# Need to set CB_OUTPUT_FILE before board .config included so # that target overrides in x230/x430-flash (eg) are properly handled GIT_HASH := $(shell git rev-parse HEAD) GIT_STATUS := $(shell \ if git diff --exit-code >/dev/null ; then \ echo clean ; \ else \ echo dirty ; \ fi) HEADS_GIT_VERSION := $(shell git describe --abbrev=7 --tags --dirty) # Override BRAND_NAME to set the name displayed in the UI, filenames, versions, etc. BRAND_NAME ?= Heads CB_OUTPUT_BASENAME := $(shell echo $(BRAND_NAME) | tr A-Z a-z)-$(BOARD)-$(HEADS_GIT_VERSION) CB_OUTPUT_FILE := $(CB_OUTPUT_BASENAME).rom CB_OUTPUT_FILE_GPG_INJ := $(CB_OUTPUT_BASENAME)-gpg-injected.rom CB_BOOTBLOCK_FILE := $(CB_OUTPUT_BASENAME).bootblock LB_OUTPUT_FILE := linuxboot-$(BOARD)-$(HEADS_GIT_VERSION).rom all: -include .config modules-y := pwd := $(shell pwd) config := $(pwd)/config # These are dynamic, must not expand right here build = $(pwd)/build/$(CONFIG_TARGET_ARCH) packages = $(pwd)/packages/$(CONFIG_TARGET_ARCH) INSTALL = $(pwd)/install/$(CONFIG_TARGET_ARCH) log_dir = $(build)/log board_build = $(build)/$(BOARD) # Controls how many parallel jobs are invoked in subshells CPUS ?= $(shell nproc) MAKE_JOBS ?= -j$(CPUS) --max-load 16 WGET ?= wget # Timestamps should be in ISO format DATE=`date --rfc-3339=seconds` BOARD ?= qemu-coreboot-fbwhiptail-tpm1 CONFIG := $(pwd)/boards/$(BOARD)/$(BOARD).config ifneq "y" "$(shell [ -r '$(CONFIG)' ] && echo y)" $(error $(CONFIG): board configuration does not exist) endif # By default, we are building for x86, up to a board to change this variable CONFIG_TARGET_ARCH := x86 # Legacy flash boards have to be handled specifically for some functionality # (e.g. they don't generate upgrade packages, lack bash, etc.) Use this to # guard behavior that is specific to legacy flash boards only. Don't use it for # behavior that might be needed for other boards, use specific configs instead. CONFIG_LEGACY_FLASH := n include $(CONFIG) # Default update package extension is 'zip' unless a brand wants a branded # extension CONFIG_BRAND_UPDATE_PKG_EXT ?= zip CB_UPDATE_PKG_FILE := $(CB_OUTPUT_BASENAME).$(CONFIG_BRAND_UPDATE_PKG_EXT) # Unless otherwise specified, we are building for heads CONFIG_HEADS ?= y # Unless otherwise specified, we are building bash to have non-interactive shell for scripts (arrays and bashisms) CONFIG_BASH ?= y # Determine arch part for a host triplet ifeq "$(CONFIG_TARGET_ARCH)" "x86" MUSL_ARCH := x86_64 else ifeq "$(CONFIG_TARGET_ARCH)" "ppc64" MUSL_ARCH := powerpc64le else $(error "Unexpected value of $$(CONFIG_TARGET_ARCH): $(CONFIG_TARGET_ARCH)") endif # Create directories if they don't already exist BUILD_LOG := $(shell mkdir -p "$(log_dir)") PACKAGES := $(shell mkdir -p "$(packages)") # record the build date / git hashes and other files here HASHES := $(board_build)/hashes.txt SIZES := $(board_build)/sizes.txt # Create the board output directory if it doesn't already exist BOARD_LOG := $(shell \ mkdir -p "$(board_build)" ; \ echo "$(DATE) $(GIT_HASH) $(GIT_STATUS)" > "$(HASHES)" ; \ echo "$(DATE) $(GIT_HASH) $(GIT_STATUS)" > "$(SIZES)" ; \ ) ifeq "y" "$(CONFIG_LINUX_BUNDLED)" # Create empty initrd for initial kernel "without" initrd. $(shell cpio -o < /dev/null > $(board_build)/initrd.cpio) endif # If V is set in the environment, do not redirect the tee # command to /dev/null. ifeq "$V" "" VERBOSE_REDIRECT := > /dev/null # Not verbose, so we only show the header define do = @echo "$(DATE) $1 $(2:$(pwd)/%=%)" @$3 endef else # Verbose, so we display what we are doing define do = @echo "$(DATE) $1 $(2:$(pwd)/%=%)" $3 endef endif # Create a temporary directory for the initrd initrd_dir := $(BOARD) initrd_tmp_dir := $(shell mktemp -d) initrd_lib_dir := $(initrd_tmp_dir)/lib initrd_bin_dir := $(initrd_tmp_dir)/bin modules-y += initrd $(shell mkdir -p "$(initrd_lib_dir)" "$(initrd_bin_dir)") # We are running our own version of make, # proceed with the build. # Force pipelines to fail if any of the commands in the pipe fail SHELL := /usr/bin/env bash .SHELLFLAGS := -o pipefail -c # Include the musl-cross module early so that $(CROSS) will # be defined prior to any other module. include modules/musl-cross musl_dep := musl-cross target := $(shell echo $(CROSS) | grep -Eoe '([^/]*?)-linux-musl') arch := $(subst -linux-musl, , $(target)) heads_cc := $(CROSS)gcc \ -fdebug-prefix-map=$(pwd)=heads \ -gno-record-gcc-switches \ -D__MUSL__ \ -isystem $(INSTALL)/include \ -L$(INSTALL)/lib \ # Cross-compiling with pkg-config requires clearing PKG_CONFIG_PATH and setting # both PKG_CONFIG_LIBDIR and PKG_CONFIG_SYSROOT_DIR. # https://autotools.info/pkgconfig/cross-compiling.html CROSS_TOOLS_NOCC := \ AR="$(CROSS)ar" \ LD="$(CROSS)ld" \ STRIP="$(CROSS)strip" \ NM="$(CROSS)nm" \ OBJCOPY="$(CROSS)objcopy" \ OBJDUMP="$(CROSS)objdump" \ PKG_CONFIG_PATH= \ PKG_CONFIG_LIBDIR="$(INSTALL)/lib/pkgconfig" \ PKG_CONFIG_SYSROOT_DIR="$(INSTALL)" \ CROSS_TOOLS := \ CC="$(heads_cc)" \ $(CROSS_TOOLS_NOCC) \ # Targets to build payload only .PHONY: payload payload: $(build)/$(BOARD)/bzImage $(build)/$(initrd_dir)/initrd.cpio.xz ifeq ($(CONFIG_COREBOOT), y) # Legacy flash boards don't generate an update package, the only purpose of # those boards is to be flashed over vendor firmware via an exploit. ifneq ($(CONFIG_LEGACY_FLASH), y) # talos-2 builds its own update package, which is not integrated with the ZIP # method currently ifneq ($(BOARD), talos-2) # Coreboot targets create an update package that can be applied with integrity # verification before flashing (see flash-gui.sh). The ZIP package format # allows other metadata that might be needed to added in the future without # breaking backward compatibility. $(board_build)/$(CB_UPDATE_PKG_FILE): $(board_build)/$(CB_OUTPUT_FILE) rm -rf "$(board_build)/update_pkg" mkdir -p "$(board_build)/update_pkg" cp "$<" "$(board_build)/update_pkg/" cd "$(board_build)/update_pkg" && sha256sum "$(CB_OUTPUT_FILE)" >sha256sum.txt cd "$(board_build)/update_pkg" && zip -9 "$@" "$(CB_OUTPUT_FILE)" sha256sum.txt all: $(board_build)/$(CB_OUTPUT_FILE) $(board_build)/$(CB_UPDATE_PKG_FILE) endif endif ifneq ($(CONFIG_COREBOOT_BOOTBLOCK),) all: $(board_build)/$(CB_BOOTBLOCK_FILE) endif else ifeq ($(CONFIG_LINUXBOOT), y) all: $(board_build)/$(LB_OUTPUT_FILE) else $(error "$(BOARD): neither CONFIG_COREBOOT nor CONFIG_LINUXBOOT is set?") endif all payload: @sha256sum $< | tee -a "$(HASHES)" @stat -c "%8s:%n" $< | tee -a "$(SIZES)" # Disable all built in rules .INTERMEDIATE: .SUFFIXES: FORCE: # Copies config while replacing predefined placeholders with actual values define install_config = sed -e 's!@BOARD_BUILD_DIR@!$(board_build)!g' \ -e 's!@BLOB_DIR@!$(pwd)/blobs!g' \ -e 's!@BRAND_DIR@!$(pwd)/branding/$(BRAND_NAME)!g' \ -e 's!@BRAND_NAME@!$(BRAND_NAME)!g' \ "$1" > "$2" endef # Make helpers to operate on lists of things # Prefix is "smart" and doesn't add the prefix for absolute file paths define prefix = $(foreach _, $2, $(if $(patsubst /%,,$_),$1$_,$_)) endef define map = $(foreach _,$2,$(eval $(call $1,$_))) endef # Bring in all of the module definitions; # these are the external pieces that will be downloaded and built # as part of creating the Heads firmware image. include modules/* define bins = $(foreach m,$1,$(call prefix,$(build)/$($m_dir)/,$($m_output))) endef define libs = $(foreach m,$1,$(call prefix,$(build)/$($m_dir)/,$($m_libraries))) endef define outputs = $(foreach m,$1,\ $(call bins,$m)\ $(call libs,$m)\ ) endef # # Build a cpio from a directory # define do-cpio = $(call do,CPIO ,$1,\ ( cd "$2"; \ find . \ | cpio \ --quiet \ -H newc \ -o \ ) \ | ./bin/cpio-clean \ > "$1.tmp" \ ) @if ! cmp --quiet "$1.tmp" "$1" ; then \ mv "$1.tmp" "$1" ; \ else \ echo "$(DATE) UNCHANGED $(1:$(pwd)/%=%)" ; \ rm "$1.tmp" ; \ fi @sha256sum "$1" | tee -a "$(HASHES)" @stat -c "%8s:%n" "$1" | tee -a "$(SIZES)" $(call do,HASHES , $1,\ ( cd "$2"; \ echo "-----" ; \ find . -type f -print0 \ | xargs -0 sha256sum ; \ echo "-----" ; \ ) >> "$(HASHES)" \ ) $(call do,SIZES , $1,\ ( cd "$2"; \ echo "-----" ; \ find . -type f -print0 \ | xargs -0 stat -c "%8s:%n" ; \ echo "-----" ; \ ) >> "$(SIZES)" \ ) endef define do-copy = $(call do,INSTALL ,$1 => $2,\ if cmp --quiet "$1" "$2" ; then \ echo "$(DATE) UNCHANGED $(1:$(pwd)/%=%)" ; \ fi ; \ cp -a --remove-destination "$1" "$2" ; \ ) @sha256sum "$(2:$(pwd)/%=%)" @stat -c "%8s:%n" "$(2:$(pwd)/%=%)" endef # # Generate the targets for a module. # # Special variables like $@ must be written as $$@ to avoid # expansion during the first evaluation. # define define_module = # if they have not defined a separate base dir, define it # as the same as their build dir. $(eval $1_base_dir = $(or $($1_base_dir),$($1_dir))) # Dynamically defined modules must tell us what module file defined them $(eval $1_module_file = $(or $($1_module_file),$1)) ifneq ("$($1_repo)","") $(eval $1_patch_name = $1$(if $($1_patch_version),-$($1_patch_version),)) # First time: # Checkout the tree instead and create the canary file with repo and # revision so that we know that the files are all present and their # version. # # Other times: # If .canary contains the same repo and revision combination, do nothing. # Otherwise, pull a new revision and checkout with update of submodules # # No signature hashes are checked in this case, since we don't have a # stable version to compare against. # # XXX: "git clean -dffx" is a hack for coreboot during commit switching, need # module-specific cleanup action to get rid of it. $(build)/$($1_base_dir)/.canary: FORCE if [ ! -e "$$@" ]; then \ git clone $($1_repo) "$(build)/$($1_base_dir)"; \ git -C "$(build)/$($1_base_dir)" reset --hard $($1_commit_hash) && git submodule update --init --checkout; \ echo -n '$($1_repo)|$($1_commit_hash)' > "$$@"; \ elif [ "$$$$(cat "$$@")" != '$($1_repo)|$($1_commit_hash)' ]; then \ echo "Switching $1 to $($1_repo) at $($1_commit_hash)" && \ git -C "$(build)/$($1_base_dir)" reset --hard HEAD^ && \ echo "git fetch $($1_repo) $($1_commit_hash) --recurse-submodules=no" && \ git -C "$(build)/$($1_base_dir)" fetch $($1_repo) $($1_commit_hash) --recurse-submodules=no && \ echo "git reset --hard $($1_commit_hash)" && \ git -C "$(build)/$($1_base_dir)" reset --hard $($1_commit_hash) && \ echo "git clean" && \ git -C "$(build)/$($1_base_dir)" clean -df && \ git -C "$(build)/$($1_base_dir)" clean -dffx payloads util/cbmem && \ echo "git submodule sync" && \ git -C "$(build)/$($1_base_dir)" submodule sync && \ echo "git submodule update" && \ git -C "$(build)/$($1_base_dir)" submodule update --init --checkout && \ echo -n '$($1_repo)|$($1_commit_hash)' > "$$@"; \ fi if [ ! -e "$(build)/$($1_base_dir)/.patched" ]; then \ if [ -r patches/$($1_patch_name).patch ]; then \ ( git apply --verbose --reject --binary --directory build/$(CONFIG_TARGET_ARCH)/$($1_base_dir) ) \ < patches/$($1_patch_name).patch \ || exit 1 ; \ fi && \ if [ -d patches/$($1_patch_name) ] && \ [ -r patches/$($1_patch_name) ] ; then \ for patch in patches/$($1_patch_name)/*.patch ; do \ echo "Applying patch file : $$$$patch " ; \ ( git apply --verbose --reject --binary --directory build/$(CONFIG_TARGET_ARCH)/$($1_base_dir) ) \ < $$$$patch \ || exit 1 ; \ done ; \ fi && \ touch "$(build)/$($1_base_dir)/.patched"; \ fi else # Versioned modules (each version a separate module) don't need to include # the version a second time. (The '-' separator is also omitted then.) # $1_patch_version can still be defined manually. $(eval $1_patch_version ?= $(if $(filter %-$($1_version),$1),,$($1_version))) $(eval $1_patch_name = $1$(if $($1_patch_version),-,)$($1_patch_version)) # Fetch and verify the source tar file # wget creates it early, so we have to cleanup if it fails $(packages)/$($1_tar): $(call do,WGET,$($1_url),\ if ! $(WGET) -O "$$@.tmp" $($1_url) ; then \ exit 1 ; \ fi ; \ mv "$$@.tmp" "$$@" \ ) $(packages)/.$1-$($1_version)_verify: $(packages)/$($1_tar) echo "$($1_hash) $$^" | sha256sum --check - @touch "$$@" # Unpack the tar file and touch the canary so that we know # that the files are all present $(build)/$($1_base_dir)/.canary: $(packages)/.$1-$($1_version)_verify mkdir -p "$$(dir $$@)" tar -xf "$(packages)/$($1_tar)" $(or $($1_tar_opt),--strip 1) -C "$$(dir $$@)" if [ -r patches/$($1_patch_name).patch ]; then \ ( git apply --verbose --reject --binary --directory build/$(CONFIG_TARGET_ARCH)/$($1_base_dir) ) \ < patches/$($1_patch_name).patch \ || exit 1 ; \ fi if [ -d patches/$($1_patch_name) ] && \ [ -r patches/$($1_patch_name) ] ; then \ for patch in patches/$($1_patch_name)/*.patch ; do \ echo "Applying patch file : $$$$patch " ; \ ( git apply --verbose --reject --binary --directory build/$(CONFIG_TARGET_ARCH)/$($1_base_dir) ) \ < $$$$patch \ || exit 1 ; \ done ; \ fi @touch "$$@" endif # Allow the module to override the destination configuration file # via a relative path. Linux uses this to have a per-board build. $(eval $1_config_file_path := $(build)/$($1_dir)/$(or $($1_config_file),.config)) ifeq "$($1_config)" "" # There is no official .config file $($1_config_file_path): $(build)/$($1_base_dir)/.canary @mkdir -p $$(dir $$@) @touch "$$@" else # Copy the stored config file into the unpacked directory $($1_config_file_path): $($1_config) $(build)/$($1_base_dir)/.canary @mkdir -p $$(dir $$@) $(call do-copy,$($1_config),$$@) endif # The first time we have to wait for all the dependencies to be built # before we can configure the target. Once the dep has been built, # we only depend on it for a rebuild. $(eval $1_config_wait := $(foreach d,$($1_depends),\ $(shell [ -r $(build)/$($d_dir)/.build ] || echo $d))) # Use the module's configure variable to build itself # this has to wait for the dependencies to be built since # cross compilers and libraries might be messed up $(dir $($1_config_file_path)).configured: \ $(build)/$($1_base_dir)/.canary \ $(foreach d,$($1_config_wait),$(build)/$($d_dir)/.build) \ $($1_config_file_path) \ modules/$($1_module_file) @echo "$(DATE) CONFIG $1" @( \ cd "$(build)/$($1_dir)" ; \ echo "$($1_configure)"; \ $($1_configure) \ ) \ < /dev/null \ 2>&1 \ | tee "$(log_dir)/$1.configure.log" \ $(VERBOSE_REDIRECT) @touch "$$@" # Short hand for our module build target $1: \ $(build)/$($1_dir)/.build \ $(call outputs,$1) \ # Target for all of the outputs, which depend on their dependent modules # being built, as well as this module being configured $(call outputs,$1): $(build)/$($1_dir)/.build # If any of the outputs are missing, we should force a rebuild # of the entire module $(eval $1.force = $(shell \ stat $(call outputs,$1) >/dev/null 2>/dev/null || echo FORCE \ )) $(build)/$($1_dir)/.build: $($1.force) \ $(foreach d,$($1_depends),$(build)/$($d_dir)/.build) \ $(dir $($1_config_file_path)).configured \ @echo "$(DATE) MAKE $1" +@( \ echo "$(MAKE) \ -C \"$(build)/$($1_dir)\" \ $($1_target)" ; \ $(MAKE) \ -C "$(build)/$($1_dir)" \ $($1_target) \ ) \ < /dev/null \ 2>&1 \ | tee "$(log_dir)/$1.log" \ $(VERBOSE_REDIRECT) \ || ( \ echo "tail $(log_dir)/$1.log"; \ echo "-----"; \ tail -20 "$(log_dir)/$1.log"; \ exit 1; \ ) $(call do,DONE,$1,\ touch $(build)/$($1_dir)/.build \ ) $1.clean: -$(RM) "$(build)/$($1_dir)/.configured" -$(MAKE) -C "$(build)/$($1_dir)" clean endef $(call map, define_module, $(modules-y)) # hack to force musl-cross to be built before musl #$(build)/$(musl_dir)/.configured: $(build)/$(musl-cross_dir)/../../crossgcc/x86_64-linux-musl/bin/x86_64-musl-linux-gcc # # Install a file into the initrd, if it changed from # the destination file. # define install = @-mkdir -p "$(dir $2)" $(call do,INSTALL,$2,cp -a --remove-destination "$1" "$2") endef # # Files that should be copied into the initrd # THis should probably be done in a more scalable manner # define initrd_bin_add = $(initrd_bin_dir)/$(notdir $1): $1 $(call do,INSTALL-BIN,$$(<:$(pwd)/%=%),cp -a --remove-destination "$$<" "$$@") @$(CROSS)strip --preserve-dates "$$@" 2>&-; true initrd_bins += $(initrd_bin_dir)/$(notdir $1) endef define initrd_lib_add = $(initrd_lib_dir)/$(notdir $1): $1 $(call do,INSTALL-LIB,$(1:$(pwd)/%=%),\ $(CROSS)strip --preserve-dates -o "$$@" "$$<") initrd_libs += $(initrd_lib_dir)/$(notdir $1) endef # Only some modules have binaries that we install # Shouldn't this be specified in the module file? #bin_modules-$(CONFIG_MUSL) += musl-cross bin_modules-$(CONFIG_KEXEC) += kexec bin_modules-$(CONFIG_TPMTOTP) += tpmtotp bin_modules-$(CONFIG_PCIUTILS) += pciutils bin_modules-$(CONFIG_FLASHROM) += flashrom bin_modules-$(CONFIG_CRYPTSETUP) += cryptsetup bin_modules-$(CONFIG_CRYPTSETUP2) += cryptsetup2 bin_modules-$(CONFIG_GPG) += gpg bin_modules-$(CONFIG_GPG2) += gpg2 bin_modules-$(CONFIG_PINENTRY) += pinentry bin_modules-$(CONFIG_LVM2) += lvm2 bin_modules-$(CONFIG_DROPBEAR) += dropbear bin_modules-$(CONFIG_FLASHTOOLS) += flashtools bin_modules-$(CONFIG_NEWT) += newt bin_modules-$(CONFIG_CAIRO) += cairo bin_modules-$(CONFIG_FBWHIPTAIL) += fbwhiptail bin_modules-$(CONFIG_HOTPKEY) += hotp-verification bin_modules-$(CONFIG_MSRTOOLS) += msrtools bin_modules-$(CONFIG_NKSTORECLI) += nkstorecli bin_modules-$(CONFIG_UTIL_LINUX) += util-linux bin_modules-$(CONFIG_OPENSSL) += openssl bin_modules-$(CONFIG_TPM2_TOOLS) += tpm2-tools bin_modules-$(CONFIG_BASH) += bash bin_modules-$(CONFIG_POWERPC_UTILS) += powerpc-utils bin_modules-$(CONFIG_IO386) += io386 bin_modules-$(CONFIG_IOPORT) += ioport bin_modules-$(CONFIG_KBD) += kbd bin_modules-$(CONFIG_ZSTD) += zstd bin_modules-$(CONFIG_E2FSPROGS) += e2fsprogs bin_modules-$(CONFIG_EXFATPROGS) += exfatprogs bin_modules-$(CONFIG_IOTOOLS) += iotools $(foreach m, $(bin_modules-y), \ $(call map,initrd_bin_add,$(call bins,$m)) \ ) # Install the libraries for every module that we have built $(foreach m, $(modules-y), \ $(call map,initrd_lib_add,$(call libs,$m)) \ ) # # hack to build cbmem from coreboot # this must be built *AFTER* musl, but since coreboot depends on other things # that depend on musl it should be ok. # COREBOOT_UTIL_DIR=$(build)/$(coreboot_base_dir)/util ifeq ($(CONFIG_COREBOOT),y) $(eval $(call initrd_bin_add,$(COREBOOT_UTIL_DIR)/cbmem/cbmem)) #$(eval $(call initrd_bin_add,$(COREBOOT_UTIL_DIR)/superiotool/superiotool)) #$(eval $(call initrd_bin_add,$(COREBOOT_UTIL_DIR)/inteltool/inteltool)) endif $(COREBOOT_UTIL_DIR)/cbmem/cbmem \ $(COREBOOT_UTIL_DIR)/superiotool/superiotool \ $(COREBOOT_UTIL_DIR)/inteltool/inteltool \ : $(build)/$(coreboot_base_dir)/.canary musl-cross +$(call do,MAKE,$(notdir $@),\ $(MAKE) -C "$(dir $@)" $(CROSS_TOOLS) \ ) # superio depends on zlib and pciutils $(COREBOOT_UTIL_DIR)/superiotool/superiotool: \ $(build)/$(zlib_dir)/.build \ $(build)/$(pciutils_dir)/.build \ # # initrd image creation # # The initrd is constructed from various bits and pieces # The cpio-clean program is used ensure that the files # always have the same timestamp and appear in the same order. # # The blobs/dev.cpio is also included in the Linux kernel # and has a reproducible version of /dev/console. # # The xz parameters are copied from the Linux kernel build scripts. # Without them the kernel will not decompress the initrd. # # The padding is to ensure that if anyone wants to cat another # file onto the initrd then the kernel will be able to find it. # initrd-y += $(pwd)/blobs/dev.cpio initrd-y += $(build)/$(initrd_dir)/modules.cpio initrd-y += $(build)/$(initrd_dir)/tools.cpio initrd-y += $(build)/$(initrd_dir)/board.cpio initrd-$(CONFIG_HEADS) += $(build)/$(initrd_dir)/heads.cpio #$(build)/$(initrd_dir)/.build: $(build)/$(initrd_dir)/initrd.cpio.xz $(build)/$(initrd_dir)/initrd.cpio.xz: $(initrd-y) $(call do,CPIO-XZ ,$@,\ $(pwd)/bin/cpio-clean \ $^ \ | xz \ --check=crc32 \ --lzma2=dict=1MiB \ -9 \ | dd bs=512 conv=sync status=none > "$@.tmp" \ ) @if ! cmp --quiet "$@.tmp" "$@" ; then \ mv "$@.tmp" "$@" ; \ else \ echo "$(DATE) UNCHANGED $(@:$(pwd)/%=%)" ; \ rm "$@.tmp" ; \ fi @sha256sum "$(@:$(pwd)/%=%)" | tee -a "$(HASHES)" @stat -c "%8s:%n" "$(@:$(pwd)/%=%)" | tee -a "$(SIZES)" # # At the moment PowerPC can only load initrd bundled with the kernel. # bundle-$(CONFIG_LINUX_BUNDLED) += $(board_build)/$(LINUX_IMAGE_FILE).bundled all: $(bundle-y) # The board.cpio is built from the board's initrd/ directory. It contains # board-specific support scripts. ifeq ($(wildcard $(pwd)/boards/$(BOARD)/initrd),) $(build)/$(initrd_dir)/board.cpio: cpio -H newc -o "$@" else $(build)/$(initrd_dir)/board.cpio: FORCE $(call do-cpio,$@,$(pwd)/boards/$(BOARD)/initrd) endif # # The heads.cpio is built from the initrd directory in the # Heads tree. # $(build)/$(initrd_dir)/heads.cpio: FORCE $(call do-cpio,$@,$(pwd)/initrd) # # The tools initrd is made from all of the things that we've # created during the submodule build. # $(build)/$(initrd_dir)/tools.cpio: \ $(initrd_bins) \ $(initrd_libs) \ $(initrd_tmp_dir)/etc/config \ $(call do-cpio,$@,$(initrd_tmp_dir)) @$(RM) -rf "$(initrd_tmp_dir)" $(initrd_tmp_dir)/etc/config: FORCE @mkdir -p $(dir $@) $(call do,INSTALL,$(CONFIG), \ export \ | grep ' CONFIG_' \ | sed -e 's/^declare -x /export /' \ -e 's/\\\"//g' \ > $@ \ ) $(call do,HASH,$(GIT_HASH) $(GIT_STATUS) $(BOARD), \ echo export GIT_HASH=\'$(GIT_HASH)\' \ >> $@ ; \ echo export GIT_STATUS=$(GIT_STATUS) \ >> $@ ; \ echo export CONFIG_BOARD=$(BOARD) \ >> $@ ; \ echo export CONFIG_BRAND_NAME=$(BRAND_NAME) \ >> $@ ; \ ) # Ensure that the initrd depends on all of the modules that produce # binaries for it $(build)/$(initrd_dir)/tools.cpio: $(foreach d,$(bin_modules-y),$(build)/$($d_dir)/.build) # List of all modules, excluding the slow to-build modules modules-slow := musl musl-cross kernel_headers module_dirs := $(foreach m,$(filter-out $(modules-slow),$(modules-y)),$($m_dir)) echo_modules: echo $(module_dirs) modules.clean: for dir in $(module_dirs) \ ; do \ $(MAKE) -C "build/${CONFIG_TARGET_ARCH}/$$dir" clean ; \ rm -f "build/${CONFIG_TARGET_ARCH}/$$dir/.configured" ; \ done # Inject a GPG key into the image - this is most useful when testing in qemu, # since we can't reflash the firmware in qemu to update the keychain. Instead, # inject the public key ahead of time. Specify the location of the key with # PUBKEY_ASC. inject_gpg: $(board_build)/$(CB_OUTPUT_FILE_GPG_INJ) $(board_build)/$(CB_OUTPUT_BASENAME)-gpg-injected.rom: $(board_build)/$(CB_OUTPUT_FILE) cp "$(board_build)/$(CB_OUTPUT_FILE)" \ "$(board_build)/$(CB_OUTPUT_FILE_GPG_INJ)" ./bin/inject_gpg_key.sh --cbfstool "$(build)/$(coreboot_dir)/cbfstool" \ "$(board_build)/$(CB_OUTPUT_FILE_GPG_INJ)" "$(PUBKEY_ASC)" real.clean: for dir in \ $(module_dirs) \ $(kernel_headers) \ ; do \ if [ ! -z "$$dir" ]; then \ rm -rf "build/${CONFIG_TARGET_ARCH}/$$dir"; \ fi; \ done cd install && rm -rf -- *