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gerrit.omnirom.org / android_packages_modules_Virtualization / d50a0241bb49af19d1576597fa402a7d808af79c / . / virtualizationservice / src / aidl.rs
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// Copyright 2021, The Android Open Source Project
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//! Implementation of the AIDL interface of the VirtualizationService.
use crate::composite::make_composite_image;
use crate::crosvm::{CrosvmConfig, DiskFile, PayloadState, VmInstance, VmState};
use crate::payload::add_microdroid_images;
use crate::{Cid, FIRST_GUEST_CID, SYSPROP_LAST_CID};
use android_os_permissions_aidl::aidl::android::os::IPermissionController;
use android_system_virtualizationservice::aidl::android::system::virtualizationservice::IVirtualMachine::{
BnVirtualMachine, IVirtualMachine,
};
use android_system_virtualizationservice::aidl::android::system::virtualizationservice::{
DiskImage::DiskImage,
IVirtualMachineCallback::IVirtualMachineCallback,
IVirtualizationService::IVirtualizationService,
PartitionType::PartitionType,
VirtualMachineAppConfig::VirtualMachineAppConfig,
VirtualMachineConfig::VirtualMachineConfig,
VirtualMachineDebugInfo::VirtualMachineDebugInfo,
VirtualMachineRawConfig::VirtualMachineRawConfig,
VirtualMachineState::VirtualMachineState,
};
use android_system_virtualizationservice::binder::{
self, force_lazy_services_persist, BinderFeatures, ExceptionCode, Interface, ParcelFileDescriptor, Status, Strong, ThreadState,
};
use android_system_virtualmachineservice::aidl::android::system::virtualmachineservice::IVirtualMachineService::{
VM_BINDER_SERVICE_PORT, VM_STREAM_SERVICE_PORT, BnVirtualMachineService, IVirtualMachineService,
};
use anyhow::{anyhow, bail, Context, Result};
use ::binder::unstable_api::AsNative;
use disk::QcowFile;
use idsig::{V4Signature, HashAlgorithm};
use log::{debug, error, warn, info};
use microdroid_payload_config::VmPayloadConfig;
use rustutils::system_properties;
use std::convert::TryInto;
use std::ffi::CString;
use std::fs::{File, OpenOptions, create_dir};
use std::io::{Error, ErrorKind, Write};
use std::num::NonZeroU32;
use std::os::unix::io::{FromRawFd, IntoRawFd};
use std::path::{Path, PathBuf};
use std::sync::{Arc, Mutex, Weak};
use vmconfig::VmConfig;
use vsock::{SockAddr, VsockListener, VsockStream};
use zip::ZipArchive;
pub const BINDER_SERVICE_IDENTIFIER: &str = "android.system.virtualizationservice";
/// Directory in which to write disk image files used while running VMs.
pub const TEMPORARY_DIRECTORY: &str = "/data/misc/virtualizationservice";
/// The CID representing the host VM
const VMADDR_CID_HOST: u32 = 2;
/// The size of zero.img.
/// Gaps in composite disk images are filled with a shared zero.img.
const ZERO_FILLER_SIZE: u64 = 4096;
/// Magic string for the instance image
const ANDROID_VM_INSTANCE_MAGIC: &str = "Android-VM-instance";
/// Version of the instance image format
const ANDROID_VM_INSTANCE_VERSION: u16 = 1;
/// Implementation of `IVirtualizationService`, the entry point of the AIDL service.
#[derive(Debug, Default)]
pub struct VirtualizationService {
state: Arc<Mutex<State>>,
}
impl Interface for VirtualizationService {}
impl IVirtualizationService for VirtualizationService {
/// Creates (but does not start) a new VM with the given configuration, assigning it the next
/// available CID.
///
/// Returns a binder `IVirtualMachine` object referring to it, as a handle for the client.
fn createVm(
&self,
config: &VirtualMachineConfig,
log_fd: Option<&ParcelFileDescriptor>,
) -> binder::Result<Strong<dyn IVirtualMachine>> {
check_manage_access()?;
let state = &mut *self.state.lock().unwrap();
let log_fd = log_fd.map(clone_file).transpose()?;
let requester_uid = ThreadState::get_calling_uid();
let requester_sid = get_calling_sid()?;
let requester_debug_pid = ThreadState::get_calling_pid();
let cid = next_cid().or(Err(ExceptionCode::ILLEGAL_STATE))?;
// Counter to generate unique IDs for temporary image files.
let mut next_temporary_image_id = 0;
// Files which are referred to from composite images. These must be mapped to the crosvm
// child process, and not closed before it is started.
let mut indirect_files = vec![];
// Make directory for temporary files.
let temporary_directory: PathBuf = format!("{}/{}", TEMPORARY_DIRECTORY, cid).into();
create_dir(&temporary_directory).map_err(|e| {
error!(
"Failed to create temporary directory {:?} for VM files: {}",
temporary_directory, e
);
new_binder_exception(
ExceptionCode::SERVICE_SPECIFIC,
format!(
"Failed to create temporary directory {:?} for VM files: {}",
temporary_directory, e
),
)
})?;
let config = match config {
VirtualMachineConfig::AppConfig(config) => BorrowedOrOwned::Owned(
load_app_config(config, &temporary_directory).map_err(|e| {
error!("Failed to load app config from {}: {}", &config.configPath, e);
new_binder_exception(
ExceptionCode::SERVICE_SPECIFIC,
format!("Failed to load app config from {}: {}", &config.configPath, e),
)
})?,
),
VirtualMachineConfig::RawConfig(config) => BorrowedOrOwned::Borrowed(config),
};
let config = config.as_ref();
let zero_filler_path = temporary_directory.join("zero.img");
write_zero_filler(&zero_filler_path).map_err(|e| {
error!("Failed to make composite image: {}", e);
new_binder_exception(
ExceptionCode::SERVICE_SPECIFIC,
format!("Failed to make composite image: {}", e),
)
})?;
// Assemble disk images if needed.
let disks = config
.disks
.iter()
.map(|disk| {
assemble_disk_image(
disk,
&zero_filler_path,
&temporary_directory,
&mut next_temporary_image_id,
&mut indirect_files,
)
})
.collect::<Result<Vec<DiskFile>, _>>()?;
// Actually start the VM.
let crosvm_config = CrosvmConfig {
cid,
bootloader: maybe_clone_file(&config.bootloader)?,
kernel: maybe_clone_file(&config.kernel)?,
initrd: maybe_clone_file(&config.initrd)?,
disks,
params: config.params.to_owned(),
protected: config.protectedVm,
memory_mib: config.memoryMib.try_into().ok().and_then(NonZeroU32::new),
log_fd,
indirect_files,
};
let instance = Arc::new(
VmInstance::new(
crosvm_config,
temporary_directory,
requester_uid,
requester_sid,
requester_debug_pid,
)
.map_err(|e| {
error!("Failed to create VM with config {:?}: {}", config, e);
new_binder_exception(
ExceptionCode::SERVICE_SPECIFIC,
format!("Failed to create VM: {}", e),
)
})?,
);
state.add_vm(Arc::downgrade(&instance));
Ok(VirtualMachine::create(instance))
}
/// Initialise an empty partition image of the given size to be used as a writable partition.
fn initializeWritablePartition(
&self,
image_fd: &ParcelFileDescriptor,
size: i64,
partition_type: PartitionType,
) -> binder::Result<()> {
check_manage_access()?;
let size = size.try_into().map_err(|e| {
new_binder_exception(
ExceptionCode::ILLEGAL_ARGUMENT,
format!("Invalid size {}: {}", size, e),
)
})?;
let image = clone_file(image_fd)?;
let mut part = QcowFile::new(image, size).map_err(|e| {
new_binder_exception(
ExceptionCode::SERVICE_SPECIFIC,
format!("Failed to create QCOW2 image: {}", e),
)
})?;
match partition_type {
PartitionType::RAW => Ok(()),
PartitionType::ANDROID_VM_INSTANCE => format_as_android_vm_instance(&mut part),
_ => Err(Error::new(
ErrorKind::Unsupported,
format!("Unsupported partition type {:?}", partition_type),
)),
}
.map_err(|e| {
new_binder_exception(
ExceptionCode::SERVICE_SPECIFIC,
format!("Failed to initialize partition as {:?}: {}", partition_type, e),
)
})?;
Ok(())
}
/// Creates or update the idsig file by digesting the input APK file.
fn createOrUpdateIdsigFile(
&self,
input_fd: &ParcelFileDescriptor,
idsig_fd: &ParcelFileDescriptor,
) -> binder::Result<()> {
// TODO(b/193504400): do this only when (1) idsig_fd is empty or (2) the APK digest in
// idsig_fd is different from APK digest in input_fd
let mut input = clone_file(input_fd)?;
let mut sig = V4Signature::create(&mut input, 4096, &[], HashAlgorithm::SHA256).unwrap();
let mut output = clone_file(idsig_fd)?;
output.set_len(0).unwrap();
sig.write_into(&mut output).unwrap();
Ok(())
}
/// Get a list of all currently running VMs. This method is only intended for debug purposes,
/// and as such is only permitted from the shell user.
fn debugListVms(&self) -> binder::Result<Vec<VirtualMachineDebugInfo>> {
check_debug_access()?;
let state = &mut *self.state.lock().unwrap();
let vms = state.vms();
let cids = vms
.into_iter()
.map(|vm| VirtualMachineDebugInfo {
cid: vm.cid as i32,
temporaryDirectory: vm.temporary_directory.to_string_lossy().to_string(),
requesterUid: vm.requester_uid as i32,
requesterSid: vm.requester_sid.clone(),
requesterPid: vm.requester_debug_pid,
state: get_state(&vm),
})
.collect();
Ok(cids)
}
/// Hold a strong reference to a VM in VirtualizationService. This method is only intended for
/// debug purposes, and as such is only permitted from the shell user.
fn debugHoldVmRef(&self, vmref: &Strong<dyn IVirtualMachine>) -> binder::Result<()> {
check_debug_access()?;
let state = &mut *self.state.lock().unwrap();
state.debug_hold_vm(vmref.clone());
Ok(())
}
/// Drop reference to a VM that is being held by VirtualizationService. Returns the reference if
/// the VM was found and None otherwise. This method is only intended for debug purposes, and as
/// such is only permitted from the shell user.
fn debugDropVmRef(&self, cid: i32) -> binder::Result<Option<Strong<dyn IVirtualMachine>>> {
check_debug_access()?;
let state = &mut *self.state.lock().unwrap();
Ok(state.debug_drop_vm(cid))
}
}
impl VirtualizationService {
pub fn init() -> VirtualizationService {
let service = VirtualizationService::default();
// server for payload output
let state = service.state.clone(); // reference to state (not the state itself) is copied
std::thread::spawn(move || {
handle_stream_connection_from_vm(state).unwrap();
});
// binder server for vm
let state = service.state.clone(); // reference to state (not the state itself) is copied
std::thread::spawn(move || {
let mut service = VirtualMachineService::new_binder(state).as_binder();
debug!("virtual machine service is starting as an RPC service.");
// SAFETY: Service ownership is transferring to the server and won't be valid afterward.
// Plus the binder objects are threadsafe.
let retval = unsafe {
binder_rpc_unstable_bindgen::RunRpcServer(
service.as_native_mut() as *mut binder_rpc_unstable_bindgen::AIBinder,
VM_BINDER_SERVICE_PORT as u32,
)
};
if retval {
debug!("RPC server has shut down gracefully");
} else {
bail!("Premature termination of RPC server");
}
Ok(retval)
});
service
}
}
/// Waits for incoming connections from VM. If a new connection is made, stores the stream in the
/// corresponding `VmInstance`.
fn handle_stream_connection_from_vm(state: Arc<Mutex<State>>) -> Result<()> {
let listener =
VsockListener::bind_with_cid_port(VMADDR_CID_HOST, VM_STREAM_SERVICE_PORT as u32)?;
for stream in listener.incoming() {
let stream = match stream {
Err(e) => {
warn!("invalid incoming connection: {}", e);
continue;
}
Ok(s) => s,
};
if let Ok(SockAddr::Vsock(addr)) = stream.peer_addr() {
let cid = addr.cid();
let port = addr.port();
info!("payload stream connected from cid={}, port={}", cid, port);
if let Some(vm) = state.lock().unwrap().get_vm(cid) {
*vm.stream.lock().unwrap() = Some(stream);
} else {
error!("connection from cid={} is not from a guest VM", cid);
}
}
}
Ok(())
}
fn write_zero_filler(zero_filler_path: &Path) -> Result<()> {
let file = OpenOptions::new()
.create_new(true)
.read(true)
.write(true)
.open(zero_filler_path)
.with_context(|| "Failed to create zero.img")?;
file.set_len(ZERO_FILLER_SIZE)?;
Ok(())
}
fn format_as_android_vm_instance(part: &mut dyn Write) -> std::io::Result<()> {
part.write_all(ANDROID_VM_INSTANCE_MAGIC.as_bytes())?;
part.write_all(&ANDROID_VM_INSTANCE_VERSION.to_le_bytes())?;
part.flush()
}
/// Given the configuration for a disk image, assembles the `DiskFile` to pass to crosvm.
///
/// This may involve assembling a composite disk from a set of partition images.
fn assemble_disk_image(
disk: &DiskImage,
zero_filler_path: &Path,
temporary_directory: &Path,
next_temporary_image_id: &mut u64,
indirect_files: &mut Vec<File>,
) -> Result<DiskFile, Status> {
let image = if !disk.partitions.is_empty() {
if disk.image.is_some() {
warn!("DiskImage {:?} contains both image and partitions.", disk);
return Err(new_binder_exception(
ExceptionCode::ILLEGAL_ARGUMENT,
"DiskImage contains both image and partitions.",
));
}
let composite_image_filenames =
make_composite_image_filenames(temporary_directory, next_temporary_image_id);
let (image, partition_files) = make_composite_image(
&disk.partitions,
zero_filler_path,
&composite_image_filenames.composite,
&composite_image_filenames.header,
&composite_image_filenames.footer,
)
.map_err(|e| {
error!("Failed to make composite image with config {:?}: {}", disk, e);
new_binder_exception(
ExceptionCode::SERVICE_SPECIFIC,
format!("Failed to make composite image: {}", e),
)
})?;
// Pass the file descriptors for the various partition files to crosvm when it
// is run.
indirect_files.extend(partition_files);
image
} else if let Some(image) = &disk.image {
clone_file(image)?
} else {
warn!("DiskImage {:?} didn't contain image or partitions.", disk);
return Err(new_binder_exception(
ExceptionCode::ILLEGAL_ARGUMENT,
"DiskImage didn't contain image or partitions.",
));
};
Ok(DiskFile { image, writable: disk.writable })
}
fn load_app_config(
config: &VirtualMachineAppConfig,
temporary_directory: &Path,
) -> Result<VirtualMachineRawConfig> {
let apk_file = clone_file(config.apk.as_ref().unwrap())?;
let idsig_file = clone_file(config.idsig.as_ref().unwrap())?;
let instance_file = clone_file(config.instanceImage.as_ref().unwrap())?;
let config_path = &config.configPath;
let mut apk_zip = ZipArchive::new(&apk_file)?;
let config_file = apk_zip.by_name(config_path)?;
let vm_payload_config: VmPayloadConfig = serde_json::from_reader(config_file)?;
let os_name = &vm_payload_config.os.name;
// For now, the only supported "os" value is "microdroid"
if os_name != "microdroid" {
bail!("Unknown OS \"{}\"", os_name);
}
// It is safe to construct a filename based on the os_name because we've already checked that it
// is one of the allowed values.
let vm_config_path = PathBuf::from(format!("/apex/com.android.virt/etc/{}.json", os_name));
let vm_config_file = File::open(vm_config_path)?;
let mut vm_config = VmConfig::load(&vm_config_file)?.to_parcelable()?;
if config.memoryMib > 0 {
vm_config.memoryMib = config.memoryMib;
}
// Microdroid requires an additional payload disk image and the bootconfig partition.
if os_name == "microdroid" {
let apexes = vm_payload_config.apexes.clone();
add_microdroid_images(
config,
temporary_directory,
apk_file,
idsig_file,
instance_file,
apexes,
&mut vm_config,
)?;
}
Ok(vm_config)
}
/// Generates a unique filename to use for a composite disk image.
fn make_composite_image_filenames(
temporary_directory: &Path,
next_temporary_image_id: &mut u64,
) -> CompositeImageFilenames {
let id = *next_temporary_image_id;
*next_temporary_image_id += 1;
CompositeImageFilenames {
composite: temporary_directory.join(format!("composite-{}.img", id)),
header: temporary_directory.join(format!("composite-{}-header.img", id)),
footer: temporary_directory.join(format!("composite-{}-footer.img", id)),
}
}
/// Filenames for a composite disk image, including header and footer partitions.
#[derive(Clone, Debug, Eq, PartialEq)]
struct CompositeImageFilenames {
/// The composite disk image itself.
composite: PathBuf,
/// The header partition image.
header: PathBuf,
/// The footer partition image.
footer: PathBuf,
}
/// Gets the calling SID of the current Binder thread.
fn get_calling_sid() -> Result<String, Status> {
ThreadState::with_calling_sid(|sid| {
if let Some(sid) = sid {
match sid.to_str() {
Ok(sid) => Ok(sid.to_owned()),
Err(e) => {
error!("SID was not valid UTF-8: {}", e);
Err(new_binder_exception(
ExceptionCode::ILLEGAL_ARGUMENT,
format!("SID was not valid UTF-8: {}", e),
))
}
}
} else {
error!("Missing SID on createVm");
Err(new_binder_exception(ExceptionCode::SECURITY, "Missing SID on createVm"))
}
})
}
/// Checks whether the caller has a specific permission
fn check_permission(perm: &str) -> binder::Result<()> {
let calling_pid = ThreadState::get_calling_pid();
let calling_uid = ThreadState::get_calling_uid();
// Root can do anything
if calling_uid == 0 {
return Ok(());
}
let perm_svc: Strong<dyn IPermissionController::IPermissionController> =
binder::get_interface("permission")?;
if perm_svc.checkPermission(perm, calling_pid, calling_uid as i32)? {
Ok(())
} else {
Err(new_binder_exception(
ExceptionCode::SECURITY,
format!("does not have the {} permission", perm),
))
}
}
/// Check whether the caller of the current Binder method is allowed to call debug methods.
fn check_debug_access() -> binder::Result<()> {
check_permission("android.permission.DEBUG_VIRTUAL_MACHINE")
}
/// Check whether the caller of the current Binder method is allowed to manage VMs
fn check_manage_access() -> binder::Result<()> {
check_permission("android.permission.MANAGE_VIRTUAL_MACHINE")
}
/// Implementation of the AIDL `IVirtualMachine` interface. Used as a handle to a VM.
#[derive(Debug)]
struct VirtualMachine {
instance: Arc<VmInstance>,
}
impl VirtualMachine {
fn create(instance: Arc<VmInstance>) -> Strong<dyn IVirtualMachine> {
let binder = VirtualMachine { instance };
BnVirtualMachine::new_binder(binder, BinderFeatures::default())
}
}
impl Interface for VirtualMachine {}
impl IVirtualMachine for VirtualMachine {
fn getCid(&self) -> binder::Result<i32> {
// Don't check permission. The owner of the VM might have passed this binder object to
// others.
Ok(self.instance.cid as i32)
}
fn getState(&self) -> binder::Result<VirtualMachineState> {
// Don't check permission. The owner of the VM might have passed this binder object to
// others.
Ok(get_state(&self.instance))
}
fn registerCallback(
&self,
callback: &Strong<dyn IVirtualMachineCallback>,
) -> binder::Result<()> {
// Don't check permission. The owner of the VM might have passed this binder object to
// others.
//
// TODO: Should this give an error if the VM is already dead?
self.instance.callbacks.add(callback.clone());
Ok(())
}
fn start(&self) -> binder::Result<()> {
self.instance.start().map_err(|e| {
error!("Error starting VM with CID {}: {:?}", self.instance.cid, e);
new_binder_exception(ExceptionCode::SERVICE_SPECIFIC, e.to_string())
})
}
fn connectVsock(&self, port: i32) -> binder::Result<ParcelFileDescriptor> {
if !matches!(&*self.instance.vm_state.lock().unwrap(), VmState::Running { .. }) {
return Err(new_binder_exception(ExceptionCode::SERVICE_SPECIFIC, "VM is not running"));
}
let stream =
VsockStream::connect_with_cid_port(self.instance.cid, port as u32).map_err(|e| {
new_binder_exception(
ExceptionCode::SERVICE_SPECIFIC,
format!("Failed to connect: {}", e),
)
})?;
Ok(vsock_stream_to_pfd(stream))
}
}
impl Drop for VirtualMachine {
fn drop(&mut self) {
debug!("Dropping {:?}", self);
self.instance.kill();
}
}
/// A set of Binders to be called back in response to various events on the VM, such as when it
/// dies.
#[derive(Debug, Default)]
pub struct VirtualMachineCallbacks(Mutex<Vec<Strong<dyn IVirtualMachineCallback>>>);
impl VirtualMachineCallbacks {
/// Call all registered callbacks to notify that the payload has started.
pub fn notify_payload_started(&self, cid: Cid, stream: Option<VsockStream>) {
let callbacks = &*self.0.lock().unwrap();
let pfd = stream.map(vsock_stream_to_pfd);
for callback in callbacks {
if let Err(e) = callback.onPayloadStarted(cid as i32, pfd.as_ref()) {
error!("Error notifying payload start event from VM CID {}: {}", cid, e);
}
}
}
/// Call all registered callbacks to notify that the payload is ready to serve.
pub fn notify_payload_ready(&self, cid: Cid) {
let callbacks = &*self.0.lock().unwrap();
for callback in callbacks {
if let Err(e) = callback.onPayloadReady(cid as i32) {
error!("Error notifying payload ready event from VM CID {}: {}", cid, e);
}
}
}
/// Call all registered callbacks to notify that the payload has finished.
pub fn notify_payload_finished(&self, cid: Cid, exit_code: i32) {
let callbacks = &*self.0.lock().unwrap();
for callback in callbacks {
if let Err(e) = callback.onPayloadFinished(cid as i32, exit_code) {
error!("Error notifying payload finish event from VM CID {}: {}", cid, e);
}
}
}
/// Call all registered callbacks to say that the VM has died.
pub fn callback_on_died(&self, cid: Cid) {
let callbacks = &*self.0.lock().unwrap();
for callback in callbacks {
if let Err(e) = callback.onDied(cid as i32) {
error!("Error notifying exit of VM CID {}: {}", cid, e);
}
}
}
/// Add a new callback to the set.
fn add(&self, callback: Strong<dyn IVirtualMachineCallback>) {
self.0.lock().unwrap().push(callback);
}
}
/// The mutable state of the VirtualizationService. There should only be one instance of this
/// struct.
#[derive(Debug)]
struct State {
/// The VMs which have been started. When VMs are started a weak reference is added to this list
/// while a strong reference is returned to the caller over Binder. Once all copies of the
/// Binder client are dropped the weak reference here will become invalid, and will be removed
/// from the list opportunistically the next time `add_vm` is called.
vms: Vec<Weak<VmInstance>>,
/// Vector of strong VM references held on behalf of users that cannot hold them themselves.
/// This is only used for debugging purposes.
debug_held_vms: Vec<Strong<dyn IVirtualMachine>>,
}
impl State {
/// Get a list of VMs which still have Binder references to them.
fn vms(&self) -> Vec<Arc<VmInstance>> {
// Attempt to upgrade the weak pointers to strong pointers.
self.vms.iter().filter_map(Weak::upgrade).collect()
}
/// Add a new VM to the list.
fn add_vm(&mut self, vm: Weak<VmInstance>) {
// Garbage collect any entries from the stored list which no longer exist.
self.vms.retain(|vm| vm.strong_count() > 0);
// Actually add the new VM.
self.vms.push(vm);
}
/// Get a VM that corresponds to the given cid
fn get_vm(&self, cid: Cid) -> Option<Arc<VmInstance>> {
self.vms().into_iter().find(|vm| vm.cid == cid)
}
/// Store a strong VM reference.
fn debug_hold_vm(&mut self, vm: Strong<dyn IVirtualMachine>) {
self.debug_held_vms.push(vm);
// Make sure our process is not shut down while we hold the VM reference
// on behalf of the caller.
force_lazy_services_persist(true);
}
/// Retrieve and remove a strong VM reference.
fn debug_drop_vm(&mut self, cid: i32) -> Option<Strong<dyn IVirtualMachine>> {
let pos = self.debug_held_vms.iter().position(|vm| vm.getCid() == Ok(cid))?;
let vm = self.debug_held_vms.swap_remove(pos);
if self.debug_held_vms.is_empty() {
// Once we no longer hold any VM references it is ok for our process to be shut down.
force_lazy_services_persist(false);
}
Some(vm)
}
}
impl Default for State {
fn default() -> Self {
State { vms: vec![], debug_held_vms: vec![] }
}
}
/// Get the next available CID, or an error if we have run out. The last CID used is stored in
/// a system property so that restart of virtualizationservice doesn't reuse CID while the host
/// Android is up.
fn next_cid() -> Result<Cid> {
let next = if let Ok(val) = system_properties::read(SYSPROP_LAST_CID) {
if let Ok(num) = val.parse::<u32>() {
num.checked_add(1).ok_or_else(|| anyhow!("run out of CID"))?
} else {
error!("Invalid last CID {}. Using {}", &val, FIRST_GUEST_CID);
FIRST_GUEST_CID
}
} else {
// First VM since the boot
FIRST_GUEST_CID
};
// Persist the last value for next use
let str_val = format!("{}", next);
system_properties::write(SYSPROP_LAST_CID, &str_val)?;
Ok(next)
}
/// Gets the `VirtualMachineState` of the given `VmInstance`.
fn get_state(instance: &VmInstance) -> VirtualMachineState {
match &*instance.vm_state.lock().unwrap() {
VmState::NotStarted { .. } => VirtualMachineState::NOT_STARTED,
VmState::Running { .. } => match instance.payload_state() {
PayloadState::Starting => VirtualMachineState::STARTING,
PayloadState::Started => VirtualMachineState::STARTED,
PayloadState::Ready => VirtualMachineState::READY,
PayloadState::Finished => VirtualMachineState::FINISHED,
},
VmState::Dead => VirtualMachineState::DEAD,
VmState::Failed => VirtualMachineState::DEAD,
}
}
/// Converts a `&ParcelFileDescriptor` to a `File` by cloning the file.
fn clone_file(file: &ParcelFileDescriptor) -> Result<File, Status> {
file.as_ref().try_clone().map_err(|e| {
new_binder_exception(
ExceptionCode::BAD_PARCELABLE,
format!("Failed to clone File from ParcelFileDescriptor: {}", e),
)
})
}
/// Converts an `&Option<ParcelFileDescriptor>` to an `Option<File>` by cloning the file.
fn maybe_clone_file(file: &Option<ParcelFileDescriptor>) -> Result<Option<File>, Status> {
file.as_ref().map(clone_file).transpose()
}
/// Converts a `VsockStream` to a `ParcelFileDescriptor`.
fn vsock_stream_to_pfd(stream: VsockStream) -> ParcelFileDescriptor {
// SAFETY: ownership is transferred from stream to f
let f = unsafe { File::from_raw_fd(stream.into_raw_fd()) };
ParcelFileDescriptor::new(f)
}
/// Constructs a new Binder error `Status` with the given `ExceptionCode` and message.
fn new_binder_exception<T: AsRef<str>>(exception: ExceptionCode, message: T) -> Status {
Status::new_exception(exception, CString::new(message.as_ref()).ok().as_deref())
}
/// Simple utility for referencing Borrowed or Owned. Similar to std::borrow::Cow, but
/// it doesn't require that T implements Clone.
enum BorrowedOrOwned<'a, T> {
Borrowed(&'a T),
Owned(T),
}
impl<'a, T> AsRef<T> for BorrowedOrOwned<'a, T> {
fn as_ref(&self) -> &T {
match self {
Self::Borrowed(b) => b,
Self::Owned(o) => o,
}
}
}
/// Implementation of `IVirtualMachineService`, the entry point of the AIDL service.
#[derive(Debug, Default)]
struct VirtualMachineService {
state: Arc<Mutex<State>>,
}
impl Interface for VirtualMachineService {}
impl IVirtualMachineService for VirtualMachineService {
fn notifyPayloadStarted(&self, cid: i32) -> binder::Result<()> {
let cid = cid as Cid;
if let Some(vm) = self.state.lock().unwrap().get_vm(cid) {
info!("VM having CID {} started payload", cid);
vm.update_payload_state(PayloadState::Started)
.map_err(|e| new_binder_exception(ExceptionCode::ILLEGAL_STATE, e.to_string()))?;
let stream = vm.stream.lock().unwrap().take();
vm.callbacks.notify_payload_started(cid, stream);
Ok(())
} else {
error!("notifyPayloadStarted is called from an unknown cid {}", cid);
Err(new_binder_exception(
ExceptionCode::SERVICE_SPECIFIC,
format!("cannot find a VM with cid {}", cid),
))
}
}
fn notifyPayloadReady(&self, cid: i32) -> binder::Result<()> {
let cid = cid as Cid;
if let Some(vm) = self.state.lock().unwrap().get_vm(cid) {
info!("VM having CID {} payload is ready", cid);
vm.update_payload_state(PayloadState::Ready)
.map_err(|e| new_binder_exception(ExceptionCode::ILLEGAL_STATE, e.to_string()))?;
vm.callbacks.notify_payload_ready(cid);
Ok(())
} else {
error!("notifyPayloadReady is called from an unknown cid {}", cid);
Err(new_binder_exception(
ExceptionCode::SERVICE_SPECIFIC,
format!("cannot find a VM with cid {}", cid),
))
}
}
fn notifyPayloadFinished(&self, cid: i32, exit_code: i32) -> binder::Result<()> {
let cid = cid as Cid;
if let Some(vm) = self.state.lock().unwrap().get_vm(cid) {
info!("VM having CID {} finished payload", cid);
vm.update_payload_state(PayloadState::Finished)
.map_err(|e| new_binder_exception(ExceptionCode::ILLEGAL_STATE, e.to_string()))?;
vm.callbacks.notify_payload_finished(cid, exit_code);
Ok(())
} else {
error!("notifyPayloadFinished is called from an unknown cid {}", cid);
Err(new_binder_exception(
ExceptionCode::SERVICE_SPECIFIC,
format!("cannot find a VM with cid {}", cid),
))
}
}
}
impl VirtualMachineService {
fn new_binder(state: Arc<Mutex<State>>) -> Strong<dyn IVirtualMachineService> {
BnVirtualMachineService::new_binder(
VirtualMachineService { state },
BinderFeatures::default(),
)
}
}