image_types.bbclass 15 KB

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  1. # IMAGE_NAME is the base name for everything produced when building images.
  2. # The actual image that contains the rootfs has an additional suffix (.rootfs
  3. # by default) followed by additional suffices which describe the format (.ext4,
  4. # .ext4.xz, etc.).
  5. IMAGE_NAME_SUFFIX ??= ".rootfs"
  6. # The default aligment of the size of the rootfs is set to 1KiB. In case
  7. # you're using the SD card emulation of a QEMU system simulator you may
  8. # set this value to 2048 (2MiB alignment).
  9. IMAGE_ROOTFS_ALIGNMENT ?= "1"
  10. def imagetypes_getdepends(d):
  11. def adddep(depstr, deps):
  12. for d in (depstr or "").split():
  13. # Add task dependency if not already present
  14. if ":" not in d:
  15. d += ":do_populate_sysroot"
  16. deps.add(d)
  17. # Take a type in the form of foo.bar.car and split it into the items
  18. # needed for the image deps "foo", and the conversion deps ["bar", "car"]
  19. def split_types(typestring):
  20. types = typestring.split(".")
  21. return types[0], types[1:]
  22. fstypes = set((d.getVar('IMAGE_FSTYPES') or "").split())
  23. fstypes |= set((d.getVar('IMAGE_FSTYPES_DEBUGFS') or "").split())
  24. deprecated = set()
  25. deps = set()
  26. for typestring in fstypes:
  27. basetype, resttypes = split_types(typestring)
  28. var = "IMAGE_DEPENDS_%s" % basetype
  29. if d.getVar(var) is not None:
  30. deprecated.add(var)
  31. for typedepends in (d.getVar("IMAGE_TYPEDEP_%s" % basetype) or "").split():
  32. base, rest = split_types(typedepends)
  33. resttypes += rest
  34. var = "IMAGE_DEPENDS_%s" % base
  35. if d.getVar(var) is not None:
  36. deprecated.add(var)
  37. for ctype in resttypes:
  38. adddep(d.getVar("CONVERSION_DEPENDS_%s" % ctype), deps)
  39. adddep(d.getVar("COMPRESS_DEPENDS_%s" % ctype), deps)
  40. if deprecated:
  41. bb.fatal('Deprecated variable(s) found: "%s". '
  42. 'Use do_image_<type>[depends] += "<recipe>:<task>" instead' % ', '.join(deprecated))
  43. # Sort the set so that ordering is consistant
  44. return " ".join(sorted(deps))
  45. XZ_COMPRESSION_LEVEL ?= "-3"
  46. XZ_INTEGRITY_CHECK ?= "crc32"
  47. XZ_THREADS ?= "-T 0"
  48. ZIP_COMPRESSION_LEVEL ?= "-9"
  49. JFFS2_SUM_EXTRA_ARGS ?= ""
  50. IMAGE_CMD_jffs2 = "mkfs.jffs2 --root=${IMAGE_ROOTFS} --faketime --output=${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.jffs2 ${EXTRA_IMAGECMD}"
  51. IMAGE_CMD_cramfs = "mkfs.cramfs ${IMAGE_ROOTFS} ${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.cramfs ${EXTRA_IMAGECMD}"
  52. oe_mkext234fs () {
  53. fstype=$1
  54. extra_imagecmd=""
  55. if [ $# -gt 1 ]; then
  56. shift
  57. extra_imagecmd=$@
  58. fi
  59. # If generating an empty image the size of the sparse block should be large
  60. # enough to allocate an ext4 filesystem using 4096 bytes per inode, this is
  61. # about 60K, so dd needs a minimum count of 60, with bs=1024 (bytes per IO)
  62. eval local COUNT=\"0\"
  63. eval local MIN_COUNT=\"60\"
  64. if [ $ROOTFS_SIZE -lt $MIN_COUNT ]; then
  65. eval COUNT=\"$MIN_COUNT\"
  66. fi
  67. # Create a sparse image block
  68. bbdebug 1 Executing "dd if=/dev/zero of=${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.$fstype seek=$ROOTFS_SIZE count=$COUNT bs=1024"
  69. dd if=/dev/zero of=${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.$fstype seek=$ROOTFS_SIZE count=$COUNT bs=1024
  70. bbdebug 1 "Actual Rootfs size: `du -s ${IMAGE_ROOTFS}`"
  71. bbdebug 1 "Actual Partion size: `stat -c '%s' ${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.$fstype`"
  72. bbdebug 1 Executing "mkfs.$fstype -F $extra_imagecmd ${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.$fstype -d ${IMAGE_ROOTFS}"
  73. mkfs.$fstype -F $extra_imagecmd ${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.$fstype -d ${IMAGE_ROOTFS}
  74. # Error codes 0-3 indicate successfull operation of fsck (no errors or errors corrected)
  75. fsck.$fstype -pvfD ${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.$fstype || [ $? -le 3 ]
  76. }
  77. IMAGE_CMD_ext2 = "oe_mkext234fs ext2 ${EXTRA_IMAGECMD}"
  78. IMAGE_CMD_ext3 = "oe_mkext234fs ext3 ${EXTRA_IMAGECMD}"
  79. IMAGE_CMD_ext4 = "oe_mkext234fs ext4 ${EXTRA_IMAGECMD}"
  80. MIN_BTRFS_SIZE ?= "16384"
  81. IMAGE_CMD_btrfs () {
  82. size=${ROOTFS_SIZE}
  83. if [ ${size} -lt ${MIN_BTRFS_SIZE} ] ; then
  84. size=${MIN_BTRFS_SIZE}
  85. bbwarn "Rootfs size is too small for BTRFS. Filesystem will be extended to ${size}K"
  86. fi
  87. dd if=/dev/zero of=${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.btrfs seek=${size} count=0 bs=1024
  88. mkfs.btrfs ${EXTRA_IMAGECMD} -r ${IMAGE_ROOTFS} ${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.btrfs
  89. }
  90. IMAGE_CMD_squashfs = "mksquashfs ${IMAGE_ROOTFS} ${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.squashfs ${EXTRA_IMAGECMD} -noappend"
  91. IMAGE_CMD_squashfs-xz = "mksquashfs ${IMAGE_ROOTFS} ${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.squashfs-xz ${EXTRA_IMAGECMD} -noappend -comp xz"
  92. IMAGE_CMD_squashfs-lzo = "mksquashfs ${IMAGE_ROOTFS} ${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.squashfs-lzo ${EXTRA_IMAGECMD} -noappend -comp lzo"
  93. IMAGE_CMD_squashfs-lz4 = "mksquashfs ${IMAGE_ROOTFS} ${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.squashfs-lz4 ${EXTRA_IMAGECMD} -noappend -comp lz4"
  94. # By default, tar from the host is used, which can be quite old. If
  95. # you need special parameters (like --xattrs) which are only supported
  96. # by GNU tar upstream >= 1.27, then override that default:
  97. # IMAGE_CMD_TAR = "tar --xattrs --xattrs-include=*"
  98. # do_image_tar[depends] += "tar-replacement-native:do_populate_sysroot"
  99. # EXTRANATIVEPATH += "tar-native"
  100. #
  101. # The GNU documentation does not specify whether --xattrs-include is necessary.
  102. # In practice, it turned out to be not needed when creating archives and
  103. # required when extracting, but it seems prudent to use it in both cases.
  104. IMAGE_CMD_TAR ?= "tar"
  105. # ignore return code 1 "file changed as we read it" as other tasks(e.g. do_image_wic) may be hardlinking rootfs
  106. IMAGE_CMD_tar = "${IMAGE_CMD_TAR} --numeric-owner -cf ${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.tar -C ${IMAGE_ROOTFS} . || [ $? -eq 1 ]"
  107. do_image_cpio[cleandirs] += "${WORKDIR}/cpio_append"
  108. IMAGE_CMD_cpio () {
  109. (cd ${IMAGE_ROOTFS} && find . | cpio -o -H newc >${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.cpio)
  110. # We only need the /init symlink if we're building the real
  111. # image. The -dbg image doesn't need it! By being clever
  112. # about this we also avoid 'touch' below failing, as it
  113. # might be trying to touch /sbin/init on the host since both
  114. # the normal and the -dbg image share the same WORKDIR
  115. if [ "${IMAGE_BUILDING_DEBUGFS}" != "true" ]; then
  116. if [ ! -L ${IMAGE_ROOTFS}/init ] && [ ! -e ${IMAGE_ROOTFS}/init ]; then
  117. if [ -L ${IMAGE_ROOTFS}/sbin/init ] || [ -e ${IMAGE_ROOTFS}/sbin/init ]; then
  118. ln -sf /sbin/init ${WORKDIR}/cpio_append/init
  119. else
  120. touch ${WORKDIR}/cpio_append/init
  121. fi
  122. (cd ${WORKDIR}/cpio_append && echo ./init | cpio -oA -H newc -F ${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.cpio)
  123. fi
  124. fi
  125. }
  126. UBI_VOLNAME ?= "${MACHINE}-rootfs"
  127. multiubi_mkfs() {
  128. local mkubifs_args="$1"
  129. local ubinize_args="$2"
  130. # Added prompt error message for ubi and ubifs image creation.
  131. if [ -z "$mkubifs_args" ] || [ -z "$ubinize_args" ]; then
  132. bbfatal "MKUBIFS_ARGS and UBINIZE_ARGS have to be set, see http://www.linux-mtd.infradead.org/faq/ubifs.html for details"
  133. fi
  134. if [ -z "$3" ]; then
  135. local vname=""
  136. else
  137. local vname="_$3"
  138. fi
  139. echo \[ubifs\] > ubinize${vname}-${IMAGE_NAME}.cfg
  140. echo mode=ubi >> ubinize${vname}-${IMAGE_NAME}.cfg
  141. echo image=${IMGDEPLOYDIR}/${IMAGE_NAME}${vname}${IMAGE_NAME_SUFFIX}.ubifs >> ubinize${vname}-${IMAGE_NAME}.cfg
  142. echo vol_id=0 >> ubinize${vname}-${IMAGE_NAME}.cfg
  143. echo vol_type=dynamic >> ubinize${vname}-${IMAGE_NAME}.cfg
  144. echo vol_name=${UBI_VOLNAME} >> ubinize${vname}-${IMAGE_NAME}.cfg
  145. echo vol_flags=autoresize >> ubinize${vname}-${IMAGE_NAME}.cfg
  146. mkfs.ubifs -r ${IMAGE_ROOTFS} -o ${IMGDEPLOYDIR}/${IMAGE_NAME}${vname}${IMAGE_NAME_SUFFIX}.ubifs ${mkubifs_args}
  147. ubinize -o ${IMGDEPLOYDIR}/${IMAGE_NAME}${vname}${IMAGE_NAME_SUFFIX}.ubi ${ubinize_args} ubinize${vname}-${IMAGE_NAME}.cfg
  148. # Cleanup cfg file
  149. mv ubinize${vname}-${IMAGE_NAME}.cfg ${IMGDEPLOYDIR}/
  150. # Create own symlinks for 'named' volumes
  151. if [ -n "$vname" ]; then
  152. cd ${IMGDEPLOYDIR}
  153. if [ -e ${IMAGE_NAME}${vname}${IMAGE_NAME_SUFFIX}.ubifs ]; then
  154. ln -sf ${IMAGE_NAME}${vname}${IMAGE_NAME_SUFFIX}.ubifs \
  155. ${IMAGE_LINK_NAME}${vname}.ubifs
  156. fi
  157. if [ -e ${IMAGE_NAME}${vname}${IMAGE_NAME_SUFFIX}.ubi ]; then
  158. ln -sf ${IMAGE_NAME}${vname}${IMAGE_NAME_SUFFIX}.ubi \
  159. ${IMAGE_LINK_NAME}${vname}.ubi
  160. fi
  161. cd -
  162. fi
  163. }
  164. IMAGE_CMD_multiubi () {
  165. # Split MKUBIFS_ARGS_<name> and UBINIZE_ARGS_<name>
  166. for name in ${MULTIUBI_BUILD}; do
  167. eval local mkubifs_args=\"\$MKUBIFS_ARGS_${name}\"
  168. eval local ubinize_args=\"\$UBINIZE_ARGS_${name}\"
  169. multiubi_mkfs "${mkubifs_args}" "${ubinize_args}" "${name}"
  170. done
  171. }
  172. IMAGE_CMD_ubi () {
  173. multiubi_mkfs "${MKUBIFS_ARGS}" "${UBINIZE_ARGS}"
  174. }
  175. IMAGE_CMD_ubifs = "mkfs.ubifs -r ${IMAGE_ROOTFS} -o ${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.ubifs ${MKUBIFS_ARGS}"
  176. MIN_F2FS_SIZE ?= "524288"
  177. IMAGE_CMD_f2fs () {
  178. # We need to add additional smarts here form devices smaller than 1.5G
  179. # Need to scale appropriately between 40M -> 1.5G as the "overprovision
  180. # ratio" goes down as the device gets bigger (70% -> 4.5%), below about
  181. # 500M the standard IMAGE_OVERHEAD_FACTOR does not work, so add additional
  182. # space here when under 500M
  183. size=${ROOTFS_SIZE}
  184. if [ ${size} -lt ${MIN_F2FS_SIZE} ] ; then
  185. size=${MIN_F2FS_SIZE}
  186. bbwarn "Rootfs size is too small for F2FS. Filesystem will be extended to ${size}K"
  187. fi
  188. dd if=/dev/zero of=${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.f2fs seek=${size} count=0 bs=1024
  189. mkfs.f2fs ${EXTRA_IMAGECMD} ${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.f2fs
  190. sload.f2fs -f ${IMAGE_ROOTFS} ${IMGDEPLOYDIR}/${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.f2fs
  191. }
  192. EXTRA_IMAGECMD = ""
  193. inherit siteinfo kernel-arch
  194. JFFS2_ENDIANNESS ?= "${@oe.utils.conditional('SITEINFO_ENDIANNESS', 'le', '-l', '-b', d)}"
  195. JFFS2_ERASEBLOCK ?= "0x40000"
  196. EXTRA_IMAGECMD_jffs2 ?= "--pad ${JFFS2_ENDIANNESS} --eraseblock=${JFFS2_ERASEBLOCK} --no-cleanmarkers"
  197. # Change these if you want default mkfs behavior (i.e. create minimal inode number)
  198. EXTRA_IMAGECMD_ext2 ?= "-i 4096"
  199. EXTRA_IMAGECMD_ext3 ?= "-i 4096"
  200. EXTRA_IMAGECMD_ext4 ?= "-i 4096"
  201. EXTRA_IMAGECMD_btrfs ?= "-n 4096"
  202. EXTRA_IMAGECMD_f2fs ?= ""
  203. do_image_jffs2[depends] += "mtd-utils-native:do_populate_sysroot"
  204. do_image_cramfs[depends] += "util-linux-native:do_populate_sysroot"
  205. do_image_ext2[depends] += "e2fsprogs-native:do_populate_sysroot"
  206. do_image_ext3[depends] += "e2fsprogs-native:do_populate_sysroot"
  207. do_image_ext4[depends] += "e2fsprogs-native:do_populate_sysroot"
  208. do_image_btrfs[depends] += "btrfs-tools-native:do_populate_sysroot"
  209. do_image_squashfs[depends] += "squashfs-tools-native:do_populate_sysroot"
  210. do_image_squashfs_xz[depends] += "squashfs-tools-native:do_populate_sysroot"
  211. do_image_squashfs_lzo[depends] += "squashfs-tools-native:do_populate_sysroot"
  212. do_image_squashfs_lz4[depends] += "squashfs-tools-native:do_populate_sysroot"
  213. do_image_ubi[depends] += "mtd-utils-native:do_populate_sysroot"
  214. do_image_ubifs[depends] += "mtd-utils-native:do_populate_sysroot"
  215. do_image_multiubi[depends] += "mtd-utils-native:do_populate_sysroot"
  216. do_image_f2fs[depends] += "f2fs-tools-native:do_populate_sysroot"
  217. # This variable is available to request which values are suitable for IMAGE_FSTYPES
  218. IMAGE_TYPES = " \
  219. jffs2 jffs2.sum \
  220. cramfs \
  221. ext2 ext2.gz ext2.bz2 ext2.lzma \
  222. ext3 ext3.gz \
  223. ext4 ext4.gz \
  224. btrfs \
  225. iso \
  226. hddimg \
  227. squashfs squashfs-xz squashfs-lzo squashfs-lz4 \
  228. ubi ubifs multiubi \
  229. tar tar.gz tar.bz2 tar.xz tar.lz4 \
  230. cpio cpio.gz cpio.xz cpio.lzma cpio.lz4 \
  231. wic wic.gz wic.bz2 wic.lzma \
  232. container \
  233. f2fs \
  234. "
  235. # Compression is a special case of conversion. The old variable
  236. # names are still supported for backward-compatibility. When defining
  237. # new compression or conversion commands, use CONVERSIONTYPES and
  238. # CONVERSION_CMD/DEPENDS.
  239. COMPRESSIONTYPES ?= ""
  240. CONVERSIONTYPES = "gz bz2 lzma xz lz4 lzo zip sum md5sum sha1sum sha224sum sha256sum sha384sum sha512sum bmap u-boot vmdk vdi qcow2 ${COMPRESSIONTYPES}"
  241. CONVERSION_CMD_lzma = "lzma -k -f -7 ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type}"
  242. CONVERSION_CMD_gz = "pigz -f -9 -n -c ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type} > ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type}.gz"
  243. CONVERSION_CMD_bz2 = "pbzip2 -f -k ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type}"
  244. CONVERSION_CMD_xz = "xz -f -k -c ${XZ_COMPRESSION_LEVEL} ${XZ_THREADS} --check=${XZ_INTEGRITY_CHECK} ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type} > ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type}.xz"
  245. CONVERSION_CMD_lz4 = "lz4 -9 -z -l ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type} ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type}.lz4"
  246. CONVERSION_CMD_lzo = "lzop -9 ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type}"
  247. CONVERSION_CMD_zip = "zip ${ZIP_COMPRESSION_LEVEL} ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type}.zip ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type}"
  248. CONVERSION_CMD_sum = "sumtool -i ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type} -o ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type}.sum ${JFFS2_SUM_EXTRA_ARGS}"
  249. CONVERSION_CMD_md5sum = "md5sum ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type} > ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type}.md5sum"
  250. CONVERSION_CMD_sha1sum = "sha1sum ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type} > ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type}.sha1sum"
  251. CONVERSION_CMD_sha224sum = "sha224sum ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type} > ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type}.sha224sum"
  252. CONVERSION_CMD_sha256sum = "sha256sum ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type} > ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type}.sha256sum"
  253. CONVERSION_CMD_sha384sum = "sha384sum ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type} > ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type}.sha384sum"
  254. CONVERSION_CMD_sha512sum = "sha512sum ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type} > ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type}.sha512sum"
  255. CONVERSION_CMD_bmap = "bmaptool create ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type} -o ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type}.bmap"
  256. CONVERSION_CMD_u-boot = "mkimage -A ${UBOOT_ARCH} -O linux -T ramdisk -C none -n ${IMAGE_NAME} -d ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type} ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type}.u-boot"
  257. CONVERSION_CMD_vmdk = "qemu-img convert -O vmdk ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type} ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type}.vmdk"
  258. CONVERSION_CMD_vdi = "qemu-img convert -O vdi ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type} ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type}.vdi"
  259. CONVERSION_CMD_qcow2 = "qemu-img convert -O qcow2 ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type} ${IMAGE_NAME}${IMAGE_NAME_SUFFIX}.${type}.qcow2"
  260. CONVERSION_DEPENDS_lzma = "xz-native"
  261. CONVERSION_DEPENDS_gz = "pigz-native"
  262. CONVERSION_DEPENDS_bz2 = "pbzip2-native"
  263. CONVERSION_DEPENDS_xz = "xz-native"
  264. CONVERSION_DEPENDS_lz4 = "lz4-native"
  265. CONVERSION_DEPENDS_lzo = "lzop-native"
  266. CONVERSION_DEPENDS_zip = "zip-native"
  267. CONVERSION_DEPENDS_sum = "mtd-utils-native"
  268. CONVERSION_DEPENDS_bmap = "bmap-tools-native"
  269. CONVERSION_DEPENDS_u-boot = "u-boot-tools-native"
  270. CONVERSION_DEPENDS_vmdk = "qemu-native"
  271. CONVERSION_DEPENDS_vdi = "qemu-native"
  272. CONVERSION_DEPENDS_qcow2 = "qemu-native"
  273. RUNNABLE_IMAGE_TYPES ?= "ext2 ext3 ext4"
  274. RUNNABLE_MACHINE_PATTERNS ?= "qemu"
  275. DEPLOYABLE_IMAGE_TYPES ?= "hddimg iso"
  276. # The IMAGE_TYPES_MASKED variable will be used to mask out from the IMAGE_FSTYPES,
  277. # images that will not be built at do_rootfs time: vmdk, vdi, qcow2, hdddirect, hddimg, iso, etc.
  278. IMAGE_TYPES_MASKED ?= ""
  279. # bmap requires python3 to be in the PATH
  280. EXTRANATIVEPATH += "${@'python3-native' if d.getVar('IMAGE_FSTYPES').find('.bmap') else ''}"