shutdown better

After a frustrating search for a suitable channel to use for shutdown
(tokio::sync::Receiver and
futures::future::Shared<tokio::sync::oneshot::Receiver> didn't look
quite right) in which I rethought my life decisions, I finally just made
my own (server/base/shutdown.rs). We can easily poll it or wait for it
in async or sync contexts. Most importantly, it's convenient; not that
it really matters here, but it's also efficient.

We now do a slightly better job of propagating a "graceful" shutdown
signal, and this channel will give us tools to improve it over time.

* Shut down even when writer or syncer operations are stuck. Fixes #117
* Not done yet: streamers should instantly shut down without waiting for
  a connection attempt or frame or something. I'll probably
  implement that when removing --rtsp-library=ffmpeg. The code should be
  cleaner then.
* Not done yet: fix a couple places that sleep for up to a second when
  they could shut down immediately. I just need to do the plumbing for
  mock clocks to work.

I also implemented an immediate shutdown mode, activated by a second
signal. I think this will mitigate the streamer wait situation.
This commit is contained in:
Scott Lamb 2021-09-23 15:55:53 -07:00
parent 66f76079c0
commit b41a6c43da
21 changed files with 487 additions and 151 deletions

View File

@ -23,6 +23,13 @@ Each release is tagged in Git and on the Docker repository
reliability with old live555 versions when using TCP also.
* improve compatibility with cameras that send non-compliant SDP, including
models from Geovision and Anpviz.
* fix [#117](https://github.com/scottlamb/moonfire-nvr/issues/117): honor
* shut down requests when out of disk space, instead of retrying forever.
* shut down immediately on a second `SIGINT` or `SIGTERM`. The normal
"graceful" shutdown will still be slow in some cases, eg when waiting for a
RTSP UDP session to time out after a `TEARDOWN` failure. This allows the
impatient to get fast results with ctrl-C when running interactively, rather
than having to use `SIGKILL` from another terminal.
## `v0.6.5` (2021-08-13)

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@ -272,13 +272,10 @@ clean up the excess files. Moonfire NVR will start working again immediately.
If Moonfire NVR's own files are too large, follow this procedure:
1. Shut it down via `SIGKILL`:
1. Shut it down.
```console
$ sudo killall -KILL moonfire-nvr
$ sudo killall moonfire-nvr
```
(Be sure to use `-KILL`. It won't shut down properly on `SIGTERM` or `SIGINT`
when out of disk space due to [issue
#117](https://github.com/scottlamb/moonfire-nvr/issues/117).)
2. Reconfigure it use less disk space. See [Completing configuration through
the UI](install.md#completing-configuration-through-the-ui) in the
installation guide. Pay attention to the note about slack space.

2
server/Cargo.lock generated
View File

@ -1196,6 +1196,7 @@ name = "moonfire-base"
version = "0.0.1"
dependencies = [
"failure",
"futures",
"lazy_static",
"libc",
"log",
@ -1203,6 +1204,7 @@ dependencies = [
"parking_lot",
"serde",
"serde_json",
"slab",
"time",
]

View File

@ -55,7 +55,7 @@ smallvec = "1.0"
structopt = { version = "0.3.13", default-features = false }
sync_wrapper = "0.1.0"
time = "0.1"
tokio = { version = "1.0", features = ["macros", "parking_lot", "rt-multi-thread", "signal", "time"] }
tokio = { version = "1.0", features = ["macros", "parking_lot", "rt-multi-thread", "signal", "sync", "time"] }
tokio-stream = "0.1.5"
tokio-tungstenite = "0.15.0"
tracing = { version = "0.1", features = ["log"] }

View File

@ -14,6 +14,7 @@ path = "lib.rs"
[dependencies]
failure = "0.1.1"
futures = "0.3"
lazy_static = "1.0"
libc = "0.2"
log = "0.4"
@ -21,4 +22,5 @@ parking_lot = { version = "0.11.1", features = [] }
nom = "7.0.0"
serde = { version = "1.0", features = ["derive"] }
serde_json = "1.0"
slab = "0.4"
time = "0.1"

View File

@ -13,6 +13,8 @@ use std::thread;
use std::time::Duration as StdDuration;
use time::{Duration, Timespec};
use crate::shutdown::ShutdownError;
/// Abstract interface to the system clocks. This is for testability.
pub trait Clocks: Send + Sync + 'static {
/// Gets the current time from `CLOCK_REALTIME`.
@ -35,16 +37,21 @@ pub trait Clocks: Send + Sync + 'static {
) -> Result<T, mpsc::RecvTimeoutError>;
}
pub fn retry_forever<C, T, E>(clocks: &C, f: &mut dyn FnMut() -> Result<T, E>) -> T
pub fn retry<C, T, E>(
clocks: &C,
shutdown_rx: &crate::shutdown::Receiver,
f: &mut dyn FnMut() -> Result<T, E>,
) -> Result<T, ShutdownError>
where
C: Clocks,
E: Into<Error>,
{
loop {
let e = match f() {
Ok(t) => return t,
Ok(t) => return Ok(t),
Err(e) => e.into(),
};
shutdown_rx.check()?;
let sleep_time = Duration::seconds(1);
warn!(
"sleeping for {} after error: {}",

View File

@ -1,9 +1,10 @@
// This file is part of Moonfire NVR, a security camera network video recorder.
// Copyright (C) 2018 The Moonfire NVR Authors; see AUTHORS and LICENSE.txt.
// Copyright (C) 2021 The Moonfire NVR Authors; see AUTHORS and LICENSE.txt.
// SPDX-License-Identifier: GPL-v3.0-or-later WITH GPL-3.0-linking-exception.
pub mod clock;
mod error;
pub mod shutdown;
pub mod strutil;
pub mod time;

211
server/base/shutdown.rs Normal file
View File

@ -0,0 +1,211 @@
// This file is part of Moonfire NVR, a security camera network video recorder.
// Copyright (C) 2021 The Moonfire NVR Authors; see AUTHORS and LICENSE.txt.
// SPDX-License-Identifier: GPL-v3.0-or-later WITH GPL-3.0-linking-exception.
//! Tools for propagating a graceful shutdown signal through the program.
//!
//! The receiver can be cloned, checked and used as a future in async code.
//! Also, for convenience, blocked in synchronous code without going through the
//! runtime.
//!
//! Surprisingly, I couldn't find any simple existing mechanism for anything
//! close to this in `futures::channels` or `tokio::sync`.
use std::pin::Pin;
use std::sync::Arc;
use std::task::{Context, Poll, Waker};
use futures::Future;
use parking_lot::{Condvar, Mutex};
use slab::Slab;
#[derive(Debug)]
pub struct ShutdownError;
impl std::fmt::Display for ShutdownError {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
f.write_str("shutdown requested")
}
}
impl std::error::Error for ShutdownError {}
struct Inner {
/// `None` iff shutdown has already happened.
wakers: Mutex<Option<Slab<Waker>>>,
condvar: Condvar,
}
pub struct Sender(Arc<Inner>);
impl Drop for Sender {
fn drop(&mut self) {
// Note sequencing: modify the lock state, then notify async/sync waiters.
// The opposite order would create a race in which something might never wake.
let mut wakers = self
.0
.wakers
.lock()
.take()
.expect("only the single Sender takes the slab");
for w in wakers.drain() {
w.wake();
}
self.0.condvar.notify_all();
}
}
#[derive(Clone)]
pub struct Receiver(Arc<Inner>);
pub struct ReceiverRefFuture<'receiver> {
receiver: &'receiver Receiver,
waker_i: usize,
}
pub struct ReceiverFuture {
receiver: Arc<Inner>,
waker_i: usize,
}
/// `waker_i` value to indicate no slot has been assigned.
///
/// There can't be `usize::MAX` items in the slab because there are other things
/// in the address space (and because `Waker` uses more than one byte anyway).
const NO_WAKER: usize = usize::MAX;
impl Receiver {
pub fn check(&self) -> Result<(), ShutdownError> {
if self.0.wakers.lock().is_none() {
Err(ShutdownError)
} else {
Ok(())
}
}
pub fn as_future(&self) -> ReceiverRefFuture {
ReceiverRefFuture {
receiver: self,
waker_i: NO_WAKER,
}
}
pub fn future(&self) -> ReceiverFuture {
ReceiverFuture {
receiver: self.0.clone(),
waker_i: NO_WAKER,
}
}
pub fn into_future(self) -> ReceiverFuture {
ReceiverFuture {
receiver: self.0,
waker_i: NO_WAKER,
}
}
pub fn wait_for(&self, timeout: std::time::Duration) -> Result<(), ShutdownError> {
let mut l = self.0.wakers.lock();
if l.is_none() {
return Err(ShutdownError);
}
if self.0.condvar.wait_for(&mut l, timeout).timed_out() {
Ok(())
} else {
// parking_lot guarantees no spurious wakeups.
debug_assert!(l.is_none());
Err(ShutdownError)
}
}
}
fn poll_impl(inner: &Inner, waker_i: &mut usize, cx: &mut Context<'_>) -> Poll<()> {
let mut l = inner.wakers.lock();
let wakers = match &mut *l {
None => return Poll::Ready(()),
Some(w) => w,
};
let new_waker = cx.waker();
if *waker_i == NO_WAKER {
*waker_i = wakers.insert(new_waker.clone());
} else {
let existing_waker = &mut wakers[*waker_i];
if !new_waker.will_wake(existing_waker) {
*existing_waker = new_waker.clone();
}
}
Poll::Pending
}
impl<'receiver> Future for ReceiverRefFuture<'receiver> {
type Output = ();
fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
poll_impl(&self.receiver.0, &mut self.waker_i, cx)
}
}
impl Future for ReceiverFuture {
type Output = ();
fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
let this = Pin::into_inner(self);
poll_impl(&this.receiver, &mut this.waker_i, cx)
}
}
/// Returns a sender and receiver for graceful shutdown.
///
/// Dropping the sender will request shutdown.
///
/// The receiver can be used as a future or just polled when convenient.
pub fn channel() -> (Sender, Receiver) {
let inner = Arc::new(Inner {
wakers: Mutex::new(Some(Slab::new())),
condvar: Condvar::new(),
});
(Sender(inner.clone()), Receiver(inner))
}
#[cfg(test)]
mod tests {
use futures::Future;
use std::task::{Context, Poll};
#[test]
fn simple_check() {
let (tx, rx) = super::channel();
rx.check().unwrap();
drop(tx);
rx.check().unwrap_err();
}
#[test]
fn blocking() {
let (tx, rx) = super::channel();
rx.wait_for(std::time::Duration::from_secs(0)).unwrap();
let h = std::thread::spawn(move || {
rx.wait_for(std::time::Duration::from_secs(1000))
.unwrap_err()
});
// Make it likely that rx has done its initial check and is waiting on the Condvar.
std::thread::sleep(std::time::Duration::from_millis(10));
drop(tx);
h.join().unwrap();
}
#[test]
fn future() {
let (tx, rx) = super::channel();
let waker = futures::task::noop_waker_ref();
let mut cx = Context::from_waker(waker);
let mut f = rx.as_future();
assert_eq!(std::pin::Pin::new(&mut f).poll(&mut cx), Poll::Pending);
drop(tx);
assert_eq!(std::pin::Pin::new(&mut f).poll(&mut cx), Poll::Ready(()));
// TODO: this doesn't actually check that waker is even used.
}
}

View File

@ -51,6 +51,8 @@ pub fn init() {
pub struct TestDb<C: Clocks + Clone> {
pub db: Arc<db::Database<C>>,
pub dirs_by_stream_id: Arc<FnvHashMap<i32, Arc<dir::SampleFileDir>>>,
pub shutdown_tx: base::shutdown::Sender,
pub shutdown_rx: base::shutdown::Receiver,
pub syncer_channel: writer::SyncerChannel<::std::fs::File>,
pub syncer_join: thread::JoinHandle<()>,
pub tmpdir: TempDir,
@ -114,11 +116,14 @@ impl<C: Clocks + Clone> TestDb<C> {
}
let mut dirs_by_stream_id = FnvHashMap::default();
dirs_by_stream_id.insert(TEST_STREAM_ID, dir);
let (shutdown_tx, shutdown_rx) = base::shutdown::channel();
let (syncer_channel, syncer_join) =
writer::start_syncer(db.clone(), sample_file_dir_id).unwrap();
writer::start_syncer(db.clone(), shutdown_rx.clone(), sample_file_dir_id).unwrap();
TestDb {
db,
dirs_by_stream_id: Arc::new(dirs_by_stream_id),
shutdown_tx,
shutdown_rx,
syncer_channel,
syncer_join,
tmpdir,

View File

@ -8,6 +8,7 @@ use crate::db::{self, CompositeId};
use crate::dir;
use crate::recording::{self, MAX_RECORDING_WALL_DURATION};
use base::clock::{self, Clocks};
use base::shutdown::ShutdownError;
use failure::{bail, format_err, Error};
use fnv::FnvHashMap;
use log::{debug, trace, warn};
@ -95,6 +96,7 @@ struct Syncer<C: Clocks + Clone, D: DirWriter> {
dir: D,
db: Arc<db::Database<C>>,
planned_flushes: std::collections::BinaryHeap<PlannedFlush>,
shutdown_rx: base::shutdown::Receiver,
}
/// A plan to flush at a given instant due to a recently-saved recording's `flush_if_sec` parameter.
@ -155,13 +157,14 @@ impl Eq for PlannedFlush {}
/// TODO: add a join wrapper which arranges for the on flush hook to be removed automatically.
pub fn start_syncer<C>(
db: Arc<db::Database<C>>,
shutdown_rx: base::shutdown::Receiver,
dir_id: i32,
) -> Result<(SyncerChannel<::std::fs::File>, thread::JoinHandle<()>), Error>
where
C: Clocks + Clone,
{
let db2 = db.clone();
let (mut syncer, path) = Syncer::new(&db.lock(), db2, dir_id)?;
let (mut syncer, path) = Syncer::new(&db.lock(), shutdown_rx, db2, dir_id)?;
syncer.initial_rotation()?;
let (snd, rcv) = mpsc::channel();
db.lock().on_flush(Box::new({
@ -199,7 +202,8 @@ pub fn lower_retention(
limits: &[NewLimit],
) -> Result<(), Error> {
let db2 = db.clone();
let (mut syncer, _) = Syncer::new(&db.lock(), db2, dir_id)?;
let (_tx, rx) = base::shutdown::channel();
let (mut syncer, _) = Syncer::new(&db.lock(), rx, db2, dir_id)?;
syncer.do_rotation(|db| {
for l in limits {
let (fs_bytes_before, extra);
@ -305,6 +309,7 @@ fn list_files_to_abandon(
impl<C: Clocks + Clone> Syncer<C, Arc<dir::SampleFileDir>> {
fn new(
l: &db::LockedDatabase,
shutdown_rx: base::shutdown::Receiver,
db: Arc<db::Database<C>>,
dir_id: i32,
) -> Result<(Self, String), Error> {
@ -346,6 +351,7 @@ impl<C: Clocks + Clone> Syncer<C, Arc<dir::SampleFileDir>> {
Ok((
Syncer {
dir_id,
shutdown_rx,
dir,
db,
planned_flushes: std::collections::BinaryHeap::new(),
@ -438,8 +444,16 @@ impl<C: Clocks + Clone, D: DirWriter> Syncer<C, D> {
// Have a command; handle it.
match cmd {
SyncerCommand::AsyncSaveRecording(id, wall_dur, f) => self.save(id, wall_dur, f),
SyncerCommand::DatabaseFlushed => self.collect_garbage(),
SyncerCommand::AsyncSaveRecording(id, wall_dur, f) => {
if self.save(id, wall_dur, f).is_err() {
return false;
}
}
SyncerCommand::DatabaseFlushed => {
if self.collect_garbage().is_err() {
return false;
}
}
SyncerCommand::Flush(flush) => {
// The sender is waiting for the supplied writer to be dropped. If there's no
// timeout, do so immediately; otherwise wait for that timeout then drop it.
@ -453,7 +467,7 @@ impl<C: Clocks + Clone, D: DirWriter> Syncer<C, D> {
}
/// Collects garbage (without forcing a sync). Called from worker thread.
fn collect_garbage(&mut self) {
fn collect_garbage(&mut self) -> Result<(), ShutdownError> {
trace!("Collecting garbage");
let mut garbage: Vec<_> = {
let l = self.db.lock();
@ -461,11 +475,11 @@ impl<C: Clocks + Clone, D: DirWriter> Syncer<C, D> {
d.garbage_needs_unlink.iter().copied().collect()
};
if garbage.is_empty() {
return;
return Ok(());
}
let c = &self.db.clocks();
for &id in &garbage {
clock::retry_forever(c, &mut || {
clock::retry(c, &self.shutdown_rx, &mut || {
if let Err(e) = self.dir.unlink_file(id) {
if e == nix::Error::ENOENT {
warn!("dir: recording {} already deleted!", id);
@ -474,25 +488,33 @@ impl<C: Clocks + Clone, D: DirWriter> Syncer<C, D> {
return Err(e);
}
Ok(())
});
})?;
}
clock::retry_forever(c, &mut || self.dir.sync());
clock::retry_forever(c, &mut || {
clock::retry(c, &self.shutdown_rx, &mut || self.dir.sync())?;
clock::retry(c, &self.shutdown_rx, &mut || {
self.db.lock().delete_garbage(self.dir_id, &mut garbage)
});
})?;
Ok(())
}
/// Saves the given recording and prompts rotation. Called from worker thread.
/// Note that this doesn't flush immediately; SQLite transactions are batched to lower SSD
/// wear. On the next flush, the old recordings will actually be marked as garbage in the
/// database, and shortly afterward actually deleted from disk.
fn save(&mut self, id: CompositeId, wall_duration: recording::Duration, f: D::File) {
fn save(
&mut self,
id: CompositeId,
wall_duration: recording::Duration,
f: D::File,
) -> Result<(), ShutdownError> {
trace!("Processing save for {}", id);
let stream_id = id.stream();
// Free up a like number of bytes.
clock::retry_forever(&self.db.clocks(), &mut || f.sync_all());
clock::retry_forever(&self.db.clocks(), &mut || self.dir.sync());
clock::retry(&self.db.clocks(), &self.shutdown_rx, &mut || f.sync_all())?;
clock::retry(&self.db.clocks(), &self.shutdown_rx, &mut || {
self.dir.sync()
})?;
let mut db = self.db.lock();
db.mark_synced(id).unwrap();
delete_recordings(&mut db, stream_id, 0).unwrap();
@ -518,6 +540,7 @@ impl<C: Clocks + Clone, D: DirWriter> Syncer<C, D> {
recording: id,
senders: Vec::new(),
});
Ok(())
}
/// Flushes the database if necessary to honor `flush_if_sec` for some recording.
@ -612,8 +635,8 @@ struct InnerWriter<F: FileWriter> {
hasher: blake3::Hasher,
/// The start time of this segment, based solely on examining the local clock after frames in
/// this segment were received. Frames can suffer from various kinds of delay (initial
/// The start time of this recording, based solely on examining the local clock after frames in
/// this recording were received. Frames can suffer from various kinds of delay (initial
/// buffering, encoding, and network transmission), so this time is set to far in the future on
/// construction, given a real value on the first packet, and decreased as less-delayed packets
/// are discovered. See design/time.md for details.
@ -625,7 +648,8 @@ struct InnerWriter<F: FileWriter> {
/// the writer is closed cleanly (the caller supplies the next pts), or when the writer is
/// closed uncleanly (with a zero duration, which the `.mp4` format allows only at the end).
///
/// Invariant: this should always be `Some` (briefly violated during `write` call only).
/// `unindexed_sample` should always be `Some`, except when a `write` call has aborted on
/// shutdown. In that case, the close will be unable to write the full segment.
unindexed_sample: Option<UnindexedSample>,
}
@ -670,7 +694,7 @@ impl<'a, C: Clocks + Clone, D: DirWriter> Writer<'a, C, D> {
/// On successful return, `self.state` will be `WriterState::Open(w)` with `w` violating the
/// invariant that `unindexed_sample` is `Some`. The caller (`write`) is responsible for
/// correcting this.
fn open(&mut self) -> Result<(), Error> {
fn open(&mut self, shutdown_rx: &mut base::shutdown::Receiver) -> Result<(), Error> {
let prev = match self.state {
WriterState::Unopened => None,
WriterState::Open(_) => return Ok(()),
@ -688,7 +712,9 @@ impl<'a, C: Clocks + Clone, D: DirWriter> Writer<'a, C, D> {
..Default::default()
},
)?;
let f = clock::retry_forever(&self.db.clocks(), &mut || self.dir.create_file(id));
let f = clock::retry(&self.db.clocks(), shutdown_rx, &mut || {
self.dir.create_file(id)
})?;
self.state = WriterState::Open(InnerWriter {
f,
@ -710,16 +736,17 @@ impl<'a, C: Clocks + Clone, D: DirWriter> Writer<'a, C, D> {
})
}
/// Writes a new frame to this segment.
/// Writes a new frame to this recording.
/// `local_time` should be the local clock's time as of when this packet was received.
pub fn write(
&mut self,
shutdown_rx: &mut base::shutdown::Receiver,
pkt: &[u8],
local_time: recording::Time,
pts_90k: i64,
is_key: bool,
) -> Result<(), Error> {
self.open()?;
self.open(shutdown_rx)?;
let w = match self.state {
WriterState::Open(ref mut w) => w,
_ => unreachable!(),
@ -763,7 +790,18 @@ impl<'a, C: Clocks + Clone, D: DirWriter> Writer<'a, C, D> {
}
let mut remaining = pkt;
while !remaining.is_empty() {
let written = clock::retry_forever(&self.db.clocks(), &mut || w.f.write(remaining));
let written =
match clock::retry(&self.db.clocks(), shutdown_rx, &mut || w.f.write(remaining)) {
Ok(w) => w,
Err(e) => {
// close() will do nothing because unindexed_sample will be None.
log::warn!(
"Abandoning incompletely written recording {} on shutdown",
w.id
);
return Err(e.into());
}
};
remaining = &remaining[written..];
}
w.unindexed_sample = Some(UnindexedSample {
@ -855,10 +893,12 @@ impl<F: FileWriter> InnerWriter<F> {
db: &db::Database<C>,
stream_id: i32,
) -> Result<PreviousWriter, Error> {
let unindexed = self
.unindexed_sample
.take()
.expect("should always be an unindexed sample");
let unindexed = self.unindexed_sample.take().ok_or_else(|| {
format_err!(
"Unable to add recording {} to database due to aborted write",
self.id
)
})?;
let (last_sample_duration, flags) = match next_pts {
None => (0, db::RecordingFlags::TrailingZero as i32),
Some(p) => (i32::try_from(p - unindexed.pts_90k)?, 0),
@ -1050,8 +1090,10 @@ mod tests {
_tmpdir: ::tempfile::TempDir,
dir: MockDir,
channel: super::SyncerChannel<MockFile>,
_shutdown_tx: base::shutdown::Sender,
shutdown_rx: base::shutdown::Receiver,
syncer: super::Syncer<SimulatedClocks, MockDir>,
syncer_rcv: mpsc::Receiver<super::SyncerCommand<MockFile>>,
syncer_rx: mpsc::Receiver<super::SyncerCommand<MockFile>>,
}
fn new_harness(flush_if_sec: i64) -> Harness {
@ -1072,6 +1114,7 @@ mod tests {
// Start a mock syncer.
let dir = MockDir::new();
let (shutdown_tx, shutdown_rx) = base::shutdown::channel();
let syncer = super::Syncer {
dir_id: *tdb
.db
@ -1083,10 +1126,11 @@ mod tests {
dir: dir.clone(),
db: tdb.db.clone(),
planned_flushes: std::collections::BinaryHeap::new(),
shutdown_rx: shutdown_rx.clone(),
};
let (syncer_snd, syncer_rcv) = mpsc::channel();
let (syncer_tx, syncer_rx) = mpsc::channel();
tdb.db.lock().on_flush(Box::new({
let snd = syncer_snd.clone();
let snd = syncer_tx.clone();
move || {
if let Err(e) = snd.send(super::SyncerCommand::DatabaseFlushed) {
warn!("Unable to notify syncer for dir {} of flush: {}", dir_id, e);
@ -1098,9 +1142,11 @@ mod tests {
dir,
db: tdb.db,
_tmpdir: tdb.tmpdir,
channel: super::SyncerChannel(syncer_snd),
channel: super::SyncerChannel(syncer_tx),
_shutdown_tx: shutdown_tx,
shutdown_rx,
syncer,
syncer_rcv,
syncer_rx,
}
}
@ -1144,19 +1190,26 @@ mod tests {
));
f.expect(MockFileAction::Write(Box::new(|_| Ok(1))));
f.expect(MockFileAction::SyncAll(Box::new(|| Ok(()))));
w.write(b"1", recording::Time(1), 0, true).unwrap();
w.write(&mut h.shutdown_rx, b"1", recording::Time(1), 0, true)
.unwrap();
let e = w
.write(b"2", recording::Time(2), i32::max_value() as i64 + 1, true)
.write(
&mut h.shutdown_rx,
b"2",
recording::Time(2),
i32::max_value() as i64 + 1,
true,
)
.unwrap_err();
assert!(e.to_string().contains("excessive pts jump"));
h.dir.expect(MockDirAction::Sync(Box::new(|| Ok(()))));
drop(w);
assert!(h.syncer.iter(&h.syncer_rcv)); // AsyncSave
assert!(h.syncer.iter(&h.syncer_rx)); // AsyncSave
assert_eq!(h.syncer.planned_flushes.len(), 1);
assert!(h.syncer.iter(&h.syncer_rcv)); // planned flush
assert!(h.syncer.iter(&h.syncer_rx)); // planned flush
assert_eq!(h.syncer.planned_flushes.len(), 0);
assert!(h.syncer.iter(&h.syncer_rcv)); // DatabaseFlushed
assert!(h.syncer.iter(&h.syncer_rx)); // DatabaseFlushed
f.ensure_done();
h.dir.ensure_done();
}
@ -1206,14 +1259,15 @@ mod tests {
Ok(3)
})));
f.expect(MockFileAction::SyncAll(Box::new(|| Ok(()))));
w.write(b"123", recording::Time(2), 0, true).unwrap();
w.write(&mut h.shutdown_rx, b"123", recording::Time(2), 0, true)
.unwrap();
h.dir.expect(MockDirAction::Sync(Box::new(|| Ok(()))));
w.close(Some(1)).unwrap();
assert!(h.syncer.iter(&h.syncer_rcv)); // AsyncSave
assert!(h.syncer.iter(&h.syncer_rx)); // AsyncSave
assert_eq!(h.syncer.planned_flushes.len(), 1);
assert!(h.syncer.iter(&h.syncer_rcv)); // planned flush
assert!(h.syncer.iter(&h.syncer_rx)); // planned flush
assert_eq!(h.syncer.planned_flushes.len(), 0);
assert!(h.syncer.iter(&h.syncer_rcv)); // DatabaseFlushed
assert!(h.syncer.iter(&h.syncer_rx)); // DatabaseFlushed
f.ensure_done();
h.dir.ensure_done();
@ -1231,7 +1285,8 @@ mod tests {
Ok(1)
})));
f.expect(MockFileAction::SyncAll(Box::new(|| Ok(()))));
w.write(b"4", recording::Time(3), 1, true).unwrap();
w.write(&mut h.shutdown_rx, b"4", recording::Time(3), 1, true)
.unwrap();
h.dir.expect(MockDirAction::Sync(Box::new(|| Ok(()))));
h.dir.expect(MockDirAction::Unlink(
CompositeId::new(1, 0),
@ -1252,15 +1307,15 @@ mod tests {
drop(w);
trace!("expecting AsyncSave");
assert!(h.syncer.iter(&h.syncer_rcv)); // AsyncSave
assert!(h.syncer.iter(&h.syncer_rx)); // AsyncSave
assert_eq!(h.syncer.planned_flushes.len(), 1);
trace!("expecting planned flush");
assert!(h.syncer.iter(&h.syncer_rcv)); // planned flush
assert!(h.syncer.iter(&h.syncer_rx)); // planned flush
assert_eq!(h.syncer.planned_flushes.len(), 0);
trace!("expecting DatabaseFlushed");
assert!(h.syncer.iter(&h.syncer_rcv)); // DatabaseFlushed
assert!(h.syncer.iter(&h.syncer_rx)); // DatabaseFlushed
trace!("expecting DatabaseFlushed again");
assert!(h.syncer.iter(&h.syncer_rcv)); // DatabaseFlushed again
assert!(h.syncer.iter(&h.syncer_rx)); // DatabaseFlushed again
f.ensure_done();
h.dir.ensure_done();
@ -1277,13 +1332,13 @@ mod tests {
}
assert_eq!(h.syncer.planned_flushes.len(), 0);
assert!(h.syncer.iter(&h.syncer_rcv)); // DatabaseFlushed
assert!(h.syncer.iter(&h.syncer_rx)); // DatabaseFlushed
// The syncer should shut down cleanly.
drop(h.channel);
h.db.lock().clear_on_flush();
assert_eq!(
h.syncer_rcv.try_recv().err(),
h.syncer_rx.try_recv().err(),
Some(std::sync::mpsc::TryRecvError::Disconnected)
);
assert!(h.syncer.planned_flushes.is_empty());
@ -1341,16 +1396,17 @@ mod tests {
})));
f.expect(MockFileAction::SyncAll(Box::new(|| Err(eio()))));
f.expect(MockFileAction::SyncAll(Box::new(|| Ok(()))));
w.write(b"1234", recording::Time(1), 0, true).unwrap();
w.write(&mut h.shutdown_rx, b"1234", recording::Time(1), 0, true)
.unwrap();
h.dir
.expect(MockDirAction::Sync(Box::new(|| Err(nix::Error::EIO))));
h.dir.expect(MockDirAction::Sync(Box::new(|| Ok(()))));
drop(w);
assert!(h.syncer.iter(&h.syncer_rcv)); // AsyncSave
assert!(h.syncer.iter(&h.syncer_rx)); // AsyncSave
assert_eq!(h.syncer.planned_flushes.len(), 1);
assert!(h.syncer.iter(&h.syncer_rcv)); // planned flush
assert!(h.syncer.iter(&h.syncer_rx)); // planned flush
assert_eq!(h.syncer.planned_flushes.len(), 0);
assert!(h.syncer.iter(&h.syncer_rcv)); // DatabaseFlushed
assert!(h.syncer.iter(&h.syncer_rx)); // DatabaseFlushed
f.ensure_done();
h.dir.ensure_done();
@ -1365,7 +1421,7 @@ mod tests {
drop(h.channel);
h.db.lock().clear_on_flush();
assert_eq!(
h.syncer_rcv.try_recv().err(),
h.syncer_rx.try_recv().err(),
Some(std::sync::mpsc::TryRecvError::Disconnected)
);
assert!(h.syncer.planned_flushes.is_empty());
@ -1415,15 +1471,16 @@ mod tests {
Ok(3)
})));
f.expect(MockFileAction::SyncAll(Box::new(|| Ok(()))));
w.write(b"123", recording::Time(2), 0, true).unwrap();
w.write(&mut h.shutdown_rx, b"123", recording::Time(2), 0, true)
.unwrap();
h.dir.expect(MockDirAction::Sync(Box::new(|| Ok(()))));
w.close(Some(1)).unwrap();
assert!(h.syncer.iter(&h.syncer_rcv)); // AsyncSave
assert!(h.syncer.iter(&h.syncer_rx)); // AsyncSave
assert_eq!(h.syncer.planned_flushes.len(), 1);
assert!(h.syncer.iter(&h.syncer_rcv)); // planned flush
assert!(h.syncer.iter(&h.syncer_rx)); // planned flush
assert_eq!(h.syncer.planned_flushes.len(), 0);
assert!(h.syncer.iter(&h.syncer_rcv)); // DatabaseFlushed
assert!(h.syncer.iter(&h.syncer_rx)); // DatabaseFlushed
f.ensure_done();
h.dir.ensure_done();
@ -1441,7 +1498,8 @@ mod tests {
Ok(1)
})));
f.expect(MockFileAction::SyncAll(Box::new(|| Ok(()))));
w.write(b"4", recording::Time(3), 1, true).unwrap();
w.write(&mut h.shutdown_rx, b"4", recording::Time(3), 1, true)
.unwrap();
h.dir.expect(MockDirAction::Sync(Box::new(|| Ok(()))));
h.dir.expect(MockDirAction::Unlink(
CompositeId::new(1, 0),
@ -1473,11 +1531,11 @@ mod tests {
drop(w);
assert!(h.syncer.iter(&h.syncer_rcv)); // AsyncSave
assert!(h.syncer.iter(&h.syncer_rx)); // AsyncSave
assert_eq!(h.syncer.planned_flushes.len(), 1);
assert!(h.syncer.iter(&h.syncer_rcv)); // planned flush
assert!(h.syncer.iter(&h.syncer_rx)); // planned flush
assert_eq!(h.syncer.planned_flushes.len(), 0);
assert!(h.syncer.iter(&h.syncer_rcv)); // DatabaseFlushed
assert!(h.syncer.iter(&h.syncer_rx)); // DatabaseFlushed
f.ensure_done();
h.dir.ensure_done();
@ -1493,13 +1551,13 @@ mod tests {
assert!(dir.garbage_unlinked.is_empty());
}
assert!(h.syncer.iter(&h.syncer_rcv)); // DatabaseFlushed
assert!(h.syncer.iter(&h.syncer_rx)); // DatabaseFlushed
// The syncer should shut down cleanly.
drop(h.channel);
h.db.lock().clear_on_flush();
assert_eq!(
h.syncer_rcv.try_recv().err(),
h.syncer_rx.try_recv().err(),
Some(std::sync::mpsc::TryRecvError::Disconnected)
);
assert!(h.syncer.planned_flushes.is_empty());
@ -1546,6 +1604,7 @@ mod tests {
})));
f1.expect(MockFileAction::SyncAll(Box::new(|| Ok(()))));
w.write(
&mut h.shutdown_rx,
b"123",
recording::Time(recording::TIME_UNITS_PER_SEC),
0,
@ -1555,12 +1614,12 @@ mod tests {
h.dir.expect(MockDirAction::Sync(Box::new(|| Ok(()))));
drop(w);
assert!(h.syncer.iter(&h.syncer_rcv)); // AsyncSave
assert!(h.syncer.iter(&h.syncer_rx)); // AsyncSave
assert_eq!(h.syncer.planned_flushes.len(), 1);
// Flush and let 30 seconds go by.
h.db.lock().flush("forced").unwrap();
assert!(h.syncer.iter(&h.syncer_rcv)); // DatabaseFlushed
assert!(h.syncer.iter(&h.syncer_rx)); // DatabaseFlushed
assert_eq!(h.syncer.planned_flushes.len(), 1);
h.db.clocks().sleep(time::Duration::seconds(30));
@ -1586,6 +1645,7 @@ mod tests {
})));
f2.expect(MockFileAction::SyncAll(Box::new(|| Ok(()))));
w.write(
&mut h.shutdown_rx,
b"4",
recording::Time(31 * recording::TIME_UNITS_PER_SEC),
1,
@ -1596,21 +1656,21 @@ mod tests {
drop(w);
assert!(h.syncer.iter(&h.syncer_rcv)); // AsyncSave
assert!(h.syncer.iter(&h.syncer_rx)); // AsyncSave
assert_eq!(h.syncer.planned_flushes.len(), 2);
assert_eq!(h.syncer.planned_flushes.len(), 2);
let db_flush_count_before = h.db.lock().flushes();
assert_eq!(h.db.clocks().monotonic(), time::Timespec::new(31, 0));
assert!(h.syncer.iter(&h.syncer_rcv)); // planned flush (no-op)
assert!(h.syncer.iter(&h.syncer_rx)); // planned flush (no-op)
assert_eq!(h.db.clocks().monotonic(), time::Timespec::new(61, 0));
assert_eq!(h.db.lock().flushes(), db_flush_count_before);
assert_eq!(h.syncer.planned_flushes.len(), 1);
assert!(h.syncer.iter(&h.syncer_rcv)); // planned flush
assert!(h.syncer.iter(&h.syncer_rx)); // planned flush
assert_eq!(h.db.clocks().monotonic(), time::Timespec::new(91, 0));
assert_eq!(h.db.lock().flushes(), db_flush_count_before + 1);
assert_eq!(h.syncer.planned_flushes.len(), 0);
assert!(h.syncer.iter(&h.syncer_rcv)); // DatabaseFlushed
assert!(h.syncer.iter(&h.syncer_rx)); // DatabaseFlushed
f1.ensure_done();
f2.ensure_done();
@ -1620,7 +1680,7 @@ mod tests {
drop(h.channel);
h.db.lock().clear_on_flush();
assert_eq!(
h.syncer_rcv.try_recv().err(),
h.syncer_rx.try_recv().err(),
Some(std::sync::mpsc::TryRecvError::Disconnected)
);
assert!(h.syncer.planned_flushes.is_empty());

View File

@ -46,7 +46,7 @@ pub struct Args {
trash_corrupt_rows: bool,
}
pub fn run(args: &Args) -> Result<i32, Error> {
pub fn run(args: Args) -> Result<i32, Error> {
let (_db_dir, mut conn) = super::open_conn(&args.db_dir, super::OpenMode::ReadWrite)?;
check::run(
&mut conn,

View File

@ -31,7 +31,7 @@ pub struct Args {
db_dir: PathBuf,
}
pub fn run(args: &Args) -> Result<i32, Error> {
pub fn run(args: Args) -> Result<i32, Error> {
let (_db_dir, conn) = super::open_conn(&args.db_dir, super::OpenMode::ReadWrite)?;
let clocks = clock::RealClocks {};
let db = Arc::new(db::Database::new(clocks, conn, true)?);

View File

@ -19,7 +19,7 @@ pub struct Args {
db_dir: PathBuf,
}
pub fn run(args: &Args) -> Result<i32, Error> {
pub fn run(args: Args) -> Result<i32, Error> {
let (_db_dir, mut conn) = super::open_conn(&args.db_dir, super::OpenMode::Create)?;
// Check if the database has already been initialized.

View File

@ -53,7 +53,7 @@ pub struct Args {
username: String,
}
pub fn run(args: &Args) -> Result<i32, Error> {
pub fn run(args: Args) -> Result<i32, Error> {
let clocks = clock::RealClocks {};
let (_db_dir, conn) = super::open_conn(&args.db_dir, super::OpenMode::ReadWrite)?;
let db = std::sync::Arc::new(db::Database::new(clocks, conn, true).unwrap());

View File

@ -8,12 +8,10 @@ use base::clock;
use db::{dir, writer};
use failure::{bail, Error, ResultExt};
use fnv::FnvHashMap;
use futures::future::FutureExt;
use hyper::service::{make_service_fn, service_fn};
use log::error;
use log::{info, warn};
use std::path::PathBuf;
use std::sync::atomic::{AtomicBool, Ordering};
use std::sync::Arc;
use std::thread;
use structopt::StructOpt;
@ -171,16 +169,55 @@ struct Syncer {
join: thread::JoinHandle<()>,
}
pub fn run(args: &Args) -> Result<i32, Error> {
pub fn run(args: Args) -> Result<i32, Error> {
let mut builder = tokio::runtime::Builder::new_multi_thread();
builder.enable_all();
if let Some(worker_threads) = args.worker_threads {
builder.worker_threads(worker_threads);
}
builder.build().unwrap().block_on(async_run(args))
let rt = builder.build()?;
let r = rt.block_on(async_run(args));
// tokio normally waits for all spawned tasks to complete, but:
// * in the graceful shutdown path, we wait for specific tasks with logging.
// * in the immediate shutdown path, we don't want to wait.
rt.shutdown_background();
r
}
async fn async_run(args: &Args) -> Result<i32, Error> {
async fn async_run(args: Args) -> Result<i32, Error> {
let (shutdown_tx, shutdown_rx) = base::shutdown::channel();
let mut shutdown_tx = Some(shutdown_tx);
tokio::pin! {
let int = signal(SignalKind::interrupt())?;
let term = signal(SignalKind::terminate())?;
let inner = inner(args, shutdown_rx);
}
tokio::select! {
_ = int.recv() => {
info!("Received SIGINT; shutting down gracefully. \
Send another SIGINT or SIGTERM to shut down immediately.");
shutdown_tx.take();
},
_ = term.recv() => {
info!("Received SIGTERM; shutting down gracefully. \
Send another SIGINT or SIGTERM to shut down immediately.");
shutdown_tx.take();
},
result = &mut inner => return result,
}
tokio::select! {
_ = int.recv() => bail!("immediate shutdown due to second signal (SIGINT)"),
_ = term.recv() => bail!("immediate shutdown due to second singal (SIGTERM)"),
result = &mut inner => result,
}
}
async fn inner(args: Args, shutdown_rx: base::shutdown::Receiver) -> Result<i32, Error> {
let clocks = clock::RealClocks {};
let (_db_dir, conn) = super::open_conn(
&args.db_dir,
@ -215,7 +252,6 @@ async fn async_run(args: &Args) -> Result<i32, Error> {
})?);
// Start a streamer for each stream.
let shutdown_streamers = Arc::new(AtomicBool::new(false));
let mut streamers = Vec::new();
let mut session_groups_by_camera: FnvHashMap<i32, Arc<retina::client::SessionGroup>> =
FnvHashMap::default();
@ -230,7 +266,7 @@ async fn async_run(args: &Args) -> Result<i32, Error> {
db: &db,
opener: args.rtsp_library.opener(),
transport: args.rtsp_transport,
shutdown: &shutdown_streamers,
shutdown_rx: &shutdown_rx,
};
// Get the directories that need syncers.
@ -248,7 +284,7 @@ async fn async_run(args: &Args) -> Result<i32, Error> {
drop(l);
let mut syncers = FnvHashMap::with_capacity_and_hasher(dirs.len(), Default::default());
for (id, dir) in dirs.drain() {
let (channel, join) = writer::start_syncer(db.clone(), id)?;
let (channel, join) = writer::start_syncer(db.clone(), shutdown_rx.clone(), id)?;
syncers.insert(id, Syncer { dir, channel, join });
}
@ -319,25 +355,19 @@ async fn async_run(args: &Args) -> Result<i32, Error> {
.with_context(|_| format!("unable to bind --http-addr={}", &args.http_addr))?
.tcp_nodelay(true)
.serve(make_svc);
let mut int = signal(SignalKind::interrupt())?;
let mut term = signal(SignalKind::terminate())?;
let shutdown = futures::future::select(Box::pin(int.recv()), Box::pin(term.recv()));
let (shutdown_tx, shutdown_rx) = futures::channel::oneshot::channel();
let server = server.with_graceful_shutdown(shutdown_rx.map(|_| ()));
let server = server.with_graceful_shutdown(shutdown_rx.future());
let server_handle = tokio::spawn(server);
info!("Ready to serve HTTP requests");
shutdown.await;
shutdown_tx.send(()).unwrap();
let _ = shutdown_rx.as_future().await;
info!("Shutting down streamers.");
shutdown_streamers.store(true, Ordering::SeqCst);
info!("Shutting down streamers and syncers.");
tokio::task::spawn_blocking({
let db = db.clone();
move || {
for streamer in streamers.drain(..) {
streamer.join().unwrap();
}
if let Some(mut ss) = syncers {
// The syncers shut down when all channels to them have been dropped.
// The database maintains one; and `ss` holds one. Drop both.
@ -347,6 +377,9 @@ async fn async_run(args: &Args) -> Result<i32, Error> {
s.join.join().unwrap();
}
}
}
})
.await?;
db.lock().clear_watches();

View File

@ -37,7 +37,7 @@ pub struct Args {
arg: Vec<OsString>,
}
pub fn run(args: &Args) -> Result<i32, Error> {
pub fn run(args: Args) -> Result<i32, Error> {
let mode = if args.read_only {
OpenMode::ReadOnly
} else {

View File

@ -17,7 +17,7 @@ pub struct Args {
timestamps: Vec<String>,
}
pub fn run(args: &Args) -> Result<i32, Error> {
pub fn run(args: Args) -> Result<i32, Error> {
for timestamp in &args.timestamps {
let t = db::recording::Time::parse(timestamp)?;
println!("{} == {}", t, t.0);

View File

@ -40,7 +40,7 @@ pub struct Args {
no_vacuum: bool,
}
pub fn run(args: &Args) -> Result<i32, Error> {
pub fn run(args: Args) -> Result<i32, Error> {
let (_db_dir, mut conn) = super::open_conn(&args.db_dir, super::OpenMode::ReadWrite)?;
db::upgrade::run(

View File

@ -59,16 +59,16 @@ enum Args {
}
impl Args {
fn run(&self) -> Result<i32, failure::Error> {
fn run(self) -> Result<i32, failure::Error> {
match self {
Args::Check(ref a) => cmds::check::run(a),
Args::Config(ref a) => cmds::config::run(a),
Args::Init(ref a) => cmds::init::run(a),
Args::Login(ref a) => cmds::login::run(a),
Args::Run(ref a) => cmds::run::run(a),
Args::Sql(ref a) => cmds::sql::run(a),
Args::Ts(ref a) => cmds::ts::run(a),
Args::Upgrade(ref a) => cmds::upgrade::run(a),
Args::Check(a) => cmds::check::run(a),
Args::Config(a) => cmds::config::run(a),
Args::Init(a) => cmds::init::run(a),
Args::Login(a) => cmds::login::run(a),
Args::Run(a) => cmds::run::run(a),
Args::Sql(a) => cmds::sql::run(a),
Args::Ts(a) => cmds::ts::run(a),
Args::Upgrade(a) => cmds::upgrade::run(a),
}
}
}

View File

@ -2277,7 +2277,7 @@ mod tests {
}
}
fn copy_mp4_to_db(db: &TestDb<RealClocks>) {
fn copy_mp4_to_db(db: &mut TestDb<RealClocks>) {
let (extra_data, mut input) = stream::FFMPEG
.open(
"test".to_owned(),
@ -2322,7 +2322,13 @@ mod tests {
};
frame_time += recording::Duration(i64::from(pkt.duration));
output
.write(pkt.data, frame_time, pkt.pts, pkt.is_key)
.write(
&mut db.shutdown_rx,
pkt.data,
frame_time,
pkt.pts,
pkt.is_key,
)
.unwrap();
end_pts = Some(pkt.pts + i64::from(pkt.duration));
}
@ -2811,8 +2817,8 @@ mod tests {
#[tokio::test]
async fn test_round_trip() {
testutil::init();
let db = TestDb::new(RealClocks {});
copy_mp4_to_db(&db);
let mut db = TestDb::new(RealClocks {});
copy_mp4_to_db(&mut db);
let mp4 = create_mp4_from_db(&db, 0, 0, false);
traverse(mp4.clone()).await;
let new_filename = write_mp4(&mp4, db.tmpdir.path()).await;
@ -2840,8 +2846,8 @@ mod tests {
#[tokio::test]
async fn test_round_trip_with_subtitles() {
testutil::init();
let db = TestDb::new(RealClocks {});
copy_mp4_to_db(&db);
let mut db = TestDb::new(RealClocks {});
copy_mp4_to_db(&mut db);
let mp4 = create_mp4_from_db(&db, 0, 0, true);
traverse(mp4.clone()).await;
let new_filename = write_mp4(&mp4, db.tmpdir.path()).await;
@ -2869,8 +2875,8 @@ mod tests {
#[tokio::test]
async fn test_round_trip_with_edit_list() {
testutil::init();
let db = TestDb::new(RealClocks {});
copy_mp4_to_db(&db);
let mut db = TestDb::new(RealClocks {});
copy_mp4_to_db(&mut db);
let mp4 = create_mp4_from_db(&db, 1, 0, false);
traverse(mp4.clone()).await;
let new_filename = write_mp4(&mp4, db.tmpdir.path()).await;
@ -2898,8 +2904,8 @@ mod tests {
#[tokio::test]
async fn test_round_trip_with_edit_list_and_subtitles() {
testutil::init();
let db = TestDb::new(RealClocks {});
copy_mp4_to_db(&db);
let mut db = TestDb::new(RealClocks {});
copy_mp4_to_db(&mut db);
let off = 2 * TIME_UNITS_PER_SEC;
let mp4 = create_mp4_from_db(&db, i32::try_from(off).unwrap(), 0, true);
traverse(mp4.clone()).await;
@ -2928,8 +2934,8 @@ mod tests {
#[tokio::test]
async fn test_round_trip_with_shorten() {
testutil::init();
let db = TestDb::new(RealClocks {});
copy_mp4_to_db(&db);
let mut db = TestDb::new(RealClocks {});
copy_mp4_to_db(&mut db);
let mp4 = create_mp4_from_db(&db, 0, 1, false);
traverse(mp4.clone()).await;
let new_filename = write_mp4(&mp4, db.tmpdir.path()).await;

View File

@ -8,7 +8,6 @@ use db::{dir, recording, writer, Camera, Database, Stream};
use failure::{bail, Error};
use log::{debug, info, trace, warn};
use std::result::Result;
use std::sync::atomic::{AtomicBool, Ordering};
use std::sync::Arc;
use url::Url;
@ -22,7 +21,7 @@ where
pub opener: &'a dyn stream::Opener,
pub transport: retina::client::Transport,
pub db: &'tmp Arc<Database<C>>,
pub shutdown: &'tmp Arc<AtomicBool>,
pub shutdown_rx: &'tmp base::shutdown::Receiver,
}
/// Connects to a given RTSP stream and writes recordings to the database via [`writer::Writer`].
@ -31,7 +30,7 @@ pub struct Streamer<'a, C>
where
C: Clocks + Clone,
{
shutdown: Arc<AtomicBool>,
shutdown_rx: base::shutdown::Receiver,
// State below is only used by the thread in Run.
rotate_offset_sec: i64,
@ -69,7 +68,7 @@ where
bail!("RTSP URL shouldn't include credentials");
}
Ok(Streamer {
shutdown: env.shutdown.clone(),
shutdown_rx: env.shutdown_rx.clone(),
rotate_offset_sec,
rotate_interval_sec,
db: env.db.clone(),
@ -94,7 +93,7 @@ where
/// Note that when using Retina as the RTSP library, this must be called
/// within a tokio runtime context; see [tokio::runtime::Handle].
pub fn run(&mut self) {
while !self.shutdown.load(Ordering::SeqCst) {
while self.shutdown_rx.check().is_ok() {
if let Err(e) = self.run_once() {
let sleep_time = time::Duration::seconds(1);
warn!(
@ -124,7 +123,7 @@ where
d,
status.num_sessions
);
std::thread::sleep(d);
self.shutdown_rx.wait_for(d)?;
waited = true;
}
} else {
@ -164,7 +163,7 @@ where
self.stream_id,
video_sample_entry_id,
);
while !self.shutdown.load(Ordering::SeqCst) {
while self.shutdown_rx.check().is_ok() {
let pkt = {
let _t = TimerGuard::new(&clocks, || "getting next packet");
stream.next()?
@ -214,7 +213,13 @@ where
}
};
let _t = TimerGuard::new(&clocks, || format!("writing {} bytes", pkt.data.len()));
w.write(pkt.data, local_time, pkt.pts, pkt.is_key)?;
w.write(
&mut self.shutdown_rx,
pkt.data,
local_time,
pkt.pts,
pkt.is_key,
)?;
rotate = Some(r);
}
if rotate.is_some() {
@ -236,7 +241,6 @@ mod tests {
use parking_lot::Mutex;
use std::cmp;
use std::convert::TryFrom;
use std::sync::atomic::{AtomicBool, Ordering};
use std::sync::Arc;
use time;
@ -312,7 +316,7 @@ mod tests {
struct MockOpener {
expected_url: url::Url,
streams: Mutex<Vec<(h264::ExtraData, Box<dyn stream::Stream>)>>,
shutdown: Arc<AtomicBool>,
shutdown_tx: Mutex<Option<base::shutdown::Sender>>,
}
impl stream::Opener for MockOpener {
@ -333,7 +337,7 @@ mod tests {
}
None => {
trace!("MockOpener shutting down");
self.shutdown.store(true, Ordering::SeqCst);
self.shutdown_tx.lock().take();
bail!("done")
}
}
@ -380,16 +384,17 @@ mod tests {
stream.ts_offset = 123456; // starting pts of the input should be irrelevant
stream.ts_offset_pkts_left = u32::max_value();
stream.pkts_left = u32::max_value();
let (shutdown_tx, shutdown_rx) = base::shutdown::channel();
let opener = MockOpener {
expected_url: url::Url::parse("rtsp://test-camera/main").unwrap(),
streams: Mutex::new(vec![(extra_data, Box::new(stream))]),
shutdown: Arc::new(AtomicBool::new(false)),
shutdown_tx: Mutex::new(Some(shutdown_tx)),
};
let db = testutil::TestDb::new(clocks.clone());
let env = super::Environment {
opener: &opener,
db: &db.db,
shutdown: &opener.shutdown,
shutdown_rx: &shutdown_rx,
transport: retina::client::Transport::Tcp,
};
let mut stream;