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generic-poky/meta/classes/image_types.bbclass

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def get_imagecmds(d):
cmds = "\n"
old_overrides = d.getVar('OVERRIDES', 0)
alltypes = d.getVar('IMAGE_FSTYPES', True).split()
types = []
ctypes = d.getVar('COMPRESSIONTYPES', True).split()
cimages = {}
# The elf image depends on the cpio.gz image already having
# been created, so we add that explicit ordering here.
if "elf" in alltypes:
alltypes.remove("elf")
if "cpio.gz" not in alltypes:
alltypes.append("cpio.gz")
alltypes.append("elf")
# Filter out all the compressed images from alltypes
for type in alltypes:
basetype = None
for ctype in ctypes:
if type.endswith("." + ctype):
basetype = type[:-len("." + ctype)]
if basetype not in types:
types.append(basetype)
if basetype not in cimages:
cimages[basetype] = []
if ctype not in cimages[basetype]:
cimages[basetype].append(ctype)
break
if not basetype and type not in types:
types.append(type)
# Live and VMDK images will be processed via inheriting
# bbclass and does not get processed here.
# vmdk depend on live images also depend on ext3 so ensure its present
# Note: we need to ensure ext3 is in alltypes, otherwise, subimages may
# not contain ext3 and the .rootfs.ext3 file won't be created.
if "vmdk" in types:
if "ext3" not in types:
types.append("ext3")
if "ext3" not in alltypes:
alltypes.append("ext3")
types.remove("vmdk")
if "live" in types:
if "ext3" not in types:
types.append("ext3")
if "ext3" not in alltypes:
alltypes.append("ext3")
types.remove("live")
if d.getVar('IMAGE_LINK_NAME', True):
if d.getVar('RM_OLD_IMAGE', True) == "1":
# Remove the old image
cmds += "\trm -f `find ${DEPLOY_DIR_IMAGE} -maxdepth 1 -type l -name ${IMAGE_LINK_NAME}'.*' -exec readlink -f {} \;`"
# Remove the symlink
cmds += "\n\trm -f ${DEPLOY_DIR_IMAGE}/${IMAGE_LINK_NAME}.*"
for type in types:
ccmd = []
subimages = []
localdata = bb.data.createCopy(d)
localdata.setVar('OVERRIDES', '%s:%s' % (type, old_overrides))
bb.data.update_data(localdata)
localdata.setVar('type', type)
if type in cimages:
for ctype in cimages[type]:
ccmd.append("\t" + localdata.getVar("COMPRESS_CMD_" + ctype, True))
subimages.append(type + "." + ctype)
if type not in alltypes:
ccmd.append(localdata.expand("\trm ${IMAGE_NAME}.rootfs.${type}"))
else:
subimages.append(type)
localdata.setVar('ccmd', "\n".join(ccmd))
localdata.setVar('subimages', " ".join(subimages))
cmd = localdata.getVar("IMAGE_CMD", True)
localdata.setVar('cmd', cmd)
cmds += "\n" + localdata.getVar("runimagecmd", True)
return cmds
# The default aligment of the size of the rootfs is set to 1KiB. In case
# you're using the SD card emulation of a QEMU system simulator you may
# set this value to 2048 (2MiB alignment).
IMAGE_ROOTFS_ALIGNMENT ?= "1"
runimagecmd () {
# Image generation code for image type ${type}
# The base_size gets calculated:
# - initial size determined by `du -ks` of the IMAGE_ROOTFS
# - then multiplied by the IMAGE_OVERHEAD_FACTOR
# - tested against IMAGE_ROOTFS_SIZE
# - round up ROOTFS_SIZE to IMAGE_ROOTFS_ALIGNMENT
ROOTFS_SIZE=`du -ks ${IMAGE_ROOTFS} | awk '{base_size = $1 * ${IMAGE_OVERHEAD_FACTOR}; base_size = ((base_size > ${IMAGE_ROOTFS_SIZE} ? base_size : ${IMAGE_ROOTFS_SIZE}) + ${IMAGE_ROOTFS_EXTRA_SPACE}); if (base_size != int(base_size)) base_size = int(base_size + 1); base_size = base_size + ${IMAGE_ROOTFS_ALIGNMENT} - 1; base_size -= base_size % ${IMAGE_ROOTFS_ALIGNMENT}; print base_size }'`
${cmd}
# Now create the needed compressed versions
cd ${DEPLOY_DIR_IMAGE}/
${ccmd}
# And create the symlinks
if [ -n "${IMAGE_LINK_NAME}" ]; then
for type in ${subimages}; do
if [ -e ${IMAGE_NAME}.rootfs.$type ]; then
ln -s ${IMAGE_NAME}.rootfs.$type ${DEPLOY_DIR_IMAGE}/${IMAGE_LINK_NAME}.$type
fi
done
fi
}
def imagetypes_getdepends(d):
def adddep(depstr, deps):
for i in (depstr or "").split():
if i not in deps:
deps.append(i)
deps = []
ctypes = d.getVar('COMPRESSIONTYPES', True).split()
for type in (d.getVar('IMAGE_FSTYPES', True) or "").split():
if type == "vmdk" or type == "live":
type = "ext3"
basetype = type
for ctype in ctypes:
if type.endswith("." + ctype):
basetype = type[:-len("." + ctype)]
adddep(d.getVar("COMPRESS_DEPENDS_%s" % ctype, True), deps)
break
adddep(d.getVar('IMAGE_DEPENDS_%s' % basetype, True) , deps)
depstr = ""
for dep in deps:
depstr += " " + dep + ":do_populate_sysroot"
return depstr
XZ_COMPRESSION_LEVEL ?= "-e -6"
XZ_INTEGRITY_CHECK ?= "crc32"
XZ_THREADS ?= "-T 0"
IMAGE_CMD_jffs2 = "mkfs.jffs2 --root=${IMAGE_ROOTFS} --faketime --output=${DEPLOY_DIR_IMAGE}/${IMAGE_NAME}.rootfs.jffs2 -n ${EXTRA_IMAGECMD}"
IMAGE_CMD_sum.jffs2 = "${IMAGE_CMD_jffs2} && sumtool -i ${DEPLOY_DIR_IMAGE}/${IMAGE_NAME}.rootfs.jffs2 \
-o ${DEPLOY_DIR_IMAGE}/${IMAGE_NAME}.rootfs.sum.jffs2 -n ${EXTRA_IMAGECMD}"
IMAGE_CMD_cramfs = "mkfs.cramfs ${IMAGE_ROOTFS} ${DEPLOY_DIR_IMAGE}/${IMAGE_NAME}.rootfs.cramfs ${EXTRA_IMAGECMD}"
oe_mkext234fs () {
fstype=$1
extra_imagecmd=""
if [ $# -gt 1 ]; then
shift
extra_imagecmd=$@
fi
# Create a sparse image block
dd if=/dev/zero of=${DEPLOY_DIR_IMAGE}/${IMAGE_NAME}.rootfs.$fstype seek=$ROOTFS_SIZE count=0 bs=1k
mkfs.$fstype -F $extra_imagecmd ${DEPLOY_DIR_IMAGE}/${IMAGE_NAME}.rootfs.$fstype
populate-extfs.sh ${IMAGE_ROOTFS} ${DEPLOY_DIR_IMAGE}/${IMAGE_NAME}.rootfs.$fstype
}
IMAGE_CMD_ext2 = "oe_mkext234fs ext2 ${EXTRA_IMAGECMD}"
IMAGE_CMD_ext3 = "oe_mkext234fs ext3 ${EXTRA_IMAGECMD}"
IMAGE_CMD_ext4 = "oe_mkext234fs ext4 ${EXTRA_IMAGECMD}"
IMAGE_CMD_btrfs () {
mkfs.btrfs -b `expr ${ROOTFS_SIZE} \* 1024` ${EXTRA_IMAGECMD} -r ${IMAGE_ROOTFS} ${DEPLOY_DIR_IMAGE}/${IMAGE_NAME}.rootfs.btrfs
}
IMAGE_CMD_squashfs = "mksquashfs ${IMAGE_ROOTFS} ${DEPLOY_DIR_IMAGE}/${IMAGE_NAME}.rootfs.squashfs ${EXTRA_IMAGECMD} -noappend"
IMAGE_CMD_squashfs-xz = "mksquashfs ${IMAGE_ROOTFS} ${DEPLOY_DIR_IMAGE}/${IMAGE_NAME}.rootfs.squashfs-xz ${EXTRA_IMAGECMD} -noappend -comp xz"
IMAGE_CMD_tar = "cd ${IMAGE_ROOTFS} && tar -cvf ${DEPLOY_DIR_IMAGE}/${IMAGE_NAME}.rootfs.tar ."
CPIO_TOUCH_INIT () {
if [ ! -L ${IMAGE_ROOTFS}/init ]
then
touch ${IMAGE_ROOTFS}/init
fi
}
IMAGE_CMD_cpio () {
${CPIO_TOUCH_INIT}
cd ${IMAGE_ROOTFS} && (find . | cpio -o -H newc >${DEPLOY_DIR_IMAGE}/${IMAGE_NAME}.rootfs.cpio)
}
ELF_KERNEL ?= "${STAGING_DIR_HOST}/usr/src/kernel/${KERNEL_IMAGETYPE}"
ELF_APPEND ?= "ramdisk_size=32768 root=/dev/ram0 rw console="
IMAGE_CMD_elf () {
test -f ${DEPLOY_DIR_IMAGE}/${IMAGE_NAME}.rootfs.elf && rm -f ${DEPLOY_DIR_IMAGE}/${IMAGE_NAME}.rootfs.elf
mkelfImage --kernel=${ELF_KERNEL} --initrd=${DEPLOY_DIR_IMAGE}/${IMAGE_NAME}.rootfs.cpio.gz --output=${DEPLOY_DIR_IMAGE}/${IMAGE_NAME}.rootfs.elf --append='${ELF_APPEND}' ${EXTRA_IMAGECMD}
}
UBI_VOLNAME ?= "${MACHINE}-rootfs"
IMAGE_CMD_ubi () {
echo \[ubifs\] > ubinize.cfg
echo mode=ubi >> ubinize.cfg
echo image=${DEPLOY_DIR_IMAGE}/${IMAGE_NAME}.rootfs.ubifs >> ubinize.cfg
echo vol_id=0 >> ubinize.cfg
echo vol_type=dynamic >> ubinize.cfg
echo vol_name=${UBI_VOLNAME} >> ubinize.cfg
echo vol_flags=autoresize >> ubinize.cfg
mkfs.ubifs -r ${IMAGE_ROOTFS} -o ${DEPLOY_DIR_IMAGE}/${IMAGE_NAME}.rootfs.ubifs ${MKUBIFS_ARGS} && ubinize -o ${DEPLOY_DIR_IMAGE}/${IMAGE_NAME}.rootfs.ubi ${UBINIZE_ARGS} ubinize.cfg
}
IMAGE_CMD_ubifs = "mkfs.ubifs -r ${IMAGE_ROOTFS} -o ${DEPLOY_DIR_IMAGE}/${IMAGE_NAME}.rootfs.ubifs ${MKUBIFS_ARGS}"
EXTRA_IMAGECMD = ""
inherit siteinfo
JFFS2_ENDIANNESS ?= "${@base_conditional('SITEINFO_ENDIANNESS', 'le', '--little-endian', '--big-endian', d)}"
JFFS2_ERASEBLOCK ?= "0x40000"
EXTRA_IMAGECMD_jffs2 ?= "--pad ${JFFS2_ENDIANNESS} --eraseblock=${JFFS2_ERASEBLOCK} --no-cleanmarkers"
# Change these if you want default mkfs behavior (i.e. create minimal inode number)
EXTRA_IMAGECMD_ext2 ?= "-i 8192"
EXTRA_IMAGECMD_ext3 ?= "-i 8192"
EXTRA_IMAGECMD_ext4 ?= "-i 8192"
EXTRA_IMAGECMD_btrfs ?= ""
EXTRA_IMAGECMD_elf ?= ""
IMAGE_DEPENDS = ""
IMAGE_DEPENDS_jffs2 = "mtd-utils-native"
IMAGE_DEPENDS_sum.jffs2 = "mtd-utils-native"
IMAGE_DEPENDS_cramfs = "util-linux-native"
IMAGE_DEPENDS_ext2 = "e2fsprogs-native"
IMAGE_DEPENDS_ext3 = "e2fsprogs-native"
IMAGE_DEPENDS_ext4 = "e2fsprogs-native"
IMAGE_DEPENDS_btrfs = "btrfs-tools-native"
IMAGE_DEPENDS_squashfs = "squashfs-tools-native"
IMAGE_DEPENDS_squashfs-xz = "squashfs-tools-native"
IMAGE_DEPENDS_elf = "virtual/kernel mkelfimage-native"
IMAGE_DEPENDS_ubi = "mtd-utils-native"
IMAGE_DEPENDS_ubifs = "mtd-utils-native"
# This variable is available to request which values are suitable for IMAGE_FSTYPES
IMAGE_TYPES = "jffs2 sum.jffs2 cramfs ext2 ext2.gz ext2.bz2 ext3 ext3.gz ext2.lzma btrfs live squashfs squashfs-xz ubi ubifs tar tar.gz tar.bz2 tar.xz cpio cpio.gz cpio.xz cpio.lzma vmdk elf"
COMPRESSIONTYPES = "gz bz2 lzma xz"
COMPRESS_CMD_lzma = "lzma -k -f -7 ${IMAGE_NAME}.rootfs.${type}"
COMPRESS_CMD_gz = "gzip -f -9 -c ${IMAGE_NAME}.rootfs.${type} > ${IMAGE_NAME}.rootfs.${type}.gz"
COMPRESS_CMD_bz2 = "bzip2 -f -k ${IMAGE_NAME}.rootfs.${type}"
COMPRESS_CMD_xz = "xz -f -k -c ${XZ_COMPRESSION_LEVEL} ${XZ_THREADS} --check=${XZ_INTEGRITY_CHECK} ${IMAGE_NAME}.rootfs.${type} > ${IMAGE_NAME}.rootfs.${type}.xz"
COMPRESS_DEPENDS_lzma = "xz-native"
COMPRESS_DEPENDS_gz = ""
COMPRESS_DEPENDS_bz2 = ""
COMPRESS_DEPENDS_xz = "xz-native"
RUNNABLE_IMAGE_TYPES ?= "ext2 ext3"
RUNNABLE_MACHINE_PATTERNS ?= "qemu"
DEPLOYABLE_IMAGE_TYPES ?= "hddimg iso"
# Use IMAGE_EXTENSION_xxx to map image type 'xxx' with real image file extension name(s) for Hob
IMAGE_EXTENSION_live = "hddimg iso"
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