moonfire-nvr/guide/troubleshooting.md
2021-07-13 12:49:17 -07:00

437 lines
20 KiB
Markdown
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

# Troubleshooting <!-- omit in toc -->
Here are some tips for diagnosing various problems with Moonfire NVR. Feel free
to open an [issue](https://github.com/scottlamb/moonfire-nvr/issues) if you
need more help.
* [Viewing Moonfire NVR's logs](#viewing-moonfire-nvrs-logs)
* [Flushes](#flushes)
* [Panic errors](#panic-errors)
* [Slow operations](#slow-operations)
* [Camera stream errors](#camera-stream-errors)
* [Problems](#problems)
* [Server errors](#server-errors)
* [Problems reading video from cameras](#problems-reading-video-from-cameras)
* [`clock_gettime failed: EPERM: Operation not permitted`](#clock_gettime-failed-eperm-operation-not-permitted)
* [`Error: pts not monotonically increasing; got 26615520 then 26539470`](#error-pts-not-monotonically-increasing-got-26615520-then-26539470)
* [Out of disk space](#out-of-disk-space)
* [Database or filesystem corruption errors](#database-or-filesystem-corruption-errors)
* [Incorrect timestamps](#incorrect-timestamps)
* [Configuration interface problems](#configuration-interface-problems)
* [`moonfire-nvr config` displays garbage](#moonfire-nvr-config-displays-garbage)
* [Browser user interface problems](#browser-user-interface-problems)
* [Live stream always fails with `ws close: 1006`](#live-stream-always-fails-with-ws-close-1006)
* [Errors in kernel logs](#errors-in-kernel-logs)
* [UAS errors](#uas-errors)
* [Filesystem errors](#filesystem-errors)
## Viewing Moonfire NVR's logs
While Moonfire NVR is running, logs will be written to stderr.
* When running the configuration UI, you typically should redirect stderr
to a text file to avoid poor interaction between the interactive stdout
output and the logging. If you use the recommended
`nvr config 2>debug-log` command, output will be in the `debug-log` file.
* When running detached through Docker, Docker saves the logs for you.
Try `nvr logs` or `docker logs moonfire-nvr`.
* When running through systemd, stderr will be redirected to the journal.
Try `sudo journalctl --unit moonfire-nvr` to view the logs. You also
likely want to set `MOONFIRE_FORMAT=google-systemd` to format logs as
expected by systemd.
Logging options are controlled by environment variables:
* `MOONFIRE_LOG` controls the log level. Its format is similar to the
`RUST_LOG` variable used by the
[env-logger](http://rust-lang-nursery.github.io/log/env_logger/) crate.
`MOONFIRE_LOG=info` is the default.
`MOONFIRE_LOG=info,moonfire_nvr=debug` gives more detailed logging of the
`moonfire_nvr` crate itself.
* `MOONFIRE_FORMAT` selects the output format. The two options currently
accepted are `google` (the default, like the Google
[glog](https://github.com/google/glog) package) and `google-systemd` (a
variation for better systemd compatibility).
* `MOONFIRE_COLOR` controls color coding when using the `google` format.
It accepts `always`, `never`, or `auto`. `auto` means to color code if
stderr is a terminal.
* Errors include a backtrace if `RUST_BACKTRACE=1` is set.
If you use Docker, set these via Docker's `--env` argument.
With the default `MOONFIRE_FORMAT=google`, log lines are in the following
format:
```text
I20210308 21:31:24.255 main moonfire_nvr] Success.
LYYYYmmdd HH:MM:SS.FFF TTTT PPPPPPPPPPPP] ...
L = level:
E = error; when color mode is on, the message will be bright red.
W = warn; " " " " " " " " " " yellow.
I = info
D = debug
T = trace
YYYY = year
mm = month
dd = day
HH = hour (using a 24-hour clock)
MM = minute
SS = second
FFF = fractional portion of the second
TTTT = thread name (if set) or tid (otherwise)
PPPP = log target (usually a module path)
... = message body
```
Moonfire NVR names a few important thread types as follows:
* `main`: during `moonfire-nvr run`, the main thread does initial setup then
just waits for the other threads. In other subcommands, it does everything.
* `s-CAMERA-TYPE` (one per stream, where `TYPE` is `main` or `sub`): these
threads write video data to disk. When using `--rtsp-library=ffmpeg`, they
also read the video data from the cameras via RTSP.
* `sync-PATH` (one per sample file directory): These threads call `fsync` to
* commit sample files to disk, delete old sample files, and flush the
database.
* `r-PATH` (one per sample file directory): These threads read sample files
from disk for serving `.mp4` files.
* `tokio-runtime-worker` (one per core, unless overridden with
`--worker-threads`): these threads handle HTTP requests.
When using `--rtsp-library=retina`, they also read video data from cameras
via RTSP.
* `logger`: this thread writes the log buffer to `stderr`. Logging is
asynchronous; other threads don't wait for log messages to be written
unless the log buffer is full.
You can use the following command to teach [`lnav`](http://lnav.org/) Moonfire
NVR's log format:
```
$ lnav -i misc/moonfire_log.json
```
`lnav` versions prior to 0.9.0 print a (harmless) warning message on startup:
```
$ lnav -i git/moonfire-nvr/misc/moonfire_log.json
warning:git/moonfire-nvr/misc/moonfire_log.json:line 2
warning: unexpected path --
warning: /$schema
warning: accepted paths --
warning: /(?<format_name>\w+)/ -- The definition of a log file format.
info: installed: /home/slamb/.lnav/formats/installed/moonfire_log.json
```
You can avoid this by removing the `$schema` line from `moonfire_log.json`
and rerunning the `lnav -i` command.
Below are some interesting log lines you may encounter.
### Flushes
During normal operation, Moonfire NVR will periodically flush changes to its
SQLite3 database. Every flush is logged, as in the following info message:
```
I20210308 23:14:18.388 sync-/media/14tb/sample moonfire_db::db] Flush 3810 (why: 120 sec after start of 1 minute 14 seconds courtyard-main recording 3/1842086):
/media/6tb/sample: added 98M 864K 842B in 8 recordings (4/1839795, 7/1503516, 6/1853939, 1/1838087, 2/1852096, 12/1516945, 8/1514942, 10/1506111), deleted 111M 435K 587B in 5 (4/1801170, 4/1801171, 6/1799708, 1/1801528, 2/1815572), GCed 9 recordings (6/1799707, 7/1376577, 4/1801168, 1/1801527, 4/1801167, 4/1801169, 10/1243252, 2/1815571, 12/1418785).
/media/14tb/sample: added 8M 364K 643B in 3 recordings (3/1842086, 9/1505359, 11/1516695), deleted 0B in 0 (), GCed 0 recordings ().
```
This log message is packed with debugging information:
* the date and time: `20210308 23:14:18.388`.
* the name of the thread that prompted the flush: `sync-/media/14tb/sample`.
* a sequence number: `3810`. This is handy for checking how often Moonfire NVR
is flushing.
* a reason for the flush: `120 sec after start of 1 minute 14 seconds courtyard-main recording 3/1842086`.
This was a regular periodic flush at the `flush_if_sec` for the stream,
as described in [install.md](install.md). `3/1842086` is an identifier for
the recording, in the form `stream_id/recording_id`. It corresponds to the
file `/media/14tb/sample/00000003001c1ba6`. On-disk files are named by
a fixed eight hexadecimal digits for the stream id and eight hexadecimal
digits for the recording id. You can convert with `printf`:
```
$ printf '%08x%08x\n' 3 1842086
00000003001c1ba6
```
* For each affected sample file directory (`/media/6tb/sample` and
`/media/14tb/sample`), a line showing the exact changes included in the
flush. There are three kinds of changes:
* added recordingsthese files are already fully written in the sample
file directory and now are being added to the database.
* deleted recordingsthese are being removed from the database's
`recording` table (and added to the `garbage` table) in preparation
for being deleted from the sample file directory. They can no longer
be accessed after this flush.
* GCed (garbage-collected) recordings—these have been fully removed from
disk and no longer will be referenced in the database at all.
You can learn more about these in the "Lifecycle of a recording" section
of the [recording schema design document](../design/schema.md).
For added and deleted recordings, the line includes sizes in bytes
(`98M 864K 842B` represents 10,3646,026 bytes, or about 99 MiB), numbers
of recordings, and the IDs of each recording. For GCed recordings, the
sizes are omitted (as this information is not stored).
### Panic errors
Errors like the one below indicate a serious bug in Moonfire NVR. Please
file a bug if you see one. It's helpful to set the `RUST_BACKTRACE`
environment variable to include more information.
```
E20210304 11:09:29.230 main s-peck_west-main] panic at 'src/moonfire-nvr/server/db/writer.rs:750:54': should always be an unindexed sample
(set environment variable RUST_BACKTRACE=1 to see backtraces)"
```
In this case, a stream thread (one starting with `s-`) panicked. That stream
won't record again until Moonfire NVR is restarted.
### Slow operations
Warnings like the following indicate that some operation took more than 1
second to perform. `PT2.070715796S` means about 2 seconds.
It's normal to see these warnings on startup and occasionally while running.
Frequent occurrences may indicate a performance problem.
```
W20201129 12:01:21.128 s-driveway-main moonfire_base::clock] opening rtsp://admin:redacted@192.168.5.108/cam/realmonitor?channel=1&subtype=0&unicast=true&proto=Onvif took PT2.070715796S!
W20201129 12:32:15.870 s-west_side-sub moonfire_base::clock] getting next packet took PT10.158121387S!
W20201228 12:09:29.050 s-back_east-sub moonfire_base::clock] database lock acquisition took PT8.122452
W20201228 21:22:32.012 main moonfire_base::clock] database operation took PT39.526386958S!
W20201228 21:27:11.402 s-driveway-sub moonfire_base::clock] writing 37 bytes took PT20.701894190S!
```
### Camera stream errors
Warnings like the following indicate that a camera stream was lost due to some
error and Moonfire NVR will try reconnecting shortly. In this case,
`End of file` means that the camera ended the stream. This might happen when the
camera is rebooting or if Moonfire is not consuming packets quickly enough.
In the latter case, you'll likely see a `getting next packet took PT...S!`
message as described above.
```
W20210309 00:28:55.527 s-courtyard-sub moonfire_nvr::streamer] courtyard-sub: sleeping for Duration { secs: 1, nanos: 0 } after error: End of file
(set environment variable RUST_BACKTRACE=1 to see backtraces)
```
## Problems
### Server errors
#### Problems reading video from cameras
Moonfire NVR is switching its RTSP handling from ffmpeg to a pure-Rust
library developed by Moonfire NVR's author. If it doesn't read camera
data successfully, please try restarting with `--rtsp-library=ffmpeg` to see
if the problem goes away. Then please file a bug!
#### `clock_gettime failed: EPERM: Operation not permitted`
If commands fail with an error like the following, you're likely running
Docker with an overly restrictive `seccomp` setup. [This stackoverflow
answer](https://askubuntu.com/questions/1263284/apt-update-throws-signature-error-in-ubuntu-20-04-container-on-arm/1264921#1264921) describes the
problem in more detail. The simplest solution is to add
`--security-opt=seccomp:unconfined` to your Docker commandline.
If you are using the recommended `/usr/local/bin/nvr` wrapper script,
add this option to the `common_docker_run_args` section.
```
$ docker run --rm -it moonfire-nvr:latest
clock_gettime failed: EPERM: Operation not permitted
This indicates a broken environment. See the troubleshooting guide.
```
#### `Error: pts not monotonically increasing; got 26615520 then 26539470`
If your streams cut out and you see error messages like this one in Moonfire
NVR logs, it might mean that your camera outputs [B
frames](https://en.wikipedia.org/wiki/Video_compression_picture_types#Bi-directional_predicted_.28B.29_frames.2Fslices_.28macroblocks.29).
If you believe this is the case, file a feature request; Moonfire NVR
currently doesn't support B frames. You may be able to configure your camera
to disable B frames in the meantime.
#### Out of disk space
If Moonfire NVR runs out of disk space on a sample file directory, recording
will be stuck and you'll see log messages like the following:
```
W20210401 11:21:07.365 s-driveway-main moonfire_base::clock] sleeping for Duration { secs: 1, nanos: 0 } after error: No space left on device (os error 28)
```
If something else used more disk space on the filesystem than planned, just
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`:
```
$ sudo killall -KILL 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.
3. Start Moonfire NVR again. It will clean up the excess disk files on
startup and should run properly.
#### Database or filesystem corruption errors
It's helpful to check out your system's overall health when diagnosing
this kind of problem with Moonfire NVR.
1. Look at your kernel logs. On most Linux systems, you can browse them via
`journalctl`, `dmesg`, or `less /var/log/messages`. See [Errors in kernel
logs](#errors-in-kernel-logs) below for some common problems.
2. Use [`smartctl`](https://linuxconfig.org/how-to-check-an-hard-drive-health-from-the-command-line-using-smartctl) to
look at SMART ("Self-Monitoring, Analysis and Reporting Technology System
(SMART)") attributes on your flash and hard drives. Backblaze
[reports](https://www.backblaze.com/blog/what-smart-stats-indicate-hard-drive-failures/)
that the following SMART attributes are most predictive of drive failure:
* SMART 5: Reallocated Sectors Count
* SMART 187: Reported Uncorrectable Errors
* SMART 188: Command Timeout
* SMART 197: Current Pending Sector Count
* SMART 198: Uncorrectable Sector Count
If the RAW value for any of these attributes is non-zero, it's likely
your problem is due to hardware.
3. Use `smartctl` to run a self-test on your flash and hard drives.
4. Run `fsck` on your filesystems.
Your root filesystem is best checked on startup, before it's mounted as
read-write. On most Linux systems, you can force `fsck` to run on next
startup via the `fsck.mode=force` kernel parameter, as documented
[here](https://www.freedesktop.org/software/systemd/man/systemd-fsck@.service.html).
If you have hard drives dedicated to Moonfire NVR, you can also shut down
Moonfire NVR, unmount the filesystem, and run `fsck` on them without
rebooting.
After the system as a whole is verified healthy, run `moonfire-nvr check` while
Moonfire NVR is stopped to verify integrity of the SQLite database and sample
file directories.
#### Incorrect timestamps
Moonfire NVR uses the system clock when a run of recordings starts to determine
the run's initial timestamp. If the system clock is stepped after the run
starts, Moonfire NVR will keep using timestamps based on the old (usually
incorrect) setting.
This is most noticeable on the Raspberry Pi or other cheap SBCs which don't
come with a battery-backed real-time clock (RTC). Instead, they save the
current time periodically and restore it on bootup. Their clocks often are a
few hours behind on startup following a power outage. You may notice in
`journalctl` logs messages similar to the following when the clock is fixed:
```
Aug 14 21:05:51 moonfire moonfire-nvr[710]: Aug 14 21:05:51.538 INFO reserved 590d892d-b2e8-4e6c-9e1b-c4418d0abd69
Aug 14 22:37:39 moonfire systemd[1]: Time has been changed
Aug 14 22:38:48 moonfire moonfire-nvr[710]: Aug 14 22:38:48.965 INFO Committing extra transaction because there's no cached uuid
```
Note the 1.5-hour gap between messages; this is roughly how much the clock was
adjusted.
The exact message may differ based on your Linux distribution and message;
here's another variation:
```
Jul 13 10:05:52 pi4 systemd-timesyncd[340]: Synchronized to time server for the first time [2600:3c00::e:d0bb]:123 (2.debian.pool.ntp.org).
```
Here's what you can do:
* *recover*: restart Moonfire NVR to pick up the new timestamp.
* *prevent*: add a RTC module or fresh battery so your clock is correct
at boot time. There's a
[guide](https://github.com/scottlamb/moonfire-nvr/wiki/System-setup#realtime-clock-on-raspberry-pi)
on the wiki.
Currently Moonfire NVR doesn't have any logic to detect this happening or
mechanism to fix old timestamps after the fact. Ideas and help welcome; see
[issue #9](https://github.com/scottlamb/moonfire-nvr/issues/9).
### Configuration interface problems
#### `moonfire-nvr config` displays garbage
This happens if you're not using the premade Docker containers and have
configured your machine is configured to a non-UTF-8 locale, due to
gyscos/Cursive#13. As a workaround, try setting the environment variable
`LC_ALL=C.UTF-8`.
### Browser user interface problems
#### Live stream always fails with `ws close: 1006`
Moonfire NVR's UI uses a
[WebSocket](https://developer.mozilla.org/en-US/docs/Web/API/WebSockets_API)
connection to the server for the live view. If you see an alert in the lower
left corner of a live stream area that says `ws close: 1006`, this means that
the WebSocket connection failed. Unfortunately this is all the UI knows;
the WebSocket spec [deliberately withholds](https://html.spec.whatwg.org/multipage/web-sockets.html#closeWebSocket) additional debugging information
for security reasons.
You might be able to learn more through your browser's Javascript console.
If you consistently see this error when other parts of the UI work properly,
here are some things to check:
* If you are using Safari and haven't logged out since Moonfire NVR v0.6.3
was released, try logging out and back in. Safari apparently doesn't send
[`SameSite=Strict`
cookies](https://developer.mozilla.org/en-US/docs/Web/HTTP/Headers/Set-Cookie/SameSite#strict)
on WebSocket requests. Since v0.6.3, Moonfire NVR uses `SameSite=Lax`
instead.
* If you are using a proxy server, check that it is properly configured for
Websockets. In particular, if you followed the [Securing Moonfire NVR
guide](schema.md) prior to 29 Feb 2020, look at [this
update](https://github.com/scottlamb/moonfire-nvr/commit/92266612b5c9163eb6096c580ba751280a403648#diff-e8bdd96dda101a25a541a6629675ea46bd6eaf670c6417c76662db5397c50c19)
to those instructions.
* The live view currently only uses the `sub` stream. If you configure only
a `main` stream on your cameras, you will see this error consistently.
[#119](https://github.com/scottlamb/moonfire-nvr/issues/119)
### Errors in kernel logs
#### UAS errors
Some cheap USB SATA adapters don't appear to work reliably in UAS mode under
Linux. If you see errors like the following, try [disabling
UAS](https://github.com/scottlamb/moonfire-nvr/wiki/System-setup#disable-uas).
Unfortunately your filesystem is likely to have corruption, so after disabling UAS,
run a `fsck` and then `moonfire-nvr check` to try recovering.
```
Sep 22 17:26:01 nuc kernel: sd 4:0:0:1: [sdb] tag#2 uas_eh_abort_handler 0 uas-tag 3 inflight: CMD OUT
Sep 22 17:26:01 nuc kernel: sd 4:0:0:1: [sdb] tag#2 CDB: Write(16) 8a 00 00 00 00 01 4d b4 c4 00 00 00 03 b0 00 00
```
#### Filesystem errors
Errors that mention `EXT4-fs` (or your filesystem of choice) likely indicate
filesystem corruption. Run `fsck` to fix as described above. Once the
corruption is addressed, use `moonfire-nvr check` to survey the damage to
your database.
```
Jan 28 07:26:27 nuc kernel: EXT4-fs (sdc1): error count since last fsck: 12
Jan 28 07:26:27 nuc kernel: EXT4-fs (sdc1): initial error at time 1576998292: ext4_validate_block_bitmap:376
Jan 28 07:26:27 nuc kernel: EXT4-fs (sdc1): last error at time 1579640202: ext4_validate_block_bitmap:376
...
Feb 13 04:48:43 nuc kernel: EXT4-fs error (device sdc1): ext4_validate_block_bitmap:376: comm kworker/u8:2: bg 57266: bad block bitmap checksum
Feb 13 04:48:43 nuc kernel: EXT4-fs (sdc1): Delayed block allocation failed for inode 7334278 at logical offset 0 with max blocks 11 with error 74
Feb 13 04:48:43 nuc kernel: EXT4-fs (sdc1): This should not happen!! Data will be lost
```