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|
-----------------------------------------------------------------------------
--
-- Code generation for profiling
--
-- (c) The University of Glasgow 2004-2006
--
-----------------------------------------------------------------------------
module GHC.StgToCmm.Prof (
initCostCentres, ccType, ccsType,
mkCCostCentre, mkCCostCentreStack,
-- infoTablePRov
initInfoTableProv, emitInfoTableProv,
-- Cost-centre Profiling
dynProfHdr, profDynAlloc, profAlloc, staticProfHdr, initUpdFrameProf,
enterCostCentreThunk, enterCostCentreFun,
costCentreFrom,
storeCurCCS,
emitSetCCC,
saveCurrentCostCentre, restoreCurrentCostCentre,
-- Lag/drag/void stuff
ldvEnter, ldvEnterClosure, ldvRecordCreate
) where
import GHC.Prelude
import GHC.Driver.Session
import GHC.Driver.Ppr
import GHC.Platform
import GHC.Platform.Profile
import GHC.StgToCmm.Closure
import GHC.StgToCmm.Utils
import GHC.StgToCmm.Monad
import GHC.Runtime.Heap.Layout
import GHC.Cmm.Graph
import GHC.Cmm
import GHC.Cmm.Utils
import GHC.Cmm.CLabel
import GHC.Types.CostCentre
import GHC.Types.IPE
import GHC.Data.FastString
import GHC.Unit.Module as Module
import GHC.Utils.Outputable
import GHC.Utils.Panic
import GHC.Driver.CodeOutput ( ipInitCode )
import Control.Monad
import Data.Char (ord)
-----------------------------------------------------------------------------
--
-- Cost-centre-stack Profiling
--
-----------------------------------------------------------------------------
-- Expression representing the current cost centre stack
ccsType :: Platform -> CmmType -- Type of a cost-centre stack
ccsType = bWord
ccType :: Platform -> CmmType -- Type of a cost centre
ccType = bWord
storeCurCCS :: CmmExpr -> CmmAGraph
storeCurCCS e = mkAssign cccsReg e
mkCCostCentre :: CostCentre -> CmmLit
mkCCostCentre cc = CmmLabel (mkCCLabel cc)
mkCCostCentreStack :: CostCentreStack -> CmmLit
mkCCostCentreStack ccs = CmmLabel (mkCCSLabel ccs)
costCentreFrom :: Platform
-> CmmExpr -- A closure pointer
-> CmmExpr -- The cost centre from that closure
costCentreFrom platform cl = CmmLoad (cmmOffsetB platform cl (pc_OFFSET_StgHeader_ccs (platformConstants platform))) (ccsType platform)
-- | The profiling header words in a static closure
staticProfHdr :: Profile -> CostCentreStack -> [CmmLit]
staticProfHdr profile ccs
| profileIsProfiling profile = [mkCCostCentreStack ccs, staticLdvInit platform]
| otherwise = []
where platform = profilePlatform profile
-- | Profiling header words in a dynamic closure
dynProfHdr :: Profile -> CmmExpr -> [CmmExpr]
dynProfHdr profile ccs
| profileIsProfiling profile = [ccs, dynLdvInit (profilePlatform profile)]
| otherwise = []
-- | Initialise the profiling field of an update frame
initUpdFrameProf :: CmmExpr -> FCode ()
initUpdFrameProf frame
= ifProfiling $ -- frame->header.prof.ccs = CCCS
do platform <- getPlatform
emitStore (cmmOffset platform frame (pc_OFFSET_StgHeader_ccs (platformConstants platform))) cccsExpr
-- frame->header.prof.hp.rs = NULL (or frame-header.prof.hp.ldvw = 0)
-- is unnecessary because it is not used anyhow.
---------------------------------------------------------------------------
-- Saving and restoring the current cost centre
---------------------------------------------------------------------------
{- Note [Saving the current cost centre]
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
The current cost centre is like a global register. Like other
global registers, it's a caller-saves one. But consider
case (f x) of (p,q) -> rhs
Since 'f' may set the cost centre, we must restore it
before resuming rhs. So we want code like this:
local_cc = CCC -- save
r = f( x )
CCC = local_cc -- restore
That is, we explicitly "save" the current cost centre in
a LocalReg, local_cc; and restore it after the call. The
C-- infrastructure will arrange to save local_cc across the
call.
The same goes for join points;
let j x = join-stuff
in blah-blah
We want this kind of code:
local_cc = CCC -- save
blah-blah
J:
CCC = local_cc -- restore
-}
saveCurrentCostCentre :: FCode (Maybe LocalReg)
-- Returns Nothing if profiling is off
saveCurrentCostCentre
= do dflags <- getDynFlags
platform <- getPlatform
if not (sccProfilingEnabled dflags)
then return Nothing
else do local_cc <- newTemp (ccType platform)
emitAssign (CmmLocal local_cc) cccsExpr
return (Just local_cc)
restoreCurrentCostCentre :: Maybe LocalReg -> FCode ()
restoreCurrentCostCentre Nothing
= return ()
restoreCurrentCostCentre (Just local_cc)
= emit (storeCurCCS (CmmReg (CmmLocal local_cc)))
-------------------------------------------------------------------------------
-- Recording allocation in a cost centre
-------------------------------------------------------------------------------
-- | Record the allocation of a closure. The CmmExpr is the cost
-- centre stack to which to attribute the allocation.
profDynAlloc :: SMRep -> CmmExpr -> FCode ()
profDynAlloc rep ccs
= ifProfiling $
do profile <- targetProfile <$> getDynFlags
let platform = profilePlatform profile
profAlloc (mkIntExpr platform (heapClosureSizeW profile rep)) ccs
-- | Record the allocation of a closure (size is given by a CmmExpr)
-- The size must be in words, because the allocation counter in a CCS counts
-- in words.
profAlloc :: CmmExpr -> CmmExpr -> FCode ()
profAlloc words ccs
= ifProfiling $
do profile <- targetProfile <$> getDynFlags
let platform = profilePlatform profile
let alloc_rep = rEP_CostCentreStack_mem_alloc platform
emit $ addToMemE alloc_rep
(cmmOffsetB platform ccs (pc_OFFSET_CostCentreStack_mem_alloc (platformConstants platform)))
(CmmMachOp (MO_UU_Conv (wordWidth platform) (typeWidth alloc_rep)) $
-- subtract the "profiling overhead", which is the
-- profiling header in a closure.
[CmmMachOp (mo_wordSub platform) [ words, mkIntExpr platform (profHdrSize profile)]]
)
-- -----------------------------------------------------------------------
-- Setting the current cost centre on entry to a closure
enterCostCentreThunk :: CmmExpr -> FCode ()
enterCostCentreThunk closure =
ifProfiling $ do
platform <- getPlatform
emit $ storeCurCCS (costCentreFrom platform closure)
enterCostCentreFun :: CostCentreStack -> CmmExpr -> FCode ()
enterCostCentreFun ccs closure =
ifProfiling $
if isCurrentCCS ccs
then do platform <- getPlatform
emitRtsCall rtsUnitId (fsLit "enterFunCCS")
[(baseExpr, AddrHint),
(costCentreFrom platform closure, AddrHint)] False
else return () -- top-level function, nothing to do
ifProfiling :: FCode () -> FCode ()
ifProfiling code
= do profile <- targetProfile <$> getDynFlags
if profileIsProfiling profile
then code
else return ()
---------------------------------------------------------------
-- Initialising Cost Centres & CCSs
---------------------------------------------------------------
initCostCentres :: CollectedCCs -> FCode ()
-- Emit the declarations
initCostCentres (local_CCs, singleton_CCSs)
= ifProfiling $ do
mapM_ emitCostCentreDecl local_CCs
mapM_ emitCostCentreStackDecl singleton_CCSs
emitCostCentreDecl :: CostCentre -> FCode ()
emitCostCentreDecl cc = do
{ dflags <- getDynFlags
; platform <- getPlatform
; let is_caf | isCafCC cc = mkIntCLit platform (ord 'c') -- 'c' == is a CAF
| otherwise = zero platform
-- NB. bytesFS: we want the UTF-8 bytes here (#5559)
; label <- newByteStringCLit (bytesFS $ costCentreUserNameFS cc)
; modl <- newByteStringCLit (bytesFS $ moduleNameFS
$ moduleName
$ cc_mod cc)
; loc <- newByteStringCLit $ bytesFS $ mkFastString $
showPpr dflags (costCentreSrcSpan cc)
-- XXX going via FastString to get UTF-8 encoding is silly
; let
lits = [ zero platform, -- StgInt ccID,
label, -- char *label,
modl, -- char *module,
loc, -- char *srcloc,
zero64, -- StgWord64 mem_alloc
zero platform, -- StgWord time_ticks
is_caf, -- StgInt is_caf
zero platform -- struct _CostCentre *link
]
; emitDataLits (mkCCLabel cc) lits
}
emitCostCentreStackDecl :: CostCentreStack -> FCode ()
emitCostCentreStackDecl ccs
= case maybeSingletonCCS ccs of
Just cc ->
do platform <- getPlatform
let mk_lits cc = zero platform :
mkCCostCentre cc :
replicate (sizeof_ccs_words platform - 2) (zero platform)
-- Note: to avoid making any assumptions about how the
-- C compiler (that compiles the RTS, in particular) does
-- layouts of structs containing long-longs, simply
-- pad out the struct with zero words until we hit the
-- size of the overall struct (which we get via DerivedConstants.h)
emitDataLits (mkCCSLabel ccs) (mk_lits cc)
Nothing -> pprPanic "emitCostCentreStackDecl" (ppr ccs)
zero :: Platform -> CmmLit
zero platform = mkIntCLit platform 0
zero64 :: CmmLit
zero64 = CmmInt 0 W64
sizeof_ccs_words :: Platform -> Int
sizeof_ccs_words platform
-- round up to the next word.
| ms == 0 = ws
| otherwise = ws + 1
where
(ws,ms) = pc_SIZEOF_CostCentreStack (platformConstants platform) `divMod` platformWordSizeInBytes platform
initInfoTableProv :: [CmmInfoTable] -> InfoTableProvMap -> Module -> FCode SDoc
-- Emit the declarations
initInfoTableProv infos itmap this_mod
= do
dflags <- getDynFlags
let ents = convertInfoProvMap dflags infos this_mod itmap
--pprTraceM "UsedInfo" (ppr (length infos))
--pprTraceM "initInfoTable" (ppr (length ents))
-- Output the actual IPE data
mapM_ emitInfoTableProv ents
-- Create the C stub which initialises the IPE_LIST
return (ipInitCode dflags this_mod ents)
--- Info Table Prov stuff
emitInfoTableProv :: InfoProvEnt -> FCode ()
emitInfoTableProv ip = do
{ dflags <- getDynFlags
; let mod = infoProvModule ip
; let (src, label) = maybe ("", "") (\(s, l) -> (showPpr dflags s, l)) (infoTableProv ip)
; platform <- getPlatform
-- NB. bytesFS: we want the UTF-8 bytes here (#5559)
; label <- newByteStringCLit (bytesFS $ mkFastString label)
; modl <- newByteStringCLit (bytesFS $ moduleNameFS
$ moduleName
$ mod)
; ty_string <- newByteStringCLit (bytesFS (mkFastString (infoTableType ip)))
; loc <- newByteStringCLit $ bytesFS $ mkFastString $ src
-- XXX going via FastString to get UTF-8 encoding is silly
; table_name <- newByteStringCLit $ bytesFS $ mkFastString $
showPpr dflags (pprCLabel platform CStyle (infoTablePtr ip))
; closure_type <- newByteStringCLit $ bytesFS $ mkFastString $
showPpr dflags (text $ show $ infoProvEntClosureType ip)
; let
lits = [ CmmLabel (infoTablePtr ip), -- Info table pointer
table_name, -- char *table_name
closure_type, -- char *closure_desc -- Filled in from the InfoTable
ty_string, -- char *ty_string
label, -- char *label,
modl, -- char *module,
loc, -- char *srcloc,
zero platform -- struct _InfoProvEnt *link
]
; emitDataLits (mkIPELabel ip) lits
}
-- ---------------------------------------------------------------------------
-- Set the current cost centre stack
emitSetCCC :: CostCentre -> Bool -> Bool -> FCode ()
emitSetCCC cc tick push
= do profile <- targetProfile <$> getDynFlags
let platform = profilePlatform profile
if not (profileIsProfiling profile)
then return ()
else do tmp <- newTemp (ccsType platform)
pushCostCentre tmp cccsExpr cc
when tick $ emit (bumpSccCount platform (CmmReg (CmmLocal tmp)))
when push $ emit (storeCurCCS (CmmReg (CmmLocal tmp)))
pushCostCentre :: LocalReg -> CmmExpr -> CostCentre -> FCode ()
pushCostCentre result ccs cc
= emitRtsCallWithResult result AddrHint
rtsUnitId
(fsLit "pushCostCentre") [(ccs,AddrHint),
(CmmLit (mkCCostCentre cc), AddrHint)]
False
bumpSccCount :: Platform -> CmmExpr -> CmmAGraph
bumpSccCount platform ccs
= addToMem (rEP_CostCentreStack_scc_count platform)
(cmmOffsetB platform ccs (pc_OFFSET_CostCentreStack_scc_count (platformConstants platform))) 1
-----------------------------------------------------------------------------
--
-- Lag/drag/void stuff
--
-----------------------------------------------------------------------------
--
-- Initial value for the LDV field in a static closure
--
staticLdvInit :: Platform -> CmmLit
staticLdvInit = zeroCLit
--
-- Initial value of the LDV field in a dynamic closure
--
dynLdvInit :: Platform -> CmmExpr
dynLdvInit platform = -- (era << LDV_SHIFT) | LDV_STATE_CREATE
CmmMachOp (mo_wordOr platform) [
CmmMachOp (mo_wordShl platform) [loadEra platform, mkIntExpr platform (pc_LDV_SHIFT (platformConstants platform))],
CmmLit (mkWordCLit platform (pc_ILDV_STATE_CREATE (platformConstants platform)))
]
--
-- Initialise the LDV word of a new closure
--
ldvRecordCreate :: CmmExpr -> FCode ()
ldvRecordCreate closure = do
platform <- getPlatform
emit $ mkStore (ldvWord platform closure) (dynLdvInit platform)
--
-- | Called when a closure is entered, marks the closure as having
-- been "used". The closure is not an "inherently used" one. The
-- closure is not @IND@ because that is not considered for LDV profiling.
--
ldvEnterClosure :: ClosureInfo -> CmmReg -> FCode ()
ldvEnterClosure closure_info node_reg = do
platform <- getPlatform
let tag = funTag platform closure_info
-- don't forget to subtract node's tag
ldvEnter (cmmOffsetB platform (CmmReg node_reg) (-tag))
ldvEnter :: CmmExpr -> FCode ()
-- Argument is a closure pointer
ldvEnter cl_ptr = do
platform <- getPlatform
let constants = platformConstants platform
-- don't forget to subtract node's tag
ldv_wd = ldvWord platform cl_ptr
new_ldv_wd = cmmOrWord platform
(cmmAndWord platform (CmmLoad ldv_wd (bWord platform))
(CmmLit (mkWordCLit platform (pc_ILDV_CREATE_MASK constants))))
(cmmOrWord platform (loadEra platform) (CmmLit (mkWordCLit platform (pc_ILDV_STATE_USE constants))))
ifProfiling $
-- if (era > 0) {
-- LDVW((c)) = (LDVW((c)) & LDV_CREATE_MASK) |
-- era | LDV_STATE_USE }
emit =<< mkCmmIfThenElse (CmmMachOp (mo_wordUGt platform) [loadEra platform, CmmLit (zeroCLit platform)])
(mkStore ldv_wd new_ldv_wd)
mkNop
loadEra :: Platform -> CmmExpr
loadEra platform = CmmMachOp (MO_UU_Conv (cIntWidth platform) (wordWidth platform))
[CmmLoad (mkLblExpr (mkRtsCmmDataLabel (fsLit "era")))
(cInt platform)]
-- | Takes the address of a closure, and returns
-- the address of the LDV word in the closure
ldvWord :: Platform -> CmmExpr -> CmmExpr
ldvWord platform closure_ptr
= cmmOffsetB platform closure_ptr (pc_OFFSET_StgHeader_ldvw (platformConstants platform))
|