src/cpu/Makefile.inc - mirrors/cros/chromiumos/third_party/coreboot - Git at Google

 ################################################################################
 ## Subdirectories
 ################################################################################
 subdirs-y += amd
 subdirs-y += armltd
 subdirs-y += intel
 subdirs-y += via
 subdirs-y += x86

 ################################################################################
 ## Rules for building the microcode blob in CBFS
 ################################################################################

 cpu_ucode_cbfs_name = cpu_microcode_blob.bin

 # External microcode file, or are we generating one ?
 ifeq ($(CONFIG_CPU_MICROCODE_CBFS_EXTERNAL), y)
 cpu_ucode_cbfs_file = $(call strip_quotes,$(CONFIG_CPU_MICROCODE_FILE))
 cbfs_include_ucode = y
 endif

 ifeq ($(CONFIG_CPU_MICROCODE_CBFS_GENERATE), y)
 cpu_ucode_cbfs_file = $(obj)/cpu_microcode_blob.bin
 cbfs_include_ucode = y
 endif

 # In case we have more than one "source" (cough) files containing microcode, we
 # link them together in one large blob, so that we get all the microcode updates
 # in one file. This makes it easier for objcopy in the final step.
 # The --entry=0 is just here to suppress the LD warning. It does not affect the
 # final microcode file.
 $(obj)/cpu_microcode_blob.o: $$(cpu_microcode-objs)
 	@printf "    LD         $(subst $(obj)/,,$(@))\n"
 	$(LD) -static --entry=0 $< -o $@

 # We have a lot of useless data in the large blob, and we are only interested in
 # the data section, so we only copy that part to the final microcode file
 $(obj)/cpu_microcode_blob.bin: $(obj)/cpu_microcode_blob.o
 	@printf "  MICROCODE    $(subst $(obj)/,,$(@))\n"
 	$(OBJCOPY) -j .data -O binary $< $@

 ifeq ($(cbfs_include_ucode),y)
 # Add CPU microcode to specified rom image $(1)
 add-cpu-microcode-to-cbfs = \
 	$(CBFSTOOL) $(1) locate -f $(cpu_ucode_cbfs_file) -n $(cpu_ucode_cbfs_name) -a 16 | xargs $(CBFSTOOL) $(1) add -n $(cpu_ucode_cbfs_name) -f $(cpu_ucode_cbfs_file) -t 0x53 -b
 else
 add-cpu-microcode-to-cbfs = true
 endif
	################################################################################
	## Subdirectories
	################################################################################
	subdirs-y += amd
	subdirs-y += armltd
	subdirs-y += intel
	subdirs-y += via
	subdirs-y += x86

	################################################################################
	## Rules for building the microcode blob in CBFS
	################################################################################

	cpu_ucode_cbfs_name = cpu_microcode_blob.bin

	# External microcode file, or are we generating one ?
	ifeq ($(CONFIG_CPU_MICROCODE_CBFS_EXTERNAL), y)
	cpu_ucode_cbfs_file = $(call strip_quotes,$(CONFIG_CPU_MICROCODE_FILE))
	cbfs_include_ucode = y
	endif

	ifeq ($(CONFIG_CPU_MICROCODE_CBFS_GENERATE), y)
	cpu_ucode_cbfs_file = $(obj)/cpu_microcode_blob.bin
	cbfs_include_ucode = y
	endif

	# In case we have more than one "source" (cough) files containing microcode, we
	# link them together in one large blob, so that we get all the microcode updates
	# in one file. This makes it easier for objcopy in the final step.
	# The --entry=0 is just here to suppress the LD warning. It does not affect the
	# final microcode file.
	$(obj)/cpu_microcode_blob.o: $$(cpu_microcode-objs)
	@printf " LD $(subst $(obj)/,,$(@))\n"
	$(LD) -static --entry=0 $< -o $@

	# We have a lot of useless data in the large blob, and we are only interested in
	# the data section, so we only copy that part to the final microcode file
	$(obj)/cpu_microcode_blob.bin: $(obj)/cpu_microcode_blob.o
	@printf " MICROCODE $(subst $(obj)/,,$(@))\n"
	$(OBJCOPY) -j .data -O binary $< $@

	ifeq ($(cbfs_include_ucode),y)
	# Add CPU microcode to specified rom image $(1)
	add-cpu-microcode-to-cbfs = \
	$(CBFSTOOL) $(1) locate -f $(cpu_ucode_cbfs_file) -n $(cpu_ucode_cbfs_name) -a 16 \| xargs $(CBFSTOOL) $(1) add -n $(cpu_ucode_cbfs_name) -f $(cpu_ucode_cbfs_file) -t 0x53 -b
	else
	add-cpu-microcode-to-cbfs = true
	endif