open-nomad/nomad/structs/node.go

275 lines
7.9 KiB
Go

package structs
import (
"reflect"
"time"
"github.com/hashicorp/nomad/helper"
)
// CSITopology is a map of topological domains to topological segments.
// A topological domain is a sub-division of a cluster, like "region",
// "zone", "rack", etc.
//
// According to CSI, there are a few requirements for the keys within this map:
// - Valid keys have two segments: an OPTIONAL prefix and name, separated
// by a slash (/), for example: "com.company.example/zone".
// - The key name segment is REQUIRED. The prefix is OPTIONAL.
// - The key name MUST be 63 characters or less, begin and end with an
// alphanumeric character ([a-z0-9A-Z]), and contain only dashes (-),
// underscores (_), dots (.), or alphanumerics in between, for example
// "zone".
// - The key prefix MUST be 63 characters or less, begin and end with a
// lower-case alphanumeric character ([a-z0-9]), contain only
// dashes (-), dots (.), or lower-case alphanumerics in between, and
// follow domain name notation format
// (https://tools.ietf.org/html/rfc1035#section-2.3.1).
// - The key prefix SHOULD include the plugin's host company name and/or
// the plugin name, to minimize the possibility of collisions with keys
// from other plugins.
// - If a key prefix is specified, it MUST be identical across all
// topology keys returned by the SP (across all RPCs).
// - Keys MUST be case-insensitive. Meaning the keys "Zone" and "zone"
// MUST not both exist.
// - Each value (topological segment) MUST contain 1 or more strings.
// - Each string MUST be 63 characters or less and begin and end with an
// alphanumeric character with '-', '_', '.', or alphanumerics in
// between.
//
// However, Nomad applies lighter restrictions to these, as they are already
// only referenced by plugin within the scheduler and as such collisions and
// related concerns are less of an issue. We may implement these restrictions
// in the future.
type CSITopology struct {
Segments map[string]string
}
func (t *CSITopology) Copy() *CSITopology {
if t == nil {
return nil
}
return &CSITopology{
Segments: helper.CopyMapStringString(t.Segments),
}
}
func (t *CSITopology) Equal(o *CSITopology) bool {
if t == nil || o == nil {
return t == o
}
return helper.CompareMapStringString(t.Segments, o.Segments)
}
// CSINodeInfo is the fingerprinted data from a CSI Plugin that is specific to
// the Node API.
type CSINodeInfo struct {
// ID is the identity of a given nomad client as observed by the storage
// provider.
ID string
// MaxVolumes is the maximum number of volumes that can be attached to the
// current host via this provider.
// If 0 then unlimited volumes may be attached.
MaxVolumes int64
// AccessibleTopology specifies where (regions, zones, racks, etc.) the node is
// accessible from within the storage provider.
//
// A plugin that returns this field MUST also set the `RequiresTopologies`
// property.
//
// This field is OPTIONAL. If it is not specified, then we assume that the
// the node is not subject to any topological constraint, and MAY
// schedule workloads that reference any volume V, such that there are
// no topological constraints declared for V.
//
// Example 1:
// accessible_topology =
// {"region": "R1", "zone": "Z2"}
// Indicates the node exists within the "region" "R1" and the "zone"
// "Z2" within the storage provider.
AccessibleTopology *CSITopology
// RequiresNodeStageVolume indicates whether the client should Stage/Unstage
// volumes on this node.
RequiresNodeStageVolume bool
}
func (n *CSINodeInfo) Copy() *CSINodeInfo {
if n == nil {
return nil
}
nc := new(CSINodeInfo)
*nc = *n
nc.AccessibleTopology = n.AccessibleTopology.Copy()
return nc
}
// CSIControllerInfo is the fingerprinted data from a CSI Plugin that is specific to
// the Controller API.
type CSIControllerInfo struct {
// SupportsReadOnlyAttach is set to true when the controller returns the
// ATTACH_READONLY capability.
SupportsReadOnlyAttach bool
// SupportsPublishVolume is true when the controller implements the methods
// required to attach and detach volumes. If this is false Nomad should skip
// the controller attachment flow.
SupportsAttachDetach bool
// SupportsListVolums is true when the controller implements the ListVolumes
// RPC. NOTE: This does not guaruntee that attached nodes will be returned
// unless SupportsListVolumesAttachedNodes is also true.
SupportsListVolumes bool
// SupportsListVolumesAttachedNodes indicates whether the plugin will return
// attached nodes data when making ListVolume RPCs
SupportsListVolumesAttachedNodes bool
}
func (c *CSIControllerInfo) Copy() *CSIControllerInfo {
if c == nil {
return nil
}
nc := new(CSIControllerInfo)
*nc = *c
return nc
}
// CSIInfo is the current state of a single CSI Plugin. This is updated regularly
// as plugin health changes on the node.
type CSIInfo struct {
PluginID string
AllocID string
Healthy bool
HealthDescription string
UpdateTime time.Time
Provider string // vendor name from CSI GetPluginInfoResponse
ProviderVersion string // vendor version from CSI GetPluginInfoResponse
// RequiresControllerPlugin is set when the CSI Plugin returns the
// CONTROLLER_SERVICE capability. When this is true, the volumes should not be
// scheduled on this client until a matching controller plugin is available.
RequiresControllerPlugin bool
// RequiresTopologies is set when the CSI Plugin returns the
// VOLUME_ACCESSIBLE_CONSTRAINTS capability. When this is true, we must
// respect the Volume and Node Topology information.
RequiresTopologies bool
// CSI Specific metadata
ControllerInfo *CSIControllerInfo `json:",omitempty"`
NodeInfo *CSINodeInfo `json:",omitempty"`
}
func (c *CSIInfo) Copy() *CSIInfo {
if c == nil {
return nil
}
nc := new(CSIInfo)
*nc = *c
nc.ControllerInfo = c.ControllerInfo.Copy()
nc.NodeInfo = c.NodeInfo.Copy()
return nc
}
func (c *CSIInfo) SetHealthy(hs bool) {
c.Healthy = hs
if hs {
c.HealthDescription = "healthy"
} else {
c.HealthDescription = "unhealthy"
}
}
func (c *CSIInfo) Equal(o *CSIInfo) bool {
if c == nil && o == nil {
return c == o
}
nc := *c
nc.UpdateTime = time.Time{}
no := *o
no.UpdateTime = time.Time{}
return reflect.DeepEqual(nc, no)
}
func (c *CSIInfo) IsController() bool {
if c == nil || c.ControllerInfo == nil {
return false
}
return true
}
func (c *CSIInfo) IsNode() bool {
if c == nil || c.NodeInfo == nil {
return false
}
return true
}
// DriverInfo is the current state of a single driver. This is updated
// regularly as driver health changes on the node.
type DriverInfo struct {
Attributes map[string]string
Detected bool
Healthy bool
HealthDescription string
UpdateTime time.Time
}
func (di *DriverInfo) Copy() *DriverInfo {
if di == nil {
return nil
}
cdi := new(DriverInfo)
*cdi = *di
cdi.Attributes = helper.CopyMapStringString(di.Attributes)
return cdi
}
// MergeHealthCheck merges information from a health check for a drier into a
// node's driver info
func (di *DriverInfo) MergeHealthCheck(other *DriverInfo) {
di.Healthy = other.Healthy
di.HealthDescription = other.HealthDescription
di.UpdateTime = other.UpdateTime
}
// MergeFingerprint merges information from fingerprinting a node for a driver
// into a node's driver info for that driver.
func (di *DriverInfo) MergeFingerprintInfo(other *DriverInfo) {
di.Detected = other.Detected
di.Attributes = other.Attributes
}
// DriverInfo determines if two driver info objects are equal..As this is used
// in the process of health checking, we only check the fields that are
// computed by the health checker. In the future, this will be merged.
func (di *DriverInfo) HealthCheckEquals(other *DriverInfo) bool {
if di == nil && other == nil {
return true
}
if di.Healthy != other.Healthy {
return false
}
if di.HealthDescription != other.HealthDescription {
return false
}
return true
}