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|
{- ------------------------------------------------------------------------
(c) The GHC Team, 1992-2012
DeriveConstants is a program that extracts information from the C
declarations in the header files (primarily struct field offsets)
and generates various files, such as a header file that can be #included
into non-C source containing this information.
We want to get information about code generated by the C compiler,
such as the sizes of types, and offsets of struct fields. We need
this because the layout of certain runtime objects is defined in C
headers (e.g. rts/include/rts/storage/Closures.h), but we need access to
the layout of these structures from a Haskell program (GHC).
One way to do this is to compile and run a C program that includes the
header files and prints out the sizes and offsets. However, when we
are cross-compiling, we can't run a C program compiled for the target
platform.
So, this program works as follows: we generate a C program that when
compiled to an object file, has the information we need encoded as
symbol sizes. This means that we can extract the information without
needing to run the program, by inspecting the object file using 'nm'.
------------------------------------------------------------------------ -}
import Control.Monad (when, unless)
import Data.Bits (shiftL)
import Data.List (stripPrefix, intercalate)
import Data.Map (Map)
import qualified Data.Map as Map
import Data.Maybe (catMaybes, mapMaybe, fromMaybe)
import Numeric (readHex)
import System.Environment (getArgs)
import System.Exit (ExitCode(ExitSuccess), exitFailure)
import System.FilePath ((</>),(<.>))
import System.IO (stderr, hPutStrLn)
import System.Process (showCommandForUser, readProcess, rawSystem)
import System.Directory (renameFile)
main :: IO ()
main = do opts <- parseArgs
let getOption descr opt = case opt opts of
Just x -> return x
Nothing -> die ("No " ++ descr ++ " given")
mode <- getOption "mode" o_mode
fn <- getOption "output filename" o_outputFilename
case mode of
Gen_Haskell_Type ->
writeHaskellType fn
[ what | (wh, what) <- wanteds "OS must not matter"
, wh `elem` [Haskell, Both] ]
Gen_Computed cm ->
do os <- getOption "target os" o_targetOS
tmpdir <- getOption "tmpdir" o_tmpdir
gccProg <- getOption "gcc program" o_gccProg
nmProg <- getOption "nm program" o_nmProg
let verbose = o_verbose opts
gccFlags = o_gccFlags opts
rs <- getWanted verbose os tmpdir gccProg gccFlags nmProg
(o_objdumpProg opts)
let haskellRs = [ what
| (wh, what) <- rs
, wh `elem` [Haskell, Both] ]
case cm of
ComputeHaskell -> writeHaskellValue fn haskellRs
ComputeHeader -> writeHeader fn rs
data Options = Options {
o_verbose :: Bool,
o_mode :: Maybe Mode,
o_tmpdir :: Maybe FilePath,
o_outputFilename :: Maybe FilePath,
o_gccProg :: Maybe FilePath,
o_gccFlags :: [String],
o_nmProg :: Maybe FilePath,
o_objdumpProg :: Maybe FilePath,
o_targetOS :: Maybe String
}
-- | Write a file atomically
--
-- This avoids other processes seeing the file while it is being written into.
atomicWriteFile :: FilePath -> String -> IO ()
atomicWriteFile fn s = do
let tmp = fn <.> "tmp"
writeFile tmp s
renameFile tmp fn
parseArgs :: IO Options
parseArgs = do args <- getArgs
opts <- f emptyOptions args
return (opts {o_gccFlags = reverse (o_gccFlags opts)})
where emptyOptions = Options {
o_verbose = False,
o_mode = Nothing,
o_tmpdir = Nothing,
o_outputFilename = Nothing,
o_gccProg = Nothing,
o_gccFlags = [],
o_nmProg = Nothing,
o_objdumpProg = Nothing,
o_targetOS = Nothing
}
f opts [] = return opts
f opts ("-v" : args')
= f (opts {o_verbose = True}) args'
f opts ("--gen-haskell-type" : args')
= f (opts {o_mode = Just Gen_Haskell_Type}) args'
f opts ("--gen-haskell-value" : args')
= f (opts {o_mode = Just (Gen_Computed ComputeHaskell)}) args'
f opts ("--gen-header" : args')
= f (opts {o_mode = Just (Gen_Computed ComputeHeader)}) args'
f opts ("--tmpdir" : dir : args')
= f (opts {o_tmpdir = Just dir}) args'
f opts ("-o" : fn : args')
= f (opts {o_outputFilename = Just fn}) args'
f opts ("--gcc-program" : prog : args')
= f (opts {o_gccProg = Just prog}) args'
f opts ("--gcc-flag" : flag : args')
= f (opts {o_gccFlags = flag : o_gccFlags opts}) args'
f opts ("--nm-program" : prog : args')
= f (opts {o_nmProg = Just prog}) args'
f opts ("--objdump-program" : prog : args')
= f (opts {o_objdumpProg = Just prog}) args'
f opts ("--target-os" : os : args')
= f (opts {o_targetOS = Just os}) args'
f _ (flag : _) = die ("Unrecognised flag: " ++ show flag)
data Mode = Gen_Haskell_Type
| Gen_Computed ComputeMode
data ComputeMode = ComputeHaskell | ComputeHeader
type Wanteds = [(Where, What Fst)]
type Results = [(Where, What Snd)]
type Name = String
newtype CExpr = CExpr String
newtype CPPExpr = CPPExpr String
data What f = GetFieldType Name (f CExpr Integer)
| GetClosureSize Name (f CExpr Integer)
| GetWord Name (f CExpr Integer)
| GetInt Name (f CExpr Integer)
| GetNatural Name (f CExpr Integer)
| GetBool Name (f CPPExpr Bool)
| StructFieldMacro Name
| ClosureFieldMacro Name
| ClosurePayloadMacro Name
| FieldTypeGcptrMacro Name
data Fst a b = Fst a
data Snd a b = Snd b
data Where = C | Haskell | Both
deriving Eq
constantInt :: Where -> Name -> String -> Wanteds
constantInt w name expr = [(w, GetInt name (Fst (CExpr expr)))]
constantWord :: Where -> Name -> String -> Wanteds
constantWord w name expr = [(w, GetWord name (Fst (CExpr expr)))]
constantNatural :: Where -> Name -> String -> Wanteds
constantNatural w name expr = [(w, GetNatural name (Fst (CExpr expr)))]
-- constantBool :: Where -> Name -> String -> Wanteds
-- constantBool w name expr = [(w, GetBool name (Fst (CPPExpr expr)))]
fieldOffset :: Where -> String -> String -> Wanteds
fieldOffset w theType theField = fieldOffset_ w nameBase theType theField
where nameBase = theType ++ "_" ++ theField
fieldOffset_ :: Where -> Name -> String -> String -> Wanteds
fieldOffset_ w nameBase theType theField = [(w, GetWord name (Fst (CExpr expr)))]
where name = "OFFSET_" ++ nameBase
expr = "offsetof(" ++ theType ++ ", " ++ theField ++ ")"
-- FieldType is for defining REP_x to be b32 etc
-- These are both the C-- types used in a load
-- e.g. b32[addr]
-- and the names of the CmmTypes in the compiler
-- b32 :: CmmType
fieldType' :: Where -> String -> String -> Wanteds
fieldType' w theType theField
= fieldType_' w nameBase theType theField
where nameBase = theType ++ "_" ++ theField
fieldType_' :: Where -> Name -> String -> String -> Wanteds
fieldType_' w nameBase theType theField
= [(w, GetFieldType name (Fst (CExpr expr)))]
where name = "REP_" ++ nameBase
expr = "FIELD_SIZE(" ++ theType ++ ", " ++ theField ++ ")"
structField :: Where -> String -> String -> Wanteds
structField = structFieldHelper C
structFieldH :: Where -> String -> String -> Wanteds
structFieldH w = structFieldHelper w w
structField_ :: Where -> Name -> String -> String -> Wanteds
structField_ w nameBase theType theField
= fieldOffset_ w nameBase theType theField
++ fieldType_' C nameBase theType theField
++ structFieldMacro nameBase
structFieldMacro :: Name -> Wanteds
structFieldMacro nameBase = [(C, StructFieldMacro nameBase)]
-- Outputs the byte offset and MachRep for a field
structFieldHelper :: Where -> Where -> String -> String -> Wanteds
structFieldHelper wFT w theType theField = fieldOffset w theType theField
++ fieldType' wFT theType theField
++ structFieldMacro nameBase
where nameBase = theType ++ "_" ++ theField
closureFieldMacro :: Name -> Wanteds
closureFieldMacro nameBase = [(C, ClosureFieldMacro nameBase)]
closurePayload :: Where -> String -> String -> Wanteds
closurePayload w theType theField
= closureFieldOffset_ w nameBase theType theField
++ closurePayloadMacro nameBase
where nameBase = theType ++ "_" ++ theField
closurePayloadMacro :: Name -> Wanteds
closurePayloadMacro nameBase = [(C, ClosurePayloadMacro nameBase)]
-- Byte offset and MachRep for a closure field, minus the header
closureField_ :: Where -> Name -> String -> String -> Wanteds
closureField_ w nameBase theType theField
= closureFieldOffset_ w nameBase theType theField
++ fieldType_' C nameBase theType theField
++ closureFieldMacro nameBase
closureField :: Where -> String -> String -> Wanteds
closureField w theType theField = closureField_ w nameBase theType theField
where nameBase = theType ++ "_" ++ theField
closureFieldOffset_ :: Where -> Name -> String -> String -> Wanteds
closureFieldOffset_ w nameBase theType theField
= defOffset w nameBase (CExpr ("offsetof(" ++ theType ++ ", " ++ theField ++ ") - TYPE_SIZE(StgHeader)"))
-- Size of a closure type, minus the header, named SIZEOF_<type>_NoHdr
-- Also, we #define SIZEOF_<type> to be the size of the whole closure for .cmm.
closureSize :: Where -> String -> Wanteds
closureSize w theType = defSize w (theType ++ "_NoHdr") (CExpr expr)
++ defClosureSize C theType (CExpr expr)
where expr = "TYPE_SIZE(" ++ theType ++ ") - TYPE_SIZE(StgHeader)"
-- Byte offset and MachRep for a closure field, minus the header
closureFieldGcptr :: Where -> String -> String -> Wanteds
closureFieldGcptr w theType theField
= closureFieldOffset_ w nameBase theType theField
++ fieldTypeGcptr nameBase
++ closureFieldMacro nameBase
where nameBase = theType ++ "_" ++ theField
fieldTypeGcptr :: Name -> Wanteds
fieldTypeGcptr nameBase = [(C, FieldTypeGcptrMacro nameBase)]
closureFieldOffset :: Where -> String -> String -> Wanteds
closureFieldOffset w theType theField
= defOffset w nameBase (CExpr expr)
where nameBase = theType ++ "_" ++ theField
expr = "offsetof(" ++ theType ++ ", " ++ theField ++ ") - TYPE_SIZE(StgHeader)"
thunkSize :: Where -> String -> Wanteds
thunkSize w theType
= defSize w (theType ++ "_NoThunkHdr") (CExpr expr)
++ closureSize w theType
where expr = "TYPE_SIZE(" ++ theType ++ ") - TYPE_SIZE(StgThunkHeader)"
defIntOffset :: Where -> Name -> String -> Wanteds
defIntOffset w nameBase cExpr = [(w, GetInt ("OFFSET_" ++ nameBase) (Fst (CExpr cExpr)))]
defOffset :: Where -> Name -> CExpr -> Wanteds
defOffset w nameBase cExpr = [(w, GetWord ("OFFSET_" ++ nameBase) (Fst cExpr))]
structSize :: Where -> String -> Wanteds
structSize w theType = defSize w theType (CExpr ("TYPE_SIZE(" ++ theType ++ ")"))
defSize :: Where -> Name -> CExpr -> Wanteds
defSize w nameBase cExpr = [(w, GetWord ("SIZEOF_" ++ nameBase) (Fst cExpr))]
defClosureSize :: Where -> Name -> CExpr -> Wanteds
defClosureSize w nameBase cExpr = [(w, GetClosureSize ("SIZEOF_" ++ nameBase) (Fst cExpr))]
wanteds :: String -> Wanteds
wanteds os = concat
[-- Control group constant for integrity check; this
-- round-tripped constant is used for testing that
-- derivedConstant works as expected
constantWord Both "CONTROL_GROUP_CONST_291" "0x123"
-- Closure header sizes.
,constantWord Both "STD_HDR_SIZE"
-- grrr.. PROFILING is on so we need to
-- subtract sizeofW(StgProfHeader)
"sizeofW(StgHeader) - sizeofW(StgProfHeader)"
,constantWord Both "PROF_HDR_SIZE" "sizeofW(StgProfHeader)"
-- Stack flags for C--
,constantWord C "STACK_DIRTY" "STACK_DIRTY"
-- Size of a storage manager block (in bytes).
,constantWord Both "BLOCK_SIZE" "BLOCK_SIZE"
,constantWord C "MBLOCK_SIZE" "MBLOCK_SIZE"
-- blocks that fit in an MBlock, leaving space for the block
-- descriptors
,constantWord Both "BLOCKS_PER_MBLOCK" "BLOCKS_PER_MBLOCK"
-- could be derived, but better to save doing the calculation twice
,constantWord Both "TICKY_BIN_COUNT" "TICKY_BIN_COUNT"
-- number of bins for histograms used in ticky code
,fieldOffset Both "StgRegTable" "rR1"
,fieldOffset Both "StgRegTable" "rR2"
,fieldOffset Both "StgRegTable" "rR3"
,fieldOffset Both "StgRegTable" "rR4"
,fieldOffset Both "StgRegTable" "rR5"
,fieldOffset Both "StgRegTable" "rR6"
,fieldOffset Both "StgRegTable" "rR7"
,fieldOffset Both "StgRegTable" "rR8"
,fieldOffset Both "StgRegTable" "rR9"
,fieldOffset Both "StgRegTable" "rR10"
,fieldOffset Both "StgRegTable" "rF1"
,fieldOffset Both "StgRegTable" "rF2"
,fieldOffset Both "StgRegTable" "rF3"
,fieldOffset Both "StgRegTable" "rF4"
,fieldOffset Both "StgRegTable" "rF5"
,fieldOffset Both "StgRegTable" "rF6"
,fieldOffset Both "StgRegTable" "rD1"
,fieldOffset Both "StgRegTable" "rD2"
,fieldOffset Both "StgRegTable" "rD3"
,fieldOffset Both "StgRegTable" "rD4"
,fieldOffset Both "StgRegTable" "rD5"
,fieldOffset Both "StgRegTable" "rD6"
,fieldOffset Both "StgRegTable" "rXMM1"
,fieldOffset Both "StgRegTable" "rXMM2"
,fieldOffset Both "StgRegTable" "rXMM3"
,fieldOffset Both "StgRegTable" "rXMM4"
,fieldOffset Both "StgRegTable" "rXMM5"
,fieldOffset Both "StgRegTable" "rXMM6"
,fieldOffset Both "StgRegTable" "rYMM1"
,fieldOffset Both "StgRegTable" "rYMM2"
,fieldOffset Both "StgRegTable" "rYMM3"
,fieldOffset Both "StgRegTable" "rYMM4"
,fieldOffset Both "StgRegTable" "rYMM5"
,fieldOffset Both "StgRegTable" "rYMM6"
,fieldOffset Both "StgRegTable" "rZMM1"
,fieldOffset Both "StgRegTable" "rZMM2"
,fieldOffset Both "StgRegTable" "rZMM3"
,fieldOffset Both "StgRegTable" "rZMM4"
,fieldOffset Both "StgRegTable" "rZMM5"
,fieldOffset Both "StgRegTable" "rZMM6"
,fieldOffset Both "StgRegTable" "rL1"
,fieldOffset Both "StgRegTable" "rSp"
,fieldOffset Both "StgRegTable" "rSpLim"
,fieldOffset Both "StgRegTable" "rHp"
,fieldOffset Both "StgRegTable" "rHpLim"
,fieldOffset Both "StgRegTable" "rCCCS"
,fieldOffset Both "StgRegTable" "rCurrentTSO"
,fieldOffset Both "StgRegTable" "rCurrentNursery"
,fieldOffset Both "StgRegTable" "rHpAlloc"
,structField C "StgRegTable" "rRet"
,structField C "StgRegTable" "rNursery"
,defIntOffset Both "stgEagerBlackholeInfo"
"FUN_OFFSET(stgEagerBlackholeInfo)"
,defIntOffset Both "stgGCEnter1" "FUN_OFFSET(stgGCEnter1)"
,defIntOffset Both "stgGCFun" "FUN_OFFSET(stgGCFun)"
,fieldOffset Both "Capability" "r"
,fieldOffset C "Capability" "lock"
,structField C "Capability" "no"
,structField C "Capability" "mut_lists"
,structField C "Capability" "context_switch"
,structField C "Capability" "interrupt"
,structField C "Capability" "sparks"
,structField C "Capability" "total_allocated"
,structField C "Capability" "weak_ptr_list_hd"
,structField C "Capability" "weak_ptr_list_tl"
,structField Both "bdescr" "start"
,structField Both "bdescr" "free"
,structField Both "bdescr" "blocks"
,structField C "bdescr" "gen_no"
,structField C "bdescr" "link"
,structField Both "bdescr" "flags"
,structSize C "generation"
,structField C "generation" "n_new_large_words"
,structField C "generation" "weak_ptr_list"
,structSize Both "CostCentreStack"
,structField C "CostCentreStack" "ccsID"
,structFieldH Both "CostCentreStack" "mem_alloc"
,structFieldH Both "CostCentreStack" "scc_count"
,structField C "CostCentreStack" "prevStack"
,structField C "CostCentre" "ccID"
,structField C "CostCentre" "link"
,structField C "StgHeader" "info"
,structField_ Both "StgHeader_ccs" "StgHeader" "prof.ccs"
,structField_ Both "StgHeader_ldvw" "StgHeader" "prof.hp.ldvw"
,structSize Both "StgSMPThunkHeader"
,closurePayload C "StgClosure" "payload"
,structFieldH Both "StgEntCounter" "allocs"
,structFieldH Both "StgEntCounter" "allocd"
,structField Both "StgEntCounter" "registeredp"
,structField Both "StgEntCounter" "link"
,structField Both "StgEntCounter" "entry_count"
,closureSize Both "StgUpdateFrame"
,closureSize C "StgCatchFrame"
,closureSize C "StgStopFrame"
,closureSize Both "StgMutArrPtrs"
,closureField Both "StgMutArrPtrs" "ptrs"
,closureField Both "StgMutArrPtrs" "size"
,closureSize Both "StgSmallMutArrPtrs"
,closureField Both "StgSmallMutArrPtrs" "ptrs"
,closureSize Both "StgArrBytes"
,closureField Both "StgArrBytes" "bytes"
,closurePayload C "StgArrBytes" "payload"
,closureField C "StgTSO" "_link"
,closureField C "StgTSO" "global_link"
,closureField C "StgTSO" "what_next"
,closureField C "StgTSO" "why_blocked"
,closureField C "StgTSO" "block_info"
,closureField C "StgTSO" "blocked_exceptions"
,closureField C "StgTSO" "id"
,closureField C "StgTSO" "cap"
,closureField C "StgTSO" "saved_errno"
,closureField C "StgTSO" "trec"
,closureField C "StgTSO" "flags"
,closureField C "StgTSO" "dirty"
,closureField C "StgTSO" "bq"
,closureField Both "StgTSO" "alloc_limit"
,closureField_ Both "StgTSO_cccs" "StgTSO" "prof.cccs"
,closureField Both "StgTSO" "stackobj"
,closureField Both "StgStack" "sp"
,closureFieldOffset Both "StgStack" "stack"
,closureField C "StgStack" "stack_size"
,closureField C "StgStack" "dirty"
,structSize C "StgTSOProfInfo"
,closureField Both "StgUpdateFrame" "updatee"
,closureField C "StgCatchFrame" "handler"
,closureField C "StgCatchFrame" "exceptions_blocked"
,closureSize C "StgPAP"
,closureField C "StgPAP" "n_args"
,closureFieldGcptr C "StgPAP" "fun"
,closureField C "StgPAP" "arity"
,closurePayload C "StgPAP" "payload"
,thunkSize C "StgAP"
,closureField C "StgAP" "n_args"
,closureFieldGcptr C "StgAP" "fun"
,closurePayload C "StgAP" "payload"
,thunkSize C "StgAP_STACK"
,closureField C "StgAP_STACK" "size"
,closureFieldGcptr C "StgAP_STACK" "fun"
,closurePayload C "StgAP_STACK" "payload"
,thunkSize C "StgSelector"
,closureFieldGcptr C "StgInd" "indirectee"
,closureSize C "StgMutVar"
,closureField C "StgMutVar" "var"
,closureSize C "StgAtomicallyFrame"
,closureField C "StgAtomicallyFrame" "code"
,closureField C "StgAtomicallyFrame" "result"
,closureField C "StgTRecHeader" "enclosing_trec"
,closureSize C "StgCatchSTMFrame"
,closureField C "StgCatchSTMFrame" "handler"
,closureField C "StgCatchSTMFrame" "code"
,closureSize C "StgCatchRetryFrame"
,closureField C "StgCatchRetryFrame" "running_alt_code"
,closureField C "StgCatchRetryFrame" "first_code"
,closureField C "StgCatchRetryFrame" "alt_code"
,closureField C "StgTVarWatchQueue" "closure"
,closureField C "StgTVarWatchQueue" "next_queue_entry"
,closureField C "StgTVarWatchQueue" "prev_queue_entry"
,closureSize C "StgTVar"
,closureField C "StgTVar" "current_value"
,closureField C "StgTVar" "first_watch_queue_entry"
,closureField C "StgTVar" "num_updates"
,closureSize C "StgWeak"
,closureField C "StgWeak" "link"
,closureField C "StgWeak" "key"
,closureField C "StgWeak" "value"
,closureField C "StgWeak" "finalizer"
,closureField C "StgWeak" "cfinalizers"
,closureSize C "StgCFinalizerList"
,closureField C "StgCFinalizerList" "link"
,closureField C "StgCFinalizerList" "fptr"
,closureField C "StgCFinalizerList" "ptr"
,closureField C "StgCFinalizerList" "eptr"
,closureField C "StgCFinalizerList" "flag"
,closureSize C "StgMVar"
,closureField C "StgMVar" "head"
,closureField C "StgMVar" "tail"
,closureField C "StgMVar" "value"
,closureSize C "StgMVarTSOQueue"
,closureField C "StgMVarTSOQueue" "link"
,closureField C "StgMVarTSOQueue" "tso"
,closureSize C "StgBCO"
,closureField C "StgBCO" "instrs"
,closureField C "StgBCO" "literals"
,closureField C "StgBCO" "ptrs"
,closureField C "StgBCO" "arity"
,closureField C "StgBCO" "size"
,closurePayload C "StgBCO" "bitmap"
,closureSize C "StgStableName"
,closureField C "StgStableName" "sn"
,closureSize C "StgBlockingQueue"
,closureField C "StgBlockingQueue" "bh"
,closureField C "StgBlockingQueue" "owner"
,closureField C "StgBlockingQueue" "queue"
,closureField C "StgBlockingQueue" "link"
,closureSize C "MessageBlackHole"
,closureField C "MessageBlackHole" "link"
,closureField C "MessageBlackHole" "tso"
,closureField C "MessageBlackHole" "bh"
,closureSize C "StgCompactNFData"
,closureField C "StgCompactNFData" "totalW"
,closureField C "StgCompactNFData" "autoBlockW"
,closureField C "StgCompactNFData" "nursery"
,closureField C "StgCompactNFData" "last"
,closureField C "StgCompactNFData" "hp"
,closureField C "StgCompactNFData" "hpLim"
,closureField C "StgCompactNFData" "hash"
,closureField C "StgCompactNFData" "result"
,structSize C "StgCompactNFDataBlock"
,structField C "StgCompactNFDataBlock" "self"
,structField C "StgCompactNFDataBlock" "owner"
,structField C "StgCompactNFDataBlock" "next"
,structField_ C "RtsFlags_ProfFlags_doHeapProfile"
"RTS_FLAGS" "ProfFlags.doHeapProfile"
,structField_ C "RtsFlags_ProfFlags_showCCSOnException"
"RTS_FLAGS" "ProfFlags.showCCSOnException"
,structField_ C "RtsFlags_DebugFlags_apply"
"RTS_FLAGS" "DebugFlags.apply"
,structField_ C "RtsFlags_DebugFlags_sanity"
"RTS_FLAGS" "DebugFlags.sanity"
,structField_ C "RtsFlags_DebugFlags_weak"
"RTS_FLAGS" "DebugFlags.weak"
,structField_ C "RtsFlags_GcFlags_initialStkSize"
"RTS_FLAGS" "GcFlags.initialStkSize"
,structField_ C "RtsFlags_MiscFlags_tickInterval"
"RTS_FLAGS" "MiscFlags.tickInterval"
,structSize C "StgFunInfoExtraFwd"
,structField C "StgFunInfoExtraFwd" "slow_apply"
,structField C "StgFunInfoExtraFwd" "fun_type"
,structFieldH Both "StgFunInfoExtraFwd" "arity"
,structField_ C "StgFunInfoExtraFwd_bitmap" "StgFunInfoExtraFwd" "b.bitmap"
,structSize Both "StgFunInfoExtraRev"
,structField C "StgFunInfoExtraRev" "slow_apply_offset"
,structField C "StgFunInfoExtraRev" "fun_type"
,structFieldH Both "StgFunInfoExtraRev" "arity"
,structField_ C "StgFunInfoExtraRev_bitmap" "StgFunInfoExtraRev" "b.bitmap"
,structField_ C "StgFunInfoExtraRev_bitmap_offset" "StgFunInfoExtraRev" "b.bitmap_offset"
,structField C "StgLargeBitmap" "size"
,fieldOffset C "StgLargeBitmap" "bitmap"
,structSize C "snEntry"
,structField C "snEntry" "sn_obj"
,structField C "snEntry" "addr"
,structSize C "spEntry"
,structField C "spEntry" "addr"
-- Note that this conditional part only affects the C headers.
-- That's important, as it means we get the same PlatformConstants
-- type on all platforms.
,if os == "mingw32"
then concat [structSize C "StgAsyncIOResult"
,structField C "StgAsyncIOResult" "reqID"
,structField C "StgAsyncIOResult" "len"
,structField C "StgAsyncIOResult" "errCode"]
else []
-- pre-compiled thunk types
,constantWord Haskell "MAX_SPEC_SELECTEE_SIZE" "MAX_SPEC_SELECTEE_SIZE"
,constantWord Haskell "MAX_SPEC_AP_SIZE" "MAX_SPEC_AP_SIZE"
-- closure sizes: these do NOT include the header (see below for
-- header sizes)
,constantWord Haskell "MIN_PAYLOAD_SIZE" "MIN_PAYLOAD_SIZE"
,constantInt Haskell "MIN_INTLIKE" "MIN_INTLIKE"
,constantWord Haskell "MAX_INTLIKE" "MAX_INTLIKE"
,constantWord Haskell "MIN_CHARLIKE" "MIN_CHARLIKE"
,constantWord Haskell "MAX_CHARLIKE" "MAX_CHARLIKE"
,constantWord Haskell "MUT_ARR_PTRS_CARD_BITS" "MUT_ARR_PTRS_CARD_BITS"
-- A section of code-generator-related MAGIC CONSTANTS.
,constantWord Haskell "MAX_Vanilla_REG" "MAX_VANILLA_REG"
,constantWord Haskell "MAX_Float_REG" "MAX_FLOAT_REG"
,constantWord Haskell "MAX_Double_REG" "MAX_DOUBLE_REG"
,constantWord Haskell "MAX_Long_REG" "MAX_LONG_REG"
,constantWord Haskell "MAX_XMM_REG" "MAX_XMM_REG"
,constantWord Haskell "MAX_Real_Vanilla_REG" "MAX_REAL_VANILLA_REG"
,constantWord Haskell "MAX_Real_Float_REG" "MAX_REAL_FLOAT_REG"
,constantWord Haskell "MAX_Real_Double_REG" "MAX_REAL_DOUBLE_REG"
,constantWord Haskell "MAX_Real_XMM_REG" "MAX_REAL_XMM_REG"
,constantWord Haskell "MAX_Real_Long_REG" "MAX_REAL_LONG_REG"
-- This tells the native code generator the size of the spill
-- area it has available.
,constantWord Haskell "RESERVED_C_STACK_BYTES" "RESERVED_C_STACK_BYTES"
-- The amount of (Haskell) stack to leave free for saving
-- registers when returning to the scheduler.
,constantWord Haskell "RESERVED_STACK_WORDS" "RESERVED_STACK_WORDS"
-- Continuations that need more than this amount of stack
-- should do their own stack check (see bug #1466).
,constantWord Haskell "AP_STACK_SPLIM" "AP_STACK_SPLIM"
-- Size of a word, in bytes
,constantWord Haskell "WORD_SIZE" "SIZEOF_HSWORD"
-- Size of a C int, in bytes. May be smaller than wORD_SIZE.
,constantWord Haskell "CINT_SIZE" "SIZEOF_INT"
,constantWord Haskell "CLONG_SIZE" "SIZEOF_LONG"
,constantWord Haskell "CLONG_LONG_SIZE" "SIZEOF_LONG_LONG"
-- Number of bits to shift a bitfield left by in an info table.
,constantWord Haskell "BITMAP_BITS_SHIFT" "BITMAP_BITS_SHIFT"
-- Amount of pointer bits used for semi-tagging constructor closures
,constantWord Haskell "TAG_BITS" "TAG_BITS"
,constantWord Haskell "LDV_SHIFT" "LDV_SHIFT"
,constantNatural Haskell "ILDV_CREATE_MASK" "LDV_CREATE_MASK"
,constantNatural Haskell "ILDV_STATE_CREATE" "LDV_STATE_CREATE"
,constantNatural Haskell "ILDV_STATE_USE" "LDV_STATE_USE"
]
getWanted :: Bool -> String -> FilePath -> FilePath -> [String] -> FilePath -> Maybe FilePath
-> IO Results
getWanted verbose os tmpdir gccProgram gccFlags nmProgram mobjdumpProgram
= do let cStuff = unlines (headers ++ concatMap (doWanted . snd) (wanteds os))
cFile = tmpdir </> "tmp.c"
oFile = tmpdir </> "tmp.o"
atomicWriteFile cFile cStuff
execute verbose gccProgram (gccFlags ++ ["-c", cFile, "-o", oFile])
xs <- case os of
"openbsd" -> readProcess objdumpProgam ["--syms", oFile] ""
"aix" -> readProcess objdumpProgam ["--syms", oFile] ""
_ -> readProcess nmProgram ["-P", oFile] ""
let ls = lines xs
m = Map.fromList $ case os of
"aix" -> parseAixObjdump ls
_ -> mapMaybe parseNmLine ls
case Map.lookup "CONTROL_GROUP_CONST_291" m of
Just 292 -> return () -- OK
Nothing -> die "CONTROL_GROUP_CONST_291 missing!"
Just 0x292 -> die $ "broken 'nm' detected, see https://gitlab.haskell.org/ghc/ghc/issues/11744.\n"
++ "\n"
++ "Workaround: You may want to pass\n"
++ " --with-nm=$(xcrun --find nm-classic)\n"
++ "to 'configure'.\n"
Just x -> die ("unexpected value round-tripped for CONTROL_GROUP_CONST_291: " ++ show x)
mapM (lookupResult m) (wanteds os)
where headers = ["#define IN_STG_CODE 0",
"",
"/*",
" * We need offsets of profiled things...",
" * better be careful that this doesn't",
" * affect the offsets of anything else.",
" */",
"",
"#define PROFILING",
"#define THREADED_RTS",
-- We need to define this if we want StgAsyncIOResult
-- struct to be present after CPP
--
-- FIXME: rts/PosixSource.h should include ghcplatform.h
-- which should set this. There is a mismatch host/target
-- again...
if os == "mingw32" then "#define mingw32_HOST_OS 1" else "",
"",
"#include \"rts/PosixSource.h\"",
"#include \"Rts.h\"",
"#include \"StableName.h\"",
"#include \"Capability.h\"",
"",
"#include <inttypes.h>",
"#include <stddef.h>",
"#include <stdio.h>",
"#include <string.h>",
"",
"#define FIELD_SIZE(s_type, field) ((size_t)sizeof(((s_type*)0)->field))",
"#define TYPE_SIZE(type) (sizeof(type))",
"#define FUN_OFFSET(sym) (offsetof(Capability,f.sym) - offsetof(Capability,r))",
"",
"#pragma GCC poison sizeof"
]
objdumpProgam = fromMaybe (error "no objdump program given") mobjdumpProgram
prefix = "derivedConstant"
mkFullName name = prefix ++ name
-- We add 1 to the value, as some platforms will make a symbol
-- of size 1 when for
-- char foo[0];
-- We then subtract 1 again when parsing.
doWanted (GetFieldType name (Fst (CExpr cExpr)))
= ["char " ++ mkFullName name ++ "[1 + " ++ cExpr ++ "];"]
doWanted (GetClosureSize name (Fst (CExpr cExpr)))
= ["char " ++ mkFullName name ++ "[1 + " ++ cExpr ++ "];"]
doWanted (GetWord name (Fst (CExpr cExpr)))
= ["char " ++ mkFullName name ++ "[1 + " ++ cExpr ++ "];"]
doWanted (GetInt name (Fst (CExpr cExpr)))
= ["char " ++ mkFullName name ++ "Mag[1 + ((intptr_t)(" ++ cExpr ++ ") >= 0 ? (" ++ cExpr ++ ") : -(" ++ cExpr ++ "))];",
"char " ++ mkFullName name ++ "Sig[(intptr_t)(" ++ cExpr ++ ") >= 0 ? 3 : 1];"]
doWanted (GetNatural name (Fst (CExpr cExpr)))
= -- These casts fix "right shift count >= width of type"
-- warnings
let cExpr' = "(uint64_t)(size_t)(" ++ cExpr ++ ")"
in ["char " ++ mkFullName name ++ "0[1 + ((" ++ cExpr' ++ ") & 0xFFFF)];",
"char " ++ mkFullName name ++ "1[1 + (((" ++ cExpr' ++ ") >> 16) & 0xFFFF)];",
"char " ++ mkFullName name ++ "2[1 + (((" ++ cExpr' ++ ") >> 32) & 0xFFFF)];",
"char " ++ mkFullName name ++ "3[1 + (((" ++ cExpr' ++ ") >> 48) & 0xFFFF)];"]
doWanted (GetBool name (Fst (CPPExpr cppExpr)))
= ["#if " ++ cppExpr,
"char " ++ mkFullName name ++ "[1];",
"#else",
"char " ++ mkFullName name ++ "[2];",
"#endif"]
doWanted (StructFieldMacro {}) = []
doWanted (ClosureFieldMacro {}) = []
doWanted (ClosurePayloadMacro {}) = []
doWanted (FieldTypeGcptrMacro {}) = []
-- parseNmLine parses "nm -P" output that looks like
-- "derivedConstantMAX_Vanilla_REG C 0000000b 0000000b" (GNU nm)
-- "_derivedConstantMAX_Vanilla_REG C b 0" (Mac OS X)
-- "_derivedConstantMAX_Vanilla_REG C 000000b" (MinGW)
-- "derivedConstantMAX_Vanilla_REG D 1 b" (Solaris)
-- and returns ("MAX_Vanilla_REG", 11)
parseNmLine line
= case words line of
('_' : n) : "C" : s : _ -> mkP n s
n : "C" : s : _ -> mkP n s
[n, "D", _, s] -> mkP n s
[s, "O", "*COM*", _, n] -> mkP n s
_ -> Nothing
where mkP r s = case (stripPrefix prefix r, readHex s) of
(Just name, [(size, "")]) -> Just (name, size)
_ -> Nothing
-- On AIX, `nm` isn't able to tell us the symbol size, so we
-- need to use `objdump --syms`. However, unlike on OpenBSD,
-- `objdump --syms` outputs entries spanning two lines, e.g.
--
-- [ 50](sec 3)(fl 0x00)(ty 0)(scl 2) (nx 1) 0x00000318 derivedConstantBLOCK_SIZE
-- AUX val 4097 prmhsh 0 snhsh 0 typ 3 algn 3 clss 5 stb 0 snstb 0
--
parseAixObjdump :: [String] -> [(String,Integer)]
parseAixObjdump = catMaybes . goAix
where
goAix (l1@('[':_):l2@('A':'U':'X':_):ls')
= parseObjDumpEntry l1 l2 : goAix ls'
goAix (_:ls') = goAix ls'
goAix [] = []
parseObjDumpEntry l1 l2
| ["val",n] <- take 2 (tail $ words l2)
, Just sym <- stripPrefix prefix sym0 = Just (sym, read n)
| otherwise = Nothing
where
[sym0, _] = take 2 (reverse $ words l1)
-- If an Int value is larger than 2^28 or smaller
-- than -2^28, then fail.
-- This test is a bit conservative, but if any
-- constants are roughly maxBound or minBound then
-- we probably need them to be Integer rather than
-- Int so that -- cross-compiling between 32bit and
-- 64bit platforms works.
lookupSmall :: Map String Integer -> Name -> IO Integer
lookupSmall m name
= case Map.lookup name m of
Just v
| v > 2^(28 :: Int) ||
v < -(2^(28 :: Int)) ->
die ("Value too large for GetWord: " ++ show v)
| otherwise -> return v
Nothing -> die ("Can't find " ++ show name)
lookupResult :: Map String Integer -> (Where, What Fst)
-> IO (Where, What Snd)
lookupResult m (w, GetWord name _)
= do v <- lookupSmall m name
return (w, GetWord name (Snd (v - 1)))
lookupResult m (w, GetInt name _)
= do mag <- lookupSmall m (name ++ "Mag")
sig <- lookupSmall m (name ++ "Sig")
return (w, GetWord name (Snd ((mag - 1) * (sig - 2))))
lookupResult m (w, GetNatural name _)
= do v0 <- lookupSmall m (name ++ "0")
v1 <- lookupSmall m (name ++ "1")
v2 <- lookupSmall m (name ++ "2")
v3 <- lookupSmall m (name ++ "3")
let v = (v0 - 1)
+ shiftL (v1 - 1) 16
+ shiftL (v2 - 1) 32
+ shiftL (v3 - 1) 48
return (w, GetWord name (Snd v))
lookupResult m (w, GetBool name _)
= do v <- lookupSmall m name
case v of
1 -> return (w, GetBool name (Snd True))
2 -> return (w, GetBool name (Snd False))
_ -> die ("Bad boolean: " ++ show v)
lookupResult m (w, GetFieldType name _)
= do v <- lookupSmall m name
return (w, GetFieldType name (Snd (v - 1)))
lookupResult m (w, GetClosureSize name _)
= do v <- lookupSmall m name
return (w, GetClosureSize name (Snd (v - 1)))
lookupResult _ (w, StructFieldMacro name)
= return (w, StructFieldMacro name)
lookupResult _ (w, ClosureFieldMacro name)
= return (w, ClosureFieldMacro name)
lookupResult _ (w, ClosurePayloadMacro name)
= return (w, ClosurePayloadMacro name)
lookupResult _ (w, FieldTypeGcptrMacro name)
= return (w, FieldTypeGcptrMacro name)
writeHaskellType :: FilePath -> [What Fst] -> IO ()
writeHaskellType fn ws = atomicWriteFile fn xs
where xs = unlines [header, body, footer, parser]
header = "module GHC.Platform.Constants where\n\n\
\import Prelude\n\
\import Data.Char\n\n\
\data PlatformConstants = PlatformConstants {"
footer = " } deriving (Show,Read,Eq)\n\n"
body = intercalate ",\n" (concatMap doWhat ws)
doWhat (GetClosureSize name _) = [" pc_" ++ name ++ " :: {-# UNPACK #-} !Int"]
doWhat (GetFieldType name _) = [" pc_" ++ name ++ " :: {-# UNPACK #-} !Int"]
doWhat (GetWord name _) = [" pc_" ++ name ++ " :: {-# UNPACK #-} !Int"]
doWhat (GetInt name _) = [" pc_" ++ name ++ " :: {-# UNPACK #-} !Int"]
doWhat (GetNatural name _) = [" pc_" ++ name ++ " :: !Integer"]
doWhat (GetBool name _) = [" pc_" ++ name ++ " :: !Bool"]
doWhat (StructFieldMacro {}) = []
doWhat (ClosureFieldMacro {}) = []
doWhat (ClosurePayloadMacro {}) = []
doWhat (FieldTypeGcptrMacro {}) = []
vs = zip ws [(0::Int)..]
parser =
"parseConstantsHeader :: FilePath -> IO PlatformConstants\n\
\parseConstantsHeader fp = do\n\
\ s <- readFile fp\n\
\ let def = \"#define HS_CONSTANTS \\\"\"\n\
\ find [] xs = xs\n\
\ find _ [] = error $ \"GHC couldn't find the RTS constants (\"++def++\") in \" ++ fp ++ \": the RTS package you are trying to use is perhaps for another GHC version\" ++\n\
\ \"(e.g. you are using the wrong package database) or the package database is broken.\\n\"\n\
\ find (d:ds) (x:xs)\n\
\ | d == x = find ds xs\n\
\ | otherwise = find def xs\n\n\
\ readVal' :: Bool -> Integer -> String -> [Integer]\n\
\ readVal' n c (x:xs) = case x of\n\
\ '\"' -> [if n then negate c else c]\n\
\ '-' -> readVal' True c xs\n\
\ ',' -> (if n then negate c else c) : readVal' False 0 xs\n\
\ _ -> readVal' n (c*10 + fromIntegral (ord x - ord '0')) xs\n\
\ readVal' n c [] = [if n then negate c else c]\n\n\
\ readVal = readVal' False 0\n\n\
\ return $! case readVal (find def s) of\n"
++ " [" ++ concatMap (nicetab . snd) vs
++ "\n ] -> PlatformConstants\n { "
++ intercalate "\n , " (concatMap (uncurry doParse) vs)
++ "\n }\n"
++ " _ -> error \"Invalid platform constants\"\n"
nicetab 0 = "v0"
nicetab v
| v `mod` 16 == 0 = "\n ,v"++show v
| otherwise = ",v"++show v
doParse (GetClosureSize name _) i = ["pc_" ++ name ++ " = fromIntegral v" ++ show i]
doParse (GetFieldType name _) i = ["pc_" ++ name ++ " = fromIntegral v" ++ show i]
doParse (GetWord name _) i = ["pc_" ++ name ++ " = fromIntegral v" ++ show i]
doParse (GetInt name _) i = ["pc_" ++ name ++ " = fromIntegral v" ++ show i]
doParse (GetNatural name _) i = ["pc_" ++ name ++ " = v" ++ show i]
doParse (GetBool name _) i = ["pc_" ++ name ++ " = 0 < v" ++ show i]
doParse (StructFieldMacro {}) _i = []
doParse (ClosureFieldMacro {}) _i = []
doParse (ClosurePayloadMacro {}) _i = []
doParse (FieldTypeGcptrMacro {}) _i = []
writeHaskellValue :: FilePath -> [What Snd] -> IO ()
writeHaskellValue fn rs = atomicWriteFile fn xs
where xs = unlines [header, body, footer]
header = "PlatformConstants {"
footer = " }"
body = intercalate ",\n" (concatMap doWhat rs)
doWhat (GetClosureSize name (Snd v)) = [" pc_" ++ name ++ " = " ++ show v]
doWhat (GetFieldType name (Snd v)) = [" pc_" ++ name ++ " = " ++ show v]
doWhat (GetWord name (Snd v)) = [" pc_" ++ name ++ " = " ++ show v]
doWhat (GetInt name (Snd v)) = [" pc_" ++ name ++ " = " ++ show v]
doWhat (GetNatural name (Snd v)) = [" pc_" ++ name ++ " = " ++ show v]
doWhat (GetBool name (Snd v)) = [" pc_" ++ name ++ " = " ++ show v]
doWhat (StructFieldMacro {}) = []
doWhat (ClosureFieldMacro {}) = []
doWhat (ClosurePayloadMacro {}) = []
doWhat (FieldTypeGcptrMacro {}) = []
writeHeader :: FilePath -> [(Where, What Snd)] -> IO ()
writeHeader fn rs = atomicWriteFile fn xs
where xs = headers ++ hs ++ unlines body
headers = "/* This file is created automatically. Do not edit by hand.*/\n\n"
haskellRs = fmap snd $ filter (\r -> fst r `elem` [Haskell,Both]) rs
cRs = fmap snd $ filter (\r -> fst r `elem` [C,Both]) rs
hs = concat
[ "#define HS_CONSTANTS \""
, intercalate "," (mapMaybe doHs haskellRs)
, "\"\n"
]
doHs x = case x of
GetFieldType _name (Snd v) -> Just (show v)
GetClosureSize _name (Snd v) -> Just (show v)
GetWord _name (Snd v) -> Just (show v)
GetInt _name (Snd v) -> Just (show v)
GetNatural _name (Snd v) -> Just (show v)
GetBool _name (Snd v) -> Just (if v then "1" else "0")
StructFieldMacro {} -> Nothing
ClosureFieldMacro {} -> Nothing
ClosurePayloadMacro {} -> Nothing
FieldTypeGcptrMacro {} -> Nothing
body = map doC cRs
doC x = case x of
GetFieldType name (Snd v) -> "#define " ++ name ++ " b" ++ show (v * 8)
GetClosureSize name (Snd v) -> "#define " ++ name ++ " (SIZEOF_StgHeader+" ++ show v ++ ")"
GetWord name (Snd v) -> "#define " ++ name ++ " " ++ show v
GetInt name (Snd v) -> "#define " ++ name ++ " " ++ show v
GetNatural name (Snd v) -> "#define " ++ name ++ " " ++ show v
GetBool name (Snd v) -> "#define " ++ name ++ " " ++ show (fromEnum v)
StructFieldMacro nameBase -> "#define " ++ nameBase ++ "(__ptr__) REP_" ++ nameBase ++ "[__ptr__+OFFSET_" ++ nameBase ++ "]"
ClosureFieldMacro nameBase -> "#define " ++ nameBase ++ "(__ptr__) REP_" ++ nameBase ++ "[__ptr__+SIZEOF_StgHeader+OFFSET_" ++ nameBase ++ "]"
ClosurePayloadMacro nameBase -> "#define " ++ nameBase ++ "(__ptr__,__ix__) W_[__ptr__+SIZEOF_StgHeader+OFFSET_" ++ nameBase ++ " + WDS(__ix__)]"
FieldTypeGcptrMacro nameBase -> "#define REP_" ++ nameBase ++ " gcptr"
die :: String -> IO a
die err = do hPutStrLn stderr err
exitFailure
execute :: Bool -> FilePath -> [String] -> IO ()
execute verbose prog args
= do when verbose $ putStrLn $ showCommandForUser prog args
ec <- rawSystem prog args
unless (ec == ExitSuccess) $
die ("Executing " ++ show prog ++ " failed")
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