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debian-forge-composer/internal/distro/fedora/distro.go
Ondřej Budai 4bafe1ead9 remove Fedora 35 support 
Fedora 35 is going EOL on Tue 2022-12-13. At the time of writing this commit
message, that's the next day. As we do releases on Wednesdays, the next
release will never find its way to F35 and thus, there's no point in keeping
support for it.

Let's delete everything that relates to Fedora 35. If there's something that
cannot be deleted (e.g. CI containers based on F35), let's upgrade it to F37.

TestCrossArchDepsolve now uses CentOS Stream 8 because RHEL 8.4 cannot read
F37 repository metadata. This is a similar issue to
https://bugzilla.redhat.com/show_bug.cgi?id=2004853 . Basically, newer
repositories can be only read by libmodulemd >= 2.11.

Signed-off-by: Ondřej Budai <ondrej@budai.cz>
2023-01-06 11:34:50 +01:00

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package fedora
import (
"errors"
"fmt"
"math/rand"
"sort"
"strconv"
"strings"
"github.com/sirupsen/logrus"
"github.com/osbuild/osbuild-composer/internal/blueprint"
"github.com/osbuild/osbuild-composer/internal/common"
"github.com/osbuild/osbuild-composer/internal/container"
"github.com/osbuild/osbuild-composer/internal/disk"
"github.com/osbuild/osbuild-composer/internal/distro"
"github.com/osbuild/osbuild-composer/internal/environment"
"github.com/osbuild/osbuild-composer/internal/image"
"github.com/osbuild/osbuild-composer/internal/manifest"
"github.com/osbuild/osbuild-composer/internal/oscap"
"github.com/osbuild/osbuild-composer/internal/platform"
"github.com/osbuild/osbuild-composer/internal/rpmmd"
"github.com/osbuild/osbuild-composer/internal/runner"
"github.com/osbuild/osbuild-composer/internal/workload"
)
const (
// package set names
// main/common os image package set name
osPkgsKey = "packages"
// container package set name
containerPkgsKey = "container"
// installer package set name
installerPkgsKey = "installer"
// blueprint package set name
blueprintPkgsKey = "blueprint"
//Kernel options for ami, qcow2, openstack, vhd and vmdk types
defaultKernelOptions = "ro no_timer_check console=ttyS0,115200n8 biosdevname=0 net.ifnames=0"
)
var (
oscapProfileAllowList = []oscap.Profile{
oscap.Ospp,
oscap.PciDss,
oscap.Standard,
}
// Services
iotServices = []string{
"NetworkManager.service",
"firewalld.service",
"rngd.service",
"sshd.service",
"zezere_ignition.timer",
"zezere_ignition_banner.service",
"greenboot-grub2-set-counter",
"greenboot-grub2-set-success",
"greenboot-healthcheck",
"greenboot-rpm-ostree-grub2-check-fallback",
"greenboot-status",
"greenboot-task-runner",
"redboot-auto-reboot",
"redboot-task-runner",
"parsec",
"dbus-parsec",
}
// Image Definitions
imageInstallerImgType = imageType{
name: "image-installer",
nameAliases: []string{"fedora-image-installer"},
filename: "installer.iso",
mimeType: "application/x-iso9660-image",
packageSets: map[string]packageSetFunc{
osPkgsKey: bareMetalPackageSet,
installerPkgsKey: imageInstallerPackageSet,
},
bootable: true,
bootISO: true,
rpmOstree: false,
image: imageInstallerImage,
buildPipelines: []string{"build"},
payloadPipelines: []string{"os", "anaconda-tree", "rootfs-image", "efiboot-tree", "bootiso-tree"},
exports: []string{"bootiso"},
}
iotCommitImgType = imageType{
name: "iot-commit",
nameAliases: []string{"fedora-iot-commit"},
filename: "commit.tar",
mimeType: "application/x-tar",
packageSets: map[string]packageSetFunc{
osPkgsKey: iotCommitPackageSet,
},
defaultImageConfig: &distro.ImageConfig{
EnabledServices: iotServices,
},
rpmOstree: true,
image: iotCommitImage,
buildPipelines: []string{"build"},
payloadPipelines: []string{"os", "ostree-commit", "commit-archive"},
exports: []string{"commit-archive"},
}
iotOCIImgType = imageType{
name: "iot-container",
nameAliases: []string{"fedora-iot-container"},
filename: "container.tar",
mimeType: "application/x-tar",
packageSets: map[string]packageSetFunc{
osPkgsKey: iotCommitPackageSet,
containerPkgsKey: func(t *imageType) rpmmd.PackageSet {
return rpmmd.PackageSet{}
},
},
defaultImageConfig: &distro.ImageConfig{
EnabledServices: iotServices,
},
rpmOstree: true,
bootISO: false,
image: iotContainerImage,
buildPipelines: []string{"build"},
payloadPipelines: []string{"ostree-tree", "ostree-commit", "container-tree", "container"},
exports: []string{"container"},
}
iotInstallerImgType = imageType{
name: "iot-installer",
nameAliases: []string{"fedora-iot-installer"},
filename: "installer.iso",
mimeType: "application/x-iso9660-image",
packageSets: map[string]packageSetFunc{
installerPkgsKey: iotInstallerPackageSet,
},
defaultImageConfig: &distro.ImageConfig{
Locale: common.StringToPtr("en_US.UTF-8"),
EnabledServices: iotServices,
},
rpmOstree: true,
bootISO: true,
image: iotInstallerImage,
buildPipelines: []string{"build"},
payloadPipelines: []string{"anaconda-tree", "rootfs-image", "efiboot-tree", "bootiso-tree"},
exports: []string{"bootiso"},
}
iotRawImgType = imageType{
name: "iot-raw-image",
nameAliases: []string{"fedora-iot-raw-image"},
filename: "image.raw.xz",
mimeType: "application/xz",
packageSets: map[string]packageSetFunc{},
defaultImageConfig: &distro.ImageConfig{
Locale: common.StringToPtr("en_US.UTF-8"),
},
defaultSize: 10 * common.GibiByte,
rpmOstree: true,
bootable: true,
image: iotRawImage,
buildPipelines: []string{"build"},
payloadPipelines: []string{"image-tree", "image", "xz"},
exports: []string{"xz"},
basePartitionTables: iotBasePartitionTables,
}
qcow2ImgType = imageType{
name: "qcow2",
filename: "disk.qcow2",
mimeType: "application/x-qemu-disk",
packageSets: map[string]packageSetFunc{
osPkgsKey: qcow2CommonPackageSet,
},
defaultImageConfig: &distro.ImageConfig{
DefaultTarget: common.StringToPtr("multi-user.target"),
EnabledServices: []string{
"cloud-init.service",
"cloud-config.service",
"cloud-final.service",
"cloud-init-local.service",
},
},
kernelOptions: defaultKernelOptions,
bootable: true,
defaultSize: 2 * common.GibiByte,
image: liveImage,
buildPipelines: []string{"build"},
payloadPipelines: []string{"os", "image", "qcow2"},
exports: []string{"qcow2"},
basePartitionTables: defaultBasePartitionTables,
}
vhdImgType = imageType{
name: "vhd",
filename: "disk.vhd",
mimeType: "application/x-vhd",
packageSets: map[string]packageSetFunc{
osPkgsKey: vhdCommonPackageSet,
},
defaultImageConfig: &distro.ImageConfig{
Locale: common.StringToPtr("en_US.UTF-8"),
EnabledServices: []string{
"sshd",
},
DefaultTarget: common.StringToPtr("multi-user.target"),
DisabledServices: []string{
"proc-sys-fs-binfmt_misc.mount",
"loadmodules.service",
},
},
kernelOptions: defaultKernelOptions,
bootable: true,
defaultSize: 2 * common.GibiByte,
image: liveImage,
buildPipelines: []string{"build"},
payloadPipelines: []string{"os", "image", "vpc"},
exports: []string{"vpc"},
basePartitionTables: defaultBasePartitionTables,
environment: &environment.Azure{},
}
vmdkImgType = imageType{
name: "vmdk",
filename: "disk.vmdk",
mimeType: "application/x-vmdk",
packageSets: map[string]packageSetFunc{
osPkgsKey: vmdkCommonPackageSet,
},
defaultImageConfig: &distro.ImageConfig{
Locale: common.StringToPtr("en_US.UTF-8"),
EnabledServices: []string{
"cloud-init.service",
"cloud-config.service",
"cloud-final.service",
"cloud-init-local.service",
},
},
kernelOptions: defaultKernelOptions,
bootable: true,
defaultSize: 2 * common.GibiByte,
image: liveImage,
buildPipelines: []string{"build"},
payloadPipelines: []string{"os", "image", "vmdk"},
exports: []string{"vmdk"},
basePartitionTables: defaultBasePartitionTables,
}
openstackImgType = imageType{
name: "openstack",
filename: "disk.qcow2",
mimeType: "application/x-qemu-disk",
packageSets: map[string]packageSetFunc{
osPkgsKey: openstackCommonPackageSet,
},
defaultImageConfig: &distro.ImageConfig{
Locale: common.StringToPtr("en_US.UTF-8"),
EnabledServices: []string{
"cloud-init.service",
"cloud-config.service",
"cloud-final.service",
"cloud-init-local.service",
},
},
kernelOptions: defaultKernelOptions,
bootable: true,
defaultSize: 2 * common.GibiByte,
image: liveImage,
buildPipelines: []string{"build"},
payloadPipelines: []string{"os", "image", "qcow2"},
exports: []string{"qcow2"},
basePartitionTables: defaultBasePartitionTables,
}
// default EC2 images config (common for all architectures)
defaultEc2ImageConfig = &distro.ImageConfig{
DefaultTarget: common.StringToPtr("multi-user.target"),
}
amiImgType = imageType{
name: "ami",
filename: "image.raw",
mimeType: "application/octet-stream",
packageSets: map[string]packageSetFunc{
osPkgsKey: ec2CommonPackageSet,
},
defaultImageConfig: defaultEc2ImageConfig,
kernelOptions: defaultKernelOptions,
bootable: true,
defaultSize: 6 * common.GibiByte,
image: liveImage,
buildPipelines: []string{"build"},
payloadPipelines: []string{"os", "image"},
exports: []string{"image"},
basePartitionTables: defaultBasePartitionTables,
environment: &environment.EC2{},
}
containerImgType = imageType{
name: "container",
filename: "container.tar",
mimeType: "application/x-tar",
packageSets: map[string]packageSetFunc{
osPkgsKey: containerPackageSet,
},
defaultImageConfig: &distro.ImageConfig{
NoSElinux: common.BoolToPtr(true),
ExcludeDocs: common.BoolToPtr(true),
Locale: common.StringToPtr("C.UTF-8"),
Timezone: common.StringToPtr("Etc/UTC"),
},
image: containerImage,
bootable: false,
buildPipelines: []string{"build"},
payloadPipelines: []string{"os", "container"},
exports: []string{"container"},
}
)
type distribution struct {
name string
product string
osVersion string
releaseVersion string
modulePlatformID string
ostreeRefTmpl string
isolabelTmpl string
runner runner.Runner
arches map[string]distro.Arch
defaultImageConfig *distro.ImageConfig
}
// Fedora based OS image configuration defaults
var defaultDistroImageConfig = &distro.ImageConfig{
Timezone: common.StringToPtr("UTC"),
Locale: common.StringToPtr("en_US"),
}
func getDistro(version int) distribution {
return distribution{
name: fmt.Sprintf("fedora-%d", version),
product: "Fedora",
osVersion: strconv.Itoa(version),
releaseVersion: strconv.Itoa(version),
modulePlatformID: fmt.Sprintf("platform:f%d", version),
ostreeRefTmpl: fmt.Sprintf("fedora/%d/%%s/iot", version),
isolabelTmpl: fmt.Sprintf("Fedora-%d-BaseOS-%%s", version),
runner: &runner.Fedora{Version: uint64(version)},
defaultImageConfig: defaultDistroImageConfig,
}
}
func (d *distribution) Name() string {
return d.name
}
func (d *distribution) Releasever() string {
return d.releaseVersion
}
func (d *distribution) ModulePlatformID() string {
return d.modulePlatformID
}
func (d *distribution) OSTreeRef() string {
return d.ostreeRefTmpl
}
func (d *distribution) ListArches() []string {
archNames := make([]string, 0, len(d.arches))
for name := range d.arches {
archNames = append(archNames, name)
}
sort.Strings(archNames)
return archNames
}
func (d *distribution) GetArch(name string) (distro.Arch, error) {
arch, exists := d.arches[name]
if !exists {
return nil, errors.New("invalid architecture: " + name)
}
return arch, nil
}
func (d *distribution) addArches(arches ...architecture) {
if d.arches == nil {
d.arches = map[string]distro.Arch{}
}
// Do not make copies of architectures, as opposed to image types,
// because architecture definitions are not used by more than a single
// distro definition.
for idx := range arches {
d.arches[arches[idx].name] = &arches[idx]
}
}
func (d *distribution) getDefaultImageConfig() *distro.ImageConfig {
return d.defaultImageConfig
}
type architecture struct {
distro *distribution
name string
imageTypes map[string]distro.ImageType
imageTypeAliases map[string]string
}
func (a *architecture) Name() string {
return a.name
}
func (a *architecture) ListImageTypes() []string {
itNames := make([]string, 0, len(a.imageTypes))
for name := range a.imageTypes {
itNames = append(itNames, name)
}
sort.Strings(itNames)
return itNames
}
func (a *architecture) GetImageType(name string) (distro.ImageType, error) {
t, exists := a.imageTypes[name]
if !exists {
aliasForName, exists := a.imageTypeAliases[name]
if !exists {
return nil, errors.New("invalid image type: " + name)
}
t, exists = a.imageTypes[aliasForName]
if !exists {
panic(fmt.Sprintf("image type '%s' is an alias to a non-existing image type '%s'", name, aliasForName))
}
}
return t, nil
}
func (a *architecture) addImageTypes(platform platform.Platform, imageTypes ...imageType) {
if a.imageTypes == nil {
a.imageTypes = map[string]distro.ImageType{}
}
for idx := range imageTypes {
it := imageTypes[idx]
it.arch = a
it.platform = platform
a.imageTypes[it.name] = &it
for _, alias := range it.nameAliases {
if a.imageTypeAliases == nil {
a.imageTypeAliases = map[string]string{}
}
if existingAliasFor, exists := a.imageTypeAliases[alias]; exists {
panic(fmt.Sprintf("image type alias '%s' for '%s' is already defined for another image type '%s'", alias, it.name, existingAliasFor))
}
a.imageTypeAliases[alias] = it.name
}
}
}
func (a *architecture) Distro() distro.Distro {
return a.distro
}
type imageFunc func(workload workload.Workload, t *imageType, customizations *blueprint.Customizations, options distro.ImageOptions, packageSets map[string]rpmmd.PackageSet, containers []container.Spec, rng *rand.Rand) (image.ImageKind, error)
type packageSetFunc func(t *imageType) rpmmd.PackageSet
type imageType struct {
arch *architecture
platform platform.Platform
environment environment.Environment
name string
nameAliases []string
filename string
mimeType string
packageSets map[string]packageSetFunc
defaultImageConfig *distro.ImageConfig
kernelOptions string
defaultSize uint64
buildPipelines []string
payloadPipelines []string
exports []string
image imageFunc
// bootISO: installable ISO
bootISO bool
// rpmOstree: iot/ostree
rpmOstree bool
// bootable image
bootable bool
// List of valid arches for the image type
basePartitionTables distro.BasePartitionTableMap
}
func (t *imageType) Name() string {
return t.name
}
func (t *imageType) Arch() distro.Arch {
return t.arch
}
func (t *imageType) Filename() string {
return t.filename
}
func (t *imageType) MIMEType() string {
return t.mimeType
}
func (t *imageType) OSTreeRef() string {
d := t.arch.distro
if t.rpmOstree {
return fmt.Sprintf(d.ostreeRefTmpl, t.arch.Name())
}
return ""
}
func (t *imageType) Size(size uint64) uint64 {
// Microsoft Azure requires vhd images to be rounded up to the nearest MB
if t.name == "vhd" && size%common.MebiByte != 0 {
size = (size/common.MebiByte + 1) * common.MebiByte
}
if size == 0 {
size = t.defaultSize
}
return size
}
func (t *imageType) PackageSets(bp blueprint.Blueprint, options distro.ImageOptions, repos []rpmmd.RepoConfig) map[string][]rpmmd.PackageSet {
// merge package sets that appear in the image type with the package sets
// of the same name from the distro and arch
packageSets := make(map[string]rpmmd.PackageSet)
for name, getter := range t.packageSets {
packageSets[name] = getter(t)
}
// amend with repository information
globalRepos := make([]rpmmd.RepoConfig, 0)
for _, repo := range repos {
if len(repo.PackageSets) > 0 {
// only apply the repo to the listed package sets
for _, psName := range repo.PackageSets {
ps := packageSets[psName]
ps.Repositories = append(ps.Repositories, repo)
packageSets[psName] = ps
}
} else {
// no package sets were listed, so apply the repo
// to all package sets
globalRepos = append(globalRepos, repo)
}
}
// In case of Cloud API, this method is called before the ostree commit
// is resolved. Unfortunately, initializeManifest when called for
// an ostree installer returns an error.
//
// Work around this by providing a dummy FetchChecksum to convince the
// method that it's fine to initialize the manifest. Note that the ostree
// content has no effect on the package sets, so this is fine.
//
// See: https://github.com/osbuild/osbuild-composer/issues/3125
//
// TODO: Remove me when it's possible the get the package set chain without
// resolving the ostree reference before. Also remove the test for
// this workaround
if t.rpmOstree && t.bootISO && options.OSTree.FetchChecksum == "" {
options.OSTree.FetchChecksum = "ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff"
logrus.Warn("FIXME: Requesting package sets for iot-installer without a resolved ostree ref. Faking one.")
}
// Similar to above, for edge-commit and edge-container, we need to set an
// ImageRef in order to properly initialize the manifest and package
// selection.
options.OSTree.ImageRef = t.OSTreeRef()
// create a temporary container spec array with the info from the blueprint
// to initialize the manifest
containers := make([]container.Spec, len(bp.Containers))
for idx := range bp.Containers {
containers[idx] = container.Spec{
Source: bp.Containers[idx].Source,
TLSVerify: bp.Containers[idx].TLSVerify,
LocalName: bp.Containers[idx].Name,
}
}
// create a manifest object and instantiate it with the computed packageSetChains
manifest, err := t.initializeManifest(&bp, options, globalRepos, packageSets, containers, 0)
if err != nil {
// TODO: handle manifest initialization errors more gracefully, we
// refuse to initialize manifests with invalid config.
logrus.Errorf("Initializing the manifest failed for %s (%s/%s): %v", t.Name(), t.arch.distro.Name(), t.arch.Name(), err)
return nil
}
return manifest.GetPackageSetChains()
}
func (t *imageType) BuildPipelines() []string {
return t.buildPipelines
}
func (t *imageType) PayloadPipelines() []string {
return t.payloadPipelines
}
func (t *imageType) PayloadPackageSets() []string {
return []string{blueprintPkgsKey}
}
func (t *imageType) PackageSetsChains() map[string][]string {
return make(map[string][]string)
}
func (t *imageType) Exports() []string {
if len(t.exports) > 0 {
return t.exports
}
return []string{"assembler"}
}
func (t *imageType) getPartitionTable(
mountpoints []blueprint.FilesystemCustomization,
options distro.ImageOptions,
rng *rand.Rand,
) (*disk.PartitionTable, error) {
basePartitionTable, exists := t.basePartitionTables[t.arch.Name()]
if !exists {
return nil, fmt.Errorf("unknown arch: " + t.arch.Name())
}
imageSize := t.Size(options.Size)
lvmify := !t.rpmOstree
return disk.NewPartitionTable(&basePartitionTable, mountpoints, imageSize, lvmify, rng)
}
func (t *imageType) getDefaultImageConfig() *distro.ImageConfig {
// ensure that image always returns non-nil default config
imageConfig := t.defaultImageConfig
if imageConfig == nil {
imageConfig = &distro.ImageConfig{}
}
return imageConfig.InheritFrom(t.arch.distro.getDefaultImageConfig())
}
func (t *imageType) PartitionType() string {
basePartitionTable, exists := t.basePartitionTables[t.arch.Name()]
if !exists {
return ""
}
return basePartitionTable.Type
}
func (t *imageType) initializeManifest(bp *blueprint.Blueprint,
options distro.ImageOptions,
repos []rpmmd.RepoConfig,
packageSets map[string]rpmmd.PackageSet,
containers []container.Spec,
seed int64) (*manifest.Manifest, error) {
if err := t.checkOptions(bp.Customizations, options, containers); err != nil {
return nil, err
}
// TODO: let image types specify valid workloads, rather than
// always assume Custom.
w := &workload.Custom{
BaseWorkload: workload.BaseWorkload{
Repos: packageSets[blueprintPkgsKey].Repositories,
},
Packages: bp.GetPackagesEx(false),
}
if services := bp.Customizations.GetServices(); services != nil {
w.Services = services.Enabled
w.DisabledServices = services.Disabled
}
source := rand.NewSource(seed)
// math/rand is good enough in this case
/* #nosec G404 */
rng := rand.New(source)
img, err := t.image(w, t, bp.Customizations, options, packageSets, containers, rng)
if err != nil {
return nil, err
}
manifest := manifest.New()
_, err = img.InstantiateManifest(&manifest, repos, t.arch.distro.runner, rng)
if err != nil {
return nil, err
}
return &manifest, err
}
func (t *imageType) Manifest(customizations *blueprint.Customizations,
options distro.ImageOptions,
repos []rpmmd.RepoConfig,
packageSets map[string][]rpmmd.PackageSpec,
containers []container.Spec,
seed int64) (distro.Manifest, error) {
bp := &blueprint.Blueprint{Name: "empty blueprint"}
err := bp.Initialize()
if err != nil {
panic("could not initialize empty blueprint: " + err.Error())
}
bp.Customizations = customizations
manifest, err := t.initializeManifest(bp, options, repos, nil, containers, seed)
if err != nil {
return distro.Manifest{}, err
}
return manifest.Serialize(packageSets)
}
// checkOptions checks the validity and compatibility of options and customizations for the image type.
func (t *imageType) checkOptions(customizations *blueprint.Customizations, options distro.ImageOptions, containers []container.Spec) error {
// we do not support embedding containers on ostree-derived images, only on commits themselves
if len(containers) > 0 && t.rpmOstree && (t.name != "iot-commit" && t.name != "iot-container") {
return fmt.Errorf("embedding containers is not supported for %s on %s", t.name, t.arch.distro.name)
}
if t.bootISO && t.rpmOstree {
// check the checksum instead of the URL, because the URL should have been used to resolve the checksum and we need both
if options.OSTree.FetchChecksum == "" {
return fmt.Errorf("boot ISO image type %q requires specifying a URL from which to retrieve the OSTree commit", t.name)
}
}
// BootISO's have limited support for customizations.
// TODO: Support kernel name selection for image-installer
if t.bootISO {
if t.name == "iot-installer" || t.name == "image-installer" {
allowed := []string{"User", "Group"}
if err := customizations.CheckAllowed(allowed...); err != nil {
return fmt.Errorf("unsupported blueprint customizations found for boot ISO image type %q: (allowed: %s)", t.name, strings.Join(allowed, ", "))
}
}
}
if kernelOpts := customizations.GetKernel(); kernelOpts.Append != "" && t.rpmOstree {
return fmt.Errorf("kernel boot parameter customizations are not supported for ostree types")
}
mountpoints := customizations.GetFilesystems()
if mountpoints != nil && t.rpmOstree {
return fmt.Errorf("Custom mountpoints are not supported for ostree types")
}
err := disk.CheckMountpoints(mountpoints, disk.MountpointPolicies)
if err != nil {
return err
}
if osc := customizations.GetOpenSCAP(); osc != nil {
supported := oscap.IsProfileAllowed(osc.ProfileID, oscapProfileAllowList)
if !supported {
return fmt.Errorf(fmt.Sprintf("OpenSCAP unsupported profile: %s", osc.ProfileID))
}
if t.rpmOstree {
return fmt.Errorf("OpenSCAP customizations are not supported for ostree types")
}
if osc.DataStream == "" {
return fmt.Errorf("OpenSCAP datastream cannot be empty")
}
if osc.ProfileID == "" {
return fmt.Errorf("OpenSCAP profile cannot be empty")
}
}
return nil
}
func NewHostDistro(name, modulePlatformID, ostreeRef string) distro.Distro {
parts := strings.Split(name, "-")
if len(parts) != 2 || parts[0] != "fedora" {
panic("invalid distro name: " + name)
}
version, err := strconv.Atoi(parts[1])
if err != nil {
panic("invalid distro version: " + name + ": " + err.Error())
}
return newDistro(version)
}
// New creates a new distro object, defining the supported architectures and image types
func NewF36() distro.Distro {
return newDistro(36)
}
func NewF37() distro.Distro {
return newDistro(37)
}
func NewF38() distro.Distro {
return newDistro(38)
}
func newDistro(version int) distro.Distro {
rd := getDistro(version)
// Architecture definitions
x86_64 := architecture{
name: distro.X86_64ArchName,
distro: &rd,
}
aarch64 := architecture{
name: distro.Aarch64ArchName,
distro: &rd,
}
s390x := architecture{
distro: &rd,
name: distro.S390xArchName,
}
ociImgType := qcow2ImgType
ociImgType.name = "oci"
x86_64.addImageTypes(
&platform.X86{
BIOS: true,
UEFIVendor: "fedora",
BasePlatform: platform.BasePlatform{
ImageFormat: platform.FORMAT_QCOW2,
QCOW2Compat: "1.1",
},
},
qcow2ImgType,
ociImgType,
)
x86_64.addImageTypes(
&platform.X86{
BIOS: true,
UEFIVendor: "fedora",
BasePlatform: platform.BasePlatform{
ImageFormat: platform.FORMAT_QCOW2,
},
},
openstackImgType,
)
x86_64.addImageTypes(
&platform.X86{
BIOS: true,
UEFIVendor: "fedora",
BasePlatform: platform.BasePlatform{
ImageFormat: platform.FORMAT_VHD,
},
},
vhdImgType,
)
x86_64.addImageTypes(
&platform.X86{
BIOS: true,
UEFIVendor: "fedora",
BasePlatform: platform.BasePlatform{
ImageFormat: platform.FORMAT_VMDK,
},
},
vmdkImgType,
)
x86_64.addImageTypes(
&platform.X86{
BIOS: true,
BasePlatform: platform.BasePlatform{
ImageFormat: platform.FORMAT_RAW,
},
},
amiImgType,
)
x86_64.addImageTypes(
&platform.X86{},
containerImgType,
)
x86_64.addImageTypes(
&platform.X86{
BasePlatform: platform.BasePlatform{
FirmwarePackages: []string{
"microcode_ctl", // ??
"iwl1000-firmware",
"iwl100-firmware",
"iwl105-firmware",
"iwl135-firmware",
"iwl2000-firmware",
"iwl2030-firmware",
"iwl3160-firmware",
"iwl5000-firmware",
"iwl5150-firmware",
"iwl6000-firmware",
"iwl6050-firmware",
},
},
BIOS: true,
UEFIVendor: "fedora",
},
iotOCIImgType,
iotCommitImgType,
iotInstallerImgType,
imageInstallerImgType,
)
x86_64.addImageTypes(
&platform.X86{
BasePlatform: platform.BasePlatform{
ImageFormat: platform.FORMAT_RAW,
},
BIOS: false,
UEFIVendor: "fedora",
},
iotRawImgType,
)
aarch64.addImageTypes(
&platform.Aarch64{
UEFIVendor: "fedora",
BasePlatform: platform.BasePlatform{
ImageFormat: platform.FORMAT_RAW,
},
},
amiImgType,
)
aarch64.addImageTypes(
&platform.Aarch64{
UEFIVendor: "fedora",
BasePlatform: platform.BasePlatform{
ImageFormat: platform.FORMAT_QCOW2,
QCOW2Compat: "1.1",
},
},
qcow2ImgType,
ociImgType,
)
aarch64.addImageTypes(
&platform.Aarch64{
UEFIVendor: "fedora",
BasePlatform: platform.BasePlatform{
ImageFormat: platform.FORMAT_QCOW2,
},
},
openstackImgType,
)
aarch64.addImageTypes(
&platform.Aarch64{},
containerImgType,
)
aarch64.addImageTypes(
&platform.Aarch64{
BasePlatform: platform.BasePlatform{
FirmwarePackages: []string{
"uboot-images-armv8", // ??
"bcm283x-firmware",
"arm-image-installer", // ??
},
},
UEFIVendor: "fedora",
},
iotCommitImgType,
iotOCIImgType,
iotInstallerImgType,
imageInstallerImgType,
)
aarch64.addImageTypes(
&platform.Aarch64{
BasePlatform: platform.BasePlatform{
ImageFormat: platform.FORMAT_RAW,
},
UEFIVendor: "fedora",
},
iotRawImgType,
)
s390x.addImageTypes(nil)
rd.addArches(x86_64, aarch64, s390x)
return &rd
}
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