heads/Makefile
Thierry Laurion e492786d0a CircleCI: fix #1058 and partly #984
CircleCI: We currently drop coreboot 4.11 builds.
- There is a file missing in the builds. Not sure why/how this is happening
src/soc/intel/fsp_broadwell_de/romstage/romstage.c:41:10: fatal error: build.h: No such file or directory
Example:https://app.circleci.com/pipelines/github/tlaurion/heads/877/workflows/7d0248d2-459c-42ad-b741-8fd56a75d527/jobs/2487
- kgpe-d16_workstation building for all GPUs is unfortunately taking too much time to build (40 minutes).
- Not sure why, but it seems that the kernel build paralellization is not working for 4.11 while it works for 4.13
Makefile: Uncomment MAKE_JOBS which passes the number of jobs to numbers cores by default and --max-load of 16
CircleCI: Remove CPUS statement to use Makefile default
modules/newt: force build with one make job, otherwise there is a race condition in module which fails randomly expecting build modules. (TODO: FIX)

Interestingly, building all coreboot 4.13 boards is happening on a clean commit just above 1h limit.

More details:
- CircleCI changed job build time to a maximum of 1h each.
- CircleCI now permits parallelization of 30 jobs
- 6000 build minutes a month.
- Still waiting for osresearch/heads CircleCI project to be unlocked (currently not recognized as open source project?!)
2021-12-04 15:51:53 -05:00

704 lines
19 KiB
Makefile

# 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 := $(shell git describe --tags --dirty)
CB_OUTPUT_FILE := heads-$(BOARD)-$(HEADS_GIT_VERSION).rom
CB_BOOTBLOCK_FILE := heads-$(BOARD)-$(HEADS_GIT_VERSION).bootblock
LB_OUTPUT_FILE := linuxboot-$(BOARD)-$(HEADS_GIT_VERSION).rom
all:
-include .config
ifneq "$(TOOLCHAIN)" ""
$(info Using $(TOOLCHAIN) for cross compiler and packages)
packages ?= $(TOOLCHAIN)/packages
CROSS := $(TOOLCHAIN)/crossgcc/x86_64-linux-musl/bin/x86_64-linux-musl-
endif
modules-y :=
pwd := $(shell pwd)
packages ?= $(pwd)/packages
build := $(pwd)/build
config := $(pwd)/config
INSTALL := $(pwd)/install
log_dir := $(build)/log
# Controls how many parallel jobs are invoked in subshells
CPUS ?= $(shell nproc)
MAKE_JOBS ?= -j$(CPUS) --max-load 16
# Create the log directory if it doesn't already exist
BUILD_LOG := $(shell mkdir -p "$(log_dir)" )
WGET ?= wget
# Check that we have a correct version of make
# that matches at least the major version
LOCAL_MAKE_VERSION := $(shell $(MAKE) --version | head -1 | cut -d' ' -f3)
include modules/make
ifneq "" "$(filter $(make_version)%,$(LOCAL_MAKE_VERSION))"
# Timestamps should be in ISO format
DATE=`date --rfc-3339=seconds`
# This is the correct version of Make
# Check we have a suitable version of gawk
# that's at least the same major version
LOCAL_GAWK_VERSION := $(shell gawk --version 2>/dev/null | head -1 | cut -d' ' -f3 | cut -d, -f1)
LOCAL_GAWK_MAJOR_VERSION := $(patsubst .%,.,$(LOCAL_GAWK_VERSION))
include modules/gawk
# Wrong version
ifeq "" "$(filter $(LOCAL_GAWK_MAJOR_VERSION).%,$(gawk_version))"
# Wrong gawk version detected -- build our local version
# and re-invoke the Makefile with it instead.
$(eval $(shell echo >&2 "$(DATE) Wrong gawk detected: $(LOCAL_GAWK_VERSION)"))
HEADS_GAWK := $(build)/$(gawk_dir)/gawk
# Once we have a suitable version of gawk, we can rerun make
all linux cpio run: $(HEADS_GAWK)
LANG=C HEADS_GAWK=$(HEADS_GAWK) $(MAKE) $(MAKE_JOBS) $@
%.clean %.vol %.menuconfig: $(HEADS_GAWK)
LANG=C HEADS_GAWK=$(HEADS_GAWK) $(MAKE) $@
bootstrap: $(HEADS_GAWK)
# How to download and build the correct version of gawk
$(packages)/$(gawk_tar):
$(WGET) -O "$@.tmp" "$(gawk_url)"
if ! echo "$(gawk_hash) $@.tmp" | sha256sum --check -; then \
exit 1 ; \
fi
mv "$@.tmp" "$@"
$(build)/$(gawk_dir)/.extract: $(packages)/$(gawk_tar)
tar xf "$<" -C "$(build)"
touch "$@"
$(build)/$(gawk_dir)/.patch: $(build)/$(gawk_dir)/.extract
# ( cd "$(dir $@)" ; patch -p1 ) < "patches/gawk-$(gawk_version).patch"
touch "$@"
$(build)/$(gawk_dir)/.configured: $(build)/$(gawk_dir)/.patch
cd "$(dir $@)" ; \
./configure 2>&1 \
| tee "$(log_dir)/gawk.configure.log" \
$(VERBOSE_REDIRECT)
touch "$@"
$(HEADS_GAWK): $(build)/$(gawk_dir)/.configured
$(MAKE) -C "$(dir $@)" $(MAKE_JOBS) \
2>&1 \
| tee "$(log_dir)/gawk.log" \
$(VERBOSE_REDIRECT)
endif
BOARD ?= qemu-coreboot
CONFIG := $(pwd)/boards/$(BOARD)/$(BOARD).config
ifneq "y" "$(shell [ -r '$(CONFIG)' ] && echo y)"
$(error $(CONFIG): board configuration does not exist)
endif
include $(CONFIG)
# Unless otherwise specified, we are building for heads
CONFIG_HEADS ?= y
# record the build date / git hashes and other files here
HASHES := $(build)/$(BOARD)/hashes.txt
# Create the board output directory if it doesn't already exist
BOARD_LOG := $(shell \
mkdir -p "$(build)/$(BOARD)" ; \
echo "$(DATE) $(GIT_HASH) $(GIT_STATUS)" > "$(HASHES)" ; \
)
ifeq "y" "$(CONFIG_LINUX_BUNDLED)"
# Create empty initrd for initial kernel "without" initrd.
$(shell cpio -o < /dev/null > $(build)/$(BOARD)/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 := /bin/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
heads_cc := $(CROSS)gcc \
-fdebug-prefix-map=$(pwd)=heads \
-gno-record-gcc-switches \
-D__MUSL__ \
-isystem $(INSTALL)/include \
-L$(INSTALL)/lib \
CROSS_TOOLS_NOCC := \
AR="$(CROSS)ar" \
LD="$(CROSS)ld" \
STRIP="$(CROSS)strip" \
NM="$(CROSS)nm" \
OBJCOPY="$(CROSS)objcopy" \
OBJDUMP="$(CROSS)objdump" \
PKG_CONFIG_PATH="$(INSTALL)/lib/pkgconfig" \
PKG_CONFIG_SYSROOT_DIR="$(INSTALL)" \
ifneq "$(HEADS_GAWK)" ""
CROSS_TOOLS_NOCC += AWK=$(HEADS_GAWK)
endif
CROSS_TOOLS := \
CC="$(heads_cc)" \
$(CROSS_TOOLS_NOCC) \
ifeq ($(CONFIG_COREBOOT), y)
all: $(build)/$(BOARD)/$(CB_OUTPUT_FILE)
ifneq ($(CONFIG_COREBOOT_BOOTBLOCK),)
all: $(build)/$(BOARD)/$(CB_BOOTBLOCK_FILE)
endif
else ifeq ($(CONFIG_LINUXBOOT), y)
all: $(build)/$(BOARD)/$(LB_OUTPUT_FILE)
else
$(error "$(BOARD): neither CONFIG_COREBOOT nor CONFIG_LINUXBOOT is set?")
endif
all:
@sha256sum $< | tee -a "$(HASHES)"
# Disable all built in rules
.INTERMEDIATE:
.SUFFIXES:
FORCE:
# 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)"
$(call do,HASHES , $1,\
( cd "$2"; \
echo "-----" ; \
find . -type f -print0 \
| xargs -0 sha256sum ; \
echo "-----" ; \
) >> "$(HASHES)" \
)
endef
define do-copy =
$(call do,INSTALL ,$1 => $2,\
if cmp --quiet "$1" "$2" ; then \
echo "$(DATE) UNCHANGED $(1:$(pwd)/%=%)" ; \
fi ; \
cp -a "$1" "$2" ; \
)
@sha256sum "$(2:$(pwd)/%=%)"
endef
#
# Generate the targets for a module.
#
# Special variables like $@ must be written as $$@ to avoid
# expansion during the first evaluation.
#
define define_module =
# if they have not defined a separate base dir, define it
# as the same as their build dir.
$(eval $1_base_dir = $(or $($1_base_dir),$($1_dir)))
ifneq ("$($1_repo)","")
$(eval $1_patch_name = $1$(if $($1_patch_version),-$($1_patch_version),))
# Checkout the tree instead and touch the canary file so that we know
# that the files are all present. No signature hashes are checked in
# this case, since we don't have a stable version to compare against.
$(build)/$($1_base_dir)/.canary:
git clone $($1_repo) "$(build)/$($1_base_dir)"
cd $(build)/$($1_base_dir) && git submodule update --init --checkout
if [ -r patches/$($1_patch_name).patch ]; then \
( cd $(build)/$($1_base_dir) ; patch -p1 ) \
< patches/$($1_patch_name).patch \
|| exit 1 ; \
fi
if [ -d patches/$($1_patch_name) ] && \
[ -r patches/$($1_patch_name) ] ; then \
for patch in patches/$($1_patch_name)/*.patch ; do \
echo "Applying patch file : $$$$patch " ; \
( cd $(build)/$($1_base_dir) ; patch -p1 ) \
< $$$$patch \
|| exit 1 ; \
done ; \
fi
@touch "$$@"
else
$(eval $1_patch_version ?= $($1_version))
$(eval $1_patch_name = $1-$($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 $$@)"
if [ -r patches/$($1_patch_name).patch ]; then \
( cd $$(dir $$@) ; patch -p1 ) \
< patches/$($1_patch_name).patch \
|| exit 1 ; \
fi
if [ -d patches/$($1_patch_name) ] && \
[ -r patches/$($1_patch_name) ] ; then \
for patch in patches/$($1_patch_name)/*.patch ; do \
echo "Applying patch file : $$$$patch " ; \
( cd $$(dir $$@) ; patch -p1 ) \
< $$$$patch \
|| exit 1 ; \
done ; \
fi
@touch "$$@"
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/$1
@echo "$(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 "$$@"
# Short hand for our module build target
$1: \
$(build)/$($1_dir)/.build \
$(call outputs,$1) \
# Target for all of the outputs, which depend on their dependent modules
# being built, as well as this module being configured
$(call outputs,$1): $(build)/$($1_dir)/.build
# If any of the outputs are missing, we should force a rebuild
# of the entire module
$(eval $1.force = $(shell \
stat $(call outputs,$1) >/dev/null 2>/dev/null || echo FORCE \
))
$(build)/$($1_dir)/.build: $($1.force) \
$(foreach d,$($1_depends),$(build)/$($d_dir)/.build) \
$(dir $($1_config_file_path)).configured \
@echo "$(DATE) MAKE $1"
+@( \
echo "$(MAKE) \
-C \"$(build)/$($1_dir)\" \
$($1_target)" ; \
$(MAKE) \
-C "$(build)/$($1_dir)" \
$($1_target) \
) \
< /dev/null \
2>&1 \
| tee "$(log_dir)/$1.log" \
$(VERBOSE_REDIRECT) \
|| ( \
echo "tail $(log_dir)/$1.log"; \
echo "-----"; \
tail -20 "$(log_dir)/$1.log"; \
exit 1; \
)
$(call do,DONE,$1,\
touch $(build)/$($1_dir)/.build \
)
$1.clean:
-$(RM) "$(build)/$($1_dir)/.configured"
-$(MAKE) -C "$(build)/$($1_dir)" clean
endef
$(call map, define_module, $(modules-y))
# hack to force musl-cross to be built before musl
#$(build)/$(musl_dir)/.configured: $(build)/$(musl-cross_dir)/../../crossgcc/x86_64-linux-musl/bin/x86_64-musl-linux-gcc
#
# Install a file into the initrd, if it changed from
# the destination file.
#
define install =
@-mkdir -p "$(dir $2)"
$(call do,INSTALL,$2,cp -a "$1" "$2")
endef
#
# Files that should be copied into the initrd
# THis should probably be done in a more scalable manner
#
define initrd_bin_add =
$(initrd_bin_dir)/$(notdir $1): $1
$(call do,INSTALL-BIN,$$(<:$(pwd)/%=%),cp -a "$$<" "$$@")
@$(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
$(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-$(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)"
#
# At the moment PowerPC can only load initrd bundled with the kernel.
#
bundle-$(CONFIG_LINUX_BUNDLED) += $(build)/$(BOARD)/$(LINUX_IMAGE_FILE).bundled
all: $(bundle-y)
#
# 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) \
>> $@ ; \
)
# 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/$$dir" clean ; \
rm "build/$$dir/.configured" ; \
done
real.clean:
for dir in \
$(module_dirs) \
$(kernel_headers) \
; do \
if [ ! -z "$$dir" ]; then \
rm -rf "build/$$dir"; \
fi; \
done
cd install && rm -rf -- *
else
# Wrong make version detected -- build our local version
# and re-invoke the Makefile with it instead.
$(eval $(shell echo >&2 "$(DATE) Wrong make detected: $(LOCAL_MAKE_VERSION)"))
HEADS_MAKE := $(build)/$(make_dir)/make
# Once we have a proper Make, we can just pass arguments into it
all linux cpio run: $(HEADS_MAKE)
LANG=C MAKE=$(HEADS_MAKE) $(HEADS_MAKE) $(MAKE_JOBS) $@
%.clean %.vol %.menuconfig: $(HEADS_MAKE)
LANG=C MAKE=$(HEADS_MAKE) $(HEADS_MAKE) $@
bootstrap: $(HEADS_MAKE)
# How to download and build the correct version of make
$(packages)/$(make_tar):
$(WGET) -O "$@.tmp" "$(make_url)"
if ! echo "$(make_hash) $@.tmp" | sha256sum --check -; then \
exit 1 ; \
fi
mv "$@.tmp" "$@"
$(build)/$(make_dir)/.extract: $(packages)/$(make_tar)
tar xf "$<" -C "$(build)"
touch "$@"
$(build)/$(make_dir)/.patch: $(build)/$(make_dir)/.extract
( cd "$(dir $@)" ; patch -p1 ) < "patches/make-$(make_version).patch"
touch "$@"
$(build)/$(make_dir)/.configured: $(build)/$(make_dir)/.patch
cd "$(dir $@)" ; \
./configure 2>&1 \
| tee "$(log_dir)/make.configure.log" \
$(VERBOSE_REDIRECT)
touch "$@"
$(HEADS_MAKE): $(build)/$(make_dir)/.configured
make -C "$(dir $@)" $(MAKE_JOBS) \
2>&1 \
| tee "$(log_dir)/make.log" \
$(VERBOSE_REDIRECT)
endif