c1f08277f9
A few non-rustfmt changes slipped in since the tree-wide formatting pass. BUG=None TEST=Re-run `cargo fmt` and verify that it makes no further changes. Change-Id: Ic5afb20dabc1087e5d6f54862e6b8b47c5f5608d Signed-off-by: Daniel Verkamp <dverkamp@chromium.org> Reviewed-on: https://chromium-review.googlesource.com/1287369 Commit-Ready: ChromeOS CL Exonerator Bot <chromiumos-cl-exonerator@appspot.gserviceaccount.com> Reviewed-by: Dylan Reid <dgreid@chromium.org> |
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|---|---|---|
| 9s | ||
| aarch64 | ||
| arch | ||
| bit_field | ||
| crosvm_plugin | ||
| data_model | ||
| devices | ||
| fuzz | ||
| gpu_buffer | ||
| gpu_display | ||
| gpu_renderer | ||
| io_jail | ||
| kernel_cmdline | ||
| kernel_loader | ||
| kokoro | ||
| kvm | ||
| kvm_sys | ||
| msg_socket | ||
| net_sys | ||
| net_util | ||
| p9 | ||
| plugin_proto | ||
| qcow | ||
| qcow_utils | ||
| resources | ||
| seccomp | ||
| src | ||
| sys_util | ||
| syscall_defines | ||
| tests | ||
| vhost | ||
| virtio_sys | ||
| vm_control | ||
| x86_64 | ||
| .gitignore | ||
| .rustfmt.toml | ||
| build_test | ||
| build_test.py | ||
| Cargo.lock | ||
| Cargo.toml | ||
| LICENSE | ||
| README.md | ||
crosvm - The Chrome OS Virtual Machine Monitor
This component, known as crosvm, runs untrusted operating systems along with virtualized devices. No actual hardware is emulated. 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.
Usage
To see the usage information for your version of crosvm, run crosvm or crosvm run --help.
Boot a Kernel
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.
Rootfs
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/vdamust be adjusted to the appropriate letter.
Control Socket
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.
Multiprocess Mode
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
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.
Defaults
The following are crosvm's default arguments and how to override them.
- 256MB of memory (set with
-m) - 1 virtual CPU (set with
-c) - no block devices (set with
-r,-d, or--rwdisk) - no network (set with
--host_ip,--netmask, and--mac) - virtio wayland support if
XDG_RUNTIME_DIRenviroment variable is set (disable with--no-wl) - only the kernel arguments necessary to run with the supported devices (add more with
-p) - run in single process mode (run in multiprocess mode with
-u) - no control socket (set with
-s)
System Requirements
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- Thememfd_createsyscall, 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 namespaceing support.virtio-net- Host Linux kernel with TUN/TAP support (check for/dev/net/tun) and running withCAP_NET_ADMINprivileges.
Emulated Devices
| 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. |
Contributing
Code Health
build_test
There are no automated tests run before code is committed to crosvm. In order to
maintain sanity, please execute build_test before submitting code for review.
All tests should be passing or ignored and there should be no compiler warnings
or errors. All supported architectures are built, but only tests for x86_64 are
run. In order to build everything without failures, sysroots must be supplied
for each architecture. See build_test -h for more information.
rustfmt
All code should be formatted with rustfmt. Run cargo fmt --all to autoformat
your code before checking in a change.
Dependencies
With a few exceptions, external dependencies inside of the Cargo.toml files
are not allowed. The reason being that community made crates tend to explode the
binary size by including dozens of transitive dependencies. All these
dependencies also must be reviewed to ensure their suitability to the crosvm
project. Currently allowed crates are:
byteorder- A very small library used for endian swaps.gcc- Build time dependency needed to build C source code used in crosvm.libc- Required to use the standard library, this crate is a simple wrapper aroundlibc's symbols.
Code Overview
The crosvm source code is written in Rust and C. To build, crosvm requires rustc v1.20 or later.
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.io_jail- Creates jailed process usinglibminijail.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 usingkvm_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 aseventfdorsyslog.syscall_defines- Lists of syscall numbers in each architecture used to make syscalls not supported inlibc.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 architecturs, the seccomp policies are
split by architecture.