open-nomad/plugins/device/device.go

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package device
import (
"context"
"fmt"
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"time"
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multierror "github.com/hashicorp/go-multierror"
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"github.com/hashicorp/nomad/plugins/base"
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"github.com/hashicorp/nomad/plugins/shared/structs"
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)
const (
// DeviceTypeGPU is a canonical device type for a GPU.
DeviceTypeGPU = "gpu"
)
// DevicePlugin is the interface for a plugin that can expose detected devices
// to Nomad and inform it how to mount them.
type DevicePlugin interface {
base.BasePlugin
// Fingerprint returns a stream of devices that are detected.
Fingerprint(ctx context.Context) (<-chan *FingerprintResponse, error)
// Reserve is used to reserve a set of devices and retrieve mount
// instructions.
Reserve(deviceIDs []string) (*ContainerReservation, error)
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// Stats returns a stream of statistics per device collected at the passed
// interval.
Stats(ctx context.Context, interval time.Duration) (<-chan *StatsResponse, error)
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}
// FingerprintResponse includes a set of detected devices or an error in the
// process of fingerprinting.
type FingerprintResponse struct {
// Devices is a set of devices that have been detected.
Devices []*DeviceGroup
// Error is populated when fingerprinting has failed.
Error error
}
// NewFingerprint takes a set of device groups and returns a fingerprint
// response
func NewFingerprint(devices ...*DeviceGroup) *FingerprintResponse {
return &FingerprintResponse{
Devices: devices,
}
}
// NewFingerprintError takes an error and returns a fingerprint response
func NewFingerprintError(err error) *FingerprintResponse {
return &FingerprintResponse{
Error: err,
}
}
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// DeviceGroup is a grouping of devices that share a common vendor, device type
// and name.
type DeviceGroup struct {
// Vendor is the vendor providing the device (nvidia, intel, etc).
Vendor string
// Type is the type of the device (gpu, fpga, etc).
Type string
// Name is the devices model name.
Name string
// Devices is the set of device instances.
Devices []*Device
// Attributes are a set of attributes shared for all the devices.
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Attributes map[string]*structs.Attribute
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}
// Validate validates that the device group is valid
func (d *DeviceGroup) Validate() error {
var mErr multierror.Error
if d.Vendor == "" {
multierror.Append(&mErr, fmt.Errorf("device vendor must be specified"))
}
if d.Type == "" {
multierror.Append(&mErr, fmt.Errorf("device type must be specified"))
}
if d.Name == "" {
multierror.Append(&mErr, fmt.Errorf("device name must be specified"))
}
for i, dev := range d.Devices {
if dev == nil {
multierror.Append(&mErr, fmt.Errorf("device %d is nil", i))
continue
}
if err := dev.Validate(); err != nil {
multierror.Append(&mErr, multierror.Prefix(err, fmt.Sprintf("device %d: ", i)))
}
}
for k, v := range d.Attributes {
if err := v.Validate(); err != nil {
multierror.Append(&mErr, fmt.Errorf("device attribute %q invalid: %v", k, err))
}
}
return mErr.ErrorOrNil()
}
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// Device is an instance of a particular device.
type Device struct {
// ID is the identifier for the device.
ID string
// Healthy marks whether the device is healthy and can be used for
// scheduling.
Healthy bool
// HealthDesc describes why the device may be unhealthy.
HealthDesc string
// HwLocality captures hardware locality information for the device.
HwLocality *DeviceLocality
}
// Validate validates that the device is valid
func (d *Device) Validate() error {
if d.ID == "" {
return fmt.Errorf("device ID must be specified")
}
return nil
}
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// DeviceLocality captures hardware locality information for a device.
type DeviceLocality struct {
// PciBusID is the PCI bus ID of the device.
PciBusID string
}
// ContainerReservation describes how to mount a device into a container. A
// container is an isolated environment that shares the host's OS.
type ContainerReservation struct {
// Envs are a set of environment variables to set for the task.
Envs map[string]string
// Mounts are used to mount host volumes into a container that may include
// libraries, etc.
Mounts []*Mount
// Devices are the set of devices to mount into the container.
Devices []*DeviceSpec
}
// Mount is used to mount a host directory into a container.
type Mount struct {
// TaskPath is the location in the task's file system to mount.
TaskPath string
// HostPath is the host directory path to mount.
HostPath string
// ReadOnly defines whether the mount should be read only to the task.
ReadOnly bool
}
// DeviceSpec captures how to mount a device into a container.
type DeviceSpec struct {
// TaskPath is the location to mount the device in the task's file system.
TaskPath string
// HostPath is the host location of the device.
HostPath string
// CgroupPerms defines the permissions to use when mounting the device.
CgroupPerms string
}
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// StatsResponse returns statistics for each device group.
type StatsResponse struct {
// Groups contains statistics for each device group.
Groups []*DeviceGroupStats
// Error is populated when collecting statistics has failed.
Error error
}
// NewStatsError takes an error and returns a stats response
func NewStatsError(err error) *StatsResponse {
return &StatsResponse{
Error: err,
}
}
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// DeviceGroupStats contains statistics for each device of a particular
// device group, identified by the vendor, type and name of the device.
type DeviceGroupStats struct {
Vendor string
Type string
Name string
// InstanceStats is a mapping of each device ID to its statistics.
InstanceStats map[string]*DeviceStats
}
// DeviceStats is the statistics for an individual device
type DeviceStats struct {
// Summary exposes a single summary metric that should be the most
// informative to users.
Summary *StatValue
// Stats contains the verbose statistics for the device.
Stats *StatObject
// Timestamp is the time the statistics were collected.
Timestamp time.Time
}
// StatObject is a collection of statistics either exposed at the top
// level or via nested StatObjects.
type StatObject struct {
// Nested is a mapping of object name to a nested stats object.
Nested map[string]*StatObject
// Attributes is a mapping of statistic name to its value.
Attributes map[string]*StatValue
}
// StatValue exposes the values of a particular statistic. The value may be of
// type float, integer, string or boolean. Numeric types can be exposed as a
// single value or as a fraction.
type StatValue struct {
// FloatNumeratorVal exposes a floating point value. If denominator is set
// it is assumed to be a fractional value, otherwise it is a scalar.
FloatNumeratorVal float64
FloatDenominatorVal float64
// IntNumeratorVal exposes a int value. If denominator is set it is assumed
// to be a fractional value, otherwise it is a scalar.
IntNumeratorVal int64
IntDenominatorVal int64
// StringVal exposes a string value. These are likely annotations.
StringVal string
// BoolVal exposes a boolean statistic.
BoolVal bool
// Unit gives the unit type: °F, %, MHz, MB, etc.
Unit string
// Desc provides a human readable description of the statistic.
Desc string
}