From 7971cb0aa3e517a53f0ce6d3ee9bc3179041ccb8 Mon Sep 17 00:00:00 2001 From: John Klug Date: Wed, 25 May 2022 17:12:18 -0500 Subject: mLinux 6 --- scripts/lib/wic/help.py | 777 ++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 777 insertions(+) create mode 100644 scripts/lib/wic/help.py (limited to 'scripts/lib/wic/help.py') diff --git a/scripts/lib/wic/help.py b/scripts/lib/wic/help.py new file mode 100644 index 0000000..405d25a --- /dev/null +++ b/scripts/lib/wic/help.py @@ -0,0 +1,777 @@ +# ex:ts=4:sw=4:sts=4:et +# -*- tab-width: 4; c-basic-offset: 4; indent-tabs-mode: nil -*- +# +# Copyright (c) 2013, Intel Corporation. +# All rights reserved. +# +# 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 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 +# + +import subprocess +import logging + +from wic.plugin import pluginmgr, PLUGIN_TYPES + +def subcommand_error(args): + logging.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) + + return True + + +def wic_help(args, usage_str, subcommands): + """ + Subcommand help dispatcher. + """ + if len(args) == 1 or not display_help(args[1], 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).iteritems(): + 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: + logging.error("No subcommand specified, exiting") + parser.print_help() + return 1 + elif args[0] == "help": + wic_help(args, main_command_usage, subcommands) + elif args[0] not in subcommands: + logging.error("Unsupported subcommand %s, exiting\n" % (args[0])) + parser.print_help() + return 1 + else: + usage = subcommands.get(args[0], subcommand_error)[1] + subcommands.get(args[0], subcommand_error)[0](args[1:], 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 + + This command displays detailed help for the specified subcommand. +""" + +wic_create_usage = """ + + Create a new OpenEmbedded image + + usage: wic create [-o | --outdir ] + [-i | --infile ] + [-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 . + + 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 [-o | --outdir ] + [-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] + +DESCRIPTION + This command creates an OpenEmbedded image based on the 'OE + kickstart commands' found in the . + + 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 " + + 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. +""" + +wic_list_usage = """ + + List available OpenEmbedded images and source plugins + + usage: wic list images + wic list 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 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_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/ + 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_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. + The code that then needs to call the plugin methods uses + plugin.get_source_plugin_methods() to find the method(s) needed by + the call; this is done by filling up a dict with keys containing + the method names of interest - on success, these will be filled in + with the actual methods. Please see the implementation for + examples and 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 Redhat 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 [-o | ...] + [-i | --infile ] + [-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 . + + 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. + + http://fedoraproject.org/wiki/Anaconda/Kickstart#part_or_partition + http://fedoraproject.org/wiki/Anaconda/Kickstart#bootloader + + Commands + + * 'part' or 'partition' + + This command creates a partition on the system and uses the + following syntax: + + part [] + + The is where the partition will be mounted and + must take of one of the following forms: + + /: For example: /, /usr, or /home + + swap: The partition will be used as swap space. + + If a is not specified the partition will be created + but will not be mounted. + + Partitions with a 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 or --use-uuid partition options must be used for + each partition that specifies a mountpoint. + + + 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. + + --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 ' 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. + + --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: + + ext2 + ext3 + ext4 + btrfs + squashfs + swap + + --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". + + --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. + + --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. + + --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. + + --extra-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. + + --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. + + --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. + + * 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. + + 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 + + The 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. + +""" -- cgit v1.2.3