# ----------------------------------------------------------------------------- # # (c) 2009 The University of Glasgow # # This file is part of the GHC build system. # # To understand how the build system works and how to modify it, see # https://gitlab.haskell.org/ghc/ghc/wikis/building/architecture # https://gitlab.haskell.org/ghc/ghc/wikis/building/modifying # # ----------------------------------------------------------------------------- # ----------------------------------------------------------------------------- # Building the RTS # We build the RTS with stage 1 rts_dist-install_HC = $(GHC_STAGE1) rts_INSTALL_INFO = rts rts_VERSION = 1.0.2 # Minimum supported Windows version. # These numbers can be found at: # https://msdn.microsoft.com/en-us/library/windows/desktop/aa383745(v=vs.85).aspx # If we're compiling on windows, enforce that we only support Windows 7+ # Adding this here means it doesn't have to be done in individual .c files # and also centralizes the versioning. rts_WINVER = 0x06010000 # merge GhcLibWays and GhcRTSWays but strip out duplicates rts_WAYS = $(GhcLibWays) $(filter-out $(GhcLibWays),$(GhcRTSWays)) rts_dist-install_WAYS = $(rts_WAYS) ALL_RTS_LIBS = $(foreach way,$(rts_WAYS),rts/dist-install/build/libHSrts$($(way)_libsuf)) $(eval $(call all-target,rts,$(ALL_RTS_LIBS))) # ----------------------------------------------------------------------------- # Defining the sources ALL_DIRS = hooks sm eventlog linker linker/macho ifeq "$(TargetOS_CPP)" "mingw32" ALL_DIRS += win32 else ALL_DIRS += posix endif tmp_rts_C_SRCS := $(wildcard rts/*.c $(foreach dir,$(ALL_DIRS),rts/$(dir)/*.c)) # We shouldn't include this file in the binary, it's a common function so # it will likely clash with something later. See #19948 rts_C_SRCS = $(filter-out rts/xxhash.c, $(tmp_rts_C_SRCS)) rts_C_HOOK_SRCS := $(wildcard rts/hooks/*.c) rts_CMM_SRCS := $(wildcard rts/*.cmm) # Don't compile .S files when bootstrapping a new arch ifneq "$(PORTING_HOST)" "YES" # unregisterised builds use the mini interpreter ifneq "$(GhcUnregisterised)" "YES" # use StgCRunAsm.S on ppc, ppc64, s390x, and riscv64 ifneq "$(findstring $(TargetArch_CPP), ppc) $(findstring $(TargetArch_CPP), ppc64) $(findstring $(TargetArch_CPP), s390x) $(findstring $(TargetArch_CPP), riscv64)" "" rts_S_SRCS += rts/StgCRunAsm.S endif endif # select adjustor implementation. This much match the logic in rts.cabal.in. ifneq "$(CLEANING)" "YES" # N.B. we don't source config.mk when CLEANING=YES so none of the below # variables will be set. See #20166. rts_C_SRCS += rts/adjustor/AdjustorPool.c ifeq "$(UseLibffiForAdjustors)" "YES" rts_C_SRCS += rts/adjustor/LibffiAdjustor.c else ifneq "$(findstring $(TargetArch_CPP), i386)" "" rts_S_SRCS += rts/adjustor/Nativei386Asm.S rts_C_SRCS += rts/adjustor/Nativei386.c else ifneq "$(findstring $(TargetArch_CPP), x86_64)" "" ifneq "$(findstring $(TargetOS_CPP), mingw32)" "" rts_S_SRCS += rts/adjustor/NativeAmd64MingwAsm.S rts_C_SRCS += rts/adjustor/NativeAmd64Mingw.c else rts_S_SRCS += rts/adjustor/NativeAmd64Asm.S rts_C_SRCS += rts/adjustor/NativeAmd64.c endif else ifneq "$(findstring $(TargetArch_CPP), powerpc64le powerpc)" "" rts_S_SRCS += rts/AdjustorAsm.S rts_C_SRCS += rts/adjustor/NativePowerPC.c else $(error Target architecture has no native adjustor implementation) endif endif endif endif endif endif ifeq "$(GhcUnregisterised)" "YES" GENAPPLY_OPTS = -u endif rts_AUTO_APPLY_CMM = rts/dist-install/build/AutoApply.cmm $(rts_AUTO_APPLY_CMM): $$(genapply_INPLACE) "$(genapply_INPLACE)" >$@ rts_H_FILES := $(wildcard rts/*.h rts/*/*.h) ifeq "$(USE_DTRACE)" "YES" DTRACEPROBES_H = rts/dist-install/build/include/RtsProbes.h rts_H_FILES += $(DTRACEPROBES_H) endif # collect the -l and -L flags that we need to link the rts dyn lib. # Note that, as sed on OS X doesn't handle \+, we use [^ ][^ ]* rather # than [^ ]\+ rts/dist-install/libs.depend : $$(ghc-pkg_INPLACE) | $$(dir $$@)/. "$(ghc-pkg_INPLACE)" --simple-output field rts extra-libraries \ | sed -e 's/\([^ ][^ ]*\)/-l\1/g' > $@ "$(ghc-pkg_INPLACE)" --simple-output field rts library-dirs \ | sed -e 's/\([^ ][^ ]*\)/-L\1/g' >> $@ # ---------------------------------------------------------------------------- # On Windows, as the RTS and base libraries have recursive imports, # we have to break the loop with "import libraries". # These are made from rts/win32/libHS*.def which contain lists of # all the symbols in those libraries used by the RTS. # ifeq "$(TargetOS_CPP)" "mingw32" ALL_RTS_DEF_LIBNAMES = base ghc-prim ALL_RTS_DEF_LIBS = \ rts/dist-install/build/win32/libHSbase.dll.a \ rts/dist-install/build/win32/libHSghc-prim.dll.a # -- import libs for the regular Haskell libraries define make-importlib-def # args $1 = lib name rts/dist-install/build/win32/libHS$1.def : rts/win32/libHS$1.def cat rts/win32/libHS$1.def \ | sed "s/@LibVersion@/$$(libraries/$1_dist-install_VERSION)/" \ | sed "s/@ProjectVersion@/$$(ProjectVersion)/" \ > rts/dist-install/build/win32/libHS$1.def rts/dist-install/build/win32/libHS$1.dll.a : rts/dist-install/build/win32/libHS$1.def "$$(DLLTOOL)" -d rts/dist-install/build/win32/libHS$1.def \ -l rts/dist-install/build/win32/libHS$1.dll.a endef $(foreach lib,$(ALL_RTS_DEF_LIBNAMES),$(eval $(call make-importlib-def,$(lib)))) endif ifneq "$(BINDIST)" "YES" ifneq "$(UseSystemLibFFI)" "YES" ifeq "$(TargetOS_CPP)" "mingw32" rts/dist-install/build/$(LIBFFI_DLL): libffi/build/inst/bin/$(LIBFFI_DLL) cp $< $@ else # This is a little hacky. We don't know the SO version, so we only # depend on libffi.so, but copy libffi.so* rts/dist-install/build/lib$(LIBFFI_NAME)$(soext): libffi/build/inst/lib/lib$(LIBFFI_NAME)$(soext) cp libffi/build/inst/lib/lib$(LIBFFI_NAME)$(soext)* rts/dist-install/build ifeq "$(TargetOS_CPP)" "darwin" install_name_tool -id @rpath/lib$(LIBFFI_NAME)$(soext) rts/dist-install/build/lib$(LIBFFI_NAME)$(soext) endif endif endif endif ifeq "$(USE_DTRACE)" "YES" ifneq "$(findstring $(TargetOS_CPP), linux solaris2 freebsd)" "" NEED_DTRACE_PROBES_OBJ = YES endif endif #----------------------------------------------------------------------------- # Building one way define build-rts-way # args: $1 = way ifneq "$$(BINDIST)" "YES" rts_dist-install_$1_HC_OPTS := $$(GhcRtsHcOpts) rts_dist-install_$1_CC_OPTS := $$(GhcRtsCcOpts) # The per-way CC_OPTS ifneq "$$(findstring debug, $1)" "" rts_dist-install_$1_HC_OPTS += -O0 rts_dist-install_$1_CC_OPTS += -fno-omit-frame-pointer -O0 -g3 # Useful to ensure that inline functions can be called within GDB but not # supported by clang #rts_dist-install_$1_CC_OPTS += -fkeep-inline-functions endif ifneq "$$(findstring dyn, $1)" "" ifeq "$$(TargetOS_CPP)" "mingw32" rts_dist-install_$1_CC_OPTS += -DCOMPILING_WINDOWS_DLL endif rts_dist-install_$1_CC_OPTS += -DDYNAMIC endif $(call distdir-way-opts,rts,dist-install,$1,1) # 1 because the rts is built with stage1 $(call c-suffix-rules,rts,dist-install,$1,YES) $(call cmm-suffix-rules,rts,dist-install,$1) rts_$1_LIB_FILE = libHSrts$$($1_libsuf) rts_$1_LIB = rts/dist-install/build/$$(rts_$1_LIB_FILE) rts_$1_C_OBJS = $$(patsubst rts/%.c,rts/dist-install/build/%.$$($1_osuf),$$(rts_C_SRCS)) $$(patsubst %.c,%.$$($1_osuf),$$(rts_$1_EXTRA_C_SRCS)) rts_$1_CXX_OBJS = $$(patsubst rts/%.c,rts/dist-install/build/%.$$($1_osuf),$$(rts_CXX_SRCS)) rts_$1_C_HOOK_OBJS = $$(patsubst rts/hooks/%.c,rts/dist-install/build/hooks/%.$$($1_osuf),$$(rts_C_HOOK_SRCS)) rts_$1_S_OBJS = $$(patsubst rts/%.S,rts/dist-install/build/%.$$($1_osuf),$$(rts_S_SRCS)) rts_$1_CMM_OBJS = $$(patsubst rts/%.cmm,rts/dist-install/build/%.$$($1_osuf),$$(rts_CMM_SRCS)) $$(patsubst %.cmm,%.$$($1_osuf),$$(rts_AUTO_APPLY_CMM)) rts_$1_OBJS = $$(rts_$1_C_OBJS) $$(rts_$1_CXX_OBJS) $$(rts_$1_S_OBJS) $$(rts_$1_CMM_OBJS) ifeq "$(USE_DTRACE)" "YES" ifeq "$(NEED_DTRACE_PROBES_OBJ)" "YES" # On Darwin we don't need to generate binary containing probes defined # in DTrace script, but DTrace on Solaris expects generation of binary # from the DTrace probes definitions rts_$1_DTRACE_OBJS = rts/dist-install/build/RtsProbes.$$($1_osuf) $$(rts_$1_DTRACE_OBJS) : $$(rts_$1_OBJS) $(DTRACE) -G -C \ $$(addprefix -Irts/,$$(rts_dist-install_DIST_INCLUDE_DIRS)) \ -DDTRACE -s rts/RtsProbes.d \ -o $$@ \ $$(rts_$1_OBJS) endif endif rts_dist-install_$1_CC_OPTS += -DRtsWay=\"rts_$1\" # If we're compiling on windows, enforce that we only support XP+ # Adding this here means it doesn't have to be done in individual .c files # and also centralizes the versioning. ifeq "$$(TargetOS_CPP)" "mingw32" rts_dist-install_$1_CC_OPTS += -D_WIN32_WINNT=$(rts_WINVER) endif ifneq "$$(UseSystemLibFFI)" "YES" rts_dist-install_FFI_SO = rts/dist-install/build/lib$$(LIBFFI_NAME)$$(soext) else rts_dist-install_FFI_SO = endif # Making a shared library for the RTS. ifneq "$$(findstring dyn, $1)" "" ifeq "$$(TargetOS_CPP)" "mingw32" $$(rts_$1_LIB) : $$(rts_$1_OBJS) $$(ALL_RTS_DEF_LIBS) rts/dist-install/libs.depend rts/dist-install/build/$$(LIBFFI_DLL) "$$(RM)" $$(RM_OPTS) $$@ # Call out to the shell script to decide how to build the dll. # Making a shared library for the RTS. # $$1 = dir # $$2 = distdir # $$3 = way # $$4 = extra flags # $$5 = extra libraries to link # $$6 = object files to link # $$7 = output filename # $$8 = link command # $$9 = create delay load import lib # $$10 = SxS Name # $$11 = SxS Version $$(gen-dll_INPLACE) link "rts/dist-install/build" "rts/dist-install/build" "" "" "$$(ALL_RTS_DEF_LIBS)" "$$(rts_$1_OBJS)" "$$@" "$$(rts_dist-install_HC) -this-unit-id rts -no-hs-main -shared -dynamic -dynload deploy \ -no-auto-link-packages -Lrts/dist-install/build -l$$(LIBFFI_NAME) \ `cat rts/dist-install/libs.depend | tr '\n' ' '` \ $$(rts_dist-install_$1_GHC_LD_OPTS)" "NO" \ "$(rts_INSTALL_INFO)-$(subst dyn,,$(subst _dyn,,$(subst v,,$1)))" "$(ProjectVersion)" else ifneq "$$(UseSystemLibFFI)" "YES" LIBFFI_LIBS = -Lrts/dist-install/build -l$$(LIBFFI_NAME) ifeq "$$(TargetElf)" "YES" LIBFFI_LIBS += -optl-Wl,-rpath -optl-Wl,'$$$$ORIGIN' -optl-Wl,-zorigin endif ifeq "$(TargetOS_CPP)" "darwin" LIBFFI_LIBS += -optl-Wl,-rpath -optl-Wl,@loader_path endif else # flags will be taken care of in rts/dist-install/libs.depend LIBFFI_LIBS = endif $$(rts_$1_LIB) : $$(rts_$1_OBJS) $$(rts_$1_DTRACE_OBJS) rts/dist-install/libs.depend $$(rts_dist-install_FFI_SO) "$$(RM)" $$(RM_OPTS) $$@ "$$(rts_dist-install_HC)" -this-unit-id rts -shared -dynamic -dynload deploy \ -no-auto-link-packages $$(LIBFFI_LIBS) `cat rts/dist-install/libs.depend` $$(rts_$1_OBJS) \ $$(rts_dist-install_$1_GHC_LD_OPTS) \ $$(rts_$1_DTRACE_OBJS) -o $$@ endif else ifeq "$(USE_DTRACE)" "YES" ifeq "$(NEED_DTRACE_PROBES_OBJ)" "YES" # A list of objects that do not get included in the RTS object that is created # during the linking step. To prevent future linking errors, especially when # using the compiler as a bootstrap compiler, we need to exclude the hook # objects from being re-linked into the single LINKED_OBJS object file. When the # hooks are being linked into the RTS object this will result in duplicated # symbols causing the linker to fail (e.g. `StackOverflowHook` in RTS.o and # hschooks.o). The excluded objects do not get relinked into the RTS object but # get included separately so prevent linker errors. # (see issue #15040) rts_$1_EXCLUDED_OBJS = $$(rts_$1_C_HOOK_OBJS) # The RTS object that gets generated to package up all of the runtime system # with the dtrace probe code. rts_$1_LINKED_OBJS = rts/dist-install/build/RTS.$$($1_osuf) $$(rts_$1_LINKED_OBJS) : $$(rts_$1_OBJS) $$(rts_$1_DTRACE_OBJS) $$(rts_$1_C_HOOK_OBJS) "$$(RM)" $$(RM_OPTS) $$@ # When linking an archive the linker will only include the object files that # are actually needed during linking. It therefore does not include the dtrace # specific code for initializing the probes. By creating a single object that # also includes the probe object code we force the linker to include the # probes when linking the static runtime. # # The reason why we are re-linking all the objects into a single object file # is stated in this thread: # https://thr3ads.net/dtrace-discuss/2005/08/384778-Problem-with-probes-defined-in-static-libraries $(LD) -r -o $$(rts_$1_LINKED_OBJS) $$(rts_$1_DTRACE_OBJS) $$(filter-out $$(rts_$1_EXCLUDED_OBJS), $$(rts_$1_OBJS)) else rts_$1_EXCLUDED_OBJS = rts_$1_LINKED_OBJS = $$(rts_$1_OBJS) endif else rts_$1_EXCLUDED_OBJS = rts_$1_LINKED_OBJS = $$(rts_$1_OBJS) endif $$(rts_$1_LIB) : $$(rts_$1_LINKED_OBJS) "$$(RM)" $$(RM_OPTS) $$@ echo $$(rts_$1_LINKED_OBJS) $$(rts_$1_EXCLUDED_OBJS) | "$$(XARGS)" $$(XARGS_OPTS) "$$(AR_STAGE1)" \ $$(AR_OPTS_STAGE1) $$(EXTRA_AR_ARGS_STAGE1) $$@ ifneq "$$(UseSystemLibFFI)" "YES" $$(rts_$1_LIB) : rts/dist-install/build/libC$$(LIBFFI_NAME)$$($1_libsuf) rts/dist-install/build/libC$$(LIBFFI_NAME)$$($1_libsuf): libffi/build/inst/lib/libffi.a cp $$< $$@ endif endif endif endef # And expand the above for each way: $(foreach way,$(rts_WAYS),$(eval $(call build-rts-way,$(way)))) $(eval $(call distdir-opts,rts,dist-install,1)) #----------------------------------------------------------------------------- # Flags for compiling every file # We like plenty of warnings. WARNING_OPTS += -Wall WARNING_OPTS += -Wextra WARNING_OPTS += -Wstrict-prototypes WARNING_OPTS += -Wmissing-prototypes WARNING_OPTS += -Wmissing-declarations WARNING_OPTS += -Winline WARNING_OPTS += -Wpointer-arith WARNING_OPTS += -Wmissing-noreturn WARNING_OPTS += -Wnested-externs WARNING_OPTS += -Wredundant-decls # Some gccs annoyingly enable this archaic specimen by default WARNING_OPTS += -Wno-aggregate-return WARNING_OPTS += -Wno-unused-label # These ones are hard to avoid: #WARNING_OPTS += -Wconversion #WARNING_OPTS += -Wbad-function-cast #WARNING_OPTS += -Wshadow #WARNING_OPTS += -Wcast-qual # This one seems buggy on GCC 4.1.2, which is the only GCC version we # have that can bootstrap the SPARC build. We end up with lots of supurious # warnings of the form "cast increases required alignment of target type". # Some legitimate warnings can be fixed by adding an intermediate cast to # (void*), but we get others in rts/sm/GCUtils.c concerning the gct var # that look innocuous to me. We could enable this again once we deprecate # support for registerised builds on this arch. -- BL 2010/02/03 # WARNING_OPTS += -Wcast-align rts_INCLUDE_DIRS = \ $(addprefix include/,$(includes_INCLUDE_DIRS)) \ . rts_dist-install_INCLUDE_DIRS = \ $(addprefix include/,$(includes_dist-install_INCLUDE_DIRS)) # COMPILING_RTS is only used when building Win32 DLL support. rts_CPP_OPTS += -DCOMPILING_RTS -DFS_NAMESPACE=rts # HC_OPTS is included in both .c and .cmm compilations, whereas CC_OPTS is # only included in .c compilations. HC_OPTS included the WAY_* opts, which # must be included in both types of compilations. rts_CC_OPTS += $(WARNING_OPTS) rts_HC_OPTS += -this-unit-id rts ifneq "$(GhcWithSMP)" "YES" rts_CC_OPTS += -DNOSMP rts_HC_OPTS += -optc-DNOSMP endif # We *want* type-checking of hand-written cmm. rts_HC_OPTS += -dcmm-lint # -fno-strict-aliasing is required for the runtime, because we often # use a variety of types to represent closure pointers (StgPtr, # StgClosure, StgMVar, etc.), and without -fno-strict-aliasing gcc is # allowed to assume that these pointers do not alias. eg. without # this flag we get problems in sm/Evac.c:copy() with gcc 3.4.3, the # upd_evacuee() assignments get moved before the object copy. rts_CC_OPTS += -fno-strict-aliasing rts_CC_OPTS += -fno-common ifeq "$(BeConservative)" "YES" rts_CC_OPTS += -DBE_CONSERVATIVE endif # Set Windows version ifeq "$$(TargetOS_CPP)" "mingw32" rts_CC_OPTS += -DWINVER=$(rts_WINVER) endif #----------------------------------------------------------------------------- # Flags for compiling specific files rts/RtsMessages_CC_OPTS += -DProjectVersion=\"$(ProjectVersion)\" rts/RtsUtils_CC_OPTS += -DProjectVersion=\"$(ProjectVersion)\" rts/Trace_CC_OPTS += -DProjectVersion=\"$(ProjectVersion)\" # rts/RtsUtils_CC_OPTS += -DHostPlatform=\"$(HOSTPLATFORM)\" rts/RtsUtils_CC_OPTS += -DHostArch=\"$(HostArch_CPP)\" rts/RtsUtils_CC_OPTS += -DHostOS=\"$(HostOS_CPP)\" rts/RtsUtils_CC_OPTS += -DHostVendor=\"$(HostVendor_CPP)\" # rts/RtsUtils_CC_OPTS += -DBuildPlatform=\"$(BUILDPLATFORM)\" rts/RtsUtils_CC_OPTS += -DBuildArch=\"$(BuildArch_CPP)\" rts/RtsUtils_CC_OPTS += -DBuildOS=\"$(BuildOS_CPP)\" rts/RtsUtils_CC_OPTS += -DBuildVendor=\"$(BuildVendor_CPP)\" # rts/RtsUtils_CC_OPTS += -DTargetPlatform=\"$(TARGETPLATFORM)\" rts/RtsUtils_CC_OPTS += -DTargetArch=\"$(TargetArch_CPP)\" rts/RtsUtils_CC_OPTS += -DTargetOS=\"$(TargetOS_CPP)\" rts/RtsUtils_CC_OPTS += -DTargetVendor=\"$(TargetVendor_CPP)\" # rts/RtsUtils_CC_OPTS += -DGhcUnregisterised=\"$(GhcUnregisterised)\" rts/RtsUtils_CC_OPTS += -DTablesNextToCode=\"$(TablesNextToCode)\" # rts/Hash_CC_OPTS += -O3 # Compile various performance-critical pieces *without* -fPIC -dynamic # even when building a shared library. If we don't do this, then the # GC runs about 50% slower on x86 due to the overheads of PIC. The # cost of doing this is a little runtime linking and less sharing, but # not much. # # On x86_64 this doesn't work, because all objects in a shared library # must be compiled with -fPIC (since the 32-bit relocations generated # by the default small memory can't be resolved at runtime). So we # only do this on i386. # # This apparently doesn't work on OS X (Darwin) nor on Solaris. # On Darwin we get errors of the form # # ld: absolute addressing (perhaps -mdynamic-no-pic) used in _stg_ap_0_fast from rts/dist-install/build/Apply.dyn_o not allowed in slidable image # # and lots of these warnings: # # ld: warning codegen in _stg_ap_pppv_fast (offset 0x0000005E) prevents image from loading in dyld shared cache # # On Solaris we get errors like: # # Text relocation remains referenced # against symbol offset in file # .rodata (section) 0x11 rts/dist-install/build/Apply.dyn_o # ... # ld: fatal: relocations remain against allocatable but non-writable sections # collect2: ld returned 1 exit status ifeq "$(TargetArch_CPP)" "i386" i386_SPEED_HACK := "YES" ifeq "$(TargetOS_CPP)" "darwin" i386_SPEED_HACK := "NO" endif ifeq "$(TargetOS_CPP)" "solaris2" i386_SPEED_HACK := "NO" endif endif ifeq "$(TargetArch_CPP)" "i386" ifeq "$(i386_SPEED_HACK)" "YES" rts/sm/Evac_HC_OPTS += -fno-PIC rts/sm/Evac_thr_HC_OPTS += -fno-PIC rts/sm/Scav_HC_OPTS += -fno-PIC rts/sm/Scav_thr_HC_OPTS += -fno-PIC rts/sm/Compact_HC_OPTS += -fno-PIC rts/sm/GC_HC_OPTS += -fno-PIC # -static is also necessary for these bits, otherwise the NCG # -generates dynamic references: rts/Updates_HC_OPTS += -fno-PIC -static rts/StgMiscClosures_HC_OPTS += -fno-PIC -static rts/PrimOps_HC_OPTS += -fno-PIC -static rts/Apply_HC_OPTS += -fno-PIC -static rts/dist-install/build/AutoApply_HC_OPTS += -fno-PIC -static endif endif # add CFLAGS for libffi ifeq "$(UseSystemLibFFI)" "YES" LIBFFI_CFLAGS = $(addprefix -I,$(FFIIncludeDir)) rts/Interpreter_CC_OPTS += $(LIBFFI_CFLAGS) rts/Adjustor_CC_OPTS += $(LIBFFI_CFLAGS) rts/sm/Storage_CC_OPTS += $(LIBFFI_CFLAGS) endif # inlining warnings happen in Compact rts/sm/Compact_CC_OPTS += -Wno-inline # emits warnings about call-clobbered registers on x86_64 rts/StgCRun_CC_OPTS += -w # On Windows: rts/win32/ConsoleHandler_CC_OPTS += -w rts/win32/ThrIOManager_CC_OPTS += -w # The above warning suppression flags are a temporary kludge. # While working on this module you are encouraged to remove it and fix # any warnings in the module. See # https://gitlab.haskell.org/ghc/ghc/wikis/working-conventions#Warnings # for details # Without this, thread_obj will not be inlined (at least on x86 with GCC 4.1.0) ifneq "$(CcLlvmBackend)" "YES" rts/sm/Compact_CC_OPTS += -finline-limit=2500 endif # -O3 helps unroll some loops (especially in copy() with a constant argument). rts/sm/Evac_CC_OPTS += -funroll-loops rts/sm/Evac_thr_HC_OPTS += -optc-funroll-loops #----------------------------------------------------------------------------- # Use system provided libffi ifeq "$(UseSystemLibFFI)" "YES" rts_PACKAGE_CPP_OPTS += -DFFI_INCLUDE_DIR=$(FFIIncludeDir) rts_PACKAGE_CPP_OPTS += -DFFI_LIB_DIR=$(FFILibDir) rts_PACKAGE_CPP_OPTS += '-DFFI_LIB=' else # UseSystemLibFFI==YES rts_PACKAGE_CPP_OPTS += -DFFI_INCLUDE_DIR= rts_PACKAGE_CPP_OPTS += -DFFI_LIB_DIR= rts_PACKAGE_CPP_OPTS += '-DFFI_LIB="C$(LIBFFI_NAME)"' endif ifeq "$(UseLibdw)" "YES" rts_PACKAGE_CPP_OPTS += -DLIBDW_INCLUDE_DIR=$(LibdwIncludeDir) rts_PACKAGE_CPP_OPTS += -DLIBDW_LIB_DIR=$(LibdwLibDir) else rts_PACKAGE_CPP_OPTS += -DLIBDW_INCLUDE_DIR= rts_PACKAGE_CPP_OPTS += -DLIBDW_LIB_DIR= endif # ----------------------------------------------------------------------------- # dependencies rts_WAYS_DASHED = $(subst $(space),,$(patsubst %,-%,$(strip $(rts_WAYS)))) rts_dist-install_depfile_base = rts/dist-install/build/.depend$(rts_WAYS_DASHED) rts_dist-install_C_SRCS = $(rts_C_SRCS) $(rts_thr_EXTRA_C_SRCS) rts_dist-install_S_SRCS = $(rts_S_SRCS) rts_dist-install_CMM_SRCS = $(rts_CMM_SRCS) rts_dist-install_C_FILES = $(rts_dist-install_C_SRCS) rts_dist-install_CXX_FILES = $(rts_dist-install_CXX_SRCS) rts_dist-install_S_FILES = $(rts_dist-install_S_SRCS) rts_dist-install_CMM_FILES = $(rts_dist-install_CMM_SRCS) # Hack: we define every way-related option here, so that we get (hopefully) # a superset of the dependencies. To do this properly, we should generate # a different set of dependencies for each way. Further hack: PROFILING an # TICKY_TICKY can't be used together, so we omit TICKY_TICKY for now. rts_dist-install_MKDEPENDC_OPTS += -DPROFILING -DTHREADED_RTS -DDEBUG ifeq "$(USE_DTRACE)" "YES" rts_dist-install_MKDEPENDC_OPTS += -Irts/dist-install/build endif $(eval $(call dependencies,rts,dist-install,1)) $(rts_dist-install_depfile_c_asm) : $(includes_dist-install_H_FILES) $(rts_dist-install_depfile_c_asm) : $(DTRACEPROBES_H) ifneq "$(UseSystemLibFFI)" "YES" $(rts_dist-install_depfile_c_asm) : $(libffi_HEADERS) endif # ----------------------------------------------------------------------------- # compile dtrace probes if dtrace is supported ifeq "$(USE_DTRACE)" "YES" rts_CC_OPTS += -DDTRACE rts_HC_OPTS += -DDTRACE # Apple's dtrace (the only one supported by ghc at the moment) uses # gcc as its preprocessor. If gcc isn't at /usr/bin/gcc, or we need # to force it to use a different gcc, we need to give the path in # the option cpppath. ifeq "$(TargetOS_CPP)" "darwin" # Darwin has a flag to tell dtrace which cpp to use. # Unfortunately, this isn't supported on Solaris (See Solaris Dynamic Tracing # Guide, Chapter 16, for the configuration variables available on Solaris) DTRACE_FLAGS = -x cpppath=$(CC) endif DTRACEPROBES_SRC = rts/RtsProbes.d $(DTRACEPROBES_H): $(DTRACEPROBES_SRC) $(includes_1_H_CONFIG) $(includes_1_H_PLATFORM) | $$(dir $$@)/. "$(DTRACE)" $(filter -I%,$(rts_dist-install_DIST_CC_OPTS)) -C $(DTRACE_FLAGS) -h -o $@ -s $< endif # ----------------------------------------------------------------------------- # The RTS package config # If -DDEBUG is in effect, adjust package conf accordingly.. ifneq "$(strip $(filter -optc-DDEBUG,$(GhcRtsHcOpts)))" "" rts_PACKAGE_CPP_OPTS += -DDEBUG endif ifeq "$(HaveLibMingwEx)" "YES" rts_PACKAGE_CPP_OPTS += -DHAVE_LIBMINGWEX endif rts_dist-install_PACKAGE_CPP_OPTS = \ $(rts_PACKAGE_CPP_OPTS) \ $(addprefix -Irts/,$(rts_dist-install_DIST_INCLUDE_DIRS)) $(eval $(call manual-package-config,rts,dist-install)) rts/dist-install/package.conf.inplace : $(includes_dist-install_H_FILES) rts/dist-install/package.conf.install : $(includes_dist-install_H_FILES) # ----------------------------------------------------------------------------- # installing RTS_INSTALL_LIBS += $(ALL_RTS_LIBS) ifneq "$(UseSystemLibFFI)" "YES" RTS_INSTALL_LIBS += $(wildcard rts/dist-install/build/lib$(LIBFFI_NAME)*$(soext)*) RTS_INSTALL_LIBS += $(foreach w,$(filter-out %dyn,$(rts_WAYS)),rts/dist-install/build/libC$(LIBFFI_NAME)$($w_libsuf)) endif ifneq "$(UseSystemLibFFI)" "YES" install: install_libffi_headers endif .PHONY: install_libffi_headers install_libffi_headers : $(INSTALL_DIR) "$(DESTDIR)$(ghcheaderdir)" $(INSTALL_HEADER) $(INSTALL_OPTS) $(libffi_HEADERS) "$(DESTDIR)$(ghcheaderdir)/" # ----------------------------------------------------------------------------- # cleaning $(eval $(call clean-target,rts,dist-install,rts/dist-install)) BINDIST_EXTRAS += rts/package.conf.in