mirror of
https://github.com/NVIDIA/nvidia-container-toolkit
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171 lines
7.6 KiB
Markdown
171 lines
7.6 KiB
Markdown
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# The Experimental NVIDIA Container Runtime
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## Introduction
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The experimental NVIDIA Container Runtime is a proof-of-concept runtime that
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approaches the problem of making GPUs (or other NVIDIA devices) available in
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containerized environments in a different manner to the existing
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[NVIDIA Container Runtime](../nvidia-container-runtime). Wherease the current
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runtime relies on the [NVIDIA Container Library](https://github.com/NVIDIA/libnvidia-container)
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to perform the modifications to a container, the experiemental runtime aims to
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express the required modifications in terms of changes to a container's [OCI
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runtime specification](https://github.com/opencontainers/runtime-spec). This
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also aligns with open initiatives such as the [Container Device Interface (CDI)](https://github.com/container-orchestrated-devices/container-device-interface).
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## Known Limitations
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* The path of NVIDIA CUDA libraries / binaries injected into the container currently match that of the host system. This means that on an Ubuntu-based host systems these would be at `/usr/lib/x86_64-linux-gnu`
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even if the container distribution would normally expect these at another location (e.g. `/usr/lib64`)
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* Tools such as `nvidia-smi` may create additional device nodes in the container when run. This is
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prevented in the "classic" runtime (and the NVIDIA Container Library) by modifying
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the `/proc/driver/nvidia/params` file in the container.
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* Other `NVIDIA_*` environment variables (e.g. `NVIDIA_DRIVER_CAPABILITIES`) are
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not considered to filter mounted libraries or binaries. This is equivalent to
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always using `NVIDIA_DRIVER_CAPABILITIES=all`.
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## Building / Installing
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The experimental NVIDIA Container Runtime is a self-contained golang binary and
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can thus be built from source, or installed directly using `go install`.
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### From source
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After cloning the `nvidia-container-toolkit` repository from [GitLab](https://gitlab.com/nvidia/container-toolkit/container-toolkit)
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or from the read-only mirror on [GitHub](https://github.com/NVIDIA/nvidia-container-toolkit)
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running the following make command in the repository root:
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```bash
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make cmd-nvidia-container-runtime.experimental
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```
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will create an executable file `nvidia-container-runtime.experimental` in the
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root.
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A dockerized target:
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```bash
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make docker-cmd-nvidia-container-runtime.experimental
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```
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will also create the executable file `nvidia-container-runtime.experimental`
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without requiring the setup of a development environment (with the exception)
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of having `make` and `docker` installed.
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### Go install
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The experimental NVIDIA Container Runtime can also be `go installed` by running
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the following command:
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```bash
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go install github.com/NVIDIA/nvidia-container-toolkit/cmd/nvidia-container-runtime.experimental@experimental
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```
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which will build and install the `nvidia-container-runtime.experimental`
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executable in the `${GOPATH}/bin` folder.
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## Using the Runtime
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The experimental NVIDIA Container Runtime is intended as a drop-in replacement
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for the "classic" NVIDIA Container Runtime. As such it is used in the same
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way (with the exception of the known limitiations noted above).
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In general terms, to use the experimental NVIDIA Container Runtime to launch a
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container with GPU support, it should be inserted as a shim for the desired
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low-level OCI-compliant runtime (e.g. `runc` or `crun`). How this is achieved
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depends on how containers are being launched.
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### Docker
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In the case of `docker` for example, the runtime must be registered with the
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Docker daemon. This can be done by modifying the `/etc/docker/daemon.json` file
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to contain the following:
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```json
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{
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"runtimes": {
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"nvidia-experimental": {
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"path": "nvidia-container-runtime.experimental",
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"runtimeArgs": []
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}
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},
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}
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```
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This can then be invoked from docker by including the `--runtime=nvidia-experimental`
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option when executing a `docker run` command.
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### Runc
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If `runc` is being used to run a container directly substituting the `runc`
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command for `nvidia-container-runtime.experimental` should be sufficient as
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the latter will `exec` to `runc` once the required (in-place) modifications have
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been made to the container's OCI spec (`config.json` file).
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## Configuration
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### Runtime Path
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The experimental NVIDIA Container Runtime allows for the path to the low-level
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runtime to be specified. This is done by setting the following option in the
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`/etc/nvidia-container-runtime/config.toml` file or setting the
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`NVIDIA_CONTAINER_RUNTIME_PATH` environment variable.
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```toml
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[nvidia-container-runtime.experimental]
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runtime-path = "/path/to/low-level-runtime"
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```
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This path can be set to the path for `runc` or `crun` on a system and if it is
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a relative path, the `PATH` is searched for a matching executable.
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### Device Selection
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In order to select a specific device, the experimental NVIDIA Container Runtime
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mimics the behaviour of the "classic" runtime. That is to say that the values of
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certain [environment variables](https://docs.nvidia.com/datacenter/cloud-native/container-toolkit/user-guide.html#environment-variables-oci-spec)
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**in the container's OCI specification** control the behaviour of the runtime.
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#### `NVIDIA_VISIBLE_DEVICES`
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This variable controls which GPUs will be made accessible inside the container.
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##### Possible values
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* `0,1,2`, `GPU-fef8089b` …: a comma-separated list of GPU UUID(s) or index(es).
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* `all`: all GPUs will be accessible, this is the default value in our container images.
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* `none`: no GPU will be accessible, but driver capabilities will be enabled.
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* `void` or *empty* or *unset*: `nvidia-container-runtime` will have the same behavior as `runc`.
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**Note**: When running on a MIG capable device, the following values will also be available:
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* `0:0,0:1,1:0`, `MIG-GPU-fef8089b/0/1` …: a comma-separated list of MIG Device UUID(s) or index(es).
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Where the MIG device indices have the form `<GPU Device Index>:<MIG Device Index>` as seen in the example output:
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```
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$ nvidia-smi -L
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GPU 0: Graphics Device (UUID: GPU-b8ea3855-276c-c9cb-b366-c6fa655957c5)
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MIG Device 0: (UUID: MIG-GPU-b8ea3855-276c-c9cb-b366-c6fa655957c5/1/0)
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MIG Device 1: (UUID: MIG-GPU-b8ea3855-276c-c9cb-b366-c6fa655957c5/1/1)
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MIG Device 2: (UUID: MIG-GPU-b8ea3855-276c-c9cb-b366-c6fa655957c5/11/0)
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```
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#### `NVIDIA_MIG_CONFIG_DEVICES`
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This variable controls which of the visible GPUs can have their MIG
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configuration managed from within the container. This includes enabling and
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disabling MIG mode, creating and destroying GPU Instances and Compute
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Instances, etc.
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##### Possible values
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* `all`: Allow all MIG-capable GPUs in the visible device list to have their
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MIG configurations managed.
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**Note**:
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* This feature is only available on MIG capable devices (e.g. the A100).
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* To use this feature, the container must be started with `CAP_SYS_ADMIN` privileges.
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* When not running as `root`, the container user must have read access to the
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`/proc/driver/nvidia/capabilities/mig/config` file on the host.
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#### `NVIDIA_MIG_MONITOR_DEVICES`
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This variable controls which of the visible GPUs can have aggregate information
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about all of their MIG devices monitored from within the container. This
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includes inspecting the aggregate memory usage, listing the aggregate running
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processes, etc.
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##### Possible values
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* `all`: Allow all MIG-capable GPUs in the visible device list to have their
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MIG devices monitored.
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**Note**:
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* This feature is only available on MIG capable devices (e.g. the A100).
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* To use this feature, the container must be started with `CAP_SYS_ADMIN` privileges.
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* When not running as `root`, the container user must have read access to the
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`/proc/driver/nvidia/capabilities/mig/monitor` file on the host.
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