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// Copyright 2019 The Chromium OS Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
use super::interrupter::{Error as InterrupterError, Interrupter};
use super::scatter_gather_buffer::{Error as BufferError, ScatterGatherBuffer};
use super::usb_hub::{Error as HubError, UsbPort};
use super::xhci_abi::{
AddressedTrb, Error as TrbError, EventDataTrb, SetupStageTrb, TransferDescriptor, TrbCast,
TrbCompletionCode, TrbType,
};
use super::xhci_regs::MAX_INTERRUPTER;
use std::cmp::min;
use std::fmt::{self, Display};
use std::mem;
use std::sync::{Arc, Weak};
use sync::Mutex;
use sys_util::{Error as SysError, EventFd, GuestMemory};
use usb::usb_util::types::UsbRequestSetup;
use usb::usb_util::usb_transfer::TransferStatus;
#[derive(Debug)]
pub enum Error {
TrbType(TrbError),
CastTrb(TrbError),
TransferLength(TrbError),
BadTrbType(TrbType),
WriteCompletionEvent(SysError),
CreateBuffer(BufferError),
DetachPort(HubError),
SendInterrupt(InterrupterError),
SubmitTransfer,
}
type Result<T> = std::result::Result<T, Error>;
impl Display for Error {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
use self::Error::*;
match self {
TrbType(e) => write!(f, "cannot get trb type: {}", e),
CastTrb(e) => write!(f, "cannot cast trb: {}", e),
TransferLength(e) => write!(f, "cannot get transfer length: {}", e),
BadTrbType(t) => write!(f, "unexpected trb type: {:?}", t),
WriteCompletionEvent(e) => write!(f, "cannot write completion event: {}", e),
CreateBuffer(e) => write!(f, "cannot create transfer buffer: {}", e),
DetachPort(e) => write!(f, "cannot detach from port: {}", e),
SendInterrupt(e) => write!(f, "cannot send interrupter: {}", e),
SubmitTransfer => write!(f, "failed to submit transfer to backend"),
}
}
}
/// Type of usb endpoints.
#[derive(PartialEq, Clone, Copy, Debug)]
pub enum TransferDirection {
In,
Out,
Control,
}
/// Current state of xhci transfer.
pub enum XhciTransferState {
Created,
/// When transfer is submitted, it will contain a transfer callback, which should be invoked
/// when the transfer is cancelled.
Submitted {
cancel_callback: Box<dyn FnMut() + Send>,
},
Cancelling,
Cancelled,
Completed,
}
impl XhciTransferState {
/// Try to cancel this transfer, if it's possible.
pub fn try_cancel(&mut self) {
match mem::replace(self, XhciTransferState::Created) {
XhciTransferState::Submitted {
mut cancel_callback,
} => {
*self = XhciTransferState::Cancelling;
cancel_callback();
}
XhciTransferState::Cancelling => {
error!("Another cancellation is already issued.");
}
_ => {
*self = XhciTransferState::Cancelled;
}
}
}
}
/// Type of a transfer received handled by transfer ring.
pub enum XhciTransferType {
// Normal means bulk transfer or interrupt transfer, depending on endpoint type.
// See spec 4.11.2.1.
Normal(ScatterGatherBuffer),
// See usb spec for setup stage, data stage and status stage,
// see xHCI spec 4.11.2.2 for corresponding trbs.
SetupStage(UsbRequestSetup),
DataStage(ScatterGatherBuffer),
StatusStage,
// See xHCI spec 4.11.2.3.
Isochronous(ScatterGatherBuffer),
// See xHCI spec 6.4.1.4.
Noop,
}
impl XhciTransferType {
/// Analyze transfer descriptor and return transfer type.
pub fn new(mem: GuestMemory, td: TransferDescriptor) -> Result<XhciTransferType> {
// We can figure out transfer type from the first trb.
// See transfer descriptor description in xhci spec for more details.
match td[0].trb.trb_type().map_err(Error::TrbType)? {
TrbType::Normal => {
let buffer = ScatterGatherBuffer::new(mem, td).map_err(Error::CreateBuffer)?;
Ok(XhciTransferType::Normal(buffer))
}
TrbType::SetupStage => {
let trb = td[0].trb.cast::<SetupStageTrb>().map_err(Error::CastTrb)?;
Ok(XhciTransferType::SetupStage(UsbRequestSetup::new(
trb.get_request_type(),
trb.get_request(),
trb.get_value(),
trb.get_index(),
trb.get_length(),
)))
}
TrbType::DataStage => {
let buffer = ScatterGatherBuffer::new(mem, td).map_err(Error::CreateBuffer)?;
Ok(XhciTransferType::DataStage(buffer))
}
TrbType::StatusStage => Ok(XhciTransferType::StatusStage),
TrbType::Isoch => {
let buffer = ScatterGatherBuffer::new(mem, td).map_err(Error::CreateBuffer)?;
Ok(XhciTransferType::Isochronous(buffer))
}
TrbType::Noop => Ok(XhciTransferType::Noop),
t => Err(Error::BadTrbType(t)),
}
}
}
/// Xhci Transfer manager holds reference to all ongoing transfers. Can cancel them all if
/// needed.
#[derive(Clone)]
pub struct XhciTransferManager {
transfers: Arc<Mutex<Vec<Weak<Mutex<XhciTransferState>>>>>,
}
impl XhciTransferManager {
/// Create a new manager.
pub fn new() -> XhciTransferManager {
XhciTransferManager {
transfers: Arc::new(Mutex::new(Vec::new())),
}
}
/// Build a new XhciTransfer. Endpoint id is the id in xHCI device slot.
pub fn create_transfer(
&self,
mem: GuestMemory,
port: Arc<UsbPort>,
interrupter: Arc<Mutex<Interrupter>>,
slot_id: u8,
endpoint_id: u8,
transfer_trbs: TransferDescriptor,
completion_event: EventFd,
) -> XhciTransfer {
assert!(!transfer_trbs.is_empty());
let transfer_dir = {
if endpoint_id == 0 {
TransferDirection::Control
} else if (endpoint_id % 2) == 0 {
TransferDirection::Out
} else {
TransferDirection::In
}
};
let t = XhciTransfer {
manager: self.clone(),
state: Arc::new(Mutex::new(XhciTransferState::Created)),
mem,
port,
interrupter,
transfer_completion_event: completion_event,
slot_id,
endpoint_id,
transfer_dir,
transfer_trbs,
};
self.transfers.lock().push(Arc::downgrade(&t.state));
t
}
/// Cancel all current transfers.
pub fn cancel_all(&self) {
self.transfers.lock().iter().for_each(|t| {
let state = match t.upgrade() {
Some(state) => state,
None => {
error!("transfer is already cancelled or finished");
return;
}
};
state.lock().try_cancel();
});
}
fn remove_transfer(&self, t: &Arc<Mutex<XhciTransferState>>) {
let mut transfers = self.transfers.lock();
match transfers.iter().position(|wt| match wt.upgrade() {
Some(wt) => Arc::ptr_eq(&wt, t),
None => false,
}) {
None => error!("attempted to remove unknow transfer"),
Some(i) => {
transfers.swap_remove(i);
}
}
}
}
/// Xhci transfer denotes a transfer initiated by guest os driver. It will be submitted to a
/// XhciBackendDevice.
pub struct XhciTransfer {
manager: XhciTransferManager,
state: Arc<Mutex<XhciTransferState>>,
mem: GuestMemory,
port: Arc<UsbPort>,
interrupter: Arc<Mutex<Interrupter>>,
slot_id: u8,
// id of endpoint in device slot.
endpoint_id: u8,
transfer_dir: TransferDirection,
transfer_trbs: TransferDescriptor,
transfer_completion_event: EventFd,
}
impl Drop for XhciTransfer {
fn drop(&mut self) {
self.manager.remove_transfer(&self.state);
}
}
impl fmt::Debug for XhciTransfer {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(
f,
"xhci_transfer slot id: {}, endpoint id {}, transfer_dir {:?}, transfer_trbs {:?}",
self.slot_id, self.endpoint_id, self.transfer_dir, self.transfer_trbs
)
}
}
impl XhciTransfer {
/// Get state of this transfer.
pub fn state(&self) -> &Arc<Mutex<XhciTransferState>> {
&self.state
}
/// Get transfer type.
pub fn get_transfer_type(&self) -> Result<XhciTransferType> {
XhciTransferType::new(self.mem.clone(), self.transfer_trbs.clone())
}
/// Get endpoint number.
pub fn get_endpoint_number(&self) -> u8 {
// See spec 4.5.1 for dci.
self.endpoint_id / 2
}
/// get transfer direction.
pub fn get_transfer_dir(&self) -> TransferDirection {
self.transfer_dir
}
/// This functions should be invoked when transfer is completed (or failed).
pub fn on_transfer_complete(
&self,
status: &TransferStatus,
bytes_transferred: u32,
) -> Result<()> {
match status {
TransferStatus::NoDevice => {
usb_debug!("device disconnected, detaching from port");
// If the device is gone, we don't need to send transfer completion event, cause we
// are going to destroy everything related to this device anyway.
self.port.detach().map_err(Error::DetachPort)?;
return Ok(());
}
TransferStatus::Cancelled => {
// TODO(jkwang) According to the spec, we should send a stopped event here. But
// kernel driver does not do anything meaningful when it sees a stopped event.
return self
.transfer_completion_event
.write(1)
.map_err(Error::WriteCompletionEvent);
}
TransferStatus::Completed => {
self.transfer_completion_event
.write(1)
.map_err(Error::WriteCompletionEvent)?;
}
_ => {
// Transfer failed, we are not handling this correctly yet. Guest kernel might see
// short packets for in transfer and might think control transfer is successful. It
// will eventually find out device is in a wrong state.
self.transfer_completion_event
.write(1)
.map_err(Error::WriteCompletionEvent)?;
}
}
let mut edtla: u32 = 0;
// TODO(jkwang) Send event based on Status.
// As noted in xHCI spec 4.11.3.1
// Transfer Event Trb only occurs under the following conditions:
// 1. If the Interrupt On Completion flag is set.
// 2. When a short transfer occurs during the execution of a Transfer TRB and the
// Interrupter-on-Short Packet flag is set.
// 3. If an error occurs during the execution of a Transfer Trb.
for atrb in &self.transfer_trbs {
edtla += atrb.trb.transfer_length().map_err(Error::TransferLength)?;
if atrb.trb.interrupt_on_completion() {
// For details about event data trb and EDTLA, see spec 4.11.5.2.
if atrb.trb.trb_type().map_err(Error::TrbType)? == TrbType::EventData {
let tlength = min(edtla, bytes_transferred);
self.interrupter
.lock()
.send_transfer_event_trb(
TrbCompletionCode::Success,
atrb.trb
.cast::<EventDataTrb>()
.map_err(Error::CastTrb)?
.get_event_data(),
tlength,
true,
self.slot_id,
self.endpoint_id,
)
.map_err(Error::SendInterrupt)?;
} else {
// For Short Transfer details, see xHCI spec 4.10.1.1.
if edtla > bytes_transferred {
usb_debug!("on transfer complete short packet");
let residual_transfer_length = edtla - bytes_transferred;
self.interrupter
.lock()
.send_transfer_event_trb(
TrbCompletionCode::ShortPacket,
atrb.gpa,
residual_transfer_length,
true,
self.slot_id,
self.endpoint_id,
)
.map_err(Error::SendInterrupt)?;
} else {
usb_debug!("on transfer complete success");
self.interrupter
.lock()
.send_transfer_event_trb(
TrbCompletionCode::Success,
atrb.gpa,
0, // transfer length
true,
self.slot_id,
self.endpoint_id,
)
.map_err(Error::SendInterrupt)?;
}
}
}
}
Ok(())
}
/// Send this transfer to backend if it's a valid transfer.
pub fn send_to_backend_if_valid(self) -> Result<()> {
if self.validate_transfer()? {
// Backend should invoke on transfer complete when transfer is completed.
let port = self.port.clone();
let mut backend = port.get_backend_device();
match &mut *backend {
Some(backend) => backend
.submit_transfer(self)
.map_err(|_| Error::SubmitTransfer)?,
None => {
error!("backend is already disconnected");
self.transfer_completion_event
.write(1)
.map_err(Error::WriteCompletionEvent)?;
}
}
} else {
error!("invalid td on transfer ring");
self.transfer_completion_event
.write(1)
.map_err(Error::WriteCompletionEvent)?;
}
Ok(())
}
// Check each trb in the transfer descriptor for invalid or out of bounds
// parameters. Returns true iff the transfer descriptor is valid.
fn validate_transfer(&self) -> Result<bool> {
let mut valid = true;
for atrb in &self.transfer_trbs {
if !trb_is_valid(&atrb) {
self.interrupter
.lock()
.send_transfer_event_trb(
TrbCompletionCode::TrbError,
atrb.gpa,
0,
false,
self.slot_id,
self.endpoint_id,
)
.map_err(Error::SendInterrupt)?;
valid = false;
}
}
Ok(valid)
}
}
fn trb_is_valid(atrb: &AddressedTrb) -> bool {
let can_be_in_transfer_ring = match atrb.trb.can_be_in_transfer_ring() {
Ok(v) => v,
Err(e) => {
error!("unknown error {:?}", e);
return false;
}
};
can_be_in_transfer_ring && (atrb.trb.interrupter_target() < MAX_INTERRUPTER)
}
|