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# Originally brought to you by the Angstrom Distribution
#############################################################################
# TOOLCHAIN VERSION SETTINGS
#############################################################################
# Base line versions, good for most things
PREFERRED_GCC_VERSION ?= "4.4.1"
PREFERRED_BINUTILS ?= "2.18"
# Prefer glibc 2.6 and uclibc 0.9.30, these have had the most testing.
PREFERRED_VERSION_glibc ?= "2.6.1"
PREFERRED_VERSION_glibc-initial ?= "2.6.1"
PREFERRED_VERSION_eglibc ?= "2.10"
PREFERRED_VERSION_eglibc-initial ?= "2.10"
PREFERRED_VERSION_uclibc ?= "0.9.30.1"
PREFERRED_VERSION_uclibc-initial ?= "0.9.30.1"
# Some systems need a special gcc version
PREFERRED_GCC_VERSION_486sx ?= "4.3.2"
PREFERRED_GCC_VERSION_avr32 ?= "4.2.2"
PREFERRED_GCC_VERSION_armv7a ?= "4.4.1"
PREFERRED_GCC_VERSION_bfin ?= "4.1.2"
PREFERRED_GCC_VERSION_ppc405 ?= "4.4.1"
PREFERRED_GCC_VERSION_xilinx-ml403 ?= "4.1.1"
PREFERRED_GCC_VERSION_xilinx-ml403 ?= "4.1.1"
# This is unrelated to the kernel version, but userspace apps (e.g. HAL) require a recent version to build against
PREFERRED_VERSION_linux-libc-headers ?= "2.6.23"
# Uncomment this if want need to build an armv7a kernel with CSL toolchain (<2.6.27 don't boot with mainline gcc)
#KERNEL_CCSUFFIX_armv7a= "-4.2.1+csl-arm-2007q3-53"
# Binutils
PREFERRED_VERSION_binutils ?= "${PREFERRED_BINUTILS}"
PREFERRED_VERSION_binutils-cross ?= "${PREFERRED_BINUTILS}"
PREFERRED_VERSION_binutils-cross-sdk ?= "${PREFERRED_BINUTILS}"
# Avr32 only has patches for binutils 2.17 in OE
PREFERRED_VERSION_binutils_avr32 = "2.17"
PREFERRED_VERSION_binutils-cross_avr32 = "2.17"
PREFERRED_VERSION_binutils-cross-sdk_avr32 = "2.17"
# Compiler versions
PREFERRED_VERSION_gcc ?= "${PREFERRED_GCC_VERSION}"
PREFERRED_VERSION_gcc-cross ?= "${PREFERRED_GCC_VERSION}"
PREFERRED_VERSION_gcc-cross-sdk ?= "${PREFERRED_GCC_VERSION}"
PREFERRED_VERSION_gcc-cross-initial ?= "${PREFERRED_GCC_VERSION}"
PREFERRED_VERSION_gcc-cross-intermediate ?= "${PREFERRED_GCC_VERSION}"
# Compiler selection
PREFERRED_PROVIDER_virtual/${TARGET_PREFIX}binutils = "binutils-cross"
PREFERRED_PROVIDER_virtual/${TARGET_PREFIX}gcc-initial = "gcc-cross-initial"
PREFERRED_PROVIDER_virtual/${TARGET_PREFIX}gcc-intermediate = "gcc-cross-intermediate"
PREFERRED_PROVIDER_virtual/${TARGET_PREFIX}gcc = "gcc-cross"
PREFERRED_PROVIDER_virtual/${TARGET_PREFIX}g++ = "gcc-cross"
# Others
PREFERRED_PROVIDER_linux-libc-headers = "linux-libc-headers"
#############################################################################
# TOOLCHAIN CUSTOMIZATION
#############################################################################
# Branding
TARGET_VENDOR = "-oe"
# Add FEED_ARCH to the overrides list so that we can override the
# ARM_INSTRUCTION_SET like below
OVERRIDES .= ":${FEED_ARCH}"
# ARM920T and up can use thumb mode to decrease binary size at the expense of speed
# (the complete story is a bit more nuanced due to cache starvation)
# Minimal turns on thumb for armv4t machine according to this RFC:
# http://lists.linuxtogo.org/pipermail/angstrom-distro-devel/2008-October/002714.html
# We can't set ARM_INSTRUCTION_SET_<override> directly since that will un-overridable in recipes like gcc
PREFERRED_ARM_INSTRUCTION_SET_armv4t = "thumb"
PREFERRED_ARM_INSTRUCTION_SET_armv5te = "thumb"
PREFERRED_ARM_INSTRUCTION_SET_armv5teb = "thumb"
PREFERRED_ARM_INSTRUCTION_SET ?= "arm"
ARM_INSTRUCTION_SET = "${PREFERRED_ARM_INSTRUCTION_SET}"
# "arm" "thumb"
# The instruction set the compiler should use when generating application
# code. The kernel is always compiled with arm code at present. arm code
# is the original 32 bit ARM instruction set, thumb code is the 16 bit
# encoded RISC sub-set. Thumb code is smaller (maybe 70% of the ARM size)
# but requires more instructions (140% for 70% smaller code) so may be
# slower.
THUMB_INTERWORK = "yes"
# "yes" "no"
# Whether to compile with code to allow interworking between the two
# instruction sets. This allows thumb code to be executed on a primarily
# arm system and vice versa. It is strongly recommended that DISTROs not
# turn this off - the actual cost is very small.
# We don't want to keep OABI compat
ARM_KEEP_OABI = "0"
# ARM EABI is softfloat by default, but let's make sure :)
# make it overridable for platforms with FPU, like ep93xx or i.mx31
TARGET_FPU_arm ?= "soft"
TARGET_FPU_armeb ?= "soft"
TARGET_FPU_ixp4xx ?= "soft"
TARGET_FPU_ppc405 ?= "soft"
TARGET_FPU_armv6 ?= "hard"
TARGET_FPU_armv6-novfp ?= "soft"
TARGET_FPU_armv7a ?= "hard"
TARGET_FPU_ppc603e ?= "hard"
# webkit-gtk and cairo have alignment issues with double instructions on armv5 so
# disable them here. TODO: This knowledge should rather be encoded in the actual
# recipes!
TARGET_CC_ARCH_pn-webkit-gtk_armv5te = "-march=armv4t"
TARGET_CC_ARCH_pn-cairo_armv5te = "-march=armv4t"
#############################################################################
# C LIBRARY SETTINGS
#############################################################################
# Can be "glibc", "eglibc" or "uclibc"
LIBC ?= "eglibc"
require conf/distro/include/${LIBC}.inc
PSTAGE_EXTRAPATH = "${LIBC}"
require conf/distro/include/sane-toolchain-${LIBC}.inc
# Generate locales on the buildsystem instead of on the target. Speeds up first boot, set to "1" to enable
PREFERRED_PROVIDER_qemu-native = "qemu-native"
ENABLE_BINARY_LOCALE_GENERATION ?= "1"
# We only want to build UTF8 locales
LOCALE_UTF8_ONLY = "1"
# Qemu doesn't like armv6/eabi/vfp
ENABLE_BINARY_LOCALE_GENERATION_armv6 = "0"
ENABLE_BINARY_LOCALE_GENERATION_armv6-novfp = "0"
ENABLE_BINARY_LOCALE_GENERATION_armv7a = "0"
#qemu has taken a dislike to armeb as well
ENABLE_BINARY_LOCALE_GENERATION_armeb = "0"
def detect_arm_abi (d):
import bb
if bb.data.getVar('DISTRO_FEATURES',d) is None:
if bb.data.getVar('TARGET_ARCH', d, 1) in [ 'arm', 'armeb' ]:
return "oabi"
else:
return ""
if bb.data.getVar('TARGET_ARCH', d, 1) in [ 'arm', 'armeb' ]:
if 'eabi' in bb.data.getVar('DISTRO_FEATURES',d).split():
return "eabi"
return "oabi"
return ""
def compute_os_portion_of_target_triplet (d):
import bb
arm_eabi_supporting_arches = "armv6 armv6-novfp \
armv5te iwmmxt armv7a armv7 armv6 armv5teb armv5te armv4t"
ppc_spe_supporting_arches = "ppce500v2 ppce500"
if bb.data.getVar("LIBC", d, 1) == "uclibc":
libc_suffix = "uclibc"
else:
libc_suffix = "gnu"
if bb.data.getVar('TARGET_ARCH',d,1) in ['bfin']:
if libc_suffix == "gnu":
bb.fatal("bfin is not supported on glibc/eglibc. Please choose uclibc")
else:
os_suffix = "uclinux"
else:
os_suffix = "linux"
bparch = bb.data.getVar('BASE_PACKAGE_ARCH', d,1)
if bb.data.getVar('DISTRO_FEATURES',d,1) is not None and \
bparch is not None:
if 'eabi' in bb.data.getVar('DISTRO_FEATURES',d,1).split() and \
bb.data.getVar('TARGET_ARCH', d, 1) in [ 'arm', 'armeb' ]:
if bparch not in arm_eabi_supporting_arches.split():
bb.fatal("DISTRO requested EABI but selected machine does not support EABI")
abi_suffix = ""
else:
abi_suffix = "eabi"
elif bparch in ppc_spe_supporting_arches.split():
abi_suffix = "spe"
else:
abi_suffix = ""
else:
bb.note("DISTRO_FEATURES is not set abi suffix not set")
abi_suffix = ""
return os_suffix + "-" + libc_suffix + abi_suffix
# This is needed to get a correct PACKAGE_ARCH for packages that have PACKAGE_ARCH = ${MACHINE_ARCH}
ARM_ABI = "${@detect_arm_abi(d)}"
TARGET_OS = "${@compute_os_portion_of_target_triplet(d)}"
include conf/distro/include/sane-toolchain-${ARM_ABI}.inc
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