| # |
| # Copyright (c) 2023-2024, Arm Limited. All rights reserved. |
| # |
| # SPDX-License-Identifier: BSD-3-Clause |
| # |
| |
| # This build helper makefile is used to determine a suitable march build |
| # option to be used, based on platform provided ARM_ARCH_MAJOR/MINOR |
| # data and compiler supported march version. |
| |
| # Set the compiler's target architecture profile based on |
| # ARM_ARCH_MAJOR and ARM_ARCH_MINOR options. |
| |
| |
| # This is used to collect available march values from compiler. |
| # Example on a gcc-12.2 arm64 toolchain it will look like: |
| # [...] |
| #./aarch64-none-elf-gcc --target-help -march=foo |
| # cc1: error: unknown value 'foo' for '-march' |
| # cc1: note: valid arguments are: armv8-a armv8.1-a armv8.2-a armv8.3-a armv8.4-a armv8.5-a |
| # armv8.6-a armv8.7-a armv8.8-a armv8-r armv9-a |
| # [...] |
| # |
| GCC_MARCH_OUTPUT := $(if $($(ARCH)-cc),$(shell $($(ARCH)-cc) -march=foo -Q --help=target -v 2>&1)) |
| |
| # This function is used to find the best march value supported by the given compiler. |
| # We try to use `GCC_MARCH_OUTPUT` which has verbose message with supported march values we filter that |
| # to find armvX.Y-a or armvX-a values, then filter the best supported arch based on ARM_ARCH_MAJOR. |
| # |
| # Example on a gcc-12.2 arm64 toolchain this will return armv9-a if platform requested for armv9.2-a |
| # Similarly on gcc 11.3 it would return armv8.6-a if platform requested armv8.8-a |
| define major_best_avail_march |
| $(1) := $(lastword $(filter armv$(ARM_ARCH_MAJOR)% ,$(filter armv%-a, $(GCC_MARCH_OUTPUT)))) |
| endef |
| |
| # This function is used to just return latest march value supported by the given compiler. |
| # |
| # Example: this would return armv8.6-a on a gcc-11.3 when platform requested for armv9.0-a |
| # |
| # Thus this function should be used in conjunction with major_best_avail_march, when best match |
| # is not found it should be ok to try with lastest known supported march value from the |
| # compiler. |
| define latest_match_march |
| $(1) := $(lastword $(filter armv%-a, $(GCC_MARCH_OUTPUT))) |
| endef |
| |
| ifdef MARCH_DIRECTIVE |
| march-directive := $(MARCH_DIRECTIVE) |
| else |
| |
| ifeq (${ARM_ARCH_MINOR},0) |
| provided-march = armv${ARM_ARCH_MAJOR}-a |
| else |
| provided-march = armv${ARM_ARCH_MAJOR}.${ARM_ARCH_MINOR}-a |
| endif |
| |
| ifeq ($(filter %-clang,$($(ARCH)-cc-id)),) |
| |
| # We expect from Platform to provide a correct Major/Minor value but expecting something |
| # from compiler with unsupported march means we shouldn't fail without trying anything, |
| # so here we try to find best supported march value and use that for compilation. |
| # If we don't support current march version from gcc compiler, try with lower arch based on |
| # availability. In TF-A there is no hard rule for need of higher version march for basic |
| # functionality, denying a build on only this fact doesn't look correct, so try with best |
| # or latest march values from whats available from compiler. |
| ifeq (,$(findstring $(provided-march), $(GCC_MARCH_OUTPUT))) |
| $(eval $(call major_best_avail_march, available-march)) |
| |
| ifeq (, $(available-march)) |
| $(eval $(call latest_match_march, available-march)) |
| endif |
| |
| # If we fail to come up with any available-march value so far, don't update |
| # provided-march and thus allow the build to fail using the provided-march |
| # which is derived based on arch_major and arch_minor values. |
| ifneq (,$(available-march)) |
| provided-march := ${available-march} |
| endif |
| |
| endif # provided-march supported |
| endif # not clang |
| |
| march-directive := -march=${provided-march} |
| |
| # Set the compiler's architecture feature modifiers |
| ifneq ($(arch-features), none) |
| # Strip "none+" from arch-features |
| arch-features := $(subst none+,,$(arch-features)) |
| march-directive := $(march-directive)+$(arch-features) |
| # Print features |
| $(info Arm Architecture Features specified: $(subst +, ,$(arch-features))) |
| endif #(arch-features) |
| |
| endif # MARCH_DIRECTIVE |