We have a Docker image that includes everything you need to get started. Simply run:
sudo docker run \
--volume=/:/rootfs:ro \
--volume=/var/run:/var/run:rw \
--volume=/sys:/sys:ro \
--volume=/var/lib/docker/:/var/lib/docker:ro \
--publish=8080:8080 \
--detach=true \
--name=cadvisor \
google/cadvisor:latest
cAdvisor is now running (in the background) on http://localhost:8080/
. The setup includes directories with Docker state cAdvisor needs to observe.
Note:
- If docker daemon is running with user namespace enabled,
you need to add
--userns=host
option in order for cAdvisor to monitor Docker containers, otherwise cAdvisor can not connect to docker daemon. - If cadvisor scrapes
process metrics
by set flag--disable_metrics
, you need to add--pid=host
and--privileged
fordocker run
to get/proc/pid/fd
path in host.
The latest cAdvisor canary release is continuously built from HEAD and available as an Automated Build Docker image: google/cadvisor-canary. We do not recommend using this image in production due to its large size and volatility.
After booting up a boot2docker instance, run cAdvisor image with the same docker command mentioned above. cAdvisor can now be accessed at port 8080 of your boot2docker instance. The host IP can be found through DOCKER_HOST environment variable setup by boot2docker:
$ echo $DOCKER_HOST
tcp://192.168.59.103:2376
In this case, cAdvisor UI should be accessible on http://192.168.59.103:8080
You may need to run the container with --privileged=true
and --volume=/cgroup:/cgroup:ro \
in order for cAdvisor to monitor Docker containers.
RHEL and CentOS lock down their containers a bit more. cAdvisor needs access to the Docker daemon through its socket. This requires --privileged=true
in RHEL and CentOS.
On some versions of RHEL and CentOS the cgroup hierarchies are mounted in /cgroup
so run cAdvisor with an additional Docker option of --volume=/cgroup:/cgroup:ro \
.
By default, Debian disables the memory cgroup which does not allow cAdvisor to gather memory stats. To enable the memory cgroup take a look at these instructions.
If you are using Docker with the LXC exec driver, then you need to manually specify all cgroup mounts by adding the:
--volume=/cgroup/cpu:/cgroup/cpu \
--volume=/cgroup/cpuacct:/cgroup/cpuacct \
--volume=/cgroup/cpuset:/cgroup/cpuset \
--volume=/cgroup/memory:/cgroup/memory \
--volume=/cgroup/blkio:/cgroup/blkio \
This is a problem seen in older versions of Docker. To fix, start cAdvisor without the --volume=/:/rootfs:ro
mount. cAdvisor will degrade gracefully by dropping stats that depend on access to the machine root.
cAdvisor is a static Go binary with no external dependencies. To run it standalone all you should need to do is run it! Note that some data sources may require root privileges. cAdvisor will gracefully degrade its features to those it can expose with the access given.
$ sudo cadvisor
cAdvisor is now running (in the foreground) on http://localhost:8080/
.
cAdvisor has a series of flags that can be used to configure its runtime behavior. More details can be found in runtime options.
cAdvisor can export some metrics for hardware accelerators attached to containers.
Currently only Nvidia GPUs are supported. There are no machine level metrics.
So, metrics won't show up if no container with accelerators attached is running.
Metrics will only show up if accelerators are explicitly attached to the container, e.g., by passing --device /dev/nvidia0:/dev/nvidia0
flag to docker.
If nothing is explicitly attached to the container, metrics will NOT show up. This can happen when you access accelerators from privileged containers.
There are two things that cAdvisor needs to show Nvidia GPU metrics:
- access to NVML library (
libnvidia-ml.so.1
). - access to the GPU devices.
If you are running cAdvisor inside a container, you will need to do the following to give the container access to NVML library:
-e LD_LIBRARY_PATH=<path-where-nvml-is-present>
--volume <above-path>:<above-path>
If you are running cAdvisor inside a container, you can do one of the following to give it access to the GPU devices:
- Run with
--privileged
- If you are on docker v17.04.0-ce or above, run with
--device-cgroup-rule 'c 195:* mrw'
- Run with
--device /dev/nvidiactl:/dev/nvidiactl /dev/nvidia0:/dev/nvidia0 /dev/nvidia1:/dev/nvidia1 <and-so-on-for-all-nvidia-devices>