nvidia-container-toolkit/internal/config/image/cuda_image.go

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/**
# Copyright (c) 2022, 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 image
import (
"fmt"
"path/filepath"
"strconv"
"strings"
"github.com/opencontainers/runtime-spec/specs-go"
"golang.org/x/mod/semver"
"tags.cncf.io/container-device-interface/pkg/parser"
)
const (
DeviceListAsVolumeMountsRoot = "/var/run/nvidia-container-devices"
volumeMountDevicePrefixCDI = "cdi/"
volumeMountDevicePrefixImex = "imex/"
)
// CUDA represents a CUDA image that can be used for GPU computing. This wraps
// a map of environment variable to values that can be used to perform lookups
// such as requirements.
type CUDA struct {
env map[string]string
mounts []specs.Mount
}
// NewCUDAImageFromSpec creates a CUDA image from the input OCI runtime spec.
// The process environment is read (if present) to construc the CUDA Image.
func NewCUDAImageFromSpec(spec *specs.Spec) (CUDA, error) {
var env []string
if spec != nil && spec.Process != nil {
env = spec.Process.Env
}
return New(
WithEnv(env),
WithMounts(spec.Mounts),
)
}
// NewCUDAImageFromEnv creates a CUDA image from the input environment. The environment
// is a list of strings of the form ENVAR=VALUE.
func NewCUDAImageFromEnv(env []string) (CUDA, error) {
return New(WithEnv(env))
}
// Getenv returns the value of the specified environment variable.
// If the environment variable is not specified, an empty string is returned.
func (i CUDA) Getenv(key string) string {
return i.env[key]
}
// HasEnvvar checks whether the specified envvar is defined in the image.
func (i CUDA) HasEnvvar(key string) bool {
_, exists := i.env[key]
return exists
}
// IsLegacy returns whether the associated CUDA image is a "legacy" image. An
// image is considered legacy if it has a CUDA_VERSION environment variable defined
// and no NVIDIA_REQUIRE_CUDA environment variable defined.
func (i CUDA) IsLegacy() bool {
legacyCudaVersion := i.env[EnvVarCudaVersion]
cudaRequire := i.env[EnvVarNvidiaRequireCuda]
return len(legacyCudaVersion) > 0 && len(cudaRequire) == 0
}
// GetRequirements returns the requirements from all NVIDIA_REQUIRE_ environment
// variables.
func (i CUDA) GetRequirements() ([]string, error) {
if i.HasDisableRequire() {
return nil, nil
}
// All variables with the "NVIDIA_REQUIRE_" prefix are passed to nvidia-container-cli
var requirements []string
for name, value := range i.env {
if strings.HasPrefix(name, NvidiaRequirePrefix) && !strings.HasPrefix(name, EnvVarNvidiaRequireJetpack) {
requirements = append(requirements, value)
}
}
if i.IsLegacy() {
v, err := i.legacyVersion()
if err != nil {
return nil, fmt.Errorf("failed to get version: %v", err)
}
cudaRequire := fmt.Sprintf("cuda>=%s", v)
requirements = append(requirements, cudaRequire)
}
return requirements, nil
}
// HasDisableRequire checks for the value of the NVIDIA_DISABLE_REQUIRE. If set
// to a valid (true) boolean value this can be used to disable the requirement checks
func (i CUDA) HasDisableRequire() bool {
if disable, exists := i.env[EnvVarNvidiaDisableRequire]; exists {
// i.logger.Debugf("NVIDIA_DISABLE_REQUIRE=%v; skipping requirement checks", disable)
d, _ := strconv.ParseBool(disable)
return d
}
return false
}
// DevicesFromEnvvars returns the devices requested by the image through environment variables
func (i CUDA) DevicesFromEnvvars(envVars ...string) VisibleDevices {
// We concantenate all the devices from the specified env.
var isSet bool
var devices []string
requested := make(map[string]bool)
for _, envVar := range envVars {
if devs, ok := i.env[envVar]; ok {
isSet = true
for _, d := range strings.Split(devs, ",") {
trimmed := strings.TrimSpace(d)
if len(trimmed) == 0 {
continue
}
devices = append(devices, trimmed)
requested[trimmed] = true
}
}
}
// Environment variable unset with legacy image: default to "all".
if !isSet && len(devices) == 0 && i.IsLegacy() {
return NewVisibleDevices("all")
}
// Environment variable unset or empty or "void": return nil
if len(devices) == 0 || requested["void"] {
return NewVisibleDevices("void")
}
return NewVisibleDevices(devices...)
}
// GetDriverCapabilities returns the requested driver capabilities.
func (i CUDA) GetDriverCapabilities() DriverCapabilities {
env := i.env[EnvVarNvidiaDriverCapabilities]
capabilities := make(DriverCapabilities)
for _, c := range strings.Split(env, ",") {
capabilities[DriverCapability(c)] = true
}
return capabilities
}
func (i CUDA) legacyVersion() (string, error) {
cudaVersion := i.env[EnvVarCudaVersion]
majorMinor, err := parseMajorMinorVersion(cudaVersion)
if err != nil {
return "", fmt.Errorf("invalid CUDA version %v: %v", cudaVersion, err)
}
return majorMinor, nil
}
func parseMajorMinorVersion(version string) (string, error) {
vVersion := "v" + strings.TrimPrefix(version, "v")
if !semver.IsValid(vVersion) {
return "", fmt.Errorf("invalid version string")
}
majorMinor := strings.TrimPrefix(semver.MajorMinor(vVersion), "v")
parts := strings.Split(majorMinor, ".")
var err error
_, err = strconv.ParseUint(parts[0], 10, 32)
if err != nil {
return "", fmt.Errorf("invalid major version")
}
_, err = strconv.ParseUint(parts[1], 10, 32)
if err != nil {
return "", fmt.Errorf("invalid minor version")
}
return majorMinor, nil
}
// OnlyFullyQualifiedCDIDevices returns true if all devices requested in the image are requested as CDI devices/
func (i CUDA) OnlyFullyQualifiedCDIDevices() bool {
var hasCDIdevice bool
for _, device := range i.VisibleDevicesFromEnvVar() {
if !parser.IsQualifiedName(device) {
return false
}
hasCDIdevice = true
}
for _, device := range i.DevicesFromMounts() {
if !strings.HasPrefix(device, "cdi/") {
return false
}
hasCDIdevice = true
}
return hasCDIdevice
}
// VisibleDevicesFromEnvVar returns the set of visible devices requested through
// the NVIDIA_VISIBLE_DEVICES environment variable.
func (i CUDA) VisibleDevicesFromEnvVar() []string {
return i.DevicesFromEnvvars(EnvVarNvidiaVisibleDevices).List()
}
// VisibleDevicesFromMounts returns the set of visible devices requested as mounts.
func (i CUDA) VisibleDevicesFromMounts() []string {
var devices []string
for _, device := range i.DevicesFromMounts() {
switch {
case strings.HasPrefix(device, volumeMountDevicePrefixCDI):
continue
case strings.HasPrefix(device, volumeMountDevicePrefixImex):
continue
}
devices = append(devices, device)
}
return devices
}
// DevicesFromMounts returns a list of device specified as mounts.
// TODO: This should be merged with getDevicesFromMounts used in the NVIDIA Container Runtime
func (i CUDA) DevicesFromMounts() []string {
root := filepath.Clean(DeviceListAsVolumeMountsRoot)
seen := make(map[string]bool)
var devices []string
for _, m := range i.mounts {
source := filepath.Clean(m.Source)
// Only consider mounts who's host volume is /dev/null
if source != "/dev/null" {
continue
}
destination := filepath.Clean(m.Destination)
if seen[destination] {
continue
}
seen[destination] = true
// Only consider container mount points that begin with 'root'
if !strings.HasPrefix(destination, root) {
continue
}
// Grab the full path beyond 'root' and add it to the list of devices
device := strings.Trim(strings.TrimPrefix(destination, root), "/")
if len(device) == 0 {
continue
}
devices = append(devices, device)
}
return devices
}
// CDIDevicesFromMounts returns a list of CDI devices specified as mounts on the image.
func (i CUDA) CDIDevicesFromMounts() []string {
var devices []string
for _, mountDevice := range i.DevicesFromMounts() {
if !strings.HasPrefix(mountDevice, volumeMountDevicePrefixCDI) {
continue
}
parts := strings.SplitN(strings.TrimPrefix(mountDevice, volumeMountDevicePrefixCDI), "/", 3)
if len(parts) != 3 {
continue
}
vendor := parts[0]
class := parts[1]
device := parts[2]
devices = append(devices, fmt.Sprintf("%s/%s=%s", vendor, class, device))
}
return devices
}
// ImexChannelsFromEnvVar returns the list of IMEX channels requested for the image.
func (i CUDA) ImexChannelsFromEnvVar() []string {
return i.DevicesFromEnvvars(EnvVarNvidiaImexChannels).List()
}
// ImexChannelsFromMounts returns the list of IMEX channels requested for the image.
func (i CUDA) ImexChannelsFromMounts() []string {
var channels []string
for _, mountDevice := range i.DevicesFromMounts() {
if !strings.HasPrefix(mountDevice, volumeMountDevicePrefixImex) {
continue
}
channels = append(channels, strings.TrimPrefix(mountDevice, volumeMountDevicePrefixImex))
}
return channels
}