cloud-hypervisor/vmm/src/config.rs

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// Copyright © 2019 Intel Corporation
//
// SPDX-License-Identifier: Apache-2.0
//
extern crate vm_virtio;
use net_util::MacAddr;
use std::convert::From;
use std::net::AddrParseError;
use std::net::Ipv4Addr;
use std::path::PathBuf;
use std::result;
pub const DEFAULT_VCPUS: u8 = 1;
pub const DEFAULT_MEMORY_MB: u64 = 512;
pub const DEFAULT_RNG_SOURCE: &str = "/dev/urandom";
/// Errors associated with VM configuration parameters.
#[derive(Debug)]
pub enum Error<'a> {
/// Failed parsing cpus parameters.
ParseCpusParams(std::num::ParseIntError),
/// Unexpected vCPU parameter
ParseCpusUnknownParam,
/// Max is less than boot
ParseCpusMaxLowerThanBoot,
/// Failed parsing memory file parameter.
ParseMemoryFileParam,
/// Failed parsing kernel parameters.
ParseKernelParams,
/// Failed parsing kernel command line parameters.
ParseCmdlineParams,
/// Failed parsing disks parameters.
ParseDisksParams,
/// Failed parsing random number generator parameters.
ParseRngParams,
/// Failed parsing network ip parameter.
ParseNetIpParam(AddrParseError),
/// Failed parsing network mask parameter.
ParseNetMaskParam(AddrParseError),
/// Failed parsing network mac parameter.
ParseNetMacParam(&'a str),
/// Failed parsing fs tag parameter.
ParseFsTagParam,
/// Failed parsing fs socket path parameter.
ParseFsSockParam,
/// Failed parsing fs number of queues parameter.
ParseFsNumQueuesParam(std::num::ParseIntError),
/// Failed parsing fs queue size parameter.
ParseFsQueueSizeParam(std::num::ParseIntError),
/// Failed parsing fs dax parameter.
ParseFsDax,
/// Cannot have dax=off along with cache_size parameter.
InvalidCacheSizeWithDaxOff,
/// Failed parsing persitent memory file parameter.
ParsePmemFileParam,
/// Failed parsing size parameter.
ParseSizeParam(std::num::ParseIntError),
/// Failed parsing console parameter.
ParseConsoleParam,
/// Both console and serial are tty.
ParseTTYParam,
/// Failed parsing vhost-user-net mac parameter.
ParseVuNetMacParam(&'a str),
/// Failed parsing vhost-user sock parameter.
ParseVuSockParam,
/// Failed parsing vhost-user queue number parameter.
ParseVuNumQueuesParam(std::num::ParseIntError),
/// Failed parsing vhost-user queue size parameter.
ParseVuQueueSizeParam(std::num::ParseIntError),
/// Failed parsing vhost-user-net server parameter.
ParseVuNetServerParam(std::num::ParseIntError),
/// Failed parsing vhost-user-blk wce parameter.
ParseVuBlkWceParam(std::str::ParseBoolError),
/// Failed parsing vsock context ID parameter.
ParseVsockCidParam(std::num::ParseIntError),
/// Failed parsing vsock socket path parameter.
ParseVsockSockParam,
/// Missing kernel configuration
ValidateMissingKernelConfig,
/// Failed parsing generic on|off parameter.
ParseOnOff,
}
pub type Result<'a, T> = result::Result<T, Error<'a>>;
pub struct VmParams<'a> {
pub cpus: &'a str,
pub memory: &'a str,
pub kernel: Option<&'a str>,
pub cmdline: Option<&'a str>,
pub disks: Option<Vec<&'a str>>,
pub net: Option<Vec<&'a str>>,
pub rng: &'a str,
pub fs: Option<Vec<&'a str>>,
pub pmem: Option<Vec<&'a str>>,
pub serial: &'a str,
pub console: &'a str,
pub devices: Option<Vec<&'a str>>,
pub vhost_user_net: Option<Vec<&'a str>>,
pub vhost_user_blk: Option<Vec<&'a str>>,
pub vsock: Option<Vec<&'a str>>,
}
fn parse_size(size: &str) -> Result<u64> {
let s = size.trim();
let shift = if s.ends_with('K') {
10
} else if s.ends_with('M') {
20
} else if s.ends_with('G') {
30
} else {
0
};
let s = s.trim_end_matches(|c| c == 'K' || c == 'M' || c == 'G');
let res = s.parse::<u64>().map_err(Error::ParseSizeParam)?;
Ok(res << shift)
}
fn parse_on_off(param: &str) -> Result<bool> {
if !param.is_empty() {
let res = match param {
"on" => true,
"off" => false,
_ => return Err(Error::ParseOnOff),
};
Ok(res)
} else {
Ok(false)
}
}
#[derive(Clone, Debug, Deserialize, Serialize)]
pub struct CpusConfig {
pub boot_vcpus: u8,
pub max_vcpus: u8,
}
impl CpusConfig {
pub fn parse(cpus: &str) -> Result<Self> {
if let Ok(legacy_vcpu_count) = cpus.parse::<u8>() {
error!("Using deprecated vCPU syntax. Use --cpus boot=<boot_vcpus>[,max=<max_vcpus]");
Ok(CpusConfig {
boot_vcpus: legacy_vcpu_count,
max_vcpus: legacy_vcpu_count,
})
} else {
// Split the parameters based on the comma delimiter
let params_list: Vec<&str> = cpus.split(',').collect();
let mut boot_str: &str = "";
let mut max_str: &str = "";
for param in params_list.iter() {
if param.starts_with("boot=") {
boot_str = &param["boot=".len()..];
} else if param.starts_with("max=") {
max_str = &param["max=".len()..];
} else {
return Err(Error::ParseCpusUnknownParam);
}
}
let boot_vcpus: u8 = boot_str.parse().map_err(Error::ParseCpusParams)?;
let max_vcpus = if max_str != "" {
max_str.parse().map_err(Error::ParseCpusParams)?
} else {
boot_vcpus
};
if max_vcpus < boot_vcpus {
return Err(Error::ParseCpusMaxLowerThanBoot);
}
Ok(CpusConfig {
boot_vcpus,
max_vcpus,
})
}
}
}
impl Default for CpusConfig {
fn default() -> Self {
CpusConfig {
boot_vcpus: DEFAULT_VCPUS,
max_vcpus: DEFAULT_VCPUS,
}
}
}
#[derive(Clone, Debug, Deserialize, Serialize)]
pub struct MemoryConfig {
pub size: u64,
#[serde(default)]
pub file: Option<PathBuf>,
#[serde(default)]
pub mergeable: bool,
}
impl MemoryConfig {
pub fn parse(memory: &str) -> Result<Self> {
// Split the parameters based on the comma delimiter
let params_list: Vec<&str> = memory.split(',').collect();
let mut size_str: &str = "";
let mut file_str: &str = "";
let mut mergeable_str: &str = "";
let mut backed = false;
for param in params_list.iter() {
if param.starts_with("size=") {
size_str = &param[5..];
} else if param.starts_with("file=") {
backed = true;
file_str = &param[5..];
} else if param.starts_with("mergeable=") {
mergeable_str = &param[10..];
}
}
let file = if backed {
if file_str.is_empty() {
return Err(Error::ParseMemoryFileParam);
}
Some(PathBuf::from(file_str))
} else {
None
};
Ok(MemoryConfig {
size: parse_size(size_str)?,
file,
mergeable: parse_on_off(mergeable_str)?,
})
}
}
impl Default for MemoryConfig {
fn default() -> Self {
MemoryConfig {
size: DEFAULT_MEMORY_MB << 20,
file: None,
mergeable: false,
}
}
}
#[derive(Clone, Debug, Deserialize, Serialize)]
pub struct KernelConfig {
pub path: PathBuf,
}
#[derive(Clone, Deserialize, Serialize)]
pub struct CmdlineConfig {
pub args: String,
}
impl CmdlineConfig {
pub fn parse(cmdline: Option<&str>) -> Result<Self> {
let args = cmdline
.map(std::string::ToString::to_string)
.unwrap_or_else(String::new);
Ok(CmdlineConfig { args })
}
}
#[derive(Clone, Debug, Deserialize, Serialize)]
pub struct DiskConfig {
pub path: PathBuf,
#[serde(default)]
pub iommu: bool,
}
impl DiskConfig {
pub fn parse(disk: &str) -> Result<Self> {
// Split the parameters based on the comma delimiter
let params_list: Vec<&str> = disk.split(',').collect();
let mut path_str: &str = "";
let mut iommu_str: &str = "";
for param in params_list.iter() {
if param.starts_with("path=") {
path_str = &param[5..];
} else if param.starts_with("iommu=") {
iommu_str = &param[6..];
}
}
Ok(DiskConfig {
path: PathBuf::from(path_str),
iommu: parse_on_off(iommu_str)?,
})
}
}
#[derive(Clone, Debug, Deserialize, Serialize)]
pub struct NetConfig {
#[serde(default = "default_netconfig_tap")]
pub tap: Option<String>,
#[serde(default = "default_netconfig_ip")]
pub ip: Ipv4Addr,
#[serde(default = "default_netconfig_mask")]
pub mask: Ipv4Addr,
#[serde(default = "default_netconfig_mac")]
pub mac: MacAddr,
#[serde(default)]
pub iommu: bool,
}
fn default_netconfig_tap() -> Option<String> {
None
}
fn default_netconfig_ip() -> Ipv4Addr {
Ipv4Addr::new(192, 168, 249, 1)
}
fn default_netconfig_mask() -> Ipv4Addr {
Ipv4Addr::new(255, 255, 255, 0)
}
fn default_netconfig_mac() -> MacAddr {
MacAddr::local_random()
}
impl NetConfig {
pub fn parse(net: &str) -> Result<Self> {
// Split the parameters based on the comma delimiter
let params_list: Vec<&str> = net.split(',').collect();
let mut tap_str: &str = "";
let mut ip_str: &str = "";
let mut mask_str: &str = "";
let mut mac_str: &str = "";
let mut iommu_str: &str = "";
for param in params_list.iter() {
if param.starts_with("tap=") {
tap_str = &param[4..];
} else if param.starts_with("ip=") {
ip_str = &param[3..];
} else if param.starts_with("mask=") {
mask_str = &param[5..];
} else if param.starts_with("mac=") {
mac_str = &param[4..];
} else if param.starts_with("iommu=") {
iommu_str = &param[6..];
}
}
let mut tap: Option<String> = default_netconfig_tap();
let mut ip: Ipv4Addr = default_netconfig_ip();
let mut mask: Ipv4Addr = default_netconfig_mask();
let mut mac: MacAddr = default_netconfig_mac();
let iommu = parse_on_off(iommu_str)?;
if !tap_str.is_empty() {
tap = Some(tap_str.to_string());
}
if !ip_str.is_empty() {
ip = ip_str.parse().map_err(Error::ParseNetIpParam)?;
}
if !mask_str.is_empty() {
mask = mask_str.parse().map_err(Error::ParseNetMaskParam)?;
}
if !mac_str.is_empty() {
mac = MacAddr::parse_str(mac_str).map_err(Error::ParseNetMacParam)?;
}
Ok(NetConfig {
tap,
ip,
mask,
mac,
iommu,
})
}
}
#[derive(Clone, Debug, Deserialize, Serialize)]
pub struct RngConfig {
pub src: PathBuf,
#[serde(default)]
pub iommu: bool,
}
impl RngConfig {
pub fn parse(rng: &str) -> Result<Self> {
// Split the parameters based on the comma delimiter
let params_list: Vec<&str> = rng.split(',').collect();
let mut src_str: &str = "";
let mut iommu_str: &str = "";
for param in params_list.iter() {
if param.starts_with("src=") {
src_str = &param[4..];
} else if param.starts_with("iommu=") {
iommu_str = &param[6..];
}
}
Ok(RngConfig {
src: PathBuf::from(src_str),
iommu: parse_on_off(iommu_str)?,
})
}
}
impl Default for RngConfig {
fn default() -> Self {
RngConfig {
src: PathBuf::from(DEFAULT_RNG_SOURCE),
iommu: false,
}
}
}
#[derive(Clone, Debug, Deserialize, Serialize)]
pub struct FsConfig {
pub tag: String,
pub sock: PathBuf,
#[serde(default = "default_fsconfig_num_queues")]
pub num_queues: usize,
#[serde(default = "default_fsconfig_queue_size")]
pub queue_size: u16,
#[serde(default = "default_fsconfig_cache_size")]
pub cache_size: Option<u64>,
}
fn default_fsconfig_num_queues() -> usize {
1
}
fn default_fsconfig_queue_size() -> u16 {
1024
}
fn default_fsconfig_cache_size() -> Option<u64> {
Some(0x0002_0000_0000)
}
impl FsConfig {
pub fn parse(fs: &str) -> Result<Self> {
// Split the parameters based on the comma delimiter
let params_list: Vec<&str> = fs.split(',').collect();
let mut tag: &str = "";
let mut sock: &str = "";
let mut num_queues_str: &str = "";
let mut queue_size_str: &str = "";
let mut dax_str: &str = "";
let mut cache_size_str: &str = "";
for param in params_list.iter() {
if param.starts_with("tag=") {
tag = &param[4..];
} else if param.starts_with("sock=") {
sock = &param[5..];
} else if param.starts_with("num_queues=") {
num_queues_str = &param[11..];
} else if param.starts_with("queue_size=") {
queue_size_str = &param[11..];
} else if param.starts_with("dax=") {
dax_str = &param[4..];
} else if param.starts_with("cache_size=") {
cache_size_str = &param[11..];
}
}
let mut num_queues: usize = default_fsconfig_num_queues();
let mut queue_size: u16 = default_fsconfig_queue_size();
let mut dax: bool = true;
// Default cache size set to 8Gib.
let mut cache_size: Option<u64> = default_fsconfig_cache_size();
if tag.is_empty() {
return Err(Error::ParseFsTagParam);
}
if sock.is_empty() {
return Err(Error::ParseFsSockParam);
}
if !num_queues_str.is_empty() {
num_queues = num_queues_str
.parse()
.map_err(Error::ParseFsNumQueuesParam)?;
}
if !queue_size_str.is_empty() {
queue_size = queue_size_str
.parse()
.map_err(Error::ParseFsQueueSizeParam)?;
}
if !dax_str.is_empty() {
match dax_str {
"on" => dax = true,
"off" => dax = false,
_ => return Err(Error::ParseFsDax),
}
}
// Take appropriate decision about cache_size based on DAX being
// enabled or disabled.
if !dax {
if !cache_size_str.is_empty() {
return Err(Error::InvalidCacheSizeWithDaxOff);
}
cache_size = None;
} else if !cache_size_str.is_empty() {
cache_size = Some(parse_size(cache_size_str)?);
}
Ok(FsConfig {
tag: tag.to_string(),
sock: PathBuf::from(sock),
num_queues,
queue_size,
cache_size,
})
}
}
#[derive(Clone, Debug, Deserialize, Serialize)]
pub struct PmemConfig {
pub file: PathBuf,
pub size: u64,
#[serde(default)]
pub iommu: bool,
#[serde(default)]
pub mergeable: bool,
}
impl PmemConfig {
pub fn parse(pmem: &str) -> Result<Self> {
// Split the parameters based on the comma delimiter
let params_list: Vec<&str> = pmem.split(',').collect();
let mut file_str: &str = "";
let mut size_str: &str = "";
let mut iommu_str: &str = "";
let mut mergeable_str: &str = "";
for param in params_list.iter() {
if param.starts_with("file=") {
file_str = &param[5..];
} else if param.starts_with("size=") {
size_str = &param[5..];
} else if param.starts_with("iommu=") {
iommu_str = &param[6..];
} else if param.starts_with("mergeable=") {
mergeable_str = &param[10..];
}
}
if file_str.is_empty() {
return Err(Error::ParsePmemFileParam);
}
Ok(PmemConfig {
file: PathBuf::from(file_str),
size: parse_size(size_str)?,
iommu: parse_on_off(iommu_str)?,
mergeable: parse_on_off(mergeable_str)?,
})
}
}
#[derive(Clone, PartialEq, Deserialize, Serialize)]
pub enum ConsoleOutputMode {
Off,
Tty,
File,
Null,
}
impl ConsoleOutputMode {
pub fn input_enabled(&self) -> bool {
match self {
ConsoleOutputMode::Tty => true,
_ => false,
}
}
}
#[derive(Clone, Deserialize, Serialize)]
pub struct ConsoleConfig {
pub file: Option<PathBuf>,
pub mode: ConsoleOutputMode,
#[serde(default)]
pub iommu: bool,
}
impl ConsoleConfig {
pub fn parse(console: &str) -> Result<Self> {
// Split the parameters based on the comma delimiter
let params_list: Vec<&str> = console.split(',').collect();
let mut valid = false;
let mut file: Option<PathBuf> = None;
let mut mode: ConsoleOutputMode = ConsoleOutputMode::Off;
let mut iommu_str: &str = "";
for param in params_list.iter() {
if param.starts_with("iommu=") {
iommu_str = &param[6..];
} else {
if *param == "off" {
mode = ConsoleOutputMode::Off;
file = None;
} else if *param == "tty" {
mode = ConsoleOutputMode::Tty;
file = None;
} else if param.starts_with("file=") {
mode = ConsoleOutputMode::File;
file = Some(PathBuf::from(&param[5..]));
} else if param.starts_with("null") {
mode = ConsoleOutputMode::Null;
file = None;
} else {
return Err(Error::ParseConsoleParam);
}
valid = true;
}
}
if !valid {
return Err(Error::ParseConsoleParam);
}
Ok(Self {
mode,
file,
iommu: parse_on_off(iommu_str)?,
})
}
pub fn default_serial() -> Self {
ConsoleConfig {
file: None,
mode: ConsoleOutputMode::Null,
iommu: false,
}
}
pub fn default_console() -> Self {
ConsoleConfig {
file: None,
mode: ConsoleOutputMode::Tty,
iommu: false,
}
}
}
#[derive(Clone, Debug, Deserialize, Serialize)]
pub struct DeviceConfig {
pub path: PathBuf,
#[serde(default)]
pub iommu: bool,
}
impl DeviceConfig {
pub fn parse(device: &str) -> Result<Self> {
// Split the parameters based on the comma delimiter
let params_list: Vec<&str> = device.split(',').collect();
let mut path_str: &str = "";
let mut iommu_str: &str = "";
for param in params_list.iter() {
if param.starts_with("path=") {
path_str = &param[5..];
} else if param.starts_with("iommu=") {
iommu_str = &param[6..];
}
}
Ok(DeviceConfig {
path: PathBuf::from(path_str),
iommu: parse_on_off(iommu_str)?,
})
}
}
#[derive(Clone, Debug, Deserialize, Serialize)]
pub struct VuConfig {
pub sock: String,
pub num_queues: usize,
pub queue_size: u16,
}
#[derive(Clone, Debug, Deserialize, Serialize)]
pub struct VhostUserNetConfig {
pub mac: MacAddr,
pub vu_cfg: VuConfig,
}
impl VhostUserNetConfig {
pub fn parse(vhost_user_net: &str) -> Result<Self> {
// Split the parameters based on the comma delimiter
let params_list: Vec<&str> = vhost_user_net.split(',').collect();
let mut mac_str: &str = "";
let mut sock: &str = "";
let mut num_queues_str: &str = "";
let mut queue_size_str: &str = "";
for param in params_list.iter() {
if param.starts_with("mac=") {
mac_str = &param[4..];
} else if param.starts_with("sock=") {
sock = &param[5..];
} else if param.starts_with("num_queues=") {
num_queues_str = &param[11..];
} else if param.starts_with("queue_size=") {
queue_size_str = &param[11..];
}
}
let mut mac: MacAddr = MacAddr::local_random();
let mut num_queues: usize = 2;
let mut queue_size: u16 = 256;
if !mac_str.is_empty() {
mac = MacAddr::parse_str(mac_str).map_err(Error::ParseVuNetMacParam)?;
}
if sock.is_empty() {
return Err(Error::ParseVuSockParam);
}
if !num_queues_str.is_empty() {
num_queues = num_queues_str
.parse()
.map_err(Error::ParseVuNumQueuesParam)?;
}
if !queue_size_str.is_empty() {
queue_size = queue_size_str
.parse()
.map_err(Error::ParseVuQueueSizeParam)?;
}
let vu_cfg = VuConfig {
sock: sock.to_string(),
num_queues,
queue_size,
};
Ok(VhostUserNetConfig { mac, vu_cfg })
}
}
#[derive(Clone, Debug, Deserialize, Serialize)]
pub struct VsockConfig {
pub cid: u64,
pub sock: PathBuf,
#[serde(default)]
pub iommu: bool,
}
impl VsockConfig {
pub fn parse(vsock: &str) -> Result<Self> {
// Split the parameters based on the comma delimiter
let params_list: Vec<&str> = vsock.split(',').collect();
let mut cid_str: &str = "";
let mut sock_str: &str = "";
let mut iommu_str: &str = "";
for param in params_list.iter() {
if param.starts_with("cid=") {
cid_str = &param[4..];
} else if param.starts_with("sock=") {
sock_str = &param[5..];
} else if param.starts_with("iommu=") {
iommu_str = &param[6..];
}
}
if sock_str.is_empty() {
return Err(Error::ParseVsockSockParam);
}
Ok(VsockConfig {
cid: cid_str.parse::<u64>().map_err(Error::ParseVsockCidParam)?,
sock: PathBuf::from(sock_str),
iommu: parse_on_off(iommu_str)?,
})
}
}
#[derive(Clone, Debug, Deserialize, Serialize)]
pub struct VhostUserBlkConfig {
pub wce: bool,
pub vu_cfg: VuConfig,
}
impl VhostUserBlkConfig {
pub fn parse(vhost_user_blk: &str) -> Result<Self> {
// Split the parameters based on the comma delimiter
let params_list: Vec<&str> = vhost_user_blk.split(',').collect();
let mut sock: &str = "";
let mut num_queues_str: &str = "";
let mut queue_size_str: &str = "";
let mut wce_str: &str = "";
for param in params_list.iter() {
if param.starts_with("sock=") {
sock = &param[5..];
} else if param.starts_with("num_queues=") {
num_queues_str = &param[11..];
} else if param.starts_with("queue_size=") {
queue_size_str = &param[11..];
} else if param.starts_with("wce=") {
wce_str = &param[4..];
}
}
let mut num_queues: usize = 1;
let mut queue_size: u16 = 128;
let mut wce: bool = true;
if !num_queues_str.is_empty() {
num_queues = num_queues_str
.parse()
.map_err(Error::ParseVuNumQueuesParam)?;
}
if !queue_size_str.is_empty() {
queue_size = queue_size_str
.parse()
.map_err(Error::ParseVuQueueSizeParam)?;
}
if !wce_str.is_empty() {
wce = wce_str.parse().map_err(Error::ParseVuBlkWceParam)?;
}
let vu_cfg = VuConfig {
sock: sock.to_string(),
num_queues,
queue_size,
};
Ok(VhostUserBlkConfig { wce, vu_cfg })
}
}
#[derive(Clone, Deserialize, Serialize)]
pub struct VmConfig {
#[serde(default)]
pub cpus: CpusConfig,
#[serde(default)]
pub memory: MemoryConfig,
pub kernel: Option<KernelConfig>,
pub cmdline: CmdlineConfig,
pub disks: Option<Vec<DiskConfig>>,
pub net: Option<Vec<NetConfig>>,
#[serde(default)]
pub rng: RngConfig,
pub fs: Option<Vec<FsConfig>>,
pub pmem: Option<Vec<PmemConfig>>,
#[serde(default = "ConsoleConfig::default_serial")]
pub serial: ConsoleConfig,
#[serde(default = "ConsoleConfig::default_console")]
pub console: ConsoleConfig,
pub devices: Option<Vec<DeviceConfig>>,
pub vhost_user_net: Option<Vec<VhostUserNetConfig>>,
pub vhost_user_blk: Option<Vec<VhostUserBlkConfig>>,
pub vsock: Option<Vec<VsockConfig>>,
#[serde(default)]
pub iommu: bool,
}
impl VmConfig {
pub fn valid(&self) -> bool {
self.kernel.is_some()
}
pub fn parse(vm_params: VmParams) -> Result<Self> {
let mut iommu = false;
let mut disks: Option<Vec<DiskConfig>> = None;
if let Some(disk_list) = &vm_params.disks {
let mut disk_config_list = Vec::new();
for item in disk_list.iter() {
let disk_config = DiskConfig::parse(item)?;
if disk_config.iommu {
iommu = true;
}
disk_config_list.push(disk_config);
}
disks = Some(disk_config_list);
}
let mut net: Option<Vec<NetConfig>> = None;
if let Some(net_list) = &vm_params.net {
let mut net_config_list = Vec::new();
for item in net_list.iter() {
let net_config = NetConfig::parse(item)?;
if net_config.iommu {
iommu = true;
}
net_config_list.push(net_config);
}
net = Some(net_config_list);
}
let rng = RngConfig::parse(vm_params.rng)?;
if rng.iommu {
iommu = true;
}
let mut fs: Option<Vec<FsConfig>> = None;
if let Some(fs_list) = &vm_params.fs {
let mut fs_config_list = Vec::new();
for item in fs_list.iter() {
fs_config_list.push(FsConfig::parse(item)?);
}
fs = Some(fs_config_list);
}
let mut pmem: Option<Vec<PmemConfig>> = None;
if let Some(pmem_list) = &vm_params.pmem {
let mut pmem_config_list = Vec::new();
for item in pmem_list.iter() {
let pmem_config = PmemConfig::parse(item)?;
if pmem_config.iommu {
iommu = true;
}
pmem_config_list.push(pmem_config);
}
pmem = Some(pmem_config_list);
}
let console = ConsoleConfig::parse(vm_params.console)?;
if console.iommu {
iommu = true;
}
let serial = ConsoleConfig::parse(vm_params.serial)?;
if console.mode == ConsoleOutputMode::Tty && serial.mode == ConsoleOutputMode::Tty {
return Err(Error::ParseTTYParam);
}
let mut devices: Option<Vec<DeviceConfig>> = None;
if let Some(device_list) = &vm_params.devices {
let mut device_config_list = Vec::new();
for item in device_list.iter() {
let device_config = DeviceConfig::parse(item)?;
if device_config.iommu {
iommu = true;
}
device_config_list.push(device_config);
}
devices = Some(device_config_list);
}
let mut vhost_user_net: Option<Vec<VhostUserNetConfig>> = None;
if let Some(vhost_user_net_list) = &vm_params.vhost_user_net {
let mut vhost_user_net_config_list = Vec::new();
for item in vhost_user_net_list.iter() {
vhost_user_net_config_list.push(VhostUserNetConfig::parse(item)?);
}
vhost_user_net = Some(vhost_user_net_config_list);
}
let mut vsock: Option<Vec<VsockConfig>> = None;
if let Some(vsock_list) = &vm_params.vsock {
let mut vsock_config_list = Vec::new();
for item in vsock_list.iter() {
let vsock_config = VsockConfig::parse(item)?;
if vsock_config.iommu {
iommu = true;
}
vsock_config_list.push(vsock_config);
}
vsock = Some(vsock_config_list);
}
let mut vhost_user_blk: Option<Vec<VhostUserBlkConfig>> = None;
if let Some(vhost_user_blk_list) = &vm_params.vhost_user_blk {
let mut vhost_user_blk_config_list = Vec::new();
for item in vhost_user_blk_list.iter() {
vhost_user_blk_config_list.push(VhostUserBlkConfig::parse(item)?);
}
vhost_user_blk = Some(vhost_user_blk_config_list);
}
let mut kernel: Option<KernelConfig> = None;
if let Some(k) = vm_params.kernel {
kernel = Some(KernelConfig {
path: PathBuf::from(k),
});
}
Ok(VmConfig {
cpus: CpusConfig::parse(vm_params.cpus)?,
memory: MemoryConfig::parse(vm_params.memory)?,
kernel,
cmdline: CmdlineConfig::parse(vm_params.cmdline)?,
disks,
net,
rng,
fs,
pmem,
serial,
console,
devices,
vhost_user_net,
vhost_user_blk,
vsock,
iommu,
})
}
}