+{-# OPTIONS -w #-}
+-- The above warning supression flag is a temporary kludge.
+-- While working on this module you are encouraged to remove it and fix
+-- any warnings in the module. See
+-- http://hackage.haskell.org/trac/ghc/wiki/Commentary/CodingStyle#Warnings
+-- for details
+
module PositionIndependentCode (
cmmMakeDynamicReference,
ReferenceKind(..),
#include "nativeGen/NCG.h"
import Cmm
-import MachOp ( MachOp(MO_Add), wordRep )
+import MachOp ( MachOp(MO_Add), wordRep, MachRep(..) )
import CLabel ( CLabel, pprCLabel,
mkDynamicLinkerLabel, DynamicLinkerLabelInfo(..),
dynamicLinkerLabelInfo, mkPicBaseLabel,
import qualified Outputable
import Panic ( panic )
+import DynFlags
-- The most important function here is cmmMakeDynamicReference.
deriving(Eq)
cmmMakeDynamicReference
- :: Monad m => (CLabel -> m ()) -- a monad & a function
+ :: Monad m => DynFlags
+ -> (CLabel -> m ()) -- a monad & a function
-- used for recording imported symbols
-> ReferenceKind -- whether this is the target of a jump
-> CLabel -- the label
-> m CmmExpr
-cmmMakeDynamicReference addImport referenceKind lbl
+cmmMakeDynamicReference dflags addImport referenceKind lbl
| Just _ <- dynamicLinkerLabelInfo lbl
= return $ CmmLit $ CmmLabel lbl -- already processed it, pass through
- | otherwise = case howToAccessLabel referenceKind lbl of
+ | otherwise = case howToAccessLabel dflags referenceKind lbl of
AccessViaStub -> do
let stub = mkDynamicLinkerLabel CodeStub lbl
addImport stub
-- everything gets relocated at runtime
cmmMakePicReference lbl
- | opt_PIC && absoluteLabel lbl = CmmMachOp (MO_Add wordRep) [
+ | (opt_PIC || not opt_Static) && absoluteLabel lbl = CmmMachOp (MO_Add wordRep) [
CmmReg (CmmGlobal PicBaseReg),
CmmLit $ picRelative lbl
]
| AccessViaSymbolPtr
| AccessDirectly
-howToAccessLabel :: ReferenceKind -> CLabel -> LabelAccessStyle
+howToAccessLabel :: DynFlags -> ReferenceKind -> CLabel -> LabelAccessStyle
#if mingw32_TARGET_OS
-- Windows
-- are imported from a DLL via an __imp_* label.
-- There are no stubs for imported code.
-howToAccessLabel _ lbl | labelDynamic lbl = AccessViaSymbolPtr
- | otherwise = AccessDirectly
+howToAccessLabel dflags _ lbl | labelDynamic (thisPackage dflags) lbl = AccessViaSymbolPtr
+ | otherwise = AccessDirectly
#elif darwin_TARGET_OS
-- Mach-O (Darwin, Mac OS X)
--
-- It is always possible to access something indirectly,
-- even when it's not necessary.
-howToAccessLabel DataReference lbl
+howToAccessLabel dflags DataReference lbl
-- data access to a dynamic library goes via a symbol pointer
- | labelDynamic lbl = AccessViaSymbolPtr
+ | labelDynamic (thisPackage dflags) lbl = AccessViaSymbolPtr
#if !x86_64_TARGET_ARCH
-- when generating PIC code, all cross-module data references must
| otherwise = AccessDirectly
-#if x86_TARGET_ARCH || x86_64_TARGET_ARCH
+#if i386_TARGET_ARCH || x86_64_TARGET_ARCH
-- dyld code stubs don't work for tailcalls because the
-- stack alignment is only right for regular calls.
-- Therefore, we have to go via a symbol pointer:
-howToAccessLabel JumpReference lbl
- | labelDynamic lbl
+howToAccessLabel dflags JumpReference lbl
+ | labelDynamic (thisPackage dflags) lbl
= AccessViaSymbolPtr
#endif
-howToAccessLabel _ lbl
+howToAccessLabel dflags _ lbl
#if !x86_64_TARGET_ARCH
-- Code stubs are the usual method of choice for imported code;
-- not needed on x86_64 because Apple's new linker, ld64, generates
-- them automatically.
- | labelDynamic lbl
+ | labelDynamic (thisPackage dflags) lbl
= AccessViaStub
#endif
| otherwise
#elif linux_TARGET_OS && powerpc64_TARGET_ARCH
-- ELF PPC64 (powerpc64-linux), AIX, MacOS 9, BeOS/PPC
-howToAccessLabel DataReference lbl = AccessViaSymbolPtr
-howToAccessLabel _ lbl = AccessDirectly -- actually, .label instead of label
+howToAccessLabel _ DataReference lbl = AccessViaSymbolPtr
+howToAccessLabel _ _ lbl = AccessDirectly -- actually, .label instead of label
#elif linux_TARGET_OS
-- ELF (Linux)
-- from position independent code. It is also required from the main program
-- when dynamic libraries containing Haskell code are used.
-howToAccessLabel _ lbl
+howToAccessLabel _ _ lbl
-- no PIC -> the dynamic linker does everything for us;
-- if we don't dynamically link to Haskell code,
-- it actually manages to do so without messing thins up.
| not opt_PIC && opt_Static = AccessDirectly
-howToAccessLabel DataReference lbl
+howToAccessLabel dflags DataReference lbl
-- A dynamic label needs to be accessed via a symbol pointer.
- | labelDynamic lbl = AccessViaSymbolPtr
+ | labelDynamic (thisPackage dflags) lbl = AccessViaSymbolPtr
#if powerpc_TARGET_ARCH
-- For PowerPC32 -fPIC, we have to access even static data
-- via a symbol pointer (see below for an explanation why
-- (AccessDirectly, because we get an implicit symbol stub)
-- and calling functions from PIC code on non-i386 platforms (via a symbol stub)
-howToAccessLabel CallReference lbl
- | labelDynamic lbl && not opt_PIC
+howToAccessLabel dflags CallReference lbl
+ | labelDynamic (thisPackage dflags) lbl && not opt_PIC
= AccessDirectly
#if !i386_TARGET_ARCH
- | labelDynamic lbl && opt_PIC
+ | labelDynamic (thisPackage dflags) lbl && opt_PIC
= AccessViaStub
#endif
-howToAccessLabel _ lbl
- | labelDynamic lbl = AccessViaSymbolPtr
+howToAccessLabel dflags _ lbl
+ | labelDynamic (thisPackage dflags) lbl = AccessViaSymbolPtr
| otherwise = AccessDirectly
#else
--
-- all other platforms
--
-howToAccessLabel _ _
+howToAccessLabel _ _ _
| not opt_PIC = AccessDirectly
| otherwise = panic "howToAccessLabel: PIC not defined for this platform"
#endif
-- On Darwin, we have to generate our own stub code for lazy binding..
-- For each processor architecture, there are two versions, one for PIC
-- and one for non-PIC.
+--
+-- Whenever you change something in this assembler output, make sure
+-- the splitter in driver/split/ghc-split.lprl recognizes the new output
pprImportedSymbol importedLbl
#if powerpc_TARGET_ARCH
| Just (CodeStub, lbl) <- dynamicLinkerLabelInfo importedLbl
ptext SLIT(".LCTOC1 = .+32768")
]
--- We generate one .long literal for every symbol we import;
+-- We generate one .long/.quad literal for every symbol we import;
-- the dynamic linker will relocate those addresses.
pprImportedSymbol importedLbl
= vcat [
ptext SLIT(".section \".got2\", \"aw\""),
ptext SLIT(".LC_") <> pprCLabel_asm lbl <> char ':',
- ptext SLIT("\t.long") <+> pprCLabel_asm lbl
+ ptext symbolSize <+> pprCLabel_asm lbl
]
-- PLT code stubs are generated automatically be the dynamic linker.
| otherwise = empty
+ where
+ symbolSize = case wordRep of
+ I32 -> SLIT("\t.long")
+ I64 -> SLIT("\t.quad")
+ _ -> panic "Unknown wordRep in pprImportedSymbol"
#else
-- call 1f
-- 1: popl %picReg
-initializePicBase picReg (CmmProc info lab params blocks : statics)
- = return (CmmProc info lab params (b':tail blocks) : statics)
+initializePicBase picReg (CmmProc info lab params (ListGraph blocks) : statics)
+ = return (CmmProc info lab params (ListGraph (b':tail blocks)) : statics)
where BasicBlock bID insns = head blocks
b' = BasicBlock bID (FETCHPC picReg : insns)
-- the (32-bit) offset from our local label to our global offset table
-- (.LCTOC1 aka gotOffLabel).
initializePicBase picReg
- (CmmProc info lab params blocks : statics)
+ (CmmProc info lab params (ListGraph blocks) : statics)
= do
gotOffLabel <- getNewLabelNat
tmp <- getNewRegNat wordRep
(AddrRegImm picReg offsetToOffset)
: ADD picReg picReg (RIReg tmp)
: insns)
- return (CmmProc info lab params (b' : tail blocks) : gotOffset : statics)
+ return (CmmProc info lab params (ListGraph (b' : tail blocks)) : gotOffset : statics)
#elif i386_TARGET_ARCH && linux_TARGET_OS
-- We cheat a bit here by defining a pseudo-instruction named FETCHGOT
-- addl __GLOBAL_OFFSET_TABLE__+.-1b, %picReg
-- (See PprMach.lhs)
-initializePicBase picReg (CmmProc info lab params blocks : statics)
- = return (CmmProc info lab params (b':tail blocks) : statics)
+initializePicBase picReg (CmmProc info lab params (ListGraph blocks) : statics)
+ = return (CmmProc info lab params (ListGraph (b':tail blocks)) : statics)
where BasicBlock bID insns = head blocks
b' = BasicBlock bID (FETCHGOT picReg : insns)