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debian-forge-composer/internal/distro/rhel90beta/distro.go
Achilleas Koutsou c092783a70 simplify package set chain handling 
Move package set chain collation to the distro package and add
repositories to the package sets while returning the package sets from
their source, i.e., the ImageType.PackageSets() method.

This also removes the concept of "base repositories".  There are no
longer repositories that are added implicitly to all package sets but
instead each package set needs to specify *all* the repositories it will
be depsolved against.

This paves the way for the requirement we have for building RHEL 7
images with a RHEL 8 build root.  The build root package set has to be
depsolved against RHEL 8 repositories without any "base repos" included.
This is now possible since package sets and repositories are explicitly
associated from the start and there is no implicit global repository
set.

The change requires adding a list of PackageSet names to the core
rpmmd.RepoConfig.  In the cloud API, repositories that are limited to
specific package sets already contain the correct package set names and
these are now copied to the internal RepoConfig when converting types in
genRepoConfig().
The user-specified repositories are only associated with the payload
package sets like before.
2022-06-01 11:36:52 +01:00

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package rhel90beta
import (
"encoding/json"
"errors"
"fmt"
"math/rand"
"path"
"sort"
"strings"
"github.com/osbuild/osbuild-composer/internal/blueprint"
"github.com/osbuild/osbuild-composer/internal/disk"
"github.com/osbuild/osbuild-composer/internal/distro"
osbuild "github.com/osbuild/osbuild-composer/internal/osbuild2"
"github.com/osbuild/osbuild-composer/internal/rpmmd"
)
const defaultName = "rhel-90-beta"
const osVersion = "9.0"
const releaseVersion = "9"
const modulePlatformID = "platform:el9"
const ostreeRef = "rhel/9/%s/edge"
const (
// package set names
// build package set name
buildPkgsKey = "build"
// Legacy bootable image package set name
bootLegacyPkgsKey = "boot.legacy"
// UEFI bootable image package set name
bootUEFIPkgsKey = "boot.uefi"
// main/common os image package set name
osPkgsKey = "packages"
// edge os image package set name
edgePkgsKey = "edge"
// edge build package set name
edgeBuildPkgsKey = "build.edge"
// container package set name
containerPkgsKey = "container"
// installer package set name
installerPkgsKey = "installer"
// blueprint package set name
blueprintPkgsKey = "blueprint"
)
var mountpointAllowList = []string{
"/", "/var", "/opt", "/srv", "/usr", "/app", "/data", "/home",
}
type distribution struct {
name string
modulePlatformID string
ostreeRef string
arches map[string]distro.Arch
packageSets map[string]rpmmd.PackageSet
}
func (d *distribution) Name() string {
return d.name
}
func (d *distribution) Releasever() string {
return releaseVersion
}
func (d *distribution) ModulePlatformID() string {
return d.modulePlatformID
}
func (d *distribution) OSTreeRef() string {
return d.ostreeRef
}
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]
}
}
type architecture struct {
distro *distribution
name string
imageTypes map[string]distro.ImageType
imageTypeAliases map[string]string
packageSets map[string]rpmmd.PackageSet
legacy string
bootType distro.BootType
}
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(imageTypes ...imageType) {
if a.imageTypes == nil {
a.imageTypes = map[string]distro.ImageType{}
}
for idx := range imageTypes {
it := imageTypes[idx]
it.arch = a
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 pipelinesFunc func(t *imageType, customizations *blueprint.Customizations, options distro.ImageOptions, repos []rpmmd.RepoConfig, packageSetSpecs map[string][]rpmmd.PackageSpec, rng *rand.Rand) ([]osbuild.Pipeline, error)
type imageType struct {
arch *architecture
name string
nameAliases []string
filename string
mimeType string
packageSets map[string]rpmmd.PackageSet
packageSetChains map[string][]string
enabledServices []string
disabledServices []string
defaultTarget string
kernelOptions string
defaultSize uint64
buildPipelines []string
payloadPipelines []string
exports []string
pipelines pipelinesFunc
// bootISO: installable ISO
bootISO bool
// rpmOstree: edge/ostree
rpmOstree bool
// bootable image
bootable bool
// If set to a value, it is preferred over the architecture value
bootType distro.BootType
// 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 {
if t.rpmOstree {
return fmt.Sprintf(ostreeRef, t.Arch().Name())
}
return ""
}
func (t *imageType) Size(size uint64) uint64 {
const MegaByte = 1024 * 1024
// Microsoft Azure requires vhd images to be rounded up to the nearest MB
if t.name == "vhd" && size%MegaByte != 0 {
size = (size/MegaByte + 1) * MegaByte
}
if size == 0 {
size = t.defaultSize
}
return size
}
func (t *imageType) PackageSets(bp blueprint.Blueprint, 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
mergedSets := make(map[string]rpmmd.PackageSet)
imageSets := t.packageSets
archSets := t.arch.packageSets
distroSets := t.arch.distro.packageSets
for name := range imageSets {
mergedSets[name] = imageSets[name].Append(archSets[name]).Append(distroSets[name])
}
if _, hasPackages := imageSets[osPkgsKey]; !hasPackages {
// should this be possible??
mergedSets[osPkgsKey] = rpmmd.PackageSet{}
}
// build is usually not defined on the image type
// handle it explicitly when it's not
if _, hasBuild := imageSets[buildPkgsKey]; !hasBuild {
mergedSets[buildPkgsKey] = archSets[buildPkgsKey].Append(distroSets[buildPkgsKey])
}
// package sets from flags
if t.bootable {
var addLegacyBootPkg bool
var addUEFIBootPkg bool
switch bt := t.getBootType(); bt {
case distro.LegacyBootType:
addLegacyBootPkg = true
case distro.UEFIBootType:
addUEFIBootPkg = true
case distro.HybridBootType:
addLegacyBootPkg = true
addUEFIBootPkg = true
default:
panic(fmt.Sprintf("unsupported boot type: %q", bt))
}
if addLegacyBootPkg {
mergedSets[osPkgsKey] = mergedSets[osPkgsKey].Append(archSets[bootLegacyPkgsKey]).Append(distroSets[bootLegacyPkgsKey])
}
if addUEFIBootPkg {
mergedSets[osPkgsKey] = mergedSets[osPkgsKey].Append(archSets[bootUEFIPkgsKey]).Append(distroSets[bootUEFIPkgsKey])
}
}
if t.rpmOstree {
// add ostree sets
mergedSets[buildPkgsKey] = mergedSets[buildPkgsKey].Append(archSets[edgeBuildPkgsKey]).Append(distroSets[edgeBuildPkgsKey])
mergedSets[osPkgsKey] = mergedSets[osPkgsKey].Append(archSets[edgePkgsKey]).Append(distroSets[edgePkgsKey])
}
// blueprint packages
bpPackages := bp.GetPackages()
timezone, _ := bp.Customizations.GetTimezoneSettings()
if timezone != nil {
bpPackages = append(bpPackages, "chrony")
}
// depsolve bp packages separately
// bp packages aren't restricted by exclude lists
mergedSets[blueprintPkgsKey] = rpmmd.PackageSet{Include: bpPackages}
kernel := bp.Customizations.GetKernel().Name
// add bp kernel to main OS package set to avoid duplicate kernels
mergedSets[osPkgsKey] = mergedSets[osPkgsKey].Append(rpmmd.PackageSet{Include: []string{kernel}})
return distro.MakePackageSetChains(t, mergedSets, repos)
}
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 t.packageSetChains
}
func (t *imageType) Exports() []string {
return t.exports
}
// getBootType returns the BootType which should be used for this particular
// combination of architecture and image type.
func (t *imageType) getBootType() distro.BootType {
bootType := t.arch.bootType
if t.bootType != distro.UnsetBootType {
bootType = t.bootType
}
return bootType
}
func (t *imageType) supportsUEFI() bool {
bootType := t.getBootType()
if bootType == distro.HybridBootType || bootType == distro.UEFIBootType {
return true
}
return false
}
func (t *imageType) getPartitionTable(
mountpoints []blueprint.FilesystemCustomization,
options distro.ImageOptions,
rng *rand.Rand,
) (*disk.PartitionTable, error) {
archName := t.arch.Name()
basePartitionTable, exists := t.basePartitionTables[archName]
if !exists {
return nil, fmt.Errorf("unknown arch: " + archName)
}
imageSize := t.Size(options.Size)
return disk.NewPartitionTable(&basePartitionTable, mountpoints, imageSize, false, rng)
}
func (t *imageType) PartitionType() string {
archName := t.arch.Name()
basePartitionTable, exists := t.basePartitionTables[archName]
if !exists {
return ""
}
return basePartitionTable.Type
}
// local type for ostree commit metadata used to define commit sources
type ostreeCommit struct {
Checksum string
URL string
}
func (t *imageType) Manifest(customizations *blueprint.Customizations,
options distro.ImageOptions,
repos []rpmmd.RepoConfig,
packageSpecSets map[string][]rpmmd.PackageSpec,
seed int64) (distro.Manifest, error) {
if err := t.checkOptions(customizations, options); err != nil {
return distro.Manifest{}, err
}
source := rand.NewSource(seed)
// math/rand is good enough in this case
/* #nosec G404 */
rng := rand.New(source)
pipelines, err := t.pipelines(t, customizations, options, repos, packageSpecSets, rng)
if err != nil {
return distro.Manifest{}, err
}
// flatten spec sets for sources
allPackageSpecs := make([]rpmmd.PackageSpec, 0)
for _, specs := range packageSpecSets {
allPackageSpecs = append(allPackageSpecs, specs...)
}
var commits []ostreeCommit
if t.bootISO && options.OSTree.Parent != "" && options.OSTree.URL != "" {
commits = []ostreeCommit{{Checksum: options.OSTree.Parent, URL: options.OSTree.URL}}
}
return json.Marshal(
osbuild.Manifest{
Version: "2",
Pipelines: pipelines,
Sources: t.sources(allPackageSpecs, commits),
},
)
}
func (t *imageType) sources(packages []rpmmd.PackageSpec, ostreeCommits []ostreeCommit) osbuild.Sources {
sources := osbuild.Sources{}
curl := &osbuild.CurlSource{
Items: make(map[string]osbuild.CurlSourceItem),
}
for _, pkg := range packages {
item := new(osbuild.URLWithSecrets)
item.URL = pkg.RemoteLocation
if pkg.Secrets == "org.osbuild.rhsm" {
item.Secrets = &osbuild.URLSecrets{
Name: "org.osbuild.rhsm",
}
}
curl.Items[pkg.Checksum] = item
}
if len(curl.Items) > 0 {
sources["org.osbuild.curl"] = curl
}
ostree := &osbuild.OSTreeSource{
Items: make(map[string]osbuild.OSTreeSourceItem),
}
for _, commit := range ostreeCommits {
item := new(osbuild.OSTreeSourceItem)
item.Remote.URL = commit.URL
ostree.Items[commit.Checksum] = *item
}
if len(ostree.Items) > 0 {
sources["org.osbuild.ostree"] = ostree
}
return sources
}
func isMountpointAllowed(mountpoint string) bool {
for _, allowed := range mountpointAllowList {
match, _ := path.Match(allowed, mountpoint)
if match {
return true
}
// ensure that only clean mountpoints
// are valid
if strings.Contains(mountpoint, "//") {
return false
}
match = strings.HasPrefix(mountpoint, allowed+"/")
if allowed != "/" && match {
return true
}
}
return false
}
// checkOptions checks the validity and compatibility of options and customizations for the image type.
func (t *imageType) checkOptions(customizations *blueprint.Customizations, options distro.ImageOptions) error {
if t.bootISO && t.rpmOstree {
if options.OSTree.Parent == "" {
return fmt.Errorf("boot ISO image type %q requires specifying a URL from which to retrieve the OSTree commit", t.name)
}
if t.name == "edge-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")
}
invalidMountpoints := []string{}
for _, m := range mountpoints {
if !isMountpointAllowed(m.Mountpoint) {
invalidMountpoints = append(invalidMountpoints, m.Mountpoint)
}
}
if len(invalidMountpoints) > 0 {
return fmt.Errorf("The following custom mountpoints are not supported %+q", invalidMountpoints)
}
return nil
}
// New creates a new distro object, defining the supported architectures and image types
func New() distro.Distro {
return newDistro(defaultName, modulePlatformID, ostreeRef)
}
func NewHostDistro(name, modulePlatformID, ostreeRef string) distro.Distro {
return newDistro(name, modulePlatformID, ostreeRef)
}
func newDistro(name, modulePlatformID, ostreeRef string) distro.Distro {
const GigaByte = 1024 * 1024 * 1024
rd := &distribution{
name: name,
modulePlatformID: modulePlatformID,
ostreeRef: ostreeRef,
packageSets: map[string]rpmmd.PackageSet{
buildPkgsKey: distroBuildPackageSet(),
edgeBuildPkgsKey: edgeBuildPackageSet(),
},
}
// Architecture definitions
x86_64 := architecture{
name: distro.X86_64ArchName,
distro: rd,
packageSets: map[string]rpmmd.PackageSet{
buildPkgsKey: x8664BuildPackageSet(),
bootLegacyPkgsKey: x8664LegacyBootPackageSet(),
bootUEFIPkgsKey: x8664UEFIBootPackageSet(),
edgePkgsKey: x8664EdgeCommitPackageSet(),
},
legacy: "i386-pc",
bootType: distro.HybridBootType,
}
aarch64 := architecture{
name: distro.Aarch64ArchName,
distro: rd,
packageSets: map[string]rpmmd.PackageSet{
bootUEFIPkgsKey: aarch64UEFIBootPackageSet(),
edgePkgsKey: aarch64EdgeCommitPackageSet(),
},
bootType: distro.UEFIBootType,
}
ppc64le := architecture{
distro: rd,
name: distro.Ppc64leArchName,
packageSets: map[string]rpmmd.PackageSet{
bootLegacyPkgsKey: ppc64leLegacyBootPackageSet(),
buildPkgsKey: ppc64leBuildPackageSet(),
},
legacy: "powerpc-ieee1275",
bootType: distro.LegacyBootType,
}
s390x := architecture{
distro: rd,
name: distro.S390xArchName,
packageSets: map[string]rpmmd.PackageSet{
bootLegacyPkgsKey: s390xLegacyBootPackageSet(),
},
bootType: distro.LegacyBootType,
}
// Shared Services
edgeServices := []string{
"NetworkManager.service", "firewalld.service", "sshd.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",
}
// Image Definitions
edgeCommitImgType := imageType{
name: "edge-commit",
nameAliases: []string{"rhel-edge-commit"},
filename: "commit.tar",
mimeType: "application/x-tar",
packageSets: map[string]rpmmd.PackageSet{
buildPkgsKey: edgeBuildPackageSet(),
osPkgsKey: edgeCommitPackageSet(),
},
packageSetChains: map[string][]string{
osPkgsKey: {osPkgsKey, blueprintPkgsKey},
},
enabledServices: edgeServices,
rpmOstree: true,
pipelines: edgeCommitPipelines,
buildPipelines: []string{"build"},
payloadPipelines: []string{"ostree-tree", "ostree-commit", "commit-archive"},
exports: []string{"commit-archive"},
}
edgeOCIImgType := imageType{
name: "edge-container",
nameAliases: []string{"rhel-edge-container"},
filename: "container.tar",
mimeType: "application/x-tar",
packageSets: map[string]rpmmd.PackageSet{
buildPkgsKey: edgeBuildPackageSet(),
osPkgsKey: edgeCommitPackageSet(),
containerPkgsKey: {Include: []string{"httpd"}},
},
packageSetChains: map[string][]string{
osPkgsKey: {osPkgsKey, blueprintPkgsKey},
},
enabledServices: edgeServices,
rpmOstree: true,
bootISO: false,
pipelines: edgeContainerPipelines,
buildPipelines: []string{"build"},
payloadPipelines: []string{"ostree-tree", "ostree-commit", "container-tree", "container"},
exports: []string{"container"},
}
edgeInstallerImgType := imageType{
name: "edge-installer",
nameAliases: []string{"rhel-edge-installer"},
filename: "installer.iso",
mimeType: "application/x-iso9660-image",
packageSets: map[string]rpmmd.PackageSet{
// TODO: non-arch-specific package set handling for installers
// This image type requires build packages for installers and
// ostree/edge. For now we only have x86-64 installer build
// package sets defined. When we add installer build package sets
// for other architectures, this will need to be moved to the
// architecture and the merging will happen in the PackageSets()
// method like the other sets.
buildPkgsKey: x8664InstallerBuildPackageSet().Append(edgeBuildPackageSet()),
osPkgsKey: edgeCommitPackageSet(),
installerPkgsKey: edgeInstallerPackageSet(),
},
packageSetChains: map[string][]string{
osPkgsKey: {osPkgsKey, blueprintPkgsKey},
},
enabledServices: edgeServices,
rpmOstree: true,
bootISO: true,
pipelines: edgeInstallerPipelines,
buildPipelines: []string{"build"},
payloadPipelines: []string{"anaconda-tree", "bootiso-tree", "bootiso"},
exports: []string{"bootiso"},
}
qcow2ImgType := imageType{
name: "qcow2",
filename: "disk.qcow2",
mimeType: "application/x-qemu-disk",
defaultTarget: "multi-user.target",
kernelOptions: "console=tty0 console=ttyS0,115200n8 no_timer_check net.ifnames=0 crashkernel=auto",
packageSets: map[string]rpmmd.PackageSet{
osPkgsKey: qcow2CommonPackageSet(),
},
packageSetChains: map[string][]string{
osPkgsKey: {osPkgsKey, blueprintPkgsKey},
},
bootable: true,
defaultSize: 10 * GigaByte,
pipelines: qcow2Pipelines,
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]rpmmd.PackageSet{
osPkgsKey: vhdCommonPackageSet(),
},
packageSetChains: map[string][]string{
osPkgsKey: {osPkgsKey, blueprintPkgsKey},
},
enabledServices: []string{
"sshd",
"waagent",
},
defaultTarget: "multi-user.target",
kernelOptions: "ro biosdevname=0 rootdelay=300 console=ttyS0 earlyprintk=ttyS0 net.ifnames=0",
bootable: true,
defaultSize: 4 * GigaByte,
pipelines: vhdPipelines,
buildPipelines: []string{"build"},
payloadPipelines: []string{"os", "image", "vpc"},
exports: []string{"vpc"},
basePartitionTables: defaultBasePartitionTables,
}
vmdkImgType := imageType{
name: "vmdk",
filename: "disk.vmdk",
mimeType: "application/x-vmdk",
packageSets: map[string]rpmmd.PackageSet{
osPkgsKey: vmdkCommonPackageSet(),
},
packageSetChains: map[string][]string{
osPkgsKey: {osPkgsKey, blueprintPkgsKey},
},
kernelOptions: "ro net.ifnames=0",
bootable: true,
defaultSize: 4 * GigaByte,
pipelines: vmdkPipelines,
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]rpmmd.PackageSet{
osPkgsKey: openstackCommonPackageSet(),
},
packageSetChains: map[string][]string{
osPkgsKey: {osPkgsKey, blueprintPkgsKey},
},
kernelOptions: "ro net.ifnames=0",
bootable: true,
defaultSize: 4 * GigaByte,
pipelines: openstackPipelines,
buildPipelines: []string{"build"},
payloadPipelines: []string{"os", "image", "qcow2"},
exports: []string{"qcow2"},
basePartitionTables: defaultBasePartitionTables,
}
// EC2 services
ec2EnabledServices := []string{
"sshd",
"NetworkManager",
"nm-cloud-setup.service",
"nm-cloud-setup.timer",
"cloud-init",
"cloud-init-local",
"cloud-config",
"cloud-final",
"reboot.target",
}
amiImgTypeX86_64 := imageType{
name: "ami",
filename: "image.raw",
mimeType: "application/octet-stream",
packageSets: map[string]rpmmd.PackageSet{
buildPkgsKey: ec2BuildPackageSet(),
osPkgsKey: ec2CommonPackageSet(),
},
packageSetChains: map[string][]string{
osPkgsKey: {osPkgsKey, blueprintPkgsKey},
},
defaultTarget: "multi-user.target",
enabledServices: ec2EnabledServices,
kernelOptions: "console=ttyS0,115200n8 console=tty0 net.ifnames=0 rd.blacklist=nouveau nvme_core.io_timeout=4294967295 crashkernel=auto",
bootable: true,
bootType: distro.LegacyBootType,
defaultSize: 10 * GigaByte,
pipelines: ec2Pipelines,
buildPipelines: []string{"build"},
payloadPipelines: []string{"os", "image"},
exports: []string{"image"},
basePartitionTables: ec2BasePartitionTables,
}
amiImgTypeAarch64 := imageType{
name: "ami",
filename: "image.raw",
mimeType: "application/octet-stream",
packageSets: map[string]rpmmd.PackageSet{
buildPkgsKey: ec2BuildPackageSet(),
osPkgsKey: ec2CommonPackageSet(),
},
packageSetChains: map[string][]string{
osPkgsKey: {osPkgsKey, blueprintPkgsKey},
},
defaultTarget: "multi-user.target",
enabledServices: ec2EnabledServices,
kernelOptions: "console=ttyS0,115200n8 console=tty0 net.ifnames=0 rd.blacklist=nouveau nvme_core.io_timeout=4294967295 iommu.strict=0 crashkernel=auto",
bootable: true,
defaultSize: 10 * GigaByte,
pipelines: ec2Pipelines,
buildPipelines: []string{"build"},
payloadPipelines: []string{"os", "image"},
exports: []string{"image"},
basePartitionTables: ec2BasePartitionTables,
}
ec2ImgTypeX86_64 := imageType{
name: "ec2",
filename: "image.raw.xz",
mimeType: "application/xz",
packageSets: map[string]rpmmd.PackageSet{
buildPkgsKey: ec2BuildPackageSet(),
osPkgsKey: rhelEc2PackageSet(),
},
packageSetChains: map[string][]string{
osPkgsKey: {osPkgsKey, blueprintPkgsKey},
},
defaultTarget: "multi-user.target",
enabledServices: ec2EnabledServices,
kernelOptions: "console=ttyS0,115200n8 console=tty0 net.ifnames=0 rd.blacklist=nouveau nvme_core.io_timeout=4294967295 crashkernel=auto",
bootable: true,
bootType: distro.LegacyBootType,
defaultSize: 10 * GigaByte,
pipelines: rhelEc2Pipelines,
buildPipelines: []string{"build"},
payloadPipelines: []string{"os", "image", "archive"},
exports: []string{"archive"},
basePartitionTables: ec2BasePartitionTables,
}
ec2ImgTypeAarch64 := imageType{
name: "ec2",
filename: "image.raw.xz",
mimeType: "application/xz",
packageSets: map[string]rpmmd.PackageSet{
buildPkgsKey: ec2BuildPackageSet(),
osPkgsKey: rhelEc2PackageSet(),
},
packageSetChains: map[string][]string{
osPkgsKey: {osPkgsKey, blueprintPkgsKey},
},
defaultTarget: "multi-user.target",
enabledServices: ec2EnabledServices,
kernelOptions: "console=ttyS0,115200n8 console=tty0 net.ifnames=0 rd.blacklist=nouveau nvme_core.io_timeout=4294967295 iommu.strict=0 crashkernel=auto",
bootable: true,
defaultSize: 10 * GigaByte,
pipelines: rhelEc2Pipelines,
buildPipelines: []string{"build"},
payloadPipelines: []string{"os", "image", "archive"},
exports: []string{"archive"},
basePartitionTables: ec2BasePartitionTables,
}
ec2HaImgTypeX86_64 := imageType{
name: "ec2-ha",
filename: "image.raw.xz",
mimeType: "application/xz",
packageSets: map[string]rpmmd.PackageSet{
buildPkgsKey: ec2BuildPackageSet(),
osPkgsKey: rhelEc2HaPackageSet(),
},
packageSetChains: map[string][]string{
osPkgsKey: {osPkgsKey, blueprintPkgsKey},
},
defaultTarget: "multi-user.target",
enabledServices: ec2EnabledServices,
kernelOptions: "console=ttyS0,115200n8 console=tty0 net.ifnames=0 rd.blacklist=nouveau nvme_core.io_timeout=4294967295 crashkernel=auto",
bootable: true,
bootType: distro.LegacyBootType,
defaultSize: 10 * GigaByte,
pipelines: rhelEc2Pipelines,
buildPipelines: []string{"build"},
payloadPipelines: []string{"os", "image", "archive"},
exports: []string{"archive"},
basePartitionTables: ec2BasePartitionTables,
}
ec2SapImgTypeX86_64 := imageType{
name: "ec2-sap",
filename: "image.raw.xz",
mimeType: "application/xz",
packageSets: map[string]rpmmd.PackageSet{
buildPkgsKey: ec2BuildPackageSet(),
osPkgsKey: rhelEc2SapPackageSet(),
},
packageSetChains: map[string][]string{
osPkgsKey: {osPkgsKey, blueprintPkgsKey},
},
defaultTarget: "multi-user.target",
enabledServices: ec2EnabledServices,
kernelOptions: "console=ttyS0,115200n8 console=tty0 net.ifnames=0 rd.blacklist=nouveau nvme_core.io_timeout=4294967295 crashkernel=auto processor.max_cstate=1 intel_idle.max_cstate=1",
bootable: true,
bootType: distro.LegacyBootType,
defaultSize: 10 * GigaByte,
pipelines: rhelEc2SapPipelines,
exports: []string{"archive"},
basePartitionTables: ec2BasePartitionTables,
}
tarImgType := imageType{
name: "tar",
filename: "root.tar.xz",
mimeType: "application/x-tar",
packageSets: map[string]rpmmd.PackageSet{
osPkgsKey: {
Include: []string{"policycoreutils", "selinux-policy-targeted"},
Exclude: []string{"rng-tools"},
},
},
packageSetChains: map[string][]string{
osPkgsKey: {osPkgsKey, blueprintPkgsKey},
},
pipelines: tarPipelines,
buildPipelines: []string{"build"},
payloadPipelines: []string{"os", "root-tar"},
exports: []string{"root-tar"},
}
imageInstallerImgTypeX86_64 := imageType{
name: "image-installer",
filename: "installer.iso",
mimeType: "application/x-iso9660-image",
packageSets: map[string]rpmmd.PackageSet{
buildPkgsKey: x8664InstallerBuildPackageSet(),
osPkgsKey: bareMetalPackageSet(),
installerPkgsKey: installerPackageSet(),
},
packageSetChains: map[string][]string{
osPkgsKey: {osPkgsKey, blueprintPkgsKey},
},
rpmOstree: false,
bootISO: true,
bootable: true,
pipelines: imageInstallerPipelines,
buildPipelines: []string{"build"},
payloadPipelines: []string{"os", "anaconda-tree", "bootiso-tree", "bootiso"},
exports: []string{"bootiso"},
}
ociImgtype := qcow2ImgType
ociImgtype.name = "oci"
x86_64.addImageTypes(qcow2ImgType, vhdImgType, vmdkImgType, openstackImgType, amiImgTypeX86_64, ec2ImgTypeX86_64, ec2HaImgTypeX86_64, ec2SapImgTypeX86_64, tarImgType, imageInstallerImgTypeX86_64, edgeCommitImgType, edgeInstallerImgType, edgeOCIImgType, ociImgtype)
aarch64.addImageTypes(qcow2ImgType, openstackImgType, amiImgTypeAarch64, ec2ImgTypeAarch64, tarImgType, edgeCommitImgType, edgeOCIImgType)
ppc64le.addImageTypes(qcow2ImgType, tarImgType)
s390x.addImageTypes(qcow2ImgType, tarImgType)
rd.addArches(x86_64, aarch64, ppc64le, s390x)
return rd
}
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