open-nomad/plugins/csi/plugin.go

976 lines
30 KiB
Go

package csi
import (
"context"
"errors"
"fmt"
csipbv1 "github.com/container-storage-interface/spec/lib/go/csi"
"github.com/hashicorp/nomad/nomad/structs"
"github.com/hashicorp/nomad/plugins/base"
"google.golang.org/grpc"
)
// CSIPlugin implements a lightweight abstraction layer around a CSI Plugin.
// It validates that responses from storage providers (SP's), correctly conform
// to the specification before returning response data or erroring.
type CSIPlugin interface {
base.BasePlugin
// PluginProbe is used to verify that the plugin is in a healthy state
PluginProbe(ctx context.Context) (bool, error)
// PluginGetInfo is used to return semantic data about the plugin.
// Response:
// - string: name, the name of the plugin in domain notation format.
// - string: version, the vendor version of the plugin
PluginGetInfo(ctx context.Context) (string, string, error)
// PluginGetCapabilities is used to return the available capabilities from the
// identity service. This currently only looks for the CONTROLLER_SERVICE and
// Accessible Topology Support
PluginGetCapabilities(ctx context.Context) (*PluginCapabilitySet, error)
// GetControllerCapabilities is used to get controller-specific capabilities
// for a plugin.
ControllerGetCapabilities(ctx context.Context) (*ControllerCapabilitySet, error)
// ControllerPublishVolume is used to attach a remote volume to a cluster node.
ControllerPublishVolume(ctx context.Context, req *ControllerPublishVolumeRequest, opts ...grpc.CallOption) (*ControllerPublishVolumeResponse, error)
// ControllerUnpublishVolume is used to deattach a remote volume from a cluster node.
ControllerUnpublishVolume(ctx context.Context, req *ControllerUnpublishVolumeRequest, opts ...grpc.CallOption) (*ControllerUnpublishVolumeResponse, error)
// ControllerValidateCapabilities is used to validate that a volume exists and
// supports the requested capability.
ControllerValidateCapabilities(ctx context.Context, req *ControllerValidateVolumeRequest, opts ...grpc.CallOption) error
// ControllerCreateVolume is used to create a remote volume in the
// external storage provider
ControllerCreateVolume(ctx context.Context, req *ControllerCreateVolumeRequest, opts ...grpc.CallOption) (*ControllerCreateVolumeResponse, error)
// ControllerDeleteVolume is used to delete a remote volume in the
// external storage provider
ControllerDeleteVolume(ctx context.Context, req *ControllerDeleteVolumeRequest, opts ...grpc.CallOption) error
// ControllerListVolumes is used to list all volumes available in the
// external storage provider
ControllerListVolumes(ctx context.Context, req *ControllerListVolumesRequest, opts ...grpc.CallOption) (*ControllerListVolumesResponse, error)
// ControllerCreateSnapshot is used to create a volume snapshot in the
// external storage provider
ControllerCreateSnapshot(ctx context.Context, req *ControllerCreateSnapshotRequest, opts ...grpc.CallOption) (*ControllerCreateSnapshotResponse, error)
// ControllerDeleteSnapshot is used to delete a volume snapshot from the
// external storage provider
ControllerDeleteSnapshot(ctx context.Context, req *ControllerDeleteSnapshotRequest, opts ...grpc.CallOption) error
// ControllerListSnapshots is used to list all volume snapshots available
// in the external storage provider
ControllerListSnapshots(ctx context.Context, req *ControllerListSnapshotsRequest, opts ...grpc.CallOption) (*ControllerListSnapshotsResponse, error)
// NodeGetCapabilities is used to return the available capabilities from the
// Node Service.
NodeGetCapabilities(ctx context.Context) (*NodeCapabilitySet, error)
// NodeGetInfo is used to return semantic data about the current node in
// respect to the SP.
NodeGetInfo(ctx context.Context) (*NodeGetInfoResponse, error)
// NodeStageVolume is used when a plugin has the STAGE_UNSTAGE volume capability
// to prepare a volume for usage on a host. If err == nil, the response should
// be assumed to be successful.
NodeStageVolume(ctx context.Context, req *NodeStageVolumeRequest, opts ...grpc.CallOption) error
// NodeUnstageVolume is used when a plugin has the STAGE_UNSTAGE volume capability
// to undo the work performed by NodeStageVolume. If a volume has been staged,
// this RPC must be called before freeing the volume.
//
// If err == nil, the response should be assumed to be successful.
NodeUnstageVolume(ctx context.Context, volumeID string, stagingTargetPath string, opts ...grpc.CallOption) error
// NodePublishVolume is used to prepare a volume for use by an allocation.
// if err == nil the response should be assumed to be successful.
NodePublishVolume(ctx context.Context, req *NodePublishVolumeRequest, opts ...grpc.CallOption) error
// NodeUnpublishVolume is used to cleanup usage of a volume for an alloc. This
// MUST be called before calling NodeUnstageVolume or ControllerUnpublishVolume
// for the given volume.
NodeUnpublishVolume(ctx context.Context, volumeID, targetPath string, opts ...grpc.CallOption) error
// Shutdown the client and ensure any connections are cleaned up.
Close() error
}
type NodePublishVolumeRequest struct {
// The external ID of the volume to publish.
ExternalID string
// If the volume was attached via a call to `ControllerPublishVolume` then
// we need to provide the returned PublishContext here.
PublishContext map[string]string
// The path to which the volume was staged by `NodeStageVolume`.
// It MUST be an absolute path in the root filesystem of the process
// serving this request.
// E.g {the plugins internal mount path}/staging/volumeid/...
//
// It MUST be set if the Node Plugin implements the
// `STAGE_UNSTAGE_VOLUME` node capability.
StagingTargetPath string
// The path to which the volume will be published.
// It MUST be an absolute path in the root filesystem of the process serving this
// request.
// E.g {the plugins internal mount path}/per-alloc/allocid/volumeid/...
//
// The CO SHALL ensure uniqueness of target_path per volume.
// The CO SHALL ensure that the parent directory of this path exists
// and that the process serving the request has `read` and `write`
// permissions to that parent directory.
TargetPath string
// Volume capability describing how the CO intends to use this volume.
VolumeCapability *VolumeCapability
Readonly bool
// Secrets required by plugins to complete the node publish volume
// request. This field is OPTIONAL.
Secrets structs.CSISecrets
// Volume context as returned by SP in the CSI
// CreateVolumeResponse.Volume.volume_context which we don't implement but
// can be entered by hand in the volume spec. This field is OPTIONAL.
VolumeContext map[string]string
}
func (r *NodePublishVolumeRequest) ToCSIRepresentation() *csipbv1.NodePublishVolumeRequest {
if r == nil {
return nil
}
return &csipbv1.NodePublishVolumeRequest{
VolumeId: r.ExternalID,
PublishContext: r.PublishContext,
StagingTargetPath: r.StagingTargetPath,
TargetPath: r.TargetPath,
VolumeCapability: r.VolumeCapability.ToCSIRepresentation(),
Readonly: r.Readonly,
Secrets: r.Secrets,
VolumeContext: r.VolumeContext,
}
}
func (r *NodePublishVolumeRequest) Validate() error {
if r.ExternalID == "" {
return errors.New("missing volume ID")
}
if r.TargetPath == "" {
return errors.New("missing TargetPath")
}
if r.VolumeCapability == nil {
return errors.New("missing VolumeCapabilities")
}
return nil
}
type NodeStageVolumeRequest struct {
// The external ID of the volume to stage.
ExternalID string
// If the volume was attached via a call to `ControllerPublishVolume` then
// we need to provide the returned PublishContext here.
PublishContext map[string]string
// The path to which the volume MAY be staged. It MUST be an
// absolute path in the root filesystem of the process serving this
// request, and MUST be a directory. The CO SHALL ensure that there
// is only one `staging_target_path` per volume. The CO SHALL ensure
// that the path is directory and that the process serving the
// request has `read` and `write` permission to that directory. The
// CO SHALL be responsible for creating the directory if it does not
// exist.
// This is a REQUIRED field.
StagingTargetPath string
// Volume capability describing how the CO intends to use this volume.
VolumeCapability *VolumeCapability
// Secrets required by plugins to complete the node stage volume
// request. This field is OPTIONAL.
Secrets structs.CSISecrets
// Volume context as returned by SP in the CSI
// CreateVolumeResponse.Volume.volume_context which we don't implement but
// can be entered by hand in the volume spec. This field is OPTIONAL.
VolumeContext map[string]string
}
func (r *NodeStageVolumeRequest) ToCSIRepresentation() *csipbv1.NodeStageVolumeRequest {
if r == nil {
return nil
}
return &csipbv1.NodeStageVolumeRequest{
VolumeId: r.ExternalID,
PublishContext: r.PublishContext,
StagingTargetPath: r.StagingTargetPath,
VolumeCapability: r.VolumeCapability.ToCSIRepresentation(),
Secrets: r.Secrets,
VolumeContext: r.VolumeContext,
}
}
func (r *NodeStageVolumeRequest) Validate() error {
if r.ExternalID == "" {
return errors.New("missing volume ID")
}
if r.StagingTargetPath == "" {
return errors.New("missing StagingTargetPath")
}
if r.VolumeCapability == nil {
return errors.New("missing VolumeCapabilities")
}
return nil
}
type PluginCapabilitySet struct {
hasControllerService bool
hasTopologies bool
}
func (p *PluginCapabilitySet) HasControllerService() bool {
return p.hasControllerService
}
// HasToplogies indicates whether the volumes for this plugin are equally
// accessible by all nodes in the cluster.
// If true, we MUST use the topology information when scheduling workloads.
func (p *PluginCapabilitySet) HasToplogies() bool {
return p.hasTopologies
}
func (p *PluginCapabilitySet) IsEqual(o *PluginCapabilitySet) bool {
return p.hasControllerService == o.hasControllerService && p.hasTopologies == o.hasTopologies
}
func NewTestPluginCapabilitySet(topologies, controller bool) *PluginCapabilitySet {
return &PluginCapabilitySet{
hasTopologies: topologies,
hasControllerService: controller,
}
}
func NewPluginCapabilitySet(capabilities *csipbv1.GetPluginCapabilitiesResponse) *PluginCapabilitySet {
cs := &PluginCapabilitySet{}
pluginCapabilities := capabilities.GetCapabilities()
for _, pcap := range pluginCapabilities {
if svcCap := pcap.GetService(); svcCap != nil {
switch svcCap.Type {
case csipbv1.PluginCapability_Service_UNKNOWN:
continue
case csipbv1.PluginCapability_Service_CONTROLLER_SERVICE:
cs.hasControllerService = true
case csipbv1.PluginCapability_Service_VOLUME_ACCESSIBILITY_CONSTRAINTS:
cs.hasTopologies = true
default:
continue
}
}
}
return cs
}
type ControllerCapabilitySet struct {
HasCreateDeleteVolume bool
HasPublishUnpublishVolume bool
HasListVolumes bool
HasGetCapacity bool
HasCreateDeleteSnapshot bool
HasListSnapshots bool
HasCloneVolume bool
HasPublishReadonly bool
HasExpandVolume bool
HasListVolumesPublishedNodes bool
HasVolumeCondition bool
HasGetVolume bool
}
func NewControllerCapabilitySet(resp *csipbv1.ControllerGetCapabilitiesResponse) *ControllerCapabilitySet {
cs := &ControllerCapabilitySet{}
pluginCapabilities := resp.GetCapabilities()
for _, pcap := range pluginCapabilities {
if c := pcap.GetRpc(); c != nil {
switch c.Type {
case csipbv1.ControllerServiceCapability_RPC_CREATE_DELETE_VOLUME:
cs.HasCreateDeleteVolume = true
case csipbv1.ControllerServiceCapability_RPC_PUBLISH_UNPUBLISH_VOLUME:
cs.HasPublishUnpublishVolume = true
case csipbv1.ControllerServiceCapability_RPC_LIST_VOLUMES:
cs.HasListVolumes = true
case csipbv1.ControllerServiceCapability_RPC_GET_CAPACITY:
cs.HasGetCapacity = true
case csipbv1.ControllerServiceCapability_RPC_CREATE_DELETE_SNAPSHOT:
cs.HasCreateDeleteSnapshot = true
case csipbv1.ControllerServiceCapability_RPC_LIST_SNAPSHOTS:
cs.HasListSnapshots = true
case csipbv1.ControllerServiceCapability_RPC_CLONE_VOLUME:
cs.HasCloneVolume = true
case csipbv1.ControllerServiceCapability_RPC_PUBLISH_READONLY:
cs.HasPublishReadonly = true
case csipbv1.ControllerServiceCapability_RPC_EXPAND_VOLUME:
cs.HasExpandVolume = true
case csipbv1.ControllerServiceCapability_RPC_LIST_VOLUMES_PUBLISHED_NODES:
cs.HasListVolumesPublishedNodes = true
case csipbv1.ControllerServiceCapability_RPC_VOLUME_CONDITION:
cs.HasVolumeCondition = true
case csipbv1.ControllerServiceCapability_RPC_GET_VOLUME:
cs.HasGetVolume = true
default:
continue
}
}
}
return cs
}
type ControllerValidateVolumeRequest struct {
ExternalID string
Secrets structs.CSISecrets
Capabilities []*VolumeCapability
Parameters map[string]string
Context map[string]string
}
func (r *ControllerValidateVolumeRequest) ToCSIRepresentation() *csipbv1.ValidateVolumeCapabilitiesRequest {
if r == nil {
return nil
}
caps := make([]*csipbv1.VolumeCapability, 0, len(r.Capabilities))
for _, cap := range r.Capabilities {
caps = append(caps, cap.ToCSIRepresentation())
}
return &csipbv1.ValidateVolumeCapabilitiesRequest{
VolumeId: r.ExternalID,
VolumeContext: r.Context,
VolumeCapabilities: caps,
Parameters: r.Parameters,
Secrets: r.Secrets,
}
}
type ControllerPublishVolumeRequest struct {
ExternalID string
NodeID string
ReadOnly bool
VolumeCapability *VolumeCapability
Secrets structs.CSISecrets
VolumeContext map[string]string
}
func (r *ControllerPublishVolumeRequest) ToCSIRepresentation() *csipbv1.ControllerPublishVolumeRequest {
if r == nil {
return nil
}
return &csipbv1.ControllerPublishVolumeRequest{
VolumeId: r.ExternalID,
NodeId: r.NodeID,
Readonly: r.ReadOnly,
VolumeCapability: r.VolumeCapability.ToCSIRepresentation(),
Secrets: r.Secrets,
VolumeContext: r.VolumeContext,
}
}
func (r *ControllerPublishVolumeRequest) Validate() error {
if r.ExternalID == "" {
return errors.New("missing volume ID")
}
if r.NodeID == "" {
return errors.New("missing NodeID")
}
return nil
}
type ControllerPublishVolumeResponse struct {
PublishContext map[string]string
}
type ControllerUnpublishVolumeRequest struct {
ExternalID string
NodeID string
Secrets structs.CSISecrets
}
func (r *ControllerUnpublishVolumeRequest) ToCSIRepresentation() *csipbv1.ControllerUnpublishVolumeRequest {
if r == nil {
return nil
}
return &csipbv1.ControllerUnpublishVolumeRequest{
VolumeId: r.ExternalID,
NodeId: r.NodeID,
Secrets: r.Secrets,
}
}
func (r *ControllerUnpublishVolumeRequest) Validate() error {
if r.ExternalID == "" {
return errors.New("missing ExternalID")
}
if r.NodeID == "" {
// the spec allows this but it would unpublish the
// volume from all nodes
return errors.New("missing NodeID")
}
return nil
}
type ControllerUnpublishVolumeResponse struct{}
type ControllerCreateVolumeRequest struct {
// note that Name is intentionally differentiated from both CSIVolume.ID
// and ExternalVolumeID. This name is only a recommendation for the
// storage provider, and many will discard this suggestion
Name string
CapacityRange *CapacityRange
VolumeCapabilities []*VolumeCapability
Parameters map[string]string
Secrets structs.CSISecrets
ContentSource *VolumeContentSource
AccessibilityRequirements *TopologyRequirement
}
func (r *ControllerCreateVolumeRequest) ToCSIRepresentation() *csipbv1.CreateVolumeRequest {
if r == nil {
return nil
}
caps := make([]*csipbv1.VolumeCapability, 0, len(r.VolumeCapabilities))
for _, cap := range r.VolumeCapabilities {
caps = append(caps, cap.ToCSIRepresentation())
}
req := &csipbv1.CreateVolumeRequest{
Name: r.Name,
CapacityRange: r.CapacityRange.ToCSIRepresentation(),
VolumeCapabilities: caps,
Parameters: r.Parameters,
Secrets: r.Secrets,
VolumeContentSource: r.ContentSource.ToCSIRepresentation(),
AccessibilityRequirements: r.AccessibilityRequirements.ToCSIRepresentation(),
}
return req
}
func (r *ControllerCreateVolumeRequest) Validate() error {
if r.Name == "" {
return errors.New("missing Name")
}
if r.VolumeCapabilities == nil {
return errors.New("missing VolumeCapabilities")
}
if r.CapacityRange != nil {
if r.CapacityRange.LimitBytes == 0 && r.CapacityRange.RequiredBytes == 0 {
return errors.New(
"one of LimitBytes or RequiredBytes must be set if CapacityRange is set")
}
if r.CapacityRange.LimitBytes < r.CapacityRange.RequiredBytes {
return errors.New("LimitBytes cannot be less than RequiredBytes")
}
}
if r.ContentSource != nil {
if r.ContentSource.CloneID != "" && r.ContentSource.SnapshotID != "" {
return errors.New(
"one of SnapshotID or CloneID must be set if ContentSource is set")
}
}
return nil
}
// VolumeContentSource is snapshot or volume that the plugin will use to
// create the new volume. At most one of these fields can be set, but nil (and
// not an empty struct) is expected by CSI plugins if neither field is set.
type VolumeContentSource struct {
SnapshotID string
CloneID string
}
func (vcr *VolumeContentSource) ToCSIRepresentation() *csipbv1.VolumeContentSource {
if vcr == nil {
return nil
}
if vcr.CloneID != "" {
return &csipbv1.VolumeContentSource{
Type: &csipbv1.VolumeContentSource_Volume{
Volume: &csipbv1.VolumeContentSource_VolumeSource{
VolumeId: vcr.CloneID,
},
},
}
} else if vcr.SnapshotID != "" {
return &csipbv1.VolumeContentSource{
Type: &csipbv1.VolumeContentSource_Snapshot{
Snapshot: &csipbv1.VolumeContentSource_SnapshotSource{
SnapshotId: vcr.SnapshotID,
},
},
}
}
// Nomad's RPCs will hand us an empty struct, not nil
return nil
}
func newVolumeContentSource(src *csipbv1.VolumeContentSource) *VolumeContentSource {
return &VolumeContentSource{
SnapshotID: src.GetSnapshot().GetSnapshotId(),
CloneID: src.GetVolume().GetVolumeId(),
}
}
type TopologyRequirement struct {
Requisite []*Topology
Preferred []*Topology
}
func (tr *TopologyRequirement) ToCSIRepresentation() *csipbv1.TopologyRequirement {
if tr == nil {
return nil
}
result := &csipbv1.TopologyRequirement{
Requisite: []*csipbv1.Topology{},
Preferred: []*csipbv1.Topology{},
}
for _, topo := range tr.Requisite {
result.Requisite = append(result.Requisite,
&csipbv1.Topology{Segments: topo.Segments})
}
for _, topo := range tr.Preferred {
result.Preferred = append(result.Preferred,
&csipbv1.Topology{Segments: topo.Segments})
}
return result
}
func newTopologies(src []*csipbv1.Topology) []*Topology {
t := []*Topology{}
for _, topo := range src {
t = append(t, &Topology{Segments: topo.Segments})
}
return t
}
type ControllerCreateVolumeResponse struct {
Volume *Volume
}
func NewCreateVolumeResponse(resp *csipbv1.CreateVolumeResponse) *ControllerCreateVolumeResponse {
vol := resp.GetVolume()
return &ControllerCreateVolumeResponse{Volume: &Volume{
CapacityBytes: vol.GetCapacityBytes(),
ExternalVolumeID: vol.GetVolumeId(),
VolumeContext: vol.GetVolumeContext(),
ContentSource: newVolumeContentSource(vol.GetContentSource()),
AccessibleTopology: newTopologies(vol.GetAccessibleTopology()),
}}
}
type Volume struct {
CapacityBytes int64
// this is differentiated from VolumeID so as not to create confusion
// between the Nomad CSIVolume.ID and the storage provider's ID.
ExternalVolumeID string
VolumeContext map[string]string
ContentSource *VolumeContentSource
AccessibleTopology []*Topology
}
type ControllerDeleteVolumeRequest struct {
ExternalVolumeID string
Secrets structs.CSISecrets
}
func (r *ControllerDeleteVolumeRequest) ToCSIRepresentation() *csipbv1.DeleteVolumeRequest {
if r == nil {
return nil
}
return &csipbv1.DeleteVolumeRequest{
VolumeId: r.ExternalVolumeID,
Secrets: r.Secrets,
}
}
func (r *ControllerDeleteVolumeRequest) Validate() error {
if r.ExternalVolumeID == "" {
return errors.New("missing ExternalVolumeID")
}
return nil
}
type ControllerListVolumesRequest struct {
MaxEntries int32
StartingToken string
}
func (r *ControllerListVolumesRequest) ToCSIRepresentation() *csipbv1.ListVolumesRequest {
if r == nil {
return nil
}
return &csipbv1.ListVolumesRequest{
MaxEntries: r.MaxEntries,
StartingToken: r.StartingToken,
}
}
func (r *ControllerListVolumesRequest) Validate() error {
if r.MaxEntries < 0 {
return errors.New("MaxEntries cannot be negative")
}
return nil
}
type ControllerListVolumesResponse struct {
Entries []*ListVolumesResponse_Entry
NextToken string
}
func NewListVolumesResponse(resp *csipbv1.ListVolumesResponse) *ControllerListVolumesResponse {
if resp == nil {
return &ControllerListVolumesResponse{}
}
entries := []*ListVolumesResponse_Entry{}
if resp.Entries != nil {
for _, entry := range resp.Entries {
vol := entry.GetVolume()
status := entry.GetStatus()
entries = append(entries, &ListVolumesResponse_Entry{
Volume: &Volume{
CapacityBytes: vol.CapacityBytes,
ExternalVolumeID: vol.VolumeId,
VolumeContext: vol.VolumeContext,
ContentSource: newVolumeContentSource(vol.ContentSource),
AccessibleTopology: newTopologies(vol.AccessibleTopology),
},
Status: &ListVolumesResponse_VolumeStatus{
PublishedNodeIds: status.GetPublishedNodeIds(),
VolumeCondition: &VolumeCondition{
Abnormal: status.GetVolumeCondition().GetAbnormal(),
Message: status.GetVolumeCondition().GetMessage(),
},
},
})
}
}
return &ControllerListVolumesResponse{
Entries: entries,
NextToken: resp.NextToken,
}
}
type ListVolumesResponse_Entry struct {
Volume *Volume
Status *ListVolumesResponse_VolumeStatus
}
type ListVolumesResponse_VolumeStatus struct {
PublishedNodeIds []string
VolumeCondition *VolumeCondition
}
type VolumeCondition struct {
Abnormal bool
Message string
}
type ControllerCreateSnapshotRequest struct {
VolumeID string
Name string
Secrets structs.CSISecrets
Parameters map[string]string
}
func (r *ControllerCreateSnapshotRequest) ToCSIRepresentation() *csipbv1.CreateSnapshotRequest {
return &csipbv1.CreateSnapshotRequest{
SourceVolumeId: r.VolumeID,
Name: r.Name,
Secrets: r.Secrets,
Parameters: r.Parameters,
}
}
func (r *ControllerCreateSnapshotRequest) Validate() error {
if r.VolumeID == "" {
return errors.New("missing VolumeID")
}
if r.Name == "" {
return errors.New("missing Name")
}
return nil
}
type ControllerCreateSnapshotResponse struct {
Snapshot *Snapshot
}
type Snapshot struct {
ID string
SourceVolumeID string
SizeBytes int64
CreateTime int64
IsReady bool
}
type ControllerDeleteSnapshotRequest struct {
SnapshotID string
Secrets structs.CSISecrets
}
func (r *ControllerDeleteSnapshotRequest) ToCSIRepresentation() *csipbv1.DeleteSnapshotRequest {
return &csipbv1.DeleteSnapshotRequest{
SnapshotId: r.SnapshotID,
Secrets: r.Secrets,
}
}
func (r *ControllerDeleteSnapshotRequest) Validate() error {
if r.SnapshotID == "" {
return errors.New("missing SnapshotID")
}
return nil
}
type ControllerListSnapshotsRequest struct {
MaxEntries int32
StartingToken string
Secrets structs.CSISecrets
}
func (r *ControllerListSnapshotsRequest) ToCSIRepresentation() *csipbv1.ListSnapshotsRequest {
return &csipbv1.ListSnapshotsRequest{
MaxEntries: r.MaxEntries,
StartingToken: r.StartingToken,
Secrets: r.Secrets,
}
}
func (r *ControllerListSnapshotsRequest) Validate() error {
if r.MaxEntries < 0 {
return errors.New("MaxEntries cannot be negative")
}
return nil
}
func NewListSnapshotsResponse(resp *csipbv1.ListSnapshotsResponse) *ControllerListSnapshotsResponse {
if resp == nil {
return &ControllerListSnapshotsResponse{}
}
entries := []*ListSnapshotsResponse_Entry{}
if resp.Entries != nil {
for _, entry := range resp.Entries {
snap := entry.GetSnapshot()
entries = append(entries, &ListSnapshotsResponse_Entry{
Snapshot: &Snapshot{
SizeBytes: snap.GetSizeBytes(),
ID: snap.GetSnapshotId(),
SourceVolumeID: snap.GetSourceVolumeId(),
CreateTime: int64(snap.GetCreationTime().GetNanos()),
IsReady: snap.GetReadyToUse(),
},
})
}
}
return &ControllerListSnapshotsResponse{
Entries: entries,
NextToken: resp.NextToken,
}
}
type ControllerListSnapshotsResponse struct {
Entries []*ListSnapshotsResponse_Entry
NextToken string
}
type ListSnapshotsResponse_Entry struct {
Snapshot *Snapshot
}
type NodeCapabilitySet struct {
HasStageUnstageVolume bool
HasGetVolumeStats bool
HasExpandVolume bool
HasVolumeCondition bool
}
func NewNodeCapabilitySet(resp *csipbv1.NodeGetCapabilitiesResponse) *NodeCapabilitySet {
cs := &NodeCapabilitySet{}
pluginCapabilities := resp.GetCapabilities()
for _, pcap := range pluginCapabilities {
if c := pcap.GetRpc(); c != nil {
switch c.Type {
case csipbv1.NodeServiceCapability_RPC_STAGE_UNSTAGE_VOLUME:
cs.HasStageUnstageVolume = true
case csipbv1.NodeServiceCapability_RPC_GET_VOLUME_STATS:
cs.HasGetVolumeStats = true
case csipbv1.NodeServiceCapability_RPC_EXPAND_VOLUME:
cs.HasExpandVolume = true
case csipbv1.NodeServiceCapability_RPC_VOLUME_CONDITION:
cs.HasVolumeCondition = true
default:
continue
}
}
}
return cs
}
// VolumeAccessMode represents the desired access mode of the CSI Volume
type VolumeAccessMode csipbv1.VolumeCapability_AccessMode_Mode
var _ fmt.Stringer = VolumeAccessModeUnknown
var (
VolumeAccessModeUnknown = VolumeAccessMode(csipbv1.VolumeCapability_AccessMode_UNKNOWN)
VolumeAccessModeSingleNodeWriter = VolumeAccessMode(csipbv1.VolumeCapability_AccessMode_SINGLE_NODE_WRITER)
VolumeAccessModeSingleNodeReaderOnly = VolumeAccessMode(csipbv1.VolumeCapability_AccessMode_SINGLE_NODE_READER_ONLY)
VolumeAccessModeMultiNodeReaderOnly = VolumeAccessMode(csipbv1.VolumeCapability_AccessMode_MULTI_NODE_READER_ONLY)
VolumeAccessModeMultiNodeSingleWriter = VolumeAccessMode(csipbv1.VolumeCapability_AccessMode_MULTI_NODE_SINGLE_WRITER)
VolumeAccessModeMultiNodeMultiWriter = VolumeAccessMode(csipbv1.VolumeCapability_AccessMode_MULTI_NODE_MULTI_WRITER)
)
func (a VolumeAccessMode) String() string {
return a.ToCSIRepresentation().String()
}
func (a VolumeAccessMode) ToCSIRepresentation() csipbv1.VolumeCapability_AccessMode_Mode {
return csipbv1.VolumeCapability_AccessMode_Mode(a)
}
// VolumeAccessType represents the filesystem apis that the user intends to use
// with the volume. E.g whether it will be used as a block device or if they wish
// to have a mounted filesystem.
type VolumeAccessType int32
var _ fmt.Stringer = VolumeAccessTypeBlock
var (
VolumeAccessTypeBlock VolumeAccessType = 1
VolumeAccessTypeMount VolumeAccessType = 2
)
func (v VolumeAccessType) String() string {
if v == VolumeAccessTypeBlock {
return "VolumeAccessType.Block"
} else if v == VolumeAccessTypeMount {
return "VolumeAccessType.Mount"
} else {
return "VolumeAccessType.Unspecified"
}
}
// VolumeCapability describes the overall usage requirements for a given CSI Volume
type VolumeCapability struct {
AccessType VolumeAccessType
AccessMode VolumeAccessMode
// Indicate that the volume will be accessed via the filesystem API.
MountVolume *structs.CSIMountOptions
}
func VolumeCapabilityFromStructs(sAccessType structs.CSIVolumeAttachmentMode, sAccessMode structs.CSIVolumeAccessMode, sMountOptions *structs.CSIMountOptions) (*VolumeCapability, error) {
var accessType VolumeAccessType
switch sAccessType {
case structs.CSIVolumeAttachmentModeBlockDevice:
accessType = VolumeAccessTypeBlock
case structs.CSIVolumeAttachmentModeFilesystem:
accessType = VolumeAccessTypeMount
default:
// These fields are validated during job submission, but here we perform a
// final check during transformation into the requisite CSI Data type to
// defend against development bugs and corrupted state - and incompatible
// nomad versions in the future.
return nil, fmt.Errorf("unknown volume attachment mode: %s", sAccessType)
}
var accessMode VolumeAccessMode
switch sAccessMode {
case structs.CSIVolumeAccessModeSingleNodeReader:
accessMode = VolumeAccessModeSingleNodeReaderOnly
case structs.CSIVolumeAccessModeSingleNodeWriter:
accessMode = VolumeAccessModeSingleNodeWriter
case structs.CSIVolumeAccessModeMultiNodeMultiWriter:
accessMode = VolumeAccessModeMultiNodeMultiWriter
case structs.CSIVolumeAccessModeMultiNodeSingleWriter:
accessMode = VolumeAccessModeMultiNodeSingleWriter
case structs.CSIVolumeAccessModeMultiNodeReader:
accessMode = VolumeAccessModeMultiNodeReaderOnly
default:
// These fields are validated during job submission, but here we perform a
// final check during transformation into the requisite CSI Data type to
// defend against development bugs and corrupted state - and incompatible
// nomad versions in the future.
return nil, fmt.Errorf("unknown volume access mode: %v", sAccessMode)
}
return &VolumeCapability{
AccessType: accessType,
AccessMode: accessMode,
MountVolume: sMountOptions,
}, nil
}
func (c *VolumeCapability) ToCSIRepresentation() *csipbv1.VolumeCapability {
if c == nil {
return nil
}
vc := &csipbv1.VolumeCapability{
AccessMode: &csipbv1.VolumeCapability_AccessMode{
Mode: c.AccessMode.ToCSIRepresentation(),
},
}
if c.AccessType == VolumeAccessTypeMount {
opts := &csipbv1.VolumeCapability_MountVolume{}
if c.MountVolume != nil {
opts.FsType = c.MountVolume.FSType
opts.MountFlags = c.MountVolume.MountFlags
}
vc.AccessType = &csipbv1.VolumeCapability_Mount{Mount: opts}
} else {
vc.AccessType = &csipbv1.VolumeCapability_Block{Block: &csipbv1.VolumeCapability_BlockVolume{}}
}
return vc
}
type CapacityRange struct {
RequiredBytes int64
LimitBytes int64
}
func (c *CapacityRange) ToCSIRepresentation() *csipbv1.CapacityRange {
if c == nil {
return nil
}
return &csipbv1.CapacityRange{
RequiredBytes: c.RequiredBytes,
LimitBytes: c.LimitBytes,
}
}