commit | 18724772c218ccaa53ca4749a5015d33c3a39f7e | [log] [tgz] |
---|---|---|
author | Dennis Kempin <denniskempin@google.com> | Wed Oct 13 16:25:49 2021 -0700 |
committer | Commit Bot <commit-bot@chromium.org> | Fri Oct 15 22:12:03 2021 +0000 |
tree | c2bd65eac99e13481c4b8b10580a2101c73f9285 | |
parent | c4ec996103dff0cb524e55717ef8d26fc998c82d [diff] |
Add test runner ./tools/run_tests The new runner makes use of the simplified crosvm build and greatly improves execution speed by gathering test binaries from cargo output and executes them directly in parallel. This allows all of our tests to execute in ~5 seconds when run locally. The new test runner also makes use of the new testvm tools to make it easy to switch between testing on the host, in a VM or via SSH on a remote device. See ./tools/run_tests --help for usage instructions. To allow more iterative testing with the same test targets, this CL includes a set_test_target script to write env vars that instruct cargo to build for the target arch and run on the test target. Note: The test runner can build for armhf, but we need build file fixed to allow armhf to build successfully. BUG=b:199951064 TEST=Inside ./tools/dev_container: ./tools/run_tests --target=host ./tools/run_tests --target=vm:aarch64 ./tools/run_tests --aarch=armhf --build-only ./tools/set_test_target vm:aarch64 && source .envrc cargo test Change-Id: I60291fa726fb2298f62d1f032e55ed6e7ab1c4ac Reviewed-on: https://chromium-review.googlesource.com/c/chromiumos/platform/crosvm/+/3221779 Tested-by: kokoro <noreply+kokoro@google.com> Commit-Queue: Dennis Kempin <denniskempin@google.com> Reviewed-by: Daniel Verkamp <dverkamp@chromium.org>
This component, known as crosvm, runs untrusted operating systems along with virtualized devices. This only runs VMs through the Linux's KVM interface. What makes crosvm unique is a focus on safety within the programming language and a sandbox around the virtual devices to protect the kernel from attack in case of an exploit in the devices.
Crosvm uses submodules to manage external dependencies. Initialize them via:
git submodule update --init
It is recommended to enable automatic recursive operations to keep the submodules in sync with the main repository (But do not push them, as that can conflict with repo
):
git config --global submodule.recurse true git config push.recurseSubmodules no
Crosvm requires a couple of dependencies. For Debian derivatives these can be installed by (Depending on which feature flags are used, not all of these will actually be required):
sudo apt install \ bindgen \ build-essential \ clang \ libasound2-dev \ libcap-dev \ libdbus-1-dev \ libdrm-dev \ libepoxy-dev \ libssl-dev \ libwayland-bin \ libwayland-dev \ pkg-config \ protobuf-compiler \ python3 \ wayland-protocols
And that's it! You should be able to cargo build/run/test
.
--disable-sandbox
to run everything in a single process.--seccomp-log-failures
to the crosvm command line to turn these into warnings. Note that this option will also stop minijail from killing processes that violate the seccomp rule, making the sandboxing much less aggressive.sudo mkdir /usr/share/policy && sudo ln -s /path/to/crosvm/seccomp/x86_64 /usr/share/policy/crosvm
. We'll eventually build the precompiled policies into the crosvm binary./var/empty
doesn't exist. sudo mkdir -p /var/empty
to work around this for now./dev/kvm
to run tests or other crosvm instances. Usually it's owned by the kvm
group, so sudo usermod -a -G kvm $USER
and then log out and back in again to fix this.CAP_NET_ADMIN
so those usually need to be run as root.See Podman Installation for instructions on how to install podman.
For Googlers, see go/dont-install-docker for special instructions on how to set up podman.
If you already have docker installed, that will do as well. However podman is recommended as it will not run containers with root privileges.
To run all tests for all platforms, just run:
./test_all
This will run all tests using the x86 and aarch64 builder containers. What does this do?
It will start ./ci/[aarch64_]builder --vm
.
This will start the builder container and launch a VM for running tests in the background. The VM is booting while the next step is running.
It will call ./run_tests
inside the builder
The script will pick which tests to execute and where. Simple tests can be executed directly, other tests require privileged access to devices and will be loaded into the VM to execute.
Each test will in the end be executed by a call to cargo test -p crate_name
.
Intermediate build data is stored in a scratch directory at ./target/ci/
to allow for faster subsequent calls (Note: If running with docker, these files will be owned by root).
For faster iteration time, you can directly invoke some of these steps directly:
To only run x86 tests: ./ci/[aarch64_]builder --vm ./run_tests
.
To run a simple test (e.g. the enumn crate) that does not need the vm: ./ci/[aarch64_]builder cargo test -p enumn
.
Or run a single test (e.g. kvm_sys) inside the vm: ./ci/[aarch64*]builder --vm cargo test -p kvm_sys
.
Since the VM (especially the fully emulated aarch64 VM) can be slow to boot, you can start an interactive shell and run commands from there as usual. All cargo tests will be executed inside the VM, without the need to restart the VM between test calls.
host$ ./ci/aarch64_builder --vm crosvm-aarch64$ ./run_tests crosvm-aarch64$ cargo test -p kvm_sys ...
Specific crates can be tested as usual with cargo test
without the need for Docker. However, because of special requirements some of them will not work, which means that cargo test --workspace
will also not work to run all tests.
For this reason, we have a separate test runner ./run_tests
which documents the requirements of each crate and picks the tests to run. It is used by the Docker container to run tests, but can also be run outside of the container to run a subset of tests.
See ./run_tests --help
for more information.
Kokoro runs presubmit tests on all crosvm changes. It uses the same builders and the same run_tests
script to run tests. This should match the results of the ./test_all
script, but if it does not, the kokoro build scripts can be simulated locally using: ./ci/kokoro/simulate_all
.
crosvm is included in the ChromeOS source tree at src/platform/crosvm
. Crosvm can be built with ChromeOS features using Portage or cargo.
If ChromeOS-specific features are not needed, or you want to run the full test suite of crosvm, the Building for Linux and Running crosvm tests workflows can be used from the crosvm repository of ChromeOS as well.
crosvm on ChromeOS is usually built with Portage, so it follows the same general workflow as any cros_workon
package. The full package name is chromeos-base/crosvm
.
See the Chromium OS developer guide for more on how to build and deploy with Portage.
NOTE: cros_workon_make
modifies crosvm's Cargo.toml and Cargo.lock. Please be careful not to commit the changes. Moreover, with the changes cargo will fail to build and clippy preupload check will fail.
Since development using portage can be slow, it's possible to build crosvm for ChromeOS using cargo for faster iteration times. To do so, the Cargo.toml
file needs to be updated to point to dependencies provided by ChromeOS using ./setup_cros_cargo.sh
.
To see the usage information for your version of crosvm, run crosvm
or crosvm run --help
.
To run a very basic VM with just a kernel and default devices:
$ crosvm run "${KERNEL_PATH}"
The uncompressed kernel image, also known as vmlinux, can be found in your kernel build directory in the case of x86 at arch/x86/boot/compressed/vmlinux
.
In most cases, you will want to give the VM a virtual block device to use as a root file system:
$ crosvm run -r "${ROOT_IMAGE}" "${KERNEL_PATH}"
The root image must be a path to a disk image formatted in a way that the kernel can read. Typically this is a squashfs image made with mksquashfs
or an ext4 image made with mkfs.ext4
. By using the -r
argument, the kernel is automatically told to use that image as the root, and therefore can only be given once. More disks can be given with -d
or --rwdisk
if a writable disk is desired.
To run crosvm with a writable rootfs:
WARNING: Writable disks are at risk of corruption by a malicious or malfunctioning guest OS.
crosvm run --rwdisk "${ROOT_IMAGE}" -p "root=/dev/vda" vmlinux
NOTE: If more disks arguments are added prior to the desired rootfs image, the
root=/dev/vda
must be adjusted to the appropriate letter.
Linux kernel 5.4+ is required for using virtiofs. This is convenient for testing. The file system must be named "mtd*" or "ubi*".
crosvm run --shared-dir "/:mtdfake:type=fs:cache=always" \ -p "rootfstype=virtiofs root=mtdfake" vmlinux
If the control socket was enabled with -s
, the main process can be controlled while crosvm is running. To tell crosvm to stop and exit, for example:
NOTE: If the socket path given is for a directory, a socket name underneath that path will be generated based on crosvm's PID.
$ crosvm run -s /run/crosvm.sock ${USUAL_CROSVM_ARGS} <in another shell> $ crosvm stop /run/crosvm.sock
WARNING: The guest OS will not be notified or gracefully shutdown.
This will cause the original crosvm process to exit in an orderly fashion, allowing it to clean up any OS resources that might have stuck around if crosvm were terminated early.
By default crosvm runs in multiprocess mode. Each device that supports running inside of a sandbox will run in a jailed child process of crosvm. The appropriate minijail seccomp policy files must be present either in /usr/share/policy/crosvm
or in the path specified by the --seccomp-policy-dir
argument. The sandbox can be disabled for testing with the --disable-sandbox
option.
Virtio Wayland support requires special support on the part of the guest and as such is unlikely to work out of the box unless you are using a Chrome OS kernel along with a termina
rootfs.
To use it, ensure that the XDG_RUNTIME_DIR
enviroment variable is set and that the path $XDG_RUNTIME_DIR/wayland-0
points to the socket of the Wayland compositor you would like the guest to use.
crosvm supports GDB Remote Serial Protocol to allow developers to debug guest kernel via GDB.
You can enable the feature by --gdb
flag:
# Use uncompressed vmlinux $ crosvm run --gdb <port> ${USUAL_CROSVM_ARGS} vmlinux
Then, you can start GDB in another shell.
$ gdb vmlinux (gdb) target remote :<port> (gdb) hbreak start_kernel (gdb) c <start booting in the other shell>
For general techniques for debugging the Linux kernel via GDB, see this kernel documentation.
The following are crosvm's default arguments and how to override them.
-m
)-c
)-r
, -d
, or --rwdisk
)--host_ip
, --netmask
, and --mac
)XDG_RUNTIME_DIR
enviroment variable is set (disable with --no-wl
)-p
)--disable-sandbox
)-s
)A Linux kernel with KVM support (check for /dev/kvm
) is required to run crosvm. In order to run certain devices, there are additional system requirements:
virtio-wayland
- The memfd_create
syscall, introduced in Linux 3.17, and a Wayland compositor.vsock
- Host Linux kernel with vhost-vsock support, introduced in Linux 4.8.multiprocess
- Host Linux kernel with seccomp-bpf and Linux namespacing support.virtio-net
- Host Linux kernel with TUN/TAP support (check for /dev/net/tun
) and running with CAP_NET_ADMIN
privileges.Device | Description |
---|---|
CMOS/RTC | Used to get the current calendar time. |
i8042 | Used by the guest kernel to exit crosvm. |
serial | x86 I/O port driven serial devices that print to stdout and take input from stdin. |
virtio-block | Basic read/write block device. |
virtio-net | Device to interface the host and guest networks. |
virtio-rng | Entropy source used to seed guest OS's entropy pool. |
virtio-vsock | Enabled VSOCKs for the guests. |
virtio-wayland | Allowed guest to use host Wayland socket. |
rustfmt
All code should be formatted with rustfmt
. We have a script that applies rustfmt to all Rust code in the crosvm repo: please run bin/fmt
before checking in a change. This is different from cargo fmt --all
which formats multiple crates but a single workspace only; crosvm consists of multiple workspaces.
clippy
The clippy
linter is used to check for common Rust problems. The crosvm project uses a specific set of clippy
checks; please run bin/clippy
before checking in a change.
ChromeOS and Android both have a review process for third party dependencies to ensure that code included in the product is safe. Since crosvm needs to build on both, this means we are restricted in our usage of third party crates. When in doubt, do not add new dependencies.
The crosvm source code is written in Rust and C. To build, crosvm generally requires the most recent stable version of rustc.
Source code is organized into crates, each with their own unit tests. These crates are:
crosvm
- The top-level binary front-end for using crosvm.devices
- Virtual devices exposed to the guest OS.kernel_loader
- Loads elf64 kernel files to a slice of memory.kvm_sys
- Low-level (mostly) auto-generated structures and constants for using KVM.kvm
- Unsafe, low-level wrapper code for using kvm_sys
.net_sys
- Low-level (mostly) auto-generated structures and constants for creating TUN/TAP devices.net_util
- Wrapper for creating TUN/TAP devices.sys_util
- Mostly safe wrappers for small system facilities such as eventfd
or syslog
.syscall_defines
- Lists of syscall numbers in each architecture used to make syscalls not supported in libc
.vhost
- Wrappers for creating vhost based devices.virtio_sys
- Low-level (mostly) auto-generated structures and constants for interfacing with kernel vhost support.vm_control
- IPC for the VM.x86_64
- Support code specific to 64 bit intel machines.The seccomp
folder contains minijail seccomp policy files for each sandboxed device. Because some syscalls vary by architecture, the seccomp policies are split by architecture.