open-nomad/nomad/structs/csi.go
Tim Gross d4cd272de3 csi: implement VolumeClaimRPC (#7048)
When the client receives an allocation which includes a CSI volume,
the alloc runner will block its main `Run` loop. The alloc runner will
issue a `VolumeClaim` RPC to the Nomad servers. This changeset
implements the portions of the `VolumeClaim` RPC endpoint that have
not been previously completed.
2020-03-23 13:58:29 -04:00

638 lines
15 KiB
Go

package structs
import (
"fmt"
"strings"
"time"
)
// CSISocketName is the filename that Nomad expects plugins to create inside the
// PluginMountDir.
const CSISocketName = "csi.sock"
// CSIIntermediaryDirname is the name of the directory inside the PluginMountDir
// where Nomad will expect plugins to create intermediary mounts for volumes.
const CSIIntermediaryDirname = "volumes"
// VolumeTypeCSI is the type in the volume stanza of a TaskGroup
const VolumeTypeCSI = "csi"
// CSIPluginType is an enum string that encapsulates the valid options for a
// CSIPlugin stanza's Type. These modes will allow the plugin to be used in
// different ways by the client.
type CSIPluginType string
const (
// CSIPluginTypeNode indicates that Nomad should only use the plugin for
// performing Node RPCs against the provided plugin.
CSIPluginTypeNode CSIPluginType = "node"
// CSIPluginTypeController indicates that Nomad should only use the plugin for
// performing Controller RPCs against the provided plugin.
CSIPluginTypeController CSIPluginType = "controller"
// CSIPluginTypeMonolith indicates that Nomad can use the provided plugin for
// both controller and node rpcs.
CSIPluginTypeMonolith CSIPluginType = "monolith"
)
// CSIPluginTypeIsValid validates the given CSIPluginType string and returns
// true only when a correct plugin type is specified.
func CSIPluginTypeIsValid(pt CSIPluginType) bool {
switch pt {
case CSIPluginTypeNode, CSIPluginTypeController, CSIPluginTypeMonolith:
return true
default:
return false
}
}
// TaskCSIPluginConfig contains the data that is required to setup a task as a
// CSI plugin. This will be used by the csi_plugin_supervisor_hook to configure
// mounts for the plugin and initiate the connection to the plugin catalog.
type TaskCSIPluginConfig struct {
// ID is the identifier of the plugin.
// Ideally this should be the FQDN of the plugin.
ID string
// Type instructs Nomad on how to handle processing a plugin
Type CSIPluginType
// MountDir is the destination that nomad should mount in its CSI
// directory for the plugin. It will then expect a file called CSISocketName
// to be created by the plugin, and will provide references into
// "MountDir/CSIIntermediaryDirname/{VolumeName}/{AllocID} for mounts.
MountDir string
}
func (t *TaskCSIPluginConfig) Copy() *TaskCSIPluginConfig {
if t == nil {
return nil
}
nt := new(TaskCSIPluginConfig)
*nt = *t
return nt
}
// CSIVolumeAttachmentMode chooses the type of storage api that will be used to
// interact with the device.
type CSIVolumeAttachmentMode string
const (
CSIVolumeAttachmentModeUnknown CSIVolumeAttachmentMode = ""
CSIVolumeAttachmentModeBlockDevice CSIVolumeAttachmentMode = "block-device"
CSIVolumeAttachmentModeFilesystem CSIVolumeAttachmentMode = "file-system"
)
func ValidCSIVolumeAttachmentMode(attachmentMode CSIVolumeAttachmentMode) bool {
switch attachmentMode {
case CSIVolumeAttachmentModeBlockDevice, CSIVolumeAttachmentModeFilesystem:
return true
default:
return false
}
}
// CSIVolumeAccessMode indicates how a volume should be used in a storage topology
// e.g whether the provider should make the volume available concurrently.
type CSIVolumeAccessMode string
const (
CSIVolumeAccessModeUnknown CSIVolumeAccessMode = ""
CSIVolumeAccessModeSingleNodeReader CSIVolumeAccessMode = "single-node-reader-only"
CSIVolumeAccessModeSingleNodeWriter CSIVolumeAccessMode = "single-node-writer"
CSIVolumeAccessModeMultiNodeReader CSIVolumeAccessMode = "multi-node-reader-only"
CSIVolumeAccessModeMultiNodeSingleWriter CSIVolumeAccessMode = "multi-node-single-writer"
CSIVolumeAccessModeMultiNodeMultiWriter CSIVolumeAccessMode = "multi-node-multi-writer"
)
// ValidCSIVolumeAccessMode checks to see that the provided access mode is a valid,
// non-empty access mode.
func ValidCSIVolumeAccessMode(accessMode CSIVolumeAccessMode) bool {
switch accessMode {
case CSIVolumeAccessModeSingleNodeReader, CSIVolumeAccessModeSingleNodeWriter,
CSIVolumeAccessModeMultiNodeReader, CSIVolumeAccessModeMultiNodeSingleWriter,
CSIVolumeAccessModeMultiNodeMultiWriter:
return true
default:
return false
}
}
// ValidCSIVolumeAccessMode checks for a writable access mode
func ValidCSIVolumeWriteAccessMode(accessMode CSIVolumeAccessMode) bool {
switch accessMode {
case CSIVolumeAccessModeSingleNodeWriter,
CSIVolumeAccessModeMultiNodeSingleWriter,
CSIVolumeAccessModeMultiNodeMultiWriter:
return true
default:
return false
}
}
// CSIVolume is the full representation of a CSI Volume
type CSIVolume struct {
ID string
Namespace string
Topologies []*CSITopology
AccessMode CSIVolumeAccessMode
AttachmentMode CSIVolumeAttachmentMode
// Allocations, tracking claim status
ReadAllocs map[string]*Allocation
WriteAllocs map[string]*Allocation
PastAllocs map[string]*Allocation
// Healthy is true if all the denormalized plugin health fields are true, and the
// volume has not been marked for garbage collection
Healthy bool
VolumeGC time.Time
PluginID string
ControllerRequired bool
ControllersHealthy int
ControllersExpected int
NodesHealthy int
NodesExpected int
ResourceExhausted time.Time
CreateIndex uint64
ModifyIndex uint64
}
// CSIVolListStub is partial representation of a CSI Volume for inclusion in lists
type CSIVolListStub struct {
ID string
Namespace string
Topologies []*CSITopology
AccessMode CSIVolumeAccessMode
AttachmentMode CSIVolumeAttachmentMode
CurrentReaders int
CurrentWriters int
Healthy bool
VolumeGC time.Time
PluginID string
ControllersHealthy int
ControllersExpected int
NodesHealthy int
NodesExpected int
CreateIndex uint64
ModifyIndex uint64
}
// NewCSIVolume creates the volume struct. No side-effects
func NewCSIVolume(pluginID string, index uint64) *CSIVolume {
out := &CSIVolume{
ID: pluginID,
CreateIndex: index,
ModifyIndex: index,
}
out.newStructs()
return out
}
func (v *CSIVolume) newStructs() {
if v.Topologies == nil {
v.Topologies = []*CSITopology{}
}
v.ReadAllocs = map[string]*Allocation{}
v.WriteAllocs = map[string]*Allocation{}
v.PastAllocs = map[string]*Allocation{}
}
func (v *CSIVolume) Stub() *CSIVolListStub {
stub := CSIVolListStub{
ID: v.ID,
Namespace: v.Namespace,
Topologies: v.Topologies,
AccessMode: v.AccessMode,
AttachmentMode: v.AttachmentMode,
CurrentReaders: len(v.ReadAllocs),
CurrentWriters: len(v.WriteAllocs),
Healthy: v.Healthy,
VolumeGC: v.VolumeGC,
PluginID: v.PluginID,
ControllersHealthy: v.ControllersHealthy,
NodesHealthy: v.NodesHealthy,
NodesExpected: v.NodesExpected,
CreateIndex: v.CreateIndex,
ModifyIndex: v.ModifyIndex,
}
return &stub
}
func (v *CSIVolume) CanReadOnly() bool {
if !v.Healthy {
return false
}
return v.ResourceExhausted == time.Time{}
}
func (v *CSIVolume) CanWrite() bool {
if !v.Healthy {
return false
}
switch v.AccessMode {
case CSIVolumeAccessModeSingleNodeWriter, CSIVolumeAccessModeMultiNodeSingleWriter:
return len(v.WriteAllocs) == 0
case CSIVolumeAccessModeMultiNodeMultiWriter:
return v.ResourceExhausted == time.Time{}
default:
return false
}
}
// Copy returns a copy of the volume, which shares only the Topologies slice
func (v *CSIVolume) Copy() *CSIVolume {
copy := *v
out := &copy
out.newStructs()
for k, v := range v.ReadAllocs {
out.ReadAllocs[k] = v
}
for k, v := range v.WriteAllocs {
out.WriteAllocs[k] = v
}
for k, v := range v.PastAllocs {
out.PastAllocs[k] = v
}
return out
}
// Claim updates the allocations and changes the volume state
func (v *CSIVolume) Claim(claim CSIVolumeClaimMode, alloc *Allocation) bool {
switch claim {
case CSIVolumeClaimRead:
return v.ClaimRead(alloc)
case CSIVolumeClaimWrite:
return v.ClaimWrite(alloc)
case CSIVolumeClaimRelease:
return v.ClaimRelease(alloc)
}
return false
}
// ClaimRead marks an allocation as using a volume read-only
func (v *CSIVolume) ClaimRead(alloc *Allocation) bool {
if !v.CanReadOnly() {
return false
}
// Allocations are copy on write, so we want to keep the id but don't need the
// pointer. We'll get it from the db in denormalize.
v.ReadAllocs[alloc.ID] = nil
delete(v.WriteAllocs, alloc.ID)
delete(v.PastAllocs, alloc.ID)
return true
}
// ClaimWrite marks an allocation as using a volume as a writer
func (v *CSIVolume) ClaimWrite(alloc *Allocation) bool {
if !v.CanWrite() {
return false
}
// Allocations are copy on write, so we want to keep the id but don't need the
// pointer. We'll get it from the db in denormalize.
v.WriteAllocs[alloc.ID] = nil
delete(v.ReadAllocs, alloc.ID)
delete(v.PastAllocs, alloc.ID)
return true
}
// ClaimRelease is called when the allocation has terminated and already stopped using the volume
func (v *CSIVolume) ClaimRelease(alloc *Allocation) bool {
delete(v.ReadAllocs, alloc.ID)
delete(v.WriteAllocs, alloc.ID)
// Allocations are copy on write, so we want to keep the id but don't need the
// pointer. We'll get it from the db in denormalize.
v.PastAllocs[alloc.ID] = nil
return true
}
// GCAlloc is called on Allocation gc, by following the alloc's pointer back to the volume
func (v *CSIVolume) GCAlloc(alloc *Allocation) {
delete(v.ReadAllocs, alloc.ID)
delete(v.WriteAllocs, alloc.ID)
delete(v.PastAllocs, alloc.ID)
}
// Equality by value
func (v *CSIVolume) Equal(o *CSIVolume) bool {
if v == nil || o == nil {
return v == o
}
// Omit the plugin health fields, their values are controlled by plugin jobs
if v.ID == o.ID &&
v.Namespace == o.Namespace &&
v.AccessMode == o.AccessMode &&
v.AttachmentMode == o.AttachmentMode &&
v.PluginID == o.PluginID {
// Setwise equality of topologies
var ok bool
for _, t := range v.Topologies {
ok = false
for _, u := range o.Topologies {
if t.Equal(u) {
ok = true
break
}
}
if !ok {
return false
}
}
return true
}
return false
}
// Validate validates the volume struct, returning all validation errors at once
func (v *CSIVolume) Validate() error {
errs := []string{}
if v.ID == "" {
errs = append(errs, "missing volume id")
}
if v.PluginID == "" {
errs = append(errs, "missing plugin id")
}
if v.Namespace == "" {
errs = append(errs, "missing namespace")
}
if v.AccessMode == "" {
errs = append(errs, "missing access mode")
}
if v.AttachmentMode == "" {
errs = append(errs, "missing attachment mode")
}
var ok bool
for _, t := range v.Topologies {
if t != nil && len(t.Segments) > 0 {
ok = true
break
}
}
if !ok {
errs = append(errs, "missing topology")
}
if len(errs) > 0 {
return fmt.Errorf("validation: %s", strings.Join(errs, ", "))
}
return nil
}
// Request and response wrappers
type CSIVolumeRegisterRequest struct {
Volumes []*CSIVolume
WriteRequest
}
type CSIVolumeRegisterResponse struct {
QueryMeta
}
type CSIVolumeDeregisterRequest struct {
VolumeIDs []string
WriteRequest
}
type CSIVolumeDeregisterResponse struct {
QueryMeta
}
type CSIVolumeClaimMode int
const (
CSIVolumeClaimRead CSIVolumeClaimMode = iota
CSIVolumeClaimWrite
CSIVolumeClaimRelease
)
type CSIVolumeClaimRequest struct {
VolumeID string
Allocation *Allocation
Claim CSIVolumeClaimMode
WriteRequest
}
type CSIVolumeClaimResponse struct {
QueryMeta
}
type CSIVolumeListRequest struct {
PluginID string
QueryOptions
}
type CSIVolumeListResponse struct {
Volumes []*CSIVolListStub
QueryMeta
}
type CSIVolumeGetRequest struct {
ID string
QueryOptions
}
type CSIVolumeGetResponse struct {
Volume *CSIVolume
QueryMeta
}
// CSIPlugin bundles job and info context for the plugin for clients
type CSIPlugin struct {
ID string
Type CSIPluginType
// Jobs is updated by UpsertJob, and keeps an index of jobs containing node or
// controller tasks for this plugin. It is addressed by [job.Namespace][job.ID]
Jobs map[string]map[string]*Job
ControllerRequired bool
ControllersHealthy int
Controllers map[string]*CSIInfo
NodesHealthy int
Nodes map[string]*CSIInfo
CreateIndex uint64
ModifyIndex uint64
}
// NewCSIPlugin creates the plugin struct. No side-effects
func NewCSIPlugin(id string, index uint64) *CSIPlugin {
out := &CSIPlugin{
ID: id,
CreateIndex: index,
ModifyIndex: index,
}
out.newStructs()
return out
}
func (p *CSIPlugin) newStructs() {
p.Jobs = map[string]map[string]*Job{}
p.Controllers = map[string]*CSIInfo{}
p.Nodes = map[string]*CSIInfo{}
}
func (p *CSIPlugin) Copy() *CSIPlugin {
copy := *p
out := &copy
out.newStructs()
for ns, js := range p.Jobs {
out.Jobs[ns] = map[string]*Job{}
for jid, j := range js {
out.Jobs[ns][jid] = j
}
}
for k, v := range p.Controllers {
out.Controllers[k] = v
}
for k, v := range p.Nodes {
out.Nodes[k] = v
}
return out
}
// AddJob adds a job entry to the plugin
func (p *CSIPlugin) AddJob(job *Job) {
if _, ok := p.Jobs[job.Namespace]; !ok {
p.Jobs[job.Namespace] = map[string]*Job{}
}
p.Jobs[job.Namespace][job.ID] = nil
}
func (p *CSIPlugin) DeleteJob(job *Job) {
delete(p.Jobs[job.Namespace], job.ID)
}
// AddPlugin adds a single plugin running on the node. Called from state.NodeUpdate in a
// transaction
func (p *CSIPlugin) AddPlugin(nodeID string, info *CSIInfo) {
if info.ControllerInfo != nil {
prev, ok := p.Controllers[nodeID]
if ok && prev.Healthy {
p.ControllersHealthy -= 1
}
p.Controllers[nodeID] = info
if info.Healthy {
p.ControllersHealthy += 1
}
}
if info.NodeInfo != nil {
prev, ok := p.Nodes[nodeID]
if ok && prev.Healthy {
p.NodesHealthy -= 1
}
p.Nodes[nodeID] = info
if info.Healthy {
p.NodesHealthy += 1
}
}
}
// DeleteNode removes all plugins from the node. Called from state.DeleteNode in a
// transaction
func (p *CSIPlugin) DeleteNode(nodeID string) {
prev, ok := p.Controllers[nodeID]
if ok && prev.Healthy {
p.ControllersHealthy -= 1
}
delete(p.Controllers, nodeID)
prev, ok = p.Nodes[nodeID]
if ok && prev.Healthy {
p.NodesHealthy -= 1
}
delete(p.Nodes, nodeID)
}
type CSIPluginListStub struct {
ID string
Type CSIPluginType
JobIDs map[string]map[string]struct{}
ControllersHealthy int
ControllersExpected int
NodesHealthy int
NodesExpected int
CreateIndex uint64
ModifyIndex uint64
}
func (p *CSIPlugin) Stub() *CSIPluginListStub {
ids := map[string]map[string]struct{}{}
for ns, js := range p.Jobs {
ids[ns] = map[string]struct{}{}
for id := range js {
ids[ns][id] = struct{}{}
}
}
return &CSIPluginListStub{
ID: p.ID,
Type: p.Type,
JobIDs: ids,
ControllersHealthy: p.ControllersHealthy,
ControllersExpected: len(p.Controllers),
NodesHealthy: p.NodesHealthy,
NodesExpected: len(p.Nodes),
CreateIndex: p.CreateIndex,
ModifyIndex: p.ModifyIndex,
}
}
func (p *CSIPlugin) IsEmpty() bool {
if !(len(p.Controllers) == 0 && len(p.Nodes) == 0) {
return false
}
empty := true
for _, m := range p.Jobs {
if len(m) > 0 {
empty = false
}
}
return empty
}
type CSIPluginListRequest struct {
QueryOptions
}
type CSIPluginListResponse struct {
Plugins []*CSIPluginListStub
QueryMeta
}
type CSIPluginGetRequest struct {
ID string
QueryOptions
}
type CSIPluginGetResponse struct {
Plugin *CSIPlugin
QueryMeta
}