219 lines
6.5 KiB
Go
219 lines
6.5 KiB
Go
package distro
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import (
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"fmt"
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"github.com/osbuild/osbuild-composer/internal/blueprint"
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"github.com/osbuild/osbuild-composer/internal/disk"
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"github.com/osbuild/osbuild-composer/internal/manifest"
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"github.com/osbuild/osbuild-composer/internal/ostree"
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"github.com/osbuild/osbuild-composer/internal/rhsm/facts"
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"github.com/osbuild/osbuild-composer/internal/rpmmd"
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"github.com/osbuild/osbuild-composer/internal/subscription"
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)
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type BootMode uint64
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const (
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BOOT_NONE BootMode = iota
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BOOT_LEGACY
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BOOT_UEFI
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BOOT_HYBRID
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)
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func (m BootMode) String() string {
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switch m {
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case BOOT_NONE:
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return "none"
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case BOOT_LEGACY:
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return "legacy"
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case BOOT_UEFI:
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return "uefi"
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case BOOT_HYBRID:
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return "hybrid"
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default:
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panic("invalid boot mode")
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}
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}
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// A Distro represents composer's notion of what a given distribution is.
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type Distro interface {
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// Returns the name of the distro.
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Name() string
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// Returns the release version of the distro. This is used in repo
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// files on the host system and required for the subscription support.
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Releasever() string
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// Returns the module platform id of the distro. This is used by DNF
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// for modularity support.
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ModulePlatformID() string
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// Returns the ostree reference template
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OSTreeRef() string
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// Returns a sorted list of the names of the architectures this distro
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// supports.
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ListArches() []string
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// Returns an object representing the given architecture as support
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// by this distro.
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GetArch(arch string) (Arch, error)
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}
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// An Arch represents a given distribution's support for a given architecture.
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type Arch interface {
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// Returns the name of the architecture.
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Name() string
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// Returns a sorted list of the names of the image types this architecture
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// supports.
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ListImageTypes() []string
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// Returns an object representing a given image format for this architecture,
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// on this distro.
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GetImageType(imageType string) (ImageType, error)
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// Returns the parent distro
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Distro() Distro
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}
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// An ImageType represents a given distribution's support for a given Image Type
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// for a given architecture.
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type ImageType interface {
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// Returns the name of the image type.
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Name() string
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// Returns the parent architecture
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Arch() Arch
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// Returns the canonical filename for the image type.
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Filename() string
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// Retrns the MIME-type for the image type.
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MIMEType() string
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// Returns the default OSTree ref for the image type.
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OSTreeRef() string
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// Returns the proper image size for a given output format. If the input size
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// is 0 the default value for the format will be returned.
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Size(size uint64) uint64
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// Returns the corresponding partion type ("gpt", "dos") or "" the image type
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// has no partition table. Only support for RHEL 8.5+
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PartitionType() string
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// Returns the corresponding boot mode ("legacy", "uefi", "hybrid") or "none"
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BootMode() BootMode
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// Returns the names of the pipelines that set up the build environment (buildroot).
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BuildPipelines() []string
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// Returns the names of the pipelines that create the image.
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PayloadPipelines() []string
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// Returns the package set names safe to install custom packages via custom repositories.
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PayloadPackageSets() []string
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// Returns named arrays of package set names which should be depsolved in a chain.
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PackageSetsChains() map[string][]string
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// Returns the names of the stages that will produce the build output.
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Exports() []string
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// Returns an osbuild manifest, containing the sources and pipeline necessary
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// to build an image, given output format with all packages and customizations
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// specified in the given blueprint; it also returns any warnings (e.g.
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// deprecation notices) generated by the manifest.
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// The packageSpecSets must be labelled in the same way as the originating PackageSets.
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Manifest(bp *blueprint.Blueprint, options ImageOptions, repos []rpmmd.RepoConfig, seed int64) (*manifest.Manifest, []string, error)
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}
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// The ImageOptions specify options for a specific image build
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type ImageOptions struct {
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Size uint64
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OSTree *ostree.ImageOptions
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Subscription *subscription.ImageOptions
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Facts *facts.ImageOptions
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}
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type BasePartitionTableMap map[string]disk.PartitionTable
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// Fallbacks: When a new method is added to an interface to provide to provide
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// information that isn't available for older implementations, the older
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// methods should return a fallback/default value by calling the appropriate
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// function from below.
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// Example: Exports() simply returns "assembler" for older image type
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// implementations that didn't produce v1 manifests that have named pipelines.
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func BuildPipelinesFallback() []string {
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return []string{"build"}
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}
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func PayloadPipelinesFallback() []string {
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return []string{"os", "assembler"}
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}
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func ExportsFallback() []string {
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return []string{"assembler"}
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}
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func PayloadPackageSets() []string {
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return []string{}
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}
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func MakePackageSetChains(t ImageType, packageSets map[string]rpmmd.PackageSet, repos []rpmmd.RepoConfig) map[string][]rpmmd.PackageSet {
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allSetNames := make([]string, len(packageSets))
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idx := 0
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for setName := range packageSets {
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allSetNames[idx] = setName
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idx++
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}
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// map repository PackageSets to the list of repo configs
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packageSetsRepos := make(map[string][]rpmmd.RepoConfig)
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for idx := range repos {
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repo := repos[idx]
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if len(repo.PackageSets) == 0 {
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// repos that don't specify package sets get used everywhere
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repo.PackageSets = allSetNames
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}
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for _, name := range repo.PackageSets {
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psRepos := packageSetsRepos[name]
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psRepos = append(psRepos, repo)
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packageSetsRepos[name] = psRepos
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}
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}
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chainedSets := make(map[string][]rpmmd.PackageSet)
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addedSets := make(map[string]bool)
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// first collect package sets that are part of a chain
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for specName, setNames := range t.PackageSetsChains() {
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pkgSets := make([]rpmmd.PackageSet, len(setNames))
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// add package-set-specific repositories to each set if one is defined
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for idx, pkgSetName := range setNames {
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pkgSet, ok := packageSets[pkgSetName]
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if !ok {
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panic(fmt.Sprintf("image type %q specifies chained package set %q but no package set with that name exists", t.Name(), pkgSetName))
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}
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pkgSet.Repositories = packageSetsRepos[pkgSetName]
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pkgSets[idx] = pkgSet
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addedSets[pkgSetName] = true
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}
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chainedSets[specName] = pkgSets
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}
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// add the rest of the package sets
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for name, pkgSet := range packageSets {
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if addedSets[name] {
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// already added
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continue
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}
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pkgSet.Repositories = packageSetsRepos[name]
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chainedSets[name] = []rpmmd.PackageSet{pkgSet}
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addedSets[name] = true // NOTE: not really necessary but good book-keeping in case this function gets expanded
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}
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return chainedSets
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}
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