module LlvmCodeGen ( LlvmVersion, llvmVersionList, llvmCodeGen, llvmFixupAsm ) where
#include "HsVersions.h"
import GhcPrelude
import Llvm
import LlvmCodeGen.Base
import LlvmCodeGen.CodeGen
import LlvmCodeGen.Data
import LlvmCodeGen.Ppr
import LlvmCodeGen.Regs
import LlvmMangler
import BlockId
import GHC.StgToCmm.CgUtils ( fixStgRegisters )
import Cmm
import CmmUtils
import Hoopl.Block
import Hoopl.Collections
import PprCmm
import BufWrite
import DynFlags
import GHC.Platform ( platformArch, Arch(..) )
import ErrUtils
import FastString
import Outputable
import UniqSupply
import SysTools ( figureLlvmVersion )
import qualified Stream
import Control.Monad ( when, forM_ )
import Data.Maybe ( fromMaybe, catMaybes )
import System.IO
llvmCodeGen :: DynFlags -> Handle
-> Stream.Stream IO RawCmmGroup a
-> IO a
llvmCodeGen dflags h cmm_stream
= withTiming dflags (text "LLVM CodeGen") (const ()) $ do
bufh <- newBufHandle h
showPass dflags "LLVM CodeGen"
mb_ver <- figureLlvmVersion dflags
forM_ mb_ver $ \ver -> do
debugTraceMsg dflags 2
(text "Using LLVM version:" <+> text (llvmVersionStr ver))
let doWarn = wopt Opt_WarnUnsupportedLlvmVersion dflags
when (not (llvmVersionSupported ver) && doWarn) $ putMsg dflags $
"You are using an unsupported version of LLVM!" $$
"Currently only " <> text (llvmVersionStr supportedLlvmVersion) <> " is supported." <+>
"System LLVM version: " <> text (llvmVersionStr ver) $$
"We will try though..."
let isS390X = platformArch (targetPlatform dflags) == ArchS390X
let major_ver = head . llvmVersionList $ ver
when (isS390X && major_ver < 10 && doWarn) $ putMsg dflags $
"Warning: For s390x the GHC calling convention is only supported since LLVM version 10." <+>
"You are using LLVM version: " <> text (llvmVersionStr ver)
a <- runLlvm dflags (fromMaybe supportedLlvmVersion mb_ver) bufh $
llvmCodeGen' (liftStream cmm_stream)
bFlush bufh
return a
llvmCodeGen' :: Stream.Stream LlvmM RawCmmGroup a -> LlvmM a
llvmCodeGen' cmm_stream
= do
renderLlvm header
ghcInternalFunctions
cmmMetaLlvmPrelude
a <- Stream.consume cmm_stream llvmGroupLlvmGens
renderLlvm . pprLlvmData =<< generateExternDecls
cmmUsedLlvmGens
return a
where
header :: SDoc
header = sdocWithDynFlags $ \dflags ->
let target = platformMisc_llvmTarget $ platformMisc dflags
in text ("target datalayout = \"" ++ getDataLayout dflags target ++ "\"")
$+$ text ("target triple = \"" ++ target ++ "\"")
getDataLayout :: DynFlags -> String -> String
getDataLayout dflags target =
case lookup target (llvmTargets $ llvmConfig dflags) of
Just (LlvmTarget {lDataLayout=dl}) -> dl
Nothing -> pprPanic "Failed to lookup LLVM data layout" $
text "Target:" <+> text target $$
hang (text "Available targets:") 4
(vcat $ map (text . fst) $ llvmTargets $ llvmConfig dflags)
llvmGroupLlvmGens :: RawCmmGroup -> LlvmM ()
llvmGroupLlvmGens cmm = do
let split (CmmData s d' ) = return $ Just (s, d')
split (CmmProc h l live g) = do
let l' = case mapLookup (g_entry g) h of
Nothing -> l
Just (Statics info_lbl _) -> info_lbl
lml <- strCLabel_llvm l'
funInsert lml =<< llvmFunTy live
return Nothing
cdata <- fmap catMaybes $ mapM split cmm
cmmDataLlvmGens cdata
mapM_ cmmLlvmGen cmm
cmmDataLlvmGens :: [(Section,CmmStatics)] -> LlvmM ()
cmmDataLlvmGens statics
= do lmdatas <- mapM genLlvmData statics
let (concat -> gs, tss) = unzip lmdatas
let regGlobal (LMGlobal (LMGlobalVar l ty _ _ _ _) _)
= funInsert l ty
regGlobal _ = pure ()
mapM_ regGlobal gs
gss' <- mapM aliasify $ gs
renderLlvm $ pprLlvmData (concat gss', concat tss)
fixBottom :: RawCmmDecl -> LlvmM RawCmmDecl
fixBottom cp@(CmmProc hdr entry_lbl live g) =
maybe (pure cp) fix_block $ mapLookup (g_entry g) blk_map
where
blk_map = toBlockMap g
fix_block :: CmmBlock -> LlvmM RawCmmDecl
fix_block blk
| (CmmEntry e_lbl tickscp, middle, CmmBranch b_lbl) <- blockSplit blk
, isEmptyBlock middle
, e_lbl == b_lbl = do
new_lbl <- mkBlockId <$> getUniqueM
let fst_blk =
BlockCC (CmmEntry e_lbl tickscp) BNil (CmmBranch new_lbl)
snd_blk =
BlockCC (CmmEntry new_lbl tickscp) BNil (CmmBranch new_lbl)
pure . CmmProc hdr entry_lbl live . ofBlockMap (g_entry g)
$ mapFromList [(e_lbl, fst_blk), (new_lbl, snd_blk)]
fix_block _ = pure cp
fixBottom rcd = pure rcd
cmmLlvmGen ::RawCmmDecl -> LlvmM ()
cmmLlvmGen cmm@CmmProc{} = do
dflags <- getDynFlag id
fixed_cmm <- fixBottom $
fixStgRegisters dflags cmm
dumpIfSetLlvm Opt_D_dump_opt_cmm "Optimised Cmm" (pprCmmGroup [fixed_cmm])
llvmBC <- withClearVars $ genLlvmProc fixed_cmm
(docs, ivars) <- fmap unzip $ mapM pprLlvmCmmDecl llvmBC
renderLlvm (vcat docs)
mapM_ markUsedVar $ concat ivars
cmmLlvmGen _ = return ()
cmmMetaLlvmPrelude :: LlvmM ()
cmmMetaLlvmPrelude = do
metas <- flip mapM stgTBAA $ \(uniq, name, parent) -> do
tbaaId <- getMetaUniqueId
setUniqMeta uniq tbaaId
parentId <- maybe (return Nothing) getUniqMeta parent
return $ MetaUnnamed tbaaId $ MetaStruct $
case parentId of
Just p -> [ MetaStr name, MetaNode p ]
Nothing -> [ MetaStr name ]
renderLlvm $ ppLlvmMetas metas
cmmUsedLlvmGens :: LlvmM ()
cmmUsedLlvmGens = do
ivars <- getUsedVars
let cast x = LMBitc (LMStaticPointer (pVarLift x)) i8Ptr
ty = (LMArray (length ivars) i8Ptr)
usedArray = LMStaticArray (map cast ivars) ty
sectName = Just $ fsLit "llvm.metadata"
lmUsedVar = LMGlobalVar (fsLit "llvm.used") ty Appending sectName Nothing Constant
lmUsed = LMGlobal lmUsedVar (Just usedArray)
if null ivars
then return ()
else renderLlvm $ pprLlvmData ([lmUsed], [])