moonfire-nvr/server/db/recording.rs
Scott Lamb c547a49ac8 shorten per-file copyright headers
I'm tired of all the boilerplate, so use the new
GPL-3.0-linking-exception license identifier instead in all the server
components.

I left the ui stuff alone because I'm just going to replace it (#111).

Add a checker for the header because it's easy to forget.
2021-02-17 15:39:17 -08:00

665 lines
23 KiB
Rust

// 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::coding::{append_varint32, decode_varint32, unzigzag32, zigzag32};
use crate::db;
use failure::{bail, Error};
use log::trace;
use std::convert::TryFrom;
use std::ops::Range;
pub use base::time::TIME_UNITS_PER_SEC;
pub const DESIRED_RECORDING_WALL_DURATION: i64 = 60 * TIME_UNITS_PER_SEC;
pub const MAX_RECORDING_WALL_DURATION: i64 = 5 * 60 * TIME_UNITS_PER_SEC;
pub use base::time::Duration;
pub use base::time::Time;
/// Converts from a wall time offset into a recording to a media time offset or vice versa.
pub fn rescale(from_off_90k: i32, from_duration_90k: i32, to_duration_90k: i32) -> i32 {
debug_assert!(
from_off_90k <= from_duration_90k,
"from_off_90k={} from_duration_90k={} to_duration_90k={}",
from_off_90k,
from_duration_90k,
to_duration_90k
);
if from_duration_90k == 0 {
return 0; // avoid a divide by zero.
}
// The intermediate values here may overflow i32, so use an i64 instead. The max wall
// time is recording::MAX_RECORDING_WALL_DURATION; the max media duration should be
// roughly the same (design limit of 500 ppm correction). The final result should fit
// within i32.
i32::try_from(
i64::from(from_off_90k) * i64::from(to_duration_90k) / i64::from(from_duration_90k),
)
.map_err(|_| {
format!(
"rescale overflow: {} * {} / {} > i32::max_value()",
from_off_90k, to_duration_90k, from_duration_90k
)
})
.unwrap()
}
/// An iterator through a sample index.
/// Initially invalid; call `next()` before each read.
#[derive(Clone, Copy, Debug)]
pub struct SampleIndexIterator {
/// The index byte position of the next sample to read (low 31 bits) and if the current
/// same is a key frame (high bit).
i_and_is_key: u32,
/// The starting data byte position of this sample within the segment.
pub pos: i32,
/// The starting time of this sample within the segment (in 90 kHz units).
pub start_90k: i32,
/// The duration of this sample (in 90 kHz units).
pub duration_90k: i32,
/// The byte length of this frame.
pub bytes: i32,
/// The byte length of the last frame of the "other" type: if this one is key, the last
/// non-key; if this one is non-key, the last key.
bytes_other: i32,
}
impl SampleIndexIterator {
pub fn new() -> SampleIndexIterator {
SampleIndexIterator {
i_and_is_key: 0,
pos: 0,
start_90k: 0,
duration_90k: 0,
bytes: 0,
bytes_other: 0,
}
}
pub fn next(&mut self, data: &[u8]) -> Result<bool, Error> {
self.pos += self.bytes;
self.start_90k += self.duration_90k;
let i = (self.i_and_is_key & 0x7FFF_FFFF) as usize;
if i == data.len() {
return Ok(false);
}
let (raw1, i1) = match decode_varint32(data, i) {
Ok(tuple) => tuple,
Err(()) => bail!("bad varint 1 at offset {}", i),
};
let (raw2, i2) = match decode_varint32(data, i1) {
Ok(tuple) => tuple,
Err(()) => bail!("bad varint 2 at offset {}", i1),
};
let duration_90k_delta = unzigzag32(raw1 >> 1);
self.duration_90k += duration_90k_delta;
if self.duration_90k < 0 {
bail!(
"negative duration {} after applying delta {}",
self.duration_90k,
duration_90k_delta
);
}
if self.duration_90k == 0 && data.len() > i2 {
bail!(
"zero duration only allowed at end; have {} bytes left",
data.len() - i2
);
}
let (prev_bytes_key, prev_bytes_nonkey) = match self.is_key() {
true => (self.bytes, self.bytes_other),
false => (self.bytes_other, self.bytes),
};
self.i_and_is_key = (i2 as u32) | (((raw1 & 1) as u32) << 31);
let bytes_delta = unzigzag32(raw2);
if self.is_key() {
self.bytes = prev_bytes_key + bytes_delta;
self.bytes_other = prev_bytes_nonkey;
} else {
self.bytes = prev_bytes_nonkey + bytes_delta;
self.bytes_other = prev_bytes_key;
}
if self.bytes <= 0 {
bail!(
"non-positive bytes {} after applying delta {} to key={} frame at ts {}",
self.bytes,
bytes_delta,
self.is_key(),
self.start_90k
);
}
Ok(true)
}
#[inline]
pub fn is_key(&self) -> bool {
(self.i_and_is_key & 0x8000_0000) != 0
}
}
#[derive(Debug)]
pub struct SampleIndexEncoder {
prev_duration_90k: i32,
prev_bytes_key: i32,
prev_bytes_nonkey: i32,
}
impl SampleIndexEncoder {
pub fn new() -> Self {
SampleIndexEncoder {
prev_duration_90k: 0,
prev_bytes_key: 0,
prev_bytes_nonkey: 0,
}
}
pub fn add_sample(
&mut self,
duration_90k: i32,
bytes: i32,
is_key: bool,
r: &mut db::RecordingToInsert,
) {
let duration_delta = duration_90k - self.prev_duration_90k;
self.prev_duration_90k = duration_90k;
r.media_duration_90k += duration_90k;
r.sample_file_bytes += bytes;
r.video_samples += 1;
let bytes_delta = bytes
- if is_key {
let prev = self.prev_bytes_key;
r.video_sync_samples += 1;
self.prev_bytes_key = bytes;
prev
} else {
let prev = self.prev_bytes_nonkey;
self.prev_bytes_nonkey = bytes;
prev
};
append_varint32(
(zigzag32(duration_delta) << 1) | (is_key as u32),
&mut r.video_index,
);
append_varint32(zigzag32(bytes_delta), &mut r.video_index);
}
}
/// A segment represents a view of some or all of a single recording, starting from a key frame.
/// This struct is not specific to a container format; for `.mp4`s, it's wrapped in a
/// `mp4::Segment`. Other container/transport formats could be supported in a similar manner.
#[derive(Debug)]
pub struct Segment {
pub id: db::CompositeId,
pub open_id: u32,
/// An iterator positioned at the beginning of the segment, or `None`. Most segments are
/// positioned at the beginning of the recording, so this is an optional box to shrink a long
/// of segments. `None` is equivalent to `SampleIndexIterator::new()`.
begin: Option<Box<SampleIndexIterator>>,
pub file_end: i32,
pub frames: u16,
pub key_frames: u16,
video_sample_entry_id_and_trailing_zero: i32,
}
impl Segment {
/// Creates a segment.
///
/// `desired_media_range_90k` represents the desired range of the segment relative to the start
/// of the recording, in media time units.
///
/// The actual range will start at the most recent acceptable frame's start at or before the
/// desired start time. If `start_at_key` is true, only key frames are acceptable; otherwise
/// any frame is. The caller is responsible for skipping over the undesired prefix, perhaps
/// with an edit list in the case of a `.mp4`.
///
/// The actual range will end at the first frame after the desired range (unless the desired
/// range extends beyond the recording). Likewise, the caller is responsible for trimming the
/// final frame's duration if desired.
pub fn new(
db: &db::LockedDatabase,
recording: &db::ListRecordingsRow,
desired_media_range_90k: Range<i32>,
start_at_key: bool,
) -> Result<Segment, Error> {
let mut self_ = Segment {
id: recording.id,
open_id: recording.open_id,
begin: None,
file_end: recording.sample_file_bytes,
frames: recording.video_samples as u16,
key_frames: recording.video_sync_samples as u16,
video_sample_entry_id_and_trailing_zero: recording.video_sample_entry_id
| ((((recording.flags & db::RecordingFlags::TrailingZero as i32) != 0) as i32)
<< 31),
};
if desired_media_range_90k.start > desired_media_range_90k.end
|| desired_media_range_90k.end > recording.media_duration_90k
{
bail!(
"desired media range [{}, {}) invalid for recording of length {}",
desired_media_range_90k.start,
desired_media_range_90k.end,
recording.media_duration_90k
);
}
if desired_media_range_90k.start == 0
&& desired_media_range_90k.end == recording.media_duration_90k
{
// Fast path. Existing entry is fine.
trace!(
"recording::Segment::new fast path, recording={:#?}",
recording
);
return Ok(self_);
}
// Slow path. Need to iterate through the index.
trace!(
"recording::Segment::new slow path, desired_media_range_90k={:?}, recording={:#?}",
desired_media_range_90k,
recording
);
db.with_recording_playback(self_.id, &mut |playback| {
let mut begin = Box::new(SampleIndexIterator::new());
let data = &(&playback).video_index;
let mut it = SampleIndexIterator::new();
if !it.next(data)? {
bail!("no index");
}
if !it.is_key() {
bail!("not key frame");
}
// Stop when hitting a frame with this start time.
// Going until the end of the recording is special-cased because there can be a trailing
// frame of zero duration. It's unclear exactly how this should be handled, but let's
// include it for consistency with the fast path. It'd be bizarre to have it included or
// not based on desired_media_range_90k.start.
let end_90k = if desired_media_range_90k.end == recording.media_duration_90k {
i32::max_value()
} else {
desired_media_range_90k.end
};
loop {
if it.start_90k <= desired_media_range_90k.start && (!start_at_key || it.is_key()) {
// new start candidate.
*begin = it;
self_.frames = 0;
self_.key_frames = 0;
}
if it.start_90k >= end_90k && self_.frames > 0 {
break;
}
self_.frames += 1;
self_.key_frames += it.is_key() as u16;
if !it.next(data)? {
break;
}
}
self_.begin = Some(begin);
self_.file_end = it.pos;
self_.video_sample_entry_id_and_trailing_zero =
recording.video_sample_entry_id | (((it.duration_90k == 0) as i32) << 31);
Ok(())
})?;
Ok(self_)
}
pub fn video_sample_entry_id(&self) -> i32 {
self.video_sample_entry_id_and_trailing_zero & 0x7FFFFFFF
}
pub fn have_trailing_zero(&self) -> bool {
self.video_sample_entry_id_and_trailing_zero < 0
}
/// Returns the byte range within the sample file of data associated with this segment.
pub fn sample_file_range(&self) -> Range<u64> {
self.begin.as_ref().map(|b| b.pos as u64).unwrap_or(0)..self.file_end as u64
}
/// Returns the actual media start time. As described in `new`, this can be less than the
/// desired media start time if there is no key frame at the right position.
pub fn actual_start_90k(&self) -> i32 {
self.begin.as_ref().map(|b| b.start_90k).unwrap_or(0)
}
/// Iterates through each frame in the segment.
/// Must be called without the database lock held; retrieves video index from the cache.
pub fn foreach<F>(&self, playback: &db::RecordingPlayback, mut f: F) -> Result<(), Error>
where
F: FnMut(&SampleIndexIterator) -> Result<(), Error>,
{
trace!(
"foreach on recording {}: {} frames, actual_start_90k: {}",
self.id,
self.frames,
self.actual_start_90k()
);
let data = &(&playback).video_index;
let mut it = match self.begin {
Some(ref b) => **b,
None => {
let mut it = SampleIndexIterator::new();
if !it.next(data)? {
bail!("recording {} has no frames", self.id);
}
if !it.is_key() {
bail!("recording {} doesn't start with key frame", self.id);
}
it
}
};
let mut have_frame = true;
let mut key_frame = 0;
for i in 0..self.frames {
if !have_frame {
bail!(
"recording {}: expected {} frames, found only {}",
self.id,
self.frames,
i + 1
);
}
if it.is_key() {
key_frame += 1;
if key_frame > self.key_frames {
bail!(
"recording {}: more than expected {} key frames",
self.id,
self.key_frames
);
}
}
// Note: this inner loop avoids ? for performance. Don't change these lines without
// reading https://github.com/rust-lang/rust/issues/37939 and running
// mp4::bench::build_index.
if let Err(e) = f(&it) {
return Err(e);
}
have_frame = match it.next(data) {
Err(e) => return Err(e),
Ok(hf) => hf,
};
}
if key_frame < self.key_frames {
bail!(
"recording {}: expected {} key frames, found only {}",
self.id,
self.key_frames,
key_frame
);
}
Ok(())
}
/// Returns true if this starts with a non-key frame.
pub fn starts_with_nonkey(&self) -> bool {
match self.begin {
Some(ref b) => !b.is_key(),
// Fast-path case, in which this holds an entire recording. They always start with a
// key frame.
None => false,
}
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::testutil::{self, TestDb};
use base::clock::RealClocks;
/// Tests encoding the example from design/schema.md.
#[test]
fn test_encode_example() {
testutil::init();
let mut r = db::RecordingToInsert::default();
let mut e = SampleIndexEncoder::new();
e.add_sample(10, 1000, true, &mut r);
e.add_sample(9, 10, false, &mut r);
e.add_sample(11, 15, false, &mut r);
e.add_sample(10, 12, false, &mut r);
e.add_sample(10, 1050, true, &mut r);
assert_eq!(
r.video_index,
b"\x29\xd0\x0f\x02\x14\x08\x0a\x02\x05\x01\x64"
);
assert_eq!(10 + 9 + 11 + 10 + 10, r.media_duration_90k);
assert_eq!(5, r.video_samples);
assert_eq!(2, r.video_sync_samples);
}
/// Tests a round trip from `SampleIndexEncoder` to `SampleIndexIterator`.
#[test]
fn test_round_trip() {
testutil::init();
#[derive(Debug, PartialEq, Eq)]
struct Sample {
duration_90k: i32,
bytes: i32,
is_key: bool,
}
#[rustfmt::skip]
let samples = [
Sample { duration_90k: 10, bytes: 30000, is_key: true, },
Sample { duration_90k: 9, bytes: 1000, is_key: false, },
Sample { duration_90k: 11, bytes: 1100, is_key: false, },
Sample { duration_90k: 18, bytes: 31000, is_key: true, },
Sample { duration_90k: 0, bytes: 1000, is_key: false, },
];
let mut r = db::RecordingToInsert::default();
let mut e = SampleIndexEncoder::new();
for sample in &samples {
e.add_sample(sample.duration_90k, sample.bytes, sample.is_key, &mut r);
}
let mut it = SampleIndexIterator::new();
for sample in &samples {
assert!(it.next(&r.video_index).unwrap());
assert_eq!(
sample,
&Sample {
duration_90k: it.duration_90k,
bytes: it.bytes,
is_key: it.is_key()
}
);
}
assert!(!it.next(&r.video_index).unwrap());
}
/// Tests that `SampleIndexIterator` spots several classes of errors.
/// TODO: test and fix overflow cases.
#[test]
fn test_iterator_errors() {
testutil::init();
struct Test {
encoded: &'static [u8],
err: &'static str,
}
let tests = [
Test {
encoded: b"\x80",
err: "bad varint 1 at offset 0",
},
Test {
encoded: b"\x00\x80",
err: "bad varint 2 at offset 1",
},
Test {
encoded: b"\x00\x02\x00\x00",
err: "zero duration only allowed at end; have 2 bytes left",
},
Test {
encoded: b"\x02\x02",
err: "negative duration -1 after applying delta -1",
},
Test {
encoded: b"\x04\x00",
err: "non-positive bytes 0 after applying delta 0 to key=false frame at ts 0",
},
];
for test in &tests {
let mut it = SampleIndexIterator::new();
assert_eq!(it.next(test.encoded).unwrap_err().to_string(), test.err);
}
}
fn get_frames<F, T>(db: &db::Database, segment: &Segment, f: F) -> Vec<T>
where
F: Fn(&SampleIndexIterator) -> T,
{
let mut v = Vec::new();
db.lock()
.with_recording_playback(segment.id, &mut |playback| {
segment.foreach(playback, |it| {
v.push(f(it));
Ok(())
})
})
.unwrap();
v
}
/// Tests that a `Segment` correctly can clip at the beginning and end.
/// This is a simpler case; all sync samples means we can start on any frame.
#[test]
fn test_segment_clipping_with_all_sync() {
testutil::init();
let mut r = db::RecordingToInsert::default();
let mut encoder = SampleIndexEncoder::new();
for i in 1..6 {
let duration_90k = 2 * i;
let bytes = 3 * i;
encoder.add_sample(duration_90k, bytes, true, &mut r);
}
let db = TestDb::new(RealClocks {});
let row = db.insert_recording_from_encoder(r);
// Time range [2, 2 + 4 + 6 + 8) means the 2nd, 3rd, 4th samples should be
// included.
let segment = Segment::new(&db.db.lock(), &row, 2..2 + 4 + 6 + 8, true).unwrap();
assert_eq!(
&get_frames(&db.db, &segment, |it| it.duration_90k),
&[4, 6, 8]
);
}
/// Half sync frames means starting from the last sync frame <= desired point.
#[test]
fn test_segment_clipping_with_half_sync() {
testutil::init();
let mut r = db::RecordingToInsert::default();
let mut encoder = SampleIndexEncoder::new();
for i in 1..6 {
let duration_90k = 2 * i;
let bytes = 3 * i;
encoder.add_sample(duration_90k, bytes, (i % 2) == 1, &mut r);
}
let db = TestDb::new(RealClocks {});
let row = db.insert_recording_from_encoder(r);
// Time range [2 + 4 + 6, 2 + 4 + 6 + 8) means the 4th sample should be included.
// The 3rd also gets pulled in because it is a sync frame and the 4th is not.
let segment = Segment::new(&db.db.lock(), &row, 2 + 4 + 6..2 + 4 + 6 + 8, true).unwrap();
assert_eq!(&get_frames(&db.db, &segment, |it| it.duration_90k), &[6, 8]);
}
#[test]
fn test_segment_clipping_with_trailing_zero() {
testutil::init();
let mut r = db::RecordingToInsert::default();
let mut encoder = SampleIndexEncoder::new();
encoder.add_sample(1, 1, true, &mut r);
encoder.add_sample(1, 2, true, &mut r);
encoder.add_sample(0, 3, true, &mut r);
let db = TestDb::new(RealClocks {});
let row = db.insert_recording_from_encoder(r);
let segment = Segment::new(&db.db.lock(), &row, 1..2, true).unwrap();
assert_eq!(&get_frames(&db.db, &segment, |it| it.bytes), &[2, 3]);
}
/// Even if the desired duration is 0, there should still be a frame.
#[test]
fn test_segment_zero_desired_duration() {
testutil::init();
let mut r = db::RecordingToInsert::default();
let mut encoder = SampleIndexEncoder::new();
encoder.add_sample(1, 1, true, &mut r);
let db = TestDb::new(RealClocks {});
let row = db.insert_recording_from_encoder(r);
let segment = Segment::new(&db.db.lock(), &row, 0..0, true).unwrap();
assert_eq!(&get_frames(&db.db, &segment, |it| it.bytes), &[1]);
}
/// Test a `Segment` which uses the whole recording.
/// This takes a fast path which skips scanning the index in `new()`.
#[test]
fn test_segment_fast_path() {
testutil::init();
let mut r = db::RecordingToInsert::default();
let mut encoder = SampleIndexEncoder::new();
for i in 1..6 {
let duration_90k = 2 * i;
let bytes = 3 * i;
encoder.add_sample(duration_90k, bytes, (i % 2) == 1, &mut r);
}
let db = TestDb::new(RealClocks {});
let row = db.insert_recording_from_encoder(r);
let segment = Segment::new(&db.db.lock(), &row, 0..2 + 4 + 6 + 8 + 10, true).unwrap();
assert_eq!(
&get_frames(&db.db, &segment, |it| it.duration_90k),
&[2, 4, 6, 8, 10]
);
}
#[test]
fn test_segment_fast_path_with_trailing_zero() {
testutil::init();
let mut r = db::RecordingToInsert::default();
let mut encoder = SampleIndexEncoder::new();
encoder.add_sample(1, 1, true, &mut r);
encoder.add_sample(1, 2, true, &mut r);
encoder.add_sample(0, 3, true, &mut r);
let db = TestDb::new(RealClocks {});
let row = db.insert_recording_from_encoder(r);
let segment = Segment::new(&db.db.lock(), &row, 0..2, true).unwrap();
assert_eq!(&get_frames(&db.db, &segment, |it| it.bytes), &[1, 2, 3]);
}
// TODO: test segment error cases involving mismatch between row frames/key_frames and index.
}
#[cfg(all(test, feature = "nightly"))]
mod bench {
extern crate test;
use super::*;
/// Benchmarks the decoder, which is performance-critical for .mp4 serving.
#[bench]
fn bench_decoder(b: &mut test::Bencher) {
let data = include_bytes!("testdata/video_sample_index.bin");
b.bytes = data.len() as u64;
b.iter(|| {
let mut it = SampleIndexIterator::new();
while it.next(data).unwrap() {}
assert_eq!(30104460, it.pos);
assert_eq!(5399985, it.start_90k);
});
}
}