haiku/build/jam/ArchitectureRules
Jonathan Schleifer 624435c494 Add flags needed for Clang to the build system.
This uses a variable CLANG that should be set to the Clang version. For
now, this has to be done manually (e.g. when invoking jam using jam
-sCLANG=34), but later, this will be auto-detected.

Work towards bug #10396
2014-01-11 17:33:36 -06:00

802 lines
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rule ArchitectureSetup architecture
{
# ArchitectureSetup <architecture> ;
#
# Initializes all global packaging architecture dependent variables for the
# given packaging architecture. Also sets HAIKU_ARCH (to the primary
# architecture), if this is the first invocation of the rule, and adds
# the architecture to HAIKU_ARCHS, if not yet contained.
# analyze GCC version
local gccVersion
= [ FAnalyzeGCCVersion HAIKU_GCC_RAW_VERSION_$(architecture) ] ;
HAIKU_GCC_VERSION_$(architecture) = $(gccVersion) ;
# enable GCC -pipe option, if requested
local gccBaseFlags ;
if $(HAIKU_USE_GCC_PIPE) = 1 {
gccBaseFlags = -pipe ;
}
# disable strict aliasing on anything newer than gcc 2 as it may lead to
# unexpected results. also disable the tree-vrp (value range propagation)
# optimization for now as with the current gcc4 version we are using this
# results in some broken code.
# TODO: remove the -fno-strict-aliasing option when all code has been
# analyzed/fixed with regard to aliasing.
# TODO: retest/remove the -fno-tree-vrp option as soon as we have updated
# our gcc4 compiler. See this discussion on some issues:
# http://www.freelists.org/post/haiku-development/hrev45320-Yet-another-nonobvious-effect-of-ftreevrp-optimization
if $(gccVersion[1]) >= 3 {
gccBaseFlags += -fno-strict-aliasing ;
if ! $(CLANG) {
gccBaseFlags += -fno-tree-vrp ;
}
}
# disable array bounds warnings on gcc 4.6 or newer since they trigger
# too many false positives. Coverity does a better job of this kind of
# analysis anyways.
if $(gccVersion[1]) >= 4 {
gccBaseFlags += -Wno-array-bounds ;
}
local cpu = $(HAIKU_CPU_$(architecture)) ;
if $(cpu) = arm {
# For stackcrawls
gccBaseFlags += -mapcs-frame ;
}
# activating graphite optimizations
if $(HAIKU_USE_GCC_GRAPHITE_$(architecture)) = 1 {
gccBaseFlags += -floop-interchange -ftree-loop-distribution
-floop-strip-mine -floop-block ;
}
HAIKU_GCC_BASE_FLAGS_$(architecture) = $(gccBaseFlags) ;
# override gcc 2.95.3's header directory -- strictly necessary only when
# using the BeOS native compiler (since its headers are incompatible), but
# it doesn't harm for the cross-compiler either.
if $(gccVersion[1]) = 2 {
HAIKU_GCC_HEADERS_DIR_$(architecture)
= [ FDirName $(HAIKU_TOP) headers build gcc-2.95.3 ] ;
}
# initial state for flags etc.
HAIKU_C++_$(architecture) ?= $(HAIKU_CC_$(architecture)) ;
HAIKU_LINK_$(architecture) = $(HAIKU_CC_$(architecture)) ;
HAIKU_LINKFLAGS_$(architecture) = $(gccBaseFlags) ;
HAIKU_HDRS_$(architecture) = [ FStandardHeaders $(architecture) ] ;
HAIKU_CCFLAGS_$(architecture) += $(gccBaseFlags) -nostdinc ;
HAIKU_C++FLAGS_$(architecture) += $(gccBaseFlags) -nostdinc ;
# strip is required
if ! $(HAIKU_STRIP_$(architecture)) {
Exit "HAIKU_STRIP_$(architecture) not set. Please re-run configure." ;
}
HAIKU_ARCH_$(architecture) = $(cpu) ;
HAIKU_ARCH ?= $(cpu) ;
# Set only, if not set yet. This way HAIKU_ARCH is set to the primary
# architecture.
if ! $(cpu) in $(HAIKU_ARCHS) {
HAIKU_ARCHS += $(cpu) ;
}
HAIKU_DEFINES_$(architecture) += ARCH_$(cpu) ;
# directories
HAIKU_ARCH_OBJECT_DIR_$(architecture)
= [ FDirName $(HAIKU_OBJECT_BASE_DIR) $(architecture) ] ;
HAIKU_COMMON_DEBUG_OBJECT_DIR_$(architecture)
= [ FDirName $(HAIKU_ARCH_OBJECT_DIR_$(architecture)) common ] ;
HAIKU_DEBUG_0_OBJECT_DIR_$(architecture)
= [ FDirName $(HAIKU_ARCH_OBJECT_DIR_$(architecture)) release ] ;
local level ;
for level in $(HAIKU_DEBUG_LEVELS[2-]) {
HAIKU_DEBUG_$(level)_OBJECT_DIR_$(architecture)
= [ FDirName $(HAIKU_ARCH_OBJECT_DIR_$(architecture))
debug_$(level) ] ;
}
# set variables for gcc header options
SetIncludePropertiesVariables HAIKU : _$(architecture) ;
# assembler flags
HAIKU_ASFLAGS_$(architecture) = ;
# C/C++ flags
if $(gccVersion[1]) >= 4 {
HAIKU_C++FLAGS_$(architecture) += -Wno-deprecated ;
}
switch $(cpu) {
case x86* :
# Enable use of the gcc built-in atomic functions instead of
# atomic_*(). The former are inlined and have thus less overhead.
# They are not available with gcc 2, but the header will take care
# of that.
HAIKU_DEFINES_$(architecture) += B_USE_BUILTIN_ATOMIC_FUNCTIONS ;
}
# warning flags
HAIKU_WARNING_CCFLAGS_$(architecture)
= -Wall -Wno-trigraphs -Wmissing-prototypes
-Wpointer-arith -Wcast-align -Wsign-compare -Wno-multichar ;
HAIKU_WARNING_C++FLAGS_$(architecture) = -Wall -Wno-trigraphs
-Wno-ctor-dtor-privacy -Woverloaded-virtual -Wpointer-arith -Wcast-align
-Wsign-compare -Wno-multichar ;
HAIKU_WERROR_FLAGS_$(architecture) = ;
if $(gccVersion[1]) >= 4 {
# -Wuninitialized gives too many false positives.
HAIKU_WERROR_FLAGS_$(architecture) += -Wno-error=uninitialized ;
# TODO: remove the -Wno-unused-but-set-variable option
HAIKU_WERROR_FLAGS_$(architecture) += -Wno-unused-but-set-variable ;
}
# debug flags
local debugFlags = -ggdb ;
# debug 0: suppress asserts
HAIKU_DEBUG_0_CCFLAGS_$(architecture) = [ FDefines NDEBUG=$(NDEBUG) ] ;
HAIKU_DEBUG_0_C++FLAGS_$(architecture) = [ FDefines NDEBUG=$(NDEBUG) ] ;
local level ;
for level in $(HAIKU_DEBUG_LEVELS[2-]) {
local flags = $(debugFlags) [ FDefines DEBUG=$(level) ] ;
HAIKU_DEBUG_$(level)_CCFLAGS_$(architecture) = $(flags) ;
HAIKU_DEBUG_$(level)_C++FLAGS_$(architecture) = $(flags) ;
}
if $(gccVersion[1]) >= 3 {
# TODO: Temporary work-around. Should be defined in the compiler specs
HAIKU_LINKFLAGS_$(architecture) += -Xlinker --no-undefined ;
} else {
HAIKU_DEFINES_$(architecture) += _BEOS_R5_COMPATIBLE_ ;
}
# private shared kernel/libroot headers
HAIKU_PRIVATE_SYSTEM_HEADERS_$(architecture)
= [ PrivateHeaders $(DOT) system system/arch/$(cpu) ] ;
# Add some grist to the libgcc objects
HAIKU_GCC_LIBGCC_OBJECTS_$(architecture)
= $(HAIKU_GCC_LIBGCC_OBJECTS_$(architecture):G=libgcc!$(architecture)) ;
# List of libgcc objects we don't want to keep
HAIKU_GCC_LIBGCC_OBJECTS_EXCLUDES_$(architecture)
= eabi.o ;
# the C++ standard library
HAIKU_BUILD_SHARED_LIBSTDC++_$(architecture) = ;
if $(HAIKU_SHARED_LIBSTDC++_$(architecture)) {
HAIKU_LIBSTDC++_$(architecture)
= $(HAIKU_SHARED_LIBSTDC++_$(architecture)) ;
} else {
# no shared library available with the compiler -- build it
if $(gccVersion[1]) = 2 {
HAIKU_LIBSTDC++_$(architecture) = libstdc++.r4.so ;
} else {
HAIKU_LIBSTDC++_$(architecture) = <$(architecture)>libstdc++.so ;
}
HAIKU_SHARED_LIBSTDC++_$(architecture)
= $(HAIKU_LIBSTDC++_$(architecture)) ;
HAIKU_BUILD_SHARED_LIBSTDC++_$(architecture) = 1 ;
}
# the C++ support (runtime) library
HAIKU_BUILD_SHARED_LIBSUPC++_$(architecture) = ;
if $(HAIKU_SHARED_LIBSUPC++_$(architecture)) {
HAIKU_LIBSUPC++_$(architecture)
= $(HAIKU_SHARED_LIBSUPC++_$(architecture)) ;
} else {
# no shared library available with the compiler -- build it for gcc 4
if $(gccVersion[1]) != 2 {
HAIKU_SHARED_LIBSUPC++_$(architecture)
= <$(architecture)>libsupc++.so ;
HAIKU_BUILD_SHARED_LIBSUPC++_$(architecture) = 1 ;
}
HAIKU_LIBSUPC++_$(architecture)
= $(HAIKU_SHARED_LIBSUPC++_$(architecture)) ;
}
# library and executable glue code
local commonGlueCode =
<src!system!glue!$(architecture)>init_term_dyn.o
<src!system!glue!arch!$(HAIKU_ARCH)!$(architecture)>crti.o
<src!system!glue!arch!$(HAIKU_ARCH)!$(architecture)>crtn.o
;
HAIKU_LIBRARY_BEGIN_GLUE_CODE_$(architecture) =
<src!system!glue!arch!$(HAIKU_ARCH)!$(architecture)>crti.o
<$(architecture)>crtbegin.o
<src!system!glue!$(architecture)>init_term_dyn.o
;
HAIKU_LIBRARY_END_GLUE_CODE_$(architecture) =
<$(architecture)>crtend.o
<src!system!glue!arch!$(HAIKU_ARCH)!$(architecture)>crtn.o
;
HAIKU_EXECUTABLE_BEGIN_GLUE_CODE_$(architecture) =
<src!system!glue!arch!$(HAIKU_ARCH)!$(architecture)>crti.o
<$(architecture)>crtbegin.o
<src!system!glue!$(architecture)>start_dyn.o
<src!system!glue!$(architecture)>init_term_dyn.o
;
HAIKU_EXECUTABLE_END_GLUE_CODE_$(architecture)
= $(HAIKU_LIBRARY_END_GLUE_CODE_$(architecture)) ;
SEARCH on <$(architecture)>crtbegin.o <$(architecture)>crtend.o
= $(HAIKU_GCC_LIB_DIR_$(architecture)) ;
# init library name map
local libraryGrist = "" ;
if $(architecture) != $(HAIKU_PACKAGING_ARCHS[1]) {
libraryGrist = $(architecture) ;
}
local i ;
for i in be bnetapi debug device game locale mail media midi midi2
network package root screensaver textencoding tracker
translation z {
local library = lib$(i).so ;
HAIKU_LIBRARY_NAME_MAP_$(architecture)_$(i)
= $(library:G=$(libraryGrist)) ;
}
HAIKU_LIBRARY_NAME_MAP_$(architecture)_libstdc++
= $(HAIKU_LIBSTDC++_$(architecture)) ;
HAIKU_LIBRARY_NAME_MAP_$(architecture)_libsupc++
= $(HAIKU_LIBSUPC++_$(architecture)) ;
HAIKU_LIBRARY_NAME_MAP_$(architecture)_localestub
= <$(architecture)>liblocalestub.a ;
if $(architecture) = $(HAIKU_PACKAGING_ARCHS[1]) {
HAIKU_LIBRARY_NAME_MAP_$(architecture)_input_server
= <nogrist>input_server ;
} else {
HAIKU_LIBRARY_NAME_MAP_$(architecture)_input_server
= <$(architecture)>input_server ;
}
}
rule KernelArchitectureSetup architecture
{
# KernelArchitectureSetup <architecture> ;
#
# Initializes the global kernel and boot loader related variables. Those
# don't have a packaging architecture suffix, since they are only set for
# the primary packaging architecture. <architecture> is the primary
# packaging architecture (supplied for convenience).
HAIKU_KERNEL_ARCH = $(HAIKU_ARCH) ;
local gccVersion = $(HAIKU_GCC_VERSION_$(architecture)) ;
local cpu = $(HAIKU_CPU_$(architecture)) ;
switch $(cpu) {
case ppc :
HAIKU_BOOT_PLATFORM ?= openfirmware ;
HAIKU_BOOT_FLOPPY_IMAGE_SIZE = 1440 ; # in kB
# offset in floppy image (>= sizeof(haiku_loader))
HAIKU_BOOT_ARCHIVE_IMAGE_OFFSET = 192 ; # in kB - unused yet
case arm :
HAIKU_BOOT_PLATFORM ?= u-boot ;
HAIKU_BOOT_BOARD ?= verdex ;
HAIKU_BOOT_FLOPPY_IMAGE_SIZE = 1440 ;
# in kB (there is not really a floppy on the gumstix ;) )
# offset in floppy image (>= sizeof(haiku_loader))
HAIKU_BOOT_ARCHIVE_IMAGE_OFFSET = 192 ; # in kB - unused yet
case x86 :
HAIKU_BOOT_PLATFORM = bios_ia32 ;
HAIKU_BOOT_FLOPPY_IMAGE_SIZE = 2880 ; # in kB
# offset in floppy image (>= sizeof(haiku_loader))
HAIKU_BOOT_ARCHIVE_IMAGE_OFFSET = 300 ; # in kB
# yasm is required for target arch x86
if ! $(HAIKU_YASM) {
Exit "HAIKU_YASM not set. Please re-run configure." ;
}
case x86_64 :
# x86_64 completely shares the x86 bootloader.
HAIKU_BOOT_PLATFORM = bios_ia32 ;
HAIKU_BOOT_FLOPPY_IMAGE_SIZE = 2880 ; # in kB
# offset in floppy image (>= sizeof(haiku_loader))
HAIKU_BOOT_ARCHIVE_IMAGE_OFFSET = 300 ; # in kB
# x86_64 kernel source is under arch/x86.
HAIKU_KERNEL_ARCH = x86 ;
# yasm is required for target arch x86_64
if ! $(HAIKU_YASM) {
Exit "HAIKU_YASM not set. Please re-run configure." ;
}
case m68k :
HAIKU_BOOT_PLATFORM ?= atari_m68k ;
switch $(HAIKU_BOOT_PLATFORM) {
case atari_m68k :
{
HAIKU_BOOT_FLOPPY_IMAGE_SIZE = 1440 ; # in kB
}
case amiga_m68k :
{
# for now we have trouble reading from double-sided images
HAIKU_BOOT_FLOPPY_IMAGE_SIZE = 880 ; # in kB
}
}
# offset in floppy image (>= sizeof(haiku_loader))
HAIKU_BOOT_ARCHIVE_IMAGE_OFFSET = 260 ; # in kB
HAIKU_CONTAINER_STRIP_EXECUTABLES on
$(HAIKU_FLOPPY_BOOT_IMAGE_CONTAINER_NAME) = 1 ;
case mipsel :
# RouterBOARD firmware (ELF image over TFTP)
HAIKU_BOOT_PLATFORM = routerboard_mipsel ;
# offset in floppy image (>= sizeof(haiku_loader))
HAIKU_BOOT_ARCHIVE_IMAGE_OFFSET = 192 ; # in kB
case * :
Exit "Currently unsupported target CPU:" $(cpu) ;
}
# Include embedded board-specific file.
if $(HAIKU_BOOT_BOARD) {
include [ FDirName $(HAIKU_BUILD_RULES_DIR) board $(HAIKU_BOOT_BOARD)
BoardSetup ] ;
}
# private kernel headers to be used when compiling kernel code
HAIKU_PRIVATE_KERNEL_HEADERS =
[ PrivateHeaders $(DOT) kernel libroot shared
kernel/boot/platform/$(HAIKU_BOOT_PLATFORM) ]
[ ArchHeaders $(HAIKU_KERNEL_ARCH) ]
[ FDirName $(HAIKU_COMMON_DEBUG_OBJECT_DIR_$(architecture)) system
kernel ]
$(HAIKU_PRIVATE_SYSTEM_HEADERS_$(architecture))
;
# C/C++ flags
local gccBaseFlags = $(HAIKU_GCC_BASE_FLAGS_$(architecture))
-finline -fno-builtin ;
if $(gccVersion[1]) >= 4 {
gccBaseFlags += -ffreestanding ;
}
local g++BaseFlags = $(gccBaseFlags) -fno-exceptions ;
if $(gccVersion[1]) >= 3 {
g++BaseFlags += -fno-use-cxa-atexit ;
}
HAIKU_KERNEL_CCFLAGS = $(HAIKU_CCFLAGS_$(architecture)) $(gccBaseFlags) ;
HAIKU_KERNEL_C++FLAGS = $(HAIKU_C++FLAGS_$(architecture)) $(g++BaseFlags) ;
HAIKU_BOOT_CCFLAGS = $(HAIKU_CCFLAGS_$(architecture)) $(gccBaseFlags) ;
HAIKU_BOOT_C++FLAGS = $(HAIKU_C++FLAGS_$(architecture)) $(g++BaseFlags) ;
HAIKU_BOOT_LINKFLAGS = ;
HAIKU_KERNEL_PIC_CCFLAGS = -fno-pic ;
HAIKU_KERNEL_PIC_LINKFLAGS = ;
HAIKU_KERNEL_ADDON_LINKFLAGS = ;
switch $(cpu) {
case ppc :
# Build a position independent PPC kernel. We need to be able to
# relocate the kernel, since the virtual address space layout at
# boot time is not fixed.
HAIKU_KERNEL_PIC_CCFLAGS = -fPIE ;
HAIKU_KERNEL_PIC_LINKFLAGS = -shared -fPIE ;
case m68k :
# We don't want to have to handle emulating missing FPU opcodes for
# 040 and 060 in the kernel.
HAIKU_KERNEL_CCFLAGS += -mtune=68020-60 ;
HAIKU_KERNEL_C++FLAGS += -mtune=68020-60 ;
case x86 :
HAIKU_KERNEL_CCFLAGS += -march=pentium ;
HAIKU_KERNEL_C++FLAGS += -march=pentium ;
case x86_64 :
# Kernel lives in the top 2GB of the address space, use kernel code
# model.
HAIKU_KERNEL_PIC_CCFLAGS += -mcmodel=kernel ;
# Disable the red zone, which cannot be used in kernel code due to
# interrupts, and always enable the frame pointer so stack traces
# are correct.
HAIKU_KERNEL_CCFLAGS += -mno-red-zone -fno-omit-frame-pointer ;
HAIKU_KERNEL_C++FLAGS += -mno-red-zone -fno-omit-frame-pointer ;
HAIKU_KERNEL_PIC_LINKFLAGS += -z max-page-size=0x1000 ;
HAIKU_KERNEL_ADDON_LINKFLAGS += -z max-page-size=0x1000 ;
# Bootloader is 32-bit.
HAIKU_BOOT_LINKFLAGS += -m elf_i386_haiku ;
HAIKU_BOOT_CCFLAGS += -m32 -march=pentium ;
HAIKU_BOOT_C++FLAGS += -m32 -march=pentium ;
}
# warning flags
HAIKU_KERNEL_WARNING_CCFLAGS = -Wall -Wno-trigraphs -Wmissing-prototypes
-Wno-multichar ;
HAIKU_KERNEL_WARNING_C++FLAGS = -Wall -Wno-trigraphs -Wno-multichar ;
# debug flags
local level ;
for level in $(HAIKU_DEBUG_LEVELS) {
local flags = $(HAIKU_DEBUG_FLAGS) [ FDefines DEBUG=$(level) ] ;
HAIKU_KERNEL_DEBUG_$(level)_CCFLAGS
= $(HAIKU_DEBUG_$(level)_CCFLAGS_$(architecture)) ;
HAIKU_KERNEL_DEBUG_$(level)_C++FLAGS
= $(HAIKU_DEBUG_$(level)_C++FLAGS_$(architecture)) ;
}
# defines
HAIKU_KERNEL_DEFINES += _KERNEL_MODE ;
HAIKU_DEFINES_$(architecture)
+= BOOT_ARCHIVE_IMAGE_OFFSET=$(HAIKU_BOOT_ARCHIVE_IMAGE_OFFSET) ;
# TODO: That doesn't need to be a general define. It's just needed for
# compiling (part of) the boot loader.
# kernel add-on glue code
HAIKU_KERNEL_ADDON_BEGIN_GLUE_CODE = <$(architecture)>crtbegin.o
<src!system!glue!$(architecture)>haiku_version_glue.o ;
HAIKU_KERNEL_ADDON_END_GLUE_CODE
= $(HAIKU_GCC_LIBGCC_$(architecture)) <$(architecture)>crtend.o ;
}
rule ArchitectureSetupWarnings architecture
{
# ArchitectureSetupWarnings <architecture> ;
#
# Sets up compiler warnings and error flags for various subdirectories for
# the given packaging architecture.
local cpu = $(HAIKU_CPU_$(architecture)) ;
switch $(cpu) {
case arm :
return ;
# we use #warning as placeholders for things to write...
case m68k :
return ;
# we use #warning as placeholders for things to write...
case mipsel :
return ;
# we use #warning as placeholders for things to write...
}
# enable -Werror for certain parts of the source tree
HAIKU_WERROR_ARCH = $(architecture) ;
rule EnableWerror dirTokens : scope {
# Clang gives way more warnings than GCC, so that code won't compile
# -Werror when using Clang.
if ! $(CLANG) {
SetConfigVar WARNINGS : HAIKU_TOP $(dirTokens) : treatAsErrors
: $(scope) ;
}
}
# Work-around for GCC 2 problem -- despite -Wno-multichar it reports
# multichar warnings in headers/private/kernel/debugger_keymaps.h included
# by src/system/kernel/arch/x86/arch_debug_console.cpp.
local gccVersion = $(HAIKU_GCC_VERSION_$(architecture)) ;
if $(gccVersion[1]) = 2 {
local file = <src!system!kernel!arch!x86>arch_debug_console.o ;
WARNINGS on $(file) = $(WARNINGS) ;
}
if $(CLANG) {
# We need -integrated-as, as otherwise Clang uses GCC as assembler and
# passes -fheinous-gnu-extensions to GCC, which GCC does not understand
# then errors out.
AppendToConfigVar CCFLAGS :
HAIKU_TOP src system libroot posix glibc :
-integrated-as -fgnu89-inline -fheinous-gnu-extensions : global ;
}
EnableWerror src add-ons accelerants 3dfx ;
EnableWerror src add-ons accelerants ati ;
EnableWerror src add-ons accelerants common ;
EnableWerror src add-ons accelerants et6x00 ;
# EnableWerror src add-ons accelerants intel_extreme ;
# EnableWerror src add-ons accelerants matrox ;
EnableWerror src add-ons accelerants neomagic ;
# EnableWerror src add-ons accelerants nvidia ;
EnableWerror src add-ons accelerants nvidia_gpgpu ;
# EnableWerror src add-ons accelerants radeon ;
# EnableWerror src add-ons accelerants radeon_hd ;
EnableWerror src add-ons accelerants s3 ;
EnableWerror src add-ons accelerants skeleton ;
EnableWerror src add-ons accelerants vesa ;
EnableWerror src add-ons accelerants via ;
EnableWerror src add-ons accelerants vmware ;
EnableWerror src add-ons bluetooth ;
EnableWerror src add-ons decorators ;
EnableWerror src add-ons disk_systems ;
EnableWerror src add-ons input_server devices ;
# EnableWerror src add-ons input_server filters ;
# EnableWerror src add-ons input_server methods ;
EnableWerror src add-ons kernel bluetooth ;
# EnableWerror src add-ons kernel bus_managers acpi ;
EnableWerror src add-ons kernel bus_managers agp_gart ;
EnableWerror src add-ons kernel bus_managers ata ;
EnableWerror src add-ons kernel bus_managers config_manager ;
# EnableWerror src add-ons kernel bus_managers firewire ;
EnableWerror src add-ons kernel bus_managers isa ;
EnableWerror src add-ons kernel bus_managers pci ;
# EnableWerror src add-ons kernel bus_managers ps2 ; # gcc2
EnableWerror src add-ons kernel bus_managers scsi ;
EnableWerror src add-ons kernel bus_managers usb ;
EnableWerror src add-ons kernel busses agp_gart ;
EnableWerror src add-ons kernel busses ata ;
EnableWerror src add-ons kernel busses scsi ;
EnableWerror src add-ons kernel busses usb ;
EnableWerror src add-ons kernel console ;
EnableWerror src add-ons kernel cpu ;
# EnableWerror src add-ons kernel debugger ; # gcc2
# EnableWerror src add-ons kernel drivers audio ;
EnableWerror src add-ons kernel drivers bluetooth ;
EnableWerror src add-ons kernel drivers bus ;
EnableWerror src add-ons kernel drivers common ;
EnableWerror src add-ons kernel drivers disk ;
EnableWerror src add-ons kernel drivers dvb ;
# EnableWerror src add-ons kernel drivers graphics ;
# EnableWerror src add-ons kernel drivers input ;
EnableWerror src add-ons kernel drivers joystick ;
EnableWerror src add-ons kernel drivers midi ;
EnableWerror src add-ons kernel drivers misc ;
# EnableWerror src add-ons kernel drivers network ;
EnableWerror src add-ons kernel drivers ports ;
# EnableWerror src add-ons kernel drivers power ;
EnableWerror src add-ons kernel drivers printer ;
EnableWerror src add-ons kernel drivers random ;
EnableWerror src add-ons kernel drivers tty ;
EnableWerror src add-ons kernel drivers video ;
EnableWerror src add-ons kernel file_systems bfs ;
EnableWerror src add-ons kernel file_systems cdda ;
# EnableWerror src add-ons kernel file_systems ext2 ;
# EnableWerror src add-ons kernel file_systems fat ;
# EnableWerror src add-ons kernel file_systems googlefs ;
EnableWerror src add-ons kernel file_systems iso9660 ;
EnableWerror src add-ons kernel file_systems layers ;
EnableWerror src add-ons kernel file_systems netfs ;
EnableWerror src add-ons kernel file_systems nfs ;
EnableWerror src add-ons kernel file_systems nfs4 ;
# EnableWerror src add-ons kernel file_systems ntfs ;
EnableWerror src add-ons kernel file_systems packagefs ;
EnableWerror src add-ons kernel file_systems ramfs ;
# EnableWerror src add-ons kernel file_systems reiserfs ;
EnableWerror src add-ons kernel file_systems udf ;
EnableWerror src add-ons kernel file_systems userlandfs ;
EnableWerror src add-ons kernel generic ;
# EnableWerror src add-ons kernel network datalink_protocols ;
EnableWerror src add-ons kernel network devices ;
EnableWerror src add-ons kernel network dns_resolver ;
EnableWerror src add-ons kernel network notifications ;
EnableWerror src add-ons kernel network ppp ;
EnableWerror src add-ons kernel network protocols ;
# EnableWerror src add-ons kernel network stack ;
EnableWerror src add-ons kernel partitioning_systems ;
EnableWerror src add-ons locale ;
EnableWerror src add-ons mail_daemon ;
EnableWerror src add-ons media media-add-ons demultiplexer ;
EnableWerror src add-ons media media-add-ons dvb ;
EnableWerror src add-ons media media-add-ons esound_sink ;
EnableWerror src add-ons media media-add-ons finepix_webcam ;
EnableWerror src add-ons media media-add-ons firewire_dv ;
EnableWerror src add-ons media media-add-ons legacy ;
EnableWerror src add-ons media media-add-ons mixer ;
EnableWerror src add-ons media media-add-ons multi_audio ;
EnableWerror src add-ons media media-add-ons opensound ;
EnableWerror src add-ons media media-add-ons radeon ;
EnableWerror src add-ons media media-add-ons reader ;
EnableWerror src add-ons media media-add-ons tone_producer_demo ;
EnableWerror src add-ons media media-add-ons usb_vision ;
# EnableWerror src add-ons media media-add-ons usb_webcam ;
EnableWerror src add-ons media media-add-ons video_mixer ;
# EnableWerror src add-ons media media-add-ons video_producer_demo ;
EnableWerror src add-ons media media-add-ons videowindow ;
EnableWerror src add-ons media media-add-ons writer ;
EnableWerror src add-ons media plugins ac3_decoder ;
EnableWerror src add-ons media plugins aiff_reader ;
EnableWerror src add-ons media plugins ape_reader ;
# EnableWerror src add-ons media plugins asf_reader ;
EnableWerror src add-ons media plugins au_reader ;
# EnableWerror src add-ons media plugins avi_reader ;
# EnableWerror src add-ons media plugins ffmpeg ;
# EnableWerror src add-ons media plugins matroska ;
# EnableWerror src add-ons media plugins mov_reader ;
EnableWerror src add-ons media plugins mp3_decoder ;
# EnableWerror src add-ons media plugins mp3_reader ;
EnableWerror src add-ons media plugins mp4_reader ;
EnableWerror src add-ons media plugins musepack ;
# EnableWerror src add-ons media plugins ogg ;
# EnableWerror src add-ons media plugins raw_decoder ;
# EnableWerror src add-ons media plugins speex ;
EnableWerror src add-ons media plugins theora ;
EnableWerror src add-ons media plugins vorbis ;
# EnableWerror src add-ons media plugins wav_reader ;
EnableWerror src add-ons media plugins xvid_decoder ;
EnableWerror src add-ons print ;
EnableWerror src add-ons screen_savers ;
EnableWerror src add-ons tracker ;
EnableWerror src add-ons translators bmp ;
# EnableWerror src add-ons translators exr ;
EnableWerror src add-ons translators gif ;
# EnableWerror src add-ons translators hpgs ;
EnableWerror src add-ons translators hvif ;
EnableWerror src add-ons translators ico ;
# EnableWerror src add-ons translators jpeg ; # gcc2
EnableWerror src add-ons translators jpeg2000 ;
EnableWerror src add-ons translators pcx ;
# EnableWerror src add-ons translators png ; # gcc2
EnableWerror src add-ons translators ppm ;
EnableWerror src add-ons translators raw ;
EnableWerror src add-ons translators rtf ;
EnableWerror src add-ons translators sgi ;
EnableWerror src add-ons translators shared ;
# EnableWerror src add-ons translators stxt ;
EnableWerror src add-ons translators tga ;
EnableWerror src add-ons translators tiff ;
# EnableWerror src add-ons translators wonderbrush ;
EnableWerror src add-ons print ;
EnableWerror src bin multiuser ;
EnableWerror src bin package ;
EnableWerror src bin package_repo ;
EnableWerror src bin pkgman ;
EnableWerror src apps ;
EnableWerror src kits ;
EnableWerror src preferences ;
EnableWerror src servers ;
EnableWerror src system kernel ;
EnableWerror src system libroot add-ons ;
EnableWerror src system libroot posix locale ;
EnableWerror src system libroot posix wchar ;
EnableWerror src system runtime_loader ;
}
rule MultiArchIfPrimary ifValue : elseValue : architecture
{
# MultiArchIfPrimary <ifValue> : <elseValue>
# [ : <architecture> = $(TARGET_PACKAGING_ARCH) ] ;
#
# Returns one of the two given values depending on whether
# <architecture> is the primary packaging architecture.
architecture ?= $(TARGET_PACKAGING_ARCH) ;
if $(architecture) = $(TARGET_PACKAGING_ARCHS[1]) {
return $(ifValue) ;
}
return $(elseValue) ;
}
rule MultiArchConditionalGristFiles files : primaryGrist : secondaryGrist
: architecture
{
# MultiArchConditionalGristFiles <files> : <primaryGrist>
# : <secondaryGrist> [ : <architecture> = $(TARGET_PACKAGING_ARCH) ] ;
#
# Returns <files> with their grist set to either <primaryGrist> or
# <secondaryGrist> depending on whether <architecture> is the primary
# packaging architecture.
architecture ?= $(TARGET_PACKAGING_ARCH) ;
local grist = [ MultiArchIfPrimary $(primaryGrist) : $(secondaryGrist)
: $(architecture) ] ;
return $(files:G=$(grist:E=)) ;
}
rule MultiArchDefaultGristFiles files : gristPrefix : architecture
{
# MultiArchDefaultGristFiles <files> : <gristPrefix>
# [ : <architecture> = $(TARGET_PACKAGING_ARCH) ] ;
#
# Convenient shorthand for MultiArchConditionalGristFiles for the common
# case that for a secondary packaging architecture the packaging
# architecture name shall be appended to the grist while it shall be omitted
# for the primary packaging architecture. IOW, if architecture is the
# primary packaging architecture, <files> are returned with their grist set
# to <gristPrefix>, otherwise <files> are returned with their grist set to
# <gristPrefix>!<architecture> respectively <architecture> (if <gristPrefix>
# is empty).
architecture ?= $(TARGET_PACKAGING_ARCH) ;
local secondaryGrist = $(gristPrefix)!$(architecture) ;
secondaryGrist ?= $(architecture) ;
return [ MultiArchConditionalGristFiles $(files) : $(gristPrefix) :
$(secondaryGrist) : $(architecture) ] ;
}
rule MultiArchSubDirSetup architectures
{
# MultiArchSubDirSetup <architectures> ;
#
# For each of the given packaging architectures <architectures> that are
# in the packaging architectures configured for the build (or all configured
# packaging architectures, if <architectures> is empty) an object is
# prepared that can be used for an "on ... { ... }" block to set up subdir
# variables for the respective packaging architecture. Most notably
# TARGET_PACKAGING_ARCH, TARGET_ARCH, TARGET_LIBSUPC++, and TARGET_LIBSTDC++
# are set to the values for the respective packaging architecture. The
# per-subdir variables SOURCE_GRIST, LOCATE_TARGET, LOCATE_SOURCE,
# SEARCH_SOURCE, *_LOCATE_TARGET, are reset. All SUBDIR* and config
# variables are set to the values they had when this rule was invoked.
local result ;
architectures ?= $(TARGET_PACKAGING_ARCHS) ;
local architecture ;
for architecture in $(architectures) {
if ! $(architecture) in $(TARGET_PACKAGING_ARCHS) {
continue ;
}
local architectureObject = $(architecture:G=<arch-object>) ;
result += $(architectureObject) ;
# Set the variables that default to the values of the respective
# variables for the primary architecture.
TARGET_PACKAGING_ARCH on $(architectureObject) = $(architecture) ;
local var ;
for var in TARGET_ARCH TARGET_LIBSUPC++ TARGET_LIBSTDC++ {
$(var) on $(architectureObject) = $($(var)_$(architecture)) ;
}
# Clone the current config variable values and the variables SubDir
# resets.
for var in $(AUTO_SET_UP_CONFIG_VARIABLES) SUBDIR$(SUBDIRRESET) {
$(var) on $(architectureObject) = $($(var)) ;
}
# adjust SOURCE_GRIST
SOURCE_GRIST on $(architectureObject)
= $(SOURCE_GRIST:E=)!$(architecture) ;
# Adjust the subdir's object dirs that are architecture dependent. To
# avoid duplicating the code from SetupObjectsDir, we call it. Since it
# sets global variables, we set these variables on our object, call
# SetupObjectsDir in an "on" block, and grab the new variable values.
local hostTarget = HOST TARGET ;
local objectDirVars =
COMMON_ARCH COMMON_DEBUG DEBUG_$(HAIKU_DEBUG_LEVELS)
;
objectDirVars =
COMMON_PLATFORM_LOCATE_TARGET
$(hostTarget)_$(objectDirVars)_LOCATE_TARGET
LOCATE_TARGET
LOCATE_SOURCE
SEARCH_SOURCE
;
for var in $(objectDirVars) {
$(var) on $(architectureObject) = ;
}
on $(architectureObject) {
SetupObjectsDir ;
for var in $(objectDirVars) {
$(var) on $(architectureObject) = $($(var)) ;
}
}
}
return $(result) ;
}