open-nomad/plugins/csi/plugin.go
Tim Gross 0856483115 CSI: fingerprint detailed node capabilities
In order to support new node RPCs, we need to fingerprint plugin capabilities
in more detail. This changeset mirrors recent work to fingerprint controller
capabilities, but is not yet in use by any Nomad RPC.
2021-04-01 16:00:58 -04:00

969 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
}
// HasTopologies 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
}
return &csipbv1.ValidateVolumeCapabilitiesRequest{
VolumeId: r.ExternalID,
VolumeContext: r.Context,
VolumeCapabilities: []*csipbv1.VolumeCapability{
r.Capabilities.ToCSIRepresentation(),
},
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()),
}}
}
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
}
func (r *ControllerListSnapshotsRequest) ToCSIRepresentation() *csipbv1.ListSnapshotsRequest {
return &csipbv1.ListSnapshotsRequest{
MaxEntries: r.MaxEntries,
StartingToken: r.StartingToken,
}
}
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: snap.GetCreationTime().GetSeconds(),
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) (*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,
}, 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,
}
}