writer.write_payload(&self.cookie.0)?;
Ok(true)
} else {
- let is_frozen = freeze.node.owner.inner.lock().is_frozen;
+ let is_frozen = freeze.node.owner.inner.lock().is_frozen.is_fully_frozen();
if freeze.last_is_frozen == Some(is_frozen) {
return Ok(true);
}
);
return Err(EINVAL);
}
- let is_frozen = freeze.node.owner.inner.lock().is_frozen;
+ let is_frozen = freeze.node.owner.inner.lock().is_frozen.is_fully_frozen();
if freeze.is_clearing || freeze.last_is_frozen != Some(is_frozen) {
// Immediately send another FreezeMessage.
clear_msg = Some(FreezeMessage::init(alloc, cookie));
const PROC_DEFER_FLUSH: u8 = 1;
const PROC_DEFER_RELEASE: u8 = 2;
+#[derive(Copy, Clone)]
+pub(crate) enum IsFrozen {
+ Yes,
+ No,
+ InProgress,
+}
+
+impl IsFrozen {
+ /// Whether incoming transactions should be rejected due to freeze.
+ pub(crate) fn is_frozen(self) -> bool {
+ match self {
+ IsFrozen::Yes => true,
+ IsFrozen::No => false,
+ IsFrozen::InProgress => true,
+ }
+ }
+
+ /// Whether freeze notifications consider this process frozen.
+ pub(crate) fn is_fully_frozen(self) -> bool {
+ match self {
+ IsFrozen::Yes => true,
+ IsFrozen::No => false,
+ IsFrozen::InProgress => false,
+ }
+ }
+}
+
/// The fields of `Process` protected by the spinlock.
pub(crate) struct ProcessInner {
is_manager: bool,
/// are woken up.
outstanding_txns: u32,
/// Process is frozen and unable to service binder transactions.
- pub(crate) is_frozen: bool,
+ pub(crate) is_frozen: IsFrozen,
/// Process received sync transactions since last frozen.
pub(crate) sync_recv: bool,
/// Process received async transactions since last frozen.
started_thread_count: 0,
defer_work: 0,
outstanding_txns: 0,
- is_frozen: false,
+ is_frozen: IsFrozen::No,
sync_recv: false,
async_recv: false,
binderfs_file: None,
let is_manager = {
let mut inner = self.inner.lock();
inner.is_dead = true;
- inner.is_frozen = false;
+ inner.is_frozen = IsFrozen::No;
inner.sync_recv = false;
inner.async_recv = false;
inner.is_manager
return;
}
inner.outstanding_txns -= 1;
- inner.is_frozen && inner.outstanding_txns == 0
+ inner.is_frozen.is_frozen() && inner.outstanding_txns == 0
};
if wake {
let mut inner = self.inner.lock();
inner.sync_recv = false;
inner.async_recv = false;
- inner.is_frozen = false;
+ inner.is_frozen = IsFrozen::No;
drop(inner);
msgs.send_messages();
return Ok(());
let mut inner = self.inner.lock();
inner.sync_recv = false;
inner.async_recv = false;
- inner.is_frozen = true;
+ inner.is_frozen = IsFrozen::InProgress;
if info.timeout_ms > 0 {
let mut jiffies = kernel::time::msecs_to_jiffies(info.timeout_ms);
.wait_interruptible_timeout(&mut inner, jiffies)
{
CondVarTimeoutResult::Signal { .. } => {
- inner.is_frozen = false;
+ inner.is_frozen = IsFrozen::No;
return Err(ERESTARTSYS);
}
CondVarTimeoutResult::Woken { jiffies: remaining } => {
}
if inner.txns_pending_locked() {
- inner.is_frozen = false;
+ inner.is_frozen = IsFrozen::No;
Err(EAGAIN)
} else {
drop(inner);
match self.prepare_freeze_messages() {
Ok(batch) => {
+ self.inner.lock().is_frozen = IsFrozen::Yes;
batch.send_messages();
Ok(())
}
Err(kernel::alloc::AllocError) => {
- self.inner.lock().is_frozen = false;
+ self.inner.lock().is_frozen = IsFrozen::No;
Err(ENOMEM)
}
}
if oneway {
if let Some(target_node) = self.target_node.clone() {
- if process_inner.is_frozen {
+ if process_inner.is_frozen.is_frozen() {
process_inner.async_recv = true;
if self.flags & TF_UPDATE_TXN != 0 {
if let Some(t_outdated) =
}
}
- if process_inner.is_frozen {
+ if process_inner.is_frozen.is_frozen() {
return Err(BinderError::new_frozen_oneway());
} else {
return Ok(());
}
}
- if process_inner.is_frozen {
+ if process_inner.is_frozen.is_frozen() {
process_inner.sync_recv = true;
return Err(BinderError::new_frozen());
}
projects / thirdparty / linux.git / commitdiff
