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Developer-Guide.md

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Warning

This document is written specifically for developers: it is not intended for end users.

Assumptions

  • You are working on a non-critical test or development system.

Initial setup

The recommended way to create a development environment is to first install the packaged versions of the Kata Containers components to create a working system.

The installation guide instructions will install all required Kata Containers components, plus Docker*, the hypervisor, and the Kata Containers image and guest kernel.

Requirements to build individual components

You need to install the following to build Kata Containers components:

  • golang

    To view the versions of go known to work, see the golang entry in the versions database.

  • make.

  • gcc (required for building the shim and runtime).

Build and install the Kata Containers runtime

$ go get -d -u github.com/kata-containers/runtime
$ cd $GOPATH/src/github.com/kata-containers/runtime
$ make && sudo -E PATH=$PATH make install

The build will create the following:

  • runtime binary: /usr/local/bin/kata-runtime
  • configuration file: /usr/share/defaults/kata-containers/configuration.toml

Check hardware requirements

You can check if your system is capable of creating a Kata Container by running the following:

$ sudo kata-runtime kata-check

If your system is not able to run Kata Containers, the previous command will error out and explain why.

Configure to use initrd or rootfs image

Kata containers can run with either an initrd image or a rootfs image.

If you want to test with initrd, make sure you have initrd = /usr/share/kata-containers/kata-containers-initrd.img in your configuration file, commenting out the image line:

/usr/share/defaults/kata-containers/configuration.toml and comment out the image line with the following. For example:

$ sudo mkdir -p /etc/kata-containers/
$ sudo install -o root -g root -m 0640 /usr/share/defaults/kata-containers/configuration.toml /etc/kata-containers
$ sudo sed -i 's/^\(image =.*\)/# \1/g' /etc/kata-containers/configuration.toml

You can create the initrd image as shown in the create an initrd image section.

If you want to test with a rootfs image, make sure you have image = /usr/share/kata-containers/kata-containers.img in your configuration file, commenting out the initrd line. For example:

$ sudo mkdir -p /etc/kata-containers/
$ sudo install -o root -g root -m 0640 /usr/share/defaults/kata-containers/configuration.toml /etc/kata-containers
$ sudo sed -i 's/^\(initrd =.*\)/# \1/g' /etc/kata-containers/configuration.toml

The rootfs image is created as shown in the create a rootfs image section.

One of the initrd and image options in Kata runtime config file MUST be set but not both. The main difference between the options is that the size of initrd(10MB+) is significantly smaller than rootfs image(100MB+).

Enable full debug

Enable full debug as follows:

$ sudo mkdir -p /etc/kata-containers/
$ sudo install -o root -g root -m 0640 /usr/share/defaults/kata-containers/configuration.toml /etc/kata-containers
$ sudo sed -i -e 's/^# *\(enable_debug\).*=.*$/\1 = true/g' /etc/kata-containers/configuration.toml
$ sudo sed -i -e 's/^kernel_params = "\(.*\)"/kernel_params = "\1 agent.log=debug initcall_debug"/g' /etc/kata-containers/configuration.toml

debug logs and shimv2

If you are using containerd and the Kata containerd-shimv2 to launch Kata Containers, and wish to enable Kata debug logging, there are two ways this can be enabled via the containerd configuration file, detailed below.

The Kata logs appear in the containerd log files, along with logs from containerd itself.

For more information about containerd debug, please see the containerd documentation.

Enabling full containerd debug

Enabling full containerd debug also enables the shimv2 debug. Edit the containerd configuration file to include the top level debug option such as:

[debug]
        level = "debug"

Enabling just containerd shim debug

If you only wish to enable debug for the containerd shims themselves, just enable the debug option in the plugins.linux section of the containerd configuration file, such as:

  [plugins.linux]
    shim_debug = true

Enabling CRI-O and shimv2 debug

Depending on the CRI-O version being used one of the following configuration files can be found: /etc/crio/crio.conf or /etc/crio/crio.conf.d/00-default.

If the latter is found, the change must be done there as it'll take precedence, overriding /etc/crio/crio.conf.

# Changes the verbosity of the logs based on the level it is set to. Options
# are fatal, panic, error, warn, info, debug and trace. This option supports
# live configuration reload.
log_level = "info"

Switching the default log_level from info to debug enables shimv2 debug logs. CRI-O logs can be found by using the crio identifier, and Kata specific logs can be found by using the kata identifier.

journald rate limiting

Enabling full debug results in the Kata components generating large amounts of logging, which by default is stored in the system log. Depending on your system configuration, it is possible that some events might be discarded by the system logging daemon. The following shows how to determine this for systemd-journald, and offers possible workarounds and fixes.

Note The method of implementation can vary between Operating System installations. Amend these instructions as necessary to your system implementation, and consult with your system administrator for the appropriate configuration.

systemd-journald suppressing messages

systemd-journald can be configured to rate limit the number of journal entries it stores. When messages are suppressed, it is noted in the logs. This can be checked for by looking for those notifications, such as:

$ sudo journalctl --since today | fgrep Suppressed
Jun 29 14:51:17 mymachine systemd-journald[346]: Suppressed 4150 messages from /system.slice/docker.service

This message indicates that a number of log messages from the docker.service slice were suppressed. In such a case, you can expect to have incomplete logging information stored from the Kata Containers components.

Disabling systemd-journald rate limiting

In order to capture complete logs from the Kata Containers components, you need to reduce or disable the systemd-journald rate limit. Configure this at the global systemd-journald level, and it will apply to all system slices.

To disable systemd-journald rate limiting at the global level, edit the file /etc/systemd/journald.conf, and add/uncomment the following lines:

RateLimitInterval=0s
RateLimitBurst=0

Restart systemd-journald for the changes to take effect:

$ sudo systemctl restart systemd-journald

Build and install Kata proxy

$ go get -d -u github.com/kata-containers/proxy
$ cd $GOPATH/src/github.com/kata-containers/proxy && make && sudo make install

Build and install Kata shim

$ go get -d -u github.com/kata-containers/shim
$ cd $GOPATH/src/github.com/kata-containers/shim && make && sudo make install

Create and install rootfs and initrd image

Build a custom Kata agent - OPTIONAL

Note:

  • You should only do this step if you are testing with the latest version of the agent.
$ go get -d -u github.com/kata-containers/agent
$ cd $GOPATH/src/github.com/kata-containers/agent && make

Get the osbuilder

$ go get -d -u github.com/kata-containers/osbuilder

Create a rootfs image

Create a local rootfs

As a prerequisite, you need to install Docker. Otherwise, you will not be able to run the rootfs.sh script with USE_DOCKER=true as expected in the following example.

$ export ROOTFS_DIR=${GOPATH}/src/github.com/kata-containers/osbuilder/rootfs-builder/rootfs
$ sudo rm -rf ${ROOTFS_DIR}
$ cd $GOPATH/src/github.com/kata-containers/osbuilder/rootfs-builder
$ script -fec 'sudo -E GOPATH=$GOPATH USE_DOCKER=true SECCOMP=no ./rootfs.sh ${distro}'

You MUST choose one of alpine, centos, clearlinux, debian, euleros, fedora, suse, and ubuntu for ${distro}. By default seccomp packages are not included in the rootfs image. Set SECCOMP to yes to include them.

Note:

  • Check the compatibility matrix before creating rootfs.
  • You must ensure that the default Docker runtime is runc to make use of the USE_DOCKER variable. If that is not the case, remove the variable from the previous command. See Checking Docker default runtime.

Add a custom agent to the image - OPTIONAL

Note:

  • You should only do this step if you are testing with the latest version of the agent.
$ sudo install -o root -g root -m 0550 -t ${ROOTFS_DIR}/bin ../../agent/kata-agent
$ sudo install -o root -g root -m 0440 ../../agent/kata-agent.service ${ROOTFS_DIR}/usr/lib/systemd/system/
$ sudo install -o root -g root -m 0440 ../../agent/kata-containers.target ${ROOTFS_DIR}/usr/lib/systemd/system/

Build a rootfs image

$ cd $GOPATH/src/github.com/kata-containers/osbuilder/image-builder
$ script -fec 'sudo -E USE_DOCKER=true ./image_builder.sh ${ROOTFS_DIR}'

Notes:

  • You must ensure that the default Docker runtime is runc to make use of the USE_DOCKER variable. If that is not the case, remove the variable from the previous command. See Checking Docker default runtime.
  • If you do not wish to build under Docker, remove the USE_DOCKER variable in the previous command and ensure the qemu-img command is available on your system.

Install the rootfs image

$ commit=$(git log --format=%h -1 HEAD)
$ date=$(date +%Y-%m-%d-%T.%N%z)
$ image="kata-containers-${date}-${commit}"
$ sudo install -o root -g root -m 0640 -D kata-containers.img "/usr/share/kata-containers/${image}"
$ (cd /usr/share/kata-containers && sudo ln -sf "$image" kata-containers.img)

Create an initrd image - OPTIONAL

Create a local rootfs for initrd image

$ export ROOTFS_DIR="${GOPATH}/src/github.com/kata-containers/osbuilder/rootfs-builder/rootfs"
$ sudo rm -rf ${ROOTFS_DIR}
$ cd $GOPATH/src/github.com/kata-containers/osbuilder/rootfs-builder
$ script -fec 'sudo -E GOPATH=$GOPATH AGENT_INIT=yes USE_DOCKER=true SECCOMP=no ./rootfs.sh ${distro}'

AGENT_INIT controls if the guest image uses the Kata agent as the guest init process. When you create an initrd image, always set AGENT_INIT to yes. By default seccomp packages are not included in the initrd image. Set SECCOMP to yes to include them.

You MUST choose one of alpine, centos, clearlinux, euleros, and fedora for ${distro}.

Note:

Optionally, add your custom agent binary to the rootfs with the following:

$ sudo install -o root -g root -m 0550 -T ../../agent/kata-agent ${ROOTFS_DIR}/sbin/init

Build an initrd image

$ cd $GOPATH/src/github.com/kata-containers/osbuilder/initrd-builder
$ script -fec 'sudo -E AGENT_INIT=yes USE_DOCKER=true ./initrd_builder.sh ${ROOTFS_DIR}'

Install the initrd image

$ commit=$(git log --format=%h -1 HEAD)
$ date=$(date +%Y-%m-%d-%T.%N%z)
$ image="kata-containers-initrd-${date}-${commit}"
$ sudo install -o root -g root -m 0640 -D kata-containers-initrd.img "/usr/share/kata-containers/${image}"
$ (cd /usr/share/kata-containers && sudo ln -sf "$image" kata-containers-initrd.img)

Install guest kernel images

You can build and install the guest kernel image as shown here.

Install a hypervisor

When setting up Kata using a packaged installation method, the QEMU VMM is installed automatically. Cloud-Hypervisor and Firecracker VMMs are available from the release tarballs. You may choose to manually build your VMM/hypervisor.

Build a custom QEMU

Kata Containers makes use of upstream QEMU branch. The exact version and repository utilized can be found by looking at the runtime's versions file

Kata often utilizes patches for not-yet-upstream fixes for components, including QEMU. These can be found in the packaging repository in the QEMU directory.

To build utilizing the same options as Kata, you should make use of the configure-hypervisor.sh script. For example:

$ go get -d github.com/kata-containers/packaging
$ cd $your_qemu_directory
$ ${GOPATH}/src/github.com/kata-containers/packaging/scripts/configure-hypervisor.sh qemu > kata.cfg
$ eval ./configure "$(cat kata.cfg)"
$ make -j $(nproc)
$ sudo -E make install

See the static-build script for QEMU for a reference on how to get, setup, configure and build QEMU for Kata.

Build a custom QEMU for aarch64/arm64 - REQUIRED

Note:

You could build the custom qemu-system-aarch64 as required with the following command:

$ go get -d github.com/kata-containers/tests
$ script -fec 'sudo -E ${GOPATH}/src/github.com/kata-containers/tests/.ci/install_qemu.sh'

Run Kata Containers with Docker

Update the Docker systemd unit file

$ dockerUnit=$(systemctl show -p FragmentPath docker.service | cut -d "=" -f 2)
$ unitFile=${dockerUnit:-/etc/systemd/system/docker.service.d/kata-containers.conf}
$ test -e "$unitFile" || { sudo mkdir -p "$(dirname $unitFile)"; echo -e "[Service]\nType=simple\nExecStart=\nExecStart=/usr/bin/dockerd -D --default-runtime runc" | sudo tee "$unitFile"; }
$ grep -q "kata-runtime=" $unitFile || sudo sed -i 's!^\(ExecStart=[^$].*$\)!\1 --add-runtime kata-runtime=/usr/local/bin/kata-runtime!g' "$unitFile"
$ sudo systemctl daemon-reload
$ sudo systemctl restart docker

Create a container using Kata

$ sudo docker run -ti --runtime kata-runtime busybox sh

Run Kata Containers with Kubernetes

Refer to to the Run Kata Containers with Kubernetes how-to guide.

Troubleshoot Kata Containers

If you are unable to create a Kata Container first ensure you have enabled full debug before attempting to create a container. Then run the kata-collect-data.sh script and paste its output directly into a GitHub issue.

Note:

The kata-collect-data.sh script is built from the runtime repository.

To perform analysis on Kata logs, use the kata-log-parser tool, which can convert the logs into formats (e.g. JSON, TOML, XML, and YAML).

To obtain a full backtrace for the agent, proxy, runtime, or shim send the SIGUSR1 signal to the process ID of the component. The component will send a backtrace to the system log on the host system and continue to run without interruption.

For example, to obtain a backtrace for kata-proxy:

$ sudo kill -USR1 $kata_proxy_pid
$ sudo journalctl -t kata-proxy

See Set up a debug console.

Appendices

Checking Docker default runtime

$ sudo docker info 2>/dev/null | grep -i "default runtime" | cut -d: -f2- | grep -q runc  && echo "SUCCESS" || echo "ERROR: Incorrect default Docker runtime"

Set up a debug console

By default you cannot login to a virtual machine, since this can be sensitive from a security perspective. Also, allowing logins would require additional packages in the rootfs, which would increase the size of the image used to boot the virtual machine.

If you want to login to a virtual machine that hosts your containers, complete the following steps (using rootfs or initrd image).

Note: The following debug console instructions assume a systemd-based guest O/S image. This means you must create a rootfs for a distro that supports systemd. Currently, all distros supported by osbuilder support systemd except for Alpine Linux.

Look for INIT_PROCESS=systemd in the config.sh osbuilder rootfs config file to verify an osbuilder distro supports systemd for the distro you want to build rootfs for. For an example, see the Clear Linux config.sh file.

For a non-systemd-based distro, create an equivalent system service using that distro’s init system syntax. Alternatively, you can build a distro that contains a shell (e.g. bash(1)). In this circumstance it is likely you need to install additional packages in the rootfs and add “agent.debug_console” to kernel parameters in the runtime config file. This tells the Kata agent to launch the console directly.

Once these steps are taken you can connect to the virtual machine using the debug console.

Create a custom image containing a shell

To login to a virtual machine, you must create a custom rootfs or custom initrd containing a shell such as bash(1). For Clear Linux, you will need an additional coreutils package.

For example using CentOS:

$ cd $GOPATH/src/github.com/kata-containers/osbuilder/rootfs-builder
$ export ROOTFS_DIR=${GOPATH}/src/github.com/kata-containers/osbuilder/rootfs-builder/rootfs
$ script -fec 'sudo -E GOPATH=$GOPATH USE_DOCKER=true EXTRA_PKGS="bash coreutils" ./rootfs.sh centos'

Build the debug image

Follow the instructions in the Build a rootfs image section when using rootfs, or when using initrd, complete the steps in the Build an initrd image section.

Configure runtime for custom debug image

Install the image:

Note: When using an initrd image, replace the below rootfs image name kata-containers.img with the initrd image name kata-containers-initrd.img.

$ name="kata-containers-centos-with-debug-console.img"
$ sudo install -o root -g root -m 0640 kata-containers.img "/usr/share/kata-containers/${name}"

Next, modify the image= values in the [hypervisor.qemu] section of the configuration file to specify the full path to the image name specified in the previous code section. Alternatively, recreate the symbolic link so it points to the new debug image:

$ (cd /usr/share/kata-containers && sudo ln -sf "$name" kata-containers.img)

Note: You should take care to undo this change after you finish debugging to avoid all subsequently created containers from using the debug image.

Ensure debug options are valid

For the debug console to work, you must ensure that proxy debug is disabled in the configuration file. If proxy debug is enabled, you will not see any output when you connect to the virtual machine:

$ sudo mkdir -p /etc/kata-containers/
$ sudo install -o root -g root -m 0640 /usr/share/defaults/kata-containers/configuration.toml /etc/kata-containers
$ sudo awk '{if (/^\[proxy\.kata\]/) {got=1}; if (got == 1 && /^.*enable_debug/) {print "#enable_debug = true"; got=0; next; } else {print}}' /etc/kata-containers/configuration.toml > /tmp/configuration.toml
$ sudo install -o root -g root -m 0640 /tmp/configuration.toml /etc/kata-containers/

Enable debug console for the agent

The steps required to enable debug console for QEMU slightly differ with those for firecracker / cloud-hypervisor.

Enabling debug console for QEMU

Add agent.debug_console to the guest kernel command line to allow the agent process to start a debug console.

$ sudo sed -i -e 's/^kernel_params = "\(.*\)"/kernel_params = "\1 agent.debug_console"/g' "${kata_configuration_file}"

Here kata_configuration_file could point to /etc/kata-containers/configuration.toml or /usr/share/defaults/kata-containers/configuration.toml or /opt/kata/share/defaults/kata-containers/configuration-{hypervisor}.toml, if you installed Kata Containers using kata-deploy.

Enabling debug console for cloud-hypervisor / firecracker

Slightly different configuration is required in case of firecracker and cloud hypervisor. Firecracker and cloud-hypervisor don't have a UNIX socket connected to /dev/console. Hence, the kernel command line option agent.debug_console will not work for them. These hypervisors support hybrid vsocks, which can be used for communication between the host and the guest. The kernel command line option agent.debug_console_vport was added to allow developers specify on which vsock port the debugging console should be connected.

Add the parameter agent.debug_console_vport=1026 to the kernel command line as shown below:

sudo sed -i -e 's/^kernel_params = "\(.*\)"/kernel_params = "\1 agent.debug_console_vport=1026"/g' "${kata_configuration_file}"

Note Ports 1024 and 1025 are reserved for communication with the agent and gathering of agent logs respectively.

Next, connect to the debug console. The VSOCKS paths vary slightly between cloud-hypervisor and firecracker. In case of cloud-hypervisor, connect to the vsock as shown:

$ sudo su -c 'cd /var/run/vc/vm/{sandbox_id}/root/ && socat stdin unix-connect:clh.sock'
CONNECT 1026

Note: You need to type CONNECT 1026 and press RETURN key after entering the socat command.

For firecracker, connect to the hvsock as shown:

$ sudo su -c 'cd /var/run/vc/firecracker/{sandbox_id}/root/ && socat stdin unix-connect:kata.hvsock'
CONNECT 1026

Create a container

Create a container as normal. For example using Docker:

$ sudo docker run -ti busybox sh

Connect to the virtual machine using the debug console

$ id=$(sudo docker ps -q --no-trunc)
$ console="/var/run/vc/vm/${id}/console.sock"
$ sudo socat "stdin,raw,echo=0,escape=0x11" "unix-connect:${console}"

In case of firecracker, you would need the following command:

sudo su -c 'cd /var/lib/vc/firecracker/08facf/root/ && socat stdin unix-connect:kata.hvsock'
CONNECT 1026

Note: You need to press the RETURN key to see the shell prompt.

To disconnect from the virtual machine, type CONTROL+q (hold down the CONTROL key and press q).

Obtain details of the image

If the image is created using osbuilder, the following YAML file exists and contains details of the image and how it was created:

$ cat /var/lib/osbuilder/osbuilder.yaml

Capturing kernel boot logs

Sometimes it is useful to capture the kernel boot messages from a Kata Container launch. If the container launches to the point whereby you can exec into it, and if the container has the necessary components installed, often you can execute the dmesg command inside the container to view the kernel boot logs.

If however you are unable to exec into the container, you can enable some debug options to have the kernel boot messages logged into the system journal.

Which debug options you enable depends on if you are using the hypervisor vsock mode or not, as defined by the use_vsock setting in the [hypervisor.qemu] section of the configuration file. The following details the settings:

  • For use_vsock = false:
    • Set enable_debug = true in both the [hypervisor.qemu] and [proxy.kata] sections
  • For use_vsock = true:
    • Set enable_debug = true in both the [hypervisor.qemu] and [shim.kata] sections

For generic information on enabling debug in the configuration file, see the Enable full debug section.

The kernel boot messages will appear in the kata-proxy or kata-shim log appropriately, such as:

$ sudo journalctl -t kata-proxy
-- Logs begin at Thu 2020-02-13 16:20:40 UTC, end at Thu 2020-02-13 16:30:23 UTC. --
...
Feb 13 16:20:56 minikube kata-proxy[17371]: time="2020-02-13T16:20:56.608714324Z" level=info msg="[    1.418768] brd: module loaded\n" name=kata-proxy pid=17371 sandbox=a13ffb2b9b5a66f7787bdae9a427fa954a4d21ec4031d0179eee2573986a8a6e source=agent
Feb 13 16:20:56 minikube kata-proxy[17371]: time="2020-02-13T16:20:56.628493231Z" level=info msg="[    1.438612] loop: module loaded\n" name=kata-proxy pid=17371 sandbox=a13ffb2b9b5a66f7787bdae9a427fa954a4d21ec4031d0179eee2573986a8a6e source=agent
Feb 13 16:20:56 minikube kata-proxy[17371]: time="2020-02-13T16:20:56.67707956Z" level=info msg="[    1.487165]  pmem0: p1\n" name=kata-proxy pid=17371 sandbox=a13ffb2b9b5a66f7787bdae9a427fa954a4d21ec4031d0179eee2573986a8a6e source=agent
...

Running standalone

It is possible to start the runtime without a container manager. This is mostly useful for testing and debugging purposes.

Create an OCI bundle

To build an OCI bundle, required by the runtime:

$ bundle="/tmp/bundle"
$ rootfs="$bundle/rootfs"
$ mkdir -p "$rootfs" && (cd "$bundle" && kata-runtime spec)
$ sudo docker export $(sudo docker create busybox) | tar -C "$rootfs" -xvf -

Launch the runtime to create a container

Run the runtime standalone by providing it with the path to the previously-created OCI bundle:

$ sudo kata-runtime --log=/dev/stdout run --bundle "$bundle" foo