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 // 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{} } 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 := © out.newStructs() for k, v := range v.ReadAllocs { out.ReadAllocs[k] = v } for k, v := range v.WriteAllocs { out.WriteAllocs[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) 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) 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) return true } // 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") } // TODO: Volume Topologies are optional - We should check to see if the plugin // the volume is being registered with requires them. // 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 AllocationID string Claim CSIVolumeClaimMode WriteRequest } type CSIVolumeClaimResponse struct { // Opaque static publish properties of the volume. SP MAY use this // field to ensure subsequent `NodeStageVolume` or `NodePublishVolume` // calls calls have contextual information. // The contents of this field SHALL be opaque to nomad. // The contents of this field SHALL NOT be mutable. // The contents of this field SHALL be safe for the nomad to cache. // The contents of this field SHOULD NOT contain sensitive // information. // The contents of this field SHOULD NOT be used for uniquely // identifying a volume. The `volume_id` alone SHOULD be sufficient to // identify the volume. // This field is OPTIONAL and when present MUST be passed to // `NodeStageVolume` or `NodePublishVolume` calls on the client PublishContext map[string]string // Volume contains the expanded CSIVolume for use on the client after a Claim // has completed. Volume *CSIVolume 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 // map of client IDs to CSI Controllers NodesHealthy int Nodes map[string]*CSIInfo // map of client IDs to CSI Nodes 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 := © 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 }