f91d8c6292
Add support for building images for the Azure marketplace: add a new image type "azure-rhui" that can be used to build images tailored to the Azure marketplace. Add two sample manifests for 8.5 and 8.6, but note that even the 8.5 is using the 8.6 distro definitions. Also no image-info is included since `image-info` cannot (yet) handle LVM setups and the azure marketplace images use the LVM setup.
151 lines
4.6 KiB
Go
151 lines
4.6 KiB
Go
// Disk package contains abstract data-types to define disk-related entities.
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//
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// The disk package is a collection of interfaces and structs that can be used
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// to represent an disk image with its layout. Various concrete types, such as
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// PartitionTable, Partition and Filesystem types are defined to model a given
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// disk layout. These implement a collection of interfaces that can be used to
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// navigate and operate on the various possible combinations of entities in a
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// generic way. The entity data model is very generic so that it can represent
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// all possible layouts, which can be arbitrarily complex, since technologies
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// like logical volume management, LUKS2 container and file systems, that can
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// have sub-volumes, allow for complex layouts.
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// Entity and Container are the two main interfaces that are used to model the
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// tree structure of a disk image layout. The other entity interfaces, such as
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// Sizeable and Mountable, then describe various properties and capabilities
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// of a given entity.
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package disk
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import (
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"encoding/hex"
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"io"
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"math/rand"
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"github.com/google/uuid"
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)
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const (
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// Default sector size in bytes
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DefaultSectorSize = 512
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DefaultGrainBytes = uint64(1048576) // 1 MiB
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// UUIDs
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BIOSBootPartitionGUID = "21686148-6449-6E6F-744E-656564454649"
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BIOSBootPartitionUUID = "FAC7F1FB-3E8D-4137-A512-961DE09A5549"
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FilesystemDataGUID = "0FC63DAF-8483-4772-8E79-3D69D8477DE4"
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FilesystemDataUUID = "CB07C243-BC44-4717-853E-28852021225B"
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EFISystemPartitionGUID = "C12A7328-F81F-11D2-BA4B-00A0C93EC93B"
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EFISystemPartitionUUID = "68B2905B-DF3E-4FB3-80FA-49D1E773AA33"
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EFIFilesystemUUID = "7B77-95E7"
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LVMPartitionGUID = "E6D6D379-F507-44C2-A23C-238F2A3DF928"
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PRePartitionGUID = "9E1A2D38-C612-4316-AA26-8B49521E5A8B"
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RootPartitionUUID = "6264D520-3FB9-423F-8AB8-7A0A8E3D3562"
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)
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// Entity is the base interface for all disk-related entities.
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type Entity interface {
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// IsContainer indicates if the implementing type can
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// contain any other entities.
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IsContainer() bool
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// Clone returns a deep copy of the entity.
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Clone() Entity
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}
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// Container is the interface for entities that can contain other entities.
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// Together with the base Entity interface this allows to model a generic
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// entity tree of theoretically arbitrary depth and width.
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type Container interface {
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Entity
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// GetItemCount returns the number of actual child entities.
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GetItemCount() uint
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// GetChild returns the child entity at the given index.
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GetChild(n uint) Entity
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}
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// Sizeable is implemented by entities that carry size information.
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type Sizeable interface {
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// EnsureSize will resize the entity to the given size in case
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// it is currently smaller. Returns if the size was changed.
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EnsureSize(size uint64) bool
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// GetSize returns the size of the entity in bytes.
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GetSize() uint64
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}
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// A Mountable entity is an entity that can be mounted.
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type Mountable interface {
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// GetMountPoint returns the path of the mount point.
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GetMountpoint() string
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// GetFSType returns the file system type, e.g. 'xfs'.
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GetFSType() string
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// GetFSSpec returns the file system spec information.
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GetFSSpec() FSSpec
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// GetFSTabOptions returns options for mounting the entity.
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GetFSTabOptions() FSTabOptions
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}
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// A VolumeContainer is a container that is able to create new volumes.
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//
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// CreateVolume creates a new volume with the given mount point and
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// size and returns it.
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type VolumeContainer interface {
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CreateVolume(mountpoint string, size uint64) (Entity, error)
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}
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// A UniqueEntity is an entity that can be uniquely identified via a UUID.
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//
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// GenUUID generates a UUID for the entity if it does not yet have one.
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type UniqueEntity interface {
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Entity
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GenUUID(rng *rand.Rand)
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}
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// FSSpec for a filesystem (UUID and Label); the first field of fstab(5)
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type FSSpec struct {
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UUID string
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Label string
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}
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type FSTabOptions struct {
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// The fourth field of fstab(5); fs_mntops
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MntOps string
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// The fifth field of fstab(5); fs_freq
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Freq uint64
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// The sixth field of fstab(5); fs_passno
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PassNo uint64
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}
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// uuid generator helpers
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// GeneratesnewRandomUUIDFromReader generates a new random UUID (version
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// 4 using) via the given random number generator.
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func newRandomUUIDFromReader(r io.Reader) (uuid.UUID, error) {
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var id uuid.UUID
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_, err := io.ReadFull(r, id[:])
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if err != nil {
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return uuid.Nil, err
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}
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id[6] = (id[6] & 0x0f) | 0x40 // Version 4
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id[8] = (id[8] & 0x3f) | 0x80 // Variant is 10
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return id, nil
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}
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// NewRandomVolIDFromReader creates a random 32 bit hex string to use as a
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// volume ID for FAT filesystems
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func NewRandomVolIDFromReader(r io.Reader) (string, error) {
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volid := make([]byte, 4)
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_, err := r.Read(volid)
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return hex.EncodeToString(volid), err
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}
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