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SIP-based Announcement / PA / Paging / Public Address Server system

Project description

SIP-based Announcement / PA / Paging / Public Address Server system.

Main component of this project is a script to run PJSUA SIP client connected to a PulseAudio sound server routing audio to whatever sound cards and speaker sets.

It picks up calls, plays klaxon on speakers, followed by the announcement made in that call. Music plays in-between announcements.

Script controls PJSUA and PulseAudio (muting/unmuting streams there) to make them work to that effect.


Usage

After installation (see below), the script should be configured, providing it with at least the SIP account data for the general usage.

Configuration file (ini format) locations:

  • paging.conf

  • /etc/paging.conf

  • callpipe.conf

  • /etc/callpipe.conf

  • Paths specified on the command line.

All files will be looked up and parsed in that order, values in next ones overriding corresponding ones in the previous and defaults.

See output of paging --help for info on how to specify additional configuration, more up-to-date list of default paths, as well as general information for all the other options available.

Provided paging.example.conf file has all the available configuration options and their descriptions.

To see default configuration options, use paging --dump-conf-defaults, and run paging --dump-conf ... to see the actual options being picked-up and used at any time.

There are two general (supported) ways to start and run the script:

  • In the foreground (non-forking).

  • As a systemd service.

Both are described in more detail below.

Start/run in the foreground

First - make sure PulseAudio and its ALSA backend are configured (and unmuted, in case of ALSA) as they should be and pulse server can run/runs for same user that this script will be running as.

How to do that is out of scope for this README.

Then just run the thing as:

% paging

Can be used directly from terminal, or with any init system or daemon manager, including systemd, upstart, openrc, runit, daemontools, debian’s “start-stop-daemon”, simple bash scripts, etc.

For systemd in particular, see the “Running as a systemd service” section below.

Running from terminal to understand what’s going on, these options might be also useful:

% paging --debug
% paging --debug --pjsua-log-level 10
% paging --dump-conf

See also “Installation” and “Audio configuration” sections below.

Running as a systemd service

This method should be preferred, as it correctly notifies init when service is actually ready (i.e. pjsua inputs/outputs initialized), so that others can be scheduled around that, and primes watchdog timer, detecting if/when app might hang due to some bug.

Provided paging.service file (in the repository, just an ini file) should be installed to /etc/systemd/system, and assumes following things:

  • PagingServer app should be run as a “paging” user, which exists on the system (e.g. in /etc/passwd).

  • “paging.py” script, its “entry point” or symlink to it is installed at /usr/local/bin/paging.

  • Configuration file can be read from one of default paths (see above for a list of these).

  • Optional python-systemd module dependency is installed.

With all these correct, service can then be used like this:

  • Start/stop/restart service:

    % systemctl start paging
    % systemctl stop paging
    % systemctl restart paging
  • Enable service(s) to start on OS boot:

    systemctl enable paging
  • See if service is running, show last log entries: systemctl status paging

  • Show all logs for service since last OS boot: journalctl -ab -u paging

  • Continously show (“tail”) all logs in the system: journalctl -af

  • Brutally kill service if it hangs on stop/restart: systemctl kill -s KILL paging (will be done after ~60s by systemd automatically).

See systemctl(1) manpage for more info on such commands.

If either app itself is installed to another location (not /usr/local/bin/paging) or extra command-line parameters for it are required, ExecStart= line can be altered either in installed systemd unit file directly, or via systemctl edit paging.

systemctl daemon-reload should be run for any modifications to /etc/systemd/system/paging.service to take effect.

Similarly, User=paging line can be altered or overidden to change system uid to use for the app.

If python-systemd module is unavailable, following lines should be dropped from the paging.service:

Type=notify
WatchdogSec=...

And --systemd option removed from ExecStart= line, so that app would be started as a simple non-forking process, which will then be treated correctly by systemd without two options above.

Installation

This is a regular package for Python 2.7 (not 3.X), but with some extra run-time requirements (see below), which can’t be installed from PyPI.

Package itself can be installed at any time using pip, e.g. via pip install PagingServer (this will try to install stuff to /usr!!!).

Unless you know python packaging though, please look at pip2014.com, python packaging tutorial, documentation below for easy installation (from packages/repo) on specific systems.

Requirements

  • Python 2.7 (NOT 3.X).

  • PJSUA (PJSIP User Agent) and its python bindings.

    Can be packaged as “pjsip”, “pjsua” or “pjproject” in linux distros.

    Python bindings (from the same tarball) can also be packaged separately as “python-pjproject” or something like that.

    If either of those isn’t available, be sure to build and install pjsua AND its python bindings manually from the same sources, and NOT e.g. install pjsua from package and then build bindings separately.

  • PulseAudio

  • pulsectl python module

  • (optional) ffmpeg binary - if audio samples are not wav files (will be converted on every startup, if needed).

  • (optional) python-systemd - only if --systemd option is used (e.g. with shipped .service file).

    Developed and shipped separately from main systemd package since v223 (2015-07-29), likely comes installed with systemd prior to that.

    Would probably make sense to install that module from OS package, which should be available if systemd is used there as init by default.

  • (optional) raven python module - for reporting any errors via sentry.

Debian Jessie

  • Installing everything via debian packages from third-party repository.

    Running this one-liner should be the easiest way by far:

    wget -O- https://raw.githubusercontent.com/AccelerateNetworks/PagingServer/master/setup-scripts/install.debian_jessie.from_debs.sh | bash

    Or, if wget ... | bash sounds too scary, same exact steps as in that script are:

    # apt-key adv --keyserver keyserver.ubuntu.com --recv-keys 3D021F1F4C670809
    # echo 'deb http://paging-server.ddns.net/ jessie main' >/etc/apt/sources.list.d/paging-server.list
    # apt-get update
    
    # apt-get install --no-install-recommends pulseaudio pulseaudio-utils alsa-utils
    # apt-get install paging-server python-systemd
    
    # useradd -r -d /var/empty -s /bin/false -G audio paging
    # install -o root -g paging -m640 -T /usr/share/doc/paging-server/paging.example.conf /etc/paging.conf

    Configure, set-levels and unmute alsa/pulse, if necessary (depends heavily on the specific setup):

    # alsamixer
    # nano /etc/pulse/default.pa

    Then edit config in /etc/paging.conf and start/enable the daemon:

    # nano /etc/paging.conf
    # systemctl start paging
    # systemctl enable paging

    See “Usage” section for more details on how to run the thing.

    Packages here are built with install.debian_jessie.sh script described in the next section.

  • Building/installing everything on-site with one script.

    It’s possible to install all required packages, building missing ones where necessary by running install.debian_jessie.sh script from the repository as a root user (as it runs apt-get and such):

    # wget https://raw.githubusercontent.com/AccelerateNetworks/PagingServer/master/setup-scripts/install.debian_jessie.sh
    # bash install.debian_jessie.sh -x

    (running without -x flag will issue a warning message and exit)

    It’s safe to run the script several times or on a machine where some of the requirements (see the list above) are installed already - should skip steps that are already done or unnecessary.

    Script builds everything into deb packages, stores each in /var/tmp/PagingServer.debs, and installs them.

    Also creates apt-get-installed.list file in the same directory, where every package name it has passed to apt-get (i.e. packages that it has installed via apt-get) is recorded, in case there might be a need to clean these up later.

    After successful installation, enable/run the service as described in “Usage” section.

  • Manual installation.

    Follow roughly same steps as what install.debian_jessie.sh script does.

Other systems

Just build/install all the requirements above from OS packages or however.

Audio configuration

Overview of the software stack related to audio flow:

  • PJSUA picks-up the calls, decoding audio streams from SIP connections.

  • PJSUA outputs call audio to via PortAudio.

  • PortAudio can use multiple backends on linux systems, including:

    • ALSA libs (and straight down to linux kernel)

    • OSS (/dev/dsp*, only supported through emulation layer in modern kernels)

    • JACK sound server

    • PulseAudio sound server (through ALSA compatibility layer)

    In this particular implementation, PulseAudio backend is assumed.

  • PulseAudio serves as a “hub”, receiving streams from music players (mpd instances), klaxon sounds, calls picked-up by PJSUA.

    Depending on PulseAudio and music players’ configuration, these outputs can be then mixed together and mapped to audio cards (or specific channels of these) as necessary.

  • PulseAudio outputs sound through ALSA libs and that goes to kernel driver and hardware, eventually.

    Here make sure that ALSA is also configured properly - sound hardware unmuted, volume level is set correctly and any other necessary mixer controls are set.

    This all is usually easy to do with “alsamixer” tool.

Whole stack can always be tested with command like this:

% paging --test-audio-file my-sound.wav

That option makes script just play the specified file through pjsua (as it would output the sound of the incoming call or a klaxon sound) and exit.

If that works correctly, all that sound output pipeline from pjsua to alsa should be fine.

PagingServer audio configuration

Configuration here can be roughly divided into these sections (at the moment):

  • Sound output settings for PJSUA.

    Related configuration options:

    • pjsua-device

    • pjsua-conf-port

    As PortAudio (used by pjsua) can use one (and only one) of multiple backends at a time, and each of these backend can have multiple “ports” in turn, pjsua-device should be configured to use Pulse/ALSA backend “device”.

    Usually when pulse is installed, “pulse” ALSA output gets configured, and that is what script uses by default, so no addition configuration should be necessary in that case.

    Otherwise, to see all devices that PJSUA and PortAudio detects, run:

    % paging --dump-pjsua-devices
    
    Detected sound devices:
      [0] HDA ATI SB: ID 440 Analog (hw:0,0)
      [1] HDA ATI SB: ID 440 Digital (hw:0,3)
      [2] HDA ATI HDMI: 0 (hw:1,3)
      [3] sysdefault
      [4] front
      [5] surround21
      [6] surround40
      ...
      [13] dmix
      [14] default
      [15] pulse
      [15] system
      [16] PulseAudio JACK Source

    (output is truncated, as it also includes misc info for each of these devices/ports that PortAudio/PJSUA provides)

    This should print a potentially-long list of “playback devices” (PJSUA terminology) that can be used for output there, as shown above.

    “aplay -L” command can also be used to match that with ALSA outputs.

    PortAudio-output should be specified either as numeric id (number in square brackets on the left) or regexp (python style) to match against name in the list via pjsua-device option.

    To avoid having any confusing non-ALSA (incl. pulse-alsa emulation) ports there, PortAudio can be compiled with only ALSA as a backend.

    pjsua-conf-port option can be used to match one of the “conference ports” from paging --dump-pjsua-conf-ports command output in the same fashion, if there will ever be more than one (due to more complex pjsua configuration, for example), otherwise it’ll work fine with empty default.

  • Configuration for any non-call inputs (music, klaxons, etc) for pulse.

    Related configuration options:

    • klaxon

    • pulse-mute

    “klaxon” can be a path to any file that has sound in it (that ffmpeg would understand), and will be played before each announcement call gets picked-up.

    “pulse-mute” should be a regexp to match any sufficiently unique property of music streams, that would play in-between announcements.

    For example, if mpd player is used for music output, pulse-mute = ^application\.name=mpd$ setting should match and mute all running player instances as necessary.

    Script can be run with --debug --dump-pulse-props option to show properties of each PulseAudio stream, and info on when/whether they match pulse-mute option.

    See paging.example.conf for more detailed info on these options.

All settings mentioned here are located in the [audio] section of the configuration file.

See paging.example.conf for more detailed descriptons.

Misc tips and tricks

Collection of various things related to this project.

Pre-convert klaxon sound(s) to wav from any format

Can be done via ffmpeg with:

ffmpeg -y -v 0 -i sample.mp3 -f wav sample.wav

Where it doesn’t actually matter which format source “sample.mp3” is in - can be mp3, ogg, aac, mpc, mp4 or whatever else ffmpeg supports.

Might help to avoid startup delays due to conversion of these on each run.

If pjsua will be complaining about sample-rate difference between wav file and output, e.g. -ar 44100 option can be used (after -f wav) to have any sampling rate for the output file.

Benchmark script (callram.py)

Description below is from old README.md file pretty much verbatim.

We’ve tested this script with thousands of calls, it is fairly reliable and light on resources. Total CPU use on a Pentium 4 @ 2.8ghz hovered around 0.5% with 4MB ram usage. identical figures were observed on a Celeron D @ 2.53Ghz, you could probably get away with whatever your operating system requires to run in terms of hardware.

To benchmark, you’ll need to set up callram.py.

  • Setting up callram.py

    This setup assumes you have PJSUA installed, if not, go back to Installation earlier in this readme and install it.

  • Put the files in the right places:

    sudo cp callram.py /opt/bin/callram.py
    sudo cp callram.example.conf /etc/callram.conf
  • Add your SIP account:

    sudo nano /etc/callram.conf

    Change the top 3 values to your SIP server, username (usually ext. number) and password.

    Then fill in both SIP URI: fields (uri= and to=) with the SIP URI of the client you’d like to test.

    SIP URIs are usually formatted as sip:<extension#>@<exampledomain.com> in most cases.

    The Domain may sometimes be an IPv4 or IPv6 address depending on your setup.

  • Run:

    /usr/bin/python /opt/bin/callram.py

Sending error reports to Sentry

Sentry is a “modern error logging and aggregation platform”.

Python raven module has to be installed in order for this to work.

Uncomment and/or set “sentry_dsn” option under the [server] section of the configuration file.

It can also be set via --sentry-dsn command-line option, e.g. in systemd unit distributed with the package, to apply on all setups where package is deployed.

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