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dc75519372
cloud-hypervisor/tests/integration.rs
Sebastien Boeuf dc75519372 tests: Improve reliability of test_bionic_ovmf 
It's been observed on the Bionic image that udev and snapd services can
cause some delay in the VM's shutdown. Disabling them before shutting
down the VM improves the reliability of the test.

Also increasing slightly the sleep time to ensure we give the VM enough
time to shutdown before checking the list of events provided by the
event monitor.

Signed-off-by: Sebastien Boeuf <sebastien.boeuf@intel.com>
2022-08-05 13:30:22 +01:00

8899 lines
306 KiB
Rust
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// Copyright © 2020 Intel Corporation
//
// SPDX-License-Identifier: Apache-2.0
//
// When enabling the `mshv` feature, we skip quite some tests and
// hence have known dead-code. This annotation silences dead-code
// related warnings for our quality workflow to pass.
#![allow(dead_code)]
extern crate test_infra;
use net_util::MacAddr;
use std::collections::HashMap;
use std::fs;
use std::io;
use std::io::BufRead;
use std::io::Read;
use std::io::Seek;
use std::io::Write;
use std::os::unix::io::AsRawFd;
use std::path::PathBuf;
use std::process::{Child, Command, Stdio};
use std::string::String;
use std::sync::mpsc;
use std::sync::mpsc::Receiver;
#[cfg(target_arch = "x86_64")]
use std::sync::Mutex;
use std::thread;
use test_infra::*;
use vmm_sys_util::{tempdir::TempDir, tempfile::TempFile};
use wait_timeout::ChildExt;
#[cfg(target_arch = "x86_64")]
mod x86_64 {
pub const BIONIC_IMAGE_NAME: &str = "bionic-server-cloudimg-amd64.raw";
pub const FOCAL_IMAGE_NAME: &str = "focal-server-cloudimg-amd64-custom-20210609-0.raw";
pub const FOCAL_SGX_IMAGE_NAME: &str = "focal-server-cloudimg-amd64-sgx.raw";
pub const HIRSUTE_NVIDIA_IMAGE_NAME: &str = "hirsute-server-cloudimg-amd64-nvidia.raw";
pub const FOCAL_IMAGE_NAME_QCOW2: &str = "focal-server-cloudimg-amd64-custom-20210609-0.qcow2";
pub const FOCAL_IMAGE_NAME_VHD: &str = "focal-server-cloudimg-amd64-custom-20210609-0.vhd";
pub const FOCAL_IMAGE_NAME_VHDX: &str = "focal-server-cloudimg-amd64-custom-20210609-0.vhdx";
pub const JAMMY_IMAGE_NAME: &str = "jammy-server-cloudimg-amd64-custom-20220329-0.raw";
pub const WINDOWS_IMAGE_NAME: &str = "windows-server-2019.raw";
pub const OVMF_NAME: &str = "CLOUDHV.fd";
pub const GREP_SERIAL_IRQ_CMD: &str = "grep -c 'IO-APIC.*ttyS0' /proc/interrupts || true";
}
#[cfg(target_arch = "x86_64")]
use x86_64::*;
#[cfg(target_arch = "aarch64")]
mod aarch64 {
pub const BIONIC_IMAGE_NAME: &str = "bionic-server-cloudimg-arm64.raw";
pub const FOCAL_IMAGE_NAME: &str = "focal-server-cloudimg-arm64-custom-20210929-0.raw";
pub const FOCAL_IMAGE_UPDATE_KERNEL_NAME: &str =
"focal-server-cloudimg-arm64-custom-20210929-0-update-kernel.raw";
pub const FOCAL_IMAGE_NAME_QCOW2: &str = "focal-server-cloudimg-arm64-custom-20210929-0.qcow2";
pub const FOCAL_IMAGE_NAME_VHD: &str = "focal-server-cloudimg-arm64-custom-20210929-0.vhd";
pub const FOCAL_IMAGE_NAME_VHDX: &str = "focal-server-cloudimg-arm64-custom-20210929-0.vhdx";
pub const JAMMY_IMAGE_NAME: &str = "jammy-server-cloudimg-arm64-custom-20220329-0.raw";
pub const GREP_SERIAL_IRQ_CMD: &str = "grep -c 'GICv3.*uart-pl011' /proc/interrupts || true";
pub const GREP_PMU_IRQ_CMD: &str = "grep -c 'GICv3.*arm-pmu' /proc/interrupts || true";
}
#[cfg(target_arch = "aarch64")]
use aarch64::*;
const DIRECT_KERNEL_BOOT_CMDLINE: &str =
"root=/dev/vda1 console=hvc0 rw systemd.journald.forward_to_console=1";
const CONSOLE_TEST_STRING: &str = "Started OpenBSD Secure Shell server";
fn prepare_virtiofsd(tmp_dir: &TempDir, shared_dir: &str) -> (std::process::Child, String) {
let mut workload_path = dirs::home_dir().unwrap();
workload_path.push("workloads");
let mut virtiofsd_path = workload_path;
virtiofsd_path.push("virtiofsd");
let virtiofsd_path = String::from(virtiofsd_path.to_str().unwrap());
let virtiofsd_socket_path =
String::from(tmp_dir.as_path().join("virtiofs.sock").to_str().unwrap());
// Start the daemon
let child = Command::new(virtiofsd_path.as_str())
.args(&["--shared-dir", shared_dir])
.args(&["--socket-path", virtiofsd_socket_path.as_str()])
.args(&["--cache", "never"])
.spawn()
.unwrap();
thread::sleep(std::time::Duration::new(10, 0));
(child, virtiofsd_socket_path)
}
fn prepare_vubd(
tmp_dir: &TempDir,
blk_img: &str,
num_queues: usize,
rdonly: bool,
direct: bool,
) -> (std::process::Child, String) {
let mut workload_path = dirs::home_dir().unwrap();
workload_path.push("workloads");
let mut blk_file_path = workload_path;
blk_file_path.push(blk_img);
let blk_file_path = String::from(blk_file_path.to_str().unwrap());
let vubd_socket_path = String::from(tmp_dir.as_path().join("vub.sock").to_str().unwrap());
// Start the daemon
let child = Command::new(clh_command("vhost_user_block"))
.args(&[
"--block-backend",
format!(
"path={},socket={},num_queues={},readonly={},direct={}",
blk_file_path, vubd_socket_path, num_queues, rdonly, direct
)
.as_str(),
])
.spawn()
.unwrap();
thread::sleep(std::time::Duration::new(10, 0));
(child, vubd_socket_path)
}
fn temp_vsock_path(tmp_dir: &TempDir) -> String {
String::from(tmp_dir.as_path().join("vsock").to_str().unwrap())
}
fn temp_api_path(tmp_dir: &TempDir) -> String {
String::from(
tmp_dir
.as_path()
.join("cloud-hypervisor.sock")
.to_str()
.unwrap(),
)
}
fn temp_event_monitor_path(tmp_dir: &TempDir) -> String {
String::from(tmp_dir.as_path().join("event.json").to_str().unwrap())
}
// Creates the directory and returns the path.
fn temp_snapshot_dir_path(tmp_dir: &TempDir) -> String {
let snapshot_dir = String::from(tmp_dir.as_path().join("snapshot").to_str().unwrap());
std::fs::create_dir(&snapshot_dir).unwrap();
snapshot_dir
}
fn temp_vmcore_file_path(tmp_dir: &TempDir) -> String {
let vmcore_file = String::from(tmp_dir.as_path().join("vmcore").to_str().unwrap());
vmcore_file
}
// Creates the path for direct kernel boot and return the path.
// For x86_64, this function returns the vmlinux kernel path.
// For AArch64, this function returns the PE kernel path.
fn direct_kernel_boot_path() -> PathBuf {
let mut workload_path = dirs::home_dir().unwrap();
workload_path.push("workloads");
let mut kernel_path = workload_path;
#[cfg(target_arch = "x86_64")]
kernel_path.push("vmlinux");
#[cfg(target_arch = "aarch64")]
kernel_path.push("Image");
kernel_path
}
#[cfg(target_arch = "aarch64")]
fn edk2_path() -> PathBuf {
let mut workload_path = dirs::home_dir().unwrap();
workload_path.push("workloads");
let mut edk2_path = workload_path;
edk2_path.push("CLOUDHV_EFI.fd");
edk2_path
}
fn cloud_hypervisor_release_path() -> String {
let mut workload_path = dirs::home_dir().unwrap();
workload_path.push("workloads");
let mut ch_release_path = workload_path;
#[cfg(target_arch = "x86_64")]
ch_release_path.push("cloud-hypervisor-static");
#[cfg(target_arch = "aarch64")]
ch_release_path.push("cloud-hypervisor-static-aarch64");
ch_release_path.into_os_string().into_string().unwrap()
}
fn prepare_vhost_user_net_daemon(
tmp_dir: &TempDir,
ip: &str,
tap: Option<&str>,
num_queues: usize,
client_mode: bool,
) -> (std::process::Command, String) {
let vunet_socket_path = String::from(tmp_dir.as_path().join("vunet.sock").to_str().unwrap());
// Start the daemon
let net_params = if let Some(tap_str) = tap {
format!(
"tap={},ip={},mask=255.255.255.0,socket={},num_queues={},queue_size=1024,client={}",
tap_str, ip, vunet_socket_path, num_queues, client_mode
)
} else {
format!(
"ip={},mask=255.255.255.0,socket={},num_queues={},queue_size=1024,client={}",
ip, vunet_socket_path, num_queues, client_mode
)
};
let mut command = Command::new(clh_command("vhost_user_net"));
command.args(&["--net-backend", net_params.as_str()]);
(command, vunet_socket_path)
}
fn curl_command(api_socket: &str, method: &str, url: &str, http_body: Option<&str>) {
let mut curl_args: Vec<&str> = ["--unix-socket", api_socket, "-i", "-X", method, url].to_vec();
if let Some(body) = http_body {
curl_args.push("-H");
curl_args.push("Accept: application/json");
curl_args.push("-H");
curl_args.push("Content-Type: application/json");
curl_args.push("-d");
curl_args.push(body);
}
let status = Command::new("curl")
.args(curl_args)
.status()
.expect("Failed to launch curl command");
assert!(status.success());
}
fn remote_command(api_socket: &str, command: &str, arg: Option<&str>) -> bool {
let mut cmd = Command::new(clh_command("ch-remote"));
cmd.args(&[&format!("--api-socket={}", api_socket), command]);
if let Some(arg) = arg {
cmd.arg(arg);
}
let output = cmd.output().unwrap();
if output.status.success() {
true
} else {
eprintln!("Error running ch-remote command: {:?}", &cmd);
let stderr = String::from_utf8_lossy(&output.stderr);
eprintln!("stderr: {}", stderr);
false
}
}
fn remote_command_w_output(api_socket: &str, command: &str, arg: Option<&str>) -> (bool, Vec<u8>) {
let mut cmd = Command::new(clh_command("ch-remote"));
cmd.args(&[&format!("--api-socket={}", api_socket), command]);
if let Some(arg) = arg {
cmd.arg(arg);
}
let output = cmd.output().expect("Failed to launch ch-remote");
(output.status.success(), output.stdout)
}
fn resize_command(
api_socket: &str,
desired_vcpus: Option<u8>,
desired_ram: Option<usize>,
desired_balloon: Option<usize>,
event_file: Option<&str>,
) -> bool {
let mut cmd = Command::new(clh_command("ch-remote"));
cmd.args(&[&format!("--api-socket={}", api_socket), "resize"]);
if let Some(desired_vcpus) = desired_vcpus {
cmd.arg(format!("--cpus={}", desired_vcpus));
}
if let Some(desired_ram) = desired_ram {
cmd.arg(format!("--memory={}", desired_ram));
}
if let Some(desired_balloon) = desired_balloon {
cmd.arg(format!("--balloon={}", desired_balloon));
}
let ret = cmd.status().expect("Failed to launch ch-remote").success();
if let Some(event_path) = event_file {
let latest_events = [
&MetaEvent {
event: "resizing".to_string(),
device_id: None,
},
&MetaEvent {
event: "resized".to_string(),
device_id: None,
},
];
assert!(check_latest_events_exact(&latest_events, event_path));
}
ret
}
fn resize_zone_command(api_socket: &str, id: &str, desired_size: &str) -> bool {
let mut cmd = Command::new(clh_command("ch-remote"));
cmd.args(&[
&format!("--api-socket={}", api_socket),
"resize-zone",
&format!("--id={}", id),
&format!("--size={}", desired_size),
]);
cmd.status().expect("Failed to launch ch-remote").success()
}
// setup OVS-DPDK bridge and ports
fn setup_ovs_dpdk() {
// setup OVS-DPDK
assert!(exec_host_command_status("service openvswitch-switch start").success());
assert!(exec_host_command_status("ovs-vsctl init").success());
assert!(
exec_host_command_status("ovs-vsctl set Open_vSwitch . other_config:dpdk-init=true")
.success()
);
assert!(exec_host_command_status("service openvswitch-switch restart").success());
// Create OVS-DPDK bridge and ports
assert!(exec_host_command_status(
"ovs-vsctl add-br ovsbr0 -- set bridge ovsbr0 datapath_type=netdev",
)
.success());
assert!(exec_host_command_status("ovs-vsctl add-port ovsbr0 vhost-user1 -- set Interface vhost-user1 type=dpdkvhostuserclient options:vhost-server-path=/tmp/dpdkvhostclient1").success());
assert!(exec_host_command_status("ovs-vsctl add-port ovsbr0 vhost-user2 -- set Interface vhost-user2 type=dpdkvhostuserclient options:vhost-server-path=/tmp/dpdkvhostclient2").success());
assert!(exec_host_command_status("ip link set up dev ovsbr0").success());
assert!(exec_host_command_status("service openvswitch-switch restart").success());
}
fn cleanup_ovs_dpdk() {
assert!(exec_host_command_status("ovs-vsctl del-br ovsbr0").success());
exec_host_command_status("rm -f ovs-vsctl /tmp/dpdkvhostclient1 /tmp/dpdkvhostclient2");
}
// Setup two guests and ensure they are connected through ovs-dpdk
fn setup_ovs_dpdk_guests(
guest1: &Guest,
guest2: &Guest,
api_socket: &str,
release_binary: bool,
) -> (Child, Child) {
setup_ovs_dpdk();
let clh_path = if !release_binary {
clh_command("cloud-hypervisor")
} else {
cloud_hypervisor_release_path()
};
let mut child1 = GuestCommand::new_with_binary_path(guest1, &clh_path)
.args(&["--cpus", "boot=2"])
.args(&["--memory", "size=0,shared=on"])
.args(&["--memory-zone", "id=mem0,size=1G,shared=on,host_numa_node=0"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.args(&["--net", guest1.default_net_string().as_str(), "vhost_user=true,socket=/tmp/dpdkvhostclient1,num_queues=2,queue_size=256,vhost_mode=server"])
.capture_output()
.spawn()
.unwrap();
#[cfg(target_arch = "x86_64")]
let guest_net_iface = "ens5";
#[cfg(target_arch = "aarch64")]
let guest_net_iface = "enp0s5";
let r = std::panic::catch_unwind(|| {
guest1.wait_vm_boot(None).unwrap();
guest1
.ssh_command(&format!(
"sudo ip addr add 172.100.0.1/24 dev {}",
guest_net_iface
))
.unwrap();
guest1
.ssh_command(&format!("sudo ip link set up dev {}", guest_net_iface))
.unwrap();
let guest_ip = guest1.network.guest_ip.clone();
thread::spawn(move || {
ssh_command_ip(
"nc -l 12345",
&guest_ip,
DEFAULT_SSH_RETRIES,
DEFAULT_SSH_TIMEOUT,
)
.unwrap();
});
});
if r.is_err() {
cleanup_ovs_dpdk();
let _ = child1.kill();
let output = child1.wait_with_output().unwrap();
handle_child_output(r, &output);
panic!("Test should already be failed/panicked"); // To explicitly mark this block never return
}
let mut child2 = GuestCommand::new_with_binary_path(guest2, &clh_path)
.args(&["--api-socket", api_socket])
.args(&["--cpus", "boot=2"])
.args(&["--memory", "size=0,shared=on"])
.args(&["--memory-zone", "id=mem0,size=1G,shared=on,host_numa_node=0"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.args(&["--net", guest2.default_net_string().as_str(), "vhost_user=true,socket=/tmp/dpdkvhostclient2,num_queues=2,queue_size=256,vhost_mode=server"])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest2.wait_vm_boot(None).unwrap();
guest2
.ssh_command(&format!(
"sudo ip addr add 172.100.0.2/24 dev {}",
guest_net_iface
))
.unwrap();
guest2
.ssh_command(&format!("sudo ip link set up dev {}", guest_net_iface))
.unwrap();
// Check the connection works properly between the two VMs
guest2.ssh_command("nc -vz 172.100.0.1 12345").unwrap();
});
if r.is_err() {
cleanup_ovs_dpdk();
let _ = child1.kill();
let _ = child2.kill();
let output = child2.wait_with_output().unwrap();
handle_child_output(r, &output);
panic!("Test should already be failed/panicked"); // To explicitly mark this block never return
}
(child1, child2)
}
enum FwType {
Ovmf,
RustHypervisorFirmware,
}
fn fw_path(_fw_type: FwType) -> String {
let mut workload_path = dirs::home_dir().unwrap();
workload_path.push("workloads");
let mut fw_path = workload_path;
#[cfg(target_arch = "aarch64")]
fw_path.push("CLOUDHV_EFI.fd");
#[cfg(target_arch = "x86_64")]
{
match _fw_type {
FwType::Ovmf => fw_path.push(OVMF_NAME),
FwType::RustHypervisorFirmware => fw_path.push("hypervisor-fw"),
}
}
fw_path.to_str().unwrap().to_string()
}
struct MetaEvent {
event: String,
device_id: Option<String>,
}
impl MetaEvent {
pub fn match_with_json_event(&self, v: &serde_json::Value) -> bool {
let mut matched = false;
if v["event"].as_str().unwrap() == self.event {
if let Some(device_id) = &self.device_id {
if v["properties"]["id"].as_str().unwrap() == device_id {
matched = true
}
} else {
matched = true;
}
}
matched
}
}
// Parse the event_monitor file based on the format that each event
// is followed by a double newline
fn parse_event_file(event_file: &str) -> Vec<serde_json::Value> {
let content = fs::read(event_file).unwrap();
let mut ret = Vec::new();
for entry in String::from_utf8_lossy(&content)
.trim()
.split("\n\n")
.collect::<Vec<&str>>()
{
ret.push(serde_json::from_str(entry).unwrap());
}
ret
}
// Return true if all events from the input 'expected_events' are matched sequentially
// with events from the 'event_file'
fn check_sequential_events(expected_events: &[&MetaEvent], event_file: &str) -> bool {
let json_events = parse_event_file(event_file);
let len = expected_events.len();
let mut idx = 0;
for e in &json_events {
if idx == len {
break;
}
if expected_events[idx].match_with_json_event(e) {
idx += 1;
}
}
idx == len
}
// Return true if all events from the input 'expected_events' are matched exactly
// with events from the 'event_file'
fn check_sequential_events_exact(expected_events: &[&MetaEvent], event_file: &str) -> bool {
let json_events = parse_event_file(event_file);
assert!(expected_events.len() <= json_events.len());
let json_events = &json_events[..expected_events.len()];
for (idx, e) in json_events.iter().enumerate() {
if !expected_events[idx].match_with_json_event(e) {
return false;
}
}
true
}
// Return true if events from the input 'expected_events' are matched exactly
// with the most recent events from the 'event_file'
fn check_latest_events_exact(latest_events: &[&MetaEvent], event_file: &str) -> bool {
let json_events = parse_event_file(event_file);
assert!(latest_events.len() <= json_events.len());
let json_events = &json_events[(json_events.len() - latest_events.len())..];
for (idx, e) in json_events.iter().enumerate() {
if !latest_events[idx].match_with_json_event(e) {
return false;
}
}
true
}
fn test_cpu_topology(threads_per_core: u8, cores_per_package: u8, packages: u8, use_fw: bool) {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let total_vcpus = threads_per_core * cores_per_package * packages;
let direct_kernel_boot_path = direct_kernel_boot_path();
let mut kernel_path = direct_kernel_boot_path.to_str().unwrap();
let fw_path = fw_path(FwType::RustHypervisorFirmware);
if use_fw {
kernel_path = fw_path.as_str();
}
let mut child = GuestCommand::new(&guest)
.args(&[
"--cpus",
&format!(
"boot={},topology={}:{}:1:{}",
total_vcpus, threads_per_core, cores_per_package, packages
),
])
.args(&["--memory", "size=512M"])
.args(&["--kernel", kernel_path])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
assert_eq!(
guest.get_cpu_count().unwrap_or_default(),
u32::from(total_vcpus)
);
assert_eq!(
guest
.ssh_command("lscpu | grep \"per core\" | cut -f 2 -d \":\" | sed \"s# *##\"")
.unwrap()
.trim()
.parse::<u8>()
.unwrap_or(0),
threads_per_core
);
assert_eq!(
guest
.ssh_command("lscpu | grep \"per socket\" | cut -f 2 -d \":\" | sed \"s# *##\"")
.unwrap()
.trim()
.parse::<u8>()
.unwrap_or(0),
cores_per_package
);
assert_eq!(
guest
.ssh_command("lscpu | grep \"Socket\" | cut -f 2 -d \":\" | sed \"s# *##\"")
.unwrap()
.trim()
.parse::<u8>()
.unwrap_or(0),
packages
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[allow(unused_variables)]
fn _test_guest_numa_nodes(acpi: bool) {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let api_socket = temp_api_path(&guest.tmp_dir);
#[cfg(target_arch = "x86_64")]
let kernel_path = direct_kernel_boot_path();
#[cfg(target_arch = "aarch64")]
let kernel_path = if acpi {
edk2_path()
} else {
direct_kernel_boot_path()
};
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=6,max=12"])
.args(&["--memory", "size=0,hotplug_method=virtio-mem"])
.args(&[
"--memory-zone",
"id=mem0,size=1G,hotplug_size=3G",
"id=mem1,size=2G,hotplug_size=3G",
"id=mem2,size=3G,hotplug_size=3G",
])
.args(&[
"--numa",
"guest_numa_id=0,cpus=[0-2,9],distances=[1@15,2@20],memory_zones=mem0",
"guest_numa_id=1,cpus=[3-4,6-8],distances=[0@20,2@25],memory_zones=mem1",
"guest_numa_id=2,cpus=[5,10-11],distances=[0@25,1@30],memory_zones=mem2",
])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.args(&["--api-socket", &api_socket])
.capture_output()
.default_disks()
.default_net()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
guest.check_numa_common(
Some(&[960_000, 1_920_000, 2_880_000]),
Some(&[vec![0, 1, 2], vec![3, 4], vec![5]]),
Some(&["10 15 20", "20 10 25", "25 30 10"]),
);
// AArch64 currently does not support hotplug, and therefore we only
// test hotplug-related function on x86_64 here.
#[cfg(target_arch = "x86_64")]
{
guest.enable_memory_hotplug();
// Resize every memory zone and check each associated NUMA node
// has been assigned the right amount of memory.
resize_zone_command(&api_socket, "mem0", "4G");
resize_zone_command(&api_socket, "mem1", "4G");
resize_zone_command(&api_socket, "mem2", "4G");
// Resize to the maximum amount of CPUs and check each NUMA
// node has been assigned the right CPUs set.
resize_command(&api_socket, Some(12), None, None, None);
thread::sleep(std::time::Duration::new(5, 0));
guest.check_numa_common(
Some(&[3_840_000, 3_840_000, 3_840_000]),
Some(&[vec![0, 1, 2, 9], vec![3, 4, 6, 7, 8], vec![5, 10, 11]]),
None,
);
}
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[allow(unused_variables)]
fn _test_power_button(acpi: bool) {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let mut cmd = GuestCommand::new(&guest);
let api_socket = temp_api_path(&guest.tmp_dir);
#[cfg(target_arch = "x86_64")]
let kernel_path = direct_kernel_boot_path();
#[cfg(target_arch = "aarch64")]
let kernel_path = if acpi {
edk2_path()
} else {
direct_kernel_boot_path()
};
cmd.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.capture_output()
.default_disks()
.default_net()
.args(&["--api-socket", &api_socket]);
let child = cmd.spawn().unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
assert!(remote_command(&api_socket, "power-button", None));
});
let output = child.wait_with_output().unwrap();
assert!(output.status.success());
handle_child_output(r, &output);
}
type PrepareNetDaemon =
dyn Fn(&TempDir, &str, Option<&str>, usize, bool) -> (std::process::Command, String);
fn test_vhost_user_net(
tap: Option<&str>,
num_queues: usize,
prepare_daemon: &PrepareNetDaemon,
generate_host_mac: bool,
client_mode_daemon: bool,
) {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let api_socket = temp_api_path(&guest.tmp_dir);
let kernel_path = direct_kernel_boot_path();
let host_mac = if generate_host_mac {
Some(MacAddr::local_random())
} else {
None
};
let (mut daemon_command, vunet_socket_path) = prepare_daemon(
&guest.tmp_dir,
&guest.network.host_ip,
tap,
num_queues,
client_mode_daemon,
);
let net_params = format!(
"vhost_user=true,mac={},socket={},num_queues={},queue_size=1024{},vhost_mode={}",
guest.network.guest_mac,
vunet_socket_path,
num_queues,
if let Some(host_mac) = host_mac {
format!(",host_mac={}", host_mac)
} else {
"".to_owned()
},
if client_mode_daemon {
"server"
} else {
"client"
},
);
let mut ch_command = GuestCommand::new(&guest);
ch_command
.args(&["--cpus", format!("boot={}", num_queues / 2).as_str()])
.args(&["--memory", "size=512M,hotplug_size=2048M,shared=on"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.args(&["--net", net_params.as_str()])
.args(&["--api-socket", &api_socket])
.capture_output();
let mut daemon_child: std::process::Child;
let mut child: std::process::Child;
if client_mode_daemon {
child = ch_command.spawn().unwrap();
// Make sure the VMM is waiting for the backend to connect
thread::sleep(std::time::Duration::new(10, 0));
daemon_child = daemon_command.spawn().unwrap();
} else {
daemon_child = daemon_command.spawn().unwrap();
// Make sure the backend is waiting for the VMM to connect
thread::sleep(std::time::Duration::new(10, 0));
child = ch_command.spawn().unwrap();
}
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
if let Some(tap_name) = tap {
let tap_count = exec_host_command_output(&format!("ip link | grep -c {}", tap_name));
assert_eq!(String::from_utf8_lossy(&tap_count.stdout).trim(), "1");
}
if let Some(host_mac) = tap {
let mac_count = exec_host_command_output(&format!("ip link | grep -c {}", host_mac));
assert_eq!(String::from_utf8_lossy(&mac_count.stdout).trim(), "1");
}
// 1 network interface + default localhost ==> 2 interfaces
// It's important to note that this test is fully exercising the
// vhost-user-net implementation and the associated backend since
// it does not define any --net network interface. That means all
// the ssh communication in that test happens through the network
// interface backed by vhost-user-net.
assert_eq!(
guest
.ssh_command("ip -o link | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
2
);
// The following pci devices will appear on guest with PCI-MSI
// interrupt vectors assigned.
// 1 virtio-console with 3 vectors: config, Rx, Tx
// 1 virtio-blk with 2 vectors: config, Request
// 1 virtio-blk with 2 vectors: config, Request
// 1 virtio-rng with 2 vectors: config, Request
// Since virtio-net has 2 queue pairs, its vectors is as follows:
// 1 virtio-net with 5 vectors: config, Rx (2), Tx (2)
// Based on the above, the total vectors should 14.
#[cfg(target_arch = "x86_64")]
let grep_cmd = "grep -c PCI-MSI /proc/interrupts";
#[cfg(target_arch = "aarch64")]
let grep_cmd = "grep -c ITS-MSI /proc/interrupts";
assert_eq!(
guest
.ssh_command(grep_cmd)
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
10 + (num_queues as u32)
);
// ACPI feature is needed.
#[cfg(target_arch = "x86_64")]
{
guest.enable_memory_hotplug();
// Add RAM to the VM
let desired_ram = 1024 << 20;
resize_command(&api_socket, None, Some(desired_ram), None, None);
thread::sleep(std::time::Duration::new(10, 0));
// Here by simply checking the size (through ssh), we validate
// the connection is still working, which means vhost-user-net
// keeps working after the resize.
assert!(guest.get_total_memory().unwrap_or_default() > 960_000);
}
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
thread::sleep(std::time::Duration::new(5, 0));
let _ = daemon_child.kill();
let _ = daemon_child.wait();
handle_child_output(r, &output);
}
type PrepareBlkDaemon = dyn Fn(&TempDir, &str, usize, bool, bool) -> (std::process::Child, String);
fn test_vhost_user_blk(
num_queues: usize,
readonly: bool,
direct: bool,
prepare_vhost_user_blk_daemon: Option<&PrepareBlkDaemon>,
) {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let api_socket = temp_api_path(&guest.tmp_dir);
let kernel_path = direct_kernel_boot_path();
let (blk_params, daemon_child) = {
let prepare_daemon = prepare_vhost_user_blk_daemon.unwrap();
// Start the daemon
let (daemon_child, vubd_socket_path) =
prepare_daemon(&guest.tmp_dir, "blk.img", num_queues, readonly, direct);
(
format!(
"vhost_user=true,socket={},num_queues={},queue_size=128",
vubd_socket_path, num_queues,
),
Some(daemon_child),
)
};
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", format!("boot={}", num_queues).as_str()])
.args(&["--memory", "size=512M,hotplug_size=2048M,shared=on"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.args(&[
"--disk",
format!(
"path={}",
guest.disk_config.disk(DiskType::OperatingSystem).unwrap()
)
.as_str(),
format!(
"path={}",
guest.disk_config.disk(DiskType::CloudInit).unwrap()
)
.as_str(),
blk_params.as_str(),
])
.default_net()
.args(&["--api-socket", &api_socket])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Check both if /dev/vdc exists and if the block size is 16M.
assert_eq!(
guest
.ssh_command("lsblk | grep vdc | grep -c 16M")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
// Check if this block is RO or RW.
assert_eq!(
guest
.ssh_command("lsblk | grep vdc | awk '{print $5}'")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
readonly as u32
);
// Check if the number of queues in /sys/block/vdc/mq matches the
// expected num_queues.
assert_eq!(
guest
.ssh_command("ls -ll /sys/block/vdc/mq | grep ^d | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
num_queues as u32
);
// Mount the device
let mount_ro_rw_flag = if readonly { "ro,noload" } else { "rw" };
guest.ssh_command("mkdir mount_image").unwrap();
guest
.ssh_command(
format!(
"sudo mount -o {} -t ext4 /dev/vdc mount_image/",
mount_ro_rw_flag
)
.as_str(),
)
.unwrap();
// Check the content of the block device. The file "foo" should
// contain "bar".
assert_eq!(
guest.ssh_command("cat mount_image/foo").unwrap().trim(),
"bar"
);
// ACPI feature is needed.
#[cfg(target_arch = "x86_64")]
{
guest.enable_memory_hotplug();
// Add RAM to the VM
let desired_ram = 1024 << 20;
resize_command(&api_socket, None, Some(desired_ram), None, None);
thread::sleep(std::time::Duration::new(10, 0));
assert!(guest.get_total_memory().unwrap_or_default() > 960_000);
// Check again the content of the block device after the resize
// has been performed.
assert_eq!(
guest.ssh_command("cat mount_image/foo").unwrap().trim(),
"bar"
);
}
// Unmount the device
guest.ssh_command("sudo umount /dev/vdc").unwrap();
guest.ssh_command("rm -r mount_image").unwrap();
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
if let Some(mut daemon_child) = daemon_child {
thread::sleep(std::time::Duration::new(5, 0));
let _ = daemon_child.kill();
let _ = daemon_child.wait();
}
handle_child_output(r, &output);
}
fn test_boot_from_vhost_user_blk(
num_queues: usize,
readonly: bool,
direct: bool,
prepare_vhost_user_blk_daemon: Option<&PrepareBlkDaemon>,
) {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let kernel_path = direct_kernel_boot_path();
let disk_path = guest.disk_config.disk(DiskType::OperatingSystem).unwrap();
let (blk_boot_params, daemon_child) = {
let prepare_daemon = prepare_vhost_user_blk_daemon.unwrap();
// Start the daemon
let (daemon_child, vubd_socket_path) = prepare_daemon(
&guest.tmp_dir,
disk_path.as_str(),
num_queues,
readonly,
direct,
);
(
format!(
"vhost_user=true,socket={},num_queues={},queue_size=128",
vubd_socket_path, num_queues,
),
Some(daemon_child),
)
};
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", format!("boot={}", num_queues).as_str()])
.args(&["--memory", "size=512M,shared=on"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.args(&[
"--disk",
blk_boot_params.as_str(),
format!(
"path={}",
guest.disk_config.disk(DiskType::CloudInit).unwrap()
)
.as_str(),
])
.default_net()
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Just check the VM booted correctly.
assert_eq!(guest.get_cpu_count().unwrap_or_default(), num_queues as u32);
assert!(guest.get_total_memory().unwrap_or_default() > 480_000);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
if let Some(mut daemon_child) = daemon_child {
thread::sleep(std::time::Duration::new(5, 0));
let _ = daemon_child.kill();
let _ = daemon_child.wait();
}
handle_child_output(r, &output);
}
fn _test_virtio_fs(
prepare_daemon: &dyn Fn(&TempDir, &str) -> (std::process::Child, String),
hotplug: bool,
pci_segment: Option<u16>,
) {
#[cfg(target_arch = "aarch64")]
let focal_image = if hotplug {
FOCAL_IMAGE_UPDATE_KERNEL_NAME.to_string()
} else {
FOCAL_IMAGE_NAME.to_string()
};
#[cfg(target_arch = "x86_64")]
let focal_image = FOCAL_IMAGE_NAME.to_string();
let focal = UbuntuDiskConfig::new(focal_image);
let guest = Guest::new(Box::new(focal));
let api_socket = temp_api_path(&guest.tmp_dir);
let mut workload_path = dirs::home_dir().unwrap();
workload_path.push("workloads");
let mut shared_dir = workload_path;
shared_dir.push("shared_dir");
#[cfg(target_arch = "x86_64")]
let kernel_path = direct_kernel_boot_path();
#[cfg(target_arch = "aarch64")]
let kernel_path = if hotplug {
edk2_path()
} else {
direct_kernel_boot_path()
};
let (mut daemon_child, virtiofsd_socket_path) =
prepare_daemon(&guest.tmp_dir, shared_dir.to_str().unwrap());
let mut guest_command = GuestCommand::new(&guest);
guest_command
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M,hotplug_size=2048M,shared=on"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.default_net()
.args(&["--api-socket", &api_socket]);
if pci_segment.is_some() {
guest_command.args(&["--platform", "num_pci_segments=16"]);
}
let fs_params = format!(
"id=myfs0,tag=myfs,socket={},num_queues=1,queue_size=1024{}",
virtiofsd_socket_path,
if let Some(pci_segment) = pci_segment {
format!(",pci_segment={}", pci_segment)
} else {
"".to_owned()
}
);
if !hotplug {
guest_command.args(&["--fs", fs_params.as_str()]);
}
let mut child = guest_command.capture_output().spawn().unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
if hotplug {
// Add fs to the VM
let (cmd_success, cmd_output) =
remote_command_w_output(&api_socket, "add-fs", Some(&fs_params));
assert!(cmd_success);
if let Some(pci_segment) = pci_segment {
assert!(String::from_utf8_lossy(&cmd_output).contains(&format!(
"{{\"id\":\"myfs0\",\"bdf\":\"{:04x}:00:01.0\"}}",
pci_segment
)));
} else {
assert!(String::from_utf8_lossy(&cmd_output)
.contains("{\"id\":\"myfs0\",\"bdf\":\"0000:00:06.0\"}"));
}
thread::sleep(std::time::Duration::new(10, 0));
}
// Mount shared directory through virtio_fs filesystem
guest
.ssh_command("mkdir -p mount_dir && sudo mount -t virtiofs myfs mount_dir/")
.unwrap();
// Check file1 exists and its content is "foo"
assert_eq!(
guest.ssh_command("cat mount_dir/file1").unwrap().trim(),
"foo"
);
// Check file2 does not exist
guest
.ssh_command("[ ! -f 'mount_dir/file2' ] || true")
.unwrap();
// Check file3 exists and its content is "bar"
assert_eq!(
guest.ssh_command("cat mount_dir/file3").unwrap().trim(),
"bar"
);
// ACPI feature is needed.
#[cfg(target_arch = "x86_64")]
{
guest.enable_memory_hotplug();
// Add RAM to the VM
let desired_ram = 1024 << 20;
resize_command(&api_socket, None, Some(desired_ram), None, None);
thread::sleep(std::time::Duration::new(30, 0));
assert!(guest.get_total_memory().unwrap_or_default() > 960_000);
// After the resize, check again that file1 exists and its
// content is "foo".
assert_eq!(
guest.ssh_command("cat mount_dir/file1").unwrap().trim(),
"foo"
);
}
if hotplug {
// Remove from VM
guest.ssh_command("sudo umount mount_dir").unwrap();
assert!(remote_command(&api_socket, "remove-device", Some("myfs0")));
}
});
let (r, hotplug_daemon_child) = if r.is_ok() && hotplug {
thread::sleep(std::time::Duration::new(10, 0));
let (daemon_child, virtiofsd_socket_path) =
prepare_daemon(&guest.tmp_dir, shared_dir.to_str().unwrap());
let r = std::panic::catch_unwind(|| {
thread::sleep(std::time::Duration::new(10, 0));
let fs_params = format!(
"id=myfs0,tag=myfs,socket={},num_queues=1,queue_size=1024{}",
virtiofsd_socket_path,
if let Some(pci_segment) = pci_segment {
format!(",pci_segment={}", pci_segment)
} else {
"".to_owned()
}
);
// Add back and check it works
let (cmd_success, cmd_output) =
remote_command_w_output(&api_socket, "add-fs", Some(&fs_params));
assert!(cmd_success);
if let Some(pci_segment) = pci_segment {
assert!(String::from_utf8_lossy(&cmd_output).contains(&format!(
"{{\"id\":\"myfs0\",\"bdf\":\"{:04x}:00:01.0\"}}",
pci_segment
)));
} else {
assert!(String::from_utf8_lossy(&cmd_output)
.contains("{\"id\":\"myfs0\",\"bdf\":\"0000:00:06.0\"}"));
}
thread::sleep(std::time::Duration::new(10, 0));
// Mount shared directory through virtio_fs filesystem
guest
.ssh_command("mkdir -p mount_dir && sudo mount -t virtiofs myfs mount_dir/")
.unwrap();
// Check file1 exists and its content is "foo"
assert_eq!(
guest.ssh_command("cat mount_dir/file1").unwrap().trim(),
"foo"
);
});
(r, Some(daemon_child))
} else {
(r, None)
};
let _ = child.kill();
let output = child.wait_with_output().unwrap();
let _ = daemon_child.kill();
let _ = daemon_child.wait();
if let Some(mut daemon_child) = hotplug_daemon_child {
let _ = daemon_child.kill();
let _ = daemon_child.wait();
}
handle_child_output(r, &output);
}
fn test_virtio_pmem(discard_writes: bool, specify_size: bool) {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let kernel_path = direct_kernel_boot_path();
let pmem_temp_file = TempFile::new().unwrap();
pmem_temp_file.as_file().set_len(128 << 20).unwrap();
std::process::Command::new("mkfs.ext4")
.arg(pmem_temp_file.as_path())
.output()
.expect("Expect creating disk image to succeed");
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.default_net()
.args(&[
"--pmem",
format!(
"file={}{}{}",
pmem_temp_file.as_path().to_str().unwrap(),
if specify_size { ",size=128M" } else { "" },
if discard_writes {
",discard_writes=on"
} else {
""
}
)
.as_str(),
])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Check for the presence of /dev/pmem0
assert_eq!(
guest.ssh_command("ls /dev/pmem0").unwrap().trim(),
"/dev/pmem0"
);
// Check changes persist after reboot
assert_eq!(guest.ssh_command("sudo mount /dev/pmem0 /mnt").unwrap(), "");
assert_eq!(guest.ssh_command("ls /mnt").unwrap(), "lost+found\n");
guest
.ssh_command("echo test123 | sudo tee /mnt/test")
.unwrap();
assert_eq!(guest.ssh_command("sudo umount /mnt").unwrap(), "");
assert_eq!(guest.ssh_command("ls /mnt").unwrap(), "");
guest.reboot_linux(0, None);
assert_eq!(guest.ssh_command("sudo mount /dev/pmem0 /mnt").unwrap(), "");
assert_eq!(
guest
.ssh_command("sudo cat /mnt/test || true")
.unwrap()
.trim(),
if discard_writes { "" } else { "test123" }
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
fn get_fd_count(pid: u32) -> usize {
fs::read_dir(format!("/proc/{}/fd", pid)).unwrap().count()
}
fn _test_virtio_vsock(hotplug: bool) {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
#[cfg(target_arch = "x86_64")]
let kernel_path = direct_kernel_boot_path();
#[cfg(target_arch = "aarch64")]
let kernel_path = if hotplug {
edk2_path()
} else {
direct_kernel_boot_path()
};
let socket = temp_vsock_path(&guest.tmp_dir);
let api_socket = temp_api_path(&guest.tmp_dir);
let mut cmd = GuestCommand::new(&guest);
cmd.args(&["--api-socket", &api_socket]);
cmd.args(&["--cpus", "boot=1"]);
cmd.args(&["--memory", "size=512M"]);
cmd.args(&["--kernel", kernel_path.to_str().unwrap()]);
cmd.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE]);
cmd.default_disks();
cmd.default_net();
if !hotplug {
cmd.args(&["--vsock", format!("cid=3,socket={}", socket).as_str()]);
}
let mut child = cmd.capture_output().spawn().unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
if hotplug {
let (cmd_success, cmd_output) = remote_command_w_output(
&api_socket,
"add-vsock",
Some(format!("cid=3,socket={},id=test0", socket).as_str()),
);
assert!(cmd_success);
assert!(String::from_utf8_lossy(&cmd_output)
.contains("{\"id\":\"test0\",\"bdf\":\"0000:00:06.0\"}"));
thread::sleep(std::time::Duration::new(10, 0));
// Check adding a second one fails
assert!(!remote_command(
&api_socket,
"add-vsock",
Some("cid=1234,socket=/tmp/fail")
));
}
// Validate vsock works as expected.
guest.check_vsock(socket.as_str());
guest.reboot_linux(0, None);
// Validate vsock still works after a reboot.
guest.check_vsock(socket.as_str());
if hotplug {
assert!(remote_command(&api_socket, "remove-device", Some("test0")));
}
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
fn get_ksm_pages_shared() -> u32 {
fs::read_to_string("/sys/kernel/mm/ksm/pages_shared")
.unwrap()
.trim()
.parse::<u32>()
.unwrap()
}
fn test_memory_mergeable(mergeable: bool) {
let memory_param = if mergeable {
"mergeable=on"
} else {
"mergeable=off"
};
// We are assuming the rest of the system in our CI is not using mergeable memeory
let ksm_ps_init = get_ksm_pages_shared();
assert!(ksm_ps_init == 0);
let focal1 = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest1 = Guest::new(Box::new(focal1));
let mut child1 = GuestCommand::new(&guest1)
.args(&["--cpus", "boot=1"])
.args(&["--memory", format!("size=512M,{}", memory_param).as_str()])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.args(&["--net", guest1.default_net_string().as_str()])
.args(&["--serial", "tty", "--console", "off"])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest1.wait_vm_boot(None).unwrap();
});
if r.is_err() {
let _ = child1.kill();
let output = child1.wait_with_output().unwrap();
handle_child_output(r, &output);
panic!("Test should already be failed/panicked"); // To explicitly mark this block never return
}
let ksm_ps_guest1 = get_ksm_pages_shared();
let focal2 = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest2 = Guest::new(Box::new(focal2));
let mut child2 = GuestCommand::new(&guest2)
.args(&["--cpus", "boot=1"])
.args(&["--memory", format!("size=512M,{}", memory_param).as_str()])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.args(&["--net", guest2.default_net_string().as_str()])
.args(&["--serial", "tty", "--console", "off"])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest2.wait_vm_boot(None).unwrap();
let ksm_ps_guest2 = get_ksm_pages_shared();
if mergeable {
println!(
"ksm pages_shared after vm1 booted '{}', ksm pages_shared after vm2 booted '{}'",
ksm_ps_guest1, ksm_ps_guest2
);
// We are expecting the number of shared pages to increase as the number of VM increases
assert!(ksm_ps_guest1 < ksm_ps_guest2);
} else {
assert!(ksm_ps_guest1 == 0);
assert!(ksm_ps_guest2 == 0);
}
});
let _ = child1.kill();
let _ = child2.kill();
let output = child1.wait_with_output().unwrap();
child2.wait().unwrap();
handle_child_output(r, &output);
}
fn _get_vmm_overhead(pid: u32, guest_memory_size: u32) -> HashMap<String, u32> {
let smaps = fs::File::open(format!("/proc/{}/smaps", pid)).unwrap();
let reader = io::BufReader::new(smaps);
let mut skip_map: bool = false;
let mut region_name: String = "".to_string();
let mut region_maps = HashMap::new();
for line in reader.lines() {
let l = line.unwrap();
if l.contains('-') {
let values: Vec<&str> = l.split_whitespace().collect();
region_name = values.last().unwrap().trim().to_string();
if region_name == "0" {
region_name = "anonymous".to_string()
}
}
// Each section begins with something that looks like:
// Size: 2184 kB
if l.starts_with("Size:") {
let values: Vec<&str> = l.split_whitespace().collect();
let map_size = values[1].parse::<u32>().unwrap();
// We skip the assigned guest RAM map, its RSS is only
// dependent on the guest actual memory usage.
// Everything else can be added to the VMM overhead.
skip_map = map_size >= guest_memory_size;
continue;
}
// If this is a map we're taking into account, then we only
// count the RSS. The sum of all counted RSS is the VMM overhead.
if !skip_map && l.starts_with("Rss:") {
let values: Vec<&str> = l.split_whitespace().collect();
let value = values[1].trim().parse::<u32>().unwrap();
*region_maps.entry(region_name.clone()).or_insert(0) += value;
}
}
region_maps
}
fn get_vmm_overhead(pid: u32, guest_memory_size: u32) -> u32 {
let mut total = 0;
for (region_name, value) in &_get_vmm_overhead(pid, guest_memory_size) {
eprintln!("{}: {}", region_name, value);
total += value;
}
total
}
fn process_rss_kib(pid: u32) -> usize {
let command = format!("ps -q {} -o rss=", pid);
let rss = exec_host_command_output(&command);
String::from_utf8_lossy(&rss.stdout).trim().parse().unwrap()
}
// 10MB is our maximum accepted overhead.
const MAXIMUM_VMM_OVERHEAD_KB: u32 = 10 * 1024;
#[derive(PartialEq, Eq, PartialOrd)]
struct Counters {
rx_bytes: u64,
rx_frames: u64,
tx_bytes: u64,
tx_frames: u64,
read_bytes: u64,
write_bytes: u64,
read_ops: u64,
write_ops: u64,
}
fn get_counters(api_socket: &str) -> Counters {
// Get counters
let (cmd_success, cmd_output) = remote_command_w_output(api_socket, "counters", None);
assert!(cmd_success);
let counters: HashMap<&str, HashMap<&str, u64>> =
serde_json::from_slice(&cmd_output).unwrap_or_default();
let rx_bytes = *counters.get("_net2").unwrap().get("rx_bytes").unwrap();
let rx_frames = *counters.get("_net2").unwrap().get("rx_frames").unwrap();
let tx_bytes = *counters.get("_net2").unwrap().get("tx_bytes").unwrap();
let tx_frames = *counters.get("_net2").unwrap().get("tx_frames").unwrap();
let read_bytes = *counters.get("_disk0").unwrap().get("read_bytes").unwrap();
let write_bytes = *counters.get("_disk0").unwrap().get("write_bytes").unwrap();
let read_ops = *counters.get("_disk0").unwrap().get("read_ops").unwrap();
let write_ops = *counters.get("_disk0").unwrap().get("write_ops").unwrap();
Counters {
rx_bytes,
rx_frames,
tx_bytes,
tx_frames,
read_bytes,
write_bytes,
read_ops,
write_ops,
}
}
fn pty_read(mut pty: std::fs::File) -> Receiver<String> {
let (tx, rx) = mpsc::channel::<String>();
thread::spawn(move || loop {
thread::sleep(std::time::Duration::new(1, 0));
let mut buf = [0; 512];
match pty.read(&mut buf) {
Ok(_) => {
let output = std::str::from_utf8(&buf).unwrap().to_string();
match tx.send(output) {
Ok(_) => (),
Err(_) => break,
}
}
Err(_) => break,
}
});
rx
}
fn get_pty_path(api_socket: &str, pty_type: &str) -> PathBuf {
let (cmd_success, cmd_output) = remote_command_w_output(api_socket, "info", None);
assert!(cmd_success);
let info: serde_json::Value = serde_json::from_slice(&cmd_output).unwrap_or_default();
assert_eq!("Pty", info["config"][pty_type]["mode"]);
PathBuf::from(
info["config"][pty_type]["file"]
.as_str()
.expect("Missing pty path"),
)
}
// VFIO test network setup.
// We reserve a different IP class for it: 172.18.0.0/24.
#[cfg(target_arch = "x86_64")]
fn setup_vfio_network_interfaces() {
// 'vfio-br0'
assert!(exec_host_command_status("sudo ip link add name vfio-br0 type bridge").success());
assert!(exec_host_command_status("sudo ip link set vfio-br0 up").success());
assert!(exec_host_command_status("sudo ip addr add 172.18.0.1/24 dev vfio-br0").success());
// 'vfio-tap0'
assert!(exec_host_command_status("sudo ip tuntap add vfio-tap0 mode tap").success());
assert!(exec_host_command_status("sudo ip link set vfio-tap0 master vfio-br0").success());
assert!(exec_host_command_status("sudo ip link set vfio-tap0 up").success());
// 'vfio-tap1'
assert!(exec_host_command_status("sudo ip tuntap add vfio-tap1 mode tap").success());
assert!(exec_host_command_status("sudo ip link set vfio-tap1 master vfio-br0").success());
assert!(exec_host_command_status("sudo ip link set vfio-tap1 up").success());
// 'vfio-tap2'
assert!(exec_host_command_status("sudo ip tuntap add vfio-tap2 mode tap").success());
assert!(exec_host_command_status("sudo ip link set vfio-tap2 master vfio-br0").success());
assert!(exec_host_command_status("sudo ip link set vfio-tap2 up").success());
// 'vfio-tap3'
assert!(exec_host_command_status("sudo ip tuntap add vfio-tap3 mode tap").success());
assert!(exec_host_command_status("sudo ip link set vfio-tap3 master vfio-br0").success());
assert!(exec_host_command_status("sudo ip link set vfio-tap3 up").success());
}
// Tear VFIO test network down
#[cfg(target_arch = "x86_64")]
fn cleanup_vfio_network_interfaces() {
assert!(exec_host_command_status("sudo ip link del vfio-br0").success());
assert!(exec_host_command_status("sudo ip link del vfio-tap0").success());
assert!(exec_host_command_status("sudo ip link del vfio-tap1").success());
assert!(exec_host_command_status("sudo ip link del vfio-tap2").success());
assert!(exec_host_command_status("sudo ip link del vfio-tap3").success());
}
fn balloon_size(api_socket: &str) -> u64 {
let (cmd_success, cmd_output) = remote_command_w_output(api_socket, "info", None);
assert!(cmd_success);
let info: serde_json::Value = serde_json::from_slice(&cmd_output).unwrap_or_default();
let total_mem = &info["config"]["memory"]["size"]
.to_string()
.parse::<u64>()
.unwrap();
let actual_mem = &info["memory_actual_size"]
.to_string()
.parse::<u64>()
.unwrap();
total_mem - actual_mem
}
// This test validates that it can find the virtio-iommu device at first.
// It also verifies that both disks and the network card are attached to
// the virtual IOMMU by looking at /sys/kernel/iommu_groups directory.
// The last interesting part of this test is that it exercises the network
// interface attached to the virtual IOMMU since this is the one used to
// send all commands through SSH.
fn _test_virtio_iommu(acpi: bool) {
// Virtio-iommu support is ready in recent kernel (v5.14). But the kernel in
// Focal image is still old.
// So if ACPI is enabled on AArch64, we use a modified Focal image in which
// the kernel binary has been updated.
#[cfg(target_arch = "aarch64")]
let focal_image = FOCAL_IMAGE_UPDATE_KERNEL_NAME.to_string();
#[cfg(target_arch = "x86_64")]
let focal_image = FOCAL_IMAGE_NAME.to_string();
let focal = UbuntuDiskConfig::new(focal_image);
let guest = Guest::new(Box::new(focal));
#[cfg(target_arch = "x86_64")]
let kernel_path = direct_kernel_boot_path();
#[cfg(target_arch = "aarch64")]
let kernel_path = if acpi {
edk2_path()
} else {
direct_kernel_boot_path()
};
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.args(&[
"--disk",
format!(
"path={},iommu=on",
guest.disk_config.disk(DiskType::OperatingSystem).unwrap()
)
.as_str(),
format!(
"path={},iommu=on",
guest.disk_config.disk(DiskType::CloudInit).unwrap()
)
.as_str(),
])
.args(&["--net", guest.default_net_string_w_iommu().as_str()])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Verify the virtio-iommu device is present.
assert!(guest
.does_device_vendor_pair_match("0x1057", "0x1af4")
.unwrap_or_default());
// On AArch64, if the guest system boots from FDT, the behavior of IOMMU is a bit
// different with ACPI.
// All devices on the PCI bus will be attached to the virtual IOMMU, except the
// virtio-iommu device itself. So these devices will all be added to IOMMU groups,
// and appear under folder '/sys/kernel/iommu_groups/'.
// The result is, in the case of FDT, IOMMU group '0' contains "0000:00:01.0"
// which is the console. The first disk "0000:00:02.0" is in group '1'.
// While on ACPI, console device is not attached to IOMMU. So the IOMMU group '0'
// contains "0000:00:02.0" which is the first disk.
//
// Verify the iommu group of the first disk.
let iommu_group = if acpi { 0 } else { 1 };
assert_eq!(
guest
.ssh_command(
format!("ls /sys/kernel/iommu_groups/{}/devices", iommu_group).as_str()
)
.unwrap()
.trim(),
"0000:00:02.0"
);
// Verify the iommu group of the second disk.
let iommu_group = if acpi { 1 } else { 2 };
assert_eq!(
guest
.ssh_command(
format!("ls /sys/kernel/iommu_groups/{}/devices", iommu_group).as_str()
)
.unwrap()
.trim(),
"0000:00:03.0"
);
// Verify the iommu group of the network card.
let iommu_group = if acpi { 2 } else { 3 };
assert_eq!(
guest
.ssh_command(
format!("ls /sys/kernel/iommu_groups/{}/devices", iommu_group).as_str()
)
.unwrap()
.trim(),
"0000:00:04.0"
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
fn enable_guest_watchdog(guest: &Guest, current_reboot_count: &mut u32) {
// Check for PCI device
assert!(guest
.does_device_vendor_pair_match("0x1063", "0x1af4")
.unwrap_or_default());
// Enable systemd watchdog
guest
.ssh_command("echo RuntimeWatchdogSec=15s | sudo tee -a /etc/systemd/system.conf")
.unwrap();
guest.ssh_command("sudo reboot").unwrap();
guest.wait_vm_boot(None).unwrap();
// Check that systemd has activated the watchdog
assert_eq!(
guest
.ssh_command("sudo journalctl | grep -c -- \"Watchdog started\"")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
2
);
// Ensure that the current boot journal is written so reboot counts are valid
guest.ssh_command("sudo journalctl --sync").unwrap();
*current_reboot_count += 1;
let boot_count = guest
.ssh_command("sudo journalctl --list-boots | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default();
assert_eq!(boot_count, *current_reboot_count);
}
fn check_guest_watchdog_no_reboot(guest: &Guest, current_reboot_count: &u32) {
// Allow some normal time to elapse to check we don't get spurious reboots
thread::sleep(std::time::Duration::new(40, 0));
// Check no reboot
let boot_count = guest
.ssh_command("sudo journalctl --list-boots | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default();
assert_eq!(boot_count, *current_reboot_count);
}
fn check_guest_watchdog_one_reboot(
guest: &Guest,
_api_socket: &str,
current_reboot_count: &mut u32,
) {
// Trigger a panic (sync first). We need to do this inside a screen with a delay so the SSH command returns.
guest.ssh_command("screen -dmS reboot sh -c \"sleep 5; echo s | tee /proc/sysrq-trigger; echo c | sudo tee /proc/sysrq-trigger\"").unwrap();
// Allow some time for the watchdog to trigger (max 30s) and reboot to happen
guest.wait_vm_boot(Some(50)).unwrap();
// Check that watchdog triggered reboot
*current_reboot_count += 1;
let boot_count = guest
.ssh_command("sudo journalctl --list-boots | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default();
assert_eq!(boot_count, *current_reboot_count);
#[cfg(target_arch = "x86_64")]
{
// Now pause the VM and remain offline for 30s
assert!(remote_command(_api_socket, "pause", None));
thread::sleep(std::time::Duration::new(30, 0));
assert!(remote_command(_api_socket, "resume", None));
// Check no reboot
let boot_count = guest
.ssh_command("sudo journalctl --list-boots | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default();
assert_eq!(boot_count, *current_reboot_count);
}
}
mod parallel {
use std::io::SeekFrom;
use crate::*;
#[test]
#[cfg(target_arch = "x86_64")]
fn test_bionic_hypervisor_fw() {
test_simple_launch(fw_path(FwType::RustHypervisorFirmware), BIONIC_IMAGE_NAME)
}
#[test]
#[cfg(target_arch = "x86_64")]
fn test_focal_hypervisor_fw() {
test_simple_launch(fw_path(FwType::RustHypervisorFirmware), FOCAL_IMAGE_NAME)
}
#[test]
#[cfg(target_arch = "x86_64")]
fn test_bionic_ovmf() {
test_simple_launch(fw_path(FwType::Ovmf), BIONIC_IMAGE_NAME)
}
#[test]
#[cfg(target_arch = "x86_64")]
fn test_focal_ovmf() {
test_simple_launch(fw_path(FwType::Ovmf), FOCAL_IMAGE_NAME)
}
#[cfg(target_arch = "x86_64")]
fn test_simple_launch(fw_path: String, disk_path: &str) {
let disk_config = Box::new(UbuntuDiskConfig::new(disk_path.to_string()));
let guest = Guest::new(disk_config);
let event_path = temp_event_monitor_path(&guest.tmp_dir);
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", fw_path.as_str()])
.default_disks()
.default_net()
.args(&["--serial", "tty", "--console", "off"])
.args(&["--event-monitor", format!("path={}", event_path).as_str()])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(Some(120)).unwrap();
assert_eq!(guest.get_cpu_count().unwrap_or_default(), 1);
assert_eq!(guest.get_initial_apicid().unwrap_or(1), 0);
assert!(guest.get_total_memory().unwrap_or_default() > 480_000);
assert_eq!(guest.get_pci_bridge_class().unwrap_or_default(), "0x060000");
let expected_sequential_events = [
&MetaEvent {
event: "starting".to_string(),
device_id: None,
},
&MetaEvent {
event: "booting".to_string(),
device_id: None,
},
&MetaEvent {
event: "booted".to_string(),
device_id: None,
},
&MetaEvent {
event: "activated".to_string(),
device_id: Some("_disk0".to_string()),
},
&MetaEvent {
event: "reset".to_string(),
device_id: Some("_disk0".to_string()),
},
];
assert!(check_sequential_events(
&expected_sequential_events,
&event_path
));
// It's been observed on the Bionic image that udev and snapd
// services can cause some delay in the VM's shutdown. Disabling
// them improves the reliability of this test.
let _ = guest.ssh_command("sudo systemctl disable udev");
let _ = guest.ssh_command("sudo systemctl stop udev");
let _ = guest.ssh_command("sudo systemctl disable snapd");
let _ = guest.ssh_command("sudo systemctl stop snapd");
guest.ssh_command("sudo poweroff").unwrap();
thread::sleep(std::time::Duration::new(10, 0));
let latest_events = [
&MetaEvent {
event: "shutdown".to_string(),
device_id: None,
},
&MetaEvent {
event: "deleted".to_string(),
device_id: None,
},
&MetaEvent {
event: "shutdown".to_string(),
device_id: None,
},
];
assert!(check_latest_events_exact(&latest_events, &event_path));
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_multi_cpu() {
let bionic = UbuntuDiskConfig::new(BIONIC_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(bionic));
let mut cmd = GuestCommand::new(&guest);
cmd.args(&["--cpus", "boot=2,max=4"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.capture_output()
.default_disks()
.default_net();
let mut child = cmd.spawn().unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(Some(120)).unwrap();
assert_eq!(guest.get_cpu_count().unwrap_or_default(), 2);
#[cfg(target_arch = "x86_64")]
assert_eq!(
guest
.ssh_command(r#"dmesg | grep "smpboot: Allowing" | sed "s/\[\ *[0-9.]*\] //""#)
.unwrap()
.trim(),
"smpboot: Allowing 4 CPUs, 2 hotplug CPUs"
);
#[cfg(target_arch = "aarch64")]
assert_eq!(
guest
.ssh_command(r#"dmesg | grep "smp: Brought up" | sed "s/\[\ *[0-9.]*\] //""#)
.unwrap()
.trim(),
"smp: Brought up 1 node, 2 CPUs"
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_cpu_topology_421() {
test_cpu_topology(4, 2, 1, false);
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_cpu_topology_142() {
test_cpu_topology(1, 4, 2, false);
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_cpu_topology_262() {
test_cpu_topology(2, 6, 2, false);
}
#[test]
#[cfg(target_arch = "x86_64")]
#[cfg(not(feature = "mshv"))]
fn test_cpu_physical_bits() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let max_phys_bits: u8 = 36;
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", &format!("max_phys_bits={}", max_phys_bits)])
.args(&["--memory", "size=512M"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
assert!(
guest
.ssh_command("lscpu | grep \"Address sizes:\" | cut -f 2 -d \":\" | sed \"s# *##\" | cut -f 1 -d \" \"")
.unwrap()
.trim()
.parse::<u8>()
.unwrap_or(max_phys_bits + 1) <= max_phys_bits,
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_cpu_affinity() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
// We need the host to have at least 4 CPUs if we want to be able
// to run this test.
let host_cpus_count = exec_host_command_output("nproc");
assert!(
String::from_utf8_lossy(&host_cpus_count.stdout)
.trim()
.parse::<u8>()
.unwrap_or(0)
>= 4
);
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=2,affinity=[0@[0,2],1@[1,3]]"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
let pid = child.id();
let taskset_vcpu0 = exec_host_command_output(format!("taskset -pc $(ps -T -p {} | grep vcpu0 | xargs | cut -f 2 -d \" \") | cut -f 6 -d \" \"", pid).as_str());
assert_eq!(String::from_utf8_lossy(&taskset_vcpu0.stdout).trim(), "0,2");
let taskset_vcpu1 = exec_host_command_output(format!("taskset -pc $(ps -T -p {} | grep vcpu1 | xargs | cut -f 2 -d \" \") | cut -f 6 -d \" \"", pid).as_str());
assert_eq!(String::from_utf8_lossy(&taskset_vcpu1.stdout).trim(), "1,3");
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_large_vm() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let mut cmd = GuestCommand::new(&guest);
cmd.args(&["--cpus", "boot=48"])
.args(&["--memory", "size=5120M"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.args(&["--serial", "tty"])
.args(&["--console", "off"])
.capture_output()
.default_disks()
.default_net();
let mut child = cmd.spawn().unwrap();
guest.wait_vm_boot(None).unwrap();
let r = std::panic::catch_unwind(|| {
assert_eq!(guest.get_cpu_count().unwrap_or_default(), 48);
assert_eq!(
guest
.ssh_command("lscpu | grep \"On-line\" | cut -f 2 -d \":\" | sed \"s# *##\"")
.unwrap()
.trim(),
"0-47"
);
assert!(guest.get_total_memory().unwrap_or_default() > 5_000_000);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_huge_memory() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let mut cmd = GuestCommand::new(&guest);
cmd.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=128G"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.capture_output()
.default_disks()
.default_net();
let mut child = cmd.spawn().unwrap();
guest.wait_vm_boot(Some(120)).unwrap();
let r = std::panic::catch_unwind(|| {
assert!(guest.get_total_memory().unwrap_or_default() > 128_000_000);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_power_button() {
_test_power_button(false);
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_user_defined_memory_regions() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let api_socket = temp_api_path(&guest.tmp_dir);
let kernel_path = direct_kernel_boot_path();
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=0,hotplug_method=virtio-mem"])
.args(&[
"--memory-zone",
"id=mem0,size=1G,hotplug_size=2G",
"id=mem1,size=1G,file=/dev/shm",
"id=mem2,size=1G,host_numa_node=0,hotplug_size=2G",
])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.args(&["--api-socket", &api_socket])
.capture_output()
.default_disks()
.default_net()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
assert!(guest.get_total_memory().unwrap_or_default() > 2_880_000);
guest.enable_memory_hotplug();
resize_zone_command(&api_socket, "mem0", "3G");
thread::sleep(std::time::Duration::new(5, 0));
assert!(guest.get_total_memory().unwrap_or_default() > 4_800_000);
resize_zone_command(&api_socket, "mem2", "3G");
thread::sleep(std::time::Duration::new(5, 0));
assert!(guest.get_total_memory().unwrap_or_default() > 6_720_000);
resize_zone_command(&api_socket, "mem0", "2G");
thread::sleep(std::time::Duration::new(5, 0));
assert!(guest.get_total_memory().unwrap_or_default() > 5_760_000);
resize_zone_command(&api_socket, "mem2", "2G");
thread::sleep(std::time::Duration::new(5, 0));
assert!(guest.get_total_memory().unwrap_or_default() > 4_800_000);
guest.reboot_linux(0, None);
// Check the amount of RAM after reboot
assert!(guest.get_total_memory().unwrap_or_default() > 4_800_000);
assert!(guest.get_total_memory().unwrap_or_default() < 5_760_000);
// Check if we can still resize down to the initial 'boot'size
resize_zone_command(&api_socket, "mem0", "1G");
thread::sleep(std::time::Duration::new(5, 0));
assert!(guest.get_total_memory().unwrap_or_default() < 4_800_000);
resize_zone_command(&api_socket, "mem2", "1G");
thread::sleep(std::time::Duration::new(5, 0));
assert!(guest.get_total_memory().unwrap_or_default() < 3_840_000);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_guest_numa_nodes() {
_test_guest_numa_nodes(false);
}
#[test]
#[cfg(target_arch = "x86_64")]
fn test_iommu_segments() {
let focal_image = FOCAL_IMAGE_NAME.to_string();
let focal = UbuntuDiskConfig::new(focal_image);
let guest = Guest::new(Box::new(focal));
// Prepare another disk file for the virtio-disk device
let test_disk_path = String::from(
guest
.tmp_dir
.as_path()
.join("test-disk.raw")
.to_str()
.unwrap(),
);
assert!(
exec_host_command_status(format!("truncate {} -s 4M", test_disk_path).as_str())
.success()
);
assert!(
exec_host_command_status(format!("mkfs.ext4 {}", test_disk_path).as_str()).success()
);
let api_socket = temp_api_path(&guest.tmp_dir);
let mut cmd = GuestCommand::new(&guest);
cmd.args(&["--cpus", "boot=1"])
.args(&["--api-socket", &api_socket])
.args(&["--memory", "size=512M"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.args(&["--platform", "num_pci_segments=16,iommu_segments=[1]"])
.default_disks()
.capture_output()
.default_net();
let mut child = cmd.spawn().unwrap();
guest.wait_vm_boot(None).unwrap();
let r = std::panic::catch_unwind(|| {
let (cmd_success, cmd_output) = remote_command_w_output(
&api_socket,
"add-disk",
Some(
format!(
"path={},id=test0,pci_segment=1,iommu=on",
test_disk_path.as_str()
)
.as_str(),
),
);
assert!(cmd_success);
assert!(String::from_utf8_lossy(&cmd_output)
.contains("{\"id\":\"test0\",\"bdf\":\"0001:00:01.0\"}"));
// Check IOMMU setup
assert!(guest
.does_device_vendor_pair_match("0x1057", "0x1af4")
.unwrap_or_default());
assert_eq!(
guest
.ssh_command("ls /sys/kernel/iommu_groups/0/devices")
.unwrap()
.trim(),
"0001:00:01.0"
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_pci_msi() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let mut cmd = GuestCommand::new(&guest);
cmd.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.capture_output()
.default_disks()
.default_net();
let mut child = cmd.spawn().unwrap();
guest.wait_vm_boot(None).unwrap();
#[cfg(target_arch = "x86_64")]
let grep_cmd = "grep -c PCI-MSI /proc/interrupts";
#[cfg(target_arch = "aarch64")]
let grep_cmd = "grep -c ITS-MSI /proc/interrupts";
let r = std::panic::catch_unwind(|| {
assert_eq!(
guest
.ssh_command(grep_cmd)
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
12
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_virtio_net_ctrl_queue() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let mut cmd = GuestCommand::new(&guest);
cmd.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.capture_output()
.default_disks()
.default_net();
let mut child = cmd.spawn().unwrap();
guest.wait_vm_boot(None).unwrap();
#[cfg(target_arch = "aarch64")]
let iface = "enp0s4";
#[cfg(target_arch = "x86_64")]
let iface = "ens4";
let r = std::panic::catch_unwind(|| {
assert_eq!(
guest
.ssh_command(
format!("sudo ethtool -K {} rx-gro-hw off && echo success", iface).as_str()
)
.unwrap()
.trim(),
"success"
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_pci_multiple_segments() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
// Prepare another disk file for the virtio-disk device
let test_disk_path = String::from(
guest
.tmp_dir
.as_path()
.join("test-disk.raw")
.to_str()
.unwrap(),
);
assert!(
exec_host_command_status(format!("truncate {} -s 4M", test_disk_path).as_str())
.success()
);
assert!(
exec_host_command_status(format!("mkfs.ext4 {}", test_disk_path).as_str()).success()
);
let mut cmd = GuestCommand::new(&guest);
cmd.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.args(&["--platform", "num_pci_segments=16"])
.args(&[
"--disk",
format!(
"path={}",
guest.disk_config.disk(DiskType::OperatingSystem).unwrap()
)
.as_str(),
format!(
"path={}",
guest.disk_config.disk(DiskType::CloudInit).unwrap()
)
.as_str(),
format!("path={},pci_segment=15", test_disk_path).as_str(),
])
.capture_output()
.default_net();
let mut child = cmd.spawn().unwrap();
guest.wait_vm_boot(None).unwrap();
let grep_cmd = "lspci | grep \"Host bridge\" | wc -l";
let r = std::panic::catch_unwind(|| {
// There should be 16 PCI host bridges in the guest.
assert_eq!(
guest
.ssh_command(grep_cmd)
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
16
);
// Check both if /dev/vdc exists and if the block size is 4M.
assert_eq!(
guest
.ssh_command("lsblk | grep vdc | grep -c 4M")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
// Mount the device.
guest.ssh_command("mkdir mount_image").unwrap();
guest
.ssh_command("sudo mount -o rw -t ext4 /dev/vdc mount_image/")
.unwrap();
// Grant all users with write permission.
guest.ssh_command("sudo chmod a+w mount_image/").unwrap();
// Write something to the device.
guest
.ssh_command("sudo echo \"bar\" >> mount_image/foo")
.unwrap();
// Check the content of the block device. The file "foo" should
// contain "bar".
assert_eq!(
guest
.ssh_command("sudo cat mount_image/foo")
.unwrap()
.trim(),
"bar"
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_direct_kernel_boot() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let kernel_path = direct_kernel_boot_path();
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
assert_eq!(guest.get_cpu_count().unwrap_or_default(), 1);
assert!(guest.get_total_memory().unwrap_or_default() > 480_000);
let grep_cmd = if cfg!(target_arch = "x86_64") {
"grep -c PCI-MSI /proc/interrupts"
} else {
"grep -c ITS-MSI /proc/interrupts"
};
assert_eq!(
guest
.ssh_command(grep_cmd)
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
12
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
fn _test_virtio_block(image_name: &str, disable_io_uring: bool) {
let focal = UbuntuDiskConfig::new(image_name.to_string());
let guest = Guest::new(Box::new(focal));
let mut workload_path = dirs::home_dir().unwrap();
workload_path.push("workloads");
let mut blk_file_path = workload_path;
blk_file_path.push("blk.img");
let kernel_path = direct_kernel_boot_path();
let mut cloud_child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=4"])
.args(&["--memory", "size=512M,shared=on"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.args(&[
"--disk",
format!(
"path={}",
guest.disk_config.disk(DiskType::OperatingSystem).unwrap()
)
.as_str(),
format!(
"path={}",
guest.disk_config.disk(DiskType::CloudInit).unwrap()
)
.as_str(),
format!(
"path={},readonly=on,direct=on,num_queues=4,_disable_io_uring={}",
blk_file_path.to_str().unwrap(),
disable_io_uring
)
.as_str(),
])
.default_net()
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Check both if /dev/vdc exists and if the block size is 16M.
assert_eq!(
guest
.ssh_command("lsblk | grep vdc | grep -c 16M")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
// Check both if /dev/vdc exists and if this block is RO.
assert_eq!(
guest
.ssh_command("lsblk | grep vdc | awk '{print $5}'")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
// Check if the number of queues is 4.
assert_eq!(
guest
.ssh_command("ls -ll /sys/block/vdc/mq | grep ^d | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
4
);
});
let _ = cloud_child.kill();
let output = cloud_child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_virtio_block() {
_test_virtio_block(FOCAL_IMAGE_NAME, false)
}
#[test]
fn test_virtio_block_disable_io_uring() {
_test_virtio_block(FOCAL_IMAGE_NAME, true)
}
#[test]
fn test_virtio_block_qcow2() {
_test_virtio_block(FOCAL_IMAGE_NAME_QCOW2, false)
}
#[test]
fn test_virtio_block_vhd() {
let mut workload_path = dirs::home_dir().unwrap();
workload_path.push("workloads");
let mut raw_file_path = workload_path.clone();
let mut vhd_file_path = workload_path;
raw_file_path.push(FOCAL_IMAGE_NAME);
vhd_file_path.push(FOCAL_IMAGE_NAME_VHD);
// Generate VHD file from RAW file
std::process::Command::new("qemu-img")
.arg("convert")
.arg("-p")
.args(&["-f", "raw"])
.args(&["-O", "vpc"])
.args(&["-o", "subformat=fixed"])
.arg(raw_file_path.to_str().unwrap())
.arg(vhd_file_path.to_str().unwrap())
.output()
.expect("Expect generating VHD image from RAW image");
_test_virtio_block(FOCAL_IMAGE_NAME_VHD, false)
}
#[test]
fn test_virtio_block_vhdx() {
let mut workload_path = dirs::home_dir().unwrap();
workload_path.push("workloads");
let mut raw_file_path = workload_path.clone();
let mut vhdx_file_path = workload_path;
raw_file_path.push(FOCAL_IMAGE_NAME);
vhdx_file_path.push(FOCAL_IMAGE_NAME_VHDX);
// Generate dynamic VHDX file from RAW file
std::process::Command::new("qemu-img")
.arg("convert")
.arg("-p")
.args(&["-f", "raw"])
.args(&["-O", "vhdx"])
.arg(raw_file_path.to_str().unwrap())
.arg(vhdx_file_path.to_str().unwrap())
.output()
.expect("Expect generating dynamic VHDx image from RAW image");
_test_virtio_block(FOCAL_IMAGE_NAME_VHDX, false)
}
#[test]
fn test_virtio_block_dynamic_vhdx_expand() {
const VIRTUAL_DISK_SIZE: u64 = 100 << 20;
const EMPTY_VHDX_FILE_SIZE: u64 = 8 << 20;
const FULL_VHDX_FILE_SIZE: u64 = 112 << 20;
const DYNAMIC_VHDX_NAME: &str = "dynamic.vhdx";
let mut workload_path = dirs::home_dir().unwrap();
workload_path.push("workloads");
let mut vhdx_file_path = workload_path;
vhdx_file_path.push(DYNAMIC_VHDX_NAME);
let vhdx_path = vhdx_file_path.to_str().unwrap();
// Generate a 100 MiB dynamic VHDX file
std::process::Command::new("qemu-img")
.arg("create")
.args(&["-f", "vhdx"])
.arg(vhdx_path)
.arg(VIRTUAL_DISK_SIZE.to_string())
.output()
.expect("Expect generating dynamic VHDx image from RAW image");
// Check if the size matches with empty VHDx file size
assert_eq!(vhdx_image_size(vhdx_path), EMPTY_VHDX_FILE_SIZE);
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let kernel_path = direct_kernel_boot_path();
let mut cloud_child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.args(&[
"--disk",
format!(
"path={}",
guest.disk_config.disk(DiskType::OperatingSystem).unwrap()
)
.as_str(),
format!(
"path={}",
guest.disk_config.disk(DiskType::CloudInit).unwrap()
)
.as_str(),
format!("path={}", vhdx_path).as_str(),
])
.default_net()
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Check both if /dev/vdc exists and if the block size is 100 MiB.
assert_eq!(
guest
.ssh_command("lsblk | grep vdc | grep -c 100M")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
// Write 100 MB of data to the VHDx disk
guest
.ssh_command("sudo dd if=/dev/urandom of=/dev/vdc bs=1M count=100")
.unwrap();
});
// Check if the size matches with expected expanded VHDx file size
assert_eq!(vhdx_image_size(vhdx_path), FULL_VHDX_FILE_SIZE);
let _ = cloud_child.kill();
let output = cloud_child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
fn vhdx_image_size(disk_name: &str) -> u64 {
std::fs::File::open(disk_name)
.unwrap()
.seek(SeekFrom::End(0))
.unwrap()
}
#[test]
fn test_virtio_block_direct_and_firmware() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
// The OS disk must be copied to a location that is not backed by
// tmpfs, otherwise the syscall openat(2) with O_DIRECT simply fails
// with EINVAL because tmpfs doesn't support this flag.
let mut workloads_path = dirs::home_dir().unwrap();
workloads_path.push("workloads");
let os_dir = TempDir::new_in(workloads_path.as_path()).unwrap();
let mut os_path = os_dir.as_path().to_path_buf();
os_path.push("osdisk.img");
rate_limited_copy(
&guest.disk_config.disk(DiskType::OperatingSystem).unwrap(),
os_path.as_path(),
)
.expect("copying of OS disk failed");
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", fw_path(FwType::RustHypervisorFirmware).as_str()])
.args(&[
"--disk",
format!("path={},direct=on", os_path.as_path().to_str().unwrap()).as_str(),
format!(
"path={}",
guest.disk_config.disk(DiskType::CloudInit).unwrap()
)
.as_str(),
])
.default_net()
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(Some(120)).unwrap();
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_vhost_user_net_default() {
test_vhost_user_net(None, 2, &prepare_vhost_user_net_daemon, false, false)
}
#[test]
fn test_vhost_user_net_named_tap() {
test_vhost_user_net(
Some("mytap0"),
2,
&prepare_vhost_user_net_daemon,
false,
false,
)
}
#[test]
fn test_vhost_user_net_existing_tap() {
test_vhost_user_net(
Some("vunet-tap0"),
2,
&prepare_vhost_user_net_daemon,
false,
false,
)
}
#[test]
fn test_vhost_user_net_multiple_queues() {
test_vhost_user_net(None, 4, &prepare_vhost_user_net_daemon, false, false)
}
#[test]
fn test_vhost_user_net_tap_multiple_queues() {
test_vhost_user_net(
Some("vunet-tap1"),
4,
&prepare_vhost_user_net_daemon,
false,
false,
)
}
#[test]
fn test_vhost_user_net_host_mac() {
test_vhost_user_net(None, 2, &prepare_vhost_user_net_daemon, true, false)
}
#[test]
fn test_vhost_user_net_client_mode() {
test_vhost_user_net(None, 2, &prepare_vhost_user_net_daemon, false, true)
}
#[test]
fn test_vhost_user_blk_default() {
test_vhost_user_blk(2, false, false, Some(&prepare_vubd))
}
#[test]
fn test_vhost_user_blk_readonly() {
test_vhost_user_blk(1, true, false, Some(&prepare_vubd))
}
#[test]
fn test_vhost_user_blk_direct() {
test_vhost_user_blk(1, false, true, Some(&prepare_vubd))
}
#[test]
fn test_boot_from_vhost_user_blk_default() {
test_boot_from_vhost_user_blk(1, false, false, Some(&prepare_vubd))
}
#[test]
#[cfg(target_arch = "x86_64")]
fn test_split_irqchip() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
assert_eq!(
guest
.ssh_command("grep -c IO-APIC.*timer /proc/interrupts || true")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or(1),
0
);
assert_eq!(
guest
.ssh_command("grep -c IO-APIC.*cascade /proc/interrupts || true")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or(1),
0
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
#[cfg(target_arch = "x86_64")]
fn test_dmi_serial_number() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.args(&["--platform", "serial_number=a=b;c=d"])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
assert_eq!(
guest
.ssh_command("sudo cat /sys/class/dmi/id/product_serial")
.unwrap()
.trim(),
"a=b;c=d"
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
#[cfg(target_arch = "x86_64")]
fn test_dmi_uuid() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.args(&["--platform", "uuid=1e8aa28a-435d-4027-87f4-40dceff1fa0a"])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
assert_eq!(
guest
.ssh_command("sudo cat /sys/class/dmi/id/product_uuid")
.unwrap()
.trim(),
"1e8aa28a-435d-4027-87f4-40dceff1fa0a"
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_virtio_fs() {
_test_virtio_fs(&prepare_virtiofsd, false, None)
}
#[test]
fn test_virtio_fs_hotplug() {
_test_virtio_fs(&prepare_virtiofsd, true, None)
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_virtio_fs_multi_segment_hotplug() {
_test_virtio_fs(&prepare_virtiofsd, true, Some(15))
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_virtio_fs_multi_segment() {
_test_virtio_fs(&prepare_virtiofsd, false, Some(15))
}
#[test]
fn test_virtio_pmem_persist_writes() {
test_virtio_pmem(false, false)
}
#[test]
fn test_virtio_pmem_discard_writes() {
test_virtio_pmem(true, false)
}
#[test]
fn test_virtio_pmem_with_size() {
test_virtio_pmem(true, true)
}
#[test]
fn test_boot_from_virtio_pmem() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let kernel_path = direct_kernel_boot_path();
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&[
"--disk",
format!(
"path={}",
guest.disk_config.disk(DiskType::CloudInit).unwrap()
)
.as_str(),
])
.default_net()
.args(&[
"--pmem",
format!(
"file={},size={}",
guest.disk_config.disk(DiskType::OperatingSystem).unwrap(),
fs::metadata(&guest.disk_config.disk(DiskType::OperatingSystem).unwrap())
.unwrap()
.len()
)
.as_str(),
])
.args(&[
"--cmdline",
DIRECT_KERNEL_BOOT_CMDLINE
.replace("vda1", "pmem0p1")
.as_str(),
])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Simple checks to validate the VM booted properly
assert_eq!(guest.get_cpu_count().unwrap_or_default(), 1);
assert!(guest.get_total_memory().unwrap_or_default() > 480_000);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_multiple_network_interfaces() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let kernel_path = direct_kernel_boot_path();
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.args(&[
"--net",
guest.default_net_string().as_str(),
"tap=,mac=8a:6b:6f:5a:de:ac,ip=192.168.3.1,mask=255.255.255.0",
"tap=mytap1,mac=fe:1f:9e:e1:60:f2,ip=192.168.4.1,mask=255.255.255.0",
])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
let tap_count = exec_host_command_output("ip link | grep -c mytap1");
assert_eq!(String::from_utf8_lossy(&tap_count.stdout).trim(), "1");
// 3 network interfaces + default localhost ==> 4 interfaces
assert_eq!(
guest
.ssh_command("ip -o link | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
4
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
#[cfg(target_arch = "aarch64")]
fn test_pmu_on() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Test that PMU exists.
assert_eq!(
guest
.ssh_command(GREP_PMU_IRQ_CMD)
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_serial_off() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.default_net()
.args(&["--serial", "off"])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Test that there is no ttyS0
assert_eq!(
guest
.ssh_command(GREP_SERIAL_IRQ_CMD)
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or(1),
0
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_serial_null() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let mut cmd = GuestCommand::new(&guest);
#[cfg(target_arch = "x86_64")]
let console_str: &str = "console=ttyS0";
#[cfg(target_arch = "aarch64")]
let console_str: &str = "console=ttyAMA0";
cmd.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&[
"--cmdline",
DIRECT_KERNEL_BOOT_CMDLINE
.replace("console=hvc0 ", console_str)
.as_str(),
])
.default_disks()
.default_net()
.args(&["--serial", "null"])
.args(&["--console", "off"])
.capture_output();
let mut child = cmd.spawn().unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Test that there is a ttyS0
assert_eq!(
guest
.ssh_command(GREP_SERIAL_IRQ_CMD)
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
let r = std::panic::catch_unwind(|| {
assert!(!String::from_utf8_lossy(&output.stdout).contains(CONSOLE_TEST_STRING));
});
handle_child_output(r, &output);
}
#[test]
fn test_serial_tty() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let kernel_path = direct_kernel_boot_path();
#[cfg(target_arch = "x86_64")]
let console_str: &str = "console=ttyS0";
#[cfg(target_arch = "aarch64")]
let console_str: &str = "console=ttyAMA0";
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&[
"--cmdline",
DIRECT_KERNEL_BOOT_CMDLINE
.replace("console=hvc0 ", console_str)
.as_str(),
])
.default_disks()
.default_net()
.args(&["--serial", "tty"])
.args(&["--console", "off"])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Test that there is a ttyS0
assert_eq!(
guest
.ssh_command(GREP_SERIAL_IRQ_CMD)
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
});
// This sleep is needed to wait for the login prompt
thread::sleep(std::time::Duration::new(2, 0));
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
let r = std::panic::catch_unwind(|| {
assert!(String::from_utf8_lossy(&output.stdout).contains(CONSOLE_TEST_STRING));
});
handle_child_output(r, &output);
}
#[test]
fn test_serial_file() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let serial_path = guest.tmp_dir.as_path().join("/tmp/serial-output");
#[cfg(target_arch = "x86_64")]
let console_str: &str = "console=ttyS0";
#[cfg(target_arch = "aarch64")]
let console_str: &str = "console=ttyAMA0";
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&[
"--cmdline",
DIRECT_KERNEL_BOOT_CMDLINE
.replace("console=hvc0 ", console_str)
.as_str(),
])
.default_disks()
.default_net()
.args(&[
"--serial",
format!("file={}", serial_path.to_str().unwrap()).as_str(),
])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Test that there is a ttyS0
assert_eq!(
guest
.ssh_command(GREP_SERIAL_IRQ_CMD)
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
guest.ssh_command("sudo shutdown -h now").unwrap();
});
let _ = child.wait_timeout(std::time::Duration::from_secs(20));
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
let r = std::panic::catch_unwind(|| {
// Check that the cloud-hypervisor binary actually terminated
assert!(output.status.success());
// Do this check after shutdown of the VM as an easy way to ensure
// all writes are flushed to disk
let mut f = std::fs::File::open(serial_path).unwrap();
let mut buf = String::new();
f.read_to_string(&mut buf).unwrap();
assert!(buf.contains(CONSOLE_TEST_STRING));
});
handle_child_output(r, &output);
}
#[test]
fn test_pty_interaction() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let api_socket = temp_api_path(&guest.tmp_dir);
let serial_option = if cfg!(target_arch = "x86_64") {
" console=ttyS0"
} else {
" console=ttyAMA0"
};
let cmdline = DIRECT_KERNEL_BOOT_CMDLINE.to_owned() + serial_option;
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", &cmdline])
.default_disks()
.default_net()
.args(&["--serial", "null"])
.args(&["--console", "pty"])
.args(&["--api-socket", &api_socket])
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Get pty fd for console
let console_path = get_pty_path(&api_socket, "console");
// TODO: Get serial pty test working
let mut cf = std::fs::OpenOptions::new()
.write(true)
.read(true)
.open(console_path)
.unwrap();
// Some dumb sleeps but we don't want to write
// before the console is up and we don't want
// to try and write the next line before the
// login process is ready.
thread::sleep(std::time::Duration::new(5, 0));
assert_eq!(cf.write(b"cloud\n").unwrap(), 6);
thread::sleep(std::time::Duration::new(2, 0));
assert_eq!(cf.write(b"cloud123\n").unwrap(), 9);
thread::sleep(std::time::Duration::new(2, 0));
assert_eq!(cf.write(b"echo test_pty_console\n").unwrap(), 22);
thread::sleep(std::time::Duration::new(2, 0));
// read pty and ensure they have a login shell
// some fairly hacky workarounds to avoid looping
// forever in case the channel is blocked getting output
let ptyc = pty_read(cf);
let mut empty = 0;
let mut prev = String::new();
loop {
thread::sleep(std::time::Duration::new(2, 0));
match ptyc.try_recv() {
Ok(line) => {
empty = 0;
prev = prev + &line;
if prev.contains("test_pty_console") {
break;
}
}
Err(mpsc::TryRecvError::Empty) => {
empty += 1;
assert!(empty <= 5, "No login on pty");
}
_ => panic!("No login on pty"),
}
}
guest.ssh_command("sudo shutdown -h now").unwrap();
});
let _ = child.wait_timeout(std::time::Duration::from_secs(20));
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
let r = std::panic::catch_unwind(|| {
// Check that the cloud-hypervisor binary actually terminated
assert!(output.status.success())
});
handle_child_output(r, &output);
}
#[test]
fn test_virtio_console() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let kernel_path = direct_kernel_boot_path();
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.default_net()
.args(&["--console", "tty"])
.args(&["--serial", "null"])
.capture_output()
.spawn()
.unwrap();
let text = String::from("On a branch floating down river a cricket, singing.");
let cmd = format!("echo {} | sudo tee /dev/hvc0", text);
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
assert!(guest
.does_device_vendor_pair_match("0x1043", "0x1af4")
.unwrap_or_default());
guest.ssh_command(&cmd).unwrap();
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
let r = std::panic::catch_unwind(|| {
assert!(String::from_utf8_lossy(&output.stdout).contains(&text));
});
handle_child_output(r, &output);
}
#[test]
fn test_console_file() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let console_path = guest.tmp_dir.as_path().join("/tmp/console-output");
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.default_net()
.args(&[
"--console",
format!("file={}", console_path.to_str().unwrap()).as_str(),
])
.capture_output()
.spawn()
.unwrap();
guest.wait_vm_boot(None).unwrap();
guest.ssh_command("sudo shutdown -h now").unwrap();
let _ = child.wait_timeout(std::time::Duration::from_secs(20));
let _ = child.kill();
let output = child.wait_with_output().unwrap();
let r = std::panic::catch_unwind(|| {
// Check that the cloud-hypervisor binary actually terminated
assert!(output.status.success());
// Do this check after shutdown of the VM as an easy way to ensure
// all writes are flushed to disk
let mut f = std::fs::File::open(console_path).unwrap();
let mut buf = String::new();
f.read_to_string(&mut buf).unwrap();
if !buf.contains(CONSOLE_TEST_STRING) {
eprintln!(
"\n\n==== Console file output ====\n\n{}\n\n==== End console file output ====",
buf
);
}
assert!(buf.contains(CONSOLE_TEST_STRING));
});
handle_child_output(r, &output);
}
#[test]
#[cfg(target_arch = "x86_64")]
#[cfg(not(feature = "mshv"))]
#[ignore = "See #4324"]
// The VFIO integration test starts cloud-hypervisor guest with 3 TAP
// backed networking interfaces, bound through a simple bridge on the host.
// So if the nested cloud-hypervisor succeeds in getting a directly
// assigned interface from its cloud-hypervisor host, we should be able to
// ssh into it, and verify that it's running with the right kernel command
// line (We tag the command line from cloud-hypervisor for that purpose).
// The third device is added to validate that hotplug works correctly since
// it is being added to the L2 VM through hotplugging mechanism.
// Also, we pass-through a vitio-blk device to the L2 VM to test the 32-bit
// vfio device support
fn test_vfio() {
setup_vfio_network_interfaces();
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new_from_ip_range(Box::new(focal), "172.18", 0);
let mut workload_path = dirs::home_dir().unwrap();
workload_path.push("workloads");
let kernel_path = direct_kernel_boot_path();
let mut vfio_path = workload_path.clone();
vfio_path.push("vfio");
let mut cloud_init_vfio_base_path = vfio_path.clone();
cloud_init_vfio_base_path.push("cloudinit.img");
// We copy our cloudinit into the vfio mount point, for the nested
// cloud-hypervisor guest to use.
rate_limited_copy(
&guest.disk_config.disk(DiskType::CloudInit).unwrap(),
&cloud_init_vfio_base_path,
)
.expect("copying of cloud-init disk failed");
let mut vfio_disk_path = workload_path.clone();
vfio_disk_path.push("vfio.img");
// Create the vfio disk image
let output = Command::new("mkfs.ext4")
.arg("-d")
.arg(vfio_path.to_str().unwrap())
.arg(vfio_disk_path.to_str().unwrap())
.arg("2g")
.output()
.unwrap();
if !output.status.success() {
eprintln!("{}", String::from_utf8_lossy(&output.stderr));
panic!("mkfs.ext4 command generated an error");
}
let mut blk_file_path = workload_path;
blk_file_path.push("blk.img");
let vfio_tap0 = "vfio-tap0";
let vfio_tap1 = "vfio-tap1";
let vfio_tap2 = "vfio-tap2";
let vfio_tap3 = "vfio-tap3";
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=4"])
.args(&["--memory", "size=2G,hugepages=on,shared=on"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&[
"--disk",
format!(
"path={}",
guest.disk_config.disk(DiskType::OperatingSystem).unwrap()
)
.as_str(),
format!(
"path={}",
guest.disk_config.disk(DiskType::CloudInit).unwrap()
)
.as_str(),
format!("path={}", vfio_disk_path.to_str().unwrap()).as_str(),
format!("path={},iommu=on", blk_file_path.to_str().unwrap()).as_str(),
])
.args(&[
"--cmdline",
format!(
"{} kvm-intel.nested=1 vfio_iommu_type1.allow_unsafe_interrupts",
DIRECT_KERNEL_BOOT_CMDLINE
)
.as_str(),
])
.args(&[
"--net",
format!("tap={},mac={}", vfio_tap0, guest.network.guest_mac).as_str(),
format!(
"tap={},mac={},iommu=on",
vfio_tap1, guest.network.l2_guest_mac1
)
.as_str(),
format!(
"tap={},mac={},iommu=on",
vfio_tap2, guest.network.l2_guest_mac2
)
.as_str(),
format!(
"tap={},mac={},iommu=on",
vfio_tap3, guest.network.l2_guest_mac3
)
.as_str(),
])
.capture_output()
.spawn()
.unwrap();
thread::sleep(std::time::Duration::new(30, 0));
let r = std::panic::catch_unwind(|| {
guest.ssh_command_l1("sudo systemctl start vfio").unwrap();
thread::sleep(std::time::Duration::new(120, 0));
// We booted our cloud hypervisor L2 guest with a "VFIOTAG" tag
// added to its kernel command line.
// Let's ssh into it and verify that it's there. If it is it means
// we're in the right guest (The L2 one) because the QEMU L1 guest
// does not have this command line tag.
assert_eq!(
guest
.ssh_command_l2_1("grep -c VFIOTAG /proc/cmdline")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
// Let's also verify from the second virtio-net device passed to
// the L2 VM.
assert_eq!(
guest
.ssh_command_l2_2("grep -c VFIOTAG /proc/cmdline")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
// Check the amount of PCI devices appearing in L2 VM.
assert_eq!(
guest
.ssh_command_l2_1("ls /sys/bus/pci/devices | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
8,
);
// Check both if /dev/vdc exists and if the block size is 16M in L2 VM
assert_eq!(
guest
.ssh_command_l2_1("lsblk | grep vdc | grep -c 16M")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
// Hotplug an extra virtio-net device through L2 VM.
guest
.ssh_command_l1(
"echo 0000:00:09.0 | sudo tee /sys/bus/pci/devices/0000:00:09.0/driver/unbind",
)
.unwrap();
guest
.ssh_command_l1("echo 0000:00:09.0 | sudo tee /sys/bus/pci/drivers/vfio-pci/bind")
.unwrap();
let vfio_hotplug_output = guest
.ssh_command_l1(
"sudo /mnt/ch-remote \
--api-socket=/tmp/ch_api.sock \
add-device path=/sys/bus/pci/devices/0000:00:09.0,id=vfio123",
)
.unwrap();
assert!(vfio_hotplug_output.contains("{\"id\":\"vfio123\",\"bdf\":\"0000:00:08.0\"}"));
thread::sleep(std::time::Duration::new(10, 0));
// Let's also verify from the third virtio-net device passed to
// the L2 VM. This third device has been hotplugged through the L2
// VM, so this is our way to validate hotplug works for VFIO PCI.
assert_eq!(
guest
.ssh_command_l2_3("grep -c VFIOTAG /proc/cmdline")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
// Check the amount of PCI devices appearing in L2 VM.
// There should be one more device than before, raising the count
// up to 9 PCI devices.
assert_eq!(
guest
.ssh_command_l2_1("ls /sys/bus/pci/devices | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
9,
);
// Let's now verify that we can correctly remove the virtio-net
// device through the "remove-device" command responsible for
// unplugging VFIO devices.
guest
.ssh_command_l1(
"sudo /mnt/ch-remote \
--api-socket=/tmp/ch_api.sock \
remove-device vfio123",
)
.unwrap();
thread::sleep(std::time::Duration::new(10, 0));
// Check the amount of PCI devices appearing in L2 VM is back down
// to 8 devices.
assert_eq!(
guest
.ssh_command_l2_1("ls /sys/bus/pci/devices | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
8,
);
// Perform memory hotplug in L2 and validate the memory is showing
// up as expected. In order to check, we will use the virtio-net
// device already passed through L2 as a VFIO device, this will
// verify that VFIO devices are functional with memory hotplug.
assert!(guest.get_total_memory_l2().unwrap_or_default() > 480_000);
guest
.ssh_command_l2_1(
"sudo bash -c 'echo online > /sys/devices/system/memory/auto_online_blocks'",
)
.unwrap();
guest
.ssh_command_l1(
"sudo /mnt/ch-remote \
--api-socket=/tmp/ch_api.sock \
resize --memory=1073741824",
)
.unwrap();
assert!(guest.get_total_memory_l2().unwrap_or_default() > 960_000);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
cleanup_vfio_network_interfaces();
handle_child_output(r, &output);
}
#[test]
fn test_direct_kernel_boot_noacpi() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let kernel_path = direct_kernel_boot_path();
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&[
"--cmdline",
format!("{} acpi=off", DIRECT_KERNEL_BOOT_CMDLINE).as_str(),
])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
assert_eq!(guest.get_cpu_count().unwrap_or_default(), 1);
assert!(guest.get_total_memory().unwrap_or_default() > 480_000);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_reboot() {
let bionic = UbuntuDiskConfig::new(BIONIC_IMAGE_NAME.to_string());
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
vec![Box::new(bionic), Box::new(focal)]
.drain(..)
.for_each(|disk_config| {
let guest = Guest::new(disk_config);
let mut cmd = GuestCommand::new(&guest);
cmd.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.default_net()
.capture_output();
let mut child = cmd.spawn().unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(Some(120)).unwrap();
let fd_count_1 = get_fd_count(child.id());
guest.reboot_linux(0, Some(120));
let fd_count_2 = get_fd_count(child.id());
assert_eq!(fd_count_1, fd_count_2);
guest.ssh_command("sudo shutdown -h now").unwrap();
});
let _ = child.wait_timeout(std::time::Duration::from_secs(40));
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
let r = std::panic::catch_unwind(|| {
// Check that the cloud-hypervisor binary actually terminated
assert!(output.status.success());
});
handle_child_output(r, &output);
});
}
#[test]
fn test_virtio_vsock() {
_test_virtio_vsock(false)
}
#[test]
fn test_virtio_vsock_hotplug() {
_test_virtio_vsock(true);
}
#[test]
// Start cloud-hypervisor with no VM parameters, only the API server running.
// From the API: Create a VM, boot it and check that it looks as expected.
fn test_api_create_boot() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let api_socket = temp_api_path(&guest.tmp_dir);
let mut child = GuestCommand::new(&guest)
.args(&["--api-socket", &api_socket])
.capture_output()
.spawn()
.unwrap();
thread::sleep(std::time::Duration::new(1, 0));
// Verify API server is running
curl_command(&api_socket, "GET", "http://localhost/api/v1/vmm.ping", None);
// Create the VM first
let cpu_count: u8 = 4;
let http_body = guest.api_create_body(
cpu_count,
direct_kernel_boot_path().to_str().unwrap(),
DIRECT_KERNEL_BOOT_CMDLINE,
);
let temp_config_path = guest.tmp_dir.as_path().join("config");
std::fs::write(&temp_config_path, http_body).unwrap();
remote_command(
&api_socket,
"create",
Some(temp_config_path.as_os_str().to_str().unwrap()),
);
// Then boot it
remote_command(&api_socket, "boot", None);
thread::sleep(std::time::Duration::new(20, 0));
let r = std::panic::catch_unwind(|| {
// Check that the VM booted as expected
assert_eq!(guest.get_cpu_count().unwrap_or_default() as u8, cpu_count);
assert!(guest.get_total_memory().unwrap_or_default() > 480_000);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
// Start cloud-hypervisor with no VM parameters, only the API server running.
// From the API: Create a VM, boot it and check it can be shutdown and then
// booted again
fn test_api_shutdown() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let api_socket = temp_api_path(&guest.tmp_dir);
let mut child = GuestCommand::new(&guest)
.args(&["--api-socket", &api_socket])
.capture_output()
.spawn()
.unwrap();
thread::sleep(std::time::Duration::new(1, 0));
// Verify API server is running
curl_command(&api_socket, "GET", "http://localhost/api/v1/vmm.ping", None);
// Create the VM first
let cpu_count: u8 = 4;
let http_body = guest.api_create_body(
cpu_count,
direct_kernel_boot_path().to_str().unwrap(),
DIRECT_KERNEL_BOOT_CMDLINE,
);
let r = std::panic::catch_unwind(|| {
curl_command(
&api_socket,
"PUT",
"http://localhost/api/v1/vm.create",
Some(&http_body),
);
// Then boot it
curl_command(&api_socket, "PUT", "http://localhost/api/v1/vm.boot", None);
guest.wait_vm_boot(None).unwrap();
// Check that the VM booted as expected
assert_eq!(guest.get_cpu_count().unwrap_or_default() as u8, cpu_count);
assert!(guest.get_total_memory().unwrap_or_default() > 480_000);
// Sync and shutdown without powering off to prevent filesystem
// corruption.
guest.ssh_command("sync").unwrap();
guest.ssh_command("sudo shutdown -H now").unwrap();
// Wait for the guest to be fully shutdown
thread::sleep(std::time::Duration::new(20, 0));
// Then shut it down
curl_command(
&api_socket,
"PUT",
"http://localhost/api/v1/vm.shutdown",
None,
);
// Then boot it again
curl_command(&api_socket, "PUT", "http://localhost/api/v1/vm.boot", None);
guest.wait_vm_boot(None).unwrap();
// Check that the VM booted as expected
assert_eq!(guest.get_cpu_count().unwrap_or_default() as u8, cpu_count);
assert!(guest.get_total_memory().unwrap_or_default() > 480_000);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
// Start cloud-hypervisor with no VM parameters, only the API server running.
// From the API: Create a VM, boot it and check it can be deleted and then recreated
// booted again.
fn test_api_delete() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let api_socket = temp_api_path(&guest.tmp_dir);
let mut child = GuestCommand::new(&guest)
.args(&["--api-socket", &api_socket])
.capture_output()
.spawn()
.unwrap();
thread::sleep(std::time::Duration::new(1, 0));
// Verify API server is running
curl_command(&api_socket, "GET", "http://localhost/api/v1/vmm.ping", None);
// Create the VM first
let cpu_count: u8 = 4;
let http_body = guest.api_create_body(
cpu_count,
direct_kernel_boot_path().to_str().unwrap(),
DIRECT_KERNEL_BOOT_CMDLINE,
);
let r = std::panic::catch_unwind(|| {
curl_command(
&api_socket,
"PUT",
"http://localhost/api/v1/vm.create",
Some(&http_body),
);
// Then boot it
curl_command(&api_socket, "PUT", "http://localhost/api/v1/vm.boot", None);
guest.wait_vm_boot(None).unwrap();
// Check that the VM booted as expected
assert_eq!(guest.get_cpu_count().unwrap_or_default() as u8, cpu_count);
assert!(guest.get_total_memory().unwrap_or_default() > 480_000);
// Sync and shutdown without powering off to prevent filesystem
// corruption.
guest.ssh_command("sync").unwrap();
guest.ssh_command("sudo shutdown -H now").unwrap();
// Wait for the guest to be fully shutdown
thread::sleep(std::time::Duration::new(20, 0));
// Then delete it
curl_command(
&api_socket,
"PUT",
"http://localhost/api/v1/vm.delete",
None,
);
curl_command(
&api_socket,
"PUT",
"http://localhost/api/v1/vm.create",
Some(&http_body),
);
// Then boot it again
curl_command(&api_socket, "PUT", "http://localhost/api/v1/vm.boot", None);
guest.wait_vm_boot(None).unwrap();
// Check that the VM booted as expected
assert_eq!(guest.get_cpu_count().unwrap_or_default() as u8, cpu_count);
assert!(guest.get_total_memory().unwrap_or_default() > 480_000);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
// Start cloud-hypervisor with no VM parameters, only the API server running.
// From the API: Create a VM, boot it and check that it looks as expected.
// Then we pause the VM, check that it's no longer available.
// Finally we resume the VM and check that it's available.
fn test_api_pause_resume() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let api_socket = temp_api_path(&guest.tmp_dir);
let mut child = GuestCommand::new(&guest)
.args(&["--api-socket", &api_socket])
.capture_output()
.spawn()
.unwrap();
thread::sleep(std::time::Duration::new(1, 0));
// Verify API server is running
curl_command(&api_socket, "GET", "http://localhost/api/v1/vmm.ping", None);
// Create the VM first
let cpu_count: u8 = 4;
let http_body = guest.api_create_body(
cpu_count,
direct_kernel_boot_path().to_str().unwrap(),
DIRECT_KERNEL_BOOT_CMDLINE,
);
curl_command(
&api_socket,
"PUT",
"http://localhost/api/v1/vm.create",
Some(&http_body),
);
// Then boot it
curl_command(&api_socket, "PUT", "http://localhost/api/v1/vm.boot", None);
thread::sleep(std::time::Duration::new(20, 0));
let r = std::panic::catch_unwind(|| {
// Check that the VM booted as expected
assert_eq!(guest.get_cpu_count().unwrap_or_default() as u8, cpu_count);
assert!(guest.get_total_memory().unwrap_or_default() > 480_000);
// We now pause the VM
assert!(remote_command(&api_socket, "pause", None));
// Check pausing again fails
assert!(!remote_command(&api_socket, "pause", None));
thread::sleep(std::time::Duration::new(2, 0));
// SSH into the VM should fail
assert!(ssh_command_ip(
"grep -c processor /proc/cpuinfo",
&guest.network.guest_ip,
2,
5
)
.is_err());
// Resume the VM
assert!(remote_command(&api_socket, "resume", None));
// Check resuming again fails
assert!(!remote_command(&api_socket, "resume", None));
thread::sleep(std::time::Duration::new(2, 0));
// Now we should be able to SSH back in and get the right number of CPUs
assert_eq!(guest.get_cpu_count().unwrap_or_default() as u8, cpu_count);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_virtio_iommu() {
_test_virtio_iommu(cfg!(target_arch = "x86_64"))
}
#[test]
// We cannot force the software running in the guest to reprogram the BAR
// with some different addresses, but we have a reliable way of testing it
// with a standard Linux kernel.
// By removing a device from the PCI tree, and then rescanning the tree,
// Linux consistently chooses to reorganize the PCI device BARs to other
// locations in the guest address space.
// This test creates a dedicated PCI network device to be checked as being
// properly probed first, then removing it, and adding it again by doing a
// rescan.
fn test_pci_bar_reprogramming() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
#[cfg(target_arch = "x86_64")]
let kernel_path = direct_kernel_boot_path();
#[cfg(target_arch = "aarch64")]
let kernel_path = edk2_path();
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.args(&[
"--net",
guest.default_net_string().as_str(),
"tap=,mac=8a:6b:6f:5a:de:ac,ip=192.168.3.1,mask=255.255.255.0",
])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// 2 network interfaces + default localhost ==> 3 interfaces
assert_eq!(
guest
.ssh_command("ip -o link | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
3
);
let init_bar_addr = guest
.ssh_command(
"sudo awk '{print $1; exit}' /sys/bus/pci/devices/0000:00:05.0/resource",
)
.unwrap();
// Remove the PCI device
guest
.ssh_command("echo 1 | sudo tee /sys/bus/pci/devices/0000:00:05.0/remove")
.unwrap();
// Only 1 network interface left + default localhost ==> 2 interfaces
assert_eq!(
guest
.ssh_command("ip -o link | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
2
);
// Remove the PCI device
guest
.ssh_command("echo 1 | sudo tee /sys/bus/pci/rescan")
.unwrap();
// Back to 2 network interface + default localhost ==> 3 interfaces
assert_eq!(
guest
.ssh_command("ip -o link | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
3
);
let new_bar_addr = guest
.ssh_command(
"sudo awk '{print $1; exit}' /sys/bus/pci/devices/0000:00:05.0/resource",
)
.unwrap();
// Let's compare the BAR addresses for our virtio-net device.
// They should be different as we expect the BAR reprogramming
// to have happened.
assert_ne!(init_bar_addr, new_bar_addr);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_memory_mergeable_off() {
test_memory_mergeable(false)
}
#[test]
#[cfg(target_arch = "x86_64")]
fn test_cpu_hotplug() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let api_socket = temp_api_path(&guest.tmp_dir);
let kernel_path = direct_kernel_boot_path();
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=2,max=4"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.default_net()
.args(&["--api-socket", &api_socket])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
assert_eq!(guest.get_cpu_count().unwrap_or_default(), 2);
// Resize the VM
let desired_vcpus = 4;
resize_command(&api_socket, Some(desired_vcpus), None, None, None);
guest
.ssh_command("echo 1 | sudo tee /sys/bus/cpu/devices/cpu2/online")
.unwrap();
guest
.ssh_command("echo 1 | sudo tee /sys/bus/cpu/devices/cpu3/online")
.unwrap();
thread::sleep(std::time::Duration::new(10, 0));
assert_eq!(
guest.get_cpu_count().unwrap_or_default(),
u32::from(desired_vcpus)
);
guest.reboot_linux(0, None);
assert_eq!(
guest.get_cpu_count().unwrap_or_default(),
u32::from(desired_vcpus)
);
// Resize the VM
let desired_vcpus = 2;
resize_command(&api_socket, Some(desired_vcpus), None, None, None);
thread::sleep(std::time::Duration::new(10, 0));
assert_eq!(
guest.get_cpu_count().unwrap_or_default(),
u32::from(desired_vcpus)
);
// Resize the VM back up to 4
let desired_vcpus = 4;
resize_command(&api_socket, Some(desired_vcpus), None, None, None);
guest
.ssh_command("echo 1 | sudo tee /sys/bus/cpu/devices/cpu2/online")
.unwrap();
guest
.ssh_command("echo 1 | sudo tee /sys/bus/cpu/devices/cpu3/online")
.unwrap();
thread::sleep(std::time::Duration::new(10, 0));
assert_eq!(
guest.get_cpu_count().unwrap_or_default(),
u32::from(desired_vcpus)
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_memory_hotplug() {
#[cfg(target_arch = "aarch64")]
let focal_image = FOCAL_IMAGE_UPDATE_KERNEL_NAME.to_string();
#[cfg(target_arch = "x86_64")]
let focal_image = FOCAL_IMAGE_NAME.to_string();
let focal = UbuntuDiskConfig::new(focal_image);
let guest = Guest::new(Box::new(focal));
let api_socket = temp_api_path(&guest.tmp_dir);
#[cfg(target_arch = "aarch64")]
let kernel_path = edk2_path();
#[cfg(target_arch = "x86_64")]
let kernel_path = direct_kernel_boot_path();
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=2,max=4"])
.args(&["--memory", "size=512M,hotplug_size=8192M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.default_net()
.args(&["--balloon", "size=0"])
.args(&["--api-socket", &api_socket])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
assert!(guest.get_total_memory().unwrap_or_default() > 480_000);
guest.enable_memory_hotplug();
// Add RAM to the VM
let desired_ram = 1024 << 20;
resize_command(&api_socket, None, Some(desired_ram), None, None);
thread::sleep(std::time::Duration::new(10, 0));
assert!(guest.get_total_memory().unwrap_or_default() > 960_000);
// Use balloon to remove RAM from the VM
let desired_balloon = 512 << 20;
resize_command(&api_socket, None, None, Some(desired_balloon), None);
thread::sleep(std::time::Duration::new(10, 0));
assert!(guest.get_total_memory().unwrap_or_default() > 480_000);
assert!(guest.get_total_memory().unwrap_or_default() < 960_000);
guest.reboot_linux(0, None);
assert!(guest.get_total_memory().unwrap_or_default() < 960_000);
// Use balloon add RAM to the VM
let desired_balloon = 0;
resize_command(&api_socket, None, None, Some(desired_balloon), None);
thread::sleep(std::time::Duration::new(10, 0));
assert!(guest.get_total_memory().unwrap_or_default() > 960_000);
guest.enable_memory_hotplug();
// Add RAM to the VM
let desired_ram = 2048 << 20;
resize_command(&api_socket, None, Some(desired_ram), None, None);
thread::sleep(std::time::Duration::new(10, 0));
assert!(guest.get_total_memory().unwrap_or_default() > 1_920_000);
// Remove RAM to the VM (only applies after reboot)
let desired_ram = 1024 << 20;
resize_command(&api_socket, None, Some(desired_ram), None, None);
guest.reboot_linux(1, None);
assert!(guest.get_total_memory().unwrap_or_default() > 960_000);
assert!(guest.get_total_memory().unwrap_or_default() < 1_920_000);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_virtio_mem() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let api_socket = temp_api_path(&guest.tmp_dir);
let kernel_path = direct_kernel_boot_path();
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=2,max=4"])
.args(&[
"--memory",
"size=512M,hotplug_method=virtio-mem,hotplug_size=8192M",
])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.default_net()
.args(&["--api-socket", &api_socket])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
assert!(guest.get_total_memory().unwrap_or_default() > 480_000);
guest.enable_memory_hotplug();
// Add RAM to the VM
let desired_ram = 1024 << 20;
resize_command(&api_socket, None, Some(desired_ram), None, None);
thread::sleep(std::time::Duration::new(10, 0));
assert!(guest.get_total_memory().unwrap_or_default() > 960_000);
// Add RAM to the VM
let desired_ram = 2048 << 20;
resize_command(&api_socket, None, Some(desired_ram), None, None);
thread::sleep(std::time::Duration::new(10, 0));
assert!(guest.get_total_memory().unwrap_or_default() > 1_920_000);
// Remove RAM from the VM
let desired_ram = 1024 << 20;
resize_command(&api_socket, None, Some(desired_ram), None, None);
thread::sleep(std::time::Duration::new(10, 0));
assert!(guest.get_total_memory().unwrap_or_default() > 960_000);
assert!(guest.get_total_memory().unwrap_or_default() < 1_920_000);
guest.reboot_linux(0, None);
// Check the amount of memory after reboot is 1GiB
assert!(guest.get_total_memory().unwrap_or_default() > 960_000);
assert!(guest.get_total_memory().unwrap_or_default() < 1_920_000);
// Check we can still resize to 512MiB
let desired_ram = 512 << 20;
resize_command(&api_socket, None, Some(desired_ram), None, None);
thread::sleep(std::time::Duration::new(10, 0));
assert!(guest.get_total_memory().unwrap_or_default() > 480_000);
assert!(guest.get_total_memory().unwrap_or_default() < 960_000);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
#[cfg(target_arch = "x86_64")]
#[cfg(not(feature = "mshv"))]
// Test both vCPU and memory resizing together
fn test_resize() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let api_socket = temp_api_path(&guest.tmp_dir);
let kernel_path = direct_kernel_boot_path();
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=2,max=4"])
.args(&["--memory", "size=512M,hotplug_size=8192M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.default_net()
.args(&["--api-socket", &api_socket])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
assert_eq!(guest.get_cpu_count().unwrap_or_default(), 2);
assert!(guest.get_total_memory().unwrap_or_default() > 480_000);
guest.enable_memory_hotplug();
// Resize the VM
let desired_vcpus = 4;
let desired_ram = 1024 << 20;
resize_command(
&api_socket,
Some(desired_vcpus),
Some(desired_ram),
None,
None,
);
guest
.ssh_command("echo 1 | sudo tee /sys/bus/cpu/devices/cpu2/online")
.unwrap();
guest
.ssh_command("echo 1 | sudo tee /sys/bus/cpu/devices/cpu3/online")
.unwrap();
thread::sleep(std::time::Duration::new(10, 0));
assert_eq!(
guest.get_cpu_count().unwrap_or_default(),
u32::from(desired_vcpus)
);
assert!(guest.get_total_memory().unwrap_or_default() > 960_000);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_memory_overhead() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let kernel_path = direct_kernel_boot_path();
let guest_memory_size_kb = 512 * 1024;
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&[
"--memory",
format!("size={}K", guest_memory_size_kb).as_str(),
])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.capture_output()
.spawn()
.unwrap();
thread::sleep(std::time::Duration::new(20, 0));
let r = std::panic::catch_unwind(|| {
let overhead = get_vmm_overhead(child.id(), guest_memory_size_kb);
eprintln!(
"Guest memory overhead: {} vs {}",
overhead, MAXIMUM_VMM_OVERHEAD_KB
);
assert!(overhead <= MAXIMUM_VMM_OVERHEAD_KB);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_disk_hotplug() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
#[cfg(target_arch = "x86_64")]
let kernel_path = direct_kernel_boot_path();
#[cfg(target_arch = "aarch64")]
let kernel_path = edk2_path();
let api_socket = temp_api_path(&guest.tmp_dir);
let mut child = GuestCommand::new(&guest)
.args(&["--api-socket", &api_socket])
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Check /dev/vdc is not there
assert_eq!(
guest
.ssh_command("lsblk | grep -c vdc.*16M || true")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or(1),
0
);
// Now let's add the extra disk.
let mut blk_file_path = dirs::home_dir().unwrap();
blk_file_path.push("workloads");
blk_file_path.push("blk.img");
let (cmd_success, cmd_output) = remote_command_w_output(
&api_socket,
"add-disk",
Some(format!("path={},id=test0", blk_file_path.to_str().unwrap()).as_str()),
);
assert!(cmd_success);
assert!(String::from_utf8_lossy(&cmd_output)
.contains("{\"id\":\"test0\",\"bdf\":\"0000:00:06.0\"}"));
thread::sleep(std::time::Duration::new(10, 0));
// Check that /dev/vdc exists and the block size is 16M.
assert_eq!(
guest
.ssh_command("lsblk | grep vdc | grep -c 16M")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
// And check the block device can be read.
guest
.ssh_command("sudo dd if=/dev/vdc of=/dev/null bs=1M iflag=direct count=16")
.unwrap();
// Let's remove it the extra disk.
assert!(remote_command(&api_socket, "remove-device", Some("test0")));
thread::sleep(std::time::Duration::new(5, 0));
// And check /dev/vdc is not there
assert_eq!(
guest
.ssh_command("lsblk | grep -c vdc.*16M || true")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or(1),
0
);
// And add it back to validate unplug did work correctly.
let (cmd_success, cmd_output) = remote_command_w_output(
&api_socket,
"add-disk",
Some(format!("path={},id=test0", blk_file_path.to_str().unwrap()).as_str()),
);
assert!(cmd_success);
assert!(String::from_utf8_lossy(&cmd_output)
.contains("{\"id\":\"test0\",\"bdf\":\"0000:00:06.0\"}"));
thread::sleep(std::time::Duration::new(10, 0));
// Check that /dev/vdc exists and the block size is 16M.
assert_eq!(
guest
.ssh_command("lsblk | grep vdc | grep -c 16M")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
// And check the block device can be read.
guest
.ssh_command("sudo dd if=/dev/vdc of=/dev/null bs=1M iflag=direct count=16")
.unwrap();
// Reboot the VM.
guest.reboot_linux(0, None);
// Check still there after reboot
assert_eq!(
guest
.ssh_command("lsblk | grep vdc | grep -c 16M")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
assert!(remote_command(&api_socket, "remove-device", Some("test0")));
thread::sleep(std::time::Duration::new(20, 0));
// Check device has gone away
assert_eq!(
guest
.ssh_command("lsblk | grep -c vdc.*16M || true")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or(1),
0
);
guest.reboot_linux(1, None);
// Check device still absent
assert_eq!(
guest
.ssh_command("lsblk | grep -c vdc.*16M || true")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or(1),
0
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_virtio_block_topology() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let kernel_path = direct_kernel_boot_path();
let test_disk_path = guest.tmp_dir.as_path().join("test.img");
let output = exec_host_command_output(
format!(
"qemu-img create -f raw {} 16M",
test_disk_path.to_str().unwrap()
)
.as_str(),
);
if !output.status.success() {
let stdout = String::from_utf8_lossy(&output.stdout);
let stderr = String::from_utf8_lossy(&output.stderr);
panic!(
"qemu-img command failed\nstdout\n{}\nstderr\n{}",
stdout, stderr
);
}
let output = exec_host_command_output(
format!(
"losetup --show --find --sector-size=4096 {}",
test_disk_path.to_str().unwrap()
)
.as_str(),
);
if !output.status.success() {
let stdout = String::from_utf8_lossy(&output.stdout);
let stderr = String::from_utf8_lossy(&output.stderr);
panic!(
"failed to create loop device\nstdout\n{}\nstderr\n{}",
stdout, stderr
);
}
let tmp = String::from_utf8_lossy(&output.stdout);
let loop_dev = tmp.trim();
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.args(&[
"--disk",
format!(
"path={}",
guest.disk_config.disk(DiskType::OperatingSystem).unwrap()
)
.as_str(),
format!(
"path={}",
guest.disk_config.disk(DiskType::CloudInit).unwrap()
)
.as_str(),
format!("path={}", loop_dev).as_str(),
])
.default_net()
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// MIN-IO column
assert_eq!(
guest
.ssh_command("lsblk -t| grep vdc | awk '{print $3}'")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
4096
);
// PHY-SEC column
assert_eq!(
guest
.ssh_command("lsblk -t| grep vdc | awk '{print $5}'")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
4096
);
// LOG-SEC column
assert_eq!(
guest
.ssh_command("lsblk -t| grep vdc | awk '{print $6}'")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
4096
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
Command::new("losetup")
.args(&["-d", loop_dev])
.output()
.expect("loop device not found");
}
#[test]
fn test_virtio_balloon_deflate_on_oom() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let kernel_path = direct_kernel_boot_path();
let api_socket = temp_api_path(&guest.tmp_dir);
//Let's start a 4G guest with balloon occupied 2G memory
let mut child = GuestCommand::new(&guest)
.args(&["--api-socket", &api_socket])
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=4G"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.args(&["--balloon", "size=2G,deflate_on_oom=on"])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Wait for balloon memory's initialization and check its size.
// The virtio-balloon driver might take a few seconds to report the
// balloon effective size back to the VMM.
thread::sleep(std::time::Duration::new(20, 0));
let orig_balloon = balloon_size(&api_socket);
println!("The original balloon memory size is {} bytes", orig_balloon);
assert!(orig_balloon == 2147483648);
// Two steps to verify if the 'deflate_on_oom' parameter works.
// 1st: run a command to trigger an OOM in the guest.
guest
.ssh_command("echo f | sudo tee /proc/sysrq-trigger")
.unwrap();
// Give some time for the OOM to happen in the guest and be reported
// back to the host.
thread::sleep(std::time::Duration::new(20, 0));
// 2nd: check balloon_mem's value to verify balloon has been automatically deflated
let deflated_balloon = balloon_size(&api_socket);
println!(
"After deflating, balloon memory size is {} bytes",
deflated_balloon
);
// Verify the balloon size deflated
assert!(deflated_balloon < 2147483648);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_virtio_balloon_free_page_reporting() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
//Let's start a 4G guest with balloon occupied 2G memory
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=4G"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.args(&["--balloon", "size=0,free_page_reporting=on"])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let pid = child.id();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Check the initial RSS is less than 1GiB
let rss = process_rss_kib(pid);
println!("RSS {} < 1048576", rss);
assert!(rss < 1048576);
// Spawn a command inside the guest to consume 2GiB of RAM for 60
// seconds
let guest_ip = guest.network.guest_ip.clone();
thread::spawn(move || {
ssh_command_ip(
"stress --vm 1 --vm-bytes 2G --vm-keep --timeout 60",
&guest_ip,
DEFAULT_SSH_RETRIES,
DEFAULT_SSH_TIMEOUT,
)
.unwrap();
});
// Wait for 50 seconds to make sure the stress command is consuming
// the expected amount of memory.
thread::sleep(std::time::Duration::new(50, 0));
let rss = process_rss_kib(pid);
println!("RSS {} >= 2097152", rss);
assert!(rss >= 2097152);
// Wait for an extra minute to make sure the stress command has
// completed and that the guest reported the free pages to the VMM
// through the virtio-balloon device. We expect the RSS to be under
// 2GiB.
thread::sleep(std::time::Duration::new(60, 0));
let rss = process_rss_kib(pid);
println!("RSS {} < 2097152", rss);
assert!(rss < 2097152);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_pmem_hotplug() {
_test_pmem_hotplug(None)
}
#[test]
fn test_pmem_multi_segment_hotplug() {
_test_pmem_hotplug(Some(15))
}
fn _test_pmem_hotplug(pci_segment: Option<u16>) {
#[cfg(target_arch = "aarch64")]
let focal_image = FOCAL_IMAGE_UPDATE_KERNEL_NAME.to_string();
#[cfg(target_arch = "x86_64")]
let focal_image = FOCAL_IMAGE_NAME.to_string();
let focal = UbuntuDiskConfig::new(focal_image);
let guest = Guest::new(Box::new(focal));
#[cfg(target_arch = "x86_64")]
let kernel_path = direct_kernel_boot_path();
#[cfg(target_arch = "aarch64")]
let kernel_path = edk2_path();
let api_socket = temp_api_path(&guest.tmp_dir);
let mut cmd = GuestCommand::new(&guest);
cmd.args(&["--api-socket", &api_socket])
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.default_net()
.capture_output();
if pci_segment.is_some() {
cmd.args(&["--platform", "num_pci_segments=16"]);
}
let mut child = cmd.spawn().unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Check /dev/pmem0 is not there
assert_eq!(
guest
.ssh_command("lsblk | grep -c pmem0 || true")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or(1),
0
);
let pmem_temp_file = TempFile::new().unwrap();
pmem_temp_file.as_file().set_len(128 << 20).unwrap();
let (cmd_success, cmd_output) = remote_command_w_output(
&api_socket,
"add-pmem",
Some(&format!(
"file={},id=test0{}",
pmem_temp_file.as_path().to_str().unwrap(),
if let Some(pci_segment) = pci_segment {
format!(",pci_segment={}", pci_segment)
} else {
"".to_owned()
}
)),
);
assert!(cmd_success);
if let Some(pci_segment) = pci_segment {
assert!(String::from_utf8_lossy(&cmd_output).contains(&format!(
"{{\"id\":\"test0\",\"bdf\":\"{:04x}:00:01.0\"}}",
pci_segment
)));
} else {
assert!(String::from_utf8_lossy(&cmd_output)
.contains("{\"id\":\"test0\",\"bdf\":\"0000:00:06.0\"}"));
}
// Check that /dev/pmem0 exists and the block size is 128M
assert_eq!(
guest
.ssh_command("lsblk | grep pmem0 | grep -c 128M")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
guest.reboot_linux(0, None);
// Check still there after reboot
assert_eq!(
guest
.ssh_command("lsblk | grep pmem0 | grep -c 128M")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
assert!(remote_command(&api_socket, "remove-device", Some("test0")));
thread::sleep(std::time::Duration::new(20, 0));
// Check device has gone away
assert_eq!(
guest
.ssh_command("lsblk | grep -c pmem0.*128M || true")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or(1),
0
);
guest.reboot_linux(1, None);
// Check still absent after reboot
assert_eq!(
guest
.ssh_command("lsblk | grep -c pmem0.*128M || true")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or(1),
0
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_net_hotplug() {
_test_net_hotplug(None)
}
#[test]
fn test_net_multi_segment_hotplug() {
_test_net_hotplug(Some(15))
}
fn _test_net_hotplug(pci_segment: Option<u16>) {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
#[cfg(target_arch = "x86_64")]
let kernel_path = direct_kernel_boot_path();
#[cfg(target_arch = "aarch64")]
let kernel_path = edk2_path();
let api_socket = temp_api_path(&guest.tmp_dir);
// Boot without network
let mut cmd = GuestCommand::new(&guest);
cmd.args(&["--api-socket", &api_socket])
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.capture_output();
if pci_segment.is_some() {
cmd.args(&["--platform", "num_pci_segments=16"]);
}
let mut child = cmd.spawn().unwrap();
thread::sleep(std::time::Duration::new(20, 0));
let r = std::panic::catch_unwind(|| {
// Add network
let (cmd_success, cmd_output) = remote_command_w_output(
&api_socket,
"add-net",
Some(
format!(
"{}{},id=test0",
guest.default_net_string(),
if let Some(pci_segment) = pci_segment {
format!(",pci_segment={}", pci_segment)
} else {
"".to_owned()
}
)
.as_str(),
),
);
assert!(cmd_success);
if let Some(pci_segment) = pci_segment {
assert!(String::from_utf8_lossy(&cmd_output).contains(&format!(
"{{\"id\":\"test0\",\"bdf\":\"{:04x}:00:01.0\"}}",
pci_segment
)));
} else {
assert!(String::from_utf8_lossy(&cmd_output)
.contains("{\"id\":\"test0\",\"bdf\":\"0000:00:05.0\"}"));
}
thread::sleep(std::time::Duration::new(5, 0));
// 1 network interfaces + default localhost ==> 2 interfaces
assert_eq!(
guest
.ssh_command("ip -o link | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
2
);
// Remove network
assert!(remote_command(&api_socket, "remove-device", Some("test0"),));
thread::sleep(std::time::Duration::new(5, 0));
let (cmd_success, cmd_output) = remote_command_w_output(
&api_socket,
"add-net",
Some(
format!(
"{}{},id=test1",
guest.default_net_string(),
if let Some(pci_segment) = pci_segment {
format!(",pci_segment={}", pci_segment)
} else {
"".to_owned()
}
)
.as_str(),
),
);
assert!(cmd_success);
if let Some(pci_segment) = pci_segment {
assert!(String::from_utf8_lossy(&cmd_output).contains(&format!(
"{{\"id\":\"test1\",\"bdf\":\"{:04x}:00:01.0\"}}",
pci_segment
)));
} else {
assert!(String::from_utf8_lossy(&cmd_output)
.contains("{\"id\":\"test1\",\"bdf\":\"0000:00:05.0\"}"));
}
thread::sleep(std::time::Duration::new(5, 0));
// 1 network interfaces + default localhost ==> 2 interfaces
assert_eq!(
guest
.ssh_command("ip -o link | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
2
);
guest.reboot_linux(0, None);
// Check still there after reboot
// 1 network interfaces + default localhost ==> 2 interfaces
assert_eq!(
guest
.ssh_command("ip -o link | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
2
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_initramfs() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let mut workload_path = dirs::home_dir().unwrap();
workload_path.push("workloads");
#[cfg(target_arch = "x86_64")]
let mut kernels = vec![direct_kernel_boot_path()];
#[cfg(target_arch = "aarch64")]
let kernels = vec![direct_kernel_boot_path()];
#[cfg(target_arch = "x86_64")]
{
let mut pvh_kernel_path = workload_path.clone();
pvh_kernel_path.push("vmlinux");
kernels.push(pvh_kernel_path);
}
let mut initramfs_path = workload_path;
initramfs_path.push("alpine_initramfs.img");
let test_string = String::from("axz34i9rylotd8n50wbv6kcj7f2qushme1pg");
let cmdline = format!("console=hvc0 quiet TEST_STRING={}", test_string);
kernels.iter().for_each(|k_path| {
let mut child = GuestCommand::new(&guest)
.args(&["--kernel", k_path.to_str().unwrap()])
.args(&["--initramfs", initramfs_path.to_str().unwrap()])
.args(&["--cmdline", &cmdline])
.capture_output()
.spawn()
.unwrap();
thread::sleep(std::time::Duration::new(20, 0));
let _ = child.kill();
let output = child.wait_with_output().unwrap();
let r = std::panic::catch_unwind(|| {
let s = String::from_utf8_lossy(&output.stdout);
assert_ne!(s.lines().position(|line| line == test_string), None);
});
handle_child_output(r, &output);
});
}
// One thing to note about this test. The virtio-net device is heavily used
// through each ssh command. There's no need to perform a dedicated test to
// verify the migration went well for virtio-net.
#[test]
fn test_snapshot_restore() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let kernel_path = direct_kernel_boot_path();
let api_socket_source = format!("{}.1", temp_api_path(&guest.tmp_dir));
let net_id = "net123";
let net_params = format!(
"id={},tap=,mac={},ip={},mask=255.255.255.0",
net_id, guest.network.guest_mac, guest.network.host_ip
);
let cloudinit_params = format!(
"path={},iommu=on",
guest.disk_config.disk(DiskType::CloudInit).unwrap()
);
let socket = temp_vsock_path(&guest.tmp_dir);
let event_path = temp_event_monitor_path(&guest.tmp_dir);
let mut child = GuestCommand::new(&guest)
.args(&["--api-socket", &api_socket_source])
.args(&["--event-monitor", format!("path={}", event_path).as_str()])
.args(&["--cpus", "boot=4"])
.args(&[
"--memory",
"size=4G,hotplug_method=virtio-mem,hotplug_size=32G",
])
.args(&["--balloon", "size=0"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&[
"--disk",
format!(
"path={}",
guest.disk_config.disk(DiskType::OperatingSystem).unwrap()
)
.as_str(),
cloudinit_params.as_str(),
])
.args(&["--net", net_params.as_str()])
.args(&["--vsock", format!("cid=3,socket={}", socket).as_str()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.capture_output()
.spawn()
.unwrap();
let console_text = String::from("On a branch floating down river a cricket, singing.");
// Create the snapshot directory
let snapshot_dir = temp_snapshot_dir_path(&guest.tmp_dir);
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Check the number of vCPUs
assert_eq!(guest.get_cpu_count().unwrap_or_default(), 4);
// Check the guest RAM
assert!(guest.get_total_memory().unwrap_or_default() > 3_840_000);
// Increase guest RAM with virtio-mem
resize_command(
&api_socket_source,
None,
Some(6 << 30),
None,
Some(&event_path),
);
thread::sleep(std::time::Duration::new(5, 0));
assert!(guest.get_total_memory().unwrap_or_default() > 5_760_000);
// Use balloon to remove RAM from the VM
resize_command(
&api_socket_source,
None,
None,
Some(1 << 30),
Some(&event_path),
);
thread::sleep(std::time::Duration::new(5, 0));
let total_memory = guest.get_total_memory().unwrap_or_default();
assert!(total_memory > 4_800_000);
assert!(total_memory < 5_760_000);
// Check the guest virtio-devices, e.g. block, rng, vsock, console, and net
guest.check_devices_common(Some(&socket), Some(&console_text), None);
// x86_64: We check that removing and adding back the virtio-net device
// does not break the snapshot/restore support for virtio-pci.
// This is an important thing to test as the hotplug will
// trigger a PCI BAR reprogramming, which is a good way of
// checking if the stored resources are correctly restored.
// Unplug the virtio-net device
// AArch64: Device hotplug is currently not supported, skipping here.
#[cfg(target_arch = "x86_64")]
{
assert!(remote_command(
&api_socket_source,
"remove-device",
Some(net_id),
));
thread::sleep(std::time::Duration::new(10, 0));
let latest_events = [&MetaEvent {
event: "device-removed".to_string(),
device_id: Some(net_id.to_string()),
}];
assert!(check_latest_events_exact(&latest_events, &event_path));
// Plug the virtio-net device again
assert!(remote_command(
&api_socket_source,
"add-net",
Some(net_params.as_str()),
));
thread::sleep(std::time::Duration::new(10, 0));
}
// Pause the VM
assert!(remote_command(&api_socket_source, "pause", None));
let latest_events = [
&MetaEvent {
event: "pausing".to_string(),
device_id: None,
},
&MetaEvent {
event: "paused".to_string(),
device_id: None,
},
];
assert!(check_latest_events_exact(&latest_events, &event_path));
// Take a snapshot from the VM
assert!(remote_command(
&api_socket_source,
"snapshot",
Some(format!("file://{}", snapshot_dir).as_str()),
));
// Wait to make sure the snapshot is completed
thread::sleep(std::time::Duration::new(10, 0));
let latest_events = [
&MetaEvent {
event: "snapshotting".to_string(),
device_id: None,
},
&MetaEvent {
event: "snapshotted".to_string(),
device_id: None,
},
];
assert!(check_latest_events_exact(&latest_events, &event_path));
});
// Shutdown the source VM and check console output
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
let r = std::panic::catch_unwind(|| {
assert!(String::from_utf8_lossy(&output.stdout).contains(&console_text));
});
handle_child_output(r, &output);
// Remove the vsock socket file.
Command::new("rm")
.arg("-f")
.arg(socket.as_str())
.output()
.unwrap();
let api_socket_restored = format!("{}.2", temp_api_path(&guest.tmp_dir));
let event_path_restored = format!("{}.2", temp_event_monitor_path(&guest.tmp_dir));
// Restore the VM from the snapshot
let mut child = GuestCommand::new(&guest)
.args(&["--api-socket", &api_socket_restored])
.args(&[
"--event-monitor",
format!("path={}", event_path_restored).as_str(),
])
.args(&[
"--restore",
format!("source_url=file://{}", snapshot_dir).as_str(),
])
.capture_output()
.spawn()
.unwrap();
// Wait for the VM to be restored
thread::sleep(std::time::Duration::new(10, 0));
let expected_events = [
&MetaEvent {
event: "starting".to_string(),
device_id: None,
},
&MetaEvent {
event: "restoring".to_string(),
device_id: None,
},
];
assert!(check_sequential_events_exact(
&expected_events,
&event_path_restored
));
let latest_events = [&MetaEvent {
event: "restored".to_string(),
device_id: None,
}];
assert!(check_latest_events_exact(
&latest_events,
&event_path_restored
));
let r = std::panic::catch_unwind(|| {
// Resume the VM
assert!(remote_command(&api_socket_restored, "resume", None));
let latest_events = [
&MetaEvent {
event: "resuming".to_string(),
device_id: None,
},
&MetaEvent {
event: "resumed".to_string(),
device_id: None,
},
];
assert!(check_latest_events_exact(
&latest_events,
&event_path_restored
));
// Perform same checks to validate VM has been properly restored
assert_eq!(guest.get_cpu_count().unwrap_or_default(), 4);
let total_memory = guest.get_total_memory().unwrap_or_default();
assert!(total_memory > 4_800_000);
assert!(total_memory < 5_760_000);
// Deflate balloon to restore entire RAM to the VM
resize_command(&api_socket_restored, None, None, Some(0), None);
thread::sleep(std::time::Duration::new(5, 0));
assert!(guest.get_total_memory().unwrap_or_default() > 5_760_000);
// Decrease guest RAM with virtio-mem
resize_command(&api_socket_restored, None, Some(5 << 30), None, None);
thread::sleep(std::time::Duration::new(5, 0));
let total_memory = guest.get_total_memory().unwrap_or_default();
assert!(total_memory > 4_800_000);
assert!(total_memory < 5_760_000);
guest.check_devices_common(Some(&socket), Some(&console_text), None);
});
// Shutdown the target VM and check console output
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
let r = std::panic::catch_unwind(|| {
assert!(String::from_utf8_lossy(&output.stdout).contains(&console_text));
});
handle_child_output(r, &output);
}
#[test]
fn test_counters() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let api_socket = temp_api_path(&guest.tmp_dir);
let mut cmd = GuestCommand::new(&guest);
cmd.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", direct_kernel_boot_path().to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.args(&["--net", guest.default_net_string().as_str()])
.args(&["--api-socket", &api_socket])
.capture_output();
let mut child = cmd.spawn().unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
let orig_counters = get_counters(&api_socket);
guest
.ssh_command("dd if=/dev/zero of=test count=8 bs=1M")
.unwrap();
let new_counters = get_counters(&api_socket);
// Check that all the counters have increased
assert!(new_counters > orig_counters);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
#[cfg(feature = "guest_debug")]
fn test_coredump() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let api_socket = temp_api_path(&guest.tmp_dir);
let mut cmd = GuestCommand::new(&guest);
cmd.args(&["--cpus", "boot=4"])
.args(&["--memory", "size=4G"])
.args(&["--kernel", fw_path(FwType::RustHypervisorFirmware).as_str()])
.default_disks()
.args(&["--net", guest.default_net_string().as_str()])
.args(&["--api-socket", &api_socket])
.capture_output();
let mut child = cmd.spawn().unwrap();
let vmcore_file = temp_vmcore_file_path(&guest.tmp_dir);
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
assert!(remote_command(&api_socket, "pause", None));
assert!(remote_command(
&api_socket,
"coredump",
Some(format!("file://{}", vmcore_file).as_str()),
));
// the num of CORE notes should equals to vcpu
let readelf_core_num_cmd = format!(
"readelf --all {} |grep CORE |grep -v Type |wc -l",
vmcore_file
);
let core_num_in_elf = exec_host_command_output(&readelf_core_num_cmd);
assert_eq!(String::from_utf8_lossy(&core_num_in_elf.stdout).trim(), "4");
// the num of QEMU notes should equals to vcpu
let readelf_vmm_num_cmd = format!("readelf --all {} |grep QEMU |wc -l", vmcore_file);
let vmm_num_in_elf = exec_host_command_output(&readelf_vmm_num_cmd);
assert_eq!(String::from_utf8_lossy(&vmm_num_in_elf.stdout).trim(), "4");
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_watchdog() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let api_socket = temp_api_path(&guest.tmp_dir);
let kernel_path = direct_kernel_boot_path();
let mut cmd = GuestCommand::new(&guest);
cmd.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.args(&["--net", guest.default_net_string().as_str()])
.args(&["--watchdog"])
.args(&["--api-socket", &api_socket])
.capture_output();
let mut child = cmd.spawn().unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
let mut current_reboot_count = 1;
enable_guest_watchdog(&guest, &mut current_reboot_count);
check_guest_watchdog_no_reboot(&guest, &current_reboot_count);
check_guest_watchdog_one_reboot(&guest, &api_socket, &mut current_reboot_count);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_tap_from_fd() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let kernel_path = direct_kernel_boot_path();
// Create a TAP interface with multi-queue enabled
let num_queue_pairs: usize = 2;
use std::str::FromStr;
let taps = net_util::open_tap(
Some("chtap0"),
Some(std::net::Ipv4Addr::from_str(&guest.network.host_ip).unwrap()),
None,
&mut None,
num_queue_pairs,
Some(libc::O_RDWR | libc::O_NONBLOCK),
)
.unwrap();
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", &format!("boot={}", num_queue_pairs)])
.args(&["--memory", "size=512M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.args(&[
"--net",
&format!(
"fd=[{},{}],mac={},num_queues={}",
taps[0].as_raw_fd(),
taps[1].as_raw_fd(),
guest.network.guest_mac,
num_queue_pairs * 2
),
])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
assert_eq!(
guest
.ssh_command("ip -o link | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
2
);
guest.reboot_linux(0, None);
assert_eq!(
guest
.ssh_command("ip -o link | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
2
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
// By design, a guest VM won't be able to connect to the host
// machine when using a macvtap network interface (while it can
// communicate externally). As a workaround, this integration
// test creates two macvtap interfaces in 'bridge' mode on the
// same physical net interface, one for the guest and one for
// the host. With additional setup on the IP address and the
// routing table, it enables the communications between the
// guest VM and the host machine.
// Details: https://wiki.libvirt.org/page/TroubleshootMacvtapHostFail
fn _test_macvtap(hotplug: bool, guest_macvtap_name: &str, host_macvtap_name: &str) {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let api_socket = temp_api_path(&guest.tmp_dir);
#[cfg(target_arch = "x86_64")]
let kernel_path = direct_kernel_boot_path();
#[cfg(target_arch = "aarch64")]
let kernel_path = edk2_path();
let phy_net = "eth0";
// Create a macvtap interface for the guest VM to use
assert!(exec_host_command_status(&format!(
"sudo ip link add link {} name {} type macvtap mod bridge",
phy_net, guest_macvtap_name
))
.success());
assert!(exec_host_command_status(&format!(
"sudo ip link set {} address {} up",
guest_macvtap_name, guest.network.guest_mac
))
.success());
assert!(
exec_host_command_status(&format!("sudo ip link show {}", guest_macvtap_name))
.success()
);
let tap_index =
fs::read_to_string(&format!("/sys/class/net/{}/ifindex", guest_macvtap_name)).unwrap();
let tap_device = format!("/dev/tap{}", tap_index.trim());
assert!(
exec_host_command_status(&format!("sudo chown $UID.$UID {}", tap_device)).success()
);
let cstr_tap_device = std::ffi::CString::new(tap_device).unwrap();
let tap_fd1 = unsafe { libc::open(cstr_tap_device.as_ptr(), libc::O_RDWR) };
assert!(tap_fd1 > 0);
let tap_fd2 = unsafe { libc::open(cstr_tap_device.as_ptr(), libc::O_RDWR) };
assert!(tap_fd2 > 0);
// Create a macvtap on the same physical net interface for
// the host machine to use
assert!(exec_host_command_status(&format!(
"sudo ip link add link {} name {} type macvtap mod bridge",
phy_net, host_macvtap_name
))
.success());
// Use default mask "255.255.255.0"
assert!(exec_host_command_status(&format!(
"sudo ip address add {}/24 dev {}",
guest.network.host_ip, host_macvtap_name
))
.success());
assert!(exec_host_command_status(&format!(
"sudo ip link set dev {} up",
host_macvtap_name
))
.success());
let mut guest_command = GuestCommand::new(&guest);
guest_command
.args(&["--cpus", "boot=2"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.args(&["--api-socket", &api_socket]);
let net_params = format!(
"fd=[{},{}],mac={},num_queues=4",
tap_fd1, tap_fd2, guest.network.guest_mac
);
if !hotplug {
guest_command.args(&["--net", &net_params]);
}
let mut child = guest_command.capture_output().spawn().unwrap();
if hotplug {
// Give some time to the VMM process to listen to the API
// socket. This is the only requirement to avoid the following
// call to ch-remote from failing.
thread::sleep(std::time::Duration::new(10, 0));
// Hotplug the virtio-net device
let (cmd_success, cmd_output) =
remote_command_w_output(&api_socket, "add-net", Some(&net_params));
assert!(cmd_success);
#[cfg(target_arch = "x86_64")]
assert!(String::from_utf8_lossy(&cmd_output)
.contains("{\"id\":\"_net2\",\"bdf\":\"0000:00:05.0\"}"));
#[cfg(target_arch = "aarch64")]
assert!(String::from_utf8_lossy(&cmd_output)
.contains("{\"id\":\"_net0\",\"bdf\":\"0000:00:05.0\"}"));
}
// The functional connectivity provided by the virtio-net device
// gets tested through wait_vm_boot() as it expects to receive a
// HTTP request, and through the SSH command as well.
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
assert_eq!(
guest
.ssh_command("ip -o link | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
2
);
});
let _ = child.kill();
exec_host_command_status(&format!("sudo ip link del {}", guest_macvtap_name));
exec_host_command_status(&format!("sudo ip link del {}", host_macvtap_name));
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_macvtap() {
_test_macvtap(false, "guestmacvtap0", "hostmacvtap0")
}
#[test]
fn test_macvtap_hotplug() {
_test_macvtap(true, "guestmacvtap1", "hostmacvtap1")
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_ovs_dpdk() {
let focal1 = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest1 = Guest::new(Box::new(focal1));
let focal2 = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest2 = Guest::new(Box::new(focal2));
let api_socket_source = format!("{}.1", temp_api_path(&guest2.tmp_dir));
let (mut child1, mut child2) =
setup_ovs_dpdk_guests(&guest1, &guest2, &api_socket_source, false);
// Create the snapshot directory
let snapshot_dir = temp_snapshot_dir_path(&guest2.tmp_dir);
let r = std::panic::catch_unwind(|| {
// Remove one of the two ports from the OVS bridge
assert!(exec_host_command_status("ovs-vsctl del-port vhost-user1").success());
// Spawn a new netcat listener in the first VM
let guest_ip = guest1.network.guest_ip.clone();
thread::spawn(move || {
ssh_command_ip(
"nc -l 12345",
&guest_ip,
DEFAULT_SSH_RETRIES,
DEFAULT_SSH_TIMEOUT,
)
.unwrap();
});
// Wait for the server to be listening
thread::sleep(std::time::Duration::new(5, 0));
// Check the connection fails this time
assert!(guest2.ssh_command("nc -vz 172.100.0.1 12345").is_err());
// Add the OVS port back
assert!(exec_host_command_status("ovs-vsctl add-port ovsbr0 vhost-user1 -- set Interface vhost-user1 type=dpdkvhostuserclient options:vhost-server-path=/tmp/dpdkvhostclient1").success());
// And finally check the connection is functional again
guest2.ssh_command("nc -vz 172.100.0.1 12345").unwrap();
// Pause the VM
assert!(remote_command(&api_socket_source, "pause", None));
// Take a snapshot from the VM
assert!(remote_command(
&api_socket_source,
"snapshot",
Some(format!("file://{}", snapshot_dir).as_str()),
));
// Wait to make sure the snapshot is completed
thread::sleep(std::time::Duration::new(10, 0));
});
// Shutdown the source VM
let _ = child2.kill();
let output = child2.wait_with_output().unwrap();
handle_child_output(r, &output);
// Remove the vhost-user socket file.
Command::new("rm")
.arg("-f")
.arg("/tmp/dpdkvhostclient2")
.output()
.unwrap();
let api_socket_restored = format!("{}.2", temp_api_path(&guest2.tmp_dir));
// Restore the VM from the snapshot
let mut child2 = GuestCommand::new(&guest2)
.args(&["--api-socket", &api_socket_restored])
.args(&[
"--restore",
format!("source_url=file://{}", snapshot_dir).as_str(),
])
.capture_output()
.spawn()
.unwrap();
// Wait for the VM to be restored
thread::sleep(std::time::Duration::new(10, 0));
let r = std::panic::catch_unwind(|| {
// Resume the VM
assert!(remote_command(&api_socket_restored, "resume", None));
// Spawn a new netcat listener in the first VM
let guest_ip = guest1.network.guest_ip.clone();
thread::spawn(move || {
ssh_command_ip(
"nc -l 12345",
&guest_ip,
DEFAULT_SSH_RETRIES,
DEFAULT_SSH_TIMEOUT,
)
.unwrap();
});
// Wait for the server to be listening
thread::sleep(std::time::Duration::new(5, 0));
// And check the connection is still functional after restore
guest2.ssh_command("nc -vz 172.100.0.1 12345").unwrap();
});
cleanup_ovs_dpdk();
let _ = child1.kill();
let _ = child2.kill();
let output = child1.wait_with_output().unwrap();
child2.wait().unwrap();
handle_child_output(r, &output);
}
fn setup_spdk_nvme(nvme_dir: &std::path::Path) {
cleanup_spdk_nvme();
assert!(exec_host_command_status(&format!(
"mkdir -p {}",
nvme_dir.join("nvme-vfio-user").to_str().unwrap()
))
.success());
assert!(exec_host_command_status(&format!(
"truncate {} -s 128M",
nvme_dir.join("test-disk.raw").to_str().unwrap()
))
.success());
assert!(exec_host_command_status(&format!(
"mkfs.ext4 {}",
nvme_dir.join("test-disk.raw").to_str().unwrap()
))
.success());
// Start the SPDK nvmf_tgt daemon to present NVMe device as a VFIO user device
Command::new("/usr/local/bin/spdk-nvme/nvmf_tgt")
.args(&["-i", "0", "-m", "0x1"])
.spawn()
.unwrap();
thread::sleep(std::time::Duration::new(2, 0));
assert!(exec_host_command_status(
"/usr/local/bin/spdk-nvme/rpc.py nvmf_create_transport -t VFIOUSER"
)
.success());
assert!(exec_host_command_status(&format!(
"/usr/local/bin/spdk-nvme/rpc.py bdev_aio_create {} test 512",
nvme_dir.join("test-disk.raw").to_str().unwrap()
))
.success());
assert!(exec_host_command_status(
"/usr/local/bin/spdk-nvme/rpc.py nvmf_create_subsystem nqn.2019-07.io.spdk:cnode -a -s test"
)
.success());
assert!(exec_host_command_status(
"/usr/local/bin/spdk-nvme/rpc.py nvmf_subsystem_add_ns nqn.2019-07.io.spdk:cnode test"
)
.success());
assert!(exec_host_command_status(&format!(
"/usr/local/bin/spdk-nvme/rpc.py nvmf_subsystem_add_listener nqn.2019-07.io.spdk:cnode -t VFIOUSER -a {} -s 0",
nvme_dir.join("nvme-vfio-user").to_str().unwrap()
))
.success());
}
fn cleanup_spdk_nvme() {
exec_host_command_status("pkill -f nvmf_tgt");
}
#[test]
fn test_vfio_user() {
let jammy_image = JAMMY_IMAGE_NAME.to_string();
let jammy = UbuntuDiskConfig::new(jammy_image);
let guest = Guest::new(Box::new(jammy));
let spdk_nvme_dir = guest.tmp_dir.as_path().join("test-vfio-user");
setup_spdk_nvme(spdk_nvme_dir.as_path());
let api_socket = temp_api_path(&guest.tmp_dir);
let mut child = GuestCommand::new(&guest)
.args(&["--api-socket", &api_socket])
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M,shared=on,hugepages=on"])
.args(&["--kernel", fw_path(FwType::RustHypervisorFirmware).as_str()])
.args(&["--serial", "tty", "--console", "off"])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Hotplug the SPDK-NVMe device to the VM
let (cmd_success, cmd_output) = remote_command_w_output(
&api_socket,
"add-user-device",
Some(&format!(
"socket={},id=vfio_user0",
spdk_nvme_dir
.as_path()
.join("nvme-vfio-user/cntrl")
.to_str()
.unwrap(),
)),
);
assert!(cmd_success);
assert!(String::from_utf8_lossy(&cmd_output)
.contains("{\"id\":\"vfio_user0\",\"bdf\":\"0000:00:05.0\"}"));
thread::sleep(std::time::Duration::new(10, 0));
// Check both if /dev/nvme exists and if the block size is 128M.
assert_eq!(
guest
.ssh_command("lsblk | grep nvme0n1 | grep -c 128M")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
// Check changes persist after reboot
assert_eq!(
guest.ssh_command("sudo mount /dev/nvme0n1 /mnt").unwrap(),
""
);
assert_eq!(guest.ssh_command("ls /mnt").unwrap(), "lost+found\n");
guest
.ssh_command("echo test123 | sudo tee /mnt/test")
.unwrap();
assert_eq!(guest.ssh_command("sudo umount /mnt").unwrap(), "");
assert_eq!(guest.ssh_command("ls /mnt").unwrap(), "");
guest.reboot_linux(0, None);
assert_eq!(
guest.ssh_command("sudo mount /dev/nvme0n1 /mnt").unwrap(),
""
);
assert_eq!(
guest.ssh_command("sudo cat /mnt/test").unwrap().trim(),
"test123"
);
});
cleanup_spdk_nvme();
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
#[cfg(target_arch = "x86_64")]
fn test_vdpa_block() {
// Before trying to run the test, verify the vdpa_sim_blk module is correctly loaded.
if !exec_host_command_status("lsmod | grep vdpa_sim_blk").success() {
return;
}
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let api_socket = temp_api_path(&guest.tmp_dir);
let kernel_path = direct_kernel_boot_path();
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=2"])
.args(&["--memory", "size=512M,hugepages=on"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.default_net()
.args(&["--vdpa", "path=/dev/vhost-vdpa-0,num_queues=1"])
.args(&["--platform", "num_pci_segments=2,iommu_segments=1"])
.args(&["--api-socket", &api_socket])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Check both if /dev/vdc exists and if the block size is 128M.
assert_eq!(
guest
.ssh_command("lsblk | grep vdc | grep -c 128M")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
// Check the content of the block device after we wrote to it.
// The vpda-sim-blk should let us read what we previously wrote.
guest
.ssh_command("sudo bash -c 'echo foobar > /dev/vdc'")
.unwrap();
assert_eq!(
guest.ssh_command("sudo head -1 /dev/vdc").unwrap().trim(),
"foobar"
);
// Hotplug an extra vDPA block device behind the vIOMMU
// Add a new vDPA device to the VM
let (cmd_success, cmd_output) = remote_command_w_output(
&api_socket,
"add-vdpa",
Some("id=myvdpa0,path=/dev/vhost-vdpa-1,num_queues=1,pci_segment=1,iommu=on"),
);
assert!(cmd_success);
assert!(String::from_utf8_lossy(&cmd_output)
.contains("{\"id\":\"myvdpa0\",\"bdf\":\"0001:00:01.0\"}"));
thread::sleep(std::time::Duration::new(10, 0));
// Check IOMMU setup
assert!(guest
.does_device_vendor_pair_match("0x1057", "0x1af4")
.unwrap_or_default());
assert_eq!(
guest
.ssh_command("ls /sys/kernel/iommu_groups/0/devices")
.unwrap()
.trim(),
"0001:00:01.0"
);
// Check both if /dev/vdd exists and if the block size is 128M.
assert_eq!(
guest
.ssh_command("lsblk | grep vdd | grep -c 128M")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
// Write some content to the block device we've just plugged.
guest
.ssh_command("sudo bash -c 'echo foobar > /dev/vdd'")
.unwrap();
// Check we can read the content back.
assert_eq!(
guest.ssh_command("sudo head -1 /dev/vdd").unwrap().trim(),
"foobar"
);
// Unplug the device
let cmd_success = remote_command(&api_socket, "remove-device", Some("myvdpa0"));
assert!(cmd_success);
thread::sleep(std::time::Duration::new(10, 0));
// Check /dev/vdd doesn't exist anymore
assert_eq!(
guest
.ssh_command("lsblk | grep -c vdd || true")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or(1),
0
);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
#[cfg(target_arch = "x86_64")]
fn test_vdpa_net() {
// Before trying to run the test, verify the vdpa_sim_net module is correctly loaded.
if !exec_host_command_status("lsmod | grep vdpa_sim_net").success() {
return;
}
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let kernel_path = direct_kernel_boot_path();
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=2"])
.args(&["--memory", "size=512M,hugepages=on"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.default_net()
.args(&["--vdpa", "path=/dev/vhost-vdpa-2,num_queues=2"])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Check we can find network interface related to vDPA device
assert_eq!(
guest
.ssh_command("ip -o link | grep -c ens6")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or(0),
1
);
guest
.ssh_command("sudo ip addr add 172.16.1.2/24 dev ens6")
.unwrap();
guest.ssh_command("sudo ip link set up dev ens6").unwrap();
// Check there is no packet yet on both TX/RX of the network interface
assert_eq!(
guest
.ssh_command("ip -j -p -s link show ens6 | grep -c '\"packets\": 0'")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or(0),
2
);
// Send 6 packets with ping command
guest.ssh_command("ping 172.16.1.10 -c 6 || true").unwrap();
// Check we can find 6 packets on both TX/RX of the network interface
assert_eq!(
guest
.ssh_command("ip -j -p -s link show ens6 | grep -c '\"packets\": 6'")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or(0),
2
);
// No need to check for hotplug as we already tested it through
// test_vdpa_block()
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
}
mod sequential {
use crate::*;
#[test]
fn test_memory_mergeable_on() {
test_memory_mergeable(true)
}
}
#[cfg(target_arch = "x86_64")]
mod windows {
use crate::*;
use once_cell::sync::Lazy;
static NEXT_DISK_ID: Lazy<Mutex<u8>> = Lazy::new(|| Mutex::new(1));
struct WindowsGuest {
guest: Guest,
auth: PasswordAuth,
}
trait FsType {
const FS_FAT: u8;
const FS_NTFS: u8;
}
impl FsType for WindowsGuest {
const FS_FAT: u8 = 0;
const FS_NTFS: u8 = 1;
}
impl WindowsGuest {
fn new() -> Self {
let disk = WindowsDiskConfig::new(WINDOWS_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(disk));
let auth = PasswordAuth {
username: String::from("administrator"),
password: String::from("Admin123"),
};
WindowsGuest { guest, auth }
}
fn guest(&self) -> &Guest {
&self.guest
}
fn ssh_cmd(&self, cmd: &str) -> String {
ssh_command_ip_with_auth(
cmd,
&self.auth,
&self.guest.network.guest_ip,
DEFAULT_SSH_RETRIES,
DEFAULT_SSH_TIMEOUT,
)
.unwrap()
}
fn cpu_count(&self) -> u8 {
self.ssh_cmd("powershell -Command \"(Get-CimInstance win32_computersystem).NumberOfLogicalProcessors\"")
.trim()
.parse::<u8>()
.unwrap_or(0)
}
fn ram_size(&self) -> usize {
self.ssh_cmd("powershell -Command \"(Get-CimInstance win32_computersystem).TotalPhysicalMemory\"")
.trim()
.parse::<usize>()
.unwrap_or(0)
}
fn netdev_count(&self) -> u8 {
self.ssh_cmd("powershell -Command \"netsh int ipv4 show interfaces | Select-String ethernet | Measure-Object -Line | Format-Table -HideTableHeaders\"")
.trim()
.parse::<u8>()
.unwrap_or(0)
}
fn disk_count(&self) -> u8 {
self.ssh_cmd("powershell -Command \"Get-Disk | Measure-Object -Line | Format-Table -HideTableHeaders\"")
.trim()
.parse::<u8>()
.unwrap_or(0)
}
fn reboot(&self) {
let _ = self.ssh_cmd("shutdown /r /t 0");
}
fn shutdown(&self) {
let _ = self.ssh_cmd("shutdown /s /t 0");
}
fn run_dnsmasq(&self) -> std::process::Child {
let listen_address = format!("--listen-address={}", self.guest.network.host_ip);
let dhcp_host = format!(
"--dhcp-host={},{}",
self.guest.network.guest_mac, self.guest.network.guest_ip
);
let dhcp_range = format!(
"--dhcp-range=eth,{},{}",
self.guest.network.guest_ip, self.guest.network.guest_ip
);
Command::new("dnsmasq")
.arg("--no-daemon")
.arg("--log-queries")
.arg(listen_address.as_str())
.arg("--except-interface=lo")
.arg("--bind-dynamic") // Allow listening to host_ip while the interface is not ready yet.
.arg("--conf-file=/dev/null")
.arg(dhcp_host.as_str())
.arg(dhcp_range.as_str())
.spawn()
.unwrap()
}
// TODO Cleanup image file explicitly after test, if there's some space issues.
fn disk_new(&self, fs: u8, sz: usize) -> String {
let mut guard = NEXT_DISK_ID.lock().unwrap();
let id = *guard;
*guard = id + 1;
let img = PathBuf::from(format!("/tmp/test-hotplug-{}.raw", id));
let _ = fs::remove_file(&img);
// Create an image file
let out = Command::new("qemu-img")
.args(&[
"create",
"-f",
"raw",
img.to_str().unwrap(),
format!("{}m", sz).as_str(),
])
.output()
.expect("qemu-img command failed")
.stdout;
println!("{:?}", out);
// Associate image to a loop device
let out = Command::new("losetup")
.args(&["--show", "-f", img.to_str().unwrap()])
.output()
.expect("failed to create loop device")
.stdout;
let _tmp = String::from_utf8_lossy(&out);
let loop_dev = _tmp.trim();
println!("{:?}", out);
// Create a partition table
// echo 'type=7' | sudo sfdisk "${LOOP}"
let mut child = Command::new("sfdisk")
.args(&[loop_dev])
.stdin(Stdio::piped())
.spawn()
.unwrap();
let stdin = child.stdin.as_mut().expect("failed to open stdin");
stdin
.write_all("type=7".as_bytes())
.expect("failed to write stdin");
let out = child.wait_with_output().expect("sfdisk failed").stdout;
println!("{:?}", out);
// Disengage the loop device
let out = Command::new("losetup")
.args(&["-d", loop_dev])
.output()
.expect("loop device not found")
.stdout;
println!("{:?}", out);
// Re-associate loop device pointing to the partition only
let out = Command::new("losetup")
.args(&[
"--show",
"--offset",
(512 * 2048).to_string().as_str(),
"-f",
img.to_str().unwrap(),
])
.output()
.expect("failed to create loop device")
.stdout;
let _tmp = String::from_utf8_lossy(&out);
let loop_dev = _tmp.trim();
println!("{:?}", out);
// Create filesystem.
let fs_cmd = match fs {
WindowsGuest::FS_FAT => "mkfs.msdos",
WindowsGuest::FS_NTFS => "mkfs.ntfs",
_ => panic!("Unknown filesystem type '{}'", fs),
};
let out = Command::new(fs_cmd)
.args(&[&loop_dev])
.output()
.unwrap_or_else(|_| panic!("{} failed", fs_cmd))
.stdout;
println!("{:?}", out);
// Disengage the loop device
let out = Command::new("losetup")
.args(&["-d", loop_dev])
.output()
.unwrap_or_else(|_| panic!("loop device '{}' not found", loop_dev))
.stdout;
println!("{:?}", out);
img.to_str().unwrap().to_string()
}
fn disks_set_rw(&self) {
let _ = self.ssh_cmd("powershell -Command \"Get-Disk | Where-Object IsOffline -eq $True | Set-Disk -IsReadOnly $False\"");
}
fn disks_online(&self) {
let _ = self.ssh_cmd("powershell -Command \"Get-Disk | Where-Object IsOffline -eq $True | Set-Disk -IsOffline $False\"");
}
fn disk_file_put(&self, fname: &str, data: &str) {
let _ = self.ssh_cmd(&format!(
"powershell -Command \"'{}' | Set-Content -Path {}\"",
data, fname
));
}
fn disk_file_read(&self, fname: &str) -> String {
self.ssh_cmd(&format!(
"powershell -Command \"Get-Content -Path {}\"",
fname
))
}
fn wait_for_boot(&self) -> bool {
let cmd = "dir /b c:\\ | find \"Windows\"";
let tmo_max = 180;
// The timeout increase by n*1+n*2+n*3+..., therefore the initial
// interval must be small.
let tmo_int = 2;
let out = ssh_command_ip_with_auth(
cmd,
&self.auth,
&self.guest.network.guest_ip,
{
let mut ret = 1;
let mut tmo_acc = 0;
loop {
tmo_acc += tmo_int * ret;
if tmo_acc >= tmo_max {
break;
}
ret += 1;
}
ret
},
tmo_int,
)
.unwrap();
if "Windows" == out.trim() {
return true;
}
false
}
}
fn vcpu_threads_count(pid: u32) -> u8 {
// ps -T -p 12345 | grep vcpu | wc -l
let out = Command::new("ps")
.args(&["-T", "-p", format!("{}", pid).as_str()])
.output()
.expect("ps command failed")
.stdout;
return String::from_utf8_lossy(&out).matches("vcpu").count() as u8;
}
fn netdev_ctrl_threads_count(pid: u32) -> u8 {
// ps -T -p 12345 | grep "_net[0-9]*_ctrl" | wc -l
let out = Command::new("ps")
.args(&["-T", "-p", format!("{}", pid).as_str()])
.output()
.expect("ps command failed")
.stdout;
let mut n = 0;
String::from_utf8_lossy(&out)
.split_whitespace()
.for_each(|s| n += (s.starts_with("_net") && s.ends_with("_ctrl")) as u8); // _net1_ctrl
n
}
fn disk_ctrl_threads_count(pid: u32) -> u8 {
// ps -T -p 15782 | grep "_disk[0-9]*_q0" | wc -l
let out = Command::new("ps")
.args(&["-T", "-p", format!("{}", pid).as_str()])
.output()
.expect("ps command failed")
.stdout;
let mut n = 0;
String::from_utf8_lossy(&out)
.split_whitespace()
.for_each(|s| n += (s.starts_with("_disk") && s.ends_with("_q0")) as u8); // _disk0_q0, don't care about multiple queues as they're related to the same hdd
n
}
#[test]
fn test_windows_guest() {
let windows_guest = WindowsGuest::new();
let mut ovmf_path = dirs::home_dir().unwrap();
ovmf_path.push("workloads");
ovmf_path.push(OVMF_NAME);
let mut child = GuestCommand::new(windows_guest.guest())
.args(&["--cpus", "boot=2,kvm_hyperv=on"])
.args(&["--memory", "size=4G"])
.args(&["--kernel", ovmf_path.to_str().unwrap()])
.args(&["--serial", "tty"])
.args(&["--console", "off"])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let fd = child.stdout.as_ref().unwrap().as_raw_fd();
let pipesize = unsafe { libc::fcntl(fd, libc::F_SETPIPE_SZ, PIPE_SIZE) };
let fd = child.stderr.as_ref().unwrap().as_raw_fd();
let pipesize1 = unsafe { libc::fcntl(fd, libc::F_SETPIPE_SZ, PIPE_SIZE) };
assert!(pipesize >= PIPE_SIZE && pipesize1 >= PIPE_SIZE);
let mut child_dnsmasq = windows_guest.run_dnsmasq();
let r = std::panic::catch_unwind(|| {
// Wait to make sure Windows boots up
assert!(windows_guest.wait_for_boot());
windows_guest.shutdown();
});
let _ = child.wait_timeout(std::time::Duration::from_secs(60));
let _ = child.kill();
let output = child.wait_with_output().unwrap();
let _ = child_dnsmasq.kill();
let _ = child_dnsmasq.wait();
handle_child_output(r, &output);
}
#[test]
fn test_windows_guest_multiple_queues() {
let windows_guest = WindowsGuest::new();
let mut ovmf_path = dirs::home_dir().unwrap();
ovmf_path.push("workloads");
ovmf_path.push(OVMF_NAME);
let mut child = GuestCommand::new(windows_guest.guest())
.args(&["--cpus", "boot=4,kvm_hyperv=on"])
.args(&["--memory", "size=4G"])
.args(&["--kernel", ovmf_path.to_str().unwrap()])
.args(&["--serial", "tty"])
.args(&["--console", "off"])
.args(&[
"--disk",
format!(
"path={},num_queues=4",
windows_guest
.guest()
.disk_config
.disk(DiskType::OperatingSystem)
.unwrap()
)
.as_str(),
])
.args(&[
"--net",
format!(
"tap=,mac={},ip={},mask=255.255.255.0,num_queues=8",
windows_guest.guest().network.guest_mac,
windows_guest.guest().network.host_ip
)
.as_str(),
])
.capture_output()
.spawn()
.unwrap();
let fd = child.stdout.as_ref().unwrap().as_raw_fd();
let pipesize = unsafe { libc::fcntl(fd, libc::F_SETPIPE_SZ, PIPE_SIZE) };
let fd = child.stderr.as_ref().unwrap().as_raw_fd();
let pipesize1 = unsafe { libc::fcntl(fd, libc::F_SETPIPE_SZ, PIPE_SIZE) };
assert!(pipesize >= PIPE_SIZE && pipesize1 >= PIPE_SIZE);
let mut child_dnsmasq = windows_guest.run_dnsmasq();
let r = std::panic::catch_unwind(|| {
// Wait to make sure Windows boots up
assert!(windows_guest.wait_for_boot());
windows_guest.shutdown();
});
let _ = child.wait_timeout(std::time::Duration::from_secs(60));
let _ = child.kill();
let output = child.wait_with_output().unwrap();
let _ = child_dnsmasq.kill();
let _ = child_dnsmasq.wait();
handle_child_output(r, &output);
}
#[test]
#[cfg(not(feature = "mshv"))]
#[ignore = "See #4327"]
fn test_windows_guest_snapshot_restore() {
let windows_guest = WindowsGuest::new();
let mut ovmf_path = dirs::home_dir().unwrap();
ovmf_path.push("workloads");
ovmf_path.push(OVMF_NAME);
let tmp_dir = TempDir::new_with_prefix("/tmp/ch").unwrap();
let api_socket_source = format!("{}.1", temp_api_path(&tmp_dir));
let mut child = GuestCommand::new(windows_guest.guest())
.args(&["--api-socket", &api_socket_source])
.args(&["--cpus", "boot=2,kvm_hyperv=on"])
.args(&["--memory", "size=4G"])
.args(&["--kernel", ovmf_path.to_str().unwrap()])
.args(&["--serial", "tty"])
.args(&["--console", "off"])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let fd = child.stdout.as_ref().unwrap().as_raw_fd();
let pipesize = unsafe { libc::fcntl(fd, libc::F_SETPIPE_SZ, PIPE_SIZE) };
let fd = child.stderr.as_ref().unwrap().as_raw_fd();
let pipesize1 = unsafe { libc::fcntl(fd, libc::F_SETPIPE_SZ, PIPE_SIZE) };
assert!(pipesize >= PIPE_SIZE && pipesize1 >= PIPE_SIZE);
let mut child_dnsmasq = windows_guest.run_dnsmasq();
// Wait to make sure Windows boots up
assert!(windows_guest.wait_for_boot());
let snapshot_dir = temp_snapshot_dir_path(&tmp_dir);
// Pause the VM
assert!(remote_command(&api_socket_source, "pause", None));
// Take a snapshot from the VM
assert!(remote_command(
&api_socket_source,
"snapshot",
Some(format!("file://{}", snapshot_dir).as_str()),
));
// Wait to make sure the snapshot is completed
thread::sleep(std::time::Duration::new(30, 0));
let _ = child.kill();
child.wait().unwrap();
let api_socket_restored = format!("{}.2", temp_api_path(&tmp_dir));
// Restore the VM from the snapshot
let mut child = GuestCommand::new(windows_guest.guest())
.args(&["--api-socket", &api_socket_restored])
.args(&[
"--restore",
format!("source_url=file://{}", snapshot_dir).as_str(),
])
.capture_output()
.spawn()
.unwrap();
// Wait for the VM to be restored
thread::sleep(std::time::Duration::new(20, 0));
let r = std::panic::catch_unwind(|| {
// Resume the VM
assert!(remote_command(&api_socket_restored, "resume", None));
windows_guest.shutdown();
});
let _ = child.wait_timeout(std::time::Duration::from_secs(60));
let _ = child.kill();
let output = child.wait_with_output().unwrap();
let _ = child_dnsmasq.kill();
let _ = child_dnsmasq.wait();
handle_child_output(r, &output);
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_windows_guest_cpu_hotplug() {
let windows_guest = WindowsGuest::new();
let mut ovmf_path = dirs::home_dir().unwrap();
ovmf_path.push("workloads");
ovmf_path.push(OVMF_NAME);
let tmp_dir = TempDir::new_with_prefix("/tmp/ch").unwrap();
let api_socket = temp_api_path(&tmp_dir);
let mut child = GuestCommand::new(windows_guest.guest())
.args(&["--api-socket", &api_socket])
.args(&["--cpus", "boot=2,max=8,kvm_hyperv=on"])
.args(&["--memory", "size=4G"])
.args(&["--kernel", ovmf_path.to_str().unwrap()])
.args(&["--serial", "tty"])
.args(&["--console", "off"])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let mut child_dnsmasq = windows_guest.run_dnsmasq();
let r = std::panic::catch_unwind(|| {
// Wait to make sure Windows boots up
assert!(windows_guest.wait_for_boot());
let vcpu_num = 2;
// Check the initial number of CPUs the guest sees
assert_eq!(windows_guest.cpu_count(), vcpu_num);
// Check the initial number of vcpu threads in the CH process
assert_eq!(vcpu_threads_count(child.id()), vcpu_num);
let vcpu_num = 6;
// Hotplug some CPUs
resize_command(&api_socket, Some(vcpu_num), None, None, None);
// Wait to make sure CPUs are added
thread::sleep(std::time::Duration::new(10, 0));
// Check the guest sees the correct number
assert_eq!(windows_guest.cpu_count(), vcpu_num);
// Check the CH process has the correct number of vcpu threads
assert_eq!(vcpu_threads_count(child.id()), vcpu_num);
let vcpu_num = 4;
// Remove some CPUs. Note that Windows doesn't support hot-remove.
resize_command(&api_socket, Some(vcpu_num), None, None, None);
// Wait to make sure CPUs are removed
thread::sleep(std::time::Duration::new(10, 0));
// Reboot to let Windows catch up
windows_guest.reboot();
// Wait to make sure Windows completely rebooted
thread::sleep(std::time::Duration::new(60, 0));
// Check the guest sees the correct number
assert_eq!(windows_guest.cpu_count(), vcpu_num);
// Check the CH process has the correct number of vcpu threads
assert_eq!(vcpu_threads_count(child.id()), vcpu_num);
windows_guest.shutdown();
});
let _ = child.wait_timeout(std::time::Duration::from_secs(60));
let _ = child.kill();
let output = child.wait_with_output().unwrap();
let _ = child_dnsmasq.kill();
let _ = child_dnsmasq.wait();
handle_child_output(r, &output);
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_windows_guest_ram_hotplug() {
let windows_guest = WindowsGuest::new();
let mut ovmf_path = dirs::home_dir().unwrap();
ovmf_path.push("workloads");
ovmf_path.push(OVMF_NAME);
let tmp_dir = TempDir::new_with_prefix("/tmp/ch").unwrap();
let api_socket = temp_api_path(&tmp_dir);
let mut child = GuestCommand::new(windows_guest.guest())
.args(&["--api-socket", &api_socket])
.args(&["--cpus", "boot=2,kvm_hyperv=on"])
.args(&["--memory", "size=2G,hotplug_size=5G"])
.args(&["--kernel", ovmf_path.to_str().unwrap()])
.args(&["--serial", "tty"])
.args(&["--console", "off"])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let mut child_dnsmasq = windows_guest.run_dnsmasq();
let r = std::panic::catch_unwind(|| {
// Wait to make sure Windows boots up
assert!(windows_guest.wait_for_boot());
let ram_size = 2 * 1024 * 1024 * 1024;
// Check the initial number of RAM the guest sees
let current_ram_size = windows_guest.ram_size();
// This size seems to be reserved by the system and thus the
// reported amount differs by this constant value.
let reserved_ram_size = ram_size - current_ram_size;
// Verify that there's not more than 4mb constant diff wasted
// by the reserved ram.
assert!(reserved_ram_size < 4 * 1024 * 1024);
let ram_size = 4 * 1024 * 1024 * 1024;
// Hotplug some RAM
resize_command(&api_socket, None, Some(ram_size), None, None);
// Wait to make sure RAM has been added
thread::sleep(std::time::Duration::new(10, 0));
// Check the guest sees the correct number
assert_eq!(windows_guest.ram_size(), ram_size - reserved_ram_size);
let ram_size = 3 * 1024 * 1024 * 1024;
// Unplug some RAM. Note that hot-remove most likely won't work.
resize_command(&api_socket, None, Some(ram_size), None, None);
// Wait to make sure RAM has been added
thread::sleep(std::time::Duration::new(10, 0));
// Reboot to let Windows catch up
windows_guest.reboot();
// Wait to make sure guest completely rebooted
thread::sleep(std::time::Duration::new(60, 0));
// Check the guest sees the correct number
assert_eq!(windows_guest.ram_size(), ram_size - reserved_ram_size);
windows_guest.shutdown();
});
let _ = child.wait_timeout(std::time::Duration::from_secs(60));
let _ = child.kill();
let output = child.wait_with_output().unwrap();
let _ = child_dnsmasq.kill();
let _ = child_dnsmasq.wait();
handle_child_output(r, &output);
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_windows_guest_netdev_hotplug() {
let windows_guest = WindowsGuest::new();
let mut ovmf_path = dirs::home_dir().unwrap();
ovmf_path.push("workloads");
ovmf_path.push(OVMF_NAME);
let tmp_dir = TempDir::new_with_prefix("/tmp/ch").unwrap();
let api_socket = temp_api_path(&tmp_dir);
let mut child = GuestCommand::new(windows_guest.guest())
.args(&["--api-socket", &api_socket])
.args(&["--cpus", "boot=2,kvm_hyperv=on"])
.args(&["--memory", "size=4G"])
.args(&["--kernel", ovmf_path.to_str().unwrap()])
.args(&["--serial", "tty"])
.args(&["--console", "off"])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let mut child_dnsmasq = windows_guest.run_dnsmasq();
let r = std::panic::catch_unwind(|| {
// Wait to make sure Windows boots up
assert!(windows_guest.wait_for_boot());
// Initially present network device
let netdev_num = 1;
assert_eq!(windows_guest.netdev_count(), netdev_num);
assert_eq!(netdev_ctrl_threads_count(child.id()), netdev_num);
// Hotplug network device
let (cmd_success, cmd_output) = remote_command_w_output(
&api_socket,
"add-net",
Some(windows_guest.guest().default_net_string().as_str()),
);
assert!(cmd_success);
assert!(String::from_utf8_lossy(&cmd_output).contains("\"id\":\"_net2\""));
thread::sleep(std::time::Duration::new(5, 0));
// Verify the device is on the system
let netdev_num = 2;
assert_eq!(windows_guest.netdev_count(), netdev_num);
assert_eq!(netdev_ctrl_threads_count(child.id()), netdev_num);
// Remove network device
let cmd_success = remote_command(&api_socket, "remove-device", Some("_net2"));
assert!(cmd_success);
thread::sleep(std::time::Duration::new(5, 0));
// Verify the device has been removed
let netdev_num = 1;
assert_eq!(windows_guest.netdev_count(), netdev_num);
assert_eq!(netdev_ctrl_threads_count(child.id()), netdev_num);
windows_guest.shutdown();
});
let _ = child.wait_timeout(std::time::Duration::from_secs(60));
let _ = child.kill();
let output = child.wait_with_output().unwrap();
let _ = child_dnsmasq.kill();
let _ = child_dnsmasq.wait();
handle_child_output(r, &output);
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_windows_guest_disk_hotplug() {
let windows_guest = WindowsGuest::new();
let mut ovmf_path = dirs::home_dir().unwrap();
ovmf_path.push("workloads");
ovmf_path.push(OVMF_NAME);
let tmp_dir = TempDir::new_with_prefix("/tmp/ch").unwrap();
let api_socket = temp_api_path(&tmp_dir);
let mut child = GuestCommand::new(windows_guest.guest())
.args(&["--api-socket", &api_socket])
.args(&["--cpus", "boot=2,kvm_hyperv=on"])
.args(&["--memory", "size=4G"])
.args(&["--kernel", ovmf_path.to_str().unwrap()])
.args(&["--serial", "tty"])
.args(&["--console", "off"])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let mut child_dnsmasq = windows_guest.run_dnsmasq();
let disk = windows_guest.disk_new(WindowsGuest::FS_FAT, 100);
let r = std::panic::catch_unwind(|| {
// Wait to make sure Windows boots up
assert!(windows_guest.wait_for_boot());
// Initially present disk device
let disk_num = 1;
assert_eq!(windows_guest.disk_count(), disk_num);
assert_eq!(disk_ctrl_threads_count(child.id()), disk_num);
// Hotplug disk device
let (cmd_success, cmd_output) = remote_command_w_output(
&api_socket,
"add-disk",
Some(format!("path={},readonly=off", disk).as_str()),
);
assert!(cmd_success);
assert!(String::from_utf8_lossy(&cmd_output).contains("\"id\":\"_disk2\""));
thread::sleep(std::time::Duration::new(5, 0));
// Online disk device
windows_guest.disks_set_rw();
windows_guest.disks_online();
// Verify the device is on the system
let disk_num = 2;
assert_eq!(windows_guest.disk_count(), disk_num);
assert_eq!(disk_ctrl_threads_count(child.id()), disk_num);
let data = "hello";
let fname = "d:\\world";
windows_guest.disk_file_put(fname, data);
// Unmount disk device
let cmd_success = remote_command(&api_socket, "remove-device", Some("_disk2"));
assert!(cmd_success);
thread::sleep(std::time::Duration::new(5, 0));
// Verify the device has been removed
let disk_num = 1;
assert_eq!(windows_guest.disk_count(), disk_num);
assert_eq!(disk_ctrl_threads_count(child.id()), disk_num);
// Remount and check the file exists with the expected contents
let (cmd_success, _cmd_output) = remote_command_w_output(
&api_socket,
"add-disk",
Some(format!("path={},readonly=off", disk).as_str()),
);
assert!(cmd_success);
thread::sleep(std::time::Duration::new(5, 0));
let out = windows_guest.disk_file_read(fname);
assert_eq!(data, out.trim());
// Intentionally no unmount, it'll happen at shutdown.
windows_guest.shutdown();
});
let _ = child.wait_timeout(std::time::Duration::from_secs(60));
let _ = child.kill();
let output = child.wait_with_output().unwrap();
let _ = child_dnsmasq.kill();
let _ = child_dnsmasq.wait();
handle_child_output(r, &output);
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_windows_guest_disk_hotplug_multi() {
let windows_guest = WindowsGuest::new();
let mut ovmf_path = dirs::home_dir().unwrap();
ovmf_path.push("workloads");
ovmf_path.push(OVMF_NAME);
let tmp_dir = TempDir::new_with_prefix("/tmp/ch").unwrap();
let api_socket = temp_api_path(&tmp_dir);
let mut child = GuestCommand::new(windows_guest.guest())
.args(&["--api-socket", &api_socket])
.args(&["--cpus", "boot=2,kvm_hyperv=on"])
.args(&["--memory", "size=2G"])
.args(&["--kernel", ovmf_path.to_str().unwrap()])
.args(&["--serial", "tty"])
.args(&["--console", "off"])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let mut child_dnsmasq = windows_guest.run_dnsmasq();
// Predefined data to used at various test stages
let disk_test_data: [[String; 4]; 2] = [
[
"_disk2".to_string(),
windows_guest.disk_new(WindowsGuest::FS_FAT, 123),
"d:\\world".to_string(),
"hello".to_string(),
],
[
"_disk3".to_string(),
windows_guest.disk_new(WindowsGuest::FS_NTFS, 333),
"e:\\hello".to_string(),
"world".to_string(),
],
];
let r = std::panic::catch_unwind(|| {
// Wait to make sure Windows boots up
assert!(windows_guest.wait_for_boot());
// Initially present disk device
let disk_num = 1;
assert_eq!(windows_guest.disk_count(), disk_num);
assert_eq!(disk_ctrl_threads_count(child.id()), disk_num);
for it in &disk_test_data {
let disk_id = it[0].as_str();
let disk = it[1].as_str();
// Hotplug disk device
let (cmd_success, cmd_output) = remote_command_w_output(
&api_socket,
"add-disk",
Some(format!("path={},readonly=off", disk).as_str()),
);
assert!(cmd_success);
assert!(String::from_utf8_lossy(&cmd_output)
.contains(format!("\"id\":\"{}\"", disk_id).as_str()));
thread::sleep(std::time::Duration::new(5, 0));
// Online disk devices
windows_guest.disks_set_rw();
windows_guest.disks_online();
}
// Verify the devices are on the system
let disk_num = (disk_test_data.len() + 1) as u8;
assert_eq!(windows_guest.disk_count(), disk_num);
assert_eq!(disk_ctrl_threads_count(child.id()), disk_num);
// Put test data
for it in &disk_test_data {
let fname = it[2].as_str();
let data = it[3].as_str();
windows_guest.disk_file_put(fname, data);
}
// Unmount disk devices
for it in &disk_test_data {
let disk_id = it[0].as_str();
let cmd_success = remote_command(&api_socket, "remove-device", Some(disk_id));
assert!(cmd_success);
thread::sleep(std::time::Duration::new(5, 0));
}
// Verify the devices have been removed
let disk_num = 1;
assert_eq!(windows_guest.disk_count(), disk_num);
assert_eq!(disk_ctrl_threads_count(child.id()), disk_num);
// Remount
for it in &disk_test_data {
let disk = it[1].as_str();
let (cmd_success, _cmd_output) = remote_command_w_output(
&api_socket,
"add-disk",
Some(format!("path={},readonly=off", disk).as_str()),
);
assert!(cmd_success);
thread::sleep(std::time::Duration::new(5, 0));
}
// Check the files exists with the expected contents
for it in &disk_test_data {
let fname = it[2].as_str();
let data = it[3].as_str();
let out = windows_guest.disk_file_read(fname);
assert_eq!(data, out.trim());
}
// Intentionally no unmount, it'll happen at shutdown.
windows_guest.shutdown();
});
let _ = child.wait_timeout(std::time::Duration::from_secs(60));
let _ = child.kill();
let output = child.wait_with_output().unwrap();
let _ = child_dnsmasq.kill();
let _ = child_dnsmasq.wait();
handle_child_output(r, &output);
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_windows_guest_netdev_multi() {
let windows_guest = WindowsGuest::new();
let mut ovmf_path = dirs::home_dir().unwrap();
ovmf_path.push("workloads");
ovmf_path.push(OVMF_NAME);
let tmp_dir = TempDir::new_with_prefix("/tmp/ch").unwrap();
let api_socket = temp_api_path(&tmp_dir);
let mut child = GuestCommand::new(windows_guest.guest())
.args(&["--api-socket", &api_socket])
.args(&["--cpus", "boot=2,kvm_hyperv=on"])
.args(&["--memory", "size=4G"])
.args(&["--kernel", ovmf_path.to_str().unwrap()])
.args(&["--serial", "tty"])
.args(&["--console", "off"])
.default_disks()
// The multi net dev config is borrowed from test_multiple_network_interfaces
.args(&[
"--net",
windows_guest.guest().default_net_string().as_str(),
"tap=,mac=8a:6b:6f:5a:de:ac,ip=192.168.3.1,mask=255.255.255.0",
"tap=mytap42,mac=fe:1f:9e:e1:60:f2,ip=192.168.4.1,mask=255.255.255.0",
])
.capture_output()
.spawn()
.unwrap();
let mut child_dnsmasq = windows_guest.run_dnsmasq();
let r = std::panic::catch_unwind(|| {
// Wait to make sure Windows boots up
assert!(windows_guest.wait_for_boot());
let netdev_num = 3;
assert_eq!(windows_guest.netdev_count(), netdev_num);
assert_eq!(netdev_ctrl_threads_count(child.id()), netdev_num);
let tap_count = exec_host_command_output("ip link | grep -c mytap42");
assert_eq!(String::from_utf8_lossy(&tap_count.stdout).trim(), "1");
windows_guest.shutdown();
});
let _ = child.wait_timeout(std::time::Duration::from_secs(60));
let _ = child.kill();
let output = child.wait_with_output().unwrap();
let _ = child_dnsmasq.kill();
let _ = child_dnsmasq.wait();
handle_child_output(r, &output);
}
}
#[cfg(target_arch = "x86_64")]
mod sgx {
use crate::*;
#[test]
fn test_sgx() {
let focal = UbuntuDiskConfig::new(FOCAL_SGX_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let mut workload_path = dirs::home_dir().unwrap();
workload_path.push("workloads");
let mut kernel_path = workload_path;
kernel_path.push("vmlinux_w_sgx");
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.default_net()
.args(&["--sgx-epc", "id=epc0,size=64M"])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Check if SGX is correctly detected in the guest.
guest.check_sgx_support().unwrap();
// Validate the SGX EPC section is 64MiB.
assert_eq!(
guest
.ssh_command("cpuid -l 0x12 -s 2 | grep 'section size' | cut -d '=' -f 2")
.unwrap()
.trim(),
"0x0000000004000000"
);
// Run a test relying on SGX enclaves and check if it runs
// successfully.
assert!(guest
.ssh_command("cd /linux-sgx/SampleCode/LocalAttestation/bin/ && sudo ./app")
.unwrap()
.trim()
.contains(
"succeed to load enclaves.\nsucceed to \
establish secure channel.\nSucceed to exchange \
secure message...\nSucceed to close Session..."
));
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
}
#[cfg(target_arch = "x86_64")]
mod vfio {
use crate::*;
#[test]
// The VFIO integration test starts cloud-hypervisor guest with 3 TAP
// backed networking interfaces, bound through a simple bridge on the host.
// So if the nested cloud-hypervisor succeeds in getting a directly
// assigned interface from its cloud-hypervisor host, we should be able to
// ssh into it, and verify that it's running with the right kernel command
// line (We tag the command line from cloud-hypervisor for that purpose).
// The third device is added to validate that hotplug works correctly since
// it is being added to the L2 VM through hotplugging mechanism.
// Also, we pass-through a vitio-blk device to the L2 VM to test the 32-bit
// vfio device support
fn test_vfio() {
setup_vfio_network_interfaces();
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new_from_ip_range(Box::new(focal), "172.18", 0);
let mut workload_path = dirs::home_dir().unwrap();
workload_path.push("workloads");
let kernel_path = direct_kernel_boot_path();
let mut vfio_path = workload_path.clone();
vfio_path.push("vfio");
let mut cloud_init_vfio_base_path = vfio_path.clone();
cloud_init_vfio_base_path.push("cloudinit.img");
// We copy our cloudinit into the vfio mount point, for the nested
// cloud-hypervisor guest to use.
rate_limited_copy(
&guest.disk_config.disk(DiskType::CloudInit).unwrap(),
&cloud_init_vfio_base_path,
)
.expect("copying of cloud-init disk failed");
let mut vfio_disk_path = workload_path.clone();
vfio_disk_path.push("vfio.img");
// Create the vfio disk image
let output = Command::new("mkfs.ext4")
.arg("-d")
.arg(vfio_path.to_str().unwrap())
.arg(vfio_disk_path.to_str().unwrap())
.arg("2g")
.output()
.unwrap();
if !output.status.success() {
eprintln!("{}", String::from_utf8_lossy(&output.stderr));
panic!("mkfs.ext4 command generated an error");
}
let mut blk_file_path = workload_path;
blk_file_path.push("blk.img");
let vfio_tap0 = "vfio-tap0";
let vfio_tap1 = "vfio-tap1";
let vfio_tap2 = "vfio-tap2";
let vfio_tap3 = "vfio-tap3";
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=4"])
.args(&["--memory", "size=2G,hugepages=on,shared=on"])
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&[
"--disk",
format!(
"path={}",
guest.disk_config.disk(DiskType::OperatingSystem).unwrap()
)
.as_str(),
format!(
"path={}",
guest.disk_config.disk(DiskType::CloudInit).unwrap()
)
.as_str(),
format!("path={}", vfio_disk_path.to_str().unwrap()).as_str(),
format!("path={},iommu=on", blk_file_path.to_str().unwrap()).as_str(),
])
.args(&[
"--cmdline",
format!(
"{} kvm-intel.nested=1 vfio_iommu_type1.allow_unsafe_interrupts",
DIRECT_KERNEL_BOOT_CMDLINE
)
.as_str(),
])
.args(&[
"--net",
format!("tap={},mac={}", vfio_tap0, guest.network.guest_mac).as_str(),
format!(
"tap={},mac={},iommu=on",
vfio_tap1, guest.network.l2_guest_mac1
)
.as_str(),
format!(
"tap={},mac={},iommu=on",
vfio_tap2, guest.network.l2_guest_mac2
)
.as_str(),
format!(
"tap={},mac={},iommu=on",
vfio_tap3, guest.network.l2_guest_mac3
)
.as_str(),
])
.capture_output()
.spawn()
.unwrap();
thread::sleep(std::time::Duration::new(30, 0));
let r = std::panic::catch_unwind(|| {
guest.ssh_command_l1("sudo systemctl start vfio").unwrap();
thread::sleep(std::time::Duration::new(120, 0));
// We booted our cloud hypervisor L2 guest with a "VFIOTAG" tag
// added to its kernel command line.
// Let's ssh into it and verify that it's there. If it is it means
// we're in the right guest (The L2 one) because the QEMU L1 guest
// does not have this command line tag.
assert_eq!(
guest
.ssh_command_l2_1("grep -c VFIOTAG /proc/cmdline")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
// Let's also verify from the second virtio-net device passed to
// the L2 VM.
assert_eq!(
guest
.ssh_command_l2_2("grep -c VFIOTAG /proc/cmdline")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
// Check the amount of PCI devices appearing in L2 VM.
assert_eq!(
guest
.ssh_command_l2_1("ls /sys/bus/pci/devices | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
8,
);
// Check both if /dev/vdc exists and if the block size is 16M in L2 VM
assert_eq!(
guest
.ssh_command_l2_1("lsblk | grep vdc | grep -c 16M")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
// Hotplug an extra virtio-net device through L2 VM.
guest
.ssh_command_l1(
"echo 0000:00:09.0 | sudo tee /sys/bus/pci/devices/0000:00:09.0/driver/unbind",
)
.unwrap();
guest
.ssh_command_l1("echo 0000:00:09.0 | sudo tee /sys/bus/pci/drivers/vfio-pci/bind")
.unwrap();
let vfio_hotplug_output = guest
.ssh_command_l1(
"sudo /mnt/ch-remote \
--api-socket=/tmp/ch_api.sock \
add-device path=/sys/bus/pci/devices/0000:00:09.0,id=vfio123",
)
.unwrap();
assert!(vfio_hotplug_output.contains("{\"id\":\"vfio123\",\"bdf\":\"0000:00:08.0\"}"));
thread::sleep(std::time::Duration::new(10, 0));
// Let's also verify from the third virtio-net device passed to
// the L2 VM. This third device has been hotplugged through the L2
// VM, so this is our way to validate hotplug works for VFIO PCI.
assert_eq!(
guest
.ssh_command_l2_3("grep -c VFIOTAG /proc/cmdline")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
1
);
// Check the amount of PCI devices appearing in L2 VM.
// There should be one more device than before, raising the count
// up to 9 PCI devices.
assert_eq!(
guest
.ssh_command_l2_1("ls /sys/bus/pci/devices | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
9,
);
// Let's now verify that we can correctly remove the virtio-net
// device through the "remove-device" command responsible for
// unplugging VFIO devices.
guest
.ssh_command_l1(
"sudo /mnt/ch-remote \
--api-socket=/tmp/ch_api.sock \
remove-device vfio123",
)
.unwrap();
thread::sleep(std::time::Duration::new(10, 0));
// Check the amount of PCI devices appearing in L2 VM is back down
// to 8 devices.
assert_eq!(
guest
.ssh_command_l2_1("ls /sys/bus/pci/devices | wc -l")
.unwrap()
.trim()
.parse::<u32>()
.unwrap_or_default(),
8,
);
// Perform memory hotplug in L2 and validate the memory is showing
// up as expected. In order to check, we will use the virtio-net
// device already passed through L2 as a VFIO device, this will
// verify that VFIO devices are functional with memory hotplug.
assert!(guest.get_total_memory_l2().unwrap_or_default() > 480_000);
guest
.ssh_command_l2_1(
"sudo bash -c 'echo online > /sys/devices/system/memory/auto_online_blocks'",
)
.unwrap();
guest
.ssh_command_l1(
"sudo /mnt/ch-remote \
--api-socket=/tmp/ch_api.sock \
resize --memory=1073741824",
)
.unwrap();
assert!(guest.get_total_memory_l2().unwrap_or_default() > 960_000);
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
cleanup_vfio_network_interfaces();
handle_child_output(r, &output);
}
fn test_nvidia_card_memory_hotplug(hotplug_method: &str) {
let hirsute = UbuntuDiskConfig::new(HIRSUTE_NVIDIA_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(hirsute));
let api_socket = temp_api_path(&guest.tmp_dir);
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=4"])
.args(&[
"--memory",
format!("size=4G,hotplug_size=4G,hotplug_method={}", hotplug_method).as_str(),
])
.args(&["--kernel", fw_path(FwType::RustHypervisorFirmware).as_str()])
.args(&["--device", "path=/sys/bus/pci/devices/0000:31:00.0/"])
.args(&["--api-socket", &api_socket])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
assert!(guest.get_total_memory().unwrap_or_default() > 3_840_000);
guest.enable_memory_hotplug();
// Add RAM to the VM
let desired_ram = 6 << 30;
resize_command(&api_socket, None, Some(desired_ram), None, None);
thread::sleep(std::time::Duration::new(30, 0));
assert!(guest.get_total_memory().unwrap_or_default() > 5_760_000);
// Check the VFIO device works when RAM is increased to 6GiB
guest.check_nvidia_gpu();
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_nvidia_card_memory_hotplug_acpi() {
test_nvidia_card_memory_hotplug("acpi")
}
#[test]
fn test_nvidia_card_memory_hotplug_virtio_mem() {
test_nvidia_card_memory_hotplug("virtio-mem")
}
#[test]
fn test_nvidia_card_pci_hotplug() {
let hirsute = UbuntuDiskConfig::new(HIRSUTE_NVIDIA_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(hirsute));
let api_socket = temp_api_path(&guest.tmp_dir);
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=4"])
.args(&["--memory", "size=4G"])
.args(&["--kernel", fw_path(FwType::RustHypervisorFirmware).as_str()])
.args(&["--api-socket", &api_socket])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Hotplug the card to the VM
let (cmd_success, cmd_output) = remote_command_w_output(
&api_socket,
"add-device",
Some("id=vfio0,path=/sys/bus/pci/devices/0000:31:00.0/"),
);
assert!(cmd_success);
assert!(String::from_utf8_lossy(&cmd_output)
.contains("{\"id\":\"vfio0\",\"bdf\":\"0000:00:06.0\"}"));
thread::sleep(std::time::Duration::new(10, 0));
// Check the VFIO device works after hotplug
guest.check_nvidia_gpu();
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
#[test]
fn test_nvidia_card_reboot() {
let hirsute = UbuntuDiskConfig::new(HIRSUTE_NVIDIA_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(hirsute));
let api_socket = temp_api_path(&guest.tmp_dir);
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=4"])
.args(&["--memory", "size=4G"])
.args(&["--kernel", fw_path(FwType::RustHypervisorFirmware).as_str()])
.args(&["--device", "path=/sys/bus/pci/devices/0000:31:00.0/"])
.args(&["--api-socket", &api_socket])
.default_disks()
.default_net()
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Check the VFIO device works after boot
guest.check_nvidia_gpu();
guest.reboot_linux(0, None);
// Check the VFIO device works after reboot
guest.check_nvidia_gpu();
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
}
}
mod live_migration {
use crate::*;
// This test exercises the local live-migration between two Cloud Hypervisor VMs on the
// same host. It ensures the following behaviors:
// 1. The source VM is up and functional (including various virtio-devices are working properly);
// 2. The 'send-migration' and 'receive-migration' command finished successfully;
// 3. The source VM terminated gracefully after live migration;
// 4. The destination VM is functional (including various virtio-devices are working properly) after
// live migration;
// Note: This test does not use vsock as we can't create two identical vsock on the same host.
fn _test_live_migration(
upgrade_test: bool,
numa: bool,
local: bool,
watchdog: bool,
balloon: bool,
) {
assert!(
!(numa && balloon),
"Invalid inputs: 'numa' and 'balloon' cannot be tested at the same time."
);
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let guest = Guest::new(Box::new(focal));
let kernel_path = direct_kernel_boot_path();
let console_text = String::from("On a branch floating down river a cricket, singing.");
let net_id = "net123";
let net_params = format!(
"id={},tap=,mac={},ip={},mask=255.255.255.0",
net_id, guest.network.guest_mac, guest.network.host_ip
);
let memory_param: &[&str] = match (balloon, local, numa) {
(false, false, false) => &["--memory", "size=4G"],
(false, false, true) => &[
"--memory",
"size=0,hotplug_method=virtio-mem",
"--memory-zone",
"id=mem0,size=1G,hotplug_size=4G",
"id=mem1,size=1G,hotplug_size=4G",
"id=mem2,size=2G,hotplug_size=4G",
"--numa",
"guest_numa_id=0,cpus=[0-2,9],distances=[1@15,2@20],memory_zones=mem0",
"guest_numa_id=1,cpus=[3-4,6-8],distances=[0@20,2@25],memory_zones=mem1",
"guest_numa_id=2,cpus=[5,10-11],distances=[0@25,1@30],memory_zones=mem2",
],
(false, true, false) => &["--memory", "size=4G,shared=on"],
(false, true, true) => &[
"--memory",
"size=0,hotplug_method=virtio-mem,shared=on",
"--memory-zone",
"id=mem0,size=1G,hotplug_size=4G,shared=on",
"id=mem1,size=1G,hotplug_size=4G,shared=on",
"id=mem2,size=2G,hotplug_size=4G,shared=on",
"--numa",
"guest_numa_id=0,cpus=[0-2,9],distances=[1@15,2@20],memory_zones=mem0",
"guest_numa_id=1,cpus=[3-4,6-8],distances=[0@20,2@25],memory_zones=mem1",
"guest_numa_id=2,cpus=[5,10-11],distances=[0@25,1@30],memory_zones=mem2",
],
(true, false, _) => &[
"--memory",
"size=4G,hotplug_method=virtio-mem,hotplug_size=8G",
"--balloon",
"size=0",
],
(true, true, _) => &[
"--memory",
"size=4G,hotplug_method=virtio-mem,hotplug_size=8G,shared=on",
"--balloon",
"size=0",
],
};
let boot_vcpus = if numa { 6 } else { 2 };
let max_vcpus = if numa { 12 } else { 4 };
let pmem_temp_file = TempFile::new().unwrap();
pmem_temp_file.as_file().set_len(128 << 20).unwrap();
std::process::Command::new("mkfs.ext4")
.arg(pmem_temp_file.as_path())
.output()
.expect("Expect creating disk image to succeed");
let pmem_path = String::from("/dev/pmem0");
// Start the source VM
let src_vm_path = if !upgrade_test {
clh_command("cloud-hypervisor")
} else {
cloud_hypervisor_release_path()
};
let src_api_socket = temp_api_path(&guest.tmp_dir);
let mut src_vm_cmd = GuestCommand::new_with_binary_path(&guest, &src_vm_path);
src_vm_cmd
.args(&[
"--cpus",
format!("boot={},max={}", boot_vcpus, max_vcpus).as_str(),
])
.args(memory_param)
.args(&["--kernel", kernel_path.to_str().unwrap()])
.args(&["--cmdline", DIRECT_KERNEL_BOOT_CMDLINE])
.default_disks()
.args(&["--net", net_params.as_str()])
.args(&["--api-socket", &src_api_socket])
.args(&[
"--pmem",
format!("file={}", pmem_temp_file.as_path().to_str().unwrap(),).as_str(),
]);
if watchdog {
src_vm_cmd.args(&["--watchdog"]);
}
let mut src_child = src_vm_cmd.capture_output().spawn().unwrap();
// Start the destination VM
let mut dest_api_socket = temp_api_path(&guest.tmp_dir);
dest_api_socket.push_str(".dest");
let mut dest_child = GuestCommand::new(&guest)
.args(&["--api-socket", &dest_api_socket])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(None).unwrap();
// Make sure the source VM is functaionl
// Check the number of vCPUs
assert_eq!(guest.get_cpu_count().unwrap_or_default(), boot_vcpus);
// Check the guest RAM
if balloon {
assert!(guest.get_total_memory().unwrap_or_default() > 3_840_000);
// Increase the guest RAM
resize_command(&src_api_socket, None, Some(6 << 30), None, None);
thread::sleep(std::time::Duration::new(5, 0));
assert!(guest.get_total_memory().unwrap_or_default() > 5_760_000);
// Use balloon to remove RAM from the VM
resize_command(&src_api_socket, None, None, Some(1 << 30), None);
thread::sleep(std::time::Duration::new(5, 0));
let total_memory = guest.get_total_memory().unwrap_or_default();
assert!(total_memory > 4_800_000);
assert!(total_memory < 5_760_000);
} else if numa {
assert!(guest.get_total_memory().unwrap_or_default() > 2_880_000);
} else {
assert!(guest.get_total_memory().unwrap_or_default() > 3_840_000);
}
// Check the guest virtio-devices, e.g. block, rng, console, and net
guest.check_devices_common(None, Some(&console_text), Some(&pmem_path));
// Check the NUMA parameters are applied correctly and resize
// each zone to test the case where we migrate a VM with the
// virtio-mem regions being used.
if numa {
guest.check_numa_common(
Some(&[960_000, 960_000, 1_920_000]),
Some(&[vec![0, 1, 2], vec![3, 4], vec![5]]),
Some(&["10 15 20", "20 10 25", "25 30 10"]),
);
// AArch64 currently does not support hotplug, and therefore we only
// test hotplug-related function on x86_64 here.
#[cfg(target_arch = "x86_64")]
{
guest.enable_memory_hotplug();
// Resize every memory zone and check each associated NUMA node
// has been assigned the right amount of memory.
resize_zone_command(&src_api_socket, "mem0", "2G");
resize_zone_command(&src_api_socket, "mem1", "2G");
resize_zone_command(&src_api_socket, "mem2", "3G");
thread::sleep(std::time::Duration::new(5, 0));
guest.check_numa_common(Some(&[1_920_000, 1_920_000, 1_920_000]), None, None);
}
}
// x86_64: Following what's done in the `test_snapshot_restore`, we need
// to make sure that removing and adding back the virtio-net device does
// not break the live-migration support for virtio-pci.
#[cfg(target_arch = "x86_64")]
{
assert!(remote_command(
&src_api_socket,
"remove-device",
Some(net_id),
));
thread::sleep(std::time::Duration::new(10, 0));
// Plug the virtio-net device again
assert!(remote_command(
&src_api_socket,
"add-net",
Some(net_params.as_str()),
));
thread::sleep(std::time::Duration::new(10, 0));
}
if watchdog {
let mut current_reboot_count = 1;
enable_guest_watchdog(&guest, &mut current_reboot_count);
check_guest_watchdog_no_reboot(&guest, &current_reboot_count);
}
// Start the live-migration
let migration_socket = String::from(
guest
.tmp_dir
.as_path()
.join("live-migration.sock")
.to_str()
.unwrap(),
);
// Start to receive migration from the destintion VM
let mut receive_migration = Command::new(clh_command("ch-remote"))
.args(&[
&format!("--api-socket={}", &dest_api_socket),
"receive-migration",
&format! {"unix:{}", migration_socket},
])
.stderr(Stdio::piped())
.stdout(Stdio::piped())
.spawn()
.unwrap();
// Give it '1s' to make sure the 'migration_socket' file is properly created
thread::sleep(std::time::Duration::new(1, 0));
// Start to send migration from the source VM
let mut args = [
format!("--api-socket={}", &src_api_socket),
"send-migration".to_string(),
format! {"unix:{}", migration_socket},
]
.to_vec();
if local {
args.insert(2, "--local".to_string());
}
let mut send_migration = Command::new(clh_command("ch-remote"))
.args(&args)
.stderr(Stdio::piped())
.stdout(Stdio::piped())
.spawn()
.unwrap();
// The 'send-migration' command should be executed successfully within the given timeout
let success = if let Some(status) = send_migration
.wait_timeout(std::time::Duration::from_secs(30))
.unwrap()
{
status.success()
} else {
false
};
if !success {
let _ = send_migration.kill();
let output = send_migration.wait_with_output().unwrap();
eprintln!("\n\n==== Start 'send_migration' output ====\n\n---stdout---\n{}\n\n---stderr---\n{}\n\n==== End 'send_migration' output ====\n\n",
String::from_utf8_lossy(&output.stdout), String::from_utf8_lossy(&output.stderr));
}
// The 'receive-migration' command should be executed successfully within the given timeout
let success = if let Some(status) = receive_migration
.wait_timeout(std::time::Duration::from_secs(30))
.unwrap()
{
status.success()
} else {
false
};
if !success {
let _ = receive_migration.kill();
let output = receive_migration.wait_with_output().unwrap();
eprintln!("\n\n==== Start 'receive_migration' output ====\n\n---stdout---\n{}\n\n---stderr---\n{}\n\n==== End 'receive_migration' output ====\n\n",
String::from_utf8_lossy(&output.stdout), String::from_utf8_lossy(&output.stderr));
}
assert!(
success,
"Unsuccessful command: 'send-migration' or 'receive-migration'."
);
});
let print_and_panic = |src_vm: Child, dest_vm: Child, message: &str| -> ! {
let mut src_vm = src_vm;
let mut dest_vm = dest_vm;
let _ = src_vm.kill();
let src_output = src_vm.wait_with_output().unwrap();
eprintln!(
"\n\n==== Start 'source_vm' stdout ====\n\n{}\n\n==== End 'source_vm' stdout ====",
String::from_utf8_lossy(&src_output.stdout)
);
eprintln!(
"\n\n==== Start 'source_vm' stderr ====\n\n{}\n\n==== End 'source_vm' stderr ====",
String::from_utf8_lossy(&src_output.stderr)
);
let _ = dest_vm.kill();
let dest_output = dest_vm.wait_with_output().unwrap();
eprintln!(
"\n\n==== Start 'destination_vm' stdout ====\n\n{}\n\n==== End 'destination_vm' stdout ====",
String::from_utf8_lossy(&dest_output.stdout)
);
eprintln!(
"\n\n==== Start 'destination_vm' stderr ====\n\n{}\n\n==== End 'destination_vm' stderr ====",
String::from_utf8_lossy(&dest_output.stderr)
);
panic!("Test failed: {}", message)
};
// Check and report any errors occured during the live-migration
if r.is_err() {
print_and_panic(src_child, dest_child, "Error occured during live-migration");
}
// Check the source vm has been terminated successful (give it '3s' to settle)
thread::sleep(std::time::Duration::new(3, 0));
if !src_child.try_wait().unwrap().map_or(false, |s| s.success()) {
print_and_panic(
src_child,
dest_child,
"source VM was not terminated successfully.",
);
};
// Post live-migration check to make sure the destination VM is funcational
let r = std::panic::catch_unwind(|| {
// Perform same checks to validate VM has been properly migrated
assert_eq!(guest.get_cpu_count().unwrap_or_default(), boot_vcpus);
#[cfg(target_arch = "x86_64")]
if numa {
assert!(guest.get_total_memory().unwrap_or_default() > 6_720_000);
} else {
assert!(guest.get_total_memory().unwrap_or_default() > 3_840_000);
}
#[cfg(target_arch = "aarch64")]
assert!(guest.get_total_memory().unwrap_or_default() > 3_840_000);
guest.check_devices_common(None, Some(&console_text), Some(&pmem_path));
// Perform NUMA related checks
if numa {
#[cfg(target_arch = "aarch64")]
{
guest.check_numa_common(
Some(&[960_000, 960_000, 1_920_000]),
Some(&[vec![0, 1, 2], vec![3, 4], vec![5]]),
Some(&["10 15 20", "20 10 25", "25 30 10"]),
);
}
// AArch64 currently does not support hotplug, and therefore we only
// test hotplug-related function on x86_64 here.
#[cfg(target_arch = "x86_64")]
{
guest.check_numa_common(
Some(&[1_920_000, 1_920_000, 2_880_000]),
Some(&[vec![0, 1, 2], vec![3, 4], vec![5]]),
Some(&["10 15 20", "20 10 25", "25 30 10"]),
);
guest.enable_memory_hotplug();
// Resize every memory zone and check each associated NUMA node
// has been assigned the right amount of memory.
resize_zone_command(&dest_api_socket, "mem0", "4G");
resize_zone_command(&dest_api_socket, "mem1", "4G");
resize_zone_command(&dest_api_socket, "mem2", "4G");
// Resize to the maximum amount of CPUs and check each NUMA
// node has been assigned the right CPUs set.
resize_command(&dest_api_socket, Some(max_vcpus), None, None, None);
thread::sleep(std::time::Duration::new(5, 0));
guest.check_numa_common(
Some(&[3_840_000, 3_840_000, 3_840_000]),
Some(&[vec![0, 1, 2, 9], vec![3, 4, 6, 7, 8], vec![5, 10, 11]]),
None,
);
}
}
if watchdog {
let mut current_reboot_count = 2;
check_guest_watchdog_no_reboot(&guest, &current_reboot_count);
check_guest_watchdog_one_reboot(
&guest,
&dest_api_socket,
&mut current_reboot_count,
);
}
if balloon {
let total_memory = guest.get_total_memory().unwrap_or_default();
assert!(total_memory > 4_800_000);
assert!(total_memory < 5_760_000);
// Deflate balloon to restore entire RAM to the VM
resize_command(&dest_api_socket, None, None, Some(0), None);
thread::sleep(std::time::Duration::new(5, 0));
assert!(guest.get_total_memory().unwrap_or_default() > 5_760_000);
// Decrease guest RAM with virtio-mem
resize_command(&dest_api_socket, None, Some(5 << 30), None, None);
thread::sleep(std::time::Duration::new(5, 0));
let total_memory = guest.get_total_memory().unwrap_or_default();
assert!(total_memory > 4_800_000);
assert!(total_memory < 5_760_000);
}
});
// Clean-up the destination VM and make sure it terminated correctly
let _ = dest_child.kill();
let dest_output = dest_child.wait_with_output().unwrap();
handle_child_output(r, &dest_output);
// Check the destination VM has the expected 'concole_text' from its output
let r = std::panic::catch_unwind(|| {
assert!(String::from_utf8_lossy(&dest_output.stdout).contains(&console_text));
});
handle_child_output(r, &dest_output);
}
#[test]
fn test_live_migration_basic() {
_test_live_migration(false, false, false, false, false)
}
#[test]
fn test_live_migration_local() {
_test_live_migration(false, false, true, false, false)
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_live_migration_numa() {
_test_live_migration(false, true, false, false, false)
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_live_migration_numa_local() {
_test_live_migration(false, true, true, false, false)
}
#[test]
fn test_live_migration_watchdog() {
_test_live_migration(false, false, false, true, false)
}
#[test]
fn test_live_migration_watchdog_local() {
_test_live_migration(false, false, true, true, false)
}
#[test]
fn test_live_migration_balloon() {
_test_live_migration(false, false, false, false, true)
}
#[test]
fn test_live_migration_balloon_local() {
_test_live_migration(false, false, true, false, true)
}
#[test]
#[ignore]
fn test_live_upgrade_basic() {
_test_live_migration(true, false, false, false, false)
}
#[test]
#[ignore]
fn test_live_upgrade_local() {
_test_live_migration(true, false, true, false, false)
}
#[test]
#[ignore]
#[cfg(not(feature = "mshv"))]
fn test_live_upgrade_numa() {
_test_live_migration(true, true, false, false, false)
}
#[test]
#[ignore]
#[cfg(not(feature = "mshv"))]
fn test_live_upgrade_numa_local() {
_test_live_migration(true, true, true, false, false)
}
#[test]
#[ignore]
fn test_live_upgrade_watchdog() {
_test_live_migration(true, false, false, true, false)
}
#[test]
#[ignore]
fn test_live_upgrade_watchdog_local() {
_test_live_migration(true, false, true, true, false)
}
#[test]
#[ignore]
fn test_live_upgrade_balloon() {
_test_live_migration(true, false, false, false, true)
}
#[test]
#[ignore]
fn test_live_upgrade_balloon_local() {
_test_live_migration(true, false, true, false, true)
}
fn _test_live_migration_ovs_dpdk(upgrade_test: bool, local: bool) {
let ovs_focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let ovs_guest = Guest::new(Box::new(ovs_focal));
let migration_focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
let migration_guest = Guest::new(Box::new(migration_focal));
let src_api_socket = temp_api_path(&migration_guest.tmp_dir);
// Start two VMs that are connected through ovs-dpdk and one of the VMs is the source VM for live-migration
let (mut ovs_child, mut src_child) =
setup_ovs_dpdk_guests(&ovs_guest, &migration_guest, &src_api_socket, upgrade_test);
// Start the destination VM
let mut dest_api_socket = temp_api_path(&migration_guest.tmp_dir);
dest_api_socket.push_str(".dest");
let mut dest_child = GuestCommand::new(&migration_guest)
.args(&["--api-socket", &dest_api_socket])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
// Give it '1s' to make sure the 'dest_api_socket' file is properly created
thread::sleep(std::time::Duration::new(1, 0));
// Start the live-migration
let migration_socket = String::from(
migration_guest
.tmp_dir
.as_path()
.join("live-migration.sock")
.to_str()
.unwrap(),
);
// Start to receive migration from the destintion VM
let mut receive_migration = Command::new(clh_command("ch-remote"))
.args(&[
&format!("--api-socket={}", &dest_api_socket),
"receive-migration",
&format! {"unix:{}", migration_socket},
])
.stderr(Stdio::piped())
.stdout(Stdio::piped())
.spawn()
.unwrap();
// Give it '1s' to make sure the 'migration_socket' file is properly created
thread::sleep(std::time::Duration::new(1, 0));
// Start to send migration from the source VM
let mut args = [
format!("--api-socket={}", &src_api_socket),
"send-migration".to_string(),
format! {"unix:{}", migration_socket},
]
.to_vec();
if local {
args.insert(2, "--local".to_string());
}
let mut send_migration = Command::new(clh_command("ch-remote"))
.args(&args)
.stderr(Stdio::piped())
.stdout(Stdio::piped())
.spawn()
.unwrap();
// The 'send-migration' command should be executed successfully within the given timeout
let success = if let Some(status) = send_migration
.wait_timeout(std::time::Duration::from_secs(30))
.unwrap()
{
status.success()
} else {
false
};
if !success {
let _ = send_migration.kill();
let output = send_migration.wait_with_output().unwrap();
eprintln!("\n\n==== Start 'send_migration' output ====\n\n---stdout---\n{}\n\n---stderr---\n{}\n\n==== End 'send_migration' output ====\n\n",
String::from_utf8_lossy(&output.stdout), String::from_utf8_lossy(&output.stderr));
}
// The 'receive-migration' command should be executed successfully within the given timeout
let success = if let Some(status) = receive_migration
.wait_timeout(std::time::Duration::from_secs(30))
.unwrap()
{
status.success()
} else {
false
};
if !success {
let _ = receive_migration.kill();
let output = receive_migration.wait_with_output().unwrap();
eprintln!("\n\n==== Start 'receive_migration' output ====\n\n---stdout---\n{}\n\n---stderr---\n{}\n\n==== End 'receive_migration' output ====\n\n",
String::from_utf8_lossy(&output.stdout), String::from_utf8_lossy(&output.stderr));
}
assert!(
success,
"Unsuccessful command: 'send-migration' or 'receive-migration'."
);
});
let print_and_panic = |src_vm: Child, dest_vm: Child, ovs_vm: Child, message: &str| -> ! {
let mut src_vm = src_vm;
let mut dest_vm = dest_vm;
let mut ovs_vm = ovs_vm;
let _ = src_vm.kill();
let src_output = src_vm.wait_with_output().unwrap();
eprintln!(
"\n\n==== Start 'source_vm' stdout ====\n\n{}\n\n==== End 'source_vm' stdout ====",
String::from_utf8_lossy(&src_output.stdout)
);
eprintln!(
"\n\n==== Start 'source_vm' stderr ====\n\n{}\n\n==== End 'source_vm' stderr ====",
String::from_utf8_lossy(&src_output.stderr)
);
let _ = dest_vm.kill();
let dest_output = dest_vm.wait_with_output().unwrap();
eprintln!(
"\n\n==== Start 'destination_vm' stdout ====\n\n{}\n\n==== End 'destination_vm' stdout ====",
String::from_utf8_lossy(&dest_output.stdout)
);
eprintln!(
"\n\n==== Start 'destination_vm' stderr ====\n\n{}\n\n==== End 'destination_vm' stderr ====",
String::from_utf8_lossy(&dest_output.stderr)
);
let _ = ovs_vm.kill();
let ovs_output = ovs_vm.wait_with_output().unwrap();
eprintln!(
"\n\n==== Start 'ovs_vm' stdout ====\n\n{}\n\n==== End 'ovs_vm' stdout ====",
String::from_utf8_lossy(&ovs_output.stdout)
);
eprintln!(
"\n\n==== Start 'ovs_vm' stderr ====\n\n{}\n\n==== End 'ovs_vm' stderr ====",
String::from_utf8_lossy(&ovs_output.stderr)
);
cleanup_ovs_dpdk();
panic!("Test failed: {}", message)
};
// Check and report any errors occured during the live-migration
if r.is_err() {
print_and_panic(
src_child,
dest_child,
ovs_child,
"Error occured during live-migration",
);
}
// Check the source vm has been terminated successful (give it '3s' to settle)
thread::sleep(std::time::Duration::new(3, 0));
if !src_child.try_wait().unwrap().map_or(false, |s| s.success()) {
print_and_panic(
src_child,
dest_child,
ovs_child,
"source VM was not terminated successfully.",
);
};
// Post live-migration check to make sure the destination VM is funcational
let r = std::panic::catch_unwind(|| {
// Perform same checks to validate VM has been properly migrated
// Spawn a new netcat listener in the OVS VM
let guest_ip = ovs_guest.network.guest_ip.clone();
thread::spawn(move || {
ssh_command_ip(
"nc -l 12345",
&guest_ip,
DEFAULT_SSH_RETRIES,
DEFAULT_SSH_TIMEOUT,
)
.unwrap();
});
// Wait for the server to be listening
thread::sleep(std::time::Duration::new(5, 0));
// And check the connection is still functional after live-migration
migration_guest
.ssh_command("nc -vz 172.100.0.1 12345")
.unwrap();
cleanup_ovs_dpdk();
});
// Clean-up the destination VM and OVS VM, and make sure they terminated correctly
let _ = dest_child.kill();
let _ = ovs_child.kill();
let dest_output = dest_child.wait_with_output().unwrap();
handle_child_output(r, &dest_output);
let ovs_output = ovs_child.wait_with_output().unwrap();
handle_child_output(Ok(()), &ovs_output);
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_live_migration_ovs_dpdk() {
_test_live_migration_ovs_dpdk(false, false);
}
#[test]
#[cfg(not(feature = "mshv"))]
fn test_live_migration_ovs_dpdk_local() {
_test_live_migration_ovs_dpdk(false, true);
}
#[test]
#[ignore]
#[cfg(not(feature = "mshv"))]
fn test_live_upgrade_ovs_dpdk() {
_test_live_migration_ovs_dpdk(true, false);
}
#[test]
#[ignore]
#[cfg(not(feature = "mshv"))]
fn test_live_upgrade_ovs_dpdk_local() {
_test_live_migration_ovs_dpdk(true, true);
}
}
#[cfg(target_arch = "aarch64")]
mod aarch64_acpi {
use crate::*;
#[test]
fn test_simple_launch_acpi() {
let focal = UbuntuDiskConfig::new(FOCAL_IMAGE_NAME.to_string());
vec![Box::new(focal)].drain(..).for_each(|disk_config| {
let guest = Guest::new(disk_config);
let mut child = GuestCommand::new(&guest)
.args(&["--cpus", "boot=1"])
.args(&["--memory", "size=512M"])
.args(&["--kernel", edk2_path().to_str().unwrap()])
.default_disks()
.default_net()
.args(&["--serial", "tty", "--console", "off"])
.capture_output()
.spawn()
.unwrap();
let r = std::panic::catch_unwind(|| {
guest.wait_vm_boot(Some(120)).unwrap();
assert_eq!(guest.get_cpu_count().unwrap_or_default(), 1);
assert!(guest.get_total_memory().unwrap_or_default() > 400_000);
assert_eq!(guest.get_pci_bridge_class().unwrap_or_default(), "0x060000");
});
let _ = child.kill();
let output = child.wait_with_output().unwrap();
handle_child_output(r, &output);
});
}
#[test]
fn test_guest_numa_nodes_acpi() {
_test_guest_numa_nodes(true);
}
#[test]
fn test_cpu_topology_421_acpi() {
test_cpu_topology(4, 2, 1, true);
}
#[test]
fn test_cpu_topology_142_acpi() {
test_cpu_topology(1, 4, 2, true);
}
#[test]
fn test_cpu_topology_262_acpi() {
test_cpu_topology(2, 6, 2, true);
}
#[test]
fn test_power_button_acpi() {
_test_power_button(true);
}
#[test]
fn test_virtio_iommu() {
_test_virtio_iommu(true)
}
}
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