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Update README, make 'wrong arch' log message less scary
README was badly outdated, so give it a coat of paint. A person trying to get up to speed on openQA was misled by the current message into thinking something was wrong. Signed-off-by: Adam Williamson <awilliam@redhat.com>
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README.md
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README.md
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createhdds.py creates and maintains the set of pre-rolled hard disk images needed for some of the Fedora openQA tests.
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## Requirements
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createhdds requires libvirt-daemon-kvm, libvirt-python3, python3-libguestfs, python3-fedfind, qemu-kvm, virt-install, and (for ppc64 images) powerpc-utils. You will need somewhere around 100-150GB of disk space for the full set of base images for all supported arches.
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## Usage
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Most usage information can be seen in the help text - just run `createhdds.py -h` for an overview of the subcommands available, and `createhdds.py (subcommand) -h` for help on a subcommand. To put it simply, the most common usage is simply to run `createhdds.py all -c`. This will create all the currently-expected images that have not already been created, and recreate any that need recreating (images can have a 'maximum age' causing them to be rebuilt by `all` when they're older than that age, and images also have a 'version' - if the image's 'version' is bumped by the maintainers, `all` will rebuild it). It will also remove any image files that are present that aren't expected to be present - usually images for old releases that are no longer tested, or images we've simply stopped using. In a typical deployment of a Fedora openQA instance, the admin should set things up so the `openqa_fedora_tools` git checkout is updated and `createhdds.py all -c` is run regularly - say, once a day (and probably not while tests are being run).
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Most usage information can be seen in the help text - just run `createhdds.py -h` for an overview of the subcommands available, and `createhdds.py (subcommand) -h` for help on a subcommand. To put it simply, the most common usage is simply to run `createhdds.py all -c`. This will create all the currently-expected images (that are arch-compatible with the host you are running `createhdds` on) that have not already been created, and recreate any that need recreating (images can have a 'maximum age' causing them to be rebuilt by `all` when they're older than that age, and images also have a 'version' - if the image's 'version' is bumped by the maintainers, `all` will rebuild it). It will also remove any image files that are present that aren't expected to be present - usually images for old releases that are no longer tested, or images we've simply stopped using. In a typical deployment of a Fedora openQA instance, the admin should set things up so the git checkout is updated and `createhdds.py all -c` is run regularly - say, once a day (and probably not while tests are being run).
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`createhdds.py check` will just check whether all expected images are present and up-to-date; if they are, it will exit 0, if they are not, it will exit 1 and print a message. This can be handy for use with things like Ansible (so you can run the check to decide whether you need to run the creation, and thus avoid spurious 'changed' statuses).
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`createhdds.py check` will just check whether all expected images are present and up-to-date. If all images are present but some are outdated, it will exit 1. If some images are entirely missing, it will exit 2. This can be handy for use with things like Ansible (so you can run the check to decide whether you need to run the creation, and thus avoid spurious 'changed' statuses).
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There are also individual subcommands for each of the named 'image groups', allowing you to create just the image(s) from that group. For image groups which usually generate multiple images, the subcommand will have arguments that let you restrict creation to just a subset of those images (and for virt-builder type images, you can create the image(s) for a different release than would usually be the case, too).
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There are also individual subcommands for each of the named 'image groups', allowing you to create just the image(s) from that group. For image groups which usually generate multiple images, the subcommand will have arguments that let you restrict creation to just a subset of those images (and for virt-install type images, you can create the image(s) for a different release than would usually be the case, too).
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In `all` mode, and in single-image mode if you do not pass `--release`, createhdds can decide what releases to build images for, for those image groups that include an installed Fedora release (the virt-builder type images). A virt-builder type image group can specify the releases to build images for absolutely (by giving the release numbers as positive integers), or relative to the next pending release (by giving the release numbers as negative integers). When it encounters one of these 'relative' release numbers, `createhdds` uses [fedfind](https://www.happyassassin.net/fedfind) to discover the 'current' release, and adds 1 to that (to find the 'pending' release). Just in case anything goes wrong with this, or you need to override it for some reason, the `--nextrel` argument is available for relevant subcommands to explicitly specify the 'next release'.
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In `all` mode, and in single-image mode if you do not pass `--release`, createhdds can decide what releases to build images for, for those image groups that include an installed Fedora release (the virt-install type images). A virt-install type image group can specify the releases to build images for absolutely (by giving the release numbers as positive integers), or relative to the next pending release (by giving the release numbers as negative integers). When it encounters one of these 'relative' release numbers, `createhdds` uses [fedfind](https://www.happyassassin.net/fedfind) to discover the 'current' release, and adds 1 to that (to find the 'pending' release). Just in case anything goes wrong with this, or you need to override it for some reason, the `--nextrel` argument is available for relevant subcommands to explicitly specify the 'next release'.
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## Specifying images / 'image groups': `hdds.json` and `.commands` files
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All the information on what images can/should be created comes from the `hdds.json` file and some `virt-builder` commands files. You can add, modify and remove image definitions without touching `createhdds.py`. `hdds.json` should define a single dictionary with three keys: `guestfs`, `virtbuilder`, and `renames`. The meat is `guestfs` and `virtbuilder`, which define 'image groups': for each image group, `createhdds all` will create one or more images (multiple images produced from a single group are referred to as 'variants'). Groups and variants are provided for so that if you want to create, say, three images that are identical but for their disk label, you don't have to create a whole new almost-identical entry for each one. The rules about what particular attributes of an image can be implemented as 'variants' are somewhat arbitrary and actually just taken from the old `createhdds.sh`; each function in that implementation became an 'image group' in this rewrite, and the attributes that can vary between variants are the same ones that could be set as function arguments in `createhdds.sh`. The `.commands` files allow for customization of `virt-builder` images; more on this later. `hdds.json` and any `.commands` files must always be in the same folder as `createhdds.py` (not necessarily the same folder the disk images reside in).
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All the information on what images can/should be created comes from the `hdds.json` file and some `virt-install` commands files. You can add, modify and remove image definitions without touching `createhdds.py`. `hdds.json` should define a single dictionary with three keys: `guestfs`, `virtinstall`, and `renames`. The meat is `guestfs` and `virtinstall`, which define 'image groups': for each image group, `createhdds all` will create one or more images (multiple images produced from a single group are referred to as 'variants'). Groups and variants are provided for so that if you want to create, say, three images that are identical but for their disk label, you don't have to create a whole new almost-identical entry for each one. The rules about what particular attributes of an image can be implemented as 'variants' are somewhat arbitrary and actually just taken from the old `createhdds.sh`; each function in that implementation became an 'image group' in this rewrite, and the attributes that can vary between variants are the same ones that could be set as function arguments in `createhdds.sh`. The `.ks` files allow for customization of `virt-install` images; more on this later. `hdds.json` and the `.ks` files must always be in the same folder as `createhdds.py` (not necessarily the same folder the disk images reside in).
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### renames
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The value of `renames` is a simple list-of-lists. Each item is a pair of strings. In `all` mode, and optionally in `check` mode, createhdds will read in all the items from the `renames` list. For each item it will look for a file (in the working directory - createhdds always works on the working directory) named the same as the first string, and if it finds such a file, change its name to the second string. So for instance, the value of `renames` could be `[['disk_foo.img', 'disk_bar.img'], ['disk_monkey.img', 'disk_fish.img']]`; that would result in createhdds renaming `disk_foo.img` to `disk_bar.img` and `disk_monkey.img` to `disk_fish.img`. This mechanism is provided to aid in the situation where an image's expected name changes, but the existing image file is still valid; instead of forcing the user to rename it manually or re-generate it, we can list it in `renames` and it will get renamed automatically. Of course, if the image's content changes too, we shouldn't use this mechanism.
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### guestfs and virtbuilder
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### guestfs and virtinstall
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The value for both `guestfs` and `virtbuilder` is a list of dicts. Each dict defines a single 'image group'; an image group can produce just a single image, or several variants - we will learn what determines the possible variants for an image group below. The images in `guestfs` are produced using libguestfs - these are images that just contain a particular partition layout and perhaps some files we seed directly, but no installed operating system. The images in `virtbuilder` are produced using `virt-builder` - these are images containing an installed operating system. Some keys are common to both image group types:
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The value for both `guestfs` and `virtinstall` is a list of dicts. Each dict defines a single 'image group'; an image group can produce just a single image, or several variants - we will learn what determines the possible variants for an image group below. The images in `guestfs` are produced using libguestfs - these are images that just contain a particular partition layout and perhaps some files we seed directly, but no installed operating system. The images in `virtinstall` are produced using `virt-install` - these are images containing an installed operating system. Some keys are common to both image group types:
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#### `imgver`
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#### `size`
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This key is **required** for `guestfs`, **optional** for `virtbuilder`. It is the size of the image. A plain digit string is a size in bytes. A digit string followed by 'M', 'MB' or 'MiB' is a size in megabytes (power-of-2). A digit string followed by 'G', 'GB' or 'GiB' is a size in gigabytes (power-of-2). For `virtbuilder`, if `size` is not set, the image will be whatever size the `virt-builder` base image it's created from is.
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This key is **required** for `guestfs`, **optional** for `virtinstall`. It is the size of the image. A plain digit string is a size in bytes. A digit string followed by 'M', 'MB' or 'MiB' is a size in megabytes (power-of-2). A digit string followed by 'G', 'GB' or 'GiB' is a size in gigabytes (power-of-2). For `virtinstall`, if `size` is not set, the image will be whatever size the `virt-install` base image it's created from is.
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Some keys are specific to each type of image. These are the `guestfs`-specific keys:
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Finally, say an image group specifies `name : "blank"`, `filesystems : ["ext4", "ntfs"]` and `labels : ["mbr", "gpt"]`. There will be *four* expected images, `disk_blank_ext4_mbr.img`, `disk_blank_ntfs_mbr.img`, `disk_blank_ext4_gpt.img`, `disk_blank_ntfs_gpt.img`. The `mbr` images will have MBR disk labels, the `gpt` images will have GPT disk labels, the `ext4` images will have partitions that don't explicitly specify a filesystem formatted as ext4, and the `ntfs` images will have partitions that don't explicitly specify a filesystem formatted as NTFS.
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Whew! That was a lot of explanation, but it's not really a super-complicated concept, you'll get it easy. OK, let's move on to the `virtbuilder`-specific keys:
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Whew! That was a lot of explanation, but it's not really a super-complicated concept, you'll get it easy. OK, let's move on to the `virtinstall`-specific keys:
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#### `releases`
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This key is **required**. It defines the releases and arches for which images are expected; thus it determines the number of images that will be expected for this group. The value is a dict. Each key in the dict represents a release; the value for each key is a list of the arches for which images should be built for that release. The keys should be integer digit strings. **Positive** values indicate absolute release numbers. **Negative** values are relative to whatever is the pending release at the time the images are created. So a release number `-1` means 'the release one before the pending release at the time the images are built'. So if the next Fedora release will be Fedora 24 at the time the images are created, and one of the dict keys is `-1`, an image will be expected for Fedora 23.
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The filename for a virt-builder type image always includes the release number and arch it's built for - `disk_f(release)_(name)_(arch).img`.
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The filename for a virt-install type image always includes the release number and arch it's built for - `disk_f(release)_(name)_(arch).img`.
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Let's look at an example! Say the `name` is `minimal` and the `releases` dict is `{ "-1" : ["i686", "x86_64"], "-2" : ["x86_64"] }`. Three images will be expected, and the expected releases will be relevant to the pending release. Say the pending release is Fedora 24, the expected images will be `disk_f23_minimal_i686.img` (Fedora 23 for i686), `disk_f23_minimal_x86_64.img` (Fedora 23 for x86_64), and `disk_f22_minimal_x86_64.img` (Fedora 22 for x86_64). When time moves on and the next pending release is F25, images will be expected for Fedora 23 and Fedora 24, and the Fedora 22 images will be considered obsolete and deleted by cleanup modes of `createhdds`.
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As with the `guestfs` case, the single image group subcommand will have parameters to limit creation. So in our example, the `minimal` subcommand will have `--release` and `--arch` parameters, each allowing just a single value. For coding simplicity, passing `--arch` alone is ignored (this may be fixed later) and will just result in the 'expected' images being created. If `--release` is passed, only a single image will be created, for whatever release is specified; by default it will be the x86_64 image, you may pass `--arch (arch)` to build another arch instead.
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Note that `createhdds` attempts to only create images that are arch-compatible when run - ones where the host CPU can emulate the target arch at near-native speed. In other words, it will not attempt to build ppc64(le) images on x86_64 hosts, or aarch64 images on ppc64(le) hosts, etc. If you intend to have an openQA deployment with multiple arches that are not compatible in this way, the intent is that you ensure at least one machine of each arch group has write access to the necessary location, and run createhdds on each of those machines, so the full set of images will be created. Note this also means `createhdds` will *ignore* images for other arches entirely - it will not delete them because it thinks they're out of date or unknown, for instance. You do not *need* images for all arches, only for the arches you actually intend to have workers for and run tests on.
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#### `maxage`
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This key is **optional**. If not set, it defaults to 14. Its value should be an integer string. This basically indicates how often (as a number of days) the image should be rebuilt. virt-builder images can go 'stale' - at build time we update the installed OS to the latest packages, but of course by the time the image is used, later updates may be available. If the test the image is used for needs all the latest packages to be installed, the test will have to install the later updates, and it's inefficient to have one or more tests doing that every day. So it makes sense to re-generate the images periodically so that the tests only have to install few if any updates. For any image group with a non-0 maxage, createhdds `check` and `any` modes will check any existing image file's age against maxage; if it exceeds the maxage `check` will consider it 'outdated', and `all` will rebuild it. To disable maxage checks for an image group, set `maxage` to 0.
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This key is **optional**. If not set, it defaults to 14. Its value should be an integer string. This basically indicates how often (as a number of days) the image should be rebuilt. virt-install images can go 'stale' - at build time we update the installed OS to the latest packages, but of course by the time the image is used, later updates may be available. If the test the image is used for needs all the latest packages to be installed, the test will have to install the later updates, and it's inefficient to have one or more tests doing that every day. So it makes sense to re-generate the images periodically so that the tests only have to install few if any updates. For any image group with a non-0 maxage, createhdds `check` and `any` modes will check any existing image file's age against maxage; if it exceeds the maxage `check` will consider it 'outdated', and `all` will rebuild it. To disable maxage checks for an image group, set `maxage` to 0.
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### `commands` files
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### `ks` files
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Customization of virt-builder type images, beyond the Fedora release/arch combination, is done with `.commands` files. virt-builder allows you to pass in any set of customization commands you like in a text file. It seemed easier to simply let maintainers create a `.commands` file for each virt-builder image group than to come up with a syntax for specifying customizations in the JSON. The logic is simple: for each virt-builder image group, if there is a file named `(name).commands`, that file will be passed to virt-builder as the customization command file. For instance, the `desktop.commands` file contains the customization commands for the 'desktop' virt-builder image group; it installs the Workstation package group, creates a regular user, and does a few other things. The virt-builder documentation explains all the customization commands. The `.commands` file is technically optional, but in most cases you will want to include at least the commands from `minimal.commands` - to set a root password, update packages, and schedule an SELinux relabel (as files touched by other customization commands will have incorrect labels).
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Customization of virt-install type images, beyond the Fedora release/arch combination, is done with `.ks` files. These are [installer kickstart](https://pykickstart.readthedocs.io/en/latest/) files. These are how we actually define what packages to install and so on for each different image group. The logic is simple: for each virt-install image group, if there is a file named `(name).ks`, that file will be passed to virt-install as the install kickstart. For instance, the `desktop.ks` file contains the install directives for the 'desktop' virt-install image group; it installs the Workstation package group, creates a regular user, and does a few other things. The kickstart documentation explains all the possible directives.
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def create(self, textinst, retries=3):
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"""Create the image."""
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if self.arch not in supported_arches():
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logger.info("Won't create %s image on %s host", self.arch, CPUARCH)
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logger.info("Won't create %s image on %s host. This is normal, don't worry. If you "
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"intend to have %s workers you will need to run createhdds again on one "
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"of them to create their base images", self.arch, CPUARCH, CPUARCH)
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return
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# figure out the best os-variant. NOTE: libosinfo >= 0.3.1
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