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moonfire-nvr/server/src/streamer.rs
Scott Lamb 5e7d558f99 upgrade to Retina v0.3.9 
This alone improves interop and diagnostics, as noted in Retina's
release notes. We also now give the camera name to the session group
(for improved logging of TEARDOWN operations) and expose the RTSP
server's "tool" attribute in debug logs and the config UI's "Test"
button.

Fixes #209
Fixes #213
2022-04-12 15:00:35 -07:00

504 lines
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Rust
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// This file is part of Moonfire NVR, a security camera network video recorder.
// Copyright (C) 2020 The Moonfire NVR Authors; see AUTHORS and LICENSE.txt.
// SPDX-License-Identifier: GPL-v3.0-or-later WITH GPL-3.0-linking-exception.
use crate::stream;
use base::clock::{Clocks, TimerGuard};
use db::{dir, recording, writer, Camera, Database, Stream};
use failure::{bail, format_err, Error};
use log::{debug, info, trace, warn};
use std::result::Result;
use std::str::FromStr;
use std::sync::Arc;
use url::Url;
pub static ROTATE_INTERVAL_SEC: i64 = 60;
/// Common state that can be used by multiple `Streamer` instances.
pub struct Environment<'a, 'tmp, C>
where
C: Clocks + Clone,
{
pub opener: &'a dyn stream::Opener,
pub db: &'tmp Arc<Database<C>>,
pub shutdown_rx: &'tmp base::shutdown::Receiver,
}
/// Connects to a given RTSP stream and writes recordings to the database via [`writer::Writer`].
/// Streamer is meant to be long-lived; it will sleep and retry after each failure.
pub struct Streamer<'a, C>
where
C: Clocks + Clone,
{
shutdown_rx: base::shutdown::Receiver,
// State below is only used by the thread in Run.
rotate_offset_sec: i64,
rotate_interval_sec: i64,
db: Arc<Database<C>>,
dir: Arc<dir::SampleFileDir>,
syncer_channel: writer::SyncerChannel<::std::fs::File>,
opener: &'a dyn stream::Opener,
transport: retina::client::Transport,
stream_id: i32,
session_group: Arc<retina::client::SessionGroup>,
short_name: String,
url: Url,
username: String,
password: String,
}
impl<'a, C> Streamer<'a, C>
where
C: 'a + Clocks + Clone,
{
pub fn new<'tmp>(
env: &Environment<'a, 'tmp, C>,
dir: Arc<dir::SampleFileDir>,
syncer_channel: writer::SyncerChannel<::std::fs::File>,
stream_id: i32,
c: &Camera,
s: &Stream,
session_group: Arc<retina::client::SessionGroup>,
rotate_offset_sec: i64,
rotate_interval_sec: i64,
) -> Result<Self, Error> {
let url = s
.config
.url
.as_ref()
.ok_or_else(|| format_err!("Stream has no RTSP URL"))?;
if !url.username().is_empty() || url.password().is_some() {
bail!("RTSP URL shouldn't include credentials");
}
let stream_transport = if s.config.rtsp_transport.is_empty() {
None
} else {
match retina::client::Transport::from_str(&s.config.rtsp_transport) {
Ok(t) => Some(t),
Err(_) => {
log::warn!(
"Unable to parse configured transport {:?} for {}/{}; ignoring.",
&s.config.rtsp_transport,
&c.short_name,
s.type_
);
None
}
}
};
Ok(Streamer {
shutdown_rx: env.shutdown_rx.clone(),
rotate_offset_sec,
rotate_interval_sec,
db: env.db.clone(),
dir,
syncer_channel,
opener: env.opener,
transport: stream_transport.unwrap_or_default(),
stream_id,
session_group,
short_name: format!("{}-{}", c.short_name, s.type_.as_str()),
url: url.clone(),
username: c.config.username.clone(),
password: c.config.password.clone(),
})
}
pub fn short_name(&self) -> &str {
&self.short_name
}
/// Runs the streamer; blocks.
pub fn run(&mut self) {
let rt = tokio::runtime::Builder::new_current_thread()
.enable_io()
.enable_time()
.build()
.unwrap();
let _guard = rt.enter();
while self.shutdown_rx.check().is_ok() {
if let Err(e) = self.run_once(&rt) {
let sleep_time = time::Duration::seconds(1);
warn!(
"{}: sleeping for {} after error: {}",
self.short_name,
sleep_time,
base::prettify_failure(&e)
);
self.db.clocks().sleep(sleep_time);
}
}
info!("{}: shutting down", self.short_name);
}
fn run_once(&mut self, rt: &tokio::runtime::Runtime) -> Result<(), Error> {
info!("{}: Opening input: {}", self.short_name, self.url.as_str());
let clocks = self.db.clocks();
let mut waited = false;
loop {
let status = self.session_group.stale_sessions();
if let Some(max_expires) = status.max_expires {
log::info!(
"{}: waiting up to {:?} for TEARDOWN or expiration of {} stale sessions",
&self.short_name,
max_expires.saturating_duration_since(tokio::time::Instant::now()),
status.num_sessions
);
rt.block_on(async {
tokio::select! {
_ = self.session_group.await_stale_sessions(&status) => Ok(()),
_ = self.shutdown_rx.as_future() => Err(base::shutdown::ShutdownError),
}
})?;
waited = true;
} else {
if waited {
log::info!("{}: done waiting; no more stale sessions", &self.short_name);
}
break;
}
}
let (extra_data, mut stream) = {
let _t = TimerGuard::new(&clocks, || format!("opening {}", self.url.as_str()));
self.opener.open(
rt,
self.short_name.clone(),
self.url.clone(),
retina::client::SessionOptions::default()
.creds(if self.username.is_empty() {
None
} else {
Some(retina::client::Credentials {
username: self.username.clone(),
password: self.password.clone(),
})
})
.transport(self.transport)
.session_group(self.session_group.clone()),
)?
};
let realtime_offset = self.db.clocks().realtime() - clocks.monotonic();
let video_sample_entry_id = {
let _t = TimerGuard::new(&clocks, || "inserting video sample entry");
self.db.lock().insert_video_sample_entry(extra_data)?
};
let mut seen_key_frame = false;
// Seconds since epoch at which to next rotate.
let mut rotate: Option<i64> = None;
let mut w = writer::Writer::new(
&self.dir,
&self.db,
&self.syncer_channel,
self.stream_id,
video_sample_entry_id,
);
while self.shutdown_rx.check().is_ok() {
let pkt = {
let _t = TimerGuard::new(&clocks, || "getting next packet");
stream.next()
};
let pkt = match pkt {
Ok(p) => p,
Err(e) => {
let _ = w.close(None, Some(e.to_string()));
return Err(e);
}
};
if !seen_key_frame && !pkt.is_key {
continue;
} else if !seen_key_frame {
debug!("{}: have first key frame", self.short_name);
seen_key_frame = true;
}
let frame_realtime = clocks.monotonic() + realtime_offset;
let local_time = recording::Time::new(frame_realtime);
rotate = if let Some(r) = rotate {
if frame_realtime.sec > r && pkt.is_key {
trace!("{}: write on normal rotation", self.short_name);
let _t = TimerGuard::new(&clocks, || "closing writer");
w.close(Some(pkt.pts), None)?;
None
} else {
Some(r)
}
} else {
None
};
let r = match rotate {
Some(r) => r,
None => {
let sec = frame_realtime.sec;
let r = sec - (sec % self.rotate_interval_sec) + self.rotate_offset_sec;
let r = r + if r <= sec {
self.rotate_interval_sec
} else {
0
};
// On the first recording, set rotate time to not the next rotate offset, but
// the one after, so that it's longer than usual rather than shorter than
// usual. This ensures there's plenty of frame times to use when calculating
// the start time.
let r = r + if w.previously_opened()? {
0
} else {
self.rotate_interval_sec
};
let _t = TimerGuard::new(&clocks, || "creating writer");
r
}
};
let _t = TimerGuard::new(&clocks, || format!("writing {} bytes", pkt.data.len()));
w.write(
&mut self.shutdown_rx,
&pkt.data[..],
local_time,
pkt.pts,
pkt.is_key,
)?;
rotate = Some(r);
}
if rotate.is_some() {
let _t = TimerGuard::new(&clocks, || "closing writer");
w.close(None, Some("NVR shutdown".to_owned()))?;
}
Ok(())
}
}
#[cfg(test)]
mod tests {
use crate::stream::{self, Stream};
use base::clock::{self, Clocks};
use db::{recording, testutil, CompositeId};
use failure::{bail, Error};
use log::trace;
use parking_lot::Mutex;
use std::cmp;
use std::convert::TryFrom;
use std::sync::Arc;
use time;
struct ProxyingStream {
clocks: clock::SimulatedClocks,
inner: Box<dyn stream::Stream>,
buffered: time::Duration,
slept: time::Duration,
ts_offset: i64,
ts_offset_pkts_left: u32,
pkts_left: u32,
}
impl ProxyingStream {
fn new(
clocks: clock::SimulatedClocks,
buffered: time::Duration,
inner: Box<dyn stream::Stream>,
) -> ProxyingStream {
clocks.sleep(buffered);
ProxyingStream {
clocks,
inner,
buffered,
slept: time::Duration::seconds(0),
ts_offset: 0,
ts_offset_pkts_left: 0,
pkts_left: 0,
}
}
}
impl Stream for ProxyingStream {
fn tool(&self) -> Option<&retina::client::Tool> {
self.inner.tool()
}
fn next(&mut self) -> Result<stream::VideoFrame, Error> {
if self.pkts_left == 0 {
bail!("end of stream");
}
self.pkts_left -= 1;
let mut frame = self.inner.next()?;
// XXX: comment wrong.
// Emulate the behavior of real cameras that send some pre-buffered frames immediately
// on connect. After that, advance clock to the end of this frame.
// Avoid accumulating conversion error by tracking the total amount to sleep and how
// much we've already slept, rather than considering each frame in isolation.
{
let goal = frame.pts + i64::from(frame.duration);
let goal = time::Duration::nanoseconds(
goal * 1_000_000_000 / recording::TIME_UNITS_PER_SEC,
);
let duration = goal - self.slept;
let buf_part = cmp::min(self.buffered, duration);
self.buffered = self.buffered - buf_part;
self.clocks.sleep(duration - buf_part);
self.slept = goal;
}
if self.ts_offset_pkts_left > 0 {
self.ts_offset_pkts_left -= 1;
frame.pts += self.ts_offset;
// In a real rtsp stream, the duration of a packet is not known until the
// next packet. ffmpeg's duration is an unreliable estimate. Set it to something
// ridiculous.
frame.duration = i32::try_from(3600 * recording::TIME_UNITS_PER_SEC).unwrap();
}
Ok(frame)
}
}
struct MockOpener {
expected_url: url::Url,
streams: Mutex<Vec<(db::VideoSampleEntryToInsert, Box<dyn stream::Stream>)>>,
shutdown_tx: Mutex<Option<base::shutdown::Sender>>,
}
impl stream::Opener for MockOpener {
fn open(
&self,
_rt: &tokio::runtime::Runtime,
_label: String,
url: url::Url,
_options: retina::client::SessionOptions,
) -> Result<(db::VideoSampleEntryToInsert, Box<dyn stream::Stream>), Error> {
assert_eq!(&url, &self.expected_url);
let mut l = self.streams.lock();
match l.pop() {
Some(stream) => {
trace!("MockOpener returning next stream");
Ok(stream)
}
None => {
trace!("MockOpener shutting down");
self.shutdown_tx.lock().take();
bail!("done")
}
}
}
}
#[derive(Debug, Eq, PartialEq)]
struct Frame {
start_90k: i32,
duration_90k: i32,
is_key: bool,
}
fn get_frames(db: &db::LockedDatabase, id: CompositeId) -> Vec<Frame> {
db.with_recording_playback(id, &mut |rec| {
let mut it = recording::SampleIndexIterator::default();
let mut frames = Vec::new();
while it.next(&rec.video_index).unwrap() {
frames.push(Frame {
start_90k: it.start_90k,
duration_90k: it.duration_90k,
is_key: it.is_key(),
});
}
Ok(frames)
})
.unwrap()
}
#[test]
fn basic() {
testutil::init();
// 2015-04-25 00:00:00 UTC
let clocks = clock::SimulatedClocks::new(time::Timespec::new(1429920000, 0));
clocks.sleep(time::Duration::seconds(86400)); // to 2015-04-26 00:00:00 UTC
let (extra_data, stream) =
stream::testutil::Mp4Stream::open("src/testdata/clip.mp4").unwrap();
let mut stream =
ProxyingStream::new(clocks.clone(), time::Duration::seconds(2), Box::new(stream));
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_tx: Mutex::new(Some(shutdown_tx)),
};
let db = testutil::TestDb::new(clocks.clone());
let env = super::Environment {
opener: &opener,
db: &db.db,
shutdown_rx: &shutdown_rx,
};
let mut stream;
{
let l = db.db.lock();
let camera = l.cameras_by_id().get(&testutil::TEST_CAMERA_ID).unwrap();
let s = l.streams_by_id().get(&testutil::TEST_STREAM_ID).unwrap();
let dir = db
.dirs_by_stream_id
.get(&testutil::TEST_STREAM_ID)
.unwrap()
.clone();
stream = super::Streamer::new(
&env,
dir,
db.syncer_channel.clone(),
testutil::TEST_STREAM_ID,
camera,
s,
Arc::new(retina::client::SessionGroup::default()),
0,
3,
)
.unwrap();
}
stream.run();
assert!(opener.streams.lock().is_empty());
db.syncer_channel.flush();
let db = db.db.lock();
// Compare frame-by-frame. Note below that while the rotation is scheduled to happen near
// 3-second boundaries (such as 2016-04-26 00:00:03), rotation happens somewhat later:
// * the first rotation is always skipped
// * the second rotation is deferred until a key frame.
#[rustfmt::skip]
assert_eq!(get_frames(&db, CompositeId::new(testutil::TEST_STREAM_ID, 0)), &[
Frame { start_90k: 0, duration_90k: 90379, is_key: true },
Frame { start_90k: 90379, duration_90k: 89884, is_key: false },
Frame { start_90k: 180263, duration_90k: 89749, is_key: false },
Frame { start_90k: 270012, duration_90k: 89981, is_key: false }, // pts_time 3.0001...
Frame { start_90k: 359993, duration_90k: 90055, is_key: true },
Frame { start_90k: 450048, duration_90k: 89967, is_key: false },
Frame { start_90k: 540015, duration_90k: 90021, is_key: false }, // pts_time 6.0001...
Frame { start_90k: 630036, duration_90k: 89958, is_key: false },
]);
#[rustfmt::skip]
assert_eq!(get_frames(&db, CompositeId::new(testutil::TEST_STREAM_ID, 1)), &[
Frame { start_90k: 0, duration_90k: 90011, is_key: true },
Frame { start_90k: 90011, duration_90k: 0, is_key: false },
]);
let mut recordings = Vec::new();
db.list_recordings_by_id(testutil::TEST_STREAM_ID, 0..2, &mut |r| {
recordings.push(r);
Ok(())
})
.unwrap();
assert_eq!(2, recordings.len());
assert_eq!(0, recordings[0].id.recording());
assert_eq!(recording::Time(128700575999999), recordings[0].start);
assert_eq!(0, recordings[0].flags);
assert_eq!(1, recordings[1].id.recording());
assert_eq!(recording::Time(128700576719993), recordings[1].start);
assert_eq!(db::RecordingFlags::TrailingZero as i32, recordings[1].flags);
drop(env);
drop(opener);
}
}
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