poky/meta/classes-recipe/baremetal-image.bbclass - openbmc/openbmc - Gitiles

 #
 # Copyright OpenEmbedded Contributors
 #
 # SPDX-License-Identifier: MIT
 #

 # Baremetal image class
 #
 # This class is meant to be inherited by recipes for baremetal/RTOS applications
 # It contains code that would be used by all of them, every recipe just needs to
 # override certain variables.
 #
 # For scalability purposes, code within this class focuses on the "image" wiring
 # to satisfy the OpenEmbedded image creation and testing infrastructure.
 #
 # See meta-skeleton for a working example.

 ## Emulate image.bbclass
 # Handle inherits of any of the image classes we need
 IMAGE_CLASSES ??= ""
 IMGCLASSES = " ${IMAGE_CLASSES}"
 inherit ${IMGCLASSES}
 # Set defaults to satisfy IMAGE_FEATURES check
 IMAGE_FEATURES ?= ""
 IMAGE_FEATURES[type] = "list"
 IMAGE_FEATURES[validitems] += ""

 # Toolchain should be baremetal or newlib based.
 # TCLIBC="baremetal" or TCLIBC="newlib"
 COMPATIBLE_HOST:libc-musl:class-target = "null"
 COMPATIBLE_HOST:libc-glibc:class-target = "null"


 inherit rootfs-postcommands

 # Set some defaults, but these should be overriden by each recipe if required
 IMGDEPLOYDIR ?= "${WORKDIR}/deploy-${PN}-image-complete"
 BAREMETAL_BINNAME ?= "hello_baremetal_${MACHINE}"
 IMAGE_LINK_NAME ?= "baremetal-helloworld-image-${MACHINE}"
 IMAGE_NAME_SUFFIX ?= ""

 do_rootfs[dirs] = "${IMGDEPLOYDIR} ${DEPLOY_DIR_IMAGE}"

 do_image(){
     install ${D}/${base_libdir}/firmware/${BAREMETAL_BINNAME}.bin ${IMGDEPLOYDIR}/${IMAGE_LINK_NAME}.bin
     install ${D}/${base_libdir}/firmware/${BAREMETAL_BINNAME}.elf ${IMGDEPLOYDIR}/${IMAGE_LINK_NAME}.elf
 }

 do_image_complete(){
     :
 }

 python do_rootfs(){
     from oe.utils import execute_pre_post_process
     from pathlib import Path

     # Write empty manifest file to satisfy test infrastructure
     deploy_dir = d.getVar('IMGDEPLOYDIR')
     link_name = d.getVar('IMAGE_LINK_NAME')
     manifest_name = d.getVar('IMAGE_MANIFEST')

     Path(manifest_name).touch()
     if os.path.exists(manifest_name) and link_name:
         manifest_link = deploy_dir + "/" + link_name + ".manifest"
         if manifest_link != manifest_name:
             if os.path.lexists(manifest_link):
                 os.remove(manifest_link)
             os.symlink(os.path.basename(manifest_name), manifest_link)
     # A lot of postprocess commands assume the existence of rootfs/etc
     sysconfdir = d.getVar("IMAGE_ROOTFS") + d.getVar('sysconfdir')
     bb.utils.mkdirhier(sysconfdir)

     execute_pre_post_process(d, d.getVar('ROOTFS_POSTPROCESS_COMMAND'))
 }


 # Assure binaries, manifest and qemubootconf are populated on DEPLOY_DIR_IMAGE
 do_image_complete[dirs] = "${TOPDIR}"
 SSTATETASKS += "do_image_complete"
 SSTATE_SKIP_CREATION:task-image-complete = '1'
 do_image_complete[sstate-inputdirs] = "${IMGDEPLOYDIR}"
 do_image_complete[sstate-outputdirs] = "${DEPLOY_DIR_IMAGE}"
 do_image_complete[stamp-extra-info] = "${MACHINE_ARCH}"
 addtask do_image_complete after do_image before do_build

 python do_image_complete_setscene () {
     sstate_setscene(d)
 }
 addtask do_image_complete_setscene

 # QEMU generic Baremetal/RTOS parameters
 QB_DEFAULT_KERNEL ?= "${IMAGE_LINK_NAME}.bin"
 QB_MEM ?= "-m 256"
 QB_DEFAULT_FSTYPE ?= "bin"
 QB_DTB ?= ""
 QB_OPT_APPEND:append = " -nographic"

 # RISC-V tunes set the BIOS, unset, and instruct QEMU to
 # ignore the BIOS and boot from -kernel
 QB_DEFAULT_BIOS:qemuriscv64 = ""
 QB_DEFAULT_BIOS:qemuriscv32 = ""
 QB_OPT_APPEND:append:qemuriscv64 = " -bios none"
 QB_OPT_APPEND:append:qemuriscv32 = " -bios none"


 # Use the medium-any code model for the RISC-V 64 bit implementation,
 # since medlow can only access addresses below 0x80000000 and RAM
 # starts at 0x80000000 on RISC-V 64
 # Keep RISC-V 32 using -mcmodel=medlow (symbols lie between -2GB:2GB)
 CFLAGS:append:qemuriscv64 = " -mcmodel=medany"


 # This next part is necessary to trick the build system into thinking
 # its building an image recipe so it generates the qemuboot.conf
 addtask do_rootfs before do_image after do_install
 addtask do_image after do_rootfs before do_image_complete
 addtask do_image_complete after do_image before do_build
 inherit qemuboot

 # Based on image.bbclass to make sure we build qemu
 python(){
     # do_addto_recipe_sysroot doesnt exist for all recipes, but we need it to have
     # /usr/bin on recipe-sysroot (qemu) populated
     # The do_addto_recipe_sysroot dependency is coming from EXTRA_IMAGDEPENDS now,
     # we just need to add the logic to add its dependency to do_image.
     def extraimage_getdepends(task):
         deps = ""
         for dep in (d.getVar('EXTRA_IMAGEDEPENDS') or "").split():
         # Make sure we only add it for qemu
             if 'qemu' in dep:
                 if ":" in dep:
                     deps += " %s " % (dep)
                 else:
                     deps += " %s:%s" % (dep, task)
         return deps
     d.appendVarFlag('do_image', 'depends', extraimage_getdepends('do_populate_sysroot'))
 }
	#
	# Copyright OpenEmbedded Contributors
	#
	# SPDX-License-Identifier: MIT
	#

	# Baremetal image class
	#
	# This class is meant to be inherited by recipes for baremetal/RTOS applications
	# It contains code that would be used by all of them, every recipe just needs to
	# override certain variables.
	#
	# For scalability purposes, code within this class focuses on the "image" wiring
	# to satisfy the OpenEmbedded image creation and testing infrastructure.
	#
	# See meta-skeleton for a working example.

	## Emulate image.bbclass
	# Handle inherits of any of the image classes we need
	IMAGE_CLASSES ??= ""
	IMGCLASSES = " ${IMAGE_CLASSES}"
	inherit ${IMGCLASSES}
	# Set defaults to satisfy IMAGE_FEATURES check
	IMAGE_FEATURES ?= ""
	IMAGE_FEATURES[type] = "list"
	IMAGE_FEATURES[validitems] += ""

	# Toolchain should be baremetal or newlib based.
	# TCLIBC="baremetal" or TCLIBC="newlib"
	COMPATIBLE_HOST:libc-musl:class-target = "null"
	COMPATIBLE_HOST:libc-glibc:class-target = "null"


	inherit rootfs-postcommands

	# Set some defaults, but these should be overriden by each recipe if required
	IMGDEPLOYDIR ?= "${WORKDIR}/deploy-${PN}-image-complete"
	BAREMETAL_BINNAME ?= "hello_baremetal_${MACHINE}"
	IMAGE_LINK_NAME ?= "baremetal-helloworld-image-${MACHINE}"
	IMAGE_NAME_SUFFIX ?= ""

	do_rootfs[dirs] = "${IMGDEPLOYDIR} ${DEPLOY_DIR_IMAGE}"

	do_image(){
	install ${D}/${base_libdir}/firmware/${BAREMETAL_BINNAME}.bin ${IMGDEPLOYDIR}/${IMAGE_LINK_NAME}.bin
	install ${D}/${base_libdir}/firmware/${BAREMETAL_BINNAME}.elf ${IMGDEPLOYDIR}/${IMAGE_LINK_NAME}.elf
	}

	do_image_complete(){
	:
	}

	python do_rootfs(){
	from oe.utils import execute_pre_post_process
	from pathlib import Path

	# Write empty manifest file to satisfy test infrastructure
	deploy_dir = d.getVar('IMGDEPLOYDIR')
	link_name = d.getVar('IMAGE_LINK_NAME')
	manifest_name = d.getVar('IMAGE_MANIFEST')

	Path(manifest_name).touch()
	if os.path.exists(manifest_name) and link_name:
	manifest_link = deploy_dir + "/" + link_name + ".manifest"
	if manifest_link != manifest_name:
	if os.path.lexists(manifest_link):
	os.remove(manifest_link)
	os.symlink(os.path.basename(manifest_name), manifest_link)
	# A lot of postprocess commands assume the existence of rootfs/etc
	sysconfdir = d.getVar("IMAGE_ROOTFS") + d.getVar('sysconfdir')
	bb.utils.mkdirhier(sysconfdir)

	execute_pre_post_process(d, d.getVar('ROOTFS_POSTPROCESS_COMMAND'))
	}


	# Assure binaries, manifest and qemubootconf are populated on DEPLOY_DIR_IMAGE
	do_image_complete[dirs] = "${TOPDIR}"
	SSTATETASKS += "do_image_complete"
	SSTATE_SKIP_CREATION:task-image-complete = '1'
	do_image_complete[sstate-inputdirs] = "${IMGDEPLOYDIR}"
	do_image_complete[sstate-outputdirs] = "${DEPLOY_DIR_IMAGE}"
	do_image_complete[stamp-extra-info] = "${MACHINE_ARCH}"
	addtask do_image_complete after do_image before do_build

	python do_image_complete_setscene () {
	sstate_setscene(d)
	}
	addtask do_image_complete_setscene

	# QEMU generic Baremetal/RTOS parameters
	QB_DEFAULT_KERNEL ?= "${IMAGE_LINK_NAME}.bin"
	QB_MEM ?= "-m 256"
	QB_DEFAULT_FSTYPE ?= "bin"
	QB_DTB ?= ""
	QB_OPT_APPEND:append = " -nographic"

	# RISC-V tunes set the BIOS, unset, and instruct QEMU to
	# ignore the BIOS and boot from -kernel
	QB_DEFAULT_BIOS:qemuriscv64 = ""
	QB_DEFAULT_BIOS:qemuriscv32 = ""
	QB_OPT_APPEND:append:qemuriscv64 = " -bios none"
	QB_OPT_APPEND:append:qemuriscv32 = " -bios none"


	# Use the medium-any code model for the RISC-V 64 bit implementation,
	# since medlow can only access addresses below 0x80000000 and RAM
	# starts at 0x80000000 on RISC-V 64
	# Keep RISC-V 32 using -mcmodel=medlow (symbols lie between -2GB:2GB)
	CFLAGS:append:qemuriscv64 = " -mcmodel=medany"


	# This next part is necessary to trick the build system into thinking
	# its building an image recipe so it generates the qemuboot.conf
	addtask do_rootfs before do_image after do_install
	addtask do_image after do_rootfs before do_image_complete
	addtask do_image_complete after do_image before do_build
	inherit qemuboot

	# Based on image.bbclass to make sure we build qemu
	python(){
	# do_addto_recipe_sysroot doesnt exist for all recipes, but we need it to have
	# /usr/bin on recipe-sysroot (qemu) populated
	# The do_addto_recipe_sysroot dependency is coming from EXTRA_IMAGDEPENDS now,
	# we just need to add the logic to add its dependency to do_image.
	def extraimage_getdepends(task):
	deps = ""
	for dep in (d.getVar('EXTRA_IMAGEDEPENDS') or "").split():
	# Make sure we only add it for qemu
	if 'qemu' in dep:
	if ":" in dep:
	deps += " %s " % (dep)
	else:
	deps += " %s:%s" % (dep, task)
	return deps
	d.appendVarFlag('do_image', 'depends', extraimage_getdepends('do_populate_sysroot'))
	}