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moonfire-nvr/server/src/main.rs

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upgrade copyright notices * As discussed in #48, say "The Moonfire NVR Authors" at the top of every file rather than whoever created that file. Have one AUTHORS file listing everyone. * Consistently call it a "security camera network video recorder" rather than "security camera digital video recorder".
2020-03-02 01:53:41 -05:00
// This file is part of Moonfire NVR, a security camera network video recorder.
switch from docopt to structopt A couple reasons for this: * the docopt crate is "unlikely to see significant future evolution", and the wider docopt project is "mostly unmaintained at this point". clap/structopt is more full-featured, has more natural subcommand support, etc. * it may allow me to shrink the binary (#70). This change alone seems to be a slight regression, but it's a step toward getting rid of regex, which is pretty large. And I feel less ridiculous now that I don't have two parsing crates anyway; prettydiff was pulling in structopt. There are some behavior changes here: * misc --help output changes and such as you'd expect from switching argument-parsing libraries * I properly used PathBuf and OsString for stuff that theoretically could be non-UTF-8. I haven't tested that it actually made any difference. I'm also still storing the sample file dirname as "text" in the database to avoid causing a diff when not doing a schema change.
2020-04-18 01:41:55 -04:00
// Copyright (C) 2016-2020 The Moonfire NVR Authors
Rust rewrite I should have submitted/pushed more incrementally but just played with it on my computer as I was learning the language. The new Rust version more or less matches the functionality of the current C++ version, although there are many caveats listed below. Upgrade notes: when moving from the C++ version, I recommend dropping and recreating the "recording_cover" index in SQLite3 to pick up the addition of the "video_sync_samples" column: $ sudo systemctl stop moonfire-nvr $ sudo -u moonfire-nvr sqlite3 /var/lib/moonfire-nvr/db/db sqlite> drop index recording_cover; sqlite3> create index ...rest of command as in schema.sql...; sqlite3> ^D Some known visible differences from the C++ version: * .mp4 generation queries SQLite3 differently. Before it would just get all video indexes in a single query. Now it leads with a query that should be satisfiable by the covering index (assuming the index has been recreated as noted above), then queries individual recording's indexes as needed to fill a LRU cache. I believe this is roughly similar speed for the initial hit (which generates the moov part of the file) and significantly faster when seeking. I would have done it a while ago with the C++ version but didn't want to track down a lru cache library. It was easier to find with Rust. * On startup, the Rust version cleans up old reserved files. This is as in the design; the C++ version was just missing this code. * The .html recording list output is a little different. It's in ascending order, with the most current segment shorten than an hour rather than the oldest. This is less ergonomic, but it was easy. I could fix it or just wait to obsolete it with some fancier JavaScript UI. * commandline argument parsing and logging have changed formats due to different underlying libraries. * The JSON output isn't quite right (matching the spec / C++ implementation) yet. Additional caveats: * I haven't done any proof-reading of prep.sh + install instructions. * There's a lot of code quality work to do: adding (back) comments and test coverage, developing a good Rust style. * The ffmpeg foreign function interface is particularly sketchy. I'd eventually like to switch to something based on autogenerated bindings. I'd also like to use pure Rust code where practical, but once I do on-NVR motion detection I'll need to existing C/C++ libraries for speed (H.264 decoding + OpenCL-based analysis).
2016-11-25 17:34:00 -05:00
//
// 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/>.
fix up the benchmarks These are currently the only thing which require a nightly Rust. I haven't run them since adding the feature gates. The feature gates were slightly broken, and the actual benchmarks had bitrotted a bit. Fix these things. Also put them into a separate submodule from the regular tests, so that not as many feature gates (#[cfg(feature="nightly")]) are required.
2017-01-08 17:22:35 -05:00
#![cfg_attr(all(feature="nightly", test), feature(test))]
Rust rewrite I should have submitted/pushed more incrementally but just played with it on my computer as I was learning the language. The new Rust version more or less matches the functionality of the current C++ version, although there are many caveats listed below. Upgrade notes: when moving from the C++ version, I recommend dropping and recreating the "recording_cover" index in SQLite3 to pick up the addition of the "video_sync_samples" column: $ sudo systemctl stop moonfire-nvr $ sudo -u moonfire-nvr sqlite3 /var/lib/moonfire-nvr/db/db sqlite> drop index recording_cover; sqlite3> create index ...rest of command as in schema.sql...; sqlite3> ^D Some known visible differences from the C++ version: * .mp4 generation queries SQLite3 differently. Before it would just get all video indexes in a single query. Now it leads with a query that should be satisfiable by the covering index (assuming the index has been recreated as noted above), then queries individual recording's indexes as needed to fill a LRU cache. I believe this is roughly similar speed for the initial hit (which generates the moov part of the file) and significantly faster when seeking. I would have done it a while ago with the C++ version but didn't want to track down a lru cache library. It was easier to find with Rust. * On startup, the Rust version cleans up old reserved files. This is as in the design; the C++ version was just missing this code. * The .html recording list output is a little different. It's in ascending order, with the most current segment shorten than an hour rather than the oldest. This is less ergonomic, but it was easy. I could fix it or just wait to obsolete it with some fancier JavaScript UI. * commandline argument parsing and logging have changed formats due to different underlying libraries. * The JSON output isn't quite right (matching the spec / C++ implementation) yet. Additional caveats: * I haven't done any proof-reading of prep.sh + install instructions. * There's a lot of code quality work to do: adding (back) comments and test coverage, developing a good Rust style. * The ffmpeg foreign function interface is particularly sketchy. I'd eventually like to switch to something based on autogenerated bindings. I'd also like to use pure Rust code where practical, but once I do on-NVR motion detection I'll need to existing C/C++ libraries for speed (H.264 decoding + OpenCL-based analysis).
2016-11-25 17:34:00 -05:00
lose "extern crate" everywhere (Rust 2018 edition)
2018-12-28 22:53:29 -05:00
use log::{error, info};
use mylog::Format::from_str
2020-04-22 01:19:17 -04:00
use std::str::FromStr;
switch from docopt to structopt A couple reasons for this: * the docopt crate is "unlikely to see significant future evolution", and the wider docopt project is "mostly unmaintained at this point". clap/structopt is more full-featured, has more natural subcommand support, etc. * it may allow me to shrink the binary (#70). This change alone seems to be a slight regression, but it's a step toward getting rid of regex, which is pretty large. And I feel less ridiculous now that I don't have two parsing crates anyway; prettydiff was pulling in structopt. There are some behavior changes here: * misc --help output changes and such as you'd expect from switching argument-parsing libraries * I properly used PathBuf and OsString for stuff that theoretically could be non-UTF-8. I haven't tested that it actually made any difference. I'm also still storing the sample file dirname as "text" in the database to avoid causing a diff when not doing a schema change.
2020-04-18 01:41:55 -04:00
use structopt::StructOpt;
tests and fixes for Writer and Syncer * separate these out into a new file, writer.rs, as dir.rs was getting unwieldy. * extract traits for the parts of SampleFileDir and std::fs::File they needed; set up mock implementations. * move clock.rs to a new base crate to be accessible from the db crate. * add tests that exercise all the retry paths. * bugfix: account for the new recording's bytes when calculating how much to delete. * bugfix: when retrying an unlink failure in collect_garbage, we shouldn't warn about all the recordings no longer existing. Do this by retrying each step rather than the whole procedure again. * avoid double-panic scenarios, which I hit while tweaking the mocks. These are quite annoying to debug as Rust doesn't print information about either panic. I ended up using lldb to get a backtrace. Better to be cautious about what we're doing when already panicking. * give more context on raw::insert_recording errors, which I hit as well while tweaking the new tests.
2018-03-04 15:24:24 -05:00
first step toward object detection (#30) When compiled with cargo build --features=analytics and enabled via moonfire-nvr run --object-detection, this runs object detection on every sub stream frame through an Edge TPU (a Coral USB accelerator) and logs the result. This is a very small step toward a working system. It doesn't actually record the result in the database or send it out on the live stream yet. It doesn't support running object detection at a lower frame rate than the sub streams come in at either. To address those problems, I need to do some refactoring. Currently moonfire_db::writer::Writer::Write is the only place that knows the duration of the frame it's about to flush, before it gets added to the index or sent out on the live stream. I don't want to do the detection from there; I'd prefer the moonfire_nvr crate. So I either need to introduce an analytics callback or move a bunch of that logic to the other crate. Once I do that, I need to add database support (although I have some experiments for that in moonfire-playground) and API support, then some kind of useful frontend. Note edgetpu.tflite is taken from the Apache 2.0-licensed https://github.com/google-coral/edgetpu, test_data/mobilenet_ssd_v2_coco_quant_postprocess_edgetpu.tflite. The following page says it's fine to include Apache 2.0 stuff in GPLv3 projects: https://www.apache.org/licenses/GPL-compatibility.html
2020-04-14 02:03:49 -04:00
#[cfg(feature = "analytics")]
mod analytics;
/// Stub implementation of analytics module when not compiled with TensorFlow Lite.
#[cfg(not(feature = "analytics"))]
mod analytics {
use failure::{Error, bail};
pub struct ObjectDetector;
impl ObjectDetector {
pub fn new() -> Result<std::sync::Arc<ObjectDetector>, Error> {
bail!("Recompile with --features=analytics for object detection.");
}
}
pub struct ObjectDetectorStream;
impl ObjectDetectorStream {
pub fn new(_par: ffmpeg::avcodec::InputCodecParameters<'_>,
_detector: &ObjectDetector) -> Result<Self, Error> {
unimplemented!();
}
pub fn process_frame(&mut self, _pkt: &ffmpeg::avcodec::Packet<'_>,
_detector: &ObjectDetector) -> Result<(), Error> {
unimplemented!();
}
}
}
upgrade to hyper 0.12.x Just one (intentional) functional change---now the streamers start shutting down while the webserver shuts down gracefully.
2018-08-30 01:26:19 -04:00
mod body;
use xsv-style subcommands like "moonfire-nvr run" This makes it easier to understand which options are valid with each command. Additionally, there's more separation of implementations. The most obvious consequence is that "moonfire-nvr ts ..." no longer uselessly locks/opens a database.
2017-01-16 15:50:47 -05:00
mod cmds;
Rust rewrite I should have submitted/pushed more incrementally but just played with it on my computer as I was learning the language. The new Rust version more or less matches the functionality of the current C++ version, although there are many caveats listed below. Upgrade notes: when moving from the C++ version, I recommend dropping and recreating the "recording_cover" index in SQLite3 to pick up the addition of the "video_sync_samples" column: $ sudo systemctl stop moonfire-nvr $ sudo -u moonfire-nvr sqlite3 /var/lib/moonfire-nvr/db/db sqlite> drop index recording_cover; sqlite3> create index ...rest of command as in schema.sql...; sqlite3> ^D Some known visible differences from the C++ version: * .mp4 generation queries SQLite3 differently. Before it would just get all video indexes in a single query. Now it leads with a query that should be satisfiable by the covering index (assuming the index has been recreated as noted above), then queries individual recording's indexes as needed to fill a LRU cache. I believe this is roughly similar speed for the initial hit (which generates the moov part of the file) and significantly faster when seeking. I would have done it a while ago with the C++ version but didn't want to track down a lru cache library. It was easier to find with Rust. * On startup, the Rust version cleans up old reserved files. This is as in the design; the C++ version was just missing this code. * The .html recording list output is a little different. It's in ascending order, with the most current segment shorten than an hour rather than the oldest. This is less ergonomic, but it was easy. I could fix it or just wait to obsolete it with some fancier JavaScript UI. * commandline argument parsing and logging have changed formats due to different underlying libraries. * The JSON output isn't quite right (matching the spec / C++ implementation) yet. Additional caveats: * I haven't done any proof-reading of prep.sh + install instructions. * There's a lot of code quality work to do: adding (back) comments and test coverage, developing a good Rust style. * The ffmpeg foreign function interface is particularly sketchy. I'd eventually like to switch to something based on autogenerated bindings. I'd also like to use pure Rust code where practical, but once I do on-NVR motion detection I'll need to existing C/C++ libraries for speed (H.264 decoding + OpenCL-based analysis).
2016-11-25 17:34:00 -05:00
mod h264;
upgrade dependencies Rust 1.15+ now supports serde codegen on stable without the build.rs. Update to serde 0.9 and uuid crate 0.4 to match.
2017-02-05 23:13:51 -05:00
mod json;
Rust rewrite I should have submitted/pushed more incrementally but just played with it on my computer as I was learning the language. The new Rust version more or less matches the functionality of the current C++ version, although there are many caveats listed below. Upgrade notes: when moving from the C++ version, I recommend dropping and recreating the "recording_cover" index in SQLite3 to pick up the addition of the "video_sync_samples" column: $ sudo systemctl stop moonfire-nvr $ sudo -u moonfire-nvr sqlite3 /var/lib/moonfire-nvr/db/db sqlite> drop index recording_cover; sqlite3> create index ...rest of command as in schema.sql...; sqlite3> ^D Some known visible differences from the C++ version: * .mp4 generation queries SQLite3 differently. Before it would just get all video indexes in a single query. Now it leads with a query that should be satisfiable by the covering index (assuming the index has been recreated as noted above), then queries individual recording's indexes as needed to fill a LRU cache. I believe this is roughly similar speed for the initial hit (which generates the moov part of the file) and significantly faster when seeking. I would have done it a while ago with the C++ version but didn't want to track down a lru cache library. It was easier to find with Rust. * On startup, the Rust version cleans up old reserved files. This is as in the design; the C++ version was just missing this code. * The .html recording list output is a little different. It's in ascending order, with the most current segment shorten than an hour rather than the oldest. This is less ergonomic, but it was easy. I could fix it or just wait to obsolete it with some fancier JavaScript UI. * commandline argument parsing and logging have changed formats due to different underlying libraries. * The JSON output isn't quite right (matching the spec / C++ implementation) yet. Additional caveats: * I haven't done any proof-reading of prep.sh + install instructions. * There's a lot of code quality work to do: adding (back) comments and test coverage, developing a good Rust style. * The ffmpeg foreign function interface is particularly sketchy. I'd eventually like to switch to something based on autogenerated bindings. I'd also like to use pure Rust code where practical, but once I do on-NVR motion detection I'll need to existing C/C++ libraries for speed (H.264 decoding + OpenCL-based analysis).
2016-11-25 17:34:00 -05:00
mod mp4;
Shrink mp4 file slices from 16 to 8 bytes each For a one-hour recording, this is about 2 KiB, so a decent chunk of a Raspberry Pi 2's L1 cache. Generating the Slices and searching/scanning it should be a bit faster and pollute the cache less. This is a pretty small optimization now when transferring a decent chunk of the moov or mdat, but it's easy enough to do. It will be much more noticeable if I end up interleaving the captions between each key frame.
2017-02-21 22:37:36 -05:00
mod slices;
Rust rewrite I should have submitted/pushed more incrementally but just played with it on my computer as I was learning the language. The new Rust version more or less matches the functionality of the current C++ version, although there are many caveats listed below. Upgrade notes: when moving from the C++ version, I recommend dropping and recreating the "recording_cover" index in SQLite3 to pick up the addition of the "video_sync_samples" column: $ sudo systemctl stop moonfire-nvr $ sudo -u moonfire-nvr sqlite3 /var/lib/moonfire-nvr/db/db sqlite> drop index recording_cover; sqlite3> create index ...rest of command as in schema.sql...; sqlite3> ^D Some known visible differences from the C++ version: * .mp4 generation queries SQLite3 differently. Before it would just get all video indexes in a single query. Now it leads with a query that should be satisfiable by the covering index (assuming the index has been recreated as noted above), then queries individual recording's indexes as needed to fill a LRU cache. I believe this is roughly similar speed for the initial hit (which generates the moov part of the file) and significantly faster when seeking. I would have done it a while ago with the C++ version but didn't want to track down a lru cache library. It was easier to find with Rust. * On startup, the Rust version cleans up old reserved files. This is as in the design; the C++ version was just missing this code. * The .html recording list output is a little different. It's in ascending order, with the most current segment shorten than an hour rather than the oldest. This is less ergonomic, but it was easy. I could fix it or just wait to obsolete it with some fancier JavaScript UI. * commandline argument parsing and logging have changed formats due to different underlying libraries. * The JSON output isn't quite right (matching the spec / C++ implementation) yet. Additional caveats: * I haven't done any proof-reading of prep.sh + install instructions. * There's a lot of code quality work to do: adding (back) comments and test coverage, developing a good Rust style. * The ffmpeg foreign function interface is particularly sketchy. I'd eventually like to switch to something based on autogenerated bindings. I'd also like to use pure Rust code where practical, but once I do on-NVR motion detection I'll need to existing C/C++ libraries for speed (H.264 decoding + OpenCL-based analysis).
2016-11-25 17:34:00 -05:00
mod stream;
mod streamer;
mod web;
switch from docopt to structopt A couple reasons for this: * the docopt crate is "unlikely to see significant future evolution", and the wider docopt project is "mostly unmaintained at this point". clap/structopt is more full-featured, has more natural subcommand support, etc. * it may allow me to shrink the binary (#70). This change alone seems to be a slight regression, but it's a step toward getting rid of regex, which is pretty large. And I feel less ridiculous now that I don't have two parsing crates anyway; prettydiff was pulling in structopt. There are some behavior changes here: * misc --help output changes and such as you'd expect from switching argument-parsing libraries * I properly used PathBuf and OsString for stuff that theoretically could be non-UTF-8. I haven't tested that it actually made any difference. I'm also still storing the sample file dirname as "text" in the database to avoid causing a diff when not doing a schema change.
2020-04-18 01:41:55 -04:00
#[derive(StructOpt)]
#[structopt(name="moonfire-nvr", about="security camera network video recorder")]
enum Args {
/// Checks database integrity (like fsck).
Check(cmds::check::Args),
Rust rewrite I should have submitted/pushed more incrementally but just played with it on my computer as I was learning the language. The new Rust version more or less matches the functionality of the current C++ version, although there are many caveats listed below. Upgrade notes: when moving from the C++ version, I recommend dropping and recreating the "recording_cover" index in SQLite3 to pick up the addition of the "video_sync_samples" column: $ sudo systemctl stop moonfire-nvr $ sudo -u moonfire-nvr sqlite3 /var/lib/moonfire-nvr/db/db sqlite> drop index recording_cover; sqlite3> create index ...rest of command as in schema.sql...; sqlite3> ^D Some known visible differences from the C++ version: * .mp4 generation queries SQLite3 differently. Before it would just get all video indexes in a single query. Now it leads with a query that should be satisfiable by the covering index (assuming the index has been recreated as noted above), then queries individual recording's indexes as needed to fill a LRU cache. I believe this is roughly similar speed for the initial hit (which generates the moov part of the file) and significantly faster when seeking. I would have done it a while ago with the C++ version but didn't want to track down a lru cache library. It was easier to find with Rust. * On startup, the Rust version cleans up old reserved files. This is as in the design; the C++ version was just missing this code. * The .html recording list output is a little different. It's in ascending order, with the most current segment shorten than an hour rather than the oldest. This is less ergonomic, but it was easy. I could fix it or just wait to obsolete it with some fancier JavaScript UI. * commandline argument parsing and logging have changed formats due to different underlying libraries. * The JSON output isn't quite right (matching the spec / C++ implementation) yet. Additional caveats: * I haven't done any proof-reading of prep.sh + install instructions. * There's a lot of code quality work to do: adding (back) comments and test coverage, developing a good Rust style. * The ffmpeg foreign function interface is particularly sketchy. I'd eventually like to switch to something based on autogenerated bindings. I'd also like to use pure Rust code where practical, but once I do on-NVR motion detection I'll need to existing C/C++ libraries for speed (H.264 decoding + OpenCL-based analysis).
2016-11-25 17:34:00 -05:00
switch from docopt to structopt A couple reasons for this: * the docopt crate is "unlikely to see significant future evolution", and the wider docopt project is "mostly unmaintained at this point". clap/structopt is more full-featured, has more natural subcommand support, etc. * it may allow me to shrink the binary (#70). This change alone seems to be a slight regression, but it's a step toward getting rid of regex, which is pretty large. And I feel less ridiculous now that I don't have two parsing crates anyway; prettydiff was pulling in structopt. There are some behavior changes here: * misc --help output changes and such as you'd expect from switching argument-parsing libraries * I properly used PathBuf and OsString for stuff that theoretically could be non-UTF-8. I haven't tested that it actually made any difference. I'm also still storing the sample file dirname as "text" in the database to avoid causing a diff when not doing a schema change.
2020-04-18 01:41:55 -04:00
/// Interactively edits configuration.
Config(cmds::config::Args),
use xsv-style subcommands like "moonfire-nvr run" This makes it easier to understand which options are valid with each command. Additionally, there's more separation of implementations. The most obvious consequence is that "moonfire-nvr ts ..." no longer uselessly locks/opens a database.
2017-01-16 15:50:47 -05:00
switch from docopt to structopt A couple reasons for this: * the docopt crate is "unlikely to see significant future evolution", and the wider docopt project is "mostly unmaintained at this point". clap/structopt is more full-featured, has more natural subcommand support, etc. * it may allow me to shrink the binary (#70). This change alone seems to be a slight regression, but it's a step toward getting rid of regex, which is pretty large. And I feel less ridiculous now that I don't have two parsing crates anyway; prettydiff was pulling in structopt. There are some behavior changes here: * misc --help output changes and such as you'd expect from switching argument-parsing libraries * I properly used PathBuf and OsString for stuff that theoretically could be non-UTF-8. I haven't tested that it actually made any difference. I'm also still storing the sample file dirname as "text" in the database to avoid causing a diff when not doing a schema change.
2020-04-18 01:41:55 -04:00
/// Initializes a database.
Init(cmds::init::Args),
Rust rewrite I should have submitted/pushed more incrementally but just played with it on my computer as I was learning the language. The new Rust version more or less matches the functionality of the current C++ version, although there are many caveats listed below. Upgrade notes: when moving from the C++ version, I recommend dropping and recreating the "recording_cover" index in SQLite3 to pick up the addition of the "video_sync_samples" column: $ sudo systemctl stop moonfire-nvr $ sudo -u moonfire-nvr sqlite3 /var/lib/moonfire-nvr/db/db sqlite> drop index recording_cover; sqlite3> create index ...rest of command as in schema.sql...; sqlite3> ^D Some known visible differences from the C++ version: * .mp4 generation queries SQLite3 differently. Before it would just get all video indexes in a single query. Now it leads with a query that should be satisfiable by the covering index (assuming the index has been recreated as noted above), then queries individual recording's indexes as needed to fill a LRU cache. I believe this is roughly similar speed for the initial hit (which generates the moov part of the file) and significantly faster when seeking. I would have done it a while ago with the C++ version but didn't want to track down a lru cache library. It was easier to find with Rust. * On startup, the Rust version cleans up old reserved files. This is as in the design; the C++ version was just missing this code. * The .html recording list output is a little different. It's in ascending order, with the most current segment shorten than an hour rather than the oldest. This is less ergonomic, but it was easy. I could fix it or just wait to obsolete it with some fancier JavaScript UI. * commandline argument parsing and logging have changed formats due to different underlying libraries. * The JSON output isn't quite right (matching the spec / C++ implementation) yet. Additional caveats: * I haven't done any proof-reading of prep.sh + install instructions. * There's a lot of code quality work to do: adding (back) comments and test coverage, developing a good Rust style. * The ffmpeg foreign function interface is particularly sketchy. I'd eventually like to switch to something based on autogenerated bindings. I'd also like to use pure Rust code where practical, but once I do on-NVR motion detection I'll need to existing C/C++ libraries for speed (H.264 decoding + OpenCL-based analysis).
2016-11-25 17:34:00 -05:00
switch from docopt to structopt A couple reasons for this: * the docopt crate is "unlikely to see significant future evolution", and the wider docopt project is "mostly unmaintained at this point". clap/structopt is more full-featured, has more natural subcommand support, etc. * it may allow me to shrink the binary (#70). This change alone seems to be a slight regression, but it's a step toward getting rid of regex, which is pretty large. And I feel less ridiculous now that I don't have two parsing crates anyway; prettydiff was pulling in structopt. There are some behavior changes here: * misc --help output changes and such as you'd expect from switching argument-parsing libraries * I properly used PathBuf and OsString for stuff that theoretically could be non-UTF-8. I haven't tested that it actually made any difference. I'm also still storing the sample file dirname as "text" in the database to avoid causing a diff when not doing a schema change.
2020-04-18 01:41:55 -04:00
/// Logs in a user, returning the session cookie.
///
/// This is a privileged command that directly accesses the database. It doesn't check the
/// user's password and even can be used to create sessions with permissions the user doesn't
/// have.
Login(cmds::login::Args),
/// Runs the server, saving recordings and allowing web access.
Run(cmds::run::Args),
/// Runs a SQLite3 shell on Moonfire NVR's index database.
///
/// Note this locks the database to prevent simultaneous access with a running server. The
/// server maintains cached state which could be invalidated otherwise.
Sql(cmds::sql::Args),
/// Translates between integer and human-readable timestamps.
Ts(cmds::ts::Args),
/// Upgrades to the latest database schema.
Upgrade(cmds::upgrade::Args),
use xsv-style subcommands like "moonfire-nvr run" This makes it easier to understand which options are valid with each command. Additionally, there's more separation of implementations. The most obvious consequence is that "moonfire-nvr ts ..." no longer uselessly locks/opens a database.
2017-01-16 15:50:47 -05:00
}
switch from docopt to structopt A couple reasons for this: * the docopt crate is "unlikely to see significant future evolution", and the wider docopt project is "mostly unmaintained at this point". clap/structopt is more full-featured, has more natural subcommand support, etc. * it may allow me to shrink the binary (#70). This change alone seems to be a slight regression, but it's a step toward getting rid of regex, which is pretty large. And I feel less ridiculous now that I don't have two parsing crates anyway; prettydiff was pulling in structopt. There are some behavior changes here: * misc --help output changes and such as you'd expect from switching argument-parsing libraries * I properly used PathBuf and OsString for stuff that theoretically could be non-UTF-8. I haven't tested that it actually made any difference. I'm also still storing the sample file dirname as "text" in the database to avoid causing a diff when not doing a schema change.
2020-04-18 01:41:55 -04:00
impl Args {
fn run(&self) -> Result<(), 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),
}
use xsv-style subcommands like "moonfire-nvr run" This makes it easier to understand which options are valid with each command. Additionally, there's more separation of implementations. The most obvious consequence is that "moonfire-nvr ts ..." no longer uselessly locks/opens a database.
2017-01-16 15:50:47 -05:00
}
Rust rewrite I should have submitted/pushed more incrementally but just played with it on my computer as I was learning the language. The new Rust version more or less matches the functionality of the current C++ version, although there are many caveats listed below. Upgrade notes: when moving from the C++ version, I recommend dropping and recreating the "recording_cover" index in SQLite3 to pick up the addition of the "video_sync_samples" column: $ sudo systemctl stop moonfire-nvr $ sudo -u moonfire-nvr sqlite3 /var/lib/moonfire-nvr/db/db sqlite> drop index recording_cover; sqlite3> create index ...rest of command as in schema.sql...; sqlite3> ^D Some known visible differences from the C++ version: * .mp4 generation queries SQLite3 differently. Before it would just get all video indexes in a single query. Now it leads with a query that should be satisfiable by the covering index (assuming the index has been recreated as noted above), then queries individual recording's indexes as needed to fill a LRU cache. I believe this is roughly similar speed for the initial hit (which generates the moov part of the file) and significantly faster when seeking. I would have done it a while ago with the C++ version but didn't want to track down a lru cache library. It was easier to find with Rust. * On startup, the Rust version cleans up old reserved files. This is as in the design; the C++ version was just missing this code. * The .html recording list output is a little different. It's in ascending order, with the most current segment shorten than an hour rather than the oldest. This is less ergonomic, but it was easy. I could fix it or just wait to obsolete it with some fancier JavaScript UI. * commandline argument parsing and logging have changed formats due to different underlying libraries. * The JSON output isn't quite right (matching the spec / C++ implementation) yet. Additional caveats: * I haven't done any proof-reading of prep.sh + install instructions. * There's a lot of code quality work to do: adding (back) comments and test coverage, developing a good Rust style. * The ffmpeg foreign function interface is particularly sketchy. I'd eventually like to switch to something based on autogenerated bindings. I'd also like to use pure Rust code where practical, but once I do on-NVR motion detection I'll need to existing C/C++ libraries for speed (H.264 decoding + OpenCL-based analysis).
2016-11-25 17:34:00 -05:00
}
fn main() {
switch from docopt to structopt A couple reasons for this: * the docopt crate is "unlikely to see significant future evolution", and the wider docopt project is "mostly unmaintained at this point". clap/structopt is more full-featured, has more natural subcommand support, etc. * it may allow me to shrink the binary (#70). This change alone seems to be a slight regression, but it's a step toward getting rid of regex, which is pretty large. And I feel less ridiculous now that I don't have two parsing crates anyway; prettydiff was pulling in structopt. There are some behavior changes here: * misc --help output changes and such as you'd expect from switching argument-parsing libraries * I properly used PathBuf and OsString for stuff that theoretically could be non-UTF-8. I haven't tested that it actually made any difference. I'm also still storing the sample file dirname as "text" in the database to avoid causing a diff when not doing a schema change.
2020-04-18 01:41:55 -04:00
let args = Args::from_args();
use my own logging package This supports formats that I find more useful; one that mimicks the Google glog package, and one that is similar but adapted for the systemd journal.
2017-03-26 03:01:48 -04:00
let mut h = mylog::Builder::new()
.set_format(::std::env::var("MOONFIRE_FORMAT")
use mylog::Format::from_str
2020-04-22 01:19:17 -04:00
.map_err(|_| ())
.and_then(|s| mylog::Format::from_str(&s))
use my own logging package This supports formats that I find more useful; one that mimicks the Google glog package, and one that is similar but adapted for the systemd journal.
2017-03-26 03:01:48 -04:00
.unwrap_or(mylog::Format::Google))
.set_spec(&::std::env::var("MOONFIRE_LOG").unwrap_or("info".to_owned()))
.build();
h.clone().install().unwrap();
upgrade deps Both a "cargo update" and a bump of major versions of a few deps. I left a few alone: * base64 because some of the deps depend on 0.11 (and 0.9), so I don't want to pull in a third version (0.12). * ring because libpasta depends on this version and I don't want to pull in two of them. * time because it's not trivial. Last I checked, time 0.2 couldn't even do what I wanted at all. I also made tokio use parking_lot, since I pull it in anyway.
2020-04-18 18:44:35 -04:00
if let Err(e) = { let _a = h.async_scope(); args.run() } {
extend recording_playback with an open_id As noted in schema.sql, this can be used for disambiguation. It also may be useful in diagnosing data integrity problems. Also, sneak in a couple minor improvements: better diagnostics in a couple places, fix to 1->2 upgrade procedure.
2018-02-23 00:46:41 -05:00
error!("{:?}", e);
use xsv-style subcommands like "moonfire-nvr run" This makes it easier to understand which options are valid with each command. Additionally, there's more separation of implementations. The most obvious consequence is that "moonfire-nvr ts ..." no longer uselessly locks/opens a database.
2017-01-16 15:50:47 -05:00
::std::process::exit(1);
Rust rewrite I should have submitted/pushed more incrementally but just played with it on my computer as I was learning the language. The new Rust version more or less matches the functionality of the current C++ version, although there are many caveats listed below. Upgrade notes: when moving from the C++ version, I recommend dropping and recreating the "recording_cover" index in SQLite3 to pick up the addition of the "video_sync_samples" column: $ sudo systemctl stop moonfire-nvr $ sudo -u moonfire-nvr sqlite3 /var/lib/moonfire-nvr/db/db sqlite> drop index recording_cover; sqlite3> create index ...rest of command as in schema.sql...; sqlite3> ^D Some known visible differences from the C++ version: * .mp4 generation queries SQLite3 differently. Before it would just get all video indexes in a single query. Now it leads with a query that should be satisfiable by the covering index (assuming the index has been recreated as noted above), then queries individual recording's indexes as needed to fill a LRU cache. I believe this is roughly similar speed for the initial hit (which generates the moov part of the file) and significantly faster when seeking. I would have done it a while ago with the C++ version but didn't want to track down a lru cache library. It was easier to find with Rust. * On startup, the Rust version cleans up old reserved files. This is as in the design; the C++ version was just missing this code. * The .html recording list output is a little different. It's in ascending order, with the most current segment shorten than an hour rather than the oldest. This is less ergonomic, but it was easy. I could fix it or just wait to obsolete it with some fancier JavaScript UI. * commandline argument parsing and logging have changed formats due to different underlying libraries. * The JSON output isn't quite right (matching the spec / C++ implementation) yet. Additional caveats: * I haven't done any proof-reading of prep.sh + install instructions. * There's a lot of code quality work to do: adding (back) comments and test coverage, developing a good Rust style. * The ffmpeg foreign function interface is particularly sketchy. I'd eventually like to switch to something based on autogenerated bindings. I'd also like to use pure Rust code where practical, but once I do on-NVR motion detection I'll need to existing C/C++ libraries for speed (H.264 decoding + OpenCL-based analysis).
2016-11-25 17:34:00 -05:00
}
use my own logging package This supports formats that I find more useful; one that mimicks the Google glog package, and one that is similar but adapted for the systemd journal.
2017-03-26 03:01:48 -04:00
info!("Success.");
Rust rewrite I should have submitted/pushed more incrementally but just played with it on my computer as I was learning the language. The new Rust version more or less matches the functionality of the current C++ version, although there are many caveats listed below. Upgrade notes: when moving from the C++ version, I recommend dropping and recreating the "recording_cover" index in SQLite3 to pick up the addition of the "video_sync_samples" column: $ sudo systemctl stop moonfire-nvr $ sudo -u moonfire-nvr sqlite3 /var/lib/moonfire-nvr/db/db sqlite> drop index recording_cover; sqlite3> create index ...rest of command as in schema.sql...; sqlite3> ^D Some known visible differences from the C++ version: * .mp4 generation queries SQLite3 differently. Before it would just get all video indexes in a single query. Now it leads with a query that should be satisfiable by the covering index (assuming the index has been recreated as noted above), then queries individual recording's indexes as needed to fill a LRU cache. I believe this is roughly similar speed for the initial hit (which generates the moov part of the file) and significantly faster when seeking. I would have done it a while ago with the C++ version but didn't want to track down a lru cache library. It was easier to find with Rust. * On startup, the Rust version cleans up old reserved files. This is as in the design; the C++ version was just missing this code. * The .html recording list output is a little different. It's in ascending order, with the most current segment shorten than an hour rather than the oldest. This is less ergonomic, but it was easy. I could fix it or just wait to obsolete it with some fancier JavaScript UI. * commandline argument parsing and logging have changed formats due to different underlying libraries. * The JSON output isn't quite right (matching the spec / C++ implementation) yet. Additional caveats: * I haven't done any proof-reading of prep.sh + install instructions. * There's a lot of code quality work to do: adding (back) comments and test coverage, developing a good Rust style. * The ffmpeg foreign function interface is particularly sketchy. I'd eventually like to switch to something based on autogenerated bindings. I'd also like to use pure Rust code where practical, but once I do on-NVR motion detection I'll need to existing C/C++ libraries for speed (H.264 decoding + OpenCL-based analysis).
2016-11-25 17:34:00 -05:00
}
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