################################################################################ # Kconfig package infrastructure # # This file implements an infrastructure that eases development of # package .mk files for packages that use kconfig for configuration files. # It is based on the generic-package infrastructure, and inherits all of its # features. # # See the Buildroot documentation for details on the usage of this # infrastructure. # ################################################################################ ################################################################################ # inner-kconfig-package -- generates the make targets needed to support a # kconfig package # # argument 1 is the lowercase package name # argument 2 is the uppercase package name, including a HOST_ prefix # for host packages # argument 3 is the uppercase package name, without the HOST_ prefix # for host packages # argument 4 is the type (target or host) ################################################################################ define inner-kconfig-package # Call the generic package infrastructure to generate the necessary # make targets. # Note: this must be done _before_ attempting to use $$($(2)_DIR) in a # dependency expression $(call inner-generic-package,$(1),$(2),$(3),$(4)) # Default values $(2)_KCONFIG_EDITORS ?= menuconfig $(2)_KCONFIG_OPTS ?= $(2)_KCONFIG_FIXUP_CMDS ?= $(2)_KCONFIG_FRAGMENT_FILES ?= # The config file as well as the fragments could be in-tree, so before # depending on them the package should be extracted (and patched) first. # # Since those files only have a order-only dependency, make would treat # any missing one as a "force" target: # https://www.gnu.org/software/make/manual/make.html#Force-Targets # and would forcibly any rule that depend on those files, causing a # rebuild of the kernel each time make is called. # # So, we provide a recipe that checks all of those files exist, to # overcome that standard make behaviour. # $$($(2)_KCONFIG_FILE) $$($(2)_KCONFIG_FRAGMENT_FILES): | $(1)-patch for f in $$($(2)_KCONFIG_FILE) $$($(2)_KCONFIG_FRAGMENT_FILES); do \ if [ ! -f "$$$${f}" ]; then \ printf "Kconfig fragment '%s' for '%s' does not exist\n" "$$$${f}" "$(1)"; \ exit 1; \ fi; \ done # The specified source configuration file and any additional configuration file # fragments are merged together to .config, after the package has been patched. # Since the file could be a defconfig file it needs to be expanded to a # full .config first. We use 'make oldconfig' because this can be safely # done even when the package does not support defconfigs. $$($(2)_DIR)/.config: $$($(2)_KCONFIG_FILE) $$($(2)_KCONFIG_FRAGMENT_FILES) support/kconfig/merge_config.sh -m -O $$(@D) \ $$($(2)_KCONFIG_FILE) $$($(2)_KCONFIG_FRAGMENT_FILES) @yes "" | $$($(2)_MAKE_ENV) $$(MAKE) -C $$($(2)_DIR) \ $$($(2)_KCONFIG_OPTS) oldconfig # In order to get a usable, consistent configuration, some fixup may be needed. # The exact rules are specified by the package .mk file. define $(2)_FIXUP_DOT_CONFIG $$($(2)_KCONFIG_FIXUP_CMDS) @yes "" | $$($(2)_MAKE_ENV) $$(MAKE) -C $$($(2)_DIR) \ $$($(2)_KCONFIG_OPTS) oldconfig $$(Q)touch $$($(2)_DIR)/.stamp_kconfig_fixup_done endef $$($(2)_DIR)/.stamp_kconfig_fixup_done: $$($(2)_DIR)/.config $$(call $(2)_FIXUP_DOT_CONFIG) # Before running configure, the configuration file should be present and fixed $$($(2)_TARGET_CONFIGURE): $$($(2)_DIR)/.stamp_kconfig_fixup_done # Only enable the foo-*config targets when the package is actually enabled. # Note: the variable $(2)_KCONFIG_VAR is not related to the kconfig # infrastructure, but defined by pkg-generic.mk. The generic infrastructure is # already called above, so we can effectively use this variable. ifeq ($$($$($(2)_KCONFIG_VAR)),y) # FOO_KCONFIG_FILE is required ifeq ($$(BR_BUILDING),y) ifeq ($$($(2)_KCONFIG_FILE),) $$(error Internal error: no value specified for $(2)_KCONFIG_FILE) endif endif # Configuration editors (menuconfig, ...) # # We need to apply the configuration fixups right after a configuration # editor exits, so that it is possible to save the configuration right # after exiting an editor, and so the user always sees a .config file # that is clean wrt. our requirements. # # Because commands in $(1)_FIXUP_KCONFIG are probably using $(@D), we # fake it for the configurators (otherwise it is set to just '.', i.e. # the current directory where make is run, which happens to be in # $(TOPDIR), because the target of the rule is not an actual file, so # does not have any path component). # $$(addprefix $(1)-,$$($(2)_KCONFIG_EDITORS)): @D=$$($(2)_DIR) $$(addprefix $(1)-,$$($(2)_KCONFIG_EDITORS)): $$($(2)_DIR)/.stamp_kconfig_fixup_done $$($(2)_MAKE_ENV) $$(MAKE) -C $$($(2)_DIR) \ $$($(2)_KCONFIG_OPTS) $$(subst $(1)-,,$$@) rm -f $$($(2)_DIR)/.stamp_{kconfig_fixup_done,configured,built} rm -f $$($(2)_DIR)/.stamp_{target,staging,images}_installed $$(call $(2)_FIXUP_DOT_CONFIG) # Saving back the configuration # # Ideally, that should directly depend on $$($(2)_DIR)/.stamp_kconfig_fixup_done, # but that breaks the use-case in PR-8156 (from a clean tree): # make menuconfig <- enable kernel, use an in-tree defconfig, save and exit # make linux-menuconfig <- enable/disable whatever option, save and exit # make menuconfig <- change to use a custom defconfig file, set a path, save and exit # make linux-update-config <- should save to the new custom defconfig file # # Because of that use-case, saving the configuration can *not* directly # depend on the stamp file, because it itself depends on the .config, # which in turn depends on the (newly-set an non-existent) custom # defconfig file. # # Instead, we use an PHONY rule that will catch that situation. # $(1)-check-configuration-done: @if [ ! -f $$($(2)_DIR)/.stamp_kconfig_fixup_done ]; then \ echo "$(1) is not yet configured"; \ exit 1; \ fi $(1)-savedefconfig: $(1)-check-configuration-done $$($(2)_MAKE_ENV) $$(MAKE) -C $$($(2)_DIR) \ $$($(2)_KCONFIG_OPTS) savedefconfig # Target to copy back the configuration to the source configuration file # Even though we could use 'cp --preserve-timestamps' here, the separate # cp and 'touch --reference' is used for symmetry with $(1)-update-defconfig. $(1)-update-config: $(1)-check-configuration-done @$$(if $$($(2)_KCONFIG_FRAGMENT_FILES), \ echo "Unable to perform $(1)-update-config when fragment files are set"; exit 1) cp -f $$($(2)_DIR)/.config $$($(2)_KCONFIG_FILE) touch --reference $$($(2)_DIR)/.config $$($(2)_KCONFIG_FILE) # Note: make sure the timestamp of the stored configuration is not newer than # the .config to avoid a useless rebuild. Note that, contrary to # $(1)-update-config, the reference for 'touch' is _not_ the file from which # we copy. $(1)-update-defconfig: $(1)-savedefconfig @$$(if $$($(2)_KCONFIG_FRAGMENT_FILES), \ echo "Unable to perform $(1)-update-defconfig when fragment files are set"; exit 1) cp -f $$($(2)_DIR)/defconfig $$($(2)_KCONFIG_FILE) touch --reference $$($(2)_DIR)/.config $$($(2)_KCONFIG_FILE) endif # package enabled .PHONY: \ $(1)-update-config \ $(1)-update-defconfig \ $(1)-savedefconfig \ $(1)-check-configuration-done \ $$(addprefix $(1)-,$$($(2)_KCONFIG_EDITORS)) endef # inner-kconfig-package ################################################################################ # kconfig-package -- the target generator macro for kconfig packages ################################################################################ kconfig-package = $(call inner-kconfig-package,$(pkgname),$(call UPPERCASE,$(pkgname)),$(call UPPERCASE,$(pkgname)),target)