
(text "the_stableptr", text "StgStablePtr", undefined,
typeCmmType dflags (mkStablePtrPrimTy alphaTy))
res_hty_is_unit = res_hty `eqType` unitTy
cResType | res_hty_is_unit = text "void"
| otherwise = showStgType res_hty
ffi_cResType
| is_ffi_arg_type = text "ffi_arg"
| otherwise = cResType
where
res_ty_key = getUnique (getName (typeTyCon res_hty))
is_ffi_arg_type = res_ty_key `notElem`
[floatTyConKey, doubleTyConKey,
int64TyConKey, word64TyConKey]
pprCconv = ccallConvAttribute cc
header_bits = text "extern" <+> fun_proto <> semi
fun_args
| null aug_arg_info = text "void"
| otherwise = hsep $ punctuate comma
$ map (\(nm,ty,_,_) -> ty <+> nm) aug_arg_info
fun_proto
| libffi
= text "void" <+> ftext c_nm <>
parens (text "void *cif STG_UNUSED, void* resp, void** args, void* the_stableptr")
| otherwise
= cResType <+> pprCconv <+> ftext c_nm <> parens fun_args
the_cfun
= case maybe_target of
Nothing -> text "(StgClosure*)deRefStablePtr(the_stableptr)"
Just hs_fn -> char '&' <> ppr hs_fn <> text "_closure"
cap = text "cap" <> comma
expr_to_run
= foldl appArg the_cfun arg_info
where
appArg acc (arg_cname, _, arg_hty, _)
= text "rts_apply"
<> parens (cap <> acc <> comma <> mkHObj arg_hty <> parens (cap <> arg_cname))
declareResult = text "HaskellObj ret;"
declareCResult | res_hty_is_unit = empty
| otherwise = cResType <+> text "cret;"
assignCResult | res_hty_is_unit = empty
| otherwise =
text "cret=" <> unpackHObj res_hty <> parens (text "ret") <> semi
extern_decl
= case maybe_target of
Nothing -> empty
Just hs_fn -> text "extern StgClosure " <> ppr hs_fn <> text "_closure" <> semi
c_bits =
space $$
extern_decl $$
fun_proto $$
vcat
[ lbrace
, text "Capability *cap;"
, declareResult
, declareCResult
, text "cap = rts_lock();"
, text "rts_evalIO" <> parens (
char '&' <> cap <>
text "rts_apply" <> parens (
cap <>
text "(HaskellObj)"
<> ptext (if is_IO_res_ty
then (sLit "runIO_closure")
else (sLit "runNonIO_closure"))
<> comma
<> expr_to_run
) <+> comma
<> text "&ret"
) <> semi
, text "rts_checkSchedStatus" <> parens (doubleQuotes (ftext c_nm)
<> comma <> text "cap") <> semi
, assignCResult
, text "rts_unlock(cap);"
, ppUnless res_hty_is_unit $
if libffi
then char '*' <> parens (ffi_cResType <> char '*') <>
text "resp = cret;"
else text "return cret;"
, rbrace
]
foreignExportInitialiser :: Id -> SDoc
foreignExportInitialiser hs_fn =
vcat
[ text "static void stginit_export_" <> ppr hs_fn
<> text "() __attribute__((constructor));"
, text "static void stginit_export_" <> ppr hs_fn <> text "()"
, braces (text "foreignExportStablePtr"
<> parens (text "(StgPtr) &" <> ppr hs_fn <> text "_closure")
<> semi)
]
mkHObj :: Type -> SDoc
mkHObj t = text "rts_mk" <> text (showFFIType t)
unpackHObj :: Type -> SDoc
unpackHObj t = text "rts_get" <> text (showFFIType t)
showStgType :: Type -> SDoc
showStgType t = text "Hs" <> text (showFFIType t)
showFFIType :: Type -> String
showFFIType t = getOccString (getName (typeTyCon t))
toCType :: Type -> (Maybe Header, SDoc)
toCType = f False
where f voidOK t
| Just (ptr, [t']) <- splitTyConApp_maybe t
, tyConName ptr `elem` [ptrTyConName, funPtrTyConName]
= case f True t' of
(mh, cType') ->
(mh, cType' <> char '*')
| Just tycon <- tyConAppTyConPicky_maybe t
, Just (CType _ mHeader (_,cType)) <- tyConCType_maybe tycon
= (mHeader, ftext cType)
| Just t' <- coreView t
= f voidOK t'
| voidOK = (Nothing, text "void")
| otherwise
= pprPanic "toCType" (ppr t)
typeTyCon :: Type -> TyCon
typeTyCon ty
| Just (tc, _) <- tcSplitTyConApp_maybe (unwrapType ty)
= tc
| otherwise
= pprPanic "DsForeign.typeTyCon" (ppr ty)
insertRetAddr :: DynFlags -> CCallConv
-> [(SDoc, SDoc, Type, CmmType)]
-> [(SDoc, SDoc, Type, CmmType)]
insertRetAddr dflags CCallConv args
= case platformArch platform of
ArchX86_64
| platformOS platform == OSMinGW32 ->
let go :: Int -> [(SDoc, SDoc, Type, CmmType)]
-> [(SDoc, SDoc, Type, CmmType)]
go 4 args = ret_addr_arg dflags : args
go n (arg:args) = arg : go (n+1) args
go _ [] = []
in go 0 args
| otherwise ->
let go :: Int -> [(SDoc, SDoc, Type, CmmType)]
-> [(SDoc, SDoc, Type, CmmType)]
go 6 args = ret_addr_arg dflags : args
go n (arg@(_,_,_,rep):args)
| cmmEqType_ignoring_ptrhood rep b64 = arg : go (n+1) args
| otherwise = arg : go n args
go _ [] = []
in go 0 args
_ ->
ret_addr_arg dflags : args
where platform = targetPlatform dflags
insertRetAddr _ _ args = args
ret_addr_arg :: DynFlags -> (SDoc, SDoc, Type, CmmType)
ret_addr_arg dflags = (text "original_return_addr", text "void*", undefined,
typeCmmType dflags addrPrimTy)
getPrimTyOf :: Type -> UnaryType
getPrimTyOf ty
| isBoolTy rep_ty = intPrimTy
| otherwise =
case splitDataProductType_maybe rep_ty of
Just (_, _, data_con, [prim_ty]) ->
ASSERT(dataConSourceArity data_con == 1)
ASSERT2(isUnliftedType prim_ty, ppr prim_ty)
prim_ty
_other -> pprPanic "DsForeign.getPrimTyOf" (ppr ty)
where
rep_ty = unwrapType ty
primTyDescChar :: DynFlags -> Type -> Char
primTyDescChar dflags ty
| ty `eqType` unitTy = 'v'
| otherwise
= case typePrimRep1 (getPrimTyOf ty) of
IntRep -> signed_word
WordRep -> unsigned_word
Int64Rep -> 'L'
Word64Rep -> 'l'
AddrRep -> 'p'
FloatRep -> 'f'
DoubleRep -> 'd'
_ -> pprPanic "primTyDescChar" (ppr ty)
where
(signed_word, unsigned_word)
| wORD_SIZE dflags == 4 = ('W','w')
| wORD_SIZE dflags == 8 = ('L','l')
| otherwise = panic "primTyDescChar"