nvidia-container-toolkit/internal/discover/discover_nvml.go
Evan Lezar 7c5b913e09 Move pkg/* to internal/*
Signed-off-by: Evan Lezar <elezar@nvidia.com>
2021-10-18 14:36:10 +02:00

425 lines
12 KiB
Go

/*
# Copyright (c) 2021, NVIDIA CORPORATION. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
*/
package discover
import (
"fmt"
"path/filepath"
"strings"
"github.com/NVIDIA/nvidia-container-toolkit/internal/nvml"
"github.com/NVIDIA/nvidia-container-toolkit/internal/proc"
log "github.com/sirupsen/logrus"
)
const (
// ControlDeviceUUID is used as the UUID for control devices such as nvidiactl or nvidia-modeset
ControlDeviceUUID = "CONTROL"
// MIGConfigDeviceUUID is used to indicate the MIG config control device
MIGConfigDeviceUUID = "CONFIG"
// MIGMonitorDeviceUUID is used to indicate the MIG monitor control device
MIGMonitorDeviceUUID = "MONITOR"
nvidiaGPUDeviceName = "nvidia-frontend"
nvidiaCapsDeviceName = "nvidia-caps"
nvidiaUVMDeviceName = "nvidia-uvm"
)
type nvmlDiscover struct {
None
logger *log.Logger
nvml nvml.Interface
migCaps map[ProcPath]DeviceNode
nvidiaDevices proc.NvidiaDevices
}
var _ Discover = (*nvmlDiscover)(nil)
// NewNVMLDiscover constructs a discoverer that uses NVML to find the devices
// available on a system.
func NewNVMLDiscover(nvml nvml.Interface) (Discover, error) {
return NewNVMLDiscoverWithLogger(log.StandardLogger(), nvml)
}
// NewNVMLDiscoverWithLogger constructs a discovered as with NewNVMLDiscover with the specified
// logger
func NewNVMLDiscoverWithLogger(logger *log.Logger, nvml nvml.Interface) (Discover, error) {
nvidiaDevices, err := proc.GetNvidiaDevices()
if err != nil {
return nil, fmt.Errorf("error loading NVIDIA devices: %v", err)
}
var migCaps map[ProcPath]DeviceNode
nvcapsDevice, exists := nvidiaDevices.Get(nvidiaCapsDeviceName)
if !exists {
logger.Warnf("%v nvcaps device could not be found", nvidiaCapsDeviceName)
} else if migCaps, err = getMigCaps(nvcapsDevice.Major); err != nil {
logger.Warnf("Could not load MIG capability devices: %v", err)
migCaps = nil
}
discover := &nvmlDiscover{
logger: logger,
nvml: nvml,
migCaps: migCaps,
nvidiaDevices: nvidiaDevices,
}
return discover, nil
}
// hasMigSupport checks if MIG device discovery is supported.
// Cases where this will be disabled include where no MIG minors file is
// present.
func (d nvmlDiscover) hasMigSupport() bool {
return len(d.migCaps) > 0
}
func (d *nvmlDiscover) Devices() ([]Device, error) {
ret := d.nvml.Init()
if ret.Value() != nvml.SUCCESS {
return nil, fmt.Errorf("error initalizing NVML: %v", ret.Error())
}
defer d.tryShutdownNVML()
c, ret := d.nvml.DeviceGetCount()
if ret.Value() != nvml.SUCCESS {
return nil, fmt.Errorf("error getting device count: %v", ret.Error())
}
var handles []nvml.Device
for i := 0; i < c; i++ {
handle, ret := d.nvml.DeviceGetHandleByIndex(i)
if ret.Value() != nvml.SUCCESS {
return nil, fmt.Errorf("error getting device handle for device %v: %v", i, ret.Error())
}
if !d.hasMigSupport() {
handles = append(handles, handle)
continue
}
migHandles, err := getMIGHandlesForDevice(handle)
if err != nil {
return nil, fmt.Errorf("error getting MIG handles for device: %v", err)
}
if len(migHandles) == 0 {
handles = append(handles, handle)
}
handles = append(handles, migHandles...)
}
return d.devicesByHandle(handles)
}
func (d *nvmlDiscover) devicesByHandle(handles []nvml.Device) ([]Device, error) {
var devices []Device
var largestMinorNumber int
for _, h := range handles {
device, err := d.deviceFromNVMLHandle(h)
if err != nil {
return nil, fmt.Errorf("error constructing device from handle %v: %v", h, err)
}
devices = append(devices, device)
if largestMinorNumber < device.DeviceNodes[0].Minor {
largestMinorNumber = device.DeviceNodes[0].Minor
}
}
controlDevices, err := d.getControlDevices()
if err != nil {
return nil, fmt.Errorf("error getting control devices: %v", err)
}
devices = append(devices, controlDevices...)
if d.hasMigSupport() {
migControlDevices, err := d.getMigControlDevices(largestMinorNumber)
if err != nil {
return nil, fmt.Errorf("error getting MIG control devices: %v", err)
}
devices = append(devices, migControlDevices...)
}
return devices, nil
}
func (d *nvmlDiscover) deviceFromNVMLHandle(handle nvml.Device) (Device, error) {
if d.hasMigSupport() {
isMigDevice, ret := handle.IsMigDeviceHandle()
if ret.Value() != nvml.SUCCESS {
return Device{}, fmt.Errorf("error checking device handle: %v", ret.Error())
}
if isMigDevice {
return d.deviceFromMIGDeviceHandle(handle)
}
}
return d.deviceFromFullDeviceHandle(handle)
}
func (d *nvmlDiscover) deviceFromFullDeviceHandle(handle nvml.Device) (Device, error) {
index, ret := handle.GetIndex()
if ret.Value() != nvml.SUCCESS {
return Device{}, fmt.Errorf("error getting device index: %v", ret.Error())
}
uuid, ret := handle.GetUUID()
if ret.Value() != nvml.SUCCESS {
return Device{}, fmt.Errorf("error getting device UUID: %v", ret.Error())
}
pciInfo, ret := handle.GetPciInfo()
if ret.Value() != nvml.SUCCESS {
return Device{}, fmt.Errorf("error getting PCI info: %v", ret.Error())
}
busID := NewPCIBusID(pciInfo)
minor, ret := handle.GetMinorNumber()
if ret.Value() != nvml.SUCCESS {
return Device{}, fmt.Errorf("error getting minor number: %v", ret.Error())
}
nvidiaGPUDevice, exists := d.nvidiaDevices.Get(nvidiaGPUDeviceName)
if !exists {
return Device{}, fmt.Errorf("device for '%v' does not exist", nvidiaGPUDeviceName)
}
deviceNode := DeviceNode{
Path: DevicePath(fmt.Sprintf("/dev/nvidia%d", minor)),
Major: nvidiaGPUDevice.Major,
Minor: minor,
}
device := Device{
Index: fmt.Sprintf("%d", index),
PCIBusID: busID,
UUID: uuid,
DeviceNodes: []DeviceNode{deviceNode},
ProcPaths: []ProcPath{busID.GetProcPath()},
}
return device, nil
}
func (d *nvmlDiscover) deviceFromMIGDeviceHandle(handle nvml.Device) (Device, error) {
parent, ret := handle.GetDeviceHandleFromMigDeviceHandle()
if ret.Value() != nvml.SUCCESS {
return Device{}, fmt.Errorf("error getting parent device handle: %v", ret.Error())
}
gpu, ret := parent.GetMinorNumber()
if ret.Value() != nvml.SUCCESS {
return Device{}, fmt.Errorf("error getting GPU minor number: %v", ret.Error())
}
parentDevice, err := d.deviceFromFullDeviceHandle(parent)
if err != nil {
return Device{}, fmt.Errorf("error getting parent device: %v", err)
}
index, ret := handle.GetIndex()
if ret.Value() != nvml.SUCCESS {
return Device{}, fmt.Errorf("error getting device index: %v", ret.Error())
}
uuid, ret := handle.GetUUID()
if ret.Value() != nvml.SUCCESS {
return Device{}, fmt.Errorf("error getting device UUID: %v", ret.Error())
}
capDeviceNodes := []DeviceNode{}
procPaths, err := getProcPathsForMigDevice(gpu, handle)
if err != nil {
return Device{}, fmt.Errorf("error getting proc paths for MIG device: %v", err)
}
for _, p := range procPaths {
capDeviceNode, ok := d.migCaps[p]
if !ok {
return Device{}, fmt.Errorf("could not determine cap device path for %v", p)
}
capDeviceNodes = append(capDeviceNodes, capDeviceNode)
}
device := Device{
Index: fmt.Sprintf("%s:%d", parentDevice.Index, index),
UUID: uuid,
DeviceNodes: append(parentDevice.DeviceNodes, capDeviceNodes...),
ProcPaths: append(parentDevice.ProcPaths, procPaths...),
}
return device, nil
}
func (d *nvmlDiscover) getControlDevices() ([]Device, error) {
devices := []struct {
name string
path string
minor int
}{
// TODO: Where is the best place to find these device Minors programatically?
{nvidiaGPUDeviceName, "/dev/nvidia-modeset", 254},
{nvidiaGPUDeviceName, "/dev/nvidiactl", 255},
{nvidiaUVMDeviceName, "/dev/nvidia-uvm", 0},
{nvidiaUVMDeviceName, "/dev/nvidia-uvm-tools", 1},
}
var controlDevices []Device
for _, info := range devices {
device, exists := d.nvidiaDevices.Get(info.name)
if !exists {
d.logger.Warnf("device name %v not defined; skipping control devices %v", info.name, info.path)
continue
}
deviceNode := DeviceNode{
Path: DevicePath(info.path),
Major: device.Major,
Minor: info.minor,
}
controlDevices = append(controlDevices, Device{
UUID: ControlDeviceUUID,
DeviceNodes: []DeviceNode{deviceNode},
ProcPaths: []ProcPath{},
})
}
return controlDevices, nil
}
func (d *nvmlDiscover) getMigControlDevices(numGpus int) ([]Device, error) {
targets := map[string]ProcPath{
MIGConfigDeviceUUID: ProcPath("/proc/driver/nvidia/capabilities/mig/config"),
MIGMonitorDeviceUUID: ProcPath("/proc/driver/nvidia/capabilities/mig/monitor"),
}
var devices []Device
for id, procPath := range targets {
deviceNode, exists := d.migCaps[procPath]
if !exists {
return nil, fmt.Errorf("device node for '%v' is undefined", procPath)
}
var procPaths []ProcPath
for gpu := 0; gpu <= numGpus; gpu++ {
procPaths = append(procPaths, ProcPath(fmt.Sprintf("/proc/driver/nvidia/capabilities/gpu%d/mig", gpu)))
}
procPaths = append(procPaths, procPath)
devices = append(devices, Device{
UUID: id,
DeviceNodes: []DeviceNode{deviceNode},
ProcPaths: procPaths,
})
}
return devices, nil
}
func getProcPathsForMigDevice(gpu int, handle nvml.Device) ([]ProcPath, error) {
gi, ret := handle.GetGPUInstanceId()
if ret.Value() != nvml.SUCCESS {
return nil, fmt.Errorf("error getting GPU instance ID: %v", ret.Error())
}
ci, ret := handle.GetComputeInstanceId()
if ret.Value() != nvml.SUCCESS {
return nil, fmt.Errorf("error getting comput instance ID: %v", ret.Error())
}
procPaths := []ProcPath{
ProcPath(fmt.Sprintf("/proc/driver/nvidia/capabilities/gpu%d/mig/gi%d/access", gpu, gi)),
ProcPath(fmt.Sprintf("/proc/driver/nvidia/capabilities/gpu%d/mig/gi%d/ci%d/access", gpu, gi, ci)),
}
return procPaths, nil
}
func getMIGHandlesForDevice(handle nvml.Device) ([]nvml.Device, error) {
currentMigMode, _, ret := handle.GetMigMode()
if ret.Value() == nvml.ERROR_NOT_SUPPORTED {
return nil, nil
}
if ret.Value() != nvml.SUCCESS {
return nil, fmt.Errorf("error getting MIG mode for device: %v", ret.Error())
}
if currentMigMode == nvml.DEVICE_MIG_DISABLE {
return nil, nil
}
maxMigDeviceCount, ret := handle.GetMaxMigDeviceCount()
if ret.Value() != nvml.SUCCESS {
return nil, fmt.Errorf("error getting number of MIG devices: %v", ret.Error())
}
var migHandles []nvml.Device
for mi := 0; mi < maxMigDeviceCount; mi++ {
migHandle, ret := handle.GetMigDeviceHandleByIndex(mi)
if ret.Value() == nvml.ERROR_NOT_FOUND {
continue
}
if ret.Value() != nvml.SUCCESS {
return nil, fmt.Errorf("error getting MIG device %v: %v", mi, ret.Error())
}
migHandles = append(migHandles, migHandle)
}
return migHandles, nil
}
func (d *nvmlDiscover) tryShutdownNVML() {
ret := d.nvml.Shutdown()
if ret.Value() != nvml.SUCCESS {
d.logger.Warnf("Could not shut down NVML: %v", ret.Error())
}
}
// NewPCIBusID provides a utility function that returns the string representation
// of the bus ID.
func NewPCIBusID(p nvml.PciInfo) PCIBusID {
var bytes []byte
for _, b := range p.BusId {
if byte(b) == '\x00' {
break
}
bytes = append(bytes, byte(b))
}
return PCIBusID(string(bytes))
}
// GetProcPath returns the path in /proc associated with the PCI bus ID
func (p PCIBusID) GetProcPath() ProcPath {
id := strings.ToLower(p.String())
if strings.HasPrefix(id, "0000") {
id = id[4:]
}
return ProcPath(filepath.Join("/proc/driver/nvidia/gpus", id))
}
func (p PCIBusID) String() string {
return string(p)
}