moonfire-nvr/db/raw.rs
Scott Lamb 4cc796f697 properly test fix for #64
I went with the third idea in 1ce52e3: have the tests run each iteration
of the syncer explicitly. These are messy tests that know tons of
internal details, but I think they're less confusing and racy than if I
had the syncer running in a separate thread.
2019-01-04 16:11:58 -08:00

387 lines
15 KiB
Rust

// This file is part of Moonfire NVR, a security camera digital video recorder.
// Copyright (C) 2018 Scott Lamb <slamb@slamb.org>
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// In addition, as a special exception, the copyright holders give
// permission to link the code of portions of this program with the
// OpenSSL library under certain conditions as described in each
// individual source file, and distribute linked combinations including
// the two.
//
// You must obey the GNU General Public License in all respects for all
// of the code used other than OpenSSL. If you modify file(s) with this
// exception, you may extend this exception to your version of the
// file(s), but you are not obligated to do so. If you do not wish to do
// so, delete this exception statement from your version. If you delete
// this exception statement from all source files in the program, then
// also delete it here.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
//! Raw database access: SQLite statements which do not touch any cached state.
use crate::db::{self, CompositeId, FromSqlUuid};
use failure::{Error, ResultExt, bail};
use fnv::FnvHashSet;
use crate::recording;
use rusqlite::types::ToSql;
use std::ops::Range;
use uuid::Uuid;
// Note: the magic number "27000000" below is recording::MAX_RECORDING_DURATION.
const LIST_RECORDINGS_BY_TIME_SQL: &'static str = r#"
select
recording.composite_id,
recording.run_offset,
recording.flags,
recording.start_time_90k,
recording.duration_90k,
recording.sample_file_bytes,
recording.video_samples,
recording.video_sync_samples,
recording.video_sample_entry_id,
recording.open_id
from
recording
where
stream_id = :stream_id and
recording.start_time_90k > :start_time_90k - 27000000 and
recording.start_time_90k < :end_time_90k and
recording.start_time_90k + recording.duration_90k > :start_time_90k
order by
recording.start_time_90k
"#;
const LIST_RECORDINGS_BY_ID_SQL: &'static str = r#"
select
recording.composite_id,
recording.run_offset,
recording.flags,
recording.start_time_90k,
recording.duration_90k,
recording.sample_file_bytes,
recording.video_samples,
recording.video_sync_samples,
recording.video_sample_entry_id,
recording.open_id
from
recording
where
:start <= composite_id and
composite_id < :end
order by
recording.composite_id
"#;
const STREAM_MIN_START_SQL: &'static str = r#"
select
start_time_90k
from
recording
where
stream_id = :stream_id
order by start_time_90k limit 1
"#;
const STREAM_MAX_START_SQL: &'static str = r#"
select
start_time_90k,
duration_90k
from
recording
where
stream_id = :stream_id
order by start_time_90k desc;
"#;
const LIST_OLDEST_RECORDINGS_SQL: &'static str = r#"
select
composite_id,
start_time_90k,
duration_90k,
sample_file_bytes
from
recording
where
:start <= composite_id and
composite_id < :end
order by
composite_id
"#;
/// Lists the specified recordings in ascending order by start time, passing them to a supplied
/// function. Given that the function is called with the database lock held, it should be quick.
pub(crate) fn list_recordings_by_time(
conn: &rusqlite::Connection, stream_id: i32, desired_time: Range<recording::Time>,
f: &mut FnMut(db::ListRecordingsRow) -> Result<(), Error>) -> Result<(), Error> {
let mut stmt = conn.prepare_cached(LIST_RECORDINGS_BY_TIME_SQL)?;
let rows = stmt.query_named(&[
(":stream_id", &stream_id),
(":start_time_90k", &desired_time.start.0),
(":end_time_90k", &desired_time.end.0)])?;
list_recordings_inner(rows, f)
}
/// Lists the specified recordings in ascending order by id.
pub(crate) fn list_recordings_by_id(
conn: &rusqlite::Connection, stream_id: i32, desired_ids: Range<i32>,
f: &mut FnMut(db::ListRecordingsRow) -> Result<(), Error>) -> Result<(), Error> {
let mut stmt = conn.prepare_cached(LIST_RECORDINGS_BY_ID_SQL)?;
let rows = stmt.query_named(&[
(":start", &CompositeId::new(stream_id, desired_ids.start).0),
(":end", &CompositeId::new(stream_id, desired_ids.end).0),
])?;
list_recordings_inner(rows, f)
}
fn list_recordings_inner(mut rows: rusqlite::Rows,
f: &mut FnMut(db::ListRecordingsRow) -> Result<(), Error>)
-> Result<(), Error> {
while let Some(row) = rows.next() {
let row = row?;
f(db::ListRecordingsRow {
id: CompositeId(row.get_checked(0)?),
run_offset: row.get_checked(1)?,
flags: row.get_checked(2)?,
start: recording::Time(row.get_checked(3)?),
duration_90k: row.get_checked(4)?,
sample_file_bytes: row.get_checked(5)?,
video_samples: row.get_checked(6)?,
video_sync_samples: row.get_checked(7)?,
video_sample_entry_id: row.get_checked(8)?,
open_id: row.get_checked(9)?,
})?;
}
Ok(())
}
pub(crate) fn get_db_uuid(conn: &rusqlite::Connection) -> Result<Uuid, Error> {
conn.query_row("select uuid from meta", &[] as &[&ToSql], |row| -> Result<Uuid, Error> {
let uuid: FromSqlUuid = row.get_checked(0)?;
Ok(uuid.0)
})?
}
/// Inserts the specified recording (for from `try_flush` only).
pub(crate) fn insert_recording(tx: &rusqlite::Transaction, o: &db::Open, id: CompositeId,
r: &db::RecordingToInsert) -> Result<(), Error> {
let mut stmt = tx.prepare_cached(r#"
insert into recording (composite_id, stream_id, open_id, run_offset, flags,
sample_file_bytes, start_time_90k, duration_90k,
video_samples, video_sync_samples, video_sample_entry_id)
values (:composite_id, :stream_id, :open_id, :run_offset, :flags,
:sample_file_bytes, :start_time_90k, :duration_90k,
:video_samples, :video_sync_samples,
:video_sample_entry_id)
"#).with_context(|e| format!("can't prepare recording insert: {}", e))?;
stmt.execute_named(&[
(":composite_id", &id.0),
(":stream_id", &(id.stream() as i64)),
(":open_id", &o.id),
(":run_offset", &r.run_offset),
(":flags", &r.flags),
(":sample_file_bytes", &r.sample_file_bytes),
(":start_time_90k", &r.start.0),
(":duration_90k", &r.duration_90k),
(":video_samples", &r.video_samples),
(":video_sync_samples", &r.video_sync_samples),
(":video_sample_entry_id", &r.video_sample_entry_id),
]).with_context(|e| format!("unable to insert recording for recording {} {:#?}: {}",
id, r, e))?;
let mut stmt = tx.prepare_cached(r#"
insert into recording_integrity (composite_id, local_time_delta_90k, sample_file_sha1)
values (:composite_id, :local_time_delta_90k, :sample_file_sha1)
"#).with_context(|e| format!("can't prepare recording_integrity insert: {}", e))?;
let sha1 = &r.sample_file_sha1[..];
let delta = match r.run_offset {
0 => None,
_ => Some(r.local_time_delta.0),
};
stmt.execute_named(&[
(":composite_id", &id.0),
(":local_time_delta_90k", &delta),
(":sample_file_sha1", &sha1),
]).with_context(|e| format!("unable to insert recording_integrity for {:#?}: {}", r, e))?;
let mut stmt = tx.prepare_cached(r#"
insert into recording_playback (composite_id, video_index)
values (:composite_id, :video_index)
"#).with_context(|e| format!("can't prepare recording_playback insert: {}", e))?;
stmt.execute_named(&[
(":composite_id", &id.0),
(":video_index", &r.video_index),
]).with_context(|e| format!("unable to insert recording_playback for {:#?}: {}", r, e))?;
Ok(())
}
/// Tranfers the given recording range from the `recording` and `recording_playback` tables to the
/// `garbage` table. `sample_file_dir_id` is assumed to be correct.
///
/// Returns the number of recordings which were deleted.
pub(crate) fn delete_recordings(tx: &rusqlite::Transaction, sample_file_dir_id: i32,
ids: Range<CompositeId>)
-> Result<usize, Error> {
let mut insert = tx.prepare_cached(r#"
insert into garbage (sample_file_dir_id, composite_id)
select
:sample_file_dir_id,
composite_id
from
recording
where
:start <= composite_id and
composite_id < :end
"#)?;
let mut del1 = tx.prepare_cached(r#"
delete from recording_playback
where
:start <= composite_id and
composite_id < :end
"#)?;
let mut del2 = tx.prepare_cached(r#"
delete from recording_integrity
where
:start <= composite_id and
composite_id < :end
"#)?;
let mut del3 = tx.prepare_cached(r#"
delete from recording
where
:start <= composite_id and
composite_id < :end
"#)?;
let n = insert.execute_named(&[
(":sample_file_dir_id", &sample_file_dir_id),
(":start", &ids.start.0),
(":end", &ids.end.0),
])?;
let p: &[(&str, &rusqlite::types::ToSql)] = &[
(":start", &ids.start.0),
(":end", &ids.end.0),
];
let n1 = del1.execute_named(p)?;
if n1 != n {
bail!("inserted {} garbage rows but deleted {} recording_playback rows!", n, n1);
}
let n2 = del2.execute_named(p)?;
if n2 > n { // fewer is okay; recording_integrity is optional.
bail!("inserted {} garbage rows but deleted {} recording_integrity rows!", n, n2);
}
let n3 = del3.execute_named(p)?;
if n3 != n {
bail!("deleted {} recording rows but {} recording_playback rows!", n3, n);
}
Ok(n)
}
/// Marks the given sample files as deleted. This shouldn't be called until the files have
/// been `unlink()`ed and the parent directory `fsync()`ed.
pub(crate) fn mark_sample_files_deleted(tx: &rusqlite::Transaction, ids: &[CompositeId])
-> Result<(), Error> {
if ids.is_empty() { return Ok(()); }
let mut stmt = tx.prepare_cached("delete from garbage where composite_id = ?")?;
for &id in ids {
let changes = stmt.execute(&[&id.0])?;
if changes != 1 {
// panic rather than return error. Errors get retried indefinitely, but there's no
// recovery from this condition.
//
// Tempting to just consider logging error and moving on, but this represents a logic
// flaw, so complain loudly. The freshly deleted file might still be referenced in the
// recording table.
panic!("no garbage row for {}", id);
}
}
Ok(())
}
/// Gets the time range of recordings for the given stream.
pub(crate) fn get_range(conn: &rusqlite::Connection, stream_id: i32)
-> Result<Option<Range<recording::Time>>, Error> {
// The minimum is straightforward, taking advantage of the start_time_90k index.
let mut stmt = conn.prepare_cached(STREAM_MIN_START_SQL)?;
let mut rows = stmt.query_named(&[(":stream_id", &stream_id)])?;
let min_start = match rows.next() {
Some(row) => recording::Time(row?.get_checked(0)?),
None => return Ok(None),
};
// There was a minimum, so there should be a maximum too. Calculating it is less
// straightforward because recordings could overlap. All recordings starting in the
// last MAX_RECORDING_DURATION must be examined in order to take advantage of the
// start_time_90k index.
let mut stmt = conn.prepare_cached(STREAM_MAX_START_SQL)?;
let mut rows = stmt.query_named(&[(":stream_id", &stream_id)])?;
let mut maxes_opt = None;
while let Some(row) = rows.next() {
let row = row?;
let row_start = recording::Time(row.get_checked(0)?);
let row_duration: i64 = row.get_checked(1)?;
let row_end = recording::Time(row_start.0 + row_duration);
let maxes = match maxes_opt {
None => row_start .. row_end,
Some(Range{start: s, end: e}) => s .. ::std::cmp::max(e, row_end),
};
if row_start.0 <= maxes.start.0 - recording::MAX_RECORDING_DURATION {
break;
}
maxes_opt = Some(maxes);
}
let max_end = match maxes_opt {
Some(Range{start: _, end: e}) => e,
None => bail!("missing max for stream {} which had min {}", stream_id, min_start),
};
Ok(Some(min_start .. max_end))
}
/// Lists all garbage ids for the given sample file directory.
pub(crate) fn list_garbage(conn: &rusqlite::Connection, dir_id: i32)
-> Result<FnvHashSet<CompositeId>, Error> {
let mut garbage = FnvHashSet::default();
let mut stmt = conn.prepare_cached(
"select composite_id from garbage where sample_file_dir_id = ?")?;
let mut rows = stmt.query(&[&dir_id])?;
while let Some(row) = rows.next() {
let row = row?;
garbage.insert(CompositeId(row.get_checked(0)?));
}
Ok(garbage)
}
/// Lists the oldest recordings for a stream, starting with the given id.
/// `f` should return true as long as further rows are desired.
pub(crate) fn list_oldest_recordings(conn: &rusqlite::Connection, start: CompositeId,
f: &mut FnMut(db::ListOldestRecordingsRow) -> bool)
-> Result<(), Error> {
let mut stmt = conn.prepare_cached(LIST_OLDEST_RECORDINGS_SQL)?;
let mut rows = stmt.query_named(&[
(":start", &start.0),
(":end", &CompositeId::new(start.stream() + 1, 0).0),
])?;
while let Some(row) = rows.next() {
let row = row?;
let should_continue = f(db::ListOldestRecordingsRow {
id: CompositeId(row.get_checked(0)?),
start: recording::Time(row.get_checked(1)?),
duration: row.get_checked(2)?,
sample_file_bytes: row.get_checked(3)?,
});
if !should_continue {
break;
}
}
Ok(())
}