configs/armv7m-crossdev.txt


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Use crossdev to build a bare-metal (no kernel headers or full eglibc) for
an ARM Cortex-M4 dev board.  The cortex-m4 is the armv7e-m arch for gcc.
The Cortex-M4 has a silicon FPU option (VFPv4-SP) of single-precision (SP),
which is known as a Cortex-M4F.  The Cortex-M4 also includes SIMD DSP
instructions.

This commands builds binutils/gcc/newlib/gdb; first emerge crossdev-999999,
then disable any layman/other overlays and enable the output overlay in the
crossdev command (unless you want the cross-foo overlay to be created in
the first existing overlay found by crossdev).

Note for newer portage using repos.conf you should use PORTDIR_OVERLAY for
the output overlay instead of the crossdev argument for ov-output.  Also if
portage complains about no LIBC defined, you can add ELIBC="newlib" to
the command line.

USE="hardened multitarget lzma -multilib -openmp -fortran -jit" EXTRA_ECONF="--disable-multilib --disable-libsanitizer --with-arch=armv7e-m --with-tune=cortex-m4 --with-float-abi=hard --with-fpu=fpv4-sp-d16 --with-mode=thumb" crossdev armv7m-hardfloat-eabi --ex-gdb  --show-fail-log  --ov-output /usr/local/cortex-m4

To use the nano-io and nano-malloc config options, use this one:

USE="hardened multitarget lzma -multilib -openmp -fortran -jit" EXTRA_ECONF="--enable-newlib-nano-formatted-io --enable-newlib-nano-malloc --with-newlib --disable-multilib --disable-libsanitizer --with-arch=armv7e-m --with-tune=cortex-m4 --with-float-abi=hard --with-fpu=fpv4-sp-d16 --with-mode=thumb" crossdev armv7m-hardfloat-eabi --abis "aapcs,atpcs" --ex-gdb  --show-fail-log --ov-output /usr/local/cortex-m4

Final command using portage newlib for default stage-1 gcc:

PORTDIR_OVERLAY="/usr/local/cortex-m4 /var/lib/layman/ada" USE="hardened multitarget lzma -multilib -openmp -fortran -jit -vtv" EXTRA_ECONF="--enable-newlib-nano-formatted-io --enable-newlib-nano-malloc --with-newlib --disable-multilib --disable-libsanitizer --with-arch=armv7e-m --with-tune=cortex-m4 --with-float-abi=hard --with-fpu=fpv4-sp-d16 --with-mode=thumb --with-abi=aapcs-linux --enable-libstdcxx-time=no" crossdev --g 5.4.0-r4 -t armv7m-hardfloat-eabi --ex-gdb  --show-fail-log  -v

Using newlib-nano ebuild in local overlay, note newlib-nano enables the above
two options plus several others:

PORTDIR_OVERLAY="/usr/local/cortex-m4 /var/lib/layman/ada /usr/local/portage" USE="hardened multitarget lzma -multilib -nls -openmp -fortran -jit -vtv" EXTRA_ECONF="--with-newlib --disable-multilib --disable-libsanitizer --with-arch=armv7e-m --with-tune=cortex-m4 --with-float-abi=hard --with-fpu=fpv4-sp-d16 --with-mode=thumb --with-abi=aapcs-linux" crossdev --g 5.4.0-r4 -t armv7m-hardfloat-eabi  --lenv 'USE="newlib-nano"' --ex-gdb  --show-fail-log  -v

2-stage gcc command with crossdev arg for stage 4 with c,c++ and newlib:

PORTDIR_OVERLAY="/usr/local/cortex-m4 /var/lib/layman/ada" USE="-ada hardened multitarget lzma -multilib -nls -openmp -fortran -jit -vtv" EXTRA_ECONF="--with-newlib --disable-multilib --disable-libsanitizer --with-arch=armv7e-m --with-tune=cortex-m4 --with-float-abi=hard --with-fpu=fpv4-sp-d16 --with-mode=thumb --with-abi=aapcs-linux  --enable-libstdcxx-time=no" crossdev --g 5.4.0-r4 -s4 -t armv7m-hardfloat-eabi  --lenv 'USE="newlib-nano"' --ex-gdb  --show-fail-log  -v

Same command as above but with ada support (just no libada)

PORTDIR_OVERLAY="/usr/local/cortex-m4 /var/lib/layman/ada" USE="ada hardened multitarget lzma -multilib -nls -openmp -fortran -jit -vtv" EXTRA_ECONF="--with-newlib --disable-libada --disable-multilib --disable-libsanitizer --with-arch=armv7e-m --with-tune=cortex-m4 --with-float-abi=hard --with-fpu=fpv4-sp-d16 --with-mode=thumb --with-abi=aapcs-linux  --enable-libstdcxx-time=no" crossdev --g 6.4.0 -s4 -t armv7m-hardfloat-eabi --genv 'EXTRA_ECONF="--with-host-libstdcxx=-static-libgcc -Wl,-Bstatic,-lstdc++,-Bdynamic -lm"' --lenv 'USE="newlib-nano"' --ex-gdb  --show-fail-log  -v

Extra upstream config hack for transactional memory related code in
crtbegin.o, add INHIBIT_LIBC_CFLAGS to EXTRA_ECONF:

--genv 'EXTRA_ECONF="--with-host-libstdcxx=-static-libgcc -Wl,-Bstatic,-lstdc++,-Bdynamic -lm" INHIBIT_LIBC_CFLAGS="-DUSE_TM_CLONE_REGISTRY=0"'

Basic FLAGS for target builds:

CFLAGS_FOR_TARGET="-mthumb -march=armv7e-m -mtune=cortex-m4 -mabi=aapcs \
 -mfpu=fpv4-sp-d16 -mfloat-abi=hard -mfp16-format=ieee \
 -Wa,-mimplicit-it=thumb -O[s2]"

CXXFLAGS_FOR_TARGET="-g -O[s2] -ffunction-sections -fdata-sections -fno-exceptions"

Current vendor toolchain produces:

   text    data     bss     dec     hex filename
 208576    1112   27888  237576   3a008 _build/nrf52832_xxaa_s132.out


Updated toolchain using gcc 5.4.0, newlib 2.4.0, gdb 7.11.1 without libnano*
but with newlib-nano-formatted-io and newlib-nano-malloc enabled and -Os
plus -g debug symbols produces:

   text    data     bss     dec     hex filename
 129268    1820   28500  159588   26f64 _build/nrf52832_xxaa_s132.out


Updated toolchain using slightly more correct (and bloaty) debug flags, where
DEBUG_BLOAT = -Og -g3 produces:

   text    data     bss     dec     hex filename
 145780    1820   28548  176148   2b014 _build/nrf52832_xxaa_s132.out

Roll your own toolchain ftw!