deleted file mode 100644
@@ -1,10 +0,0 @@
-#!/usr/bin/env python3
-#
-# Copyright (c) 2007 Red Hat, Inc.
-# Copyright (c) 2011 Intel, Inc.
-#
-# SPDX-License-Identifier: GPL-2.0-only
-#
-
-class WicError(Exception):
- pass
deleted file mode 100644
@@ -1,3 +0,0 @@
-# This file is included into 3 canned wks files from this directory
-part /boot --source bootimg_pcbios --ondisk sda --label boot --active --align 1024
-part / --source rootfs --use-uuid --fstype=ext4 --label platform --align 1024
deleted file mode 100644
@@ -1,27 +0,0 @@
-# This is an example configuration file for syslinux.
-TIMEOUT 50
-ALLOWOPTIONS 1
-SERIAL 0 115200
-PROMPT 0
-
-UI vesamenu.c32
-menu title Select boot options
-menu tabmsg Press [Tab] to edit, [Return] to select
-
-DEFAULT Graphics console boot
-
-LABEL Graphics console boot
-KERNEL /vmlinuz
-APPEND label=boot rootwait
-
-LABEL Serial console boot
-KERNEL /vmlinuz
-APPEND label=boot rootwait console=ttyS0,115200
-
-LABEL Graphics console install
-KERNEL /vmlinuz
-APPEND label=install rootwait
-
-LABEL Serial console install
-KERNEL /vmlinuz
-APPEND label=install rootwait console=ttyS0,115200
deleted file mode 100644
@@ -1,8 +0,0 @@
-# short-description: Create a 'pcbios' direct disk image with custom bootloader config
-# long-description: Creates a partitioned legacy BIOS disk image that the user
-# can directly dd to boot media. The bootloader configuration source is a user file.
-
-include common.wks.inc
-
-bootloader --configfile="directdisk-bootloader-config.cfg"
-
deleted file mode 100644
@@ -1,10 +0,0 @@
-# short-description: Create a 'pcbios' direct disk image
-# long-description: Creates a partitioned legacy BIOS disk image that the user
-# can directly dd to boot media.
-
-
-part /boot --source bootimg_pcbios --ondisk sda --label boot --active --align 1024
-part / --source rootfs --ondisk sda --fstype=ext4 --label platform --align 1024 --use-uuid
-
-bootloader --ptable gpt --timeout=0 --append="rootwait rootfstype=ext4 video=vesafb vga=0x318 console=tty0 console=ttyS0,115200n8"
-
deleted file mode 100644
@@ -1,23 +0,0 @@
-# short-description: Create multi rootfs image using rootfs plugin
-# long-description: Creates a partitioned disk image with two rootfs partitions
-# using rootfs plugin.
-#
-# Partitions can use either
-# - indirect rootfs references to image recipe(s):
-# wic create directdisk-multi-indirect-recipes -e core-image-minimal \
-# --rootfs-dir rootfs1=core-image-minimal
-# --rootfs-dir rootfs2=core-image-minimal-dev
-#
-# - or paths to rootfs directories:
-# wic create directdisk-multi-rootfs \
-# --rootfs-dir rootfs1=tmp/work/qemux86_64-poky-linux/core-image-minimal/1.0-r0/rootfs/
-# --rootfs-dir rootfs2=tmp/work/qemux86_64-poky-linux/core-image-minimal-dev/1.0-r0/rootfs/
-#
-# - or any combinations of -r and --rootfs command line options
-
-part /boot --source bootimg_pcbios --ondisk sda --label boot --active --align 1024
-part / --source rootfs --rootfs-dir=rootfs1 --ondisk sda --fstype=ext4 --label platform --align 1024
-part /rescue --source rootfs --rootfs-dir=rootfs2 --ondisk sda --fstype=ext4 --label secondary --align 1024
-
-bootloader --timeout=0 --append="rootwait rootfstype=ext4 video=vesafb vga=0x318 console=tty0 console=ttyS0,115200n8"
-
deleted file mode 100644
@@ -1,8 +0,0 @@
-# short-description: Create a 'pcbios' direct disk image
-# long-description: Creates a partitioned legacy BIOS disk image that the user
-# can directly dd to boot media.
-
-include common.wks.inc
-
-bootloader --timeout=0 --append="rootwait rootfstype=ext4 video=vesafb vga=0x318 console=tty0 console=ttyS0,115200n8"
-
deleted file mode 100644
@@ -1,3 +0,0 @@
-bootloader --ptable gpt
-part /boot --source rootfs --rootfs-dir=${IMAGE_ROOTFS}/boot --fstype=vfat --label boot --active --align 1024 --use-uuid --overhead-factor 1.2
-part / --source rootfs --fstype=ext4 --label root --align 1024 --exclude-path boot/
deleted file mode 100644
@@ -1,3 +0,0 @@
-bootloader --ptable gpt --timeout=5
-part /boot --source bootimg_efi --sourceparams="loader=${EFI_PROVIDER}" --label boot --active --align 1024 --use-uuid --part-name="ESP" --part-type=C12A7328-F81F-11D2-BA4B-00A0C93EC93B --overhead-factor=1
-part / --source rootfs --fstype=ext4 --label root --align 1024 --exclude-path boot/
deleted file mode 100644
@@ -1,11 +0,0 @@
-# short-description: Create an EFI disk image
-# long-description: Creates a partitioned EFI disk image that the user
-# can directly dd to boot media.
-
-part /boot --source bootimg_efi --sourceparams="loader=grub-efi" --ondisk sda --label msdos --active --align 1024
-
-part / --source rootfs --ondisk sda --fstype=ext4 --label platform --align 1024 --use-uuid
-
-part swap --ondisk sda --size 44 --label swap1 --fstype=swap
-
-bootloader --ptable gpt --timeout=5 --append="rootfstype=ext4 console=${KERNEL_CONSOLE} console=tty0"
deleted file mode 100644
@@ -1,7 +0,0 @@
-# short-description: Create a hybrid ISO image
-# long-description: Creates an EFI and legacy bootable hybrid ISO image
-# which can be used on optical media as well as USB media.
-
-part /boot --source isoimage_isohybrid --sourceparams="loader=grub-efi,image_name=HYBRID_ISO_IMG" --ondisk cd --label HYBRIDISO
-
-bootloader --timeout=15 --append=""
deleted file mode 100644
@@ -1,3 +0,0 @@
-# short-description: Create qcow2 image for LoongArch QEMU machines
-
-part / --source rootfs --fstype=ext4 --label root --align 4096 --size 5G
deleted file mode 100644
@@ -1,3 +0,0 @@
-# short-description: Create qcow2 image for RISC-V QEMU machines
-
-part / --source rootfs --fstype=ext4 --label root --align 4096 --size 5G
deleted file mode 100644
@@ -1,8 +0,0 @@
-# short-description: Create a qemu machine 'pcbios' direct disk image
-# long-description: Creates a partitioned legacy BIOS disk image that the user
-# can directly use to boot a qemu machine.
-
-include common.wks.inc
-
-bootloader --timeout=0 --append="rw oprofile.timer=1 rootfstype=ext4 console=tty console=ttyS0 "
-
deleted file mode 100644
@@ -1,6 +0,0 @@
-# short-description: Create SD card image with a boot partition
-# long-description: Creates a partitioned SD card image. Boot files
-# are located in the first vfat partition.
-
-part /boot --source bootimg_partition --ondisk mmcblk0 --fstype=vfat --label boot --active --align 4 --size 16
-part / --source rootfs --ondisk mmcblk0 --fstype=ext4 --label root --align 4
deleted file mode 100644
@@ -1,11 +0,0 @@
-# short-description: Create an EFI disk image with systemd-boot
-# long-description: Creates a partitioned EFI disk image that the user
-# can directly dd to boot media. The selected bootloader is systemd-boot.
-
-part /boot --source bootimg_efi --sourceparams="loader=systemd-boot" --ondisk sda --label msdos --active --align 1024 --use-uuid
-
-part / --source rootfs --ondisk sda --fstype=ext4 --label platform --align 1024 --use-uuid
-
-part swap --ondisk sda --size 44 --label swap1 --fstype=swap --use-uuid
-
-bootloader --ptable gpt --timeout=5 --append="rootwait rootfstype=ext4 console=ttyS0,115200 console=tty0"
deleted file mode 100644
@@ -1,681 +0,0 @@
-#
-# Copyright (c) 2013, Intel Corporation.
-#
-# SPDX-License-Identifier: GPL-2.0-only
-#
-# DESCRIPTION
-
-# This module implements the image creation engine used by 'wic' to
-# create images. The engine parses through the OpenEmbedded kickstart
-# (wks) file specified and generates images that can then be directly
-# written onto media.
-#
-# AUTHORS
-# Tom Zanussi <tom.zanussi (at] linux.intel.com>
-#
-
-import logging
-import os
-import tempfile
-import json
-import subprocess
-import shutil
-import re
-
-from collections import namedtuple, OrderedDict
-
-from wic import WicError
-from wic.filemap import sparse_copy
-from wic.pluginbase import PluginMgr
-from wic.misc import get_bitbake_var, exec_cmd
-
-logger = logging.getLogger('wic')
-
-def verify_build_env():
- """
- Verify that the build environment is sane.
-
- Returns True if it is, false otherwise
- """
- if not os.environ.get("BUILDDIR"):
- raise WicError("BUILDDIR not found, exiting. (Did you forget to source oe-init-build-env?)")
-
- return True
-
-
-CANNED_IMAGE_DIR = "lib/wic/canned-wks" # relative to scripts
-SCRIPTS_CANNED_IMAGE_DIR = "scripts/" + CANNED_IMAGE_DIR
-WIC_DIR = "wic"
-
-def build_canned_image_list(path):
- layers_path = get_bitbake_var("BBLAYERS")
- canned_wks_layer_dirs = []
-
- if layers_path is not None:
- for layer_path in layers_path.split():
- for wks_path in (WIC_DIR, SCRIPTS_CANNED_IMAGE_DIR):
- cpath = os.path.join(layer_path, wks_path)
- if os.path.isdir(cpath):
- canned_wks_layer_dirs.append(cpath)
-
- cpath = os.path.join(path, CANNED_IMAGE_DIR)
- canned_wks_layer_dirs.append(cpath)
-
- return canned_wks_layer_dirs
-
-def find_canned_image(scripts_path, wks_file):
- """
- Find a .wks file with the given name in the canned files dir.
-
- Return False if not found
- """
- layers_canned_wks_dir = build_canned_image_list(scripts_path)
-
- for canned_wks_dir in layers_canned_wks_dir:
- for root, dirs, files in os.walk(canned_wks_dir):
- for fname in files:
- if fname.endswith("~") or fname.endswith("#"):
- continue
- if ((fname.endswith(".wks") and wks_file + ".wks" == fname) or \
- (fname.endswith(".wks.in") and wks_file + ".wks.in" == fname)):
- fullpath = os.path.join(canned_wks_dir, fname)
- return fullpath
- return None
-
-
-def list_canned_images(scripts_path):
- """
- List the .wks files in the canned image dir, minus the extension.
- """
- layers_canned_wks_dir = build_canned_image_list(scripts_path)
-
- for canned_wks_dir in layers_canned_wks_dir:
- for root, dirs, files in os.walk(canned_wks_dir):
- for fname in files:
- if fname.endswith("~") or fname.endswith("#"):
- continue
- if fname.endswith(".wks") or fname.endswith(".wks.in"):
- fullpath = os.path.join(canned_wks_dir, fname)
- with open(fullpath) as wks:
- for line in wks:
- desc = ""
- idx = line.find("short-description:")
- if idx != -1:
- desc = line[idx + len("short-description:"):].strip()
- break
- basename = fname.split('.')[0]
- print(" %s\t\t%s" % (basename.ljust(30), desc))
-
-
-def list_canned_image_help(scripts_path, fullpath):
- """
- List the help and params in the specified canned image.
- """
- found = False
- with open(fullpath) as wks:
- for line in wks:
- if not found:
- idx = line.find("long-description:")
- if idx != -1:
- print()
- print(line[idx + len("long-description:"):].strip())
- found = True
- continue
- if not line.strip():
- break
- idx = line.find("#")
- if idx != -1:
- print(line[idx + len("#:"):].rstrip())
- else:
- break
-
-
-def list_source_plugins():
- """
- List the available source plugins i.e. plugins available for --source.
- """
- plugins = PluginMgr.get_plugins('source')
-
- for plugin in plugins:
- print(" %s" % plugin)
-
-
-def wic_create(wks_file, rootfs_dir, bootimg_dir, kernel_dir,
- native_sysroot, options):
- """
- Create image
-
- wks_file - user-defined OE kickstart file
- rootfs_dir - absolute path to the build's /rootfs dir
- bootimg_dir - absolute path to the build's boot artifacts directory
- kernel_dir - absolute path to the build's kernel directory
- native_sysroot - absolute path to the build's native sysroots dir
- image_output_dir - dirname to create for image
- options - wic command line options (debug, bmap, etc)
-
- Normally, the values for the build artifacts values are determined
- by 'wic -e' from the output of the 'bitbake -e' command given an
- image name e.g. 'core-image-minimal' and a given machine set in
- local.conf. If that's the case, the variables get the following
- values from the output of 'bitbake -e':
-
- rootfs_dir: IMAGE_ROOTFS
- kernel_dir: DEPLOY_DIR_IMAGE
- native_sysroot: STAGING_DIR_NATIVE
-
- In the above case, bootimg_dir remains unset and the
- plugin-specific image creation code is responsible for finding the
- bootimg artifacts.
-
- In the case where the values are passed in explicitly i.e 'wic -e'
- is not used but rather the individual 'wic' options are used to
- explicitly specify these values.
- """
- try:
- oe_builddir = os.environ["BUILDDIR"]
- except KeyError:
- raise WicError("BUILDDIR not found, exiting. (Did you forget to source oe-init-build-env?)")
-
- if not os.path.exists(options.outdir):
- os.makedirs(options.outdir)
-
- pname = options.imager
- # Don't support '-' in plugin names
- pname = pname.replace("-", "_")
- plugin_class = PluginMgr.get_plugins('imager').get(pname)
- if not plugin_class:
- raise WicError('Unknown plugin: %s' % pname)
-
- plugin = plugin_class(wks_file, rootfs_dir, bootimg_dir, kernel_dir,
- native_sysroot, oe_builddir, options)
-
- plugin.do_create()
-
- logger.info("The image(s) were created using OE kickstart file:\n %s", wks_file)
-
-
-def wic_list(args, scripts_path):
- """
- Print the list of images or source plugins.
- """
- if args.list_type is None:
- return False
-
- if args.list_type == "images":
-
- list_canned_images(scripts_path)
- return True
- elif args.list_type == "source-plugins":
- list_source_plugins()
- return True
- elif len(args.help_for) == 1 and args.help_for[0] == 'help':
- wks_file = args.list_type
- fullpath = find_canned_image(scripts_path, wks_file)
- if not fullpath:
- raise WicError("No image named %s found, exiting. "
- "(Use 'wic list images' to list available images, "
- "or specify a fully-qualified OE kickstart (.wks) "
- "filename)" % wks_file)
-
- list_canned_image_help(scripts_path, fullpath)
- return True
-
- return False
-
-
-class Disk:
- def __init__(self, imagepath, native_sysroot, fstypes=('fat', 'ext')):
- self.imagepath = imagepath
- self.native_sysroot = native_sysroot
- self.fstypes = fstypes
- self._partitions = None
- self._partimages = {}
- self._lsector_size = None
- self._psector_size = None
- self._ptable_format = None
-
- # define sector size
- sector_size_str = get_bitbake_var('WIC_SECTOR_SIZE')
- if sector_size_str is not None:
- try:
- self.sector_size = int(sector_size_str)
- except ValueError:
- self.sector_size = None
- else:
- self.sector_size = None
-
- # find parted
- # read paths from $PATH environment variable
- # if it fails, use hardcoded paths
- pathlist = "/bin:/usr/bin:/usr/sbin:/sbin/"
- try:
- self.paths = os.environ['PATH'] + ":" + pathlist
- except KeyError:
- self.paths = pathlist
-
- if native_sysroot:
- for path in pathlist.split(':'):
- self.paths = "%s%s:%s" % (native_sysroot, path, self.paths)
-
- self.parted = shutil.which("parted", path=self.paths)
- if not self.parted:
- raise WicError("Can't find executable parted")
-
- self.partitions = self.get_partitions()
-
- def __del__(self):
- for path in self._partimages.values():
- os.unlink(path)
-
- def get_partitions(self):
- if self._partitions is None:
- self._partitions = OrderedDict()
-
- if self.sector_size is not None:
- out = exec_cmd("export PARTED_SECTOR_SIZE=%d; %s -sm %s unit B print" % \
- (self.sector_size, self.parted, self.imagepath), True)
- else:
- out = exec_cmd("%s -sm %s unit B print" % (self.parted, self.imagepath))
-
- parttype = namedtuple("Part", "pnum start end size fstype")
- splitted = out.splitlines()
- # skip over possible errors in exec_cmd output
- try:
- idx =splitted.index("BYT;")
- except ValueError:
- raise WicError("Error getting partition information from %s" % (self.parted))
- lsector_size, psector_size, self._ptable_format = splitted[idx + 1].split(":")[3:6]
- self._lsector_size = int(lsector_size)
- self._psector_size = int(psector_size)
- for line in splitted[idx + 2:]:
- pnum, start, end, size, fstype = line.split(':')[:5]
- partition = parttype(int(pnum), int(start[:-1]), int(end[:-1]),
- int(size[:-1]), fstype)
- self._partitions[pnum] = partition
-
- return self._partitions
-
- def __getattr__(self, name):
- """Get path to the executable in a lazy way."""
- if name in ("mdir", "mcopy", "mdel", "mdeltree", "sfdisk", "e2fsck",
- "resize2fs", "mkswap", "mkdosfs", "debugfs","blkid"):
- aname = "_%s" % name
- if aname not in self.__dict__:
- setattr(self, aname, shutil.which(name, path=self.paths))
- if aname not in self.__dict__ or self.__dict__[aname] is None:
- raise WicError("Can't find executable '{}'".format(name))
- return self.__dict__[aname]
- return self.__dict__[name]
-
- def _get_part_image(self, pnum):
- if pnum not in self.partitions:
- raise WicError("Partition %s is not in the image" % pnum)
- part = self.partitions[pnum]
- # check if fstype is supported
- for fstype in self.fstypes:
- if part.fstype.startswith(fstype):
- break
- else:
- raise WicError("Not supported fstype: {}".format(part.fstype))
- if pnum not in self._partimages:
- tmpf = tempfile.NamedTemporaryFile(prefix="wic-part")
- dst_fname = tmpf.name
- tmpf.close()
- sparse_copy(self.imagepath, dst_fname, skip=part.start, length=part.size)
- self._partimages[pnum] = dst_fname
-
- return self._partimages[pnum]
-
- def _put_part_image(self, pnum):
- """Put partition image into partitioned image."""
- sparse_copy(self._partimages[pnum], self.imagepath,
- seek=self.partitions[pnum].start)
-
- def dir(self, pnum, path):
- if pnum not in self.partitions:
- raise WicError("Partition %s is not in the image" % pnum)
-
- if self.partitions[pnum].fstype.startswith('ext'):
- return exec_cmd("{} {} -R 'ls -l {}'".format(self.debugfs,
- self._get_part_image(pnum),
- path), as_shell=True)
- else: # fat
- return exec_cmd("{} -i {} ::{}".format(self.mdir,
- self._get_part_image(pnum),
- path))
-
- def copy(self, src, dest):
- """Copy files or directories to/from the vfat or ext* partition."""
- pnum = dest.part if isinstance(src, str) else src.part
- partimg = self._get_part_image(pnum)
-
- if self.partitions[pnum].fstype.startswith('ext'):
- if isinstance(src, str): # host to image case
- if os.path.isdir(src):
- base = os.path.abspath(src)
- base_parent = os.path.dirname(base)
- cmds = []
- made = set()
-
- for root, dirs, files in os.walk(base):
- for fname in files:
- host_file = os.path.join(root, fname)
- rel = os.path.relpath(host_file, base_parent)
- dest_file = os.path.join(dest.path, rel)
- dest_dir = os.path.dirname(dest_file)
-
- # create dir structure (mkdir -p)
- parts = dest_dir.strip('/').split('/')
- cur = ''
- for p in parts:
- cur = cur + '/' + p
- if cur not in made:
- cmds.append(f'mkdir "{cur}"')
- made.add(cur)
-
- cmds.append(f'write "{host_file}" "{dest_file}"')
-
- # write script to a temp file
- with tempfile.NamedTemporaryFile(mode='w', delete=False,
- prefix='wic-debugfs-') as tf:
- for line in cmds:
- tf.write(line + '\n')
- scriptname = tf.name
-
- cmd = f"{self.debugfs} -w -f {scriptname} {partimg}"
-
- else: # single file
- cmd = "printf 'cd {}\nwrite {} {}\n' | {} -w {}".\
- format(os.path.dirname(dest.path), src,
- os.path.basename(src), self.debugfs, partimg)
-
- else: # image to host case
- cmd = "printf 'cd {}\ndump /{} {}\nrdump /{} {}\n' | {} {}".\
- format(os.path.dirname(src.path), src.path,
- dest, src.path, dest, self.debugfs, partimg)
-
- else: # fat
- if isinstance(src, str):
- cmd = "{} -i {} -snop {} ::{}".format(self.mcopy,
- partimg,
- src, dest.path)
- else:
- cmd = "{} -i {} -snop ::{} {}".format(self.mcopy,
- partimg,
- src.path, dest)
-
- exec_cmd(cmd, as_shell=True)
- self._put_part_image(pnum)
-
- def remove_ext(self, pnum, path, recursive):
- """
- Remove files/dirs and their contents from the partition.
- This only applies to ext* partition.
- """
- abs_path = re.sub(r'\/\/+', '/', path)
- cmd = "{} {} -wR 'rm \"{}\"'".format(self.debugfs,
- self._get_part_image(pnum),
- abs_path)
- out = exec_cmd(cmd , as_shell=True)
- for line in out.splitlines():
- if line.startswith("rm:"):
- if "file is a directory" in line:
- if recursive:
- # loop through content and delete them one by one if
- # flaged with -r
- subdirs = iter(self.dir(pnum, abs_path).splitlines())
- next(subdirs)
- for subdir in subdirs:
- dir = subdir.split(':')[1].split(" ", 1)[1]
- if not dir == "." and not dir == "..":
- self.remove_ext(pnum, "%s/%s" % (abs_path, dir), recursive)
-
- rmdir_out = exec_cmd("{} {} -wR 'rmdir \"{}\"'".format(self.debugfs,
- self._get_part_image(pnum),
- abs_path.rstrip('/'))
- , as_shell=True)
-
- for rmdir_line in rmdir_out.splitlines():
- if "directory not empty" in rmdir_line:
- raise WicError("Could not complete operation: \n%s \n"
- "use -r to remove non-empty directory" % rmdir_line)
- if rmdir_line.startswith("rmdir:"):
- raise WicError("Could not complete operation: \n%s "
- "\n%s" % (str(line), rmdir_line))
-
- else:
- raise WicError("Could not complete operation: \n%s "
- "\nUnable to remove %s" % (str(line), abs_path))
-
- def remove(self, pnum, path, recursive):
- """Remove files/dirs from the partition."""
- partimg = self._get_part_image(pnum)
- if self.partitions[pnum].fstype.startswith('ext'):
- self.remove_ext(pnum, path, recursive)
-
- else: # fat
- cmd = "{} -i {} ::{}".format(self.mdel, partimg, path)
- try:
- exec_cmd(cmd)
- except WicError as err:
- if "not found" in str(err) or "non empty" in str(err):
- # mdel outputs 'File ... not found' or 'directory .. non empty"
- # try to use mdeltree as path could be a directory
- cmd = "{} -i {} ::{}".format(self.mdeltree,
- partimg, path)
- exec_cmd(cmd)
- else:
- raise err
- self._put_part_image(pnum)
-
- def write(self, target, expand):
- """Write disk image to the media or file."""
- def write_sfdisk_script(outf, parts):
- for key, val in parts['partitiontable'].items():
- if key in ("partitions", "device", "firstlba", "lastlba"):
- continue
- if key == "id":
- key = "label-id"
- outf.write("{}: {}\n".format(key, val))
- outf.write("\n")
- for part in parts['partitiontable']['partitions']:
- line = ''
- for name in ('attrs', 'name', 'size', 'type', 'uuid'):
- if name == 'size' and part['type'] == 'f':
- # don't write size for extended partition
- continue
- val = part.get(name)
- if val:
- line += '{}={}, '.format(name, val)
- if line:
- line = line[:-2] # strip ', '
- if part.get('bootable'):
- line += ' ,bootable'
- outf.write("{}\n".format(line))
- outf.flush()
-
- def read_ptable(path):
- out = exec_cmd("{} -J {}".format(self.sfdisk, path))
- return json.loads(out)
-
- def write_ptable(parts, target):
- with tempfile.NamedTemporaryFile(prefix="wic-sfdisk-", mode='w') as outf:
- write_sfdisk_script(outf, parts)
- cmd = "{} --no-reread {} < {} ".format(self.sfdisk, target, outf.name)
- exec_cmd(cmd, as_shell=True)
-
- if expand is None:
- sparse_copy(self.imagepath, target)
- else:
- # copy first sectors that may contain bootloader
- sparse_copy(self.imagepath, target, length=2048 * self._lsector_size)
-
- # copy source partition table to the target
- parts = read_ptable(self.imagepath)
- write_ptable(parts, target)
-
- # get size of unpartitioned space
- free = None
- for line in exec_cmd("{} -F {}".format(self.sfdisk, target)).splitlines():
- if line.startswith("Unpartitioned space ") and line.endswith("sectors"):
- free = int(line.split()[-2])
- # Align free space to a 2048 sector boundary. YOCTO #12840.
- free = free - (free % 2048)
- if free is None:
- raise WicError("Can't get size of unpartitioned space")
-
- # calculate expanded partitions sizes
- sizes = {}
- num_auto_resize = 0
- for num, part in enumerate(parts['partitiontable']['partitions'], 1):
- if num in expand:
- if expand[num] != 0: # don't resize partition if size is set to 0
- sectors = expand[num] // self._lsector_size
- free -= sectors - part['size']
- part['size'] = sectors
- sizes[num] = sectors
- elif part['type'] != 'f':
- sizes[num] = -1
- num_auto_resize += 1
-
- for num, part in enumerate(parts['partitiontable']['partitions'], 1):
- if sizes.get(num) == -1:
- part['size'] += free // num_auto_resize
-
- # write resized partition table to the target
- write_ptable(parts, target)
-
- # read resized partition table
- parts = read_ptable(target)
-
- # copy partitions content
- for num, part in enumerate(parts['partitiontable']['partitions'], 1):
- pnum = str(num)
- fstype = self.partitions[pnum].fstype
-
- # copy unchanged partition
- if part['size'] == self.partitions[pnum].size // self._lsector_size:
- logger.info("copying unchanged partition {}".format(pnum))
- sparse_copy(self._get_part_image(pnum), target, seek=part['start'] * self._lsector_size)
- continue
-
- # resize or re-create partitions
- if fstype.startswith('ext') or fstype.startswith('fat') or \
- fstype.startswith('linux-swap'):
-
- partfname = None
- with tempfile.NamedTemporaryFile(prefix="wic-part{}-".format(pnum)) as partf:
- partfname = partf.name
-
- if fstype.startswith('ext'):
- logger.info("resizing ext partition {}".format(pnum))
- partimg = self._get_part_image(pnum)
- sparse_copy(partimg, partfname)
- exec_cmd("{} -pf {}".format(self.e2fsck, partfname))
- exec_cmd("{} {} {}s".format(\
- self.resize2fs, partfname, part['size']))
- elif fstype.startswith('fat'):
- logger.info("copying content of the fat partition {}".format(pnum))
- with tempfile.TemporaryDirectory(prefix='wic-fatdir-') as tmpdir:
- # copy content to the temporary directory
- cmd = "{} -snompi {} :: {}".format(self.mcopy,
- self._get_part_image(pnum),
- tmpdir)
- exec_cmd(cmd)
- # create new msdos partition
- label = part.get("name")
- label_str = "-n {}".format(label) if label else ''
-
- cmd = "{} {} -C {} {}".format(self.mkdosfs, label_str, partfname,
- part['size'])
- exec_cmd(cmd)
- # copy content from the temporary directory to the new partition
- cmd = "{} -snompi {} {}/* ::".format(self.mcopy, partfname, tmpdir)
- exec_cmd(cmd, as_shell=True)
- elif fstype.startswith('linux-swap'):
- logger.info("creating swap partition {}".format(pnum))
- label = part.get("name")
- label_str = "-L {}".format(label) if label else ''
- out = exec_cmd("{} --probe {}".format(self.blkid, self._get_part_image(pnum)))
- uuid = out[out.index("UUID=\"")+6:out.index("UUID=\"")+42]
- uuid_str = "-U {}".format(uuid) if uuid else ''
- with open(partfname, 'w') as sparse:
- os.ftruncate(sparse.fileno(), part['size'] * self._lsector_size)
- exec_cmd("{} {} {} {}".format(self.mkswap, label_str, uuid_str, partfname))
- sparse_copy(partfname, target, seek=part['start'] * self._lsector_size)
- os.unlink(partfname)
- elif part['type'] != 'f':
- logger.warning("skipping partition {}: unsupported fstype {}".format(pnum, fstype))
-
-def wic_ls(args, native_sysroot):
- """List contents of partitioned image or vfat partition."""
- disk = Disk(args.path.image, native_sysroot)
- if not args.path.part:
- if disk.partitions:
- print('Num Start End Size Fstype')
- for part in disk.partitions.values():
- print("{:2d} {:12d} {:12d} {:12d} {}".format(\
- part.pnum, part.start, part.end,
- part.size, part.fstype))
- else:
- path = args.path.path or '/'
- print(disk.dir(args.path.part, path))
-
-def wic_cp(args, native_sysroot):
- """
- Copy file or directory to/from the vfat/ext partition of
- partitioned image.
- """
- if isinstance(args.dest, str):
- disk = Disk(args.src.image, native_sysroot)
- else:
- disk = Disk(args.dest.image, native_sysroot)
- disk.copy(args.src, args.dest)
-
-
-def wic_rm(args, native_sysroot):
- """
- Remove files or directories from the vfat partition of
- partitioned image.
- """
- disk = Disk(args.path.image, native_sysroot)
- disk.remove(args.path.part, args.path.path, args.recursive_delete)
-
-def wic_write(args, native_sysroot):
- """
- Write image to a target device.
- """
- disk = Disk(args.image, native_sysroot, ('fat', 'ext', 'linux-swap'))
- disk.write(args.target, args.expand)
-
-def find_canned(scripts_path, file_name):
- """
- Find a file either by its path or by name in the canned files dir.
-
- Return None if not found
- """
- if os.path.exists(file_name):
- return file_name
-
- layers_canned_wks_dir = build_canned_image_list(scripts_path)
- for canned_wks_dir in layers_canned_wks_dir:
- for root, dirs, files in os.walk(canned_wks_dir):
- for fname in files:
- if fname == file_name:
- fullpath = os.path.join(canned_wks_dir, fname)
- return fullpath
-
-def get_custom_config(boot_file):
- """
- Get the custom configuration to be used for the bootloader.
-
- Return None if the file can't be found.
- """
- # Get the scripts path of poky
- scripts_path = os.path.abspath("%s/../.." % os.path.dirname(__file__))
-
- cfg_file = find_canned(scripts_path, boot_file)
- if cfg_file:
- with open(cfg_file, "r") as f:
- config = f.read()
- return config
deleted file mode 100644
@@ -1,583 +0,0 @@
-#
-# Copyright (c) 2012 Intel, Inc.
-#
-# SPDX-License-Identifier: GPL-2.0-only
-#
-
-"""
-This module implements python implements a way to get file block. Two methods
-are supported - the FIEMAP ioctl and the 'SEEK_HOLE / SEEK_DATA' features of
-the file seek syscall. The former is implemented by the 'FilemapFiemap' class,
-the latter is implemented by the 'FilemapSeek' class. Both classes provide the
-same API. The 'filemap' function automatically selects which class can be used
-and returns an instance of the class.
-"""
-
-# Disable the following pylint recommendations:
-# * Too many instance attributes (R0902)
-# pylint: disable=R0902
-
-import errno
-import os
-import struct
-import array
-import fcntl
-import tempfile
-import logging
-
-def get_block_size(file_obj):
- """
- Returns block size for file object 'file_obj'. Errors are indicated by the
- 'IOError' exception.
- """
- # Get the block size of the host file-system for the image file by calling
- # the FIGETBSZ ioctl (number 2).
- try:
- binary_data = fcntl.ioctl(file_obj, 2, struct.pack('I', 0))
- bsize = struct.unpack('I', binary_data)[0]
- except OSError:
- bsize = None
-
- # If ioctl causes OSError or give bsize to zero failback to os.fstat
- if not bsize:
- import os
- stat = os.fstat(file_obj.fileno())
- if hasattr(stat, 'st_blksize'):
- bsize = stat.st_blksize
- else:
- raise IOError("Unable to determine block size")
-
- # The logic in this script only supports a maximum of a 4KB
- # block size
- max_block_size = 4 * 1024
- if bsize > max_block_size:
- bsize = max_block_size
-
- return bsize
-
-class ErrorNotSupp(Exception):
- """
- An exception of this type is raised when the 'FIEMAP' or 'SEEK_HOLE' feature
- is not supported either by the kernel or the file-system.
- """
- pass
-
-class Error(Exception):
- """A class for all the other exceptions raised by this module."""
- pass
-
-
-class _FilemapBase(object):
- """
- This is a base class for a couple of other classes in this module. This
- class simply performs the common parts of the initialization process: opens
- the image file, gets its size, etc. The 'log' parameter is the logger object
- to use for printing messages.
- """
-
- def __init__(self, image, log=None):
- """
- Initialize a class instance. The 'image' argument is full path to the
- file or file object to operate on.
- """
-
- self._log = log
- if self._log is None:
- self._log = logging.getLogger(__name__)
-
- self._f_image_needs_close = False
-
- if hasattr(image, "fileno"):
- self._f_image = image
- self._image_path = image.name
- else:
- self._image_path = image
- self._open_image_file()
-
- try:
- self.image_size = os.fstat(self._f_image.fileno()).st_size
- except IOError as err:
- raise Error("cannot get information about file '%s': %s"
- % (self._f_image.name, err))
-
- try:
- self.block_size = get_block_size(self._f_image)
- except IOError as err:
- raise Error("cannot get block size for '%s': %s"
- % (self._image_path, err))
-
- self.blocks_cnt = self.image_size + self.block_size - 1
- self.blocks_cnt //= self.block_size
-
- try:
- self._f_image.flush()
- except IOError as err:
- raise Error("cannot flush image file '%s': %s"
- % (self._image_path, err))
-
- try:
- os.fsync(self._f_image.fileno()),
- except OSError as err:
- raise Error("cannot synchronize image file '%s': %s "
- % (self._image_path, err.strerror))
-
- self._log.debug("opened image \"%s\"" % self._image_path)
- self._log.debug("block size %d, blocks count %d, image size %d"
- % (self.block_size, self.blocks_cnt, self.image_size))
-
- def __del__(self):
- """The class destructor which just closes the image file."""
- if self._f_image_needs_close:
- self._f_image.close()
-
- def _open_image_file(self):
- """Open the image file."""
- try:
- self._f_image = open(self._image_path, 'rb')
- except IOError as err:
- raise Error("cannot open image file '%s': %s"
- % (self._image_path, err))
-
- self._f_image_needs_close = True
-
- def block_is_mapped(self, block): # pylint: disable=W0613,R0201
- """
- This method has has to be implemented by child classes. It returns
- 'True' if block number 'block' of the image file is mapped and 'False'
- otherwise.
- """
-
- raise Error("the method is not implemented")
-
- def get_mapped_ranges(self, start, count): # pylint: disable=W0613,R0201
- """
- This method has has to be implemented by child classes. This is a
- generator which yields ranges of mapped blocks in the file. The ranges
- are tuples of 2 elements: [first, last], where 'first' is the first
- mapped block and 'last' is the last mapped block.
-
- The ranges are yielded for the area of the file of size 'count' blocks,
- starting from block 'start'.
- """
-
- raise Error("the method is not implemented")
-
-
-# The 'SEEK_HOLE' and 'SEEK_DATA' options of the file seek system call
-_SEEK_DATA = 3
-_SEEK_HOLE = 4
-
-def _lseek(file_obj, offset, whence):
- """This is a helper function which invokes 'os.lseek' for file object
- 'file_obj' and with specified 'offset' and 'whence'. The 'whence'
- argument is supposed to be either '_SEEK_DATA' or '_SEEK_HOLE'. When
- there is no more data or hole starting from 'offset', this function
- returns '-1'. Otherwise the data or hole position is returned."""
-
- try:
- return os.lseek(file_obj.fileno(), offset, whence)
- except OSError as err:
- # The 'lseek' system call returns the ENXIO if there is no data or
- # hole starting from the specified offset.
- if err.errno == errno.ENXIO:
- return -1
- elif err.errno == errno.EINVAL:
- raise ErrorNotSupp("the kernel or file-system does not support "
- "\"SEEK_HOLE\" and \"SEEK_DATA\"")
- else:
- raise
-
-class FilemapSeek(_FilemapBase):
- """
- This class uses the 'SEEK_HOLE' and 'SEEK_DATA' to find file block mapping.
- Unfortunately, the current implementation requires the caller to have write
- access to the image file.
- """
-
- def __init__(self, image, log=None):
- """Refer the '_FilemapBase' class for the documentation."""
-
- # Call the base class constructor first
- _FilemapBase.__init__(self, image, log)
- self._log.debug("FilemapSeek: initializing")
-
- self._probe_seek_hole()
-
- def _probe_seek_hole(self):
- """
- Check whether the system implements 'SEEK_HOLE' and 'SEEK_DATA'.
- Unfortunately, there seems to be no clean way for detecting this,
- because often the system just fakes them by just assuming that all
- files are fully mapped, so 'SEEK_HOLE' always returns EOF and
- 'SEEK_DATA' always returns the requested offset.
-
- I could not invent a better way of detecting the fake 'SEEK_HOLE'
- implementation than just to create a temporary file in the same
- directory where the image file resides. It would be nice to change this
- to something better.
- """
-
- directory = os.path.dirname(self._image_path)
-
- try:
- tmp_obj = tempfile.TemporaryFile("w+", dir=directory)
- except IOError as err:
- raise ErrorNotSupp("cannot create a temporary in \"%s\": %s" \
- % (directory, err))
-
- try:
- os.ftruncate(tmp_obj.fileno(), self.block_size)
- except OSError as err:
- raise ErrorNotSupp("cannot truncate temporary file in \"%s\": %s"
- % (directory, err))
-
- offs = _lseek(tmp_obj, 0, _SEEK_HOLE)
- if offs != 0:
- # We are dealing with the stub 'SEEK_HOLE' implementation which
- # always returns EOF.
- self._log.debug("lseek(0, SEEK_HOLE) returned %d" % offs)
- raise ErrorNotSupp("the file-system does not support "
- "\"SEEK_HOLE\" and \"SEEK_DATA\" but only "
- "provides a stub implementation")
-
- tmp_obj.close()
-
- def block_is_mapped(self, block):
- """Refer the '_FilemapBase' class for the documentation."""
- offs = _lseek(self._f_image, block * self.block_size, _SEEK_DATA)
- if offs == -1:
- result = False
- else:
- result = (offs // self.block_size == block)
-
- self._log.debug("FilemapSeek: block_is_mapped(%d) returns %s"
- % (block, result))
- return result
-
- def _get_ranges(self, start, count, whence1, whence2):
- """
- This function implements 'get_mapped_ranges()' depending
- on what is passed in the 'whence1' and 'whence2' arguments.
- """
-
- assert whence1 != whence2
- end = start * self.block_size
- limit = end + count * self.block_size
-
- while True:
- start = _lseek(self._f_image, end, whence1)
- if start == -1 or start >= limit or start == self.image_size:
- break
-
- end = _lseek(self._f_image, start, whence2)
- if end == -1 or end == self.image_size:
- end = self.blocks_cnt * self.block_size
- if end > limit:
- end = limit
-
- start_blk = start // self.block_size
- end_blk = end // self.block_size - 1
- self._log.debug("FilemapSeek: yielding range (%d, %d)"
- % (start_blk, end_blk))
- yield (start_blk, end_blk)
-
- def get_mapped_ranges(self, start, count):
- """Refer the '_FilemapBase' class for the documentation."""
- self._log.debug("FilemapSeek: get_mapped_ranges(%d, %d(%d))"
- % (start, count, start + count - 1))
- return self._get_ranges(start, count, _SEEK_DATA, _SEEK_HOLE)
-
-
-# Below goes the FIEMAP ioctl implementation, which is not very readable
-# because it deals with the rather complex FIEMAP ioctl. To understand the
-# code, you need to know the FIEMAP interface, which is documented in the
-# "Documentation/filesystems/fiemap.txt" file in the Linux kernel sources.
-
-# Format string for 'struct fiemap'
-_FIEMAP_FORMAT = "=QQLLLL"
-# sizeof(struct fiemap)
-_FIEMAP_SIZE = struct.calcsize(_FIEMAP_FORMAT)
-# Format string for 'struct fiemap_extent'
-_FIEMAP_EXTENT_FORMAT = "=QQQQQLLLL"
-# sizeof(struct fiemap_extent)
-_FIEMAP_EXTENT_SIZE = struct.calcsize(_FIEMAP_EXTENT_FORMAT)
-# The FIEMAP ioctl number
-_FIEMAP_IOCTL = 0xC020660B
-# This FIEMAP ioctl flag which instructs the kernel to sync the file before
-# reading the block map
-_FIEMAP_FLAG_SYNC = 0x00000001
-# Size of the buffer for 'struct fiemap_extent' elements which will be used
-# when invoking the FIEMAP ioctl. The larger is the buffer, the less times the
-# FIEMAP ioctl will be invoked.
-_FIEMAP_BUFFER_SIZE = 256 * 1024
-
-class FilemapFiemap(_FilemapBase):
- """
- This class provides API to the FIEMAP ioctl. Namely, it allows to iterate
- over all mapped blocks and over all holes.
-
- This class synchronizes the image file every time it invokes the FIEMAP
- ioctl in order to work-around early FIEMAP implementation kernel bugs.
- """
-
- def __init__(self, image, log=None):
- """
- Initialize a class instance. The 'image' argument is full the file
- object to operate on.
- """
-
- # Call the base class constructor first
- _FilemapBase.__init__(self, image, log)
- self._log.debug("FilemapFiemap: initializing")
-
- self._buf_size = _FIEMAP_BUFFER_SIZE
-
- # Calculate how many 'struct fiemap_extent' elements fit the buffer
- self._buf_size -= _FIEMAP_SIZE
- self._fiemap_extent_cnt = self._buf_size // _FIEMAP_EXTENT_SIZE
- assert self._fiemap_extent_cnt > 0
- self._buf_size = self._fiemap_extent_cnt * _FIEMAP_EXTENT_SIZE
- self._buf_size += _FIEMAP_SIZE
-
- # Allocate a mutable buffer for the FIEMAP ioctl
- self._buf = array.array('B', [0] * self._buf_size)
-
- # Check if the FIEMAP ioctl is supported
- self.block_is_mapped(0)
-
- def _invoke_fiemap(self, block, count):
- """
- Invoke the FIEMAP ioctl for 'count' blocks of the file starting from
- block number 'block'.
-
- The full result of the operation is stored in 'self._buf' on exit.
- Returns the unpacked 'struct fiemap' data structure in form of a python
- list (just like 'struct.upack()').
- """
-
- if self.blocks_cnt != 0 and (block < 0 or block >= self.blocks_cnt):
- raise Error("bad block number %d, should be within [0, %d]"
- % (block, self.blocks_cnt))
-
- # Initialize the 'struct fiemap' part of the buffer. We use the
- # '_FIEMAP_FLAG_SYNC' flag in order to make sure the file is
- # synchronized. The reason for this is that early FIEMAP
- # implementations had many bugs related to cached dirty data, and
- # synchronizing the file is a necessary work-around.
- struct.pack_into(_FIEMAP_FORMAT, self._buf, 0, block * self.block_size,
- count * self.block_size, _FIEMAP_FLAG_SYNC, 0,
- self._fiemap_extent_cnt, 0)
-
- try:
- fcntl.ioctl(self._f_image, _FIEMAP_IOCTL, self._buf, 1)
- except IOError as err:
- # Note, the FIEMAP ioctl is supported by the Linux kernel starting
- # from version 2.6.28 (year 2008).
- if err.errno == errno.EOPNOTSUPP:
- errstr = "FilemapFiemap: the FIEMAP ioctl is not supported " \
- "by the file-system"
- self._log.debug(errstr)
- raise ErrorNotSupp(errstr)
- if err.errno == errno.ENOTTY:
- errstr = "FilemapFiemap: the FIEMAP ioctl is not supported " \
- "by the kernel"
- self._log.debug(errstr)
- raise ErrorNotSupp(errstr)
- raise Error("the FIEMAP ioctl failed for '%s': %s"
- % (self._image_path, err))
-
- return struct.unpack(_FIEMAP_FORMAT, self._buf[:_FIEMAP_SIZE])
-
- def block_is_mapped(self, block):
- """Refer the '_FilemapBase' class for the documentation."""
- struct_fiemap = self._invoke_fiemap(block, 1)
-
- # The 3rd element of 'struct_fiemap' is the 'fm_mapped_extents' field.
- # If it contains zero, the block is not mapped, otherwise it is
- # mapped.
- result = bool(struct_fiemap[3])
- self._log.debug("FilemapFiemap: block_is_mapped(%d) returns %s"
- % (block, result))
- return result
-
- def _unpack_fiemap_extent(self, index):
- """
- Unpack a 'struct fiemap_extent' structure object number 'index' from
- the internal 'self._buf' buffer.
- """
-
- offset = _FIEMAP_SIZE + _FIEMAP_EXTENT_SIZE * index
- return struct.unpack(_FIEMAP_EXTENT_FORMAT,
- self._buf[offset : offset + _FIEMAP_EXTENT_SIZE])
-
- def _do_get_mapped_ranges(self, start, count):
- """
- Implements most the functionality for the 'get_mapped_ranges()'
- generator: invokes the FIEMAP ioctl, walks through the mapped extents
- and yields mapped block ranges. However, the ranges may be consecutive
- (e.g., (1, 100), (100, 200)) and 'get_mapped_ranges()' simply merges
- them.
- """
-
- block = start
- while block < start + count:
- struct_fiemap = self._invoke_fiemap(block, count)
-
- mapped_extents = struct_fiemap[3]
- if mapped_extents == 0:
- # No more mapped blocks
- return
-
- extent = 0
- while extent < mapped_extents:
- fiemap_extent = self._unpack_fiemap_extent(extent)
-
- # Start of the extent
- extent_start = fiemap_extent[0]
- # Starting block number of the extent
- extent_block = extent_start // self.block_size
- # Length of the extent
- extent_len = fiemap_extent[2]
- # Count of blocks in the extent
- extent_count = extent_len // self.block_size
-
- # Extent length and offset have to be block-aligned
- assert extent_start % self.block_size == 0
- assert extent_len % self.block_size == 0
-
- if extent_block > start + count - 1:
- return
-
- first = max(extent_block, block)
- last = min(extent_block + extent_count, start + count) - 1
- yield (first, last)
-
- extent += 1
-
- block = extent_block + extent_count
-
- def get_mapped_ranges(self, start, count):
- """Refer the '_FilemapBase' class for the documentation."""
- self._log.debug("FilemapFiemap: get_mapped_ranges(%d, %d(%d))"
- % (start, count, start + count - 1))
- iterator = self._do_get_mapped_ranges(start, count)
- first_prev, last_prev = next(iterator)
-
- for first, last in iterator:
- if last_prev == first - 1:
- last_prev = last
- else:
- self._log.debug("FilemapFiemap: yielding range (%d, %d)"
- % (first_prev, last_prev))
- yield (first_prev, last_prev)
- first_prev, last_prev = first, last
-
- self._log.debug("FilemapFiemap: yielding range (%d, %d)"
- % (first_prev, last_prev))
- yield (first_prev, last_prev)
-
-class FilemapNobmap(_FilemapBase):
- """
- This class is used when both the 'SEEK_DATA/HOLE' and FIEMAP are not
- supported by the filesystem or kernel.
- """
-
- def __init__(self, image, log=None):
- """Refer the '_FilemapBase' class for the documentation."""
-
- # Call the base class constructor first
- _FilemapBase.__init__(self, image, log)
- self._log.debug("FilemapNobmap: initializing")
-
- def block_is_mapped(self, block):
- """Refer the '_FilemapBase' class for the documentation."""
- return True
-
- def get_mapped_ranges(self, start, count):
- """Refer the '_FilemapBase' class for the documentation."""
- self._log.debug("FilemapNobmap: get_mapped_ranges(%d, %d(%d))"
- % (start, count, start + count - 1))
- yield (start, start + count -1)
-
-def filemap(image, log=None):
- """
- Create and return an instance of a Filemap class - 'FilemapFiemap' or
- 'FilemapSeek', depending on what the system we run on supports. If the
- FIEMAP ioctl is supported, an instance of the 'FilemapFiemap' class is
- returned. Otherwise, if 'SEEK_HOLE' is supported an instance of the
- 'FilemapSeek' class is returned. If none of these are supported, the
- function generates an 'Error' type exception.
- """
-
- try:
- return FilemapFiemap(image, log)
- except ErrorNotSupp:
- try:
- return FilemapSeek(image, log)
- except ErrorNotSupp:
- return FilemapNobmap(image, log)
-
-def sparse_copy(src_fname, dst_fname, skip=0, seek=0,
- length=0, api=None):
- """
- Efficiently copy sparse file to or into another file.
-
- src_fname: path to source file
- dst_fname: path to destination file
- skip: skip N bytes at thestart of src
- seek: seek N bytes from the start of dst
- length: read N bytes from src and write them to dst
- api: FilemapFiemap or FilemapSeek object
- """
- if not api:
- api = filemap
- fmap = api(src_fname)
- try:
- dst_file = open(dst_fname, 'r+b')
- except IOError:
- dst_file = open(dst_fname, 'wb')
- if length:
- dst_size = length + seek
- else:
- dst_size = os.path.getsize(src_fname) + seek - skip
- dst_file.truncate(dst_size)
-
- written = 0
- for first, last in fmap.get_mapped_ranges(0, fmap.blocks_cnt):
- start = first * fmap.block_size
- end = (last + 1) * fmap.block_size
-
- if skip >= end:
- continue
-
- if start < skip < end:
- start = skip
-
- fmap._f_image.seek(start, os.SEEK_SET)
-
- written += start - skip - written
- if length and written >= length:
- dst_file.seek(seek + length, os.SEEK_SET)
- dst_file.close()
- return
-
- dst_file.seek(seek + start - skip, os.SEEK_SET)
-
- chunk_size = 1024 * 1024
- to_read = end - start
- read = 0
-
- while read < to_read:
- if read + chunk_size > to_read:
- chunk_size = to_read - read
- size = chunk_size
- if length and written + size > length:
- size = length - written
- chunk = fmap._f_image.read(size)
- dst_file.write(chunk)
- read += size
- written += size
- if written == length:
- dst_file.close()
- return
- dst_file.close()
deleted file mode 100644
@@ -1,1188 +0,0 @@
-# Copyright (c) 2013, Intel Corporation.
-#
-# SPDX-License-Identifier: GPL-2.0-only
-#
-# DESCRIPTION
-# This module implements some basic help invocation functions along
-# with the bulk of the help topic text for the OE Core Image Tools.
-#
-# AUTHORS
-# Tom Zanussi <tom.zanussi (at] linux.intel.com>
-#
-
-import subprocess
-import logging
-
-from wic.pluginbase import PluginMgr, PLUGIN_TYPES
-
-logger = logging.getLogger('wic')
-
-def subcommand_error(args):
- logger.info("invalid subcommand %s", args[0])
-
-
-def display_help(subcommand, subcommands):
- """
- Display help for subcommand.
- """
- if subcommand not in subcommands:
- return False
-
- hlp = subcommands.get(subcommand, subcommand_error)[2]
- if callable(hlp):
- hlp = hlp()
- pager = subprocess.Popen('less', stdin=subprocess.PIPE)
- pager.communicate(hlp.encode('utf-8'))
-
- return True
-
-
-def wic_help(args, usage_str, subcommands):
- """
- Subcommand help dispatcher.
- """
- if args.help_topic == None or not display_help(args.help_topic, subcommands):
- print(usage_str)
-
-
-def get_wic_plugins_help():
- """
- Combine wic_plugins_help with the help for every known
- source plugin.
- """
- result = wic_plugins_help
- for plugin_type in PLUGIN_TYPES:
- result += '\n\n%s PLUGINS\n\n' % plugin_type.upper()
- for name, plugin in PluginMgr.get_plugins(plugin_type).items():
- result += "\n %s plugin:\n" % name
- if plugin.__doc__:
- result += plugin.__doc__
- else:
- result += "\n %s is missing docstring\n" % plugin
- return result
-
-
-def invoke_subcommand(args, parser, main_command_usage, subcommands):
- """
- Dispatch to subcommand handler borrowed from combo-layer.
- Should use argparse, but has to work in 2.6.
- """
- if not args.command:
- logger.error("No subcommand specified, exiting")
- parser.print_help()
- return 1
- elif args.command == "help":
- wic_help(args, main_command_usage, subcommands)
- elif args.command not in subcommands:
- logger.error("Unsupported subcommand %s, exiting\n", args.command)
- parser.print_help()
- return 1
- else:
- subcmd = subcommands.get(args.command, subcommand_error)
- usage = subcmd[1]
- subcmd[0](args, usage)
-
-
-##
-# wic help and usage strings
-##
-
-wic_usage = """
-
- Create a customized OpenEmbedded image
-
- usage: wic [--version] | [--help] | [COMMAND [ARGS]]
-
- Current 'wic' commands are:
- help Show help for command or one of the topics (see below)
- create Create a new OpenEmbedded image
- list List available canned images and source plugins
-
- Help topics:
- overview wic overview - General overview of wic
- plugins wic plugins - Overview and API
- kickstart wic kickstart - wic kickstart reference
-"""
-
-wic_help_usage = """
-
- usage: wic help <subcommand>
-
- This command displays detailed help for the specified subcommand.
-"""
-
-wic_create_usage = """
-
- Create a new OpenEmbedded image
-
- usage: wic create <wks file or image name> [-o <DIRNAME> | --outdir <DIRNAME>]
- [-e | --image-name] [-s, --skip-build-check] [-D, --debug]
- [-r, --rootfs-dir] [-b, --bootimg-dir]
- [-k, --kernel-dir] [-n, --native-sysroot] [-f, --build-rootfs]
- [-c, --compress-with] [-m, --bmap]
-
- This command creates an OpenEmbedded image based on the 'OE kickstart
- commands' found in the <wks file>.
-
- The -o option can be used to place the image in a directory with a
- different name and location.
-
- See 'wic help create' for more detailed instructions.
-"""
-
-wic_create_help = """
-
-NAME
- wic create - Create a new OpenEmbedded image
-
-SYNOPSIS
- wic create <wks file or image name> [-o <DIRNAME> | --outdir <DIRNAME>]
- [-e | --image-name] [-s, --skip-build-check] [-D, --debug]
- [-r, --rootfs-dir] [-b, --bootimg-dir]
- [-k, --kernel-dir] [-n, --native-sysroot] [-f, --build-rootfs]
- [-c, --compress-with] [-m, --bmap] [--no-fstab-update]
-
-DESCRIPTION
- This command creates an OpenEmbedded image based on the 'OE
- kickstart commands' found in the <wks file>.
-
- In order to do this, wic needs to know the locations of the
- various build artifacts required to build the image.
-
- Users can explicitly specify the build artifact locations using
- the -r, -b, -k, and -n options. See below for details on where
- the corresponding artifacts are typically found in a normal
- OpenEmbedded build.
-
- Alternatively, users can use the -e option to have 'wic' determine
- those locations for a given image. If the -e option is used, the
- user needs to have set the appropriate MACHINE variable in
- local.conf, and have sourced the build environment.
-
- The -e option is used to specify the name of the image to use the
- artifacts from e.g. core-image-sato.
-
- The -r option is used to specify the path to the /rootfs dir to
- use as the .wks rootfs source.
-
- The -b option is used to specify the path to the dir containing
- the boot artifacts (e.g. /EFI or /syslinux dirs) to use as the
- .wks bootimg source.
-
- The -k option is used to specify the path to the dir containing
- the kernel to use in the .wks bootimg.
-
- The -n option is used to specify the path to the native sysroot
- containing the tools to use to build the image.
-
- The -f option is used to build rootfs by running "bitbake <image>"
-
- The -s option is used to skip the build check. The build check is
- a simple sanity check used to determine whether the user has
- sourced the build environment so that the -e option can operate
- correctly. If the user has specified the build artifact locations
- explicitly, 'wic' assumes the user knows what he or she is doing
- and skips the build check.
-
- The -D option is used to display debug information detailing
- exactly what happens behind the scenes when a create request is
- fulfilled (or not, as the case may be). It enumerates and
- displays the command sequence used, and should be included in any
- bug report describing unexpected results.
-
- When 'wic -e' is used, the locations for the build artifacts
- values are determined by 'wic -e' from the output of the 'bitbake
- -e' command given an image name e.g. 'core-image-minimal' and a
- given machine set in local.conf. In that case, the image is
- created as if the following 'bitbake -e' variables were used:
-
- -r: IMAGE_ROOTFS
- -k: STAGING_KERNEL_DIR
- -n: STAGING_DIR_NATIVE
- -b: empty (plugin-specific handlers must determine this)
-
- If 'wic -e' is not used, the user needs to select the appropriate
- value for -b (as well as -r, -k, and -n).
-
- The -o option can be used to place the image in a directory with a
- different name and location.
-
- The -c option is used to specify compressor utility to compress
- an image. gzip, bzip2 and xz compressors are supported.
-
- The -m option is used to produce .bmap file for the image. This file
- can be used to flash image using bmaptool utility.
-
- The --no-fstab-update option is used to doesn't change fstab file. When
- using this option the final fstab file will be same that in rootfs and
- wic doesn't update file, e.g adding a new mount point. User can control
- the fstab file content in base-files recipe.
-"""
-
-wic_list_usage = """
-
- List available OpenEmbedded images and source plugins
-
- usage: wic list images
- wic list <image> help
- wic list source-plugins
-
- This command enumerates the set of available canned images as well as
- help for those images. It also can be used to list of available source
- plugins.
-
- The first form enumerates all the available 'canned' images.
-
- The second form lists the detailed help information for a specific
- 'canned' image.
-
- The third form enumerates all the available --sources (source
- plugins).
-
- See 'wic help list' for more details.
-"""
-
-wic_list_help = """
-
-NAME
- wic list - List available OpenEmbedded images and source plugins
-
-SYNOPSIS
- wic list images
- wic list <image> help
- wic list source-plugins
-
-DESCRIPTION
- This command enumerates the set of available canned images as well
- as help for those images. It also can be used to list available
- source plugins.
-
- The first form enumerates all the available 'canned' images.
- These are actually just the set of .wks files that have been moved
- into the /scripts/lib/wic/canned-wks directory).
-
- The second form lists the detailed help information for a specific
- 'canned' image.
-
- The third form enumerates all the available --sources (source
- plugins). The contents of a given partition are driven by code
- defined in 'source plugins'. Users specify a specific plugin via
- the --source parameter of the partition .wks command. Normally
- this is the 'rootfs' plugin but can be any of the more specialized
- sources listed by the 'list source-plugins' command. Users can
- also add their own source plugins - see 'wic help plugins' for
- details.
-"""
-
-wic_ls_usage = """
-
- List content of a partitioned image
-
- usage: wic ls <image>[:<partition>[<path>]] [--native-sysroot <path>]
-
- This command outputs either list of image partitions or directory contents
- of vfat and ext* partitions.
-
- See 'wic help ls' for more detailed instructions.
-
-"""
-
-wic_ls_help = """
-
-NAME
- wic ls - List contents of partitioned image or partition
-
-SYNOPSIS
- wic ls <image>
- wic ls <image>:<vfat or ext* partition>
- wic ls <image>:<vfat or ext* partition><path>
- wic ls <image>:<vfat or ext* partition><path> --native-sysroot <path>
-
-DESCRIPTION
- This command lists either partitions of the image or directory contents
- of vfat or ext* partitions.
-
- The first form it lists partitions of the image.
- For example:
- $ wic ls tmp/deploy/images/qemux86-64/core-image-minimal-qemux86-64.wic
- Num Start End Size Fstype
- 1 1048576 24438783 23390208 fat16
- 2 25165824 50315263 25149440 ext4
-
- Second and third form list directory content of the partition:
- $ wic ls tmp/deploy/images/qemux86-64/core-image-minimal-qemux86-64.wic:1
- Volume in drive : is boot
- Volume Serial Number is 2DF2-5F02
- Directory for ::/
-
- efi <DIR> 2017-05-11 10:54
- startup nsh 26 2017-05-11 10:54
- vmlinuz 6922288 2017-05-11 10:54
- 3 files 6 922 314 bytes
- 15 818 752 bytes free
-
-
- $ wic ls tmp/deploy/images/qemux86-64/core-image-minimal-qemux86-64.wic:1/EFI/boot/
- Volume in drive : is boot
- Volume Serial Number is 2DF2-5F02
- Directory for ::/EFI/boot
-
- . <DIR> 2017-05-11 10:54
- .. <DIR> 2017-05-11 10:54
- grub cfg 679 2017-05-11 10:54
- bootx64 efi 571392 2017-05-11 10:54
- 4 files 572 071 bytes
- 15 818 752 bytes free
-
- The -n option is used to specify the path to the native sysroot
- containing the tools(parted and mtools) to use.
-
-"""
-
-wic_cp_usage = """
-
- Copy files and directories to/from the vfat or ext* partition
-
- usage: wic cp <src> <dest> [--native-sysroot <path>]
-
- source/destination image in format <image>:<partition>[<path>]
-
- This command copies files or directories either
- - from local to vfat or ext* partitions of partitioned image
- - from vfat or ext* partitions of partitioned image to local
-
- See 'wic help cp' for more detailed instructions.
-
-"""
-
-wic_cp_help = """
-
-NAME
- wic cp - copy files and directories to/from the vfat or ext* partitions
-
-SYNOPSIS
- wic cp <src> <dest>:<partition>
- wic cp <src>:<partition> <dest>
- wic cp <src> <dest-image>:<partition><path>
- wic cp <src> <dest-image>:<partition><path> --native-sysroot <path>
-
-DESCRIPTION
- This command copies files or directories either
- - from local to vfat or ext* partitions of partitioned image
- - from vfat or ext* partitions of partitioned image to local
-
- The first form of it copies file or directory to the root directory of
- the partition:
- $ wic cp test.wks tmp/deploy/images/qemux86-64/core-image-minimal-qemux86-64.wic:1
- $ wic ls tmp/deploy/images/qemux86-64/core-image-minimal-qemux86-64.wic:1
- Volume in drive : is boot
- Volume Serial Number is DB4C-FD4C
- Directory for ::/
-
- efi <DIR> 2017-05-24 18:15
- loader <DIR> 2017-05-24 18:15
- startup nsh 26 2017-05-24 18:15
- vmlinuz 6926384 2017-05-24 18:15
- test wks 628 2017-05-24 21:22
- 5 files 6 927 038 bytes
- 15 677 440 bytes free
-
- The second form of the command copies file or directory to the specified directory
- on the partition:
- $ wic cp test tmp/deploy/images/qemux86-64/core-image-minimal-qemux86-64.wic:1/efi/
- $ wic ls tmp/deploy/images/qemux86-64/core-image-minimal-qemux86-64.wic:1/efi/
- Volume in drive : is boot
- Volume Serial Number is DB4C-FD4C
- Directory for ::/efi
-
- . <DIR> 2017-05-24 18:15
- .. <DIR> 2017-05-24 18:15
- boot <DIR> 2017-05-24 18:15
- test <DIR> 2017-05-24 21:27
- 4 files 0 bytes
- 15 675 392 bytes free
-
- The third form of the command copies file or directory from the specified directory
- on the partition to local:
- $ wic cp tmp/deploy/images/qemux86-64/core-image-minimal-qemux86-64.wic:1/vmlinuz test
-
- The -n option is used to specify the path to the native sysroot
- containing the tools(parted and mtools) to use.
-"""
-
-wic_rm_usage = """
-
- Remove files or directories from the vfat or ext* partitions
-
- usage: wic rm <image>:<partition><path> [--native-sysroot <path>]
-
- This command removes files or directories from the vfat or ext* partitions of
- the partitioned image.
-
- See 'wic help rm' for more detailed instructions.
-
-"""
-
-wic_rm_help = """
-
-NAME
- wic rm - remove files or directories from the vfat or ext* partitions
-
-SYNOPSIS
- wic rm <src> <image>:<partition><path>
- wic rm <src> <image>:<partition><path> --native-sysroot <path>
- wic rm -r <image>:<partition><path>
-
-DESCRIPTION
- This command removes files or directories from the vfat or ext* partition of the
- partitioned image:
-
- $ wic ls ./tmp/deploy/images/qemux86-64/core-image-minimal-qemux86-64.wic:1
- Volume in drive : is boot
- Volume Serial Number is 11D0-DE21
- Directory for ::/
-
- libcom32 c32 186500 2017-06-02 15:15
- libutil c32 24148 2017-06-02 15:15
- syslinux cfg 209 2017-06-02 15:15
- vesamenu c32 27104 2017-06-02 15:15
- vmlinuz 6926384 2017-06-02 15:15
- 5 files 7 164 345 bytes
- 16 582 656 bytes free
-
- $ wic rm ./tmp/deploy/images/qemux86-64/core-image-minimal-qemux86-64.wic:1/libutil.c32
-
- $ wic ls ./tmp/deploy/images/qemux86-64/core-image-minimal-qemux86-64.wic:1
- Volume in drive : is boot
- Volume Serial Number is 11D0-DE21
- Directory for ::/
-
- libcom32 c32 186500 2017-06-02 15:15
- syslinux cfg 209 2017-06-02 15:15
- vesamenu c32 27104 2017-06-02 15:15
- vmlinuz 6926384 2017-06-02 15:15
- 4 files 7 140 197 bytes
- 16 607 232 bytes free
-
- The -n option is used to specify the path to the native sysroot
- containing the tools(parted and mtools) to use.
-
- The -r option is used to remove directories and their contents
- recursively,this only applies to ext* partition.
-"""
-
-wic_write_usage = """
-
- Write image to a device
-
- usage: wic write <image> <target device> [--expand [rules]] [--native-sysroot <path>]
-
- This command writes partitioned image to a target device (USB stick, SD card etc).
-
- See 'wic help write' for more detailed instructions.
-
-"""
-
-wic_write_help = """
-
-NAME
- wic write - write an image to a device
-
-SYNOPSIS
- wic write <image> <target>
- wic write <image> <target> --expand auto
- wic write <image> <target> --expand 1:100M,2:300M
- wic write <image> <target> --native-sysroot <path>
-
-DESCRIPTION
- This command writes an image to a target device (USB stick, SD card etc)
-
- $ wic write ./tmp/deploy/images/qemux86-64/core-image-minimal-qemux86-64.wic /dev/sdb
-
- The --expand option is used to resize image partitions.
- --expand auto expands partitions to occupy all free space available on the target device.
- It's also possible to specify expansion rules in a format
- <partition>:<size>[,<partition>:<size>...] for one or more partitions.
- Specifying size 0 will keep partition unmodified.
- Note: Resizing boot partition can result in non-bootable image for non-EFI images. It is
- recommended to use size 0 for boot partition to keep image bootable.
-
- The --native-sysroot option is used to specify the path to the native sysroot
- containing the tools(parted, resize2fs) to use.
-"""
-
-wic_plugins_help = """
-
-NAME
- wic plugins - Overview and API
-
-DESCRIPTION
- plugins allow wic functionality to be extended and specialized by
- users. This section documents the plugin interface, which is
- currently restricted to 'source' plugins.
-
- 'Source' plugins provide a mechanism to customize various aspects
- of the image generation process in wic, mainly the contents of
- partitions.
-
- Source plugins provide a mechanism for mapping values specified in
- .wks files using the --source keyword to a particular plugin
- implementation that populates a corresponding partition.
-
- A source plugin is created as a subclass of SourcePlugin (see
- scripts/lib/wic/pluginbase.py) and the plugin file containing it
- is added to scripts/lib/wic/plugins/source/ to make the plugin
- implementation available to the wic implementation.
-
- Source plugins can also be implemented and added by external
- layers - any plugins found in a scripts/lib/wic/plugins/source/
- or lib/wic/plugins/source/ directory in an external layer will
- also be made available.
-
- When the wic implementation needs to invoke a partition-specific
- implementation, it looks for the plugin that has the same name as
- the --source param given to that partition. For example, if the
- partition is set up like this:
-
- part /boot --source bootimg_pcbios ...
-
- then the methods defined as class members of the plugin having the
- matching bootimg_pcbios .name class member would be used.
-
- To be more concrete, here's the plugin definition that would match
- a '--source bootimg_pcbios' usage, along with an example method
- that would be called by the wic implementation when it needed to
- invoke an implementation-specific partition-preparation function:
-
- class BootimgPcbiosPlugin(SourcePlugin):
- name = 'bootimg_pcbios'
-
- @classmethod
- def do_prepare_partition(self, part, ...)
-
- If the subclass itself doesn't implement a function, a 'default'
- version in a superclass will be located and used, which is why all
- plugins must be derived from SourcePlugin.
-
- The SourcePlugin class defines the following methods, which is the
- current set of methods that can be implemented/overridden by
- --source plugins. Any methods not implemented by a SourcePlugin
- subclass inherit the implementations present in the SourcePlugin
- class (see the SourcePlugin source for details):
-
- do_prepare_partition()
- Called to do the actual content population for a
- partition. In other words, it 'prepares' the final partition
- image which will be incorporated into the disk image.
-
- do_post_partition()
- Called after the partition is created. It is useful to add post
- operations e.g. signing the partition.
-
- do_configure_partition()
- Called before do_prepare_partition(), typically used to
- create custom configuration files for a partition, for
- example syslinux or grub config files.
-
- do_install_disk()
- Called after all partitions have been prepared and assembled
- into a disk image. This provides a hook to allow
- finalization of a disk image, for example to write an MBR to
- it.
-
- do_stage_partition()
- Special content-staging hook called before
- do_prepare_partition(), normally empty.
-
- Typically, a partition will just use the passed-in
- parameters, for example the unmodified value of bootimg_dir.
- In some cases however, things may need to be more tailored.
- As an example, certain files may additionally need to be
- take from bootimg_dir + /boot. This hook allows those files
- to be staged in a customized fashion. Note that
- get_bitbake_var() allows you to access non-standard
- variables that you might want to use for these types of
- situations.
-
- This scheme is extensible - adding more hooks is a simple matter
- of adding more plugin methods to SourcePlugin and derived classes.
- Please see the implementation for details.
-"""
-
-wic_overview_help = """
-
-NAME
- wic overview - General overview of wic
-
-DESCRIPTION
- The 'wic' command generates partitioned images from existing
- OpenEmbedded build artifacts. Image generation is driven by
- partitioning commands contained in an 'Openembedded kickstart'
- (.wks) file (see 'wic help kickstart') specified either directly
- on the command-line or as one of a selection of canned .wks files
- (see 'wic list images'). When applied to a given set of build
- artifacts, the result is an image or set of images that can be
- directly written onto media and used on a particular system.
-
- The 'wic' command and the infrastructure it's based on is by
- definition incomplete - its purpose is to allow the generation of
- customized images, and as such was designed to be completely
- extensible via a plugin interface (see 'wic help plugins').
-
- Background and Motivation
-
- wic is meant to be a completely independent standalone utility
- that initially provides easier-to-use and more flexible
- replacements for a couple bits of existing functionality in
- oe-core: directdisk.bbclass and mkefidisk.sh. The difference
- between wic and those examples is that with wic the functionality
- of those scripts is implemented by a general-purpose partitioning
- 'language' based on Red Hat kickstart syntax).
-
- The initial motivation and design considerations that lead to the
- current tool are described exhaustively in Yocto Bug #3847
- (https://bugzilla.yoctoproject.org/show_bug.cgi?id=3847).
-
- Implementation and Examples
-
- wic can be used in two different modes, depending on how much
- control the user needs in specifying the Openembedded build
- artifacts that will be used in creating the image: 'raw' and
- 'cooked'.
-
- If used in 'raw' mode, artifacts are explicitly specified via
- command-line arguments (see example below).
-
- The more easily usable 'cooked' mode uses the current MACHINE
- setting and a specified image name to automatically locate the
- artifacts used to create the image.
-
- OE kickstart files (.wks) can of course be specified directly on
- the command-line, but the user can also choose from a set of
- 'canned' .wks files available via the 'wic list images' command
- (example below).
-
- In any case, the prerequisite for generating any image is to have
- the build artifacts already available. The below examples assume
- the user has already build a 'core-image-minimal' for a specific
- machine (future versions won't require this redundant step, but
- for now that's typically how build artifacts get generated).
-
- The other prerequisite is to source the build environment:
-
- $ source oe-init-build-env
-
- To start out with, we'll generate an image from one of the canned
- .wks files. The following generates a list of availailable
- images:
-
- $ wic list images
- mkefidisk Create an EFI disk image
- directdisk Create a 'pcbios' direct disk image
-
- You can get more information about any of the available images by
- typing 'wic list xxx help', where 'xxx' is one of the image names:
-
- $ wic list mkefidisk help
-
- Creates a partitioned EFI disk image that the user can directly dd
- to boot media.
-
- At any time, you can get help on the 'wic' command or any
- subcommand (currently 'list' and 'create'). For instance, to get
- the description of 'wic create' command and its parameters:
-
- $ wic create
-
- Usage:
-
- Create a new OpenEmbedded image
-
- usage: wic create <wks file or image name> [-o <DIRNAME> | ...]
- [-i <JSON PROPERTY FILE> | --infile <JSON PROPERTY_FILE>]
- [-e | --image-name] [-s, --skip-build-check] [-D, --debug]
- [-r, --rootfs-dir] [-b, --bootimg-dir] [-k, --kernel-dir]
- [-n, --native-sysroot] [-f, --build-rootfs]
-
- This command creates an OpenEmbedded image based on the 'OE
- kickstart commands' found in the <wks file>.
-
- The -o option can be used to place the image in a directory
- with a different name and location.
-
- See 'wic help create' for more detailed instructions.
- ...
-
- As mentioned in the command, you can get even more detailed
- information by adding 'help' to the above:
-
- $ wic help create
-
- So, the easiest way to create an image is to use the -e option
- with a canned .wks file. To use the -e option, you need to
- specify the image used to generate the artifacts and you actually
- need to have the MACHINE used to build them specified in your
- local.conf (these requirements aren't necessary if you aren't
- using the -e options.) Below, we generate a directdisk image,
- pointing the process at the core-image-minimal artifacts for the
- current MACHINE:
-
- $ wic create directdisk -e core-image-minimal
-
- Checking basic build environment...
- Done.
-
- Creating image(s)...
-
- Info: The new image(s) can be found here:
- /var/tmp/wic/build/directdisk-201309252350-sda.direct
-
- The following build artifacts were used to create the image(s):
-
- ROOTFS_DIR: ...
- BOOTIMG_DIR: ...
- KERNEL_DIR: ...
- NATIVE_SYSROOT: ...
-
- The image(s) were created using OE kickstart file:
- .../scripts/lib/wic/canned-wks/directdisk.wks
-
- The output shows the name and location of the image created, and
- so that you know exactly what was used to generate the image, each
- of the artifacts and the kickstart file used.
-
- Similarly, you can create a 'mkefidisk' image in the same way
- (notice that this example uses a different machine - because it's
- using the -e option, you need to change the MACHINE in your
- local.conf):
-
- $ wic create mkefidisk -e core-image-minimal
- Checking basic build environment...
- Done.
-
- Creating image(s)...
-
- Info: The new image(s) can be found here:
- /var/tmp/wic/build/mkefidisk-201309260027-sda.direct
-
- ...
-
- Here's an example that doesn't take the easy way out and manually
- specifies each build artifact, along with a non-canned .wks file,
- and also uses the -o option to have wic create the output
- somewhere other than the default /var/tmp/wic:
-
- $ wic create ./test.wks -o ./out --rootfs-dir
- tmp/work/qemux86_64-poky-linux/core-image-minimal/1.0-r0/rootfs
- --bootimg-dir tmp/sysroots/qemux86-64/usr/share
- --kernel-dir tmp/deploy/images/qemux86-64
- --native-sysroot tmp/sysroots/x86_64-linux
-
- Creating image(s)...
-
- Info: The new image(s) can be found here:
- out/build/test-201507211313-sda.direct
-
- The following build artifacts were used to create the image(s):
- ROOTFS_DIR: tmp/work/qemux86_64-poky-linux/core-image-minimal/1.0-r0/rootfs
- BOOTIMG_DIR: tmp/sysroots/qemux86-64/usr/share
- KERNEL_DIR: tmp/deploy/images/qemux86-64
- NATIVE_SYSROOT: tmp/sysroots/x86_64-linux
-
- The image(s) were created using OE kickstart file:
- ./test.wks
-
- Here is a content of test.wks:
-
- part /boot --source bootimg_pcbios --ondisk sda --label boot --active --align 1024
- part / --source rootfs --ondisk sda --fstype=ext3 --label platform --align 1024
-
- bootloader --timeout=0 --append="rootwait rootfstype=ext3 video=vesafb vga=0x318 console=tty0"
-
-
- Finally, here's an example of the actual partition language
- commands used to generate the mkefidisk image i.e. these are the
- contents of the mkefidisk.wks OE kickstart file:
-
- # short-description: Create an EFI disk image
- # long-description: Creates a partitioned EFI disk image that the user
- # can directly dd to boot media.
-
- part /boot --source bootimg-efi --ondisk sda --fstype=efi --active
-
- part / --source rootfs --ondisk sda --fstype=ext3 --label platform
-
- part swap --ondisk sda --size 44 --label swap1 --fstype=swap
-
- bootloader --timeout=10 --append="rootwait console=ttyPCH0,115200"
-
- You can get a complete listing and description of all the
- kickstart commands available for use in .wks files from 'wic help
- kickstart'.
-"""
-
-wic_kickstart_help = """
-
-NAME
- wic kickstart - wic kickstart reference
-
-DESCRIPTION
- This section provides the definitive reference to the wic
- kickstart language. It also provides documentation on the list of
- --source plugins available for use from the 'part' command (see
- the 'Platform-specific Plugins' section below).
-
- The current wic implementation supports only the basic kickstart
- partitioning commands: partition (or part for short) and
- bootloader.
-
- The following is a listing of the commands, their syntax, and
- meanings. The commands are based on the Fedora kickstart
- documentation but with modifications to reflect wic capabilities.
-
- https://pykickstart.readthedocs.io/en/latest/kickstart-docs.html#part-or-partition
- https://pykickstart.readthedocs.io/en/latest/kickstart-docs.html#bootloader
-
- Commands
-
- * 'part' or 'partition'
-
- This command creates a partition on the system and uses the
- following syntax:
-
- part [<mountpoint>]
-
- The <mountpoint> is where the partition will be mounted and
- must take of one of the following forms:
-
- /<path>: For example: /, /usr, or /home
-
- swap: The partition will be used as swap space.
-
- If a <mountpoint> is not specified the partition will be created
- but will not be mounted.
-
- Partitions with a <mountpoint> specified will be automatically mounted.
- This is achieved by wic adding entries to the fstab during image
- generation. In order for a valid fstab to be generated one of the
- --ondrive, --ondisk, --use-uuid or --use-label partition options must
- be used for each partition that specifies a mountpoint. Note that with
- --use-{uuid,label} and non-root <mountpoint>, including swap, the mount
- program must understand the PARTUUID or LABEL syntax. This currently
- excludes the busybox versions of these applications.
-
-
- The following are supported 'part' options:
-
- --size: The minimum partition size. Specify an integer value
- such as 500. Multipliers k, M ang G can be used. If
- not specified, the size is in MB.
- You do not need this option if you use --source.
-
- --fixed-size: Exact partition size. Value format is the same
- as for --size option. This option cannot be
- specified along with --size. If partition data
- is larger than --fixed-size and error will be
- raised when assembling disk image.
-
- --source: This option is a wic-specific option that names the
- source of the data that will populate the
- partition. The most common value for this option
- is 'rootfs', but can be any value which maps to a
- valid 'source plugin' (see 'wic help plugins').
-
- If '--source rootfs' is used, it tells the wic
- command to create a partition as large as needed
- and to fill it with the contents of the root
- filesystem pointed to by the '-r' wic command-line
- option (or the equivalent rootfs derived from the
- '-e' command-line option). The filesystem type
- that will be used to create the partition is driven
- by the value of the --fstype option specified for
- the partition (see --fstype below).
-
- If --source <plugin-name>' is used, it tells the
- wic command to create a partition as large as
- needed and to fill with the contents of the
- partition that will be generated by the specified
- plugin name using the data pointed to by the '-r'
- wic command-line option (or the equivalent rootfs
- derived from the '-e' command-line option).
- Exactly what those contents and filesystem type end
- up being are dependent on the given plugin
- implementation.
-
- If --source option is not used, the wic command
- will create empty partition. --size parameter has
- to be used to specify size of empty partition.
-
- --sourceparams: This option is specific to wic. Supply additional
- parameters to the source plugin in
- key1=value1,key2 format.
-
- --ondisk or --ondrive: Forces the partition to be created on
- a particular disk.
-
- --fstype: Sets the file system type for the partition. These
- apply to partitions created using '--source rootfs' (see
- --source above). Valid values are:
-
- vfat
- msdos
- ext2
- ext3
- ext4
- btrfs
- squashfs
- erofs
- swap
- none
-
- --fsoptions: Specifies a free-form string of options to be
- used when mounting the filesystem. This string
- will be copied into the /etc/fstab file of the
- installed system and should be enclosed in
- quotes. If not specified, the default string is
- "defaults".
-
- --fspassno: Specifies the order in which filesystem checks are done
- at boot time by fsck. See fs_passno parameter of
- fstab(5). This parameter will be copied into the
- /etc/fstab file of the installed system. If not
- specified the default value of "0" will be used.
-
- --label label: Specifies the label to give to the filesystem
- to be made on the partition. If the given
- label is already in use by another filesystem,
- a new label is created for the partition.
-
- --use-label: This option is specific to wic. It makes wic to use the
- label in /etc/fstab to specify a partition. If the
- --use-label and --use-uuid are used at the same time,
- we prefer the uuid because it is less likely to cause
- name confliction. We don't support using this parameter
- on the root partition since it requires an initramfs to
- parse this value and we do not currently support that.
-
- --active: Marks the partition as active.
-
- --align (in KBytes): This option is specific to wic and says
- to start a partition on an x KBytes
- boundary.
-
- --offset: This option is specific to wic that says to place a partition
- at exactly the specified offset. If the partition cannot be
- placed at the specified offset, the image build will fail.
- Specify as an integer value optionally followed by one of the
- units s/S for 512 byte sector, k/K for kibibyte, M for
- mebibyte and G for gibibyte. The default unit if none is
- given is k.
-
- --no-table: This option is specific to wic. Space will be
- reserved for the partition and it will be
- populated but it will not be added to the
- partition table. It may be useful for
- bootloaders.
-
- --exclude-path: This option is specific to wic. It excludes the given
- relative path from the resulting image. If the path
- ends with a slash, only the content of the directory
- is omitted, not the directory itself. This option only
- has an effect with the rootfs source plugin.
-
- --include-path: This option is specific to wic. It adds the contents
- of the given path or a rootfs to the resulting image.
- The option contains two fields, the origin and the
- destination. When the origin is a rootfs, it follows
- the same logic as the rootfs-dir argument and the
- permissions and owners are kept. When the origin is a
- path, it is relative to the directory in which wic is
- running not the rootfs itself so use of an absolute
- path is recommended, and the owner and group is set to
- root:root. If no destination is given it is
- automatically set to the root of the rootfs. This
- option only has an effect with the rootfs source
- plugin.
-
- --change-directory: This option is specific to wic. It changes to the
- given directory before copying the files. This
- option is useful when we want to split a rootfs in
- multiple partitions and we want to keep the right
- permissions and usernames in all the partitions.
-
- --no-fstab-update: This option is specific to wic. It does not update the
- '/etc/fstab' stock file for the given partition.
-
- --extra-filesystem-space: This option is specific to wic. It adds extra
- space after the space filled by the content
- of the partition. The final size can go
- beyond the size specified by --size.
- By default, 10MB. This option cannot be used
- with --fixed-size option.
-
- --extra-partition-space: This option is specific to wic. It adds extra
- empty space after the space filled by the
- filesystem. With --fixed-size, the extra
- partition space is removed from the filesystem
- size. Otherwise (with or without --size flag),
- the extra partition space is added to the final
- paritition size. The default value is 0MB.
-
- --overhead-factor: This option is specific to wic. The
- size of the partition is multiplied by
- this factor. It has to be greater than or
- equal to 1. The default value is 1.3.
- This option cannot be used with --fixed-size
- option.
-
- --part-name: This option is specific to wic. It specifies name for GPT partitions.
-
- --part-type: This option is specific to wic. It specifies partition
- type GUID for GPT partitions.
- List of partition type GUIDS can be found here:
- http://en.wikipedia.org/wiki/GUID_Partition_Table#Partition_type_GUIDs
-
- --use-uuid: This option is specific to wic. It makes wic to generate
- random globally unique identifier (GUID) for the partition
- and use it in bootloader configuration to specify root partition.
-
- --uuid: This option is specific to wic. It specifies partition UUID.
- It's useful if preconfigured partition UUID is added to kernel command line
- in bootloader configuration before running wic. In this case .wks file can
- be generated or modified to set preconfigured parition UUID using this option.
-
- --fsuuid: This option is specific to wic. It specifies filesystem UUID.
- It's useful if preconfigured filesystem UUID is added to kernel command line
- in bootloader configuration before running wic. In this case .wks file can
- be generated or modified to set preconfigured filesystem UUID using this option.
-
- --system-id: This option is specific to wic. It specifies partition system id. It's useful
- for the harware that requires non-default partition system ids. The parameter
- in one byte long hex number either with 0x prefix or without it.
-
- --mkfs-extraopts: This option specifies extra options to pass to mkfs utility.
- NOTE, that wic uses default options for some filesystems, for example
- '-S 512' for mkfs.fat or '-F -i 8192' for mkfs.ext. Those options will
- not take effect when --mkfs-extraopts is used. This should be taken into
- account when using --mkfs-extraopts.
-
- --type: This option is specific to wic. Valid values are 'primary',
- 'logical'. For msdos partition tables, this option specifies
- the partition type.
-
- --hidden: This option is specific to wic. This option sets the
- RequiredPartition bit (bit 0) on GPT partitions.
-
- --mbr: This option is specific to wic. This option is used with the
- gpt-hybrid partition type that uses both a GPT partition and
- an MBR header. Partitions with this flag will be included in
- this MBR header.
-
- * bootloader
-
- This command allows the user to specify various bootloader
- options. The following are supported 'bootloader' options:
-
- --timeout: Specifies the number of seconds before the
- bootloader times out and boots the default option.
-
- --append: Specifies kernel parameters. These will be added to
- bootloader command-line - for example, the syslinux
- APPEND or grub kernel command line.
-
- --configfile: Specifies a user defined configuration file for
- the bootloader. This file must be located in the
- canned-wks folder or could be the full path to the
- file. Using this option will override any other
- bootloader option.
-
- --ptable: Specifies the partition table format. Valid values are
- 'msdos', 'gpt', 'gpt-hybrid'.
-
- --source: Specifies the source plugin. If not specified, the
- --source value will be copied from the partition that has
- /boot as mountpoint.
-
- Note that bootloader functionality and boot partitions are
- implemented by the various --source plugins that implement
- bootloader functionality; the bootloader command essentially
- provides a means of modifying bootloader configuration.
-
- * include
-
- This command allows the user to include the content of .wks file
- into original .wks file.
-
- Command uses the following syntax:
-
- include <file>
-
- The <file> is either path to the file or its name. If name is
- specified wic will try to find file in the directories with canned
- .wks files.
-
-"""
-
-wic_help_help = """
-NAME
- wic help - display a help topic
-
-DESCRIPTION
- Specify a help topic to display it. Topics are shown above.
-"""
-
-
-wic_help = """
-Creates a customized OpenEmbedded image.
-
-Usage: wic [--version]
- wic help [COMMAND or TOPIC]
- wic COMMAND [ARGS]
-
- usage 1: Returns the current version of Wic
- usage 2: Returns detailed help for a COMMAND or TOPIC
- usage 3: Executes COMMAND
-
-
-COMMAND:
-
- list - List available canned images and source plugins
- ls - List contents of partitioned image or partition
- rm - Remove files or directories from the vfat or ext* partitions
- help - Show help for a wic COMMAND or TOPIC
- write - Write an image to a device
- cp - Copy files and directories to the vfat or ext* partitions
- create - Create a new OpenEmbedded image
-
-
-TOPIC:
- overview - Presents an overall overview of Wic
- plugins - Presents an overview and API for Wic plugins
- kickstart - Presents a Wic kickstart file reference
-
-
-Examples:
-
- $ wic --version
-
- Returns the current version of Wic
-
-
- $ wic help cp
-
- Returns the SYNOPSIS and DESCRIPTION for the Wic "cp" command.
-
-
- $ wic list images
-
- Returns the list of canned images (i.e. *.wks files located in
- the /scripts/lib/wic/canned-wks directory.
-
-
- $ wic create mkefidisk -e core-image-minimal
-
- Creates an EFI disk image from artifacts used in a previous
- core-image-minimal build in standard BitBake locations
- (e.g. Cooked Mode).
-
-"""
deleted file mode 100644
@@ -1,322 +0,0 @@
-#!/usr/bin/env python3
-#
-# Copyright (c) 2016 Intel, Inc.
-#
-# SPDX-License-Identifier: GPL-2.0-only
-#
-# DESCRIPTION
-# This module provides parser for kickstart format
-#
-# AUTHORS
-# Ed Bartosh <ed.bartosh> (at] linux.intel.com>
-
-"""Kickstart parser module."""
-
-import os
-import shlex
-import logging
-import re
-import uuid
-
-from argparse import ArgumentParser, ArgumentError, ArgumentTypeError
-
-from wic.engine import find_canned
-from wic.partition import Partition
-from wic.misc import get_bitbake_var
-
-logger = logging.getLogger('wic')
-
-__expand_var_regexp__ = re.compile(r"\${[^{}@\n\t :]+}")
-
-def expand_line(line):
- while True:
- m = __expand_var_regexp__.search(line)
- if not m:
- return line
- key = m.group()[2:-1]
- val = get_bitbake_var(key)
- if val is None:
- logger.warning("cannot expand variable %s" % key)
- return line
- line = line[:m.start()] + val + line[m.end():]
-
-class KickStartError(Exception):
- """Custom exception."""
- pass
-
-class KickStartParser(ArgumentParser):
- """
- This class overwrites error method to throw exception
- instead of producing usage message(default argparse behavior).
- """
- def error(self, message):
- raise ArgumentError(None, message)
-
-def sizetype(default, size_in_bytes=False):
- def f(arg):
- """
- Custom type for ArgumentParser
- Converts size string in <num>[S|s|K|k|M|G] format into the integer value
- """
- try:
- suffix = default
- size = int(arg)
- except ValueError:
- try:
- suffix = arg[-1:]
- size = int(arg[:-1])
- except ValueError:
- raise ArgumentTypeError("Invalid size: %r" % arg)
-
-
- if size_in_bytes:
- if suffix == 's' or suffix == 'S':
- return size * 512
- mult = 1024
- else:
- mult = 1
-
- if suffix == "k" or suffix == "K":
- return size * mult
- if suffix == "M":
- return size * mult * 1024
- if suffix == "G":
- return size * mult * 1024 * 1024
-
- raise ArgumentTypeError("Invalid size: %r" % arg)
- return f
-
-def overheadtype(arg):
- """
- Custom type for ArgumentParser
- Converts overhead string to float and checks if it's bigger than 1.0
- """
- try:
- result = float(arg)
- except ValueError:
- raise ArgumentTypeError("Invalid value: %r" % arg)
-
- if result < 1.0:
- raise ArgumentTypeError("Overhead factor should be > 1.0" % arg)
-
- return result
-
-def cannedpathtype(arg):
- """
- Custom type for ArgumentParser
- Tries to find file in the list of canned wks paths
- """
- scripts_path = os.path.abspath(os.path.dirname(__file__) + '../../..')
- result = find_canned(scripts_path, arg)
- if not result:
- raise ArgumentTypeError("file not found: %s" % arg)
- return result
-
-def systemidtype(arg):
- """
- Custom type for ArgumentParser
- Checks if the argument sutisfies system id requirements,
- i.e. if it's one byte long integer > 0
- """
- error = "Invalid system type: %s. must be hex "\
- "between 0x1 and 0xFF" % arg
- try:
- result = int(arg, 16)
- except ValueError:
- raise ArgumentTypeError(error)
-
- if result <= 0 or result > 0xff:
- raise ArgumentTypeError(error)
-
- return arg
-
-class KickStart():
- """Kickstart parser implementation."""
-
- DEFAULT_EXTRA_FILESYSTEM_SPACE = 10*1024
- DEFAULT_OVERHEAD_FACTOR = 1.3
-
- def __init__(self, confpath):
-
- self.partitions = []
- self.bootloader = None
- self.lineno = 0
- self.partnum = 0
-
- parser = KickStartParser()
- subparsers = parser.add_subparsers()
-
- part = subparsers.add_parser('part')
- part.add_argument('mountpoint', nargs='?')
- part.add_argument('--active', action='store_true')
- part.add_argument('--align', type=int)
- part.add_argument('--offset', type=sizetype("K", True))
- part.add_argument('--exclude-path', nargs='+')
- part.add_argument('--include-path', nargs='+', action='append')
- part.add_argument('--change-directory')
- part.add_argument('--extra-filesystem-space', '--extra-space', type=sizetype("M"))
- part.add_argument('--extra-partition-space', type=sizetype("M"))
- part.add_argument('--fsoptions', dest='fsopts')
- part.add_argument('--fspassno', dest='fspassno')
- part.add_argument('--fstype', default='vfat',
- choices=('ext2', 'ext3', 'ext4', 'btrfs',
- 'squashfs', 'vfat', 'msdos', 'erofs',
- 'swap', 'none'))
- part.add_argument('--mkfs-extraopts', default='')
- part.add_argument('--label')
- part.add_argument('--use-label', action='store_true')
- part.add_argument('--no-table', action='store_true')
- part.add_argument('--ondisk', '--ondrive', dest='disk', default='sda')
- part.add_argument("--overhead-factor", type=overheadtype)
- part.add_argument('--part-name')
- part.add_argument('--part-type')
- part.add_argument('--rootfs-dir')
- part.add_argument('--type', default='primary',
- choices = ('primary', 'logical'))
- part.add_argument('--hidden', action='store_true')
-
- # --size and --fixed-size cannot be specified together; options
- # ----extra-filesystem-space and --overhead-factor should also raise a
- # parser error, but since nesting mutually exclusive groups does not work,
- # ----extra-filesystem-space/--overhead-factor are handled later
- sizeexcl = part.add_mutually_exclusive_group()
- sizeexcl.add_argument('--size', type=sizetype("M"), default=0)
- sizeexcl.add_argument('--fixed-size', type=sizetype("M"), default=0)
-
- part.add_argument('--source')
- part.add_argument('--sourceparams')
- part.add_argument('--system-id', type=systemidtype)
- part.add_argument('--use-uuid', action='store_true')
- part.add_argument('--uuid')
- part.add_argument('--fsuuid')
- part.add_argument('--no-fstab-update', action='store_true')
- part.add_argument('--mbr', action='store_true')
-
- bootloader = subparsers.add_parser('bootloader')
- bootloader.add_argument('--append')
- bootloader.add_argument('--configfile')
- bootloader.add_argument('--ptable', choices=('msdos', 'gpt', 'gpt-hybrid'),
- default='msdos')
- bootloader.add_argument('--diskid')
- bootloader.add_argument('--timeout', type=int)
- bootloader.add_argument('--source')
-
- include = subparsers.add_parser('include')
- include.add_argument('path', type=cannedpathtype)
-
- self._parse(parser, confpath)
- if not self.bootloader:
- logger.warning('bootloader config not specified, using defaults\n')
- self.bootloader = bootloader.parse_args([])
-
- def _parse(self, parser, confpath):
- """
- Parse file in .wks format using provided parser.
- """
- with open(confpath) as conf:
- lineno = 0
- for line in conf:
- line = line.strip()
- lineno += 1
- if line and line[0] != '#':
- line = expand_line(line)
- try:
- line_args = shlex.split(line)
- parsed = parser.parse_args(line_args)
- except ArgumentError as err:
- raise KickStartError('%s:%d: %s' % \
- (confpath, lineno, err))
- if line.startswith('part'):
- # SquashFS does not support filesystem UUID
- if parsed.fstype == 'squashfs':
- if parsed.fsuuid:
- err = "%s:%d: SquashFS does not support UUID" \
- % (confpath, lineno)
- raise KickStartError(err)
- if parsed.label:
- err = "%s:%d: SquashFS does not support LABEL" \
- % (confpath, lineno)
- raise KickStartError(err)
- # erofs does not support filesystem labels
- if parsed.fstype == 'erofs' and parsed.label:
- err = "%s:%d: erofs does not support LABEL" % (confpath, lineno)
- raise KickStartError(err)
- if parsed.fstype == 'msdos' or parsed.fstype == 'vfat':
- if parsed.fsuuid:
- if parsed.fsuuid.upper().startswith('0X'):
- if len(parsed.fsuuid) > 10:
- err = "%s:%d: fsuuid %s given in wks kickstart file " \
- "exceeds the length limit for %s filesystem. " \
- "It should be in the form of a 32 bit hexadecimal" \
- "number (for example, 0xABCD1234)." \
- % (confpath, lineno, parsed.fsuuid, parsed.fstype)
- raise KickStartError(err)
- elif len(parsed.fsuuid) > 8:
- err = "%s:%d: fsuuid %s given in wks kickstart file " \
- "exceeds the length limit for %s filesystem. " \
- "It should be in the form of a 32 bit hexadecimal" \
- "number (for example, 0xABCD1234)." \
- % (confpath, lineno, parsed.fsuuid, parsed.fstype)
- raise KickStartError(err)
- if parsed.use_label and not parsed.label:
- err = "%s:%d: Must set the label with --label" \
- % (confpath, lineno)
- raise KickStartError(err)
- if not parsed.extra_partition_space:
- parsed.extra_partition_space = 0
- # using ArgumentParser one cannot easily tell if option
- # was passed as argument, if said option has a default
- # value; --overhead-factor/--extra-filesystem-space
- # cannot be used with --fixed-size, so at least detect
- # when these were passed with non-0 values ...
- if parsed.fixed_size:
- if parsed.overhead_factor or parsed.extra_filesystem_space:
- err = "%s:%d: arguments --overhead-factor and "\
- "--extra-filesystem-space not "\
- "allowed with argument --fixed-size" \
- % (confpath, lineno)
- raise KickStartError(err)
- else:
- # ... and provide defaults if not using
- # --fixed-size iff given option was not used
- # (again, one cannot tell if option was passed but
- # with value equal to 0)
- if not parsed.overhead_factor:
- parsed.overhead_factor = self.DEFAULT_OVERHEAD_FACTOR
- if not parsed.extra_filesystem_space:
- parsed.extra_filesystem_space = self.DEFAULT_EXTRA_FILESYSTEM_SPACE
-
- self.partnum += 1
- self.partitions.append(Partition(parsed, self.partnum))
- elif line.startswith('include'):
- self._parse(parser, parsed.path)
- elif line.startswith('bootloader'):
- if not self.bootloader:
- self.bootloader = parsed
- # Concatenate the strings set in APPEND
- append_var = get_bitbake_var("APPEND")
- if append_var:
- self.bootloader.append = ' '.join(filter(None, \
- (self.bootloader.append, append_var)))
- if parsed.diskid:
- if parsed.ptable == "msdos":
- try:
- self.bootloader.diskid = int(parsed.diskid, 0)
- except ValueError:
- err = "with --ptbale msdos only 32bit integers " \
- "are allowed for --diskid. %s could not " \
- "be parsed" % self.ptable
- raise KickStartError(err)
- else:
- try:
- self.bootloader.diskid = uuid.UUID(parsed.diskid)
- except ValueError:
- err = "with --ptable %s only valid uuids are " \
- "allowed for --diskid. %s could not be " \
- "parsed" % (parsed.ptable, parsed.diskid)
- raise KickStartError(err)
-
- else:
- err = "%s:%d: more than one bootloader specified" \
- % (confpath, lineno)
- raise KickStartError(err)
deleted file mode 100644
@@ -1,266 +0,0 @@
-#
-# Copyright (c) 2013, Intel Corporation.
-#
-# SPDX-License-Identifier: GPL-2.0-only
-#
-# DESCRIPTION
-# This module provides a place to collect various wic-related utils
-# for the OpenEmbedded Image Tools.
-#
-# AUTHORS
-# Tom Zanussi <tom.zanussi (at] linux.intel.com>
-#
-"""Miscellaneous functions."""
-
-import logging
-import os
-import re
-import subprocess
-import shutil
-
-from collections import defaultdict
-
-from wic import WicError
-
-logger = logging.getLogger('wic')
-
-# executable -> recipe pairs for exec_native_cmd
-NATIVE_RECIPES = {"bmaptool": "bmaptool",
- "dumpe2fs": "e2fsprogs",
- "grub-mkimage": "grub-efi",
- "isohybrid": "syslinux",
- "mcopy": "mtools",
- "mdel" : "mtools",
- "mdeltree" : "mtools",
- "mdir" : "mtools",
- "mkdosfs": "dosfstools",
- "mkisofs": "cdrtools",
- "mkfs.btrfs": "btrfs-tools",
- "mkfs.erofs": "erofs-utils",
- "mkfs.ext2": "e2fsprogs",
- "mkfs.ext3": "e2fsprogs",
- "mkfs.ext4": "e2fsprogs",
- "mkfs.vfat": "dosfstools",
- "mksquashfs": "squashfs-tools",
- "mkswap": "util-linux",
- "mmd": "mtools",
- "parted": "parted",
- "sfdisk": "util-linux",
- "sgdisk": "gptfdisk",
- "syslinux": "syslinux",
- "tar": "tar"
- }
-
-def runtool(cmdln_or_args):
- """ wrapper for most of the subprocess calls
- input:
- cmdln_or_args: can be both args and cmdln str (shell=True)
- return:
- rc, output
- """
- if isinstance(cmdln_or_args, list):
- cmd = cmdln_or_args[0]
- shell = False
- else:
- import shlex
- cmd = shlex.split(cmdln_or_args)[0]
- shell = True
-
- sout = subprocess.PIPE
- serr = subprocess.STDOUT
-
- try:
- process = subprocess.Popen(cmdln_or_args, stdout=sout,
- stderr=serr, shell=shell)
- sout, serr = process.communicate()
- # combine stdout and stderr, filter None out and decode
- out = ''.join([out.decode('utf-8') for out in [sout, serr] if out])
- except OSError as err:
- if err.errno == 2:
- # [Errno 2] No such file or directory
- raise WicError('Cannot run command: %s, lost dependency?' % cmd)
- else:
- raise # relay
-
- return process.returncode, out
-
-def _exec_cmd(cmd_and_args, as_shell=False):
- """
- Execute command, catching stderr, stdout
-
- Need to execute as_shell if the command uses wildcards
- """
- logger.debug("_exec_cmd: %s", cmd_and_args)
- args = cmd_and_args.split()
- logger.debug(args)
-
- if as_shell:
- ret, out = runtool(cmd_and_args)
- else:
- ret, out = runtool(args)
- out = out.strip()
- if ret != 0:
- raise WicError("_exec_cmd: %s returned '%s' instead of 0\noutput: %s" % \
- (cmd_and_args, ret, out))
-
- logger.debug("_exec_cmd: output for %s (rc = %d): %s",
- cmd_and_args, ret, out)
-
- return ret, out
-
-
-def exec_cmd(cmd_and_args, as_shell=False):
- """
- Execute command, return output
- """
- return _exec_cmd(cmd_and_args, as_shell)[1]
-
-def find_executable(cmd, paths):
- recipe = cmd
- if recipe in NATIVE_RECIPES:
- recipe = NATIVE_RECIPES[recipe]
- provided = get_bitbake_var("ASSUME_PROVIDED")
- if provided and "%s-native" % recipe in provided:
- return True
-
- return shutil.which(cmd, path=paths)
-
-def exec_native_cmd(cmd_and_args, native_sysroot, pseudo=""):
- """
- Execute native command, catching stderr, stdout
-
- Need to execute as_shell if the command uses wildcards
-
- Always need to execute native commands as_shell
- """
- # The reason -1 is used is because there may be "export" commands.
- args = cmd_and_args.split(';')[-1].split()
- logger.debug(args)
-
- if pseudo:
- cmd_and_args = pseudo + cmd_and_args
-
- hosttools_dir = get_bitbake_var("HOSTTOOLS_DIR")
- target_sys = get_bitbake_var("TARGET_SYS")
-
- native_paths = "%s/sbin:%s/usr/sbin:%s/usr/bin:%s/usr/bin/%s:%s/bin:%s" % \
- (native_sysroot, native_sysroot,
- native_sysroot, native_sysroot, target_sys,
- native_sysroot, hosttools_dir)
-
- native_cmd_and_args = "export PATH=%s:$PATH;%s" % \
- (native_paths, cmd_and_args)
- logger.debug("exec_native_cmd: %s", native_cmd_and_args)
-
- # If the command isn't in the native sysroot say we failed.
- if find_executable(args[0], native_paths):
- ret, out = _exec_cmd(native_cmd_and_args, True)
- else:
- ret = 127
- out = "can't find native executable %s in %s" % (args[0], native_paths)
-
- prog = args[0]
- # shell command-not-found
- if ret == 127 \
- or (pseudo and ret == 1 and out == "Can't find '%s' in $PATH." % prog):
- msg = "A native program %s required to build the image "\
- "was not found (see details above).\n\n" % prog
- recipe = NATIVE_RECIPES.get(prog)
- if recipe:
- msg += "Please make sure wic-tools have %s-native in its DEPENDS, "\
- "build it with 'bitbake wic-tools' and try again.\n" % recipe
- else:
- msg += "Wic failed to find a recipe to build native %s. Please "\
- "file a bug against wic.\n" % prog
- raise WicError(msg)
-
- return ret, out
-
-BOOTDD_EXTRA_SPACE = 16384
-
-class BitbakeVars(defaultdict):
- """
- Container for Bitbake variables.
- """
- def __init__(self):
- defaultdict.__init__(self, dict)
-
- # default_image and vars_dir attributes should be set from outside
- self.default_image = None
- self.vars_dir = None
-
- def _parse_line(self, line, image, matcher=re.compile(r"^([a-zA-Z0-9\-_+./~]+)=(.*)")):
- """
- Parse one line from bitbake -e output or from .env file.
- Put result key-value pair into the storage.
- """
- if "=" not in line:
- return
- match = matcher.match(line)
- if not match:
- return
- key, val = match.groups()
- self[image][key] = val.strip('"')
-
- def get_var(self, var, image=None, cache=True):
- """
- Get bitbake variable from 'bitbake -e' output or from .env file.
- This is a lazy method, i.e. it runs bitbake or parses file only when
- only when variable is requested. It also caches results.
- """
- if not image:
- image = self.default_image
-
- if image not in self:
- if image and self.vars_dir:
- fname = os.path.join(self.vars_dir, image + '.env')
- if os.path.isfile(fname):
- # parse .env file
- with open(fname) as varsfile:
- for line in varsfile:
- self._parse_line(line, image)
- else:
- print("Couldn't get bitbake variable from %s." % fname)
- print("File %s doesn't exist." % fname)
- return
- else:
- # Get bitbake -e output
- cmd = "bitbake -e"
- if image:
- cmd += " %s" % image
-
- log_level = logger.getEffectiveLevel()
- logger.setLevel(logging.INFO)
- ret, lines = _exec_cmd(cmd)
- logger.setLevel(log_level)
-
- if ret:
- logger.error("Couldn't get '%s' output.", cmd)
- logger.error("Bitbake failed with error:\n%s\n", lines)
- return
-
- # Parse bitbake -e output
- for line in lines.split('\n'):
- self._parse_line(line, image)
-
- # Make first image a default set of variables
- if cache:
- images = [key for key in self if key]
- if len(images) == 1:
- self[None] = self[image]
-
- result = self[image].get(var)
- if not cache:
- self.pop(image, None)
-
- return result
-
-# Create BB_VARS singleton
-BB_VARS = BitbakeVars()
-
-def get_bitbake_var(var, image=None, cache=True):
- """
- Provide old get_bitbake_var API by wrapping
- get_var method of BB_VARS singleton.
- """
- return BB_VARS.get_var(var, image, cache)
deleted file mode 100644
@@ -1,562 +0,0 @@
-#
-# Copyright (c) 2013-2016 Intel Corporation.
-#
-# SPDX-License-Identifier: GPL-2.0-only
-#
-# DESCRIPTION
-# This module provides the OpenEmbedded partition object definitions.
-#
-# AUTHORS
-# Tom Zanussi <tom.zanussi (at] linux.intel.com>
-# Ed Bartosh <ed.bartosh> (at] linux.intel.com>
-
-import logging
-import os
-import uuid
-
-from wic import WicError
-from wic.misc import exec_cmd, exec_native_cmd, get_bitbake_var
-from wic.pluginbase import PluginMgr
-
-logger = logging.getLogger('wic')
-
-class Partition():
-
- def __init__(self, args, lineno):
- self.args = args
- self.active = args.active
- self.align = args.align
- self.disk = args.disk
- self.device = None
- self.extra_filesystem_space = args.extra_filesystem_space
- self.extra_partition_space = args.extra_partition_space
- self.exclude_path = args.exclude_path
- self.include_path = args.include_path
- self.change_directory = args.change_directory
- self.fsopts = args.fsopts
- self.fspassno = args.fspassno
- self.fstype = args.fstype
- self.label = args.label
- self.use_label = args.use_label
- self.mkfs_extraopts = args.mkfs_extraopts
- self.mountpoint = args.mountpoint
- self.no_table = args.no_table
- self.num = None
- self.offset = args.offset
- self.overhead_factor = args.overhead_factor
- self.part_name = args.part_name
- self.part_type = args.part_type
- self.rootfs_dir = args.rootfs_dir
- self.size = args.size
- self.fixed_size = args.fixed_size
- self.source = args.source
- self.sourceparams = args.sourceparams
- self.system_id = args.system_id
- self.use_uuid = args.use_uuid
- self.uuid = args.uuid
- self.fsuuid = args.fsuuid
- self.type = args.type
- self.no_fstab_update = args.no_fstab_update
- self.updated_fstab_path = None
- self.has_fstab = False
- self.update_fstab_in_rootfs = False
- self.hidden = args.hidden
- self.mbr = args.mbr
-
- self.lineno = lineno
- self.source_file = ""
-
- def get_extra_block_count(self, current_blocks):
- """
- The --size param is reflected in self.size (in kB), and we already
- have current_blocks (1k) blocks, calculate and return the
- number of (1k) blocks we need to add to get to --size, 0 if
- we're already there or beyond.
- """
- logger.debug("Requested partition size for %s: %d",
- self.mountpoint, self.size)
-
- if not self.size:
- return 0
-
- requested_blocks = self.size
-
- logger.debug("Requested blocks %d, current_blocks %d",
- requested_blocks, current_blocks)
-
- if requested_blocks > current_blocks:
- return requested_blocks - current_blocks
- else:
- return 0
-
- def get_rootfs_size(self, actual_rootfs_size=0):
- """
- Calculate the required size of rootfs taking into consideration
- --size/--fixed-size and --extra-partition-space flags as well as overhead
- and extra space, as specified in kickstart file. Raises an error
- if the `actual_rootfs_size` is larger than fixed-size rootfs.
- """
- if self.fixed_size:
- rootfs_size = self.fixed_size - self.extra_partition_space
- if actual_rootfs_size > rootfs_size:
- raise WicError("Actual rootfs size (%d kB) is larger than "
- "allowed size %d kB" %
- (actual_rootfs_size, rootfs_size))
- else:
- extra_blocks = self.get_extra_block_count(actual_rootfs_size)
- if extra_blocks < self.extra_filesystem_space:
- extra_blocks = self.extra_filesystem_space
-
- rootfs_size = actual_rootfs_size + extra_blocks
- rootfs_size = int(rootfs_size * self.overhead_factor)
-
- logger.debug("Added %d extra blocks to %s to get to %d total blocks",
- extra_blocks, self.mountpoint, rootfs_size)
-
- return rootfs_size
-
- @property
- def disk_size(self):
- """
- Obtain on-disk size of partition taking into consideration
- --size/--fixed-size and --extra-partition-space options.
-
- """
- return self.fixed_size if self.fixed_size else self.size + self.extra_partition_space
-
- @property
- def fs_size(self):
- """
- Obtain on-disk size of filesystem inside the partition taking into
- consideration --size/--fixed-size and --extra-partition-space options.
- """
- return self.fixed_size - self.extra_partition_space if self.fixed_size else self.size
-
- def prepare(self, creator, cr_workdir, oe_builddir, rootfs_dir,
- bootimg_dir, kernel_dir, native_sysroot, updated_fstab_path):
- """
- Prepare content for individual partitions, depending on
- partition command parameters.
- """
- self.updated_fstab_path = updated_fstab_path
- if self.updated_fstab_path and not (self.fstype.startswith("ext") or self.fstype == "msdos"):
- self.update_fstab_in_rootfs = True
-
- if not self.source:
- if self.fstype == "none" or self.no_table:
- return
- if not self.size and not self.fixed_size:
- raise WicError("The %s partition has a size of zero. Please "
- "specify a non-zero --size/--fixed-size for that "
- "partition." % self.mountpoint)
-
- if self.fstype == "swap":
- self.prepare_swap_partition(cr_workdir, oe_builddir,
- native_sysroot)
- self.source_file = "%s/fs.%s" % (cr_workdir, self.fstype)
- else:
- if self.fstype in ('squashfs', 'erofs'):
- raise WicError("It's not possible to create empty %s "
- "partition '%s'" % (self.fstype, self.mountpoint))
-
- rootfs = "%s/fs_%s.%s.%s" % (cr_workdir, self.label,
- self.lineno, self.fstype)
- if os.path.isfile(rootfs):
- os.remove(rootfs)
-
- prefix = "ext" if self.fstype.startswith("ext") else self.fstype
- method = getattr(self, "prepare_empty_partition_" + prefix)
- method(rootfs, oe_builddir, native_sysroot)
- self.source_file = rootfs
- return
-
- plugins = PluginMgr.get_plugins('source')
-
- # Don't support '-' in plugin names
- self.source = self.source.replace("-", "_")
-
- if self.source not in plugins:
- raise WicError("The '%s' --source specified for %s doesn't exist.\n\t"
- "See 'wic list source-plugins' for a list of available"
- " --sources.\n\tSee 'wic help plugins' for "
- "details on adding a new source plugin." %
- (self.source, self.mountpoint))
-
- srcparams_dict = {}
- if self.sourceparams:
- # Split sourceparams string of the form key1=val1[,key2=val2,...]
- # into a dict. Also accepts valueless keys i.e. without =
- splitted = self.sourceparams.split(',')
- srcparams_dict = dict((par.split('=', 1) + [None])[:2] for par in splitted if par)
-
- plugin = plugins[self.source]
- plugin.do_configure_partition(self, srcparams_dict, creator,
- cr_workdir, oe_builddir, bootimg_dir,
- kernel_dir, native_sysroot)
- plugin.do_stage_partition(self, srcparams_dict, creator,
- cr_workdir, oe_builddir, bootimg_dir,
- kernel_dir, native_sysroot)
- plugin.do_prepare_partition(self, srcparams_dict, creator,
- cr_workdir, oe_builddir, bootimg_dir,
- kernel_dir, rootfs_dir, native_sysroot)
- plugin.do_post_partition(self, srcparams_dict, creator,
- cr_workdir, oe_builddir, bootimg_dir,
- kernel_dir, rootfs_dir, native_sysroot)
-
- # further processing required Partition.size to be an integer, make
- # sure that it is one
- if not isinstance(self.size, int):
- raise WicError("Partition %s internal size is not an integer. "
- "This a bug in source plugin %s and needs to be fixed." %
- (self.mountpoint, self.source))
-
- if self.fixed_size and self.size + self.extra_partition_space > self.fixed_size:
- raise WicError("File system image of partition %s is "
- "larger (%d kB + %d kB extra part space) than its allowed size %d kB" %
- (self.mountpoint, self.size, self.extra_partition_space, self.fixed_size))
-
- def prepare_rootfs(self, cr_workdir, oe_builddir, rootfs_dir,
- native_sysroot, real_rootfs = True, pseudo_dir = None):
- """
- Prepare content for a rootfs partition i.e. create a partition
- and fill it from a /rootfs dir.
-
- Currently handles ext2/3/4, btrfs, vfat and squashfs.
- """
-
- rootfs = "%s/rootfs_%s.%s.%s" % (cr_workdir, self.label,
- self.lineno, self.fstype)
- if os.path.isfile(rootfs):
- os.remove(rootfs)
-
- p_prefix = os.environ.get("PSEUDO_PREFIX", "%s/usr" % native_sysroot)
- if (pseudo_dir):
- # Canonicalize the ignore paths. This corresponds to
- # calling oe.path.canonicalize(), which is used in bitbake.conf.
- include_paths = [rootfs_dir] + (get_bitbake_var("PSEUDO_INCLUDE_PATHS") or "").split(",")
- canonical_paths = []
- for path in include_paths:
- if "$" not in path:
- trailing_slash = path.endswith("/") and "/" or ""
- canonical_paths.append(os.path.realpath(path) + trailing_slash)
- include_paths = ",".join(canonical_paths)
-
- pseudo = "export PSEUDO_PREFIX=%s;" % p_prefix
- pseudo += "export PSEUDO_LOCALSTATEDIR=%s;" % pseudo_dir
- pseudo += "export PSEUDO_PASSWD=%s;" % rootfs_dir
- pseudo += "export PSEUDO_NOSYMLINKEXP=1;"
- pseudo += "export PSEUDO_INCLUDE_PATHS=%s;" % include_paths
- pseudo += "%s " % get_bitbake_var("FAKEROOTCMD")
- else:
- pseudo = None
-
- if not self.size and real_rootfs:
- # The rootfs size is not set in .ks file so try to get it
- # from bitbake variable
- rsize_bb = get_bitbake_var('ROOTFS_SIZE')
- rdir = get_bitbake_var('IMAGE_ROOTFS')
- if rsize_bb and (rdir == rootfs_dir or (rootfs_dir.split('/')[-2] == "tmp-wic" and rootfs_dir.split('/')[-1][:6] == "rootfs")):
- # Bitbake variable ROOTFS_SIZE is calculated in
- # Image._get_rootfs_size method from meta/lib/oe/image.py
- # using IMAGE_ROOTFS_SIZE, IMAGE_ROOTFS_ALIGNMENT,
- # IMAGE_OVERHEAD_FACTOR and IMAGE_ROOTFS_EXTRA_SPACE
- self.size = int(round(float(rsize_bb)))
- else:
- # Bitbake variable ROOTFS_SIZE is not defined so compute it
- # from the rootfs_dir size using the same logic found in
- # get_rootfs_size() from meta/classes/image.bbclass
- du_cmd = "du -ks %s" % rootfs_dir
- out = exec_cmd(du_cmd)
- self.size = int(out.split()[0])
-
- prefix = "ext" if self.fstype.startswith("ext") else self.fstype
- method = getattr(self, "prepare_rootfs_" + prefix)
- method(rootfs, cr_workdir, oe_builddir, rootfs_dir, native_sysroot, pseudo)
- self.source_file = rootfs
-
- # get the rootfs size in the right units for kickstart (kB)
- du_cmd = "du --apparent-size -Lks %s" % rootfs
- out = exec_cmd(du_cmd)
- self.size = int(out.split()[0])
-
- def prepare_rootfs_ext(self, rootfs, cr_workdir, oe_builddir, rootfs_dir,
- native_sysroot, pseudo):
- """
- Prepare content for an ext2/3/4 rootfs partition.
- """
- du_cmd = "du -ks %s" % rootfs_dir
- out = exec_cmd(du_cmd)
- actual_rootfs_size = int(out.split()[0])
-
- rootfs_size = self.get_rootfs_size(actual_rootfs_size)
-
- with open(rootfs, 'w') as sparse:
- os.ftruncate(sparse.fileno(), rootfs_size * 1024)
-
- extraopts = self.mkfs_extraopts or "-F -i 8192"
-
- # use hash_seed to generate reproducible ext4 images
- (extraopts, pseudo) = self.get_hash_seed_ext4(extraopts, pseudo)
-
- label_str = ""
- if self.label:
- label_str = "-L %s" % self.label
-
- mkfs_cmd = "mkfs.%s %s %s %s -U %s -d %s" % \
- (self.fstype, extraopts, rootfs, label_str, self.fsuuid, rootfs_dir)
- exec_native_cmd(mkfs_cmd, native_sysroot, pseudo=pseudo)
-
- if self.updated_fstab_path and self.has_fstab and not self.no_fstab_update:
- debugfs_script_path = os.path.join(cr_workdir, "debugfs_script")
- with open(debugfs_script_path, "w") as f:
- f.write("cd etc\n")
- f.write("rm fstab\n")
- f.write("write %s fstab\n" % (self.updated_fstab_path))
- debugfs_cmd = "debugfs -w -f %s %s" % (debugfs_script_path, rootfs)
- exec_native_cmd(debugfs_cmd, native_sysroot)
-
- mkfs_cmd = "fsck.%s -pvfD %s" % (self.fstype, rootfs)
- exec_native_cmd(mkfs_cmd, native_sysroot, pseudo=pseudo)
-
- if os.getenv('SOURCE_DATE_EPOCH'):
- sde_time = hex(int(os.getenv('SOURCE_DATE_EPOCH')))
- debugfs_script_path = os.path.join(cr_workdir, "debugfs_script")
- files = []
- for root, dirs, others in os.walk(rootfs_dir):
- base = root.replace(rootfs_dir, "").rstrip(os.sep)
- files += [ "/" if base == "" else base ]
- files += [ base + "/" + n for n in dirs + others ]
- with open(debugfs_script_path, "w") as f:
- f.write("set_current_time %s\n" % (sde_time))
- if self.updated_fstab_path and self.has_fstab and not self.no_fstab_update:
- f.write("set_inode_field /etc/fstab mtime %s\n" % (sde_time))
- f.write("set_inode_field /etc/fstab mtime_extra 0\n")
- for file in set(files):
- for time in ["atime", "ctime", "crtime"]:
- f.write("set_inode_field \"%s\" %s %s\n" % (file, time, sde_time))
- f.write("set_inode_field \"%s\" %s_extra 0\n" % (file, time))
- for time in ["wtime", "mkfs_time", "lastcheck"]:
- f.write("set_super_value %s %s\n" % (time, sde_time))
- for time in ["mtime", "first_error_time", "last_error_time"]:
- f.write("set_super_value %s 0\n" % (time))
- debugfs_cmd = "debugfs -w -f %s %s" % (debugfs_script_path, rootfs)
- exec_native_cmd(debugfs_cmd, native_sysroot)
-
- self.check_for_Y2038_problem(rootfs, native_sysroot)
-
- def get_hash_seed_ext4(self, extraopts, pseudo):
- if os.getenv('SOURCE_DATE_EPOCH'):
- sde_time = int(os.getenv('SOURCE_DATE_EPOCH'))
- if pseudo:
- pseudo = "export E2FSPROGS_FAKE_TIME=%s;%s " % (sde_time, pseudo)
- else:
- pseudo = "export E2FSPROGS_FAKE_TIME=%s; " % sde_time
-
- # Set hash_seed to generate deterministic directory indexes
- namespace = uuid.UUID("e7429877-e7b3-4a68-a5c9-2f2fdf33d460")
- if self.fsuuid:
- namespace = uuid.UUID(self.fsuuid)
- hash_seed = str(uuid.uuid5(namespace, str(sde_time)))
- extraopts += " -E hash_seed=%s" % hash_seed
-
- return (extraopts, pseudo)
-
- def prepare_rootfs_btrfs(self, rootfs, cr_workdir, oe_builddir, rootfs_dir,
- native_sysroot, pseudo):
- """
- Prepare content for a btrfs rootfs partition.
- """
- du_cmd = "du -ks %s" % rootfs_dir
- out = exec_cmd(du_cmd)
- actual_rootfs_size = int(out.split()[0])
-
- rootfs_size = self.get_rootfs_size(actual_rootfs_size)
-
- with open(rootfs, 'w') as sparse:
- os.ftruncate(sparse.fileno(), rootfs_size * 1024)
-
- label_str = ""
- if self.label:
- label_str = "-L %s" % self.label
-
- mkfs_cmd = "mkfs.%s -b %d -r %s %s %s -U %s %s" % \
- (self.fstype, rootfs_size * 1024, rootfs_dir, label_str,
- self.mkfs_extraopts, self.fsuuid, rootfs)
- exec_native_cmd(mkfs_cmd, native_sysroot, pseudo=pseudo)
-
- def prepare_rootfs_msdos(self, rootfs, cr_workdir, oe_builddir, rootfs_dir,
- native_sysroot, pseudo):
- """
- Prepare content for a msdos/vfat rootfs partition.
- """
- du_cmd = "du --apparent-size -ks %s" % rootfs_dir
- out = exec_cmd(du_cmd)
- blocks = int(out.split()[0])
-
- rootfs_size = self.get_rootfs_size(blocks)
-
- label_str = "-n boot"
- if self.label:
- label_str = "-n %s" % self.label
-
- size_str = ""
-
- extraopts = self.mkfs_extraopts or '-S 512'
-
- dosfs_cmd = "mkdosfs %s -i %s %s %s -C %s %d" % \
- (label_str, self.fsuuid, size_str, extraopts, rootfs,
- rootfs_size)
- exec_native_cmd(dosfs_cmd, native_sysroot)
-
- mcopy_cmd = "mcopy -i %s -s %s/* ::/" % (rootfs, rootfs_dir)
- exec_native_cmd(mcopy_cmd, native_sysroot)
-
- if self.updated_fstab_path and self.has_fstab and not self.no_fstab_update:
- mcopy_cmd = "mcopy -m -i %s %s ::/etc/fstab" % (rootfs, self.updated_fstab_path)
- exec_native_cmd(mcopy_cmd, native_sysroot)
-
- chmod_cmd = "chmod 644 %s" % rootfs
- exec_cmd(chmod_cmd)
-
- prepare_rootfs_vfat = prepare_rootfs_msdos
-
- def prepare_rootfs_squashfs(self, rootfs, cr_workdir, oe_builddir, rootfs_dir,
- native_sysroot, pseudo):
- """
- Prepare content for a squashfs rootfs partition.
- """
- extraopts = self.mkfs_extraopts or '-noappend'
- squashfs_cmd = "mksquashfs %s %s %s" % \
- (rootfs_dir, rootfs, extraopts)
- exec_native_cmd(squashfs_cmd, native_sysroot, pseudo=pseudo)
-
- def prepare_rootfs_erofs(self, rootfs, cr_workdir, oe_builddir, rootfs_dir,
- native_sysroot, pseudo):
- """
- Prepare content for a erofs rootfs partition.
- """
- extraopts = self.mkfs_extraopts or ''
- erofs_cmd = "mkfs.erofs %s -U %s %s %s" % \
- (extraopts, self.fsuuid, rootfs, rootfs_dir)
- exec_native_cmd(erofs_cmd, native_sysroot, pseudo=pseudo)
-
- def prepare_empty_partition_none(self, rootfs, oe_builddir, native_sysroot):
- pass
-
- def prepare_empty_partition_ext(self, rootfs, oe_builddir,
- native_sysroot):
- """
- Prepare an empty ext2/3/4 partition.
- """
- size = self.fs_size
- with open(rootfs, 'w') as sparse:
- os.ftruncate(sparse.fileno(), size * 1024)
-
- extraopts = self.mkfs_extraopts or "-i 8192"
-
- # use hash_seed to generate reproducible ext4 images
- (extraopts, pseudo) = self.get_hash_seed_ext4(extraopts, None)
-
- label_str = ""
- if self.label:
- label_str = "-L %s" % self.label
-
- mkfs_cmd = "mkfs.%s -F %s %s -U %s %s" % \
- (self.fstype, extraopts, label_str, self.fsuuid, rootfs)
- exec_native_cmd(mkfs_cmd, native_sysroot, pseudo=pseudo)
-
- self.check_for_Y2038_problem(rootfs, native_sysroot)
-
- def prepare_empty_partition_btrfs(self, rootfs, oe_builddir,
- native_sysroot):
- """
- Prepare an empty btrfs partition.
- """
- size = self.fs_size
- with open(rootfs, 'w') as sparse:
- os.ftruncate(sparse.fileno(), size * 1024)
-
- label_str = ""
- if self.label:
- label_str = "-L %s" % self.label
-
- mkfs_cmd = "mkfs.%s -b %d %s -U %s %s %s" % \
- (self.fstype, self.size * 1024, label_str, self.fsuuid,
- self.mkfs_extraopts, rootfs)
- exec_native_cmd(mkfs_cmd, native_sysroot)
-
- def prepare_empty_partition_msdos(self, rootfs, oe_builddir,
- native_sysroot):
- """
- Prepare an empty vfat partition.
- """
- blocks = self.fs_size
-
- label_str = "-n boot"
- if self.label:
- label_str = "-n %s" % self.label
-
- size_str = ""
-
- extraopts = self.mkfs_extraopts or '-S 512'
-
- dosfs_cmd = "mkdosfs %s -i %s %s %s -C %s %d" % \
- (label_str, self.fsuuid, extraopts, size_str, rootfs,
- blocks)
-
- exec_native_cmd(dosfs_cmd, native_sysroot)
-
- chmod_cmd = "chmod 644 %s" % rootfs
- exec_cmd(chmod_cmd)
-
- prepare_empty_partition_vfat = prepare_empty_partition_msdos
-
- def prepare_swap_partition(self, cr_workdir, oe_builddir, native_sysroot):
- """
- Prepare a swap partition.
- """
- path = "%s/fs.%s" % (cr_workdir, self.fstype)
-
- with open(path, 'w') as sparse:
- os.ftruncate(sparse.fileno(), self.size * 1024)
-
- label_str = ""
- if self.label:
- label_str = "-L %s" % self.label
-
- mkswap_cmd = "mkswap %s -U %s %s" % (label_str, self.fsuuid, path)
- exec_native_cmd(mkswap_cmd, native_sysroot)
-
- def check_for_Y2038_problem(self, rootfs, native_sysroot):
- """
- Check if the filesystem is affected by the Y2038 problem
- (Y2038 problem = 32 bit time_t overflow in January 2038)
- """
- def get_err_str(part):
- err = "The {} filesystem {} has no Y2038 support."
- if part.mountpoint:
- args = [part.fstype, "mounted at %s" % part.mountpoint]
- elif part.label:
- args = [part.fstype, "labeled '%s'" % part.label]
- elif part.part_name:
- args = [part.fstype, "in partition '%s'" % part.part_name]
- else:
- args = [part.fstype, "in partition %s" % part.num]
- return err.format(*args)
-
- # ext2 and ext3 are always affected by the Y2038 problem
- if self.fstype in ["ext2", "ext3"]:
- logger.warn(get_err_str(self))
- return
-
- ret, out = exec_native_cmd("dumpe2fs %s" % rootfs, native_sysroot)
-
- # if ext4 is affected by the Y2038 problem depends on the inode size
- for line in out.splitlines():
- if line.startswith("Inode size:"):
- size = int(line.split(":")[1].strip())
- if size < 256:
- logger.warn("%s Inodes (of size %d) are too small." %
- (get_err_str(self), size))
- break
-
deleted file mode 100644
@@ -1,144 +0,0 @@
-#!/usr/bin/env python3
-#
-# Copyright (c) 2011 Intel, Inc.
-#
-# SPDX-License-Identifier: GPL-2.0-only
-#
-
-__all__ = ['ImagerPlugin', 'SourcePlugin']
-
-import os
-import logging
-import types
-
-from collections import defaultdict
-import importlib
-import importlib.util
-
-from wic import WicError
-from wic.misc import get_bitbake_var
-
-PLUGIN_TYPES = ["imager", "source"]
-
-SCRIPTS_PLUGIN_DIR = ["scripts/lib/wic/plugins", "lib/wic/plugins"]
-
-logger = logging.getLogger('wic')
-
-PLUGINS = defaultdict(dict)
-
-class PluginMgr:
- _plugin_dirs = []
-
- @classmethod
- def get_plugins(cls, ptype):
- """Get dictionary of <plugin_name>:<class> pairs."""
- if ptype not in PLUGIN_TYPES:
- raise WicError('%s is not valid plugin type' % ptype)
-
- # collect plugin directories
- if not cls._plugin_dirs:
- cls._plugin_dirs = [os.path.join(os.path.dirname(__file__), 'plugins')]
- layers = get_bitbake_var("BBLAYERS") or ''
- for layer_path in layers.split():
- for script_plugin_dir in SCRIPTS_PLUGIN_DIR:
- path = os.path.join(layer_path, script_plugin_dir)
- path = os.path.abspath(os.path.expanduser(path))
- if path not in cls._plugin_dirs and os.path.isdir(path):
- cls._plugin_dirs.append(path)
-
- if ptype not in PLUGINS:
- # load all ptype plugins
- for pdir in cls._plugin_dirs:
- ppath = os.path.join(pdir, ptype)
- if os.path.isdir(ppath):
- for fname in os.listdir(ppath):
- if fname.endswith('.py'):
- mname = fname[:-3]
- mpath = os.path.join(ppath, fname)
- logger.debug("loading plugin module %s", mpath)
- spec = importlib.util.spec_from_file_location(mname, mpath)
- module = importlib.util.module_from_spec(spec)
- spec.loader.exec_module(module)
-
- return PLUGINS.get(ptype)
-
-class PluginMeta(type):
- def __new__(cls, name, bases, attrs):
- class_type = type.__new__(cls, name, bases, attrs)
- if 'name' in attrs:
- PLUGINS[class_type.wic_plugin_type][attrs['name']] = class_type
-
- return class_type
-
-class ImagerPlugin(metaclass=PluginMeta):
- wic_plugin_type = "imager"
-
- def do_create(self):
- raise WicError("Method %s.do_create is not implemented" %
- self.__class__.__name__)
-
-class SourcePlugin(metaclass=PluginMeta):
- wic_plugin_type = "source"
- """
- The methods that can be implemented by --source plugins.
-
- Any methods not implemented in a subclass inherit these.
- """
-
- @classmethod
- def do_install_disk(cls, disk, disk_name, creator, workdir, oe_builddir,
- bootimg_dir, kernel_dir, native_sysroot):
- """
- Called after all partitions have been prepared and assembled into a
- disk image. This provides a hook to allow finalization of a
- disk image e.g. to write an MBR to it.
- """
- logger.debug("SourcePlugin: do_install_disk: disk: %s", disk_name)
-
- @classmethod
- def do_stage_partition(cls, part, source_params, creator, cr_workdir,
- oe_builddir, bootimg_dir, kernel_dir,
- native_sysroot):
- """
- Special content staging hook called before do_prepare_partition(),
- normally empty.
-
- Typically, a partition will just use the passed-in parame e.g
- straight bootimg_dir, etc, but in some cases, things need to
- be more tailored e.g. to use a deploy dir + /boot, etc. This
- hook allows those files to be staged in a customized fashion.
- Not that get_bitbake_var() allows you to acces non-standard
- variables that you might want to use for this.
- """
- logger.debug("SourcePlugin: do_stage_partition: part: %s", part)
-
- @classmethod
- def do_configure_partition(cls, part, source_params, creator, cr_workdir,
- oe_builddir, bootimg_dir, kernel_dir,
- native_sysroot):
- """
- Called before do_prepare_partition(), typically used to create
- custom configuration files for a partition, for example
- syslinux or grub config files.
- """
- logger.debug("SourcePlugin: do_configure_partition: part: %s", part)
-
- @classmethod
- def do_prepare_partition(cls, part, source_params, creator, cr_workdir,
- oe_builddir, bootimg_dir, kernel_dir, rootfs_dir,
- native_sysroot):
- """
- Called to do the actual content population for a partition i.e. it
- 'prepares' the partition to be incorporated into the image.
- """
- logger.debug("SourcePlugin: do_prepare_partition: part: %s", part)
-
- @classmethod
- def do_post_partition(cls, part, source_params, creator, cr_workdir,
- oe_builddir, bootimg_dir, kernel_dir, rootfs_dir,
- native_sysroot):
- """
- Called after the partition is created. It is useful to add post
- operations e.g. security signing the partition.
- """
- logger.debug("SourcePlugin: do_post_partition: part: %s", part)
deleted file mode 100644
@@ -1,710 +0,0 @@
-#
-# Copyright (c) 2013, Intel Corporation.
-#
-# SPDX-License-Identifier: GPL-2.0-only
-#
-# DESCRIPTION
-# This implements the 'direct' imager plugin class for 'wic'
-#
-# AUTHORS
-# Tom Zanussi <tom.zanussi (at] linux.intel.com>
-#
-
-import logging
-import os
-import random
-import shutil
-import tempfile
-import uuid
-
-from time import strftime
-
-from oe.path import copyhardlinktree
-
-from wic import WicError
-from wic.filemap import sparse_copy
-from wic.ksparser import KickStart, KickStartError
-from wic.pluginbase import PluginMgr, ImagerPlugin
-from wic.misc import get_bitbake_var, exec_cmd, exec_native_cmd
-
-logger = logging.getLogger('wic')
-
-class DirectPlugin(ImagerPlugin):
- """
- Install a system into a file containing a partitioned disk image.
-
- An image file is formatted with a partition table, each partition
- created from a rootfs or other OpenEmbedded build artifact and dd'ed
- into the virtual disk. The disk image can subsequently be dd'ed onto
- media and used on actual hardware.
- """
- name = 'direct'
-
- def __init__(self, wks_file, rootfs_dir, bootimg_dir, kernel_dir,
- native_sysroot, oe_builddir, options):
- try:
- self.ks = KickStart(wks_file)
- except KickStartError as err:
- raise WicError(str(err))
-
- # parse possible 'rootfs=name' items
- self.rootfs_dir = dict(rdir.split('=') for rdir in rootfs_dir.split(' '))
- self.bootimg_dir = bootimg_dir
- self.kernel_dir = kernel_dir
- self.native_sysroot = native_sysroot
- self.oe_builddir = oe_builddir
-
- self.debug = options.debug
- self.outdir = options.outdir
- self.compressor = options.compressor
- self.bmap = options.bmap
- self.no_fstab_update = options.no_fstab_update
- self.updated_fstab_path = None
-
- self.name = "%s-%s" % (os.path.splitext(os.path.basename(wks_file))[0],
- strftime("%Y%m%d%H%M"))
- self.workdir = self.setup_workdir(options.workdir)
- self._image = None
- self.ptable_format = self.ks.bootloader.ptable
- self.parts = self.ks.partitions
-
- # as a convenience, set source to the boot partition source
- # instead of forcing it to be set via bootloader --source
- for part in self.parts:
- if not self.ks.bootloader.source and part.mountpoint == "/boot":
- self.ks.bootloader.source = part.source
- break
-
- image_path = self._full_path(self.workdir, self.parts[0].disk, "direct")
- self._image = PartitionedImage(image_path, self.ptable_format, self.ks.bootloader.diskid,
- self.parts, self.native_sysroot,
- options.extra_space)
-
- def setup_workdir(self, workdir):
- if workdir:
- if os.path.exists(workdir):
- raise WicError("Internal workdir '%s' specified in wic arguments already exists!" % (workdir))
-
- os.makedirs(workdir)
- return workdir
- else:
- return tempfile.mkdtemp(dir=self.outdir, prefix='tmp.wic.')
-
- def do_create(self):
- """
- Plugin entry point.
- """
- try:
- self.create()
- self.assemble()
- self.finalize()
- self.print_info()
- finally:
- self.cleanup()
-
- def update_fstab(self, image_rootfs):
- """Assume partition order same as in wks"""
- if not image_rootfs:
- return
-
- fstab_path = image_rootfs + "/etc/fstab"
- if not os.path.isfile(fstab_path):
- return
-
- with open(fstab_path) as fstab:
- fstab_lines = fstab.readlines()
-
- updated = False
- for part in self.parts:
- if not part.realnum or not part.mountpoint \
- or part.mountpoint == "/" or not (part.mountpoint.startswith('/') or part.mountpoint == "swap"):
- continue
-
- if part.use_uuid:
- if part.fsuuid:
- # FAT UUID is different from others
- if len(part.fsuuid) == 10:
- device_name = "UUID=%s-%s" % \
- (part.fsuuid[2:6], part.fsuuid[6:])
- else:
- device_name = "UUID=%s" % part.fsuuid
- else:
- device_name = "PARTUUID=%s" % part.uuid
- elif part.use_label:
- device_name = "LABEL=%s" % part.label
- else:
- # mmc device partitions are named mmcblk0p1, mmcblk0p2..
- prefix = 'p' if part.disk.startswith('mmcblk') else ''
- device_name = "/dev/%s%s%d" % (part.disk, prefix, part.realnum)
-
- opts = part.fsopts if part.fsopts else "defaults"
- passno = part.fspassno if part.fspassno else "0"
- line = "\t".join([device_name, part.mountpoint, part.fstype,
- opts, "0", passno]) + "\n"
-
- fstab_lines.append(line)
- updated = True
-
- if updated:
- self.updated_fstab_path = os.path.join(self.workdir, "fstab")
- with open(self.updated_fstab_path, "w") as f:
- f.writelines(fstab_lines)
- if os.getenv('SOURCE_DATE_EPOCH'):
- fstab_time = int(os.getenv('SOURCE_DATE_EPOCH'))
- os.utime(self.updated_fstab_path, (fstab_time, fstab_time))
-
- def _full_path(self, path, name, extention):
- """ Construct full file path to a file we generate. """
- return os.path.join(path, "%s-%s.%s" % (self.name, name, extention))
-
- #
- # Actual implemention
- #
- def create(self):
- """
- For 'wic', we already have our build artifacts - we just create
- filesystems from the artifacts directly and combine them into
- a partitioned image.
- """
- if not self.no_fstab_update:
- self.update_fstab(self.rootfs_dir.get("ROOTFS_DIR"))
-
- for part in self.parts:
- # get rootfs size from bitbake variable if it's not set in .ks file
- if not part.size:
- # and if rootfs name is specified for the partition
- image_name = self.rootfs_dir.get(part.rootfs_dir)
- if image_name and os.path.sep not in image_name:
- # Bitbake variable ROOTFS_SIZE is calculated in
- # Image._get_rootfs_size method from meta/lib/oe/image.py
- # using IMAGE_ROOTFS_SIZE, IMAGE_ROOTFS_ALIGNMENT,
- # IMAGE_OVERHEAD_FACTOR and IMAGE_ROOTFS_EXTRA_SPACE
- rsize_bb = get_bitbake_var('ROOTFS_SIZE', image_name)
- if rsize_bb:
- part.size = int(round(float(rsize_bb)))
-
- self._image.prepare(self)
- self._image.layout_partitions()
- self._image.create()
-
- def assemble(self):
- """
- Assemble partitions into disk image
- """
- self._image.assemble()
-
- def finalize(self):
- """
- Finalize the disk image.
-
- For example, prepare the image to be bootable by e.g.
- creating and installing a bootloader configuration.
- """
- source_plugin = self.ks.bootloader.source
- disk_name = self.parts[0].disk
- if source_plugin:
- # Don't support '-' in plugin names
- source_plugin = source_plugin.replace("-", "_")
- plugin = PluginMgr.get_plugins('source')[source_plugin]
- plugin.do_install_disk(self._image, disk_name, self, self.workdir,
- self.oe_builddir, self.bootimg_dir,
- self.kernel_dir, self.native_sysroot)
-
- full_path = self._image.path
- # Generate .bmap
- if self.bmap:
- logger.debug("Generating bmap file for %s", disk_name)
- python = os.path.join(self.native_sysroot, 'usr/bin/python3-native/python3')
- bmaptool = os.path.join(self.native_sysroot, 'usr/bin/bmaptool')
- exec_native_cmd("%s %s create %s -o %s.bmap" % \
- (python, bmaptool, full_path, full_path), self.native_sysroot)
- # Compress the image
- if self.compressor:
- logger.debug("Compressing disk %s with %s", disk_name, self.compressor)
- exec_cmd("%s %s" % (self.compressor, full_path))
-
- def print_info(self):
- """
- Print the image(s) and artifacts used, for the user.
- """
- msg = "The new image(s) can be found here:\n"
-
- extension = "direct" + {"gzip": ".gz",
- "bzip2": ".bz2",
- "xz": ".xz",
- None: ""}.get(self.compressor)
- full_path = self._full_path(self.outdir, self.parts[0].disk, extension)
- msg += ' %s\n\n' % full_path
-
- msg += 'The following build artifacts were used to create the image(s):\n'
- for part in self.parts:
- if part.rootfs_dir is None:
- continue
- if part.mountpoint == '/':
- suffix = ':'
- else:
- suffix = '["%s"]:' % (part.mountpoint or part.label)
- rootdir = part.rootfs_dir
- msg += ' ROOTFS_DIR%s%s\n' % (suffix.ljust(20), rootdir)
-
- msg += ' BOOTIMG_DIR: %s\n' % self.bootimg_dir
- msg += ' KERNEL_DIR: %s\n' % self.kernel_dir
- msg += ' NATIVE_SYSROOT: %s\n' % self.native_sysroot
-
- logger.info(msg)
-
- @property
- def rootdev(self):
- """
- Get root device name to use as a 'root' parameter
- in kernel command line.
-
- Assume partition order same as in wks
- """
- for part in self.parts:
- if part.mountpoint == "/":
- if part.uuid:
- return "PARTUUID=%s" % part.uuid
- elif part.label and self.ptable_format != 'msdos':
- return "PARTLABEL=%s" % part.label
- else:
- suffix = 'p' if part.disk.startswith('mmcblk') else ''
- return "/dev/%s%s%-d" % (part.disk, suffix, part.realnum)
-
- def cleanup(self):
- if self._image:
- self._image.cleanup()
-
- # Move results to the output dir
- if not os.path.exists(self.outdir):
- os.makedirs(self.outdir)
-
- for fname in os.listdir(self.workdir):
- path = os.path.join(self.workdir, fname)
- if os.path.isfile(path):
- shutil.move(path, os.path.join(self.outdir, fname))
-
- # remove work directory when it is not in debugging mode
- if not self.debug:
- shutil.rmtree(self.workdir, ignore_errors=True)
-
-# Overhead of the MBR partitioning scheme (just one sector)
-MBR_OVERHEAD = 1
-
-# Overhead of the GPT partitioning scheme
-GPT_OVERHEAD = 34
-
-# Size of a sector in bytes
-SECTOR_SIZE = 512
-
-class PartitionedImage():
- """
- Partitioned image in a file.
- """
-
- def __init__(self, path, ptable_format, disk_id, partitions, native_sysroot=None, extra_space=0):
- self.path = path # Path to the image file
- self.numpart = 0 # Number of allocated partitions
- self.realpart = 0 # Number of partitions in the partition table
- self.primary_part_num = 0 # Number of primary partitions (msdos)
- self.extendedpart = 0 # Create extended partition before this logical partition (msdos)
- self.extended_size_sec = 0 # Size of exteded partition (msdos)
- self.logical_part_cnt = 0 # Number of total logical paritions (msdos)
- self.offset = 0 # Offset of next partition (in sectors)
- self.min_size = 0 # Minimum required disk size to fit
- # all partitions (in bytes)
- self.ptable_format = ptable_format # Partition table format
- # Disk system identifier
- if disk_id and ptable_format in ('gpt', 'gpt-hybrid'):
- self.disk_guid = disk_id
- elif os.getenv('SOURCE_DATE_EPOCH'):
- self.disk_guid = uuid.UUID(int=int(os.getenv('SOURCE_DATE_EPOCH')))
- else:
- self.disk_guid = uuid.uuid4()
-
- if disk_id and ptable_format == 'msdos':
- self.identifier = disk_id
- elif os.getenv('SOURCE_DATE_EPOCH'):
- self.identifier = random.Random(int(os.getenv('SOURCE_DATE_EPOCH'))).randint(1, 0xffffffff)
- else:
- self.identifier = random.SystemRandom().randint(1, 0xffffffff)
-
- self.partitions = partitions
- self.partimages = []
- # Size of a sector used in calculations
- sector_size_str = get_bitbake_var('WIC_SECTOR_SIZE')
- if sector_size_str is not None:
- try:
- self.sector_size = int(sector_size_str)
- except ValueError:
- self.sector_size = SECTOR_SIZE
- else:
- self.sector_size = SECTOR_SIZE
-
- self.native_sysroot = native_sysroot
- num_real_partitions = len([p for p in self.partitions if not p.no_table])
- self.extra_space = extra_space
-
- # calculate the real partition number, accounting for partitions not
- # in the partition table and logical partitions
- realnum = 0
- for part in self.partitions:
- if part.no_table:
- part.realnum = 0
- else:
- realnum += 1
- if self.ptable_format == 'msdos' and realnum > 3 and num_real_partitions > 4:
- part.realnum = realnum + 1
- continue
- part.realnum = realnum
-
- # generate parition and filesystem UUIDs
- for part in self.partitions:
- if not part.uuid and part.use_uuid:
- if self.ptable_format in ('gpt', 'gpt-hybrid'):
- part.uuid = str(uuid.uuid4())
- else: # msdos partition table
- part.uuid = '%08x-%02d' % (self.identifier, part.realnum)
- if not part.fsuuid:
- if part.fstype == 'vfat' or part.fstype == 'msdos':
- part.fsuuid = '0x' + str(uuid.uuid4())[:8].upper()
- else:
- part.fsuuid = str(uuid.uuid4())
- else:
- #make sure the fsuuid for vfat/msdos align with format 0xYYYYYYYY
- if part.fstype == 'vfat' or part.fstype == 'msdos':
- if part.fsuuid.upper().startswith("0X"):
- part.fsuuid = '0x' + part.fsuuid.upper()[2:].rjust(8,"0")
- else:
- part.fsuuid = '0x' + part.fsuuid.upper().rjust(8,"0")
-
- def prepare(self, imager):
- """Prepare an image. Call prepare method of all image partitions."""
- for part in self.partitions:
- # need to create the filesystems in order to get their
- # sizes before we can add them and do the layout.
- part.prepare(imager, imager.workdir, imager.oe_builddir,
- imager.rootfs_dir, imager.bootimg_dir,
- imager.kernel_dir, imager.native_sysroot,
- imager.updated_fstab_path)
-
- # Converting kB to sectors for parted
- part.size_sec = part.disk_size * 1024 // self.sector_size
-
- def layout_partitions(self):
- """ Layout the partitions, meaning calculate the position of every
- partition on the disk. The 'ptable_format' parameter defines the
- partition table format and may be "msdos". """
-
- logger.debug("Assigning %s partitions to disks", self.ptable_format)
-
- # The number of primary and logical partitions. Extended partition and
- # partitions not listed in the table are not included.
- num_real_partitions = len([p for p in self.partitions if not p.no_table])
-
- # Go through partitions in the order they are added in .ks file
- for num in range(len(self.partitions)):
- part = self.partitions[num]
-
- if self.ptable_format == 'msdos' and part.part_name:
- raise WicError("setting custom partition name is not " \
- "implemented for msdos partitions")
-
- if self.ptable_format == 'msdos' and part.part_type:
- # The --part-type can also be implemented for MBR partitions,
- # in which case it would map to the 1-byte "partition type"
- # filed at offset 3 of the partition entry.
- raise WicError("setting custom partition type is not " \
- "implemented for msdos partitions")
-
- if part.mbr and self.ptable_format != 'gpt-hybrid':
- raise WicError("Partition may only be included in MBR with " \
- "a gpt-hybrid partition table")
-
- # Get the disk where the partition is located
- self.numpart += 1
- if not part.no_table:
- self.realpart += 1
-
- if self.numpart == 1:
- if self.ptable_format == "msdos":
- overhead = MBR_OVERHEAD
- elif self.ptable_format in ("gpt", "gpt-hybrid"):
- overhead = GPT_OVERHEAD
-
- # Skip one sector required for the partitioning scheme overhead
- self.offset += overhead
-
- if self.ptable_format == "msdos":
- if self.primary_part_num > 3 or \
- (self.extendedpart == 0 and self.primary_part_num >= 3 and num_real_partitions > 4):
- part.type = 'logical'
- # Reserve a sector for EBR for every logical partition
- # before alignment is performed.
- if part.type == 'logical':
- self.offset += 2
-
- align_sectors = 0
- if part.align:
- # If not first partition and we do have alignment set we need
- # to align the partition.
- # FIXME: This leaves a empty spaces to the disk. To fill the
- # gaps we could enlargea the previous partition?
-
- # Calc how much the alignment is off.
- align_sectors = self.offset % (part.align * 1024 // self.sector_size)
-
- if align_sectors:
- # If partition is not aligned as required, we need
- # to move forward to the next alignment point
- align_sectors = (part.align * 1024 // self.sector_size) - align_sectors
-
- logger.debug("Realignment for %s%s with %s sectors, original"
- " offset %s, target alignment is %sK.",
- part.disk, self.numpart, align_sectors,
- self.offset, part.align)
-
- # increase the offset so we actually start the partition on right alignment
- self.offset += align_sectors
-
- if part.offset is not None:
- offset = part.offset // self.sector_size
-
- if offset * self.sector_size != part.offset:
- raise WicError("Could not place %s%s at offset %d with sector size %d" % (part.disk, self.numpart, part.offset, self.sector_size))
-
- delta = offset - self.offset
- if delta < 0:
- raise WicError("Could not place %s%s at offset %d: next free sector is %d (delta: %d)" % (part.disk, self.numpart, part.offset, self.offset, delta))
-
- logger.debug("Skipping %d sectors to place %s%s at offset %dK",
- delta, part.disk, self.numpart, part.offset)
-
- self.offset = offset
-
- part.start = self.offset
- self.offset += part.size_sec
-
- if not part.no_table:
- part.num = self.realpart
- else:
- part.num = 0
-
- if self.ptable_format == "msdos" and not part.no_table:
- if part.type == 'logical':
- self.logical_part_cnt += 1
- part.num = self.logical_part_cnt + 4
- if self.extendedpart == 0:
- # Create extended partition as a primary partition
- self.primary_part_num += 1
- self.extendedpart = part.num
- else:
- self.extended_size_sec += align_sectors
- self.extended_size_sec += part.size_sec + 2
- else:
- self.primary_part_num += 1
- part.num = self.primary_part_num
-
- logger.debug("Assigned %s to %s%d, sectors range %d-%d size %d "
- "sectors (%d bytes).", part.mountpoint, part.disk,
- part.num, part.start, self.offset - 1, part.size_sec,
- part.size_sec * self.sector_size)
-
- # Once all the partitions have been layed out, we can calculate the
- # minumim disk size
- self.min_size = self.offset
- if self.ptable_format in ("gpt", "gpt-hybrid"):
- self.min_size += GPT_OVERHEAD
-
- self.min_size *= self.sector_size
- self.min_size += self.extra_space
-
- def _create_partition(self, device, parttype, fstype, start, size):
- """ Create a partition on an image described by the 'device' object. """
-
- # Start is included to the size so we need to substract one from the end.
- end = start + size - 1
- logger.debug("Added '%s' partition, sectors %d-%d, size %d sectors",
- parttype, start, end, size)
-
- cmd = "export PARTED_SECTOR_SIZE=%d; parted -s %s unit s mkpart %s" % \
- (self.sector_size, device, parttype)
- if fstype:
- cmd += " %s" % fstype
- cmd += " %d %d" % (start, end)
-
- return exec_native_cmd(cmd, self.native_sysroot)
-
- def _write_identifier(self, device, identifier):
- logger.debug("Set disk identifier %x", identifier)
- with open(device, 'r+b') as img:
- img.seek(0x1B8)
- img.write(identifier.to_bytes(4, 'little'))
-
- def _make_disk(self, device, ptable_format, min_size):
- logger.debug("Creating sparse file %s", device)
- with open(device, 'w') as sparse:
- os.ftruncate(sparse.fileno(), min_size)
-
- logger.debug("Initializing partition table for %s", device)
- exec_native_cmd("export PARTED_SECTOR_SIZE=%d; parted -s %s mklabel %s" %
- (self.sector_size, device, ptable_format), self.native_sysroot)
-
- def _write_disk_guid(self):
- if self.ptable_format in ('gpt', 'gpt-hybrid'):
- logger.debug("Set disk guid %s", self.disk_guid)
- sfdisk_cmd = "sfdisk --sector-size %s --disk-id %s %s" % \
- (self.sector_size, self.path, self.disk_guid)
- exec_native_cmd(sfdisk_cmd, self.native_sysroot)
-
- def create(self):
- self._make_disk(self.path,
- "gpt" if self.ptable_format == "gpt-hybrid" else self.ptable_format,
- self.min_size)
-
- self._write_identifier(self.path, self.identifier)
- self._write_disk_guid()
-
- if self.ptable_format == "gpt-hybrid":
- mbr_path = self.path + ".mbr"
- self._make_disk(mbr_path, "msdos", self.min_size)
- self._write_identifier(mbr_path, self.identifier)
-
- logger.debug("Creating partitions")
-
- hybrid_mbr_part_num = 0
-
- for part in self.partitions:
- if part.num == 0:
- continue
-
- if self.ptable_format == "msdos" and part.num == self.extendedpart:
- # Create an extended partition (note: extended
- # partition is described in MBR and contains all
- # logical partitions). The logical partitions save a
- # sector for an EBR just before the start of a
- # partition. The extended partition must start one
- # sector before the start of the first logical
- # partition. This way the first EBR is inside of the
- # extended partition. Since the extended partitions
- # starts a sector before the first logical partition,
- # add a sector at the back, so that there is enough
- # room for all logical partitions.
- self._create_partition(self.path, "extended",
- None, part.start - 2,
- self.extended_size_sec)
-
- if part.fstype == "swap":
- parted_fs_type = "linux-swap"
- elif part.fstype == "vfat":
- parted_fs_type = "fat32"
- elif part.fstype == "msdos":
- parted_fs_type = "fat16"
- if not part.system_id:
- part.system_id = '0x6' # FAT16
- else:
- # Type for ext2/ext3/ext4/btrfs
- parted_fs_type = "ext2"
-
- # Boot ROM of OMAP boards require vfat boot partition to have an
- # even number of sectors.
- if part.mountpoint == "/boot" and part.fstype in ["vfat", "msdos"] \
- and part.size_sec % 2:
- logger.debug("Subtracting one sector from '%s' partition to "
- "get even number of sectors for the partition",
- part.mountpoint)
- part.size_sec -= 1
-
- self._create_partition(self.path, part.type,
- parted_fs_type, part.start, part.size_sec)
-
- if self.ptable_format == "gpt-hybrid" and part.mbr:
- hybrid_mbr_part_num += 1
- if hybrid_mbr_part_num > 4:
- raise WicError("Extended MBR partitions are not supported in hybrid MBR")
- self._create_partition(mbr_path, "primary",
- parted_fs_type, part.start, part.size_sec)
-
- if self.ptable_format in ("gpt", "gpt-hybrid") and (part.part_name or part.label):
- partition_label = part.part_name if part.part_name else part.label
- logger.debug("partition %d: set name to %s",
- part.num, partition_label)
- exec_native_cmd("sfdisk --sector-size %s --part-label %s %d %s" % \
- (self.sector_size, self.path, part.num,
- partition_label), self.native_sysroot)
- if part.part_type:
- logger.debug("partition %d: set type UID to %s",
- part.num, part.part_type)
- exec_native_cmd("sfdisk --sector-size %s --part-type %s %d %s" % \
- (self.sector_size, self.path, part.num,
- part.part_type), self.native_sysroot)
-
- if part.uuid and self.ptable_format in ("gpt", "gpt-hybrid"):
- logger.debug("partition %d: set UUID to %s",
- part.num, part.uuid)
- exec_native_cmd("sfdisk --sector-size %s --part-uuid %s %d %s" % \
- (self.sector_size, self.path, part.num, part.uuid),
- self.native_sysroot)
-
- if part.active:
- flag_name = "legacy_boot" if self.ptable_format in ('gpt', 'gpt-hybrid') else "boot"
- logger.debug("Set '%s' flag for partition '%s' on disk '%s'",
- flag_name, part.num, self.path)
- exec_native_cmd("export PARTED_SECTOR_SIZE=%d; parted -s %s set %d %s on" % \
- (self.sector_size, self.path, part.num, flag_name),
- self.native_sysroot)
- if self.ptable_format == 'gpt-hybrid' and part.mbr:
- exec_native_cmd("export PARTED_SECTOR_SIZE=%d; parted -s %s set %d %s on" % \
- (self.sector_size, mbr_path, hybrid_mbr_part_num, "boot"),
- self.native_sysroot)
- if part.system_id:
- exec_native_cmd("sfdisk --sector-size %s --part-type %s %s %s" % \
- (self.sector_size, self.path, part.num, part.system_id),
- self.native_sysroot)
-
- if part.hidden and self.ptable_format == "gpt":
- logger.debug("Set hidden attribute for partition '%s' on disk '%s'",
- part.num, self.path)
- exec_native_cmd("sfdisk --sector-size %s --part-attrs %s %s RequiredPartition" % \
- (self.sector_size, self.path, part.num),
- self.native_sysroot)
-
- if self.ptable_format == "gpt-hybrid":
- # Write a protective GPT partition
- hybrid_mbr_part_num += 1
- if hybrid_mbr_part_num > 4:
- raise WicError("Extended MBR partitions are not supported in hybrid MBR")
-
- # parted cannot directly create a protective GPT partition, so
- # create with an arbitrary type, then change it to the correct type
- # with sfdisk
- self._create_partition(mbr_path, "primary", "fat32", 1, GPT_OVERHEAD)
- exec_native_cmd("sfdisk --sector-size %s --part-type %s %d 0xee" % \
- (self.sector_size, mbr_path, hybrid_mbr_part_num),
- self.native_sysroot)
-
- # Copy hybrid MBR
- with open(mbr_path, "rb") as mbr_file:
- with open(self.path, "r+b") as image_file:
- mbr = mbr_file.read(512)
- image_file.write(mbr)
-
- def cleanup(self):
- pass
-
- def assemble(self):
- logger.debug("Installing partitions")
-
- for part in self.partitions:
- source = part.source_file
- if source:
- # install source_file contents into a partition
- sparse_copy(source, self.path, seek=part.start * self.sector_size)
-
- logger.debug("Installed %s in partition %d, sectors %d-%d, "
- "size %d sectors", source, part.num, part.start,
- part.start + part.size_sec - 1, part.size_sec)
-
- partimage = self.path + '.p%d' % part.num
- os.rename(source, partimage)
- self.partimages.append(partimage)
deleted file mode 100644
@@ -1,213 +0,0 @@
-#
-# This program is free software; you can redistribute it and/or modify
-# it under the terms of the GNU General Public License version 2 as
-# published by the Free Software Foundation.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License along
-# with this program; if not, write to the Free Software Foundation, Inc.,
-# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
-#
-# DESCRIPTION
-# This implements the 'bootimg_biosplusefi' source plugin class for 'wic'
-#
-# AUTHORS
-# William Bourque <wbourque [at) gmail.com>
-
-import types
-
-from wic.pluginbase import SourcePlugin
-from importlib.machinery import SourceFileLoader
-
-class BootimgBiosPlusEFIPlugin(SourcePlugin):
- """
- Create MBR + EFI boot partition
-
- This plugin creates a boot partition that contains both
- legacy BIOS and EFI content. It will be able to boot from both.
- This is useful when managing PC fleet with some older machines
- without EFI support.
-
- Note it is possible to create an image that can boot from both
- legacy BIOS and EFI by defining two partitions : one with arg
- --source bootimg_efi and another one with --source bootimg_pcbios.
- However, this method has the obvious downside that it requires TWO
- partitions to be created on the storage device.
- Both partitions will also be marked as "bootable" which does not work on
- most BIOS, has BIOS often uses the "bootable" flag to determine
- what to boot. If you have such a BIOS, you need to manually remove the
- "bootable" flag from the EFI partition for the drive to be bootable.
- Having two partitions also seems to confuse wic : the content of
- the first partition will be duplicated into the second, even though it
- will not be used at all.
-
- Also, unlike "isoimage_isohybrid" that also does BIOS and EFI, this plugin
- allows you to have more than only a single rootfs partitions and does
- not turn the rootfs into an initramfs RAM image.
-
- This plugin is made to put everything into a single /boot partition so it
- does not have the limitations listed above.
-
- The plugin is made so it does tries not to reimplement what's already
- been done in other plugins; as such it imports "bootimg_pcbios"
- and "bootimg_efi".
- Plugin "bootimg_pcbios" is used to generate legacy BIOS boot.
- Plugin "bootimg_efi" is used to generate the UEFI boot. Note that it
- requires a --sourceparams argument to know which loader to use; refer
- to "bootimg_efi" code/documentation for the list of loader.
-
- Imports are handled with "SourceFileLoader" from importlib as it is
- otherwise very difficult to import module that has hyphen "-" in their
- filename.
- The SourcePlugin() methods used in the plugins (do_install_disk,
- do_configure_partition, do_prepare_partition) are then called on both,
- beginning by "bootimg_efi".
-
- Plugin options, such as "--sourceparams" can still be passed to a
- plugin, as long they does not cause issue in the other plugin.
-
- Example wic configuration:
- part /boot --source bootimg_biosplusefi --sourceparams="loader=grub-efi"\\
- --ondisk sda --label os_boot --active --align 1024 --use-uuid
- """
-
- name = 'bootimg_biosplusefi'
-
- __PCBIOS_MODULE_NAME = "bootimg_pcbios"
- __EFI_MODULE_NAME = "bootimg_efi"
-
- __imgEFIObj = None
- __imgBiosObj = None
-
- @classmethod
- def __init__(cls):
- """
- Constructor (init)
- """
-
- # XXX
- # For some reasons, __init__ constructor is never called.
- # Something to do with how pluginbase works?
- cls.__instanciateSubClasses()
-
- @classmethod
- def __instanciateSubClasses(cls):
- """
-
- """
-
- # Import bootimg_pcbios (class name "BootimgPcbiosPlugin")
- modulePath = os.path.join(os.path.dirname(os.path.realpath(__file__)),
- cls.__PCBIOS_MODULE_NAME + ".py")
- loader = SourceFileLoader(cls.__PCBIOS_MODULE_NAME, modulePath)
- mod = types.ModuleType(loader.name)
- loader.exec_module(mod)
- cls.__imgBiosObj = mod.BootimgPcbiosPlugin()
-
- # Import bootimg_efi (class name "BootimgEFIPlugin")
- modulePath = os.path.join(os.path.dirname(os.path.realpath(__file__)),
- cls.__EFI_MODULE_NAME + ".py")
- loader = SourceFileLoader(cls.__EFI_MODULE_NAME, modulePath)
- mod = types.ModuleType(loader.name)
- loader.exec_module(mod)
- cls.__imgEFIObj = mod.BootimgEFIPlugin()
-
- @classmethod
- def do_install_disk(cls, disk, disk_name, creator, workdir, oe_builddir,
- bootimg_dir, kernel_dir, native_sysroot):
- """
- Called after all partitions have been prepared and assembled into a
- disk image.
- """
-
- if ( (not cls.__imgEFIObj) or (not cls.__imgBiosObj) ):
- cls.__instanciateSubClasses()
-
- cls.__imgEFIObj.do_install_disk(
- disk,
- disk_name,
- creator,
- workdir,
- oe_builddir,
- bootimg_dir,
- kernel_dir,
- native_sysroot)
-
- cls.__imgBiosObj.do_install_disk(
- disk,
- disk_name,
- creator,
- workdir,
- oe_builddir,
- bootimg_dir,
- kernel_dir,
- native_sysroot)
-
- @classmethod
- def do_configure_partition(cls, part, source_params, creator, cr_workdir,
- oe_builddir, bootimg_dir, kernel_dir,
- native_sysroot):
- """
- Called before do_prepare_partition()
- """
-
- if ( (not cls.__imgEFIObj) or (not cls.__imgBiosObj) ):
- cls.__instanciateSubClasses()
-
- cls.__imgEFIObj.do_configure_partition(
- part,
- source_params,
- creator,
- cr_workdir,
- oe_builddir,
- bootimg_dir,
- kernel_dir,
- native_sysroot)
-
- cls.__imgBiosObj.do_configure_partition(
- part,
- source_params,
- creator,
- cr_workdir,
- oe_builddir,
- bootimg_dir,
- kernel_dir,
- native_sysroot)
-
- @classmethod
- def do_prepare_partition(cls, part, source_params, creator, cr_workdir,
- oe_builddir, bootimg_dir, kernel_dir,
- rootfs_dir, native_sysroot):
- """
- Called to do the actual content population for a partition i.e. it
- 'prepares' the partition to be incorporated into the image.
- """
-
- if ( (not cls.__imgEFIObj) or (not cls.__imgBiosObj) ):
- cls.__instanciateSubClasses()
-
- cls.__imgEFIObj.do_prepare_partition(
- part,
- source_params,
- creator,
- cr_workdir,
- oe_builddir,
- bootimg_dir,
- kernel_dir,
- rootfs_dir,
- native_sysroot)
-
- cls.__imgBiosObj.do_prepare_partition(
- part,
- source_params,
- creator,
- cr_workdir,
- oe_builddir,
- bootimg_dir,
- kernel_dir,
- rootfs_dir,
- native_sysroot)
deleted file mode 100644
@@ -1,435 +0,0 @@
-#
-# Copyright (c) 2014, Intel Corporation.
-#
-# SPDX-License-Identifier: GPL-2.0-only
-#
-# DESCRIPTION
-# This implements the 'bootimg_efi' source plugin class for 'wic'
-#
-# AUTHORS
-# Tom Zanussi <tom.zanussi (at] linux.intel.com>
-#
-
-import logging
-import os
-import tempfile
-import shutil
-import re
-
-from glob import glob
-
-from wic import WicError
-from wic.engine import get_custom_config
-from wic.pluginbase import SourcePlugin
-from wic.misc import (exec_cmd, exec_native_cmd,
- get_bitbake_var, BOOTDD_EXTRA_SPACE)
-
-logger = logging.getLogger('wic')
-
-class BootimgEFIPlugin(SourcePlugin):
- """
- Create EFI boot partition.
- This plugin supports GRUB 2 and systemd-boot bootloaders.
- """
-
- name = 'bootimg_efi'
-
- @classmethod
- def _copy_additional_files(cls, hdddir, initrd, dtb):
- bootimg_dir = get_bitbake_var("DEPLOY_DIR_IMAGE")
- if not bootimg_dir:
- raise WicError("Couldn't find DEPLOY_DIR_IMAGE, exiting")
-
- if initrd:
- initrds = initrd.split(';')
- for rd in initrds:
- cp_cmd = "cp -v -p %s/%s %s" % (bootimg_dir, rd, hdddir)
- out = exec_cmd(cp_cmd, True)
- logger.debug("initrd files:\n%s" % (out))
- else:
- logger.debug("Ignoring missing initrd")
-
- if dtb:
- if ';' in dtb:
- raise WicError("Only one DTB supported, exiting")
- cp_cmd = "cp -v -p %s/%s %s" % (bootimg_dir, dtb, hdddir)
- out = exec_cmd(cp_cmd, True)
- logger.debug("dtb files:\n%s" % (out))
-
- @classmethod
- def do_configure_grubefi(cls, hdddir, creator, cr_workdir, source_params):
- """
- Create loader-specific (grub-efi) config
- """
- configfile = creator.ks.bootloader.configfile
- custom_cfg = None
- if configfile:
- custom_cfg = get_custom_config(configfile)
- if custom_cfg:
- # Use a custom configuration for grub
- grubefi_conf = custom_cfg
- logger.debug("Using custom configuration file "
- "%s for grub.cfg", configfile)
- else:
- raise WicError("configfile is specified but failed to "
- "get it from %s." % configfile)
-
- initrd = source_params.get('initrd')
- dtb = source_params.get('dtb')
-
- cls._copy_additional_files(hdddir, initrd, dtb)
-
- if not custom_cfg:
- # Create grub configuration using parameters from wks file
- bootloader = creator.ks.bootloader
- title = source_params.get('title')
-
- grubefi_conf = ""
- grubefi_conf += "serial --unit=0 --speed=115200 --word=8 --parity=no --stop=1\n"
- grubefi_conf += "default=boot\n"
- grubefi_conf += "timeout=%s\n" % bootloader.timeout
- grubefi_conf += "menuentry '%s'{\n" % (title if title else "boot")
-
- kernel = get_bitbake_var("KERNEL_IMAGETYPE")
- if get_bitbake_var("INITRAMFS_IMAGE_BUNDLE") == "1":
- if get_bitbake_var("INITRAMFS_IMAGE"):
- kernel = "%s-%s.bin" % \
- (get_bitbake_var("KERNEL_IMAGETYPE"), get_bitbake_var("INITRAMFS_LINK_NAME"))
-
- label = source_params.get('label')
- label_conf = "root=%s" % creator.rootdev
- if label:
- label_conf = "LABEL=%s" % label
-
- grubefi_conf += "linux /%s %s rootwait %s\n" \
- % (kernel, label_conf, bootloader.append)
-
- if initrd:
- initrds = initrd.split(';')
- grubefi_conf += "initrd"
- for rd in initrds:
- grubefi_conf += " /%s" % rd
- grubefi_conf += "\n"
-
- if dtb:
- grubefi_conf += "devicetree /%s\n" % dtb
-
- grubefi_conf += "}\n"
-
- logger.debug("Writing grubefi config %s/hdd/boot/EFI/BOOT/grub.cfg",
- cr_workdir)
- cfg = open("%s/hdd/boot/EFI/BOOT/grub.cfg" % cr_workdir, "w")
- cfg.write(grubefi_conf)
- cfg.close()
-
- @classmethod
- def do_configure_systemdboot(cls, hdddir, creator, cr_workdir, source_params):
- """
- Create loader-specific systemd-boot/gummiboot config. Unified Kernel Image (uki)
- support is done in image recipe with uki.bbclass and only systemd-boot loader config
- and ESP partition structure is created here.
- """
- # detect uki.bbclass usage
- image_classes = get_bitbake_var("IMAGE_CLASSES").split()
- unified_image = False
- if "uki" in image_classes:
- unified_image = True
-
- install_cmd = "install -d %s/loader" % hdddir
- exec_cmd(install_cmd)
-
- install_cmd = "install -d %s/loader/entries" % hdddir
- exec_cmd(install_cmd)
-
- bootloader = creator.ks.bootloader
- loader_conf = ""
-
- # 5 seconds is a sensible default timeout
- loader_conf += "timeout %d\n" % (bootloader.timeout or 5)
-
- logger.debug("Writing systemd-boot config "
- "%s/hdd/boot/loader/loader.conf", cr_workdir)
- cfg = open("%s/hdd/boot/loader/loader.conf" % cr_workdir, "w")
- cfg.write(loader_conf)
- logger.debug("loader.conf:\n%s" % (loader_conf))
- cfg.close()
-
- initrd = source_params.get('initrd')
- dtb = source_params.get('dtb')
- if not unified_image:
- cls._copy_additional_files(hdddir, initrd, dtb)
-
- configfile = creator.ks.bootloader.configfile
- custom_cfg = None
- boot_conf = ""
- if configfile:
- custom_cfg = get_custom_config(configfile)
- if custom_cfg:
- # Use a custom configuration for systemd-boot
- boot_conf = custom_cfg
- logger.debug("Using custom configuration file "
- "%s for systemd-boots's boot.conf", configfile)
- else:
- raise WicError("configfile is specified but failed to "
- "get it from %s.", configfile)
- else:
- # Create systemd-boot configuration using parameters from wks file
- kernel = get_bitbake_var("KERNEL_IMAGETYPE")
- if get_bitbake_var("INITRAMFS_IMAGE_BUNDLE") == "1":
- if get_bitbake_var("INITRAMFS_IMAGE"):
- kernel = "%s-%s.bin" % \
- (get_bitbake_var("KERNEL_IMAGETYPE"), get_bitbake_var("INITRAMFS_LINK_NAME"))
-
- title = source_params.get('title')
-
- boot_conf += "title %s\n" % (title if title else "boot")
- boot_conf += "linux /%s\n" % kernel
-
- label = source_params.get('label')
- label_conf = "LABEL=Boot root=%s" % creator.rootdev
- if label:
- label_conf = "LABEL=%s" % label
-
- boot_conf += "options %s %s\n" % \
- (label_conf, bootloader.append)
-
- if initrd:
- initrds = initrd.split(';')
- for rd in initrds:
- boot_conf += "initrd /%s\n" % rd
-
- if dtb:
- boot_conf += "devicetree /%s\n" % dtb
-
- if not unified_image:
- logger.debug("Writing systemd-boot config "
- "%s/hdd/boot/loader/entries/boot.conf", cr_workdir)
- cfg = open("%s/hdd/boot/loader/entries/boot.conf" % cr_workdir, "w")
- cfg.write(boot_conf)
- logger.debug("boot.conf:\n%s" % (boot_conf))
- cfg.close()
-
-
- @classmethod
- def do_configure_partition(cls, part, source_params, creator, cr_workdir,
- oe_builddir, bootimg_dir, kernel_dir,
- native_sysroot):
- """
- Called before do_prepare_partition(), creates loader-specific config
- """
- hdddir = "%s/hdd/boot" % cr_workdir
-
- install_cmd = "install -d %s/EFI/BOOT" % hdddir
- exec_cmd(install_cmd)
-
- try:
- if source_params['loader'] == 'grub-efi':
- cls.do_configure_grubefi(hdddir, creator, cr_workdir, source_params)
- elif source_params['loader'] == 'systemd-boot':
- cls.do_configure_systemdboot(hdddir, creator, cr_workdir, source_params)
- elif source_params['loader'] == 'uefi-kernel':
- pass
- else:
- raise WicError("unrecognized bootimg_efi loader: %s" % source_params['loader'])
- except KeyError:
- raise WicError("bootimg_efi requires a loader, none specified")
-
- if get_bitbake_var("IMAGE_EFI_BOOT_FILES") is None:
- logger.debug('No boot files defined in IMAGE_EFI_BOOT_FILES')
- else:
- boot_files = None
- for (fmt, id) in (("_uuid-%s", part.uuid), ("_label-%s", part.label), (None, None)):
- if fmt:
- var = fmt % id
- else:
- var = ""
-
- boot_files = get_bitbake_var("IMAGE_EFI_BOOT_FILES" + var)
- if boot_files:
- break
-
- logger.debug('Boot files: %s', boot_files)
-
- # list of tuples (src_name, dst_name)
- deploy_files = []
- for src_entry in re.findall(r'[\w;\-\.\+/\*]+', boot_files):
- if ';' in src_entry:
- dst_entry = tuple(src_entry.split(';'))
- if not dst_entry[0] or not dst_entry[1]:
- raise WicError('Malformed boot file entry: %s' % src_entry)
- else:
- dst_entry = (src_entry, src_entry)
-
- logger.debug('Destination entry: %r', dst_entry)
- deploy_files.append(dst_entry)
-
- cls.install_task = [];
- for deploy_entry in deploy_files:
- src, dst = deploy_entry
- if '*' in src:
- # by default install files under their basename
- entry_name_fn = os.path.basename
- if dst != src:
- # unless a target name was given, then treat name
- # as a directory and append a basename
- entry_name_fn = lambda name: \
- os.path.join(dst,
- os.path.basename(name))
-
- srcs = glob(os.path.join(kernel_dir, src))
-
- logger.debug('Globbed sources: %s', ', '.join(srcs))
- for entry in srcs:
- src = os.path.relpath(entry, kernel_dir)
- entry_dst_name = entry_name_fn(entry)
- cls.install_task.append((src, entry_dst_name))
- else:
- cls.install_task.append((src, dst))
-
- @classmethod
- def do_prepare_partition(cls, part, source_params, creator, cr_workdir,
- oe_builddir, bootimg_dir, kernel_dir,
- rootfs_dir, native_sysroot):
- """
- Called to do the actual content population for a partition i.e. it
- 'prepares' the partition to be incorporated into the image.
- In this case, prepare content for an EFI (grub) boot partition.
- """
- if not kernel_dir:
- kernel_dir = get_bitbake_var("DEPLOY_DIR_IMAGE")
- if not kernel_dir:
- raise WicError("Couldn't find DEPLOY_DIR_IMAGE, exiting")
-
- staging_kernel_dir = kernel_dir
-
- hdddir = "%s/hdd/boot" % cr_workdir
-
- kernel = get_bitbake_var("KERNEL_IMAGETYPE")
- if get_bitbake_var("INITRAMFS_IMAGE_BUNDLE") == "1":
- if get_bitbake_var("INITRAMFS_IMAGE"):
- kernel = "%s-%s.bin" % \
- (get_bitbake_var("KERNEL_IMAGETYPE"), get_bitbake_var("INITRAMFS_LINK_NAME"))
-
- if source_params.get('create-unified-kernel-image') == "true":
- raise WicError("create-unified-kernel-image is no longer supported. Please use uki.bbclass.")
-
- if source_params.get('install-kernel-into-boot-dir') != 'false':
- install_cmd = "install -v -p -m 0644 %s/%s %s/%s" % \
- (staging_kernel_dir, kernel, hdddir, kernel)
- out = exec_cmd(install_cmd)
- logger.debug("Installed kernel files:\n%s" % out)
-
- if get_bitbake_var("IMAGE_EFI_BOOT_FILES"):
- for src_path, dst_path in cls.install_task:
- install_cmd = "install -v -p -m 0644 -D %s %s" \
- % (os.path.join(kernel_dir, src_path),
- os.path.join(hdddir, dst_path))
- out = exec_cmd(install_cmd)
- logger.debug("Installed IMAGE_EFI_BOOT_FILES:\n%s" % out)
-
- try:
- if source_params['loader'] == 'grub-efi':
- shutil.copyfile("%s/hdd/boot/EFI/BOOT/grub.cfg" % cr_workdir,
- "%s/grub.cfg" % cr_workdir)
- for mod in [x for x in os.listdir(kernel_dir) if x.startswith("grub-efi-")]:
- cp_cmd = "cp -v -p %s/%s %s/EFI/BOOT/%s" % (kernel_dir, mod, hdddir, mod[9:])
- exec_cmd(cp_cmd, True)
- shutil.move("%s/grub.cfg" % cr_workdir,
- "%s/hdd/boot/EFI/BOOT/grub.cfg" % cr_workdir)
- elif source_params['loader'] == 'systemd-boot':
- for mod in [x for x in os.listdir(kernel_dir) if x.startswith("systemd-")]:
- cp_cmd = "cp -v -p %s/%s %s/EFI/BOOT/%s" % (kernel_dir, mod, hdddir, mod[8:])
- out = exec_cmd(cp_cmd, True)
- logger.debug("systemd-boot files:\n%s" % out)
- elif source_params['loader'] == 'uefi-kernel':
- kernel = get_bitbake_var("KERNEL_IMAGETYPE")
- if not kernel:
- raise WicError("Empty KERNEL_IMAGETYPE")
- target = get_bitbake_var("TARGET_SYS")
- if not target:
- raise WicError("Empty TARGET_SYS")
-
- if re.match("x86_64", target):
- kernel_efi_image = "bootx64.efi"
- elif re.match('i.86', target):
- kernel_efi_image = "bootia32.efi"
- elif re.match('aarch64', target):
- kernel_efi_image = "bootaa64.efi"
- elif re.match('arm', target):
- kernel_efi_image = "bootarm.efi"
- else:
- raise WicError("UEFI stub kernel is incompatible with target %s" % target)
-
- for mod in [x for x in os.listdir(kernel_dir) if x.startswith(kernel)]:
- cp_cmd = "cp -v -p %s/%s %s/EFI/BOOT/%s" % (kernel_dir, mod, hdddir, kernel_efi_image)
- out = exec_cmd(cp_cmd, True)
- logger.debug("uefi-kernel files:\n%s" % out)
- else:
- raise WicError("unrecognized bootimg_efi loader: %s" %
- source_params['loader'])
-
- # must have installed at least one EFI bootloader
- out = glob(os.path.join(hdddir, 'EFI', 'BOOT', 'boot*.efi'))
- logger.debug("Installed EFI loader files:\n%s" % out)
- if not out:
- raise WicError("No EFI loaders installed to ESP partition. Check that grub-efi, systemd-boot or similar is installed.")
-
- except KeyError:
- raise WicError("bootimg_efi requires a loader, none specified")
-
- startup = os.path.join(kernel_dir, "startup.nsh")
- if os.path.exists(startup):
- cp_cmd = "cp -v -p %s %s/" % (startup, hdddir)
- out = exec_cmd(cp_cmd, True)
- logger.debug("startup files:\n%s" % out)
-
- for paths in part.include_path or []:
- for path in paths:
- cp_cmd = "cp -v -p -r %s %s/" % (path, hdddir)
- out = exec_cmd(cp_cmd, True)
- logger.debug("include_path files:\n%s" % out)
-
- du_cmd = "du --apparent-size -ks %s" % hdddir
- out = exec_cmd(du_cmd)
- blocks = int(out.split()[0])
-
- extra_blocks = part.get_extra_block_count(blocks)
-
- if extra_blocks < BOOTDD_EXTRA_SPACE:
- extra_blocks = BOOTDD_EXTRA_SPACE
-
- blocks += extra_blocks
-
- logger.debug("Added %d extra blocks to %s to get to %d total blocks",
- extra_blocks, part.mountpoint, blocks)
-
- # required for compatibility with certain devices expecting file system
- # block count to be equal to partition block count
- if blocks < part.fixed_size:
- blocks = part.fixed_size
- logger.debug("Overriding %s to %d total blocks for compatibility",
- part.mountpoint, blocks)
-
- # dosfs image, created by mkdosfs
- bootimg = "%s/boot.img" % cr_workdir
-
- label = part.label if part.label else "ESP"
-
- dosfs_cmd = "mkdosfs -v -n %s -i %s -C %s %d" % \
- (label, part.fsuuid, bootimg, blocks)
- exec_native_cmd(dosfs_cmd, native_sysroot)
- logger.debug("mkdosfs:\n%s" % (str(out)))
-
- mcopy_cmd = "mcopy -v -p -i %s -s %s/* ::/" % (bootimg, hdddir)
- out = exec_native_cmd(mcopy_cmd, native_sysroot)
- logger.debug("mcopy:\n%s" % (str(out)))
-
- chmod_cmd = "chmod 644 %s" % bootimg
- exec_cmd(chmod_cmd)
-
- du_cmd = "du --apparent-size -Lks %s" % bootimg
- out = exec_cmd(du_cmd)
- bootimg_size = out.split()[0]
-
- part.size = int(bootimg_size)
- part.source_file = bootimg
deleted file mode 100644
@@ -1,162 +0,0 @@
-#
-# Copyright OpenEmbedded Contributors
-#
-# SPDX-License-Identifier: GPL-2.0-only
-#
-# DESCRIPTION
-# This implements the 'bootimg_partition' source plugin class for
-# 'wic'. The plugin creates an image of boot partition, copying over
-# files listed in IMAGE_BOOT_FILES bitbake variable.
-#
-# AUTHORS
-# Maciej Borzecki <maciej.borzecki (at] open-rnd.pl>
-#
-
-import logging
-import os
-import re
-
-from oe.bootfiles import get_boot_files
-
-from wic import WicError
-from wic.engine import get_custom_config
-from wic.pluginbase import SourcePlugin
-from wic.misc import exec_cmd, get_bitbake_var
-
-logger = logging.getLogger('wic')
-
-class BootimgPartitionPlugin(SourcePlugin):
- """
- Create an image of boot partition, copying over files
- listed in IMAGE_BOOT_FILES bitbake variable.
- """
-
- name = 'bootimg_partition'
- image_boot_files_var_name = 'IMAGE_BOOT_FILES'
-
- @classmethod
- def do_configure_partition(cls, part, source_params, cr, cr_workdir,
- oe_builddir, bootimg_dir, kernel_dir,
- native_sysroot):
- """
- Called before do_prepare_partition(), create u-boot specific boot config
- """
- hdddir = "%s/boot.%d" % (cr_workdir, part.lineno)
- install_cmd = "install -d %s" % hdddir
- exec_cmd(install_cmd)
-
- if not kernel_dir:
- kernel_dir = get_bitbake_var("DEPLOY_DIR_IMAGE")
- if not kernel_dir:
- raise WicError("Couldn't find DEPLOY_DIR_IMAGE, exiting")
-
- boot_files = None
- for (fmt, id) in (("_uuid-%s", part.uuid), ("_label-%s", part.label), (None, None)):
- if fmt:
- var = fmt % id
- else:
- var = ""
-
- boot_files = get_bitbake_var(cls.image_boot_files_var_name + var)
- if boot_files is not None:
- break
-
- if boot_files is None:
- raise WicError('No boot files defined, %s unset for entry #%d' % (cls.image_boot_files_var_name, part.lineno))
-
- logger.debug('Boot files: %s', boot_files)
-
- cls.install_task = get_boot_files(kernel_dir, boot_files)
- if source_params.get('loader') != "u-boot":
- return
-
- configfile = cr.ks.bootloader.configfile
- custom_cfg = None
- if configfile:
- custom_cfg = get_custom_config(configfile)
- if custom_cfg:
- # Use a custom configuration for extlinux.conf
- extlinux_conf = custom_cfg
- logger.debug("Using custom configuration file "
- "%s for extlinux.conf", configfile)
- else:
- raise WicError("configfile is specified but failed to "
- "get it from %s." % configfile)
-
- if not custom_cfg:
- # The kernel types supported by the sysboot of u-boot
- kernel_types = ["zImage", "Image", "fitImage", "uImage", "vmlinux"]
- has_dtb = False
- fdt_dir = '/'
- kernel_name = None
-
- # Find the kernel image name, from the highest precedence to lowest
- for image in kernel_types:
- for task in cls.install_task:
- src, dst = task
- if re.match(image, src):
- kernel_name = os.path.join('/', dst)
- break
- if kernel_name:
- break
-
- for task in cls.install_task:
- src, dst = task
- # We suppose that all the dtb are in the same directory
- if re.search(r'\.dtb', src) and fdt_dir == '/':
- has_dtb = True
- fdt_dir = os.path.join(fdt_dir, os.path.dirname(dst))
- break
-
- if not kernel_name:
- raise WicError('No kernel file found')
-
- # Compose the extlinux.conf
- extlinux_conf = "default Yocto\n"
- extlinux_conf += "label Yocto\n"
- extlinux_conf += " kernel %s\n" % kernel_name
- if has_dtb:
- extlinux_conf += " fdtdir %s\n" % fdt_dir
- bootloader = cr.ks.bootloader
- extlinux_conf += "append root=%s rootwait %s\n" \
- % (cr.rootdev, bootloader.append if bootloader.append else '')
-
- install_cmd = "install -d %s/extlinux/" % hdddir
- exec_cmd(install_cmd)
- cfg = open("%s/extlinux/extlinux.conf" % hdddir, "w")
- cfg.write(extlinux_conf)
- cfg.close()
-
-
- @classmethod
- def do_prepare_partition(cls, part, source_params, cr, cr_workdir,
- oe_builddir, bootimg_dir, kernel_dir,
- rootfs_dir, native_sysroot):
- """
- Called to do the actual content population for a partition i.e. it
- 'prepares' the partition to be incorporated into the image.
- In this case, does the following:
- - sets up a vfat partition
- - copies all files listed in IMAGE_BOOT_FILES variable
- """
- hdddir = "%s/boot.%d" % (cr_workdir, part.lineno)
-
- if not kernel_dir:
- kernel_dir = get_bitbake_var("DEPLOY_DIR_IMAGE")
- if not kernel_dir:
- raise WicError("Couldn't find DEPLOY_DIR_IMAGE, exiting")
-
- logger.debug('Kernel dir: %s', bootimg_dir)
-
-
- for task in cls.install_task:
- src_path, dst_path = task
- logger.debug('Install %s as %s', src_path, dst_path)
- install_cmd = "install -m 0644 -D %s %s" \
- % (os.path.join(kernel_dir, src_path),
- os.path.join(hdddir, dst_path))
- exec_cmd(install_cmd)
-
- logger.debug('Prepare boot partition using rootfs in %s', hdddir)
- part.prepare_rootfs(cr_workdir, oe_builddir, hdddir,
- native_sysroot, False)
deleted file mode 100644
@@ -1,483 +0,0 @@
-#
-# Copyright (c) 2014, Intel Corporation.
-#
-# SPDX-License-Identifier: GPL-2.0-only
-#
-# DESCRIPTION
-# This implements the 'bootimg_pcbios' source plugin class for 'wic'
-#
-# AUTHORS
-# Tom Zanussi <tom.zanussi (at] linux.intel.com>
-#
-
-import logging
-import os
-import re
-import shutil
-
-from glob import glob
-from wic import WicError
-from wic.engine import get_custom_config
-from wic.pluginbase import SourcePlugin
-from wic.misc import (exec_cmd, exec_native_cmd,
- get_bitbake_var, BOOTDD_EXTRA_SPACE)
-
-logger = logging.getLogger('wic')
-
-class BootimgPcbiosPlugin(SourcePlugin):
- """
- Creates boot partition that is legacy BIOS firmare bootable with
- MBR/MSDOS as partition table format. Plugin will install caller
- selected bootloader directly to resulting wic image.
-
- Supported Bootloaders:
- * syslinux (default)
- * grub
-
- ****************** Wic Plugin Depends/Vars ******************
- WKS_FILE_DEPENDS = "grub-native grub"
- WKS_FILE_DEPENDS = "syslinux-native syslinux"
-
- # Optional variables
- # GRUB_MKIMAGE_FORMAT_PC - Used to define target platform.
- # GRUB_PREFIX_PATH - Used to define which directory
- # grub config and modules are going
- # to reside in.
- GRUB_PREFIX_PATH = '/boot/grub2' # Default: /boot/grub
- GRUB_MKIMAGE_FORMAT_PC = 'i386-pc' # Default: i386-pc
-
- WICVARS:append = "\
- GRUB_PREFIX_PATH \
- GRUB_MKIMAGE_FORMAT_PC \
- "
- ****************** Wic Plugin Depends/Vars ******************
-
-
- **************** Example kickstart Legacy Bios Grub Boot ****************
- part boot --label bios_boot --fstype ext4 --offset 1024 --fixed-size 78M
- --source bootimg_pcbios --sourceparams="loader-bios=grub" --active
-
- part roots --label rootfs --fstype ext4 --source rootfs --use-uuid
- bootloader --ptable msdos --source bootimg_pcbios
- **************** Example kickstart Legacy Bios Grub Boot ****************
-
-
- *************** Example kickstart Legacy Bios Syslinux Boot ****************
- part /boot --source bootimg_pcbios --sourceparams="loader-bios=syslinux"
- --ondisk sda --label boot --fstype vfat --align 1024 --active
-
- part roots --label rootfs --fstype ext4 --source rootfs --use-uuid
- bootloader --ptable msdos --source bootimg_pcbios
- """
-
- name = 'bootimg_pcbios'
-
- # Variable required for do_install_disk
- loader = ''
-
- @classmethod
- def _get_bootimg_dir(cls, bootimg_dir, dirname):
- """
- Check if dirname exists in default bootimg_dir or in STAGING_DIR.
- """
- staging_datadir = get_bitbake_var("STAGING_DATADIR")
- for result in (bootimg_dir, staging_datadir):
- if os.path.exists("%s/%s" % (result, dirname)):
- return result
-
- # STAGING_DATADIR is expanded with MLPREFIX if multilib is enabled
- # but dependency syslinux is still populated to original STAGING_DATADIR
- nonarch_datadir = re.sub('/[^/]*recipe-sysroot', '/recipe-sysroot', staging_datadir)
- if os.path.exists(os.path.join(nonarch_datadir, dirname)):
- return nonarch_datadir
-
- raise WicError("Couldn't find correct bootimg_dir, exiting")
-
- @classmethod
- def do_install_disk(cls, disk, disk_name, creator, workdir, oe_builddir,
- bootimg_dir, kernel_dir, native_sysroot):
- full_path = creator._full_path(workdir, disk_name, "direct")
- logger.debug("Installing MBR on disk %s as %s with size %s bytes",
- disk_name, full_path, disk.min_size)
-
- if cls.loader == 'grub':
- cls._do_install_grub(creator, kernel_dir,
- native_sysroot, full_path)
- elif cls.loader == 'syslinux':
- cls._do_install_syslinux(creator, bootimg_dir,
- native_sysroot, full_path)
- else:
- raise WicError("boot loader some how not specified check do_prepare_partition")
-
- @classmethod
- def do_configure_partition(cls, part, source_params, creator, cr_workdir,
- oe_builddir, bootimg_dir, kernel_dir,
- native_sysroot):
- try:
- if source_params['loader-bios'] == 'grub':
- cls._do_configure_grub(part, creator, cr_workdir)
- elif source_params['loader-bios'] == 'syslinux':
- cls._do_configure_syslinux(part, creator, cr_workdir)
- else:
- raise WicError("unrecognized bootimg_pcbios loader: %s" % source_params['loader-bios'])
- except KeyError:
- cls._do_configure_syslinux(part, creator, cr_workdir)
-
- @classmethod
- def do_prepare_partition(cls, part, source_params, creator, cr_workdir,
- oe_builddir, bootimg_dir, kernel_dir,
- rootfs_dir, native_sysroot):
- try:
- if source_params['loader-bios'] == 'grub':
- cls._do_prepare_grub(part, cr_workdir, oe_builddir,
- kernel_dir, rootfs_dir, native_sysroot)
- elif source_params['loader-bios'] == 'syslinux':
- cls._do_prepare_syslinux(part, cr_workdir, bootimg_dir,
- kernel_dir, native_sysroot)
- else:
- raise WicError("unrecognized bootimg_pcbios loader: %s" % source_params['loader-bios'])
-
- # Required by do_install_disk
- cls.loader = source_params['loader-bios']
- except KeyError:
- # Required by do_install_disk
- cls.loader = 'syslinux'
- cls._do_prepare_syslinux(part, cr_workdir, bootimg_dir,
- kernel_dir, native_sysroot)
-
- @classmethod
- def _get_staging_libdir(cls):
- """
- For unknown reasons when running test with poky
- STAGING_LIBDIR gets unset when wic create is executed.
- Bellow is a hack to determine what STAGING_LIBDIR should
- be if not specified.
- """
-
- staging_libdir = get_bitbake_var('STAGING_LIBDIR')
- staging_dir_target = get_bitbake_var('STAGING_DIR_TARGET')
-
- if not staging_libdir:
- staging_libdir = '%s/usr/lib64' % staging_dir_target
- if not os.path.isdir(staging_libdir):
- staging_libdir = '%s/usr/lib32' % staging_dir_target
- if not os.path.isdir(staging_libdir):
- staging_libdir = '%s/usr/lib' % staging_dir_target
-
- return staging_libdir
-
- @classmethod
- def _get_bootloader_config(cls, bootloader, loader):
- custom_cfg = None
-
- if bootloader.configfile:
- custom_cfg = get_custom_config(bootloader.configfile)
- if custom_cfg:
- logger.debug("Using custom configuration file %s "
- "for %s.cfg", bootloader.configfile,
- loader)
- return custom_cfg
- else:
- raise WicError("configfile is specified but failed to "
- "get it from %s." % bootloader.configfile)
- return custom_cfg
-
- @classmethod
- def _do_configure_syslinux(cls, part, creator, cr_workdir):
- """
- Called before do_prepare_partition(), creates syslinux config
- """
-
- hdddir = "%s/hdd/boot" % cr_workdir
-
- install_cmd = "install -d %s" % hdddir
- exec_cmd(install_cmd)
-
- bootloader = creator.ks.bootloader
- syslinux_conf = cls._get_bootloader_config(bootloader, 'syslinux')
-
- if not syslinux_conf:
- # Create syslinux configuration using parameters from wks file
- splash = os.path.join(hdddir, "/splash.jpg")
- if os.path.exists(splash):
- splashline = "menu background splash.jpg"
- else:
- splashline = ""
-
- # Set a default timeout if none specified to avoid
- # 'None' being the value placed within the configuration
- # file.
- if not bootloader.timeout:
- bootloader.timeout = 500
-
- # Set a default kernel params string if none specified
- # to avoid 'None' being the value placed within the
- # configuration file.
- if not bootloader.append:
- bootloader.append = "rootwait console=ttyS0,115200 console=tty0"
-
- syslinux_conf = ""
- syslinux_conf += "PROMPT 0\n"
- syslinux_conf += "TIMEOUT " + str(bootloader.timeout) + "\n"
- syslinux_conf += "\n"
- syslinux_conf += "ALLOWOPTIONS 1\n"
- syslinux_conf += "SERIAL 0 115200\n"
- syslinux_conf += "\n"
- if splashline:
- syslinux_conf += "%s\n" % splashline
- syslinux_conf += "DEFAULT boot\n"
- syslinux_conf += "LABEL boot\n"
-
- kernel = "/" + get_bitbake_var("KERNEL_IMAGETYPE")
- syslinux_conf += "KERNEL " + kernel + "\n"
-
- syslinux_conf += "APPEND label=boot root=%s %s\n" % \
- (creator.rootdev, bootloader.append)
-
- logger.debug("Writing syslinux config %s/syslinux.cfg", hdddir)
- cfg = open("%s/hdd/boot/syslinux.cfg" % cr_workdir, "w")
- cfg.write(syslinux_conf)
- cfg.close()
-
- @classmethod
- def _do_prepare_syslinux(cls, part, cr_workdir, bootimg_dir,
- kernel_dir, native_sysroot):
- """
- Called to do the actual content population for a partition i.e. it
- 'prepares' the partition to be incorporated into the image.
- In this case, prepare content for legacy bios boot partition.
- """
- bootimg_dir = cls._get_bootimg_dir(bootimg_dir, 'syslinux')
-
- staging_kernel_dir = kernel_dir
-
- hdddir = "%s/hdd/boot" % cr_workdir
-
- kernel = get_bitbake_var("KERNEL_IMAGETYPE")
- if get_bitbake_var("INITRAMFS_IMAGE_BUNDLE") == "1":
- if get_bitbake_var("INITRAMFS_IMAGE"):
- kernel = "%s-%s.bin" % \
- (get_bitbake_var("KERNEL_IMAGETYPE"), get_bitbake_var("INITRAMFS_LINK_NAME"))
-
- cmds = ("install -m 0644 %s/%s %s/%s" %
- (staging_kernel_dir, kernel, hdddir, get_bitbake_var("KERNEL_IMAGETYPE")),
- "install -m 444 %s/syslinux/ldlinux.sys %s/ldlinux.sys" %
- (bootimg_dir, hdddir),
- "install -m 0644 %s/syslinux/vesamenu.c32 %s/vesamenu.c32" %
- (bootimg_dir, hdddir),
- "install -m 444 %s/syslinux/libcom32.c32 %s/libcom32.c32" %
- (bootimg_dir, hdddir),
- "install -m 444 %s/syslinux/libutil.c32 %s/libutil.c32" %
- (bootimg_dir, hdddir))
-
- for install_cmd in cmds:
- exec_cmd(install_cmd)
-
- du_cmd = "du --apparent-size -ks %s" % hdddir
- out = exec_cmd(du_cmd)
- blocks = int(out.split()[0])
-
- extra_blocks = part.get_extra_block_count(blocks)
-
- if extra_blocks < BOOTDD_EXTRA_SPACE:
- extra_blocks = BOOTDD_EXTRA_SPACE
-
- blocks += extra_blocks
-
- logger.debug("Added %d extra blocks to %s to get to %d total blocks",
- extra_blocks, part.mountpoint, blocks)
-
- # dosfs image, created by mkdosfs
- bootimg = "%s/boot%s.img" % (cr_workdir, part.lineno)
-
- label = part.label if part.label else "boot"
-
- dosfs_cmd = "mkdosfs -n %s -i %s -S 512 -C %s %d" % \
- (label, part.fsuuid, bootimg, blocks)
- exec_native_cmd(dosfs_cmd, native_sysroot)
-
- mcopy_cmd = "mcopy -i %s -s %s/* ::/" % (bootimg, hdddir)
- exec_native_cmd(mcopy_cmd, native_sysroot)
-
- syslinux_cmd = "syslinux %s" % bootimg
- exec_native_cmd(syslinux_cmd, native_sysroot)
-
- chmod_cmd = "chmod 644 %s" % bootimg
- exec_cmd(chmod_cmd)
-
- du_cmd = "du --apparent-size -Lks %s" % bootimg
- out = exec_cmd(du_cmd)
- bootimg_size = out.split()[0]
-
- part.size = int(bootimg_size)
- part.source_file = bootimg
-
- @classmethod
- def _do_install_syslinux(cls, creator, bootimg_dir,
- native_sysroot, full_path):
- """
- Called after all partitions have been prepared and assembled into a
- disk image. In this case, we install the MBR.
- """
-
- bootimg_dir = cls._get_bootimg_dir(bootimg_dir, 'syslinux')
- mbrfile = "%s/syslinux/" % bootimg_dir
- if creator.ptable_format == 'msdos':
- mbrfile += "mbr.bin"
- elif creator.ptable_format == 'gpt':
- mbrfile += "gptmbr.bin"
- else:
- raise WicError("Unsupported partition table: %s" %
- creator.ptable_format)
-
- if not os.path.exists(mbrfile):
- raise WicError("Couldn't find %s. If using the -e option, do you "
- "have the right MACHINE set in local.conf? If not, "
- "is the bootimg_dir path correct?" % mbrfile)
-
- dd_cmd = "dd if=%s of=%s conv=notrunc" % (mbrfile, full_path)
- exec_cmd(dd_cmd, native_sysroot)
-
- @classmethod
- def _do_configure_grub(cls, part, creator, cr_workdir):
- hdddir = "%s/hdd" % cr_workdir
- bootloader = creator.ks.bootloader
-
- grub_conf = cls._get_bootloader_config(bootloader, 'grub')
-
- grub_prefix_path = get_bitbake_var('GRUB_PREFIX_PATH')
- if not grub_prefix_path:
- grub_prefix_path = '/boot/grub'
-
- grub_path = "%s/%s" %(hdddir, grub_prefix_path)
- install_cmd = "install -d %s" % grub_path
- exec_cmd(install_cmd)
-
- if not grub_conf:
- # Set a default timeout if none specified to avoid
- # 'None' being the value placed within the configuration
- # file.
- if not bootloader.timeout:
- bootloader.timeout = 500
-
- # Set a default kernel params string if none specified
- # to avoid 'None' being the value placed within the
- # configuration file.
- if not bootloader.append:
- bootloader.append = "rootwait rootfstype=%s " % (part.fstype)
- bootloader.append += "console=ttyS0,115200 console=tty0"
-
- kernel = "/boot/" + get_bitbake_var("KERNEL_IMAGETYPE")
-
- grub_conf = 'serial --unit=0 --speed=115200 --word=8 --parity=no --stop=1\n'
- grub_conf += 'set gfxmode=auto\n'
- grub_conf += 'set gfxpayload=keep\n\n'
- grub_conf += 'set default=0\n\n'
- grub_conf += '# Boot automatically after %d secs.\n' % (bootloader.timeout)
- grub_conf += 'set timeout=%d\n\n' % (bootloader.timeout)
- grub_conf += 'menuentry \'default\' {\n'
- grub_conf += '\tsearch --no-floppy --set=root --file %s\n' % (kernel)
- grub_conf += '\tprobe --set partuuid --part-uuid ($root)\n'
- grub_conf += '\tlinux %s root=PARTUUID=$partuuid %s\n}\n' % \
- (kernel, bootloader.append)
-
- logger.debug("Writing grub config %s/grub.cfg", grub_path)
- cfg = open("%s/grub.cfg" % grub_path, "w")
- cfg.write(grub_conf)
- cfg.close()
-
- @classmethod
- def _do_prepare_grub(cls, part, cr_workdir, oe_builddir,
- kernel_dir, rootfs_dir, native_sysroot):
- """
- 1. Generate embed.cfg that'll later be embedded into core.img.
- So, that core.img knows where to search for grub.cfg.
- 2. Generate core.img or grub stage 1.5.
- 3. Copy modules into partition.
- 4. Create partition rootfs file.
- """
-
- hdddir = "%s/hdd" % cr_workdir
-
- copy_types = [ '*.mod', '*.o', '*.lst' ]
-
- builtin_modules = 'boot linux ext2 fat serial part_msdos part_gpt \
- normal multiboot probe biosdisk msdospart configfile search loadenv test'
-
- staging_libdir = cls._get_staging_libdir()
-
- grub_format = get_bitbake_var('GRUB_MKIMAGE_FORMAT_PC')
- if not grub_format:
- grub_format = 'i386-pc'
-
- grub_prefix_path = get_bitbake_var('GRUB_PREFIX_PATH')
- if not grub_prefix_path:
- grub_prefix_path = '/boot/grub'
-
- grub_path = "%s/%s" %(hdddir, grub_prefix_path)
- core_img = '%s/grub-bios-core.img' % (kernel_dir)
- grub_mods_path = '%s/grub/%s' % (staging_libdir, grub_format)
-
- # Generate embedded grub config
- embed_cfg_str = 'search.file %s/grub.cfg root\n' % (grub_prefix_path)
- embed_cfg_str += 'set prefix=($root)%s\n' % (grub_prefix_path)
- embed_cfg_str += 'configfile ($root)%s/grub.cfg\n' % (grub_prefix_path)
- cfg = open('%s/embed.cfg' % (kernel_dir), 'w+')
- cfg.write(embed_cfg_str)
- cfg.close()
-
- # core.img doesn't get included into boot partition
- # it's later dd onto the resulting wic image.
- grub_mkimage = 'grub-mkimage \
- --prefix=%s \
- --format=%s \
- --config=%s/embed.cfg \
- --directory=%s \
- --output=%s %s' % \
- (grub_prefix_path, grub_format, kernel_dir,
- grub_mods_path, core_img, builtin_modules)
- exec_native_cmd(grub_mkimage, native_sysroot)
-
- # Copy grub modules
- install_dir = '%s/%s/%s' % (hdddir, grub_prefix_path, grub_format)
- os.makedirs(install_dir, exist_ok=True)
-
- for ctype in copy_types:
- files = glob('%s/grub/%s/%s' % \
- (staging_libdir, grub_format, ctype))
- for file in files:
- shutil.copy2(file, install_dir, follow_symlinks=True)
-
- # Create boot partition
- logger.debug('Prepare partition using rootfs in %s', hdddir)
- part.prepare_rootfs(cr_workdir, oe_builddir, hdddir,
- native_sysroot, False)
-
- @classmethod
- def _do_install_grub(cls, creator, kernel_dir,
- native_sysroot, full_path):
- core_img = '%s/grub-bios-core.img' % (kernel_dir)
-
- staging_libdir = cls._get_staging_libdir()
-
- grub_format = get_bitbake_var('GRUB_MKIMAGE_FORMAT_PC')
- if not grub_format:
- grub_format = 'i386-pc'
-
- boot_img = '%s/grub/%s/boot.img' % (staging_libdir, grub_format)
- if not os.path.exists(boot_img):
- raise WicError("Couldn't find %s. Did you include "
- "do_image_wic[depends] += \"grub:do_populate_sysroot\" "
- "in your image recipe" % boot_img)
-
- # Install boot.img or grub stage 1
- dd_cmd = "dd if=%s of=%s conv=notrunc bs=1 seek=0 count=440" % (boot_img, full_path)
- exec_cmd(dd_cmd, native_sysroot)
-
- if creator.ptable_format == 'msdos':
- # Install core.img or grub stage 1.5
- dd_cmd = "dd if=%s of=%s conv=notrunc bs=1 seek=512" % (core_img, full_path)
- exec_cmd(dd_cmd, native_sysroot)
- else:
- raise WicError("Unsupported partition table: %s" %
- creator.ptable_format)
deleted file mode 100644
@@ -1,89 +0,0 @@
-#
-# Copyright OpenEmbedded Contributors
-#
-# SPDX-License-Identifier: MIT
-#
-
-# The empty wic plugin is used to create unformatted empty partitions for wic
-# images.
-# To use it you must pass "empty" as argument for the "--source" parameter in
-# the wks file. For example:
-# part foo --source empty --ondisk sda --size="1024" --align 1024
-#
-# The plugin supports writing zeros to the start of the
-# partition. This is useful to overwrite old content like
-# filesystem signatures which may be re-recognized otherwise.
-# This feature can be enabled with
-# '--sourceparams="[fill|size=<N>[S|s|K|k|M|G]][,][bs=<N>[S|s|K|k|M|G]]"'
-# Conflicting or missing options throw errors.
-
-import logging
-import os
-
-from wic import WicError
-from wic.ksparser import sizetype
-from wic.pluginbase import SourcePlugin
-
-logger = logging.getLogger('wic')
-
-class EmptyPartitionPlugin(SourcePlugin):
- """
- Populate unformatted empty partition.
-
- The following sourceparams are supported:
- - fill
- Fill the entire partition with zeros. Requires '--fixed-size' option
- to be set.
- - size=<N>[S|s|K|k|M|G]
- Set the first N bytes of the partition to zero. Default unit is 'K'.
- - bs=<N>[S|s|K|k|M|G]
- Write at most N bytes at a time during source file creation.
- Defaults to '1M'. Default unit is 'K'.
- """
-
- name = 'empty'
-
- @classmethod
- def do_prepare_partition(cls, part, source_params, cr, cr_workdir,
- oe_builddir, bootimg_dir, kernel_dir,
- rootfs_dir, native_sysroot):
- """
- Called to do the actual content population for a partition i.e. it
- 'prepares' the partition to be incorporated into the image.
- """
- get_byte_count = sizetype('K', True)
- size = 0
-
- if 'fill' in source_params and 'size' in source_params:
- raise WicError("Conflicting source parameters 'fill' and 'size' specified, exiting.")
-
- # Set the size of the zeros to be written to the partition
- if 'fill' in source_params:
- if part.fixed_size == 0:
- raise WicError("Source parameter 'fill' only works with the '--fixed-size' option, exiting.")
- size = get_byte_count(part.fixed_size)
- elif 'size' in source_params:
- size = get_byte_count(source_params['size'])
-
- if size == 0:
- # Nothing to do, create empty partition
- return
-
- if 'bs' in source_params:
- bs = get_byte_count(source_params['bs'])
- else:
- bs = get_byte_count('1M')
-
- # Create a binary file of the requested size filled with zeros
- source_file = os.path.join(cr_workdir, 'empty-plugin-zeros%s.bin' % part.lineno)
- if not os.path.exists(os.path.dirname(source_file)):
- os.makedirs(os.path.dirname(source_file))
-
- quotient, remainder = divmod(size, bs)
- with open(source_file, 'wb') as file:
- for _ in range(quotient):
- file.write(bytearray(bs))
- file.write(bytearray(remainder))
-
- part.size = (size + 1024 - 1) // 1024 # size in KB rounded up
- part.source_file = source_file
deleted file mode 100644
@@ -1,134 +0,0 @@
-import logging
-import os
-import re
-
-from glob import glob
-
-from wic import WicError
-from wic.pluginbase import SourcePlugin
-from wic.misc import exec_cmd, get_bitbake_var
-
-logger = logging.getLogger('wic')
-
-class ExtraPartitionPlugin(SourcePlugin):
- """
- Populates an extra partition with files listed in the IMAGE_EXTRA_PARTITION_FILES
- BitBake variable. Files should be deployed to the DEPLOY_DIR_IMAGE directory.
-
- The plugin supports:
- - Glob pattern matching for file selection.
- - File renaming.
- - Suffixes to specify the target partition (by label, UUID, or partname),
- enabling multiple extra partitions to coexist.
-
- For example:
-
- IMAGE_EXTRA_PARTITION_FILES_label-foo = "bar.conf;foo.conf"
- IMAGE_EXTRA_PARTITION_FILES_uuid-e7d0824e-cda3-4bed-9f54-9ef5312d105d = "bar.conf;foobar.conf"
- IMAGE_EXTRA_PARTITION_FILES = "foo/*"
- WICVARS:append = "\
- IMAGE_EXTRA_PARTITION_FILES_label-foo \
- IMAGE_EXTRA_PARTITION_FILES_uuid-e7d0824e-cda3-4bed-9f54-9ef5312d105d \
- "
-
- """
-
- name = 'extra_partition'
- image_extra_partition_files_var_name = 'IMAGE_EXTRA_PARTITION_FILES'
-
- @classmethod
- def do_configure_partition(cls, part, source_params, cr, cr_workdir,
- oe_builddir, bootimg_dir, kernel_dir,
- native_sysroot):
- """
- Called before do_prepare_partition(), list the files to copy
- """
- extradir = "%s/extra.%d" % (cr_workdir, part.lineno)
- install_cmd = "install -d %s" % extradir
- exec_cmd(install_cmd)
-
- if not kernel_dir:
- kernel_dir = get_bitbake_var("DEPLOY_DIR_IMAGE")
- if not kernel_dir:
- raise WicError("Couldn't find DEPLOY_DIR_IMAGE, exiting")
-
- extra_files = None
- for (fmt, id) in (("_uuid-%s", part.uuid), ("_label-%s", part.label), ("_part-name-%s", part.part_name), (None, None)):
- if fmt:
- var = fmt % id
- else:
- var = ""
- extra_files = get_bitbake_var(cls.image_extra_partition_files_var_name + var)
- if extra_files is not None:
- break
-
- if extra_files is None:
- raise WicError('No extra files defined, %s unset for entry #%d' % (cls.image_extra_partition_files_var_name, part.lineno))
-
- logger.info('Extra files: %s', extra_files)
-
- # list of tuples (src_name, dst_name)
- deploy_files = []
- for src_entry in re.findall(r'[\w;\-\./\*]+', extra_files):
- if ';' in src_entry:
- dst_entry = tuple(src_entry.split(';'))
- if not dst_entry[0] or not dst_entry[1]:
- raise WicError('Malformed extra file entry: %s' % src_entry)
- else:
- dst_entry = (src_entry, src_entry)
-
- logger.debug('Destination entry: %r', dst_entry)
- deploy_files.append(dst_entry)
-
- cls.install_task = [];
- for deploy_entry in deploy_files:
- src, dst = deploy_entry
- if '*' in src:
- # by default install files under their basename
- entry_name_fn = os.path.basename
- if dst != src:
- # unless a target name was given, then treat name
- # as a directory and append a basename
- entry_name_fn = lambda name: \
- os.path.join(dst,
- os.path.basename(name))
-
- srcs = glob(os.path.join(kernel_dir, src))
-
- logger.debug('Globbed sources: %s', ', '.join(srcs))
- for entry in srcs:
- src = os.path.relpath(entry, kernel_dir)
- entry_dst_name = entry_name_fn(entry)
- cls.install_task.append((src, entry_dst_name))
- else:
- cls.install_task.append((src, dst))
-
-
- @classmethod
- def do_prepare_partition(cls, part, source_params, cr, cr_workdir,
- oe_builddir, bootimg_dir, kernel_dir,
- rootfs_dir, native_sysroot):
- """
- Called to do the actual content population for a partition i.e. it
- 'prepares' the partition to be incorporated into the image.
- In this case, we copies all files listed in IMAGE_EXTRA_PARTITION_FILES variable.
- """
- extradir = "%s/extra.%d" % (cr_workdir, part.lineno)
-
- if not kernel_dir:
- kernel_dir = get_bitbake_var("DEPLOY_DIR_IMAGE")
- if not kernel_dir:
- raise WicError("Couldn't find DEPLOY_DIR_IMAGE, exiting")
-
- for task in cls.install_task:
- src_path, dst_path = task
- logger.debug('Install %s as %s', src_path, dst_path)
- install_cmd = "install -m 0644 -D %s %s" \
- % (os.path.join(kernel_dir, src_path),
- os.path.join(extradir, dst_path))
- exec_cmd(install_cmd)
-
- logger.debug('Prepare extra partition using rootfs in %s', extradir)
- part.prepare_rootfs(cr_workdir, oe_builddir, extradir,
- native_sysroot, False)
-
deleted file mode 100644
@@ -1,463 +0,0 @@
-#
-# Copyright OpenEmbedded Contributors
-#
-# SPDX-License-Identifier: GPL-2.0-only
-#
-# DESCRIPTION
-# This implements the 'isoimage_isohybrid' source plugin class for 'wic'
-#
-# AUTHORS
-# Mihaly Varga <mihaly.varga (at] ni.com>
-
-import glob
-import logging
-import os
-import re
-import shutil
-
-from wic import WicError
-from wic.engine import get_custom_config
-from wic.pluginbase import SourcePlugin
-from wic.misc import exec_cmd, exec_native_cmd, get_bitbake_var
-
-logger = logging.getLogger('wic')
-
-class IsoImagePlugin(SourcePlugin):
- """
- Create a bootable ISO image
-
- This plugin creates a hybrid, legacy and EFI bootable ISO image. The
- generated image can be used on optical media as well as USB media.
-
- Legacy boot uses syslinux and EFI boot uses grub or gummiboot (not
- implemented yet) as bootloader. The plugin creates the directories required
- by bootloaders and populates them by creating and configuring the
- bootloader files.
-
- Example kickstart file:
- part /boot --source isoimage_isohybrid --sourceparams="loader=grub-efi, \\
- image_name= IsoImage" --ondisk cd --label LIVECD
- bootloader --timeout=10 --append=" "
-
- In --sourceparams "loader" specifies the bootloader used for booting in EFI
- mode, while "image_name" specifies the name of the generated image. In the
- example above, wic creates an ISO image named IsoImage-cd.direct (default
- extension added by direct imeger plugin) and a file named IsoImage-cd.iso
- """
-
- name = 'isoimage_isohybrid'
-
- @classmethod
- def do_configure_syslinux(cls, creator, cr_workdir):
- """
- Create loader-specific (syslinux) config
- """
- splash = os.path.join(cr_workdir, "ISO/boot/splash.jpg")
- if os.path.exists(splash):
- splashline = "menu background splash.jpg"
- else:
- splashline = ""
-
- bootloader = creator.ks.bootloader
-
- syslinux_conf = ""
- syslinux_conf += "PROMPT 0\n"
- syslinux_conf += "TIMEOUT %s \n" % (bootloader.timeout or 10)
- syslinux_conf += "\n"
- syslinux_conf += "ALLOWOPTIONS 1\n"
- syslinux_conf += "SERIAL 0 115200\n"
- syslinux_conf += "\n"
- if splashline:
- syslinux_conf += "%s\n" % splashline
- syslinux_conf += "DEFAULT boot\n"
- syslinux_conf += "LABEL boot\n"
-
- kernel = get_bitbake_var("KERNEL_IMAGETYPE")
- if get_bitbake_var("INITRAMFS_IMAGE_BUNDLE") == "1":
- if get_bitbake_var("INITRAMFS_IMAGE"):
- kernel = "%s-%s.bin" % \
- (get_bitbake_var("KERNEL_IMAGETYPE"), get_bitbake_var("INITRAMFS_LINK_NAME"))
-
- syslinux_conf += "KERNEL /" + kernel + "\n"
- syslinux_conf += "APPEND initrd=/initrd LABEL=boot %s\n" \
- % bootloader.append
-
- logger.debug("Writing syslinux config %s/ISO/isolinux/isolinux.cfg",
- cr_workdir)
-
- with open("%s/ISO/isolinux/isolinux.cfg" % cr_workdir, "w") as cfg:
- cfg.write(syslinux_conf)
-
- @classmethod
- def do_configure_grubefi(cls, part, creator, target_dir):
- """
- Create loader-specific (grub-efi) config
- """
- configfile = creator.ks.bootloader.configfile
- if configfile:
- grubefi_conf = get_custom_config(configfile)
- if grubefi_conf:
- logger.debug("Using custom configuration file %s for grub.cfg",
- configfile)
- else:
- raise WicError("configfile is specified "
- "but failed to get it from %s", configfile)
- else:
- splash = os.path.join(target_dir, "splash.jpg")
- if os.path.exists(splash):
- splashline = "menu background splash.jpg"
- else:
- splashline = ""
-
- bootloader = creator.ks.bootloader
-
- grubefi_conf = ""
- grubefi_conf += "serial --unit=0 --speed=115200 --word=8 "
- grubefi_conf += "--parity=no --stop=1\n"
- grubefi_conf += "default=boot\n"
- grubefi_conf += "timeout=%s\n" % (bootloader.timeout or 10)
- grubefi_conf += "\n"
- grubefi_conf += "search --set=root --label %s " % part.label
- grubefi_conf += "\n"
- grubefi_conf += "menuentry 'boot'{\n"
-
- kernel = get_bitbake_var("KERNEL_IMAGETYPE")
- if get_bitbake_var("INITRAMFS_IMAGE_BUNDLE") == "1":
- if get_bitbake_var("INITRAMFS_IMAGE"):
- kernel = "%s-%s.bin" % \
- (get_bitbake_var("KERNEL_IMAGETYPE"), get_bitbake_var("INITRAMFS_LINK_NAME"))
-
- grubefi_conf += "linux /%s rootwait %s\n" \
- % (kernel, bootloader.append)
- grubefi_conf += "initrd /initrd \n"
- grubefi_conf += "}\n"
-
- if splashline:
- grubefi_conf += "%s\n" % splashline
-
- cfg_path = os.path.join(target_dir, "grub.cfg")
- logger.debug("Writing grubefi config %s", cfg_path)
-
- with open(cfg_path, "w") as cfg:
- cfg.write(grubefi_conf)
-
- @staticmethod
- def _build_initramfs_path(rootfs_dir, cr_workdir):
- """
- Create path for initramfs image
- """
-
- initrd = get_bitbake_var("INITRD_LIVE") or get_bitbake_var("INITRD")
- if not initrd:
- initrd_dir = get_bitbake_var("DEPLOY_DIR_IMAGE")
- if not initrd_dir:
- raise WicError("Couldn't find DEPLOY_DIR_IMAGE, exiting.")
-
- image_name = get_bitbake_var("IMAGE_BASENAME")
- if not image_name:
- raise WicError("Couldn't find IMAGE_BASENAME, exiting.")
-
- image_type = get_bitbake_var("INITRAMFS_FSTYPES")
- if not image_type:
- raise WicError("Couldn't find INITRAMFS_FSTYPES, exiting.")
-
- machine = os.path.basename(initrd_dir)
-
- pattern = '%s/%s*%s.%s' % (initrd_dir, image_name, machine, image_type)
- files = glob.glob(pattern)
- if files:
- initrd = files[0]
-
- if not initrd or not os.path.exists(initrd):
- # Create initrd from rootfs directory
- initrd = "%s/initrd.cpio.gz" % cr_workdir
- initrd_dir = "%s/INITRD" % cr_workdir
- shutil.copytree("%s" % rootfs_dir, \
- "%s" % initrd_dir, symlinks=True)
-
- if os.path.isfile("%s/init" % rootfs_dir):
- shutil.copy2("%s/init" % rootfs_dir, "%s/init" % initrd_dir)
- elif os.path.lexists("%s/init" % rootfs_dir):
- os.symlink(os.readlink("%s/init" % rootfs_dir), \
- "%s/init" % initrd_dir)
- elif os.path.isfile("%s/sbin/init" % rootfs_dir):
- shutil.copy2("%s/sbin/init" % rootfs_dir, \
- "%s" % initrd_dir)
- elif os.path.lexists("%s/sbin/init" % rootfs_dir):
- os.symlink(os.readlink("%s/sbin/init" % rootfs_dir), \
- "%s/init" % initrd_dir)
- else:
- raise WicError("Couldn't find or build initrd, exiting.")
-
- exec_cmd("cd %s && find . | cpio -o -H newc -R root:root >%s/initrd.cpio " \
- % (initrd_dir, cr_workdir), as_shell=True)
- exec_cmd("gzip -f -9 %s/initrd.cpio" % cr_workdir, as_shell=True)
- shutil.rmtree(initrd_dir)
-
- return initrd
-
- @classmethod
- def do_configure_partition(cls, part, source_params, creator, cr_workdir,
- oe_builddir, bootimg_dir, kernel_dir,
- native_sysroot):
- """
- Called before do_prepare_partition(), creates loader-specific config
- """
- isodir = "%s/ISO/" % cr_workdir
-
- if os.path.exists(isodir):
- shutil.rmtree(isodir)
-
- install_cmd = "install -d %s " % isodir
- exec_cmd(install_cmd)
-
- # Overwrite the name of the created image
- logger.debug(source_params)
- if 'image_name' in source_params and \
- source_params['image_name'].strip():
- creator.name = source_params['image_name'].strip()
- logger.debug("The name of the image is: %s", creator.name)
-
- @staticmethod
- def _install_payload(source_params, iso_dir):
- """
- Copies contents of payload directory (as specified in 'payload_dir' param) into iso_dir
- """
-
- if source_params.get('payload_dir'):
- payload_dir = source_params['payload_dir']
-
- logger.debug("Payload directory: %s", payload_dir)
- shutil.copytree(payload_dir, iso_dir, symlinks=True, dirs_exist_ok=True)
-
- @classmethod
- def do_prepare_partition(cls, part, source_params, creator, cr_workdir,
- oe_builddir, bootimg_dir, kernel_dir,
- rootfs_dir, native_sysroot):
- """
- Called to do the actual content population for a partition i.e. it
- 'prepares' the partition to be incorporated into the image.
- In this case, prepare content for a bootable ISO image.
- """
-
- isodir = "%s/ISO" % cr_workdir
-
- cls._install_payload(source_params, isodir)
-
- if part.rootfs_dir is None:
- if not 'ROOTFS_DIR' in rootfs_dir:
- raise WicError("Couldn't find --rootfs-dir, exiting.")
- rootfs_dir = rootfs_dir['ROOTFS_DIR']
- else:
- if part.rootfs_dir in rootfs_dir:
- rootfs_dir = rootfs_dir[part.rootfs_dir]
- elif part.rootfs_dir:
- rootfs_dir = part.rootfs_dir
- else:
- raise WicError("Couldn't find --rootfs-dir=%s connection "
- "or it is not a valid path, exiting." %
- part.rootfs_dir)
-
- if not os.path.isdir(rootfs_dir):
- rootfs_dir = get_bitbake_var("IMAGE_ROOTFS")
- if not os.path.isdir(rootfs_dir):
- raise WicError("Couldn't find IMAGE_ROOTFS, exiting.")
-
- part.rootfs_dir = rootfs_dir
- deploy_dir = get_bitbake_var("DEPLOY_DIR_IMAGE")
- img_iso_dir = get_bitbake_var("ISODIR")
-
- # Remove the temporary file created by part.prepare_rootfs()
- if os.path.isfile(part.source_file):
- os.remove(part.source_file)
-
- # Support using a different initrd other than default
- if source_params.get('initrd'):
- initrd = source_params['initrd']
- if not deploy_dir:
- raise WicError("Couldn't find DEPLOY_DIR_IMAGE, exiting")
- cp_cmd = "cp %s/%s %s" % (deploy_dir, initrd, cr_workdir)
- exec_cmd(cp_cmd)
- else:
- # Prepare initial ramdisk
- initrd = "%s/initrd" % deploy_dir
- if not os.path.isfile(initrd):
- initrd = "%s/initrd" % img_iso_dir
- if not os.path.isfile(initrd):
- initrd = cls._build_initramfs_path(rootfs_dir, cr_workdir)
-
- install_cmd = "install -m 0644 %s %s/initrd" % (initrd, isodir)
- exec_cmd(install_cmd)
-
- # Remove the temporary file created by _build_initramfs_path function
- if os.path.isfile("%s/initrd.cpio.gz" % cr_workdir):
- os.remove("%s/initrd.cpio.gz" % cr_workdir)
-
- kernel = get_bitbake_var("KERNEL_IMAGETYPE")
- if get_bitbake_var("INITRAMFS_IMAGE_BUNDLE") == "1":
- if get_bitbake_var("INITRAMFS_IMAGE"):
- kernel = "%s-%s.bin" % \
- (get_bitbake_var("KERNEL_IMAGETYPE"), get_bitbake_var("INITRAMFS_LINK_NAME"))
-
- install_cmd = "install -m 0644 %s/%s %s/%s" % \
- (kernel_dir, kernel, isodir, kernel)
- exec_cmd(install_cmd)
-
- #Create bootloader for efi boot
- try:
- target_dir = "%s/EFI/BOOT" % isodir
- if os.path.exists(target_dir):
- shutil.rmtree(target_dir)
-
- os.makedirs(target_dir)
-
- if source_params['loader'] == 'grub-efi':
- # Builds bootx64.efi/bootia32.efi if ISODIR didn't exist or
- # didn't contains it
- target_arch = get_bitbake_var("TARGET_SYS")
- if not target_arch:
- raise WicError("Coludn't find target architecture")
-
- if re.match("x86_64", target_arch):
- grub_src_image = "grub-efi-bootx64.efi"
- grub_dest_image = "bootx64.efi"
- elif re.match('i.86', target_arch):
- grub_src_image = "grub-efi-bootia32.efi"
- grub_dest_image = "bootia32.efi"
- else:
- raise WicError("grub-efi is incompatible with target %s" %
- target_arch)
-
- grub_target = os.path.join(target_dir, grub_dest_image)
- if not os.path.isfile(grub_target):
- grub_src = os.path.join(deploy_dir, grub_src_image)
- if not os.path.exists(grub_src):
- raise WicError("Grub loader %s is not found in %s. "
- "Please build grub-efi first" % (grub_src_image, deploy_dir))
- shutil.copy(grub_src, grub_target)
-
- if not os.path.isfile(os.path.join(target_dir, "boot.cfg")):
- cls.do_configure_grubefi(part, creator, target_dir)
-
- else:
- raise WicError("unrecognized bootimg_efi loader: %s" %
- source_params['loader'])
- except KeyError:
- raise WicError("bootimg_efi requires a loader, none specified")
-
- # Create efi.img that contains bootloader files for EFI booting
- # if ISODIR didn't exist or didn't contains it
- if os.path.isfile("%s/efi.img" % img_iso_dir):
- install_cmd = "install -m 0644 %s/efi.img %s/efi.img" % \
- (img_iso_dir, isodir)
- exec_cmd(install_cmd)
- else:
- # Default to 100 blocks of extra space for file system overhead
- esp_extra_blocks = int(source_params.get('esp_extra_blocks', '100'))
-
- du_cmd = "du --apparent-size -ks %s/EFI" % isodir
- out = exec_cmd(du_cmd)
- blocks = int(out.split()[0])
- blocks += esp_extra_blocks
- logger.debug("Added 100 extra blocks to %s to get to %d "
- "total blocks", part.mountpoint, blocks)
-
- # dosfs image for EFI boot
- bootimg = "%s/efi.img" % isodir
-
- esp_label = source_params.get('esp_label', 'EFIimg')
-
- dosfs_cmd = 'mkfs.vfat -n \'%s\' -S 512 -C %s %d' \
- % (esp_label, bootimg, blocks)
- exec_native_cmd(dosfs_cmd, native_sysroot)
-
- mmd_cmd = "mmd -i %s ::/EFI" % bootimg
- exec_native_cmd(mmd_cmd, native_sysroot)
-
- mcopy_cmd = "mcopy -i %s -s %s/EFI/* ::/EFI/" \
- % (bootimg, isodir)
- exec_native_cmd(mcopy_cmd, native_sysroot)
-
- chmod_cmd = "chmod 644 %s" % bootimg
- exec_cmd(chmod_cmd)
-
- # Prepare files for legacy boot
- syslinux_dir = get_bitbake_var("STAGING_DATADIR")
- if not syslinux_dir:
- raise WicError("Couldn't find STAGING_DATADIR, exiting.")
-
- if os.path.exists("%s/isolinux" % isodir):
- shutil.rmtree("%s/isolinux" % isodir)
-
- install_cmd = "install -d %s/isolinux" % isodir
- exec_cmd(install_cmd)
-
- cls.do_configure_syslinux(creator, cr_workdir)
-
- install_cmd = "install -m 444 %s/syslinux/ldlinux.sys " % syslinux_dir
- install_cmd += "%s/isolinux/ldlinux.sys" % isodir
- exec_cmd(install_cmd)
-
- install_cmd = "install -m 444 %s/syslinux/isohdpfx.bin " % syslinux_dir
- install_cmd += "%s/isolinux/isohdpfx.bin" % isodir
- exec_cmd(install_cmd)
-
- install_cmd = "install -m 644 %s/syslinux/isolinux.bin " % syslinux_dir
- install_cmd += "%s/isolinux/isolinux.bin" % isodir
- exec_cmd(install_cmd)
-
- install_cmd = "install -m 644 %s/syslinux/ldlinux.c32 " % syslinux_dir
- install_cmd += "%s/isolinux/ldlinux.c32" % isodir
- exec_cmd(install_cmd)
-
- #create ISO image
- iso_img = "%s/tempiso_img.iso" % cr_workdir
- iso_bootimg = "isolinux/isolinux.bin"
- iso_bootcat = "isolinux/boot.cat"
- efi_img = "efi.img"
-
- mkisofs_cmd = "mkisofs -V %s " % part.label
- mkisofs_cmd += "-o %s -U " % iso_img
- mkisofs_cmd += "-J -joliet-long -r -iso-level 2 -b %s " % iso_bootimg
- mkisofs_cmd += "-c %s -no-emul-boot -boot-load-size 4 " % iso_bootcat
- mkisofs_cmd += "-boot-info-table -eltorito-alt-boot "
- mkisofs_cmd += "-eltorito-platform 0xEF -eltorito-boot %s " % efi_img
- mkisofs_cmd += "-no-emul-boot %s " % isodir
-
- logger.debug("running command: %s", mkisofs_cmd)
- exec_native_cmd(mkisofs_cmd, native_sysroot)
-
- shutil.rmtree(isodir)
-
- du_cmd = "du --apparent-size -Lks %s" % iso_img
- out = exec_cmd(du_cmd)
- isoimg_size = int(out.split()[0])
-
- part.size = isoimg_size
- part.source_file = iso_img
-
- @classmethod
- def do_install_disk(cls, disk, disk_name, creator, workdir, oe_builddir,
- bootimg_dir, kernel_dir, native_sysroot):
- """
- Called after all partitions have been prepared and assembled into a
- disk image. In this case, we insert/modify the MBR using isohybrid
- utility for booting via BIOS from disk storage devices.
- """
-
- iso_img = "%s.p1" % disk.path
- full_path = creator._full_path(workdir, disk_name, "direct")
- full_path_iso = creator._full_path(workdir, disk_name, "iso")
-
- isohybrid_cmd = "isohybrid -u %s" % iso_img
- logger.debug("running command: %s", isohybrid_cmd)
- exec_native_cmd(isohybrid_cmd, native_sysroot)
-
- # Replace the image created by direct plugin with the one created by
- # mkisofs command. This is necessary because the iso image created by
- # mkisofs has a very specific MBR is system area of the ISO image, and
- # direct plugin adds and configures an another MBR.
- logger.debug("Replaceing the image created by direct plugin\n")
- os.remove(disk.path)
- shutil.copy2(iso_img, full_path_iso)
- shutil.copy2(full_path_iso, full_path)
deleted file mode 100644
@@ -1,115 +0,0 @@
-#
-# Copyright OpenEmbedded Contributors
-#
-# SPDX-License-Identifier: GPL-2.0-only
-#
-
-import logging
-import os
-import signal
-import subprocess
-
-from wic import WicError
-from wic.pluginbase import SourcePlugin
-from wic.misc import exec_cmd, get_bitbake_var
-from wic.filemap import sparse_copy
-
-logger = logging.getLogger('wic')
-
-class RawCopyPlugin(SourcePlugin):
- """
- Populate partition content from raw image file.
- """
-
- name = 'rawcopy'
-
- @staticmethod
- def do_image_label(fstype, dst, label):
- # don't create label when fstype is none
- if fstype == 'none':
- return
-
- if fstype.startswith('ext'):
- cmd = 'tune2fs -L %s %s' % (label, dst)
- elif fstype in ('msdos', 'vfat'):
- cmd = 'dosfslabel %s %s' % (dst, label)
- elif fstype == 'btrfs':
- cmd = 'btrfs filesystem label %s %s' % (dst, label)
- elif fstype == 'swap':
- cmd = 'mkswap -L %s %s' % (label, dst)
- elif fstype in ('squashfs', 'erofs'):
- raise WicError("It's not possible to update a %s "
- "filesystem label '%s'" % (fstype, label))
- else:
- raise WicError("Cannot update filesystem label: "
- "Unknown fstype: '%s'" % (fstype))
-
- exec_cmd(cmd)
-
- @staticmethod
- def do_image_uncompression(src, dst, workdir):
- def subprocess_setup():
- # Python installs a SIGPIPE handler by default. This is usually not what
- # non-Python subprocesses expect.
- # SIGPIPE errors are known issues with gzip/bash
- signal.signal(signal.SIGPIPE, signal.SIG_DFL)
-
- extension = os.path.splitext(src)[1]
- decompressor = {
- ".bz2": "bzip2",
- ".gz": "gzip",
- ".xz": "xz",
- ".zst": "zstd -f",
- }.get(extension)
- if not decompressor:
- raise WicError("Not supported compressor filename extension: %s" % extension)
- cmd = "%s -dc %s > %s" % (decompressor, src, dst)
- subprocess.call(cmd, preexec_fn=subprocess_setup, shell=True, cwd=workdir)
-
- @classmethod
- def do_prepare_partition(cls, part, source_params, cr, cr_workdir,
- oe_builddir, bootimg_dir, kernel_dir,
- rootfs_dir, native_sysroot):
- """
- Called to do the actual content population for a partition i.e. it
- 'prepares' the partition to be incorporated into the image.
- """
- if not kernel_dir:
- kernel_dir = get_bitbake_var("DEPLOY_DIR_IMAGE")
- if not kernel_dir:
- raise WicError("Couldn't find DEPLOY_DIR_IMAGE, exiting")
-
- logger.debug('Kernel dir: %s', kernel_dir)
-
- if 'file' not in source_params:
- raise WicError("No file specified")
-
- if 'unpack' in source_params:
- img = os.path.join(kernel_dir, source_params['file'])
- src = os.path.join(cr_workdir, os.path.splitext(source_params['file'])[0])
- RawCopyPlugin.do_image_uncompression(img, src, cr_workdir)
- else:
- src = os.path.join(kernel_dir, source_params['file'])
-
- dst = os.path.join(cr_workdir, "%s.%s" % (os.path.basename(source_params['file']), part.lineno))
-
- if not os.path.exists(os.path.dirname(dst)):
- os.makedirs(os.path.dirname(dst))
-
- if 'skip' in source_params:
- sparse_copy(src, dst, skip=int(source_params['skip']))
- else:
- sparse_copy(src, dst)
-
- # get the size in the right units for kickstart (kB)
- du_cmd = "du --apparent-size -Lks %s" % dst
- out = exec_cmd(du_cmd)
- filesize = int(out.split()[0])
-
- if filesize > part.size:
- part.size = filesize
-
- if part.label:
- RawCopyPlugin.do_image_label(part.fstype, dst, part.label)
-
- part.source_file = dst
deleted file mode 100644
@@ -1,236 +0,0 @@
-#
-# Copyright (c) 2014, Intel Corporation.
-#
-# SPDX-License-Identifier: GPL-2.0-only
-#
-# DESCRIPTION
-# This implements the 'rootfs' source plugin class for 'wic'
-#
-# AUTHORS
-# Tom Zanussi <tom.zanussi (at] linux.intel.com>
-# Joao Henrique Ferreira de Freitas <joaohf (at] gmail.com>
-#
-
-import logging
-import os
-import shutil
-import sys
-
-from oe.path import copyhardlinktree
-from pathlib import Path
-
-from wic import WicError
-from wic.pluginbase import SourcePlugin
-from wic.misc import get_bitbake_var, exec_native_cmd
-
-logger = logging.getLogger('wic')
-
-class RootfsPlugin(SourcePlugin):
- """
- Populate partition content from a rootfs directory.
- """
-
- name = 'rootfs'
-
- @staticmethod
- def __validate_path(cmd, rootfs_dir, path):
- if os.path.isabs(path):
- logger.error("%s: Must be relative: %s" % (cmd, path))
- sys.exit(1)
-
- # Disallow climbing outside of parent directory using '..',
- # because doing so could be quite disastrous (we will delete the
- # directory, or modify a directory outside OpenEmbedded).
- full_path = os.path.abspath(os.path.join(rootfs_dir, path))
- if not full_path.startswith(os.path.realpath(rootfs_dir)):
- logger.error("%s: Must point inside the rootfs: %s" % (cmd, path))
- sys.exit(1)
-
- return full_path
-
- @staticmethod
- def __get_rootfs_dir(rootfs_dir):
- if rootfs_dir and os.path.isdir(rootfs_dir):
- return os.path.realpath(rootfs_dir)
-
- image_rootfs_dir = get_bitbake_var("IMAGE_ROOTFS", rootfs_dir)
- if not os.path.isdir(image_rootfs_dir):
- raise WicError("No valid artifact IMAGE_ROOTFS from image "
- "named %s has been found at %s, exiting." %
- (rootfs_dir, image_rootfs_dir))
-
- return os.path.realpath(image_rootfs_dir)
-
- @staticmethod
- def __get_pseudo(native_sysroot, rootfs, pseudo_dir):
- pseudo = "export PSEUDO_PREFIX=%s/usr;" % native_sysroot
- pseudo += "export PSEUDO_LOCALSTATEDIR=%s;" % pseudo_dir
- pseudo += "export PSEUDO_PASSWD=%s;" % rootfs
- pseudo += "export PSEUDO_NOSYMLINKEXP=1;"
- pseudo += "%s " % get_bitbake_var("FAKEROOTCMD")
- return pseudo
-
- @classmethod
- def do_prepare_partition(cls, part, source_params, cr, cr_workdir,
- oe_builddir, bootimg_dir, kernel_dir,
- krootfs_dir, native_sysroot):
- """
- Called to do the actual content population for a partition i.e. it
- 'prepares' the partition to be incorporated into the image.
- In this case, prepare content for legacy bios boot partition.
- """
- if part.rootfs_dir is None:
- if not 'ROOTFS_DIR' in krootfs_dir:
- raise WicError("Couldn't find --rootfs-dir, exiting")
-
- rootfs_dir = krootfs_dir['ROOTFS_DIR']
- else:
- if part.rootfs_dir in krootfs_dir:
- rootfs_dir = krootfs_dir[part.rootfs_dir]
- elif part.rootfs_dir:
- rootfs_dir = part.rootfs_dir
- else:
- raise WicError("Couldn't find --rootfs-dir=%s connection or "
- "it is not a valid path, exiting" % part.rootfs_dir)
-
- part.rootfs_dir = cls.__get_rootfs_dir(rootfs_dir)
- part.has_fstab = os.path.exists(os.path.join(part.rootfs_dir, "etc/fstab"))
- pseudo_dir = os.path.join(part.rootfs_dir, "../pseudo")
- if not os.path.lexists(pseudo_dir):
- pseudo_dir = os.path.join(cls.__get_rootfs_dir(None), '../pseudo')
-
- if not os.path.lexists(pseudo_dir):
- logger.warn("%s folder does not exist. "
- "Usernames and permissions will be invalid " % pseudo_dir)
- pseudo_dir = None
-
- new_rootfs = None
- new_pseudo = None
- # Handle excluded paths.
- if part.exclude_path or part.include_path or part.change_directory or part.update_fstab_in_rootfs:
- # We need a new rootfs directory we can safely modify without
- # interfering with other tasks. Copy to workdir.
- new_rootfs = os.path.realpath(os.path.join(cr_workdir, "rootfs%d" % part.lineno))
-
- if os.path.lexists(new_rootfs):
- shutil.rmtree(os.path.join(new_rootfs))
-
- if part.change_directory:
- cd = part.change_directory
- if cd[-1] == '/':
- cd = cd[:-1]
- orig_dir = cls.__validate_path("--change-directory", part.rootfs_dir, cd)
- else:
- orig_dir = part.rootfs_dir
- copyhardlinktree(orig_dir, new_rootfs)
-
- # Convert the pseudo directory to its new location
- if (pseudo_dir):
- new_pseudo = os.path.realpath(
- os.path.join(cr_workdir, "pseudo%d" % part.lineno))
- if os.path.lexists(new_pseudo):
- shutil.rmtree(new_pseudo)
- os.mkdir(new_pseudo)
- shutil.copy(os.path.join(pseudo_dir, "files.db"),
- os.path.join(new_pseudo, "files.db"))
-
- pseudo_cmd = "%s -B -m %s -M %s" % (cls.__get_pseudo(native_sysroot,
- new_rootfs,
- new_pseudo),
- orig_dir, new_rootfs)
- exec_native_cmd(pseudo_cmd, native_sysroot)
-
- for in_path in part.include_path or []:
- #parse arguments
- include_path = in_path[0]
- if len(in_path) > 2:
- logger.error("'Invalid number of arguments for include-path")
- sys.exit(1)
- if len(in_path) == 2:
- path = in_path[1]
- else:
- path = None
-
- # Pack files to be included into a tar file.
- # We need to create a tar file, because that way we can keep the
- # permissions from the files even when they belong to different
- # pseudo enviroments.
- # If we simply copy files using copyhardlinktree/copytree... the
- # copied files will belong to the user running wic.
- tar_file = os.path.realpath(
- os.path.join(cr_workdir, "include-path%d.tar" % part.lineno))
- if os.path.isfile(include_path):
- parent = os.path.dirname(os.path.realpath(include_path))
- tar_cmd = "tar c --owner=root --group=root -f %s -C %s %s" % (
- tar_file, parent, os.path.relpath(include_path, parent))
- exec_native_cmd(tar_cmd, native_sysroot)
- else:
- if include_path in krootfs_dir:
- include_path = krootfs_dir[include_path]
- include_path = cls.__get_rootfs_dir(include_path)
- include_pseudo = os.path.join(include_path, "../pseudo")
- if os.path.lexists(include_pseudo):
- pseudo = cls.__get_pseudo(native_sysroot, include_path,
- include_pseudo)
- tar_cmd = "tar cf %s -C %s ." % (tar_file, include_path)
- else:
- pseudo = None
- tar_cmd = "tar c --owner=root --group=root -f %s -C %s ." % (
- tar_file, include_path)
- exec_native_cmd(tar_cmd, native_sysroot, pseudo)
-
- #create destination
- if path:
- destination = cls.__validate_path("--include-path", new_rootfs, path)
- Path(destination).mkdir(parents=True, exist_ok=True)
- else:
- destination = new_rootfs
-
- #extract destination
- untar_cmd = "tar xf %s -C %s" % (tar_file, destination)
- if new_pseudo:
- pseudo = cls.__get_pseudo(native_sysroot, new_rootfs, new_pseudo)
- else:
- pseudo = None
- exec_native_cmd(untar_cmd, native_sysroot, pseudo)
- os.remove(tar_file)
-
- for orig_path in part.exclude_path or []:
- path = orig_path
-
- full_path = cls.__validate_path("--exclude-path", new_rootfs, path)
-
- if not os.path.lexists(full_path):
- continue
-
- if new_pseudo:
- pseudo = cls.__get_pseudo(native_sysroot, new_rootfs, new_pseudo)
- else:
- pseudo = None
- if path.endswith(os.sep):
- # Delete content only.
- for entry in os.listdir(full_path):
- full_entry = os.path.join(full_path, entry)
- rm_cmd = "rm -rf %s" % (full_entry)
- exec_native_cmd(rm_cmd, native_sysroot, pseudo)
- else:
- # Delete whole directory.
- rm_cmd = "rm -rf %s" % (full_path)
- exec_native_cmd(rm_cmd, native_sysroot, pseudo)
-
- # Update part.has_fstab here as fstab may have been added or
- # removed by the above modifications.
- part.has_fstab = os.path.exists(os.path.join(new_rootfs, "etc/fstab"))
- if part.update_fstab_in_rootfs and part.has_fstab and not part.no_fstab_update:
- fstab_path = os.path.join(new_rootfs, "etc/fstab")
- # Assume that fstab should always be owned by root with fixed permissions
- install_cmd = "install -m 0644 -p %s %s" % (part.updated_fstab_path, fstab_path)
- if new_pseudo:
- pseudo = cls.__get_pseudo(native_sysroot, new_rootfs, new_pseudo)
- else:
- pseudo = None
- exec_native_cmd(install_cmd, native_sysroot, pseudo)
-
- part.prepare_rootfs(cr_workdir, oe_builddir,
- new_rootfs or part.rootfs_dir, native_sysroot,
- pseudo_dir = new_pseudo or pseudo_dir)
deleted file mode 100755
@@ -1,600 +0,0 @@
-#!/usr/bin/env python3
-#
-# Copyright (c) 2013, Intel Corporation.
-#
-# SPDX-License-Identifier: GPL-2.0-only
-#
-# DESCRIPTION 'wic' is the OpenEmbedded Image Creator that users can
-# use to generate bootable images. Invoking it without any arguments
-# will display help screens for the 'wic' command and list the
-# available 'wic' subcommands. Invoking a subcommand without any
-# arguments will likewise display help screens for the specified
-# subcommand. Please use that interface for detailed help.
-#
-# AUTHORS
-# Tom Zanussi <tom.zanussi (at] linux.intel.com>
-#
-__version__ = "0.2.0"
-
-# Python Standard Library modules
-import os
-import sys
-import argparse
-import logging
-import subprocess
-import shutil
-
-from collections import namedtuple
-
-# External modules
-scripts_path = os.path.dirname(os.path.realpath(__file__))
-lib_path = scripts_path + '/lib'
-sys.path.insert(0, lib_path)
-import scriptpath
-scriptpath.add_oe_lib_path()
-
-# Check whether wic is running within eSDK environment
-sdkroot = scripts_path
-if os.environ.get('SDKTARGETSYSROOT'):
- while sdkroot != '' and sdkroot != os.sep:
- if os.path.exists(os.path.join(sdkroot, '.devtoolbase')):
- # Set BUILDDIR for wic to work within eSDK
- os.environ['BUILDDIR'] = sdkroot
- # .devtoolbase only exists within eSDK
- # If found, initialize bitbake path for eSDK environment and append to PATH
- sdkroot = os.path.join(os.path.dirname(scripts_path), 'bitbake', 'bin')
- os.environ['PATH'] += ":" + sdkroot
- break
- sdkroot = os.path.dirname(sdkroot)
-
-bitbake_exe = shutil.which('bitbake')
-if bitbake_exe:
- bitbake_path = scriptpath.add_bitbake_lib_path()
- import bb
-
-from wic import WicError
-from wic.misc import get_bitbake_var, BB_VARS
-from wic import engine
-from wic import help as hlp
-
-
-def wic_logger():
- """Create and convfigure wic logger."""
- logger = logging.getLogger('wic')
- logger.setLevel(logging.INFO)
-
- handler = logging.StreamHandler()
-
- formatter = logging.Formatter('%(levelname)s: %(message)s')
- handler.setFormatter(formatter)
-
- logger.addHandler(handler)
-
- return logger
-
-logger = wic_logger()
-
-def rootfs_dir_to_args(krootfs_dir):
- """
- Get a rootfs_dir dict and serialize to string
- """
- rootfs_dir = ''
- for key, val in krootfs_dir.items():
- rootfs_dir += ' '
- rootfs_dir += '='.join([key, val])
- return rootfs_dir.strip()
-
-
-class RootfsArgAction(argparse.Action):
- def __init__(self, **kwargs):
- super().__init__(**kwargs)
-
- def __call__(self, parser, namespace, value, option_string=None):
- if not "rootfs_dir" in vars(namespace) or \
- not type(namespace.__dict__['rootfs_dir']) is dict:
- namespace.__dict__['rootfs_dir'] = {}
-
- if '=' in value:
- (key, rootfs_dir) = value.split('=')
- else:
- key = 'ROOTFS_DIR'
- rootfs_dir = value
-
- namespace.__dict__['rootfs_dir'][key] = rootfs_dir
-
-
-def wic_create_subcommand(options, usage_str):
- """
- Command-line handling for image creation. The real work is done
- by image.engine.wic_create()
- """
- if options.build_rootfs and not bitbake_exe:
- raise WicError("Can't build rootfs as bitbake is not in the $PATH")
-
- if not options.image_name:
- missed = []
- for val, opt in [(options.rootfs_dir, 'rootfs-dir'),
- (options.bootimg_dir, 'bootimg-dir'),
- (options.kernel_dir, 'kernel-dir'),
- (options.native_sysroot, 'native-sysroot')]:
- if not val:
- missed.append(opt)
- if missed:
- raise WicError("The following build artifacts are not specified: %s" %
- ", ".join(missed))
-
- if options.image_name:
- BB_VARS.default_image = options.image_name
- else:
- options.build_check = False
-
- if options.vars_dir:
- BB_VARS.vars_dir = options.vars_dir
-
- if options.build_check and not engine.verify_build_env():
- raise WicError("Couldn't verify build environment, exiting")
-
- if options.debug:
- logger.setLevel(logging.DEBUG)
-
- if options.image_name:
- if options.build_rootfs:
- argv = ["bitbake", options.image_name]
- if options.debug:
- argv.append("--debug")
-
- logger.info("Building rootfs...\n")
- subprocess.check_call(argv)
-
- rootfs_dir = get_bitbake_var("IMAGE_ROOTFS", options.image_name)
- kernel_dir = get_bitbake_var("DEPLOY_DIR_IMAGE", options.image_name)
- bootimg_dir = get_bitbake_var("STAGING_DATADIR", options.image_name)
-
- native_sysroot = options.native_sysroot
- if options.vars_dir and not native_sysroot:
- native_sysroot = get_bitbake_var("RECIPE_SYSROOT_NATIVE", options.image_name)
- else:
- if options.build_rootfs:
- raise WicError("Image name is not specified, exiting. "
- "(Use -e/--image-name to specify it)")
- native_sysroot = options.native_sysroot
-
- if options.kernel_dir:
- kernel_dir = options.kernel_dir
-
- if not options.vars_dir and (not native_sysroot or not os.path.isdir(native_sysroot)):
- logger.info("Building wic-tools...\n")
- subprocess.check_call(["bitbake", "wic-tools"])
- native_sysroot = get_bitbake_var("RECIPE_SYSROOT_NATIVE", "wic-tools")
-
- if not native_sysroot:
- raise WicError("Unable to find the location of the native tools sysroot")
-
- wks_file = options.wks_file
-
- if not wks_file.endswith(".wks"):
- wks_file = engine.find_canned_image(scripts_path, wks_file)
- if not wks_file:
- raise WicError("No image named %s found, exiting. (Use 'wic list images' "
- "to list available images, or specify a fully-qualified OE "
- "kickstart (.wks) filename)" % options.wks_file)
-
- if not options.image_name:
- rootfs_dir = ''
- if 'ROOTFS_DIR' in options.rootfs_dir:
- rootfs_dir = options.rootfs_dir['ROOTFS_DIR']
- bootimg_dir = options.bootimg_dir
- kernel_dir = options.kernel_dir
- native_sysroot = options.native_sysroot
- if rootfs_dir and not os.path.isdir(rootfs_dir):
- raise WicError("--rootfs-dir (-r) not found, exiting")
- if not os.path.isdir(bootimg_dir):
- raise WicError("--bootimg-dir (-b) not found, exiting")
- if not os.path.isdir(kernel_dir):
- raise WicError("--kernel-dir (-k) not found, exiting")
- if not os.path.isdir(native_sysroot):
- raise WicError("--native-sysroot (-n) not found, exiting")
- else:
- not_found = not_found_dir = ""
- if not os.path.isdir(rootfs_dir):
- (not_found, not_found_dir) = ("rootfs-dir", rootfs_dir)
- elif not os.path.isdir(kernel_dir):
- (not_found, not_found_dir) = ("kernel-dir", kernel_dir)
- elif not os.path.isdir(native_sysroot):
- (not_found, not_found_dir) = ("native-sysroot", native_sysroot)
- if not_found:
- if not not_found_dir:
- not_found_dir = "Completely missing artifact - wrong image (.wks) used?"
- logger.info("Build artifacts not found, exiting.")
- logger.info(" (Please check that the build artifacts for the machine")
- logger.info(" selected in local.conf actually exist and that they")
- logger.info(" are the correct artifacts for the image (.wks file)).\n")
- raise WicError("The artifact that couldn't be found was %s:\n %s" % (not_found, not_found_dir))
-
- krootfs_dir = options.rootfs_dir
- if krootfs_dir is None:
- krootfs_dir = {}
- krootfs_dir['ROOTFS_DIR'] = rootfs_dir
-
- rootfs_dir = rootfs_dir_to_args(krootfs_dir)
-
- logger.info("Creating image(s)...\n")
- engine.wic_create(wks_file, rootfs_dir, bootimg_dir, kernel_dir,
- native_sysroot, options)
-
-
-def wic_list_subcommand(args, usage_str):
- """
- Command-line handling for listing available images.
- The real work is done by image.engine.wic_list()
- """
- if not engine.wic_list(args, scripts_path):
- raise WicError("Bad list arguments, exiting")
-
-
-def wic_ls_subcommand(args, usage_str):
- """
- Command-line handling for list content of images.
- The real work is done by engine.wic_ls()
- """
-
- if args.image_name:
- BB_VARS.default_image = args.image_name
-
- if args.vars_dir:
- BB_VARS.vars_dir = args.vars_dir
-
- engine.wic_ls(args, args.native_sysroot)
-
-def wic_cp_subcommand(args, usage_str):
- """
- Command-line handling for copying files/dirs to images.
- The real work is done by engine.wic_cp()
- """
- if args.image_name:
- BB_VARS.default_image = args.image_name
-
- if args.vars_dir:
- BB_VARS.vars_dir = args.vars_dir
-
- engine.wic_cp(args, args.native_sysroot)
-
-def wic_rm_subcommand(args, usage_str):
- """
- Command-line handling for removing files/dirs from images.
- The real work is done by engine.wic_rm()
- """
- if args.image_name:
- BB_VARS.default_image = args.image_name
-
- if args.vars_dir:
- BB_VARS.vars_dir = args.vars_dir
-
- engine.wic_rm(args, args.native_sysroot)
-
-def wic_write_subcommand(args, usage_str):
- """
- Command-line handling for writing images.
- The real work is done by engine.wic_write()
- """
- if args.image_name:
- BB_VARS.default_image = args.image_name
-
- if args.vars_dir:
- BB_VARS.vars_dir = args.vars_dir
-
- engine.wic_write(args, args.native_sysroot)
-
-def wic_help_subcommand(args, usage_str):
- """
- Command-line handling for help subcommand to keep the current
- structure of the function definitions.
- """
- pass
-
-
-def wic_help_topic_subcommand(usage_str, help_str):
- """
- Display function for help 'sub-subcommands'.
- """
- print(help_str)
- return
-
-
-wic_help_topic_usage = """
-"""
-
-helptopics = {
- "plugins": [wic_help_topic_subcommand,
- wic_help_topic_usage,
- hlp.wic_plugins_help],
- "overview": [wic_help_topic_subcommand,
- wic_help_topic_usage,
- hlp.wic_overview_help],
- "kickstart": [wic_help_topic_subcommand,
- wic_help_topic_usage,
- hlp.wic_kickstart_help],
- "create": [wic_help_topic_subcommand,
- wic_help_topic_usage,
- hlp.wic_create_help],
- "ls": [wic_help_topic_subcommand,
- wic_help_topic_usage,
- hlp.wic_ls_help],
- "cp": [wic_help_topic_subcommand,
- wic_help_topic_usage,
- hlp.wic_cp_help],
- "rm": [wic_help_topic_subcommand,
- wic_help_topic_usage,
- hlp.wic_rm_help],
- "write": [wic_help_topic_subcommand,
- wic_help_topic_usage,
- hlp.wic_write_help],
- "list": [wic_help_topic_subcommand,
- wic_help_topic_usage,
- hlp.wic_list_help]
-}
-
-
-def wic_init_parser_create(subparser):
- subparser.add_argument("wks_file")
-
- subparser.add_argument("-o", "--outdir", dest="outdir", default='.',
- help="name of directory to create image in")
- subparser.add_argument("-w", "--workdir",
- help="temporary workdir to use for intermediate files")
- subparser.add_argument("-e", "--image-name", dest="image_name",
- help="name of the image to use the artifacts from "
- "e.g. core-image-sato")
- subparser.add_argument("-r", "--rootfs-dir", action=RootfsArgAction,
- help="path to the /rootfs dir to use as the "
- ".wks rootfs source")
- subparser.add_argument("-b", "--bootimg-dir", dest="bootimg_dir",
- help="path to the dir containing the boot artifacts "
- "(e.g. /EFI or /syslinux dirs) to use as the "
- ".wks bootimg source")
- subparser.add_argument("-k", "--kernel-dir", dest="kernel_dir",
- help="path to the dir containing the kernel to use "
- "in the .wks bootimg")
- subparser.add_argument("-n", "--native-sysroot", dest="native_sysroot",
- help="path to the native sysroot containing the tools "
- "to use to build the image")
- subparser.add_argument("-s", "--skip-build-check", dest="build_check",
- action="store_false", default=True, help="skip the build check")
- subparser.add_argument("-f", "--build-rootfs", action="store_true", help="build rootfs")
- subparser.add_argument("-c", "--compress-with", choices=("gzip", "bzip2", "xz"),
- dest='compressor',
- help="compress image with specified compressor")
- subparser.add_argument("-m", "--bmap", action="store_true", help="generate .bmap")
- subparser.add_argument("--no-fstab-update" ,action="store_true",
- help="Do not change fstab file.")
- subparser.add_argument("-v", "--vars", dest='vars_dir',
- help="directory with <image>.env files that store "
- "bitbake variables")
- subparser.add_argument("-D", "--debug", dest="debug", action="store_true",
- default=False, help="output debug information")
- subparser.add_argument("-i", "--imager", dest="imager",
- default="direct", help="the wic imager plugin")
- subparser.add_argument("--extra-space", type=int, dest="extra_space",
- default=0, help="additional free disk space to add to the image")
- return
-
-
-def wic_init_parser_list(subparser):
- subparser.add_argument("list_type",
- help="can be 'images' or 'source-plugins' "
- "to obtain a list. "
- "If value is a valid .wks image file")
- subparser.add_argument("help_for", default=[], nargs='*',
- help="If 'list_type' is a valid .wks image file "
- "this value can be 'help' to show the help information "
- "defined inside the .wks file")
- return
-
-def imgtype(arg):
- """
- Custom type for ArgumentParser
- Converts path spec to named tuple: (image, partition, path)
- """
- image = arg
- part = path = None
- if ':' in image:
- image, part = image.split(':')
- if '/' in part:
- part, path = part.split('/', 1)
- if not path:
- path = '/'
-
- if not os.path.isfile(image):
- err = "%s is not a regular file or symlink" % image
- raise argparse.ArgumentTypeError(err)
-
- return namedtuple('ImgType', 'image part path')(image, part, path)
-
-def wic_init_parser_ls(subparser):
- subparser.add_argument("path", type=imgtype,
- help="image spec: <image>[:<vfat partition>[<path>]]")
- subparser.add_argument("-n", "--native-sysroot",
- help="path to the native sysroot containing the tools")
- subparser.add_argument("-e", "--image-name", dest="image_name",
- help="name of the image to use the artifacts from "
- "e.g. core-image-sato")
- subparser.add_argument("-v", "--vars", dest='vars_dir',
- help="directory with <image>.env files that store "
- "bitbake variables")
-
-def imgpathtype(arg):
- img = imgtype(arg)
- if img.part is None:
- raise argparse.ArgumentTypeError("partition number is not specified")
- return img
-
-def wic_init_parser_cp(subparser):
- subparser.add_argument("src",
- help="image spec: <image>:<vfat partition>[<path>] or <file>")
- subparser.add_argument("dest",
- help="image spec: <image>:<vfat partition>[<path>] or <file>")
- subparser.add_argument("-n", "--native-sysroot",
- help="path to the native sysroot containing the tools")
- subparser.add_argument("-e", "--image-name", dest="image_name",
- help="name of the image to use the artifacts from "
- "e.g. core-image-sato")
- subparser.add_argument("-v", "--vars", dest='vars_dir',
- help="directory with <image>.env files that store "
- "bitbake variables")
-
-def wic_init_parser_rm(subparser):
- subparser.add_argument("path", type=imgpathtype,
- help="path: <image>:<vfat partition><path>")
- subparser.add_argument("-n", "--native-sysroot",
- help="path to the native sysroot containing the tools")
- subparser.add_argument("-r", dest="recursive_delete", action="store_true", default=False,
- help="remove directories and their contents recursively, "
- " this only applies to ext* partition")
- subparser.add_argument("-e", "--image-name", dest="image_name",
- help="name of the image to use the artifacts from "
- "e.g. core-image-sato")
- subparser.add_argument("-v", "--vars", dest='vars_dir',
- help="directory with <image>.env files that store "
- "bitbake variables")
-
-def expandtype(rules):
- """
- Custom type for ArgumentParser
- Converts expand rules to the dictionary {<partition>: size}
- """
- if rules == 'auto':
- return {}
- result = {}
- for rule in rules.split(','):
- try:
- part, size = rule.split(':')
- except ValueError:
- raise argparse.ArgumentTypeError("Incorrect rule format: %s" % rule)
-
- if not part.isdigit():
- raise argparse.ArgumentTypeError("Rule '%s': partition number must be integer" % rule)
-
- # validate size
- multiplier = 1
- for suffix, mult in [('K', 1024), ('M', 1024 * 1024), ('G', 1024 * 1024 * 1024)]:
- if size.upper().endswith(suffix):
- multiplier = mult
- size = size[:-1]
- break
- if not size.isdigit():
- raise argparse.ArgumentTypeError("Rule '%s': size must be integer" % rule)
-
- result[int(part)] = int(size) * multiplier
-
- return result
-
-def wic_init_parser_write(subparser):
- subparser.add_argument("image",
- help="path to the wic image")
- subparser.add_argument("target",
- help="target file or device")
- subparser.add_argument("-e", "--expand", type=expandtype,
- help="expand rules: auto or <partition>:<size>[,<partition>:<size>]")
- subparser.add_argument("-n", "--native-sysroot",
- help="path to the native sysroot containing the tools")
- subparser.add_argument("--image-name", dest="image_name",
- help="name of the image to use the artifacts from "
- "e.g. core-image-sato")
- subparser.add_argument("-v", "--vars", dest='vars_dir',
- help="directory with <image>.env files that store "
- "bitbake variables")
-
-def wic_init_parser_help(subparser):
- helpparsers = subparser.add_subparsers(dest='help_topic', help=hlp.wic_usage)
- for helptopic in helptopics:
- helpparsers.add_parser(helptopic, help=helptopics[helptopic][2])
- return
-
-
-subcommands = {
- "create": [wic_create_subcommand,
- hlp.wic_create_usage,
- hlp.wic_create_help,
- wic_init_parser_create],
- "list": [wic_list_subcommand,
- hlp.wic_list_usage,
- hlp.wic_list_help,
- wic_init_parser_list],
- "ls": [wic_ls_subcommand,
- hlp.wic_ls_usage,
- hlp.wic_ls_help,
- wic_init_parser_ls],
- "cp": [wic_cp_subcommand,
- hlp.wic_cp_usage,
- hlp.wic_cp_help,
- wic_init_parser_cp],
- "rm": [wic_rm_subcommand,
- hlp.wic_rm_usage,
- hlp.wic_rm_help,
- wic_init_parser_rm],
- "write": [wic_write_subcommand,
- hlp.wic_write_usage,
- hlp.wic_write_help,
- wic_init_parser_write],
- "help": [wic_help_subcommand,
- wic_help_topic_usage,
- hlp.wic_help_help,
- wic_init_parser_help]
-}
-
-
-def init_parser(parser):
- parser.add_argument("--version", action="version",
- version="%(prog)s {version}".format(version=__version__))
- parser.add_argument("-D", "--debug", dest="debug", action="store_true",
- default=False, help="output debug information")
-
- subparsers = parser.add_subparsers(dest='command', help=hlp.wic_usage)
- for subcmd in subcommands:
- subparser = subparsers.add_parser(subcmd, help=subcommands[subcmd][2])
- subcommands[subcmd][3](subparser)
-
-class WicArgumentParser(argparse.ArgumentParser):
- def format_help(self):
- return hlp.wic_help
-
-def main(argv):
- parser = WicArgumentParser(
- description="wic version %s" % __version__)
-
- init_parser(parser)
-
- args = parser.parse_args(argv)
-
- if args.debug:
- logger.setLevel(logging.DEBUG)
-
- if "command" in vars(args):
- if args.command == "help":
- if args.help_topic is None:
- parser.print_help()
- elif args.help_topic in helptopics:
- hlpt = helptopics[args.help_topic]
- hlpt[0](hlpt[1], hlpt[2])
- return 0
-
- # validate wic cp src and dest parameter to identify which one of it is
- # image and cast it into imgtype
- if args.command == "cp":
- if ":" in args.dest:
- args.dest = imgtype(args.dest)
- elif ":" in args.src:
- args.src = imgtype(args.src)
- else:
- raise argparse.ArgumentTypeError("no image or partition number specified.")
-
- return hlp.invoke_subcommand(args, parser, hlp.wic_help_usage, subcommands)
-
-
-if __name__ == "__main__":
- try:
- sys.exit(main(sys.argv[1:]))
- except WicError as err:
- print()
- logger.error(err)
- sys.exit(1)
The wic utility will continue to fall under The Yocto Project umbrella, but will no longer be integrated into the project as part of oe-core. The ultimate goal is to make wic a completely independent tool, hosted on PyPI, with its own tests, development roadmap, and releases. Some benefits include: - relieving the oe-core maintainers from having to review, understand, merge, or reject wic patches - allow the tool to be used outside of The Yocto Project for generating Linux images - provide more flexibility to explore other features, libraries, mechanisms, etc AI-Generated: AI was used to help with the initial split of wic from oe-core AI-Tool: codex AI-Model: gpt-5.1-codex-max Signed-off-by: Trevor Woerner <twoerner@gmail.com> --- scripts/lib/wic/__init__.py | 10 - scripts/lib/wic/canned-wks/common.wks.inc | 3 - .../directdisk-bootloader-config.cfg | 27 - .../directdisk-bootloader-config.wks | 8 - scripts/lib/wic/canned-wks/directdisk-gpt.wks | 10 - .../canned-wks/directdisk-multi-rootfs.wks | 23 - scripts/lib/wic/canned-wks/directdisk.wks | 8 - .../lib/wic/canned-wks/efi-bootdisk.wks.in | 3 - .../wic/canned-wks/efi-uki-bootdisk.wks.in | 3 - scripts/lib/wic/canned-wks/mkefidisk.wks | 11 - scripts/lib/wic/canned-wks/mkhybridiso.wks | 7 - scripts/lib/wic/canned-wks/qemuloongarch.wks | 3 - scripts/lib/wic/canned-wks/qemuriscv.wks | 3 - .../lib/wic/canned-wks/qemux86-directdisk.wks | 8 - .../lib/wic/canned-wks/sdimage-bootpart.wks | 6 - .../lib/wic/canned-wks/systemd-bootdisk.wks | 11 - scripts/lib/wic/engine.py | 681 ---------- scripts/lib/wic/filemap.py | 583 -------- scripts/lib/wic/help.py | 1188 ----------------- scripts/lib/wic/ksparser.py | 322 ----- scripts/lib/wic/misc.py | 266 ---- scripts/lib/wic/partition.py | 562 -------- scripts/lib/wic/pluginbase.py | 144 -- scripts/lib/wic/plugins/imager/direct.py | 710 ---------- .../wic/plugins/source/bootimg_biosplusefi.py | 213 --- scripts/lib/wic/plugins/source/bootimg_efi.py | 435 ------ .../wic/plugins/source/bootimg_partition.py | 162 --- .../lib/wic/plugins/source/bootimg_pcbios.py | 483 ------- scripts/lib/wic/plugins/source/empty.py | 89 -- .../lib/wic/plugins/source/extra_partition.py | 134 -- .../wic/plugins/source/isoimage_isohybrid.py | 463 ------- scripts/lib/wic/plugins/source/rawcopy.py | 115 -- scripts/lib/wic/plugins/source/rootfs.py | 236 ---- scripts/wic | 600 --------- 34 files changed, 7530 deletions(-) delete mode 100644 scripts/lib/wic/__init__.py delete mode 100644 scripts/lib/wic/canned-wks/common.wks.inc delete mode 100644 scripts/lib/wic/canned-wks/directdisk-bootloader-config.cfg delete mode 100644 scripts/lib/wic/canned-wks/directdisk-bootloader-config.wks delete mode 100644 scripts/lib/wic/canned-wks/directdisk-gpt.wks delete mode 100644 scripts/lib/wic/canned-wks/directdisk-multi-rootfs.wks delete mode 100644 scripts/lib/wic/canned-wks/directdisk.wks delete mode 100644 scripts/lib/wic/canned-wks/efi-bootdisk.wks.in delete mode 100644 scripts/lib/wic/canned-wks/efi-uki-bootdisk.wks.in delete mode 100644 scripts/lib/wic/canned-wks/mkefidisk.wks delete mode 100644 scripts/lib/wic/canned-wks/mkhybridiso.wks delete mode 100644 scripts/lib/wic/canned-wks/qemuloongarch.wks delete mode 100644 scripts/lib/wic/canned-wks/qemuriscv.wks delete mode 100644 scripts/lib/wic/canned-wks/qemux86-directdisk.wks delete mode 100644 scripts/lib/wic/canned-wks/sdimage-bootpart.wks delete mode 100644 scripts/lib/wic/canned-wks/systemd-bootdisk.wks delete mode 100644 scripts/lib/wic/engine.py delete mode 100644 scripts/lib/wic/filemap.py delete mode 100644 scripts/lib/wic/help.py delete mode 100644 scripts/lib/wic/ksparser.py delete mode 100644 scripts/lib/wic/misc.py delete mode 100644 scripts/lib/wic/partition.py delete mode 100644 scripts/lib/wic/pluginbase.py delete mode 100644 scripts/lib/wic/plugins/imager/direct.py delete mode 100644 scripts/lib/wic/plugins/source/bootimg_biosplusefi.py delete mode 100644 scripts/lib/wic/plugins/source/bootimg_efi.py delete mode 100644 scripts/lib/wic/plugins/source/bootimg_partition.py delete mode 100644 scripts/lib/wic/plugins/source/bootimg_pcbios.py delete mode 100644 scripts/lib/wic/plugins/source/empty.py delete mode 100644 scripts/lib/wic/plugins/source/extra_partition.py delete mode 100644 scripts/lib/wic/plugins/source/isoimage_isohybrid.py delete mode 100644 scripts/lib/wic/plugins/source/rawcopy.py delete mode 100644 scripts/lib/wic/plugins/source/rootfs.py delete mode 100755 scripts/wic