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bondagit/aes67-linux-daemon: AES67 Linux Daemon with configuration WebUI

原作者: [db:作者] 来自: 网络 收藏 邀请

开源软件名称(OpenSource Name):

bondagit/aes67-linux-daemon

开源软件地址(OpenSource Url):

https://github.com/bondagit/aes67-linux-daemon

开源编程语言(OpenSource Language):

C++ 76.5%

开源软件介绍(OpenSource Introduction):

AES67 Linux Daemon

AES67 Linux Daemon is a Linux implementation of AES67 interoperability standard used to distribute and synchronize real time audio over Ethernet. See https://en.wikipedia.org/wiki/AES67 for additional info.

Introduction

The daemon is a Linux process that uses the Merging Technologies ALSA RAVENNA/AES67 Driver to handle PTP synchronization and RTP streams and exposes a REST interface for configuration and status monitoring.

The ALSA AES67 Driver implements a virtual ALSA audio device that can be configured using Sources and Sinks and it's clocked using the PTP clock. A Source reads audio samples from the ALSA playback device and sends RTP packets to a configured multicast or unicast address. A Sink receives RTP packets from a specific multicast or unicast address and writes them to the ALSA capture device.

A user can use the ALSA capture device to receive synchronized incoming audio samples from an RTP stream and the ALSA playback device to send synchronized audio samples to an RTP stream. The binding between a Source and the ALSA playback device is determined by the channels used during the playback and the configured Source channels map. The binding between a Sink and the ALSA capture device is determined by the channels used while recoding and the configured Sink channels map.

The driver handles the PTP and RTP packets processing and acts as a PTP clock slave to synchronize with a master clock on the specified PTP domain. All the configured Sources and Sinks are synchronized using the same PTP clock.

The daemon communicates with the driver for control, configuration and status monitoring only by using netlink sockets. The daemon implements a REST interface to configure and monitor the Sources, the Sinks and PTP slave. See README for additional info. It also implements SAP sources discovery and advertisement compatible with AES67 standard and mDNS sources discovery and advertisement compatible with Ravenna standard.

A WebUI is provided to allow daemon and driver configuration and monitoring. The WebUI uses the daemon REST API and exposes all the supported configuration paramaters for the daemon, the PTP slave clock, the Sources and the Sinks. The WebUI can also be used to monitor the PTP slave status and the Sinks status and to browse the remote SAP and mDNS sources.

License

AES67 daemon and the WebUI are licensed under GNU GPL.

The daemon uses the following open source:

Devices and interoperability tests

See Devices and interoperability tests with the AES67 daemon

AES67 USB Receiver and Transmitter

See Use your board as AES67 USB Receiver and Transmitter

Repository content

daemon directory

This directory contains the AES67 daemon source code. The daemon can be cross-compiled for multiple platforms and implements the following functionalities:

  • communication and configuration of the ALSA RAVENNA/AES67 device driver
  • control and configuration of up to 64 multicast and unicast sources and sinks using the ALSA RAVENNA/AES67 driver via netlink
  • session handling and SDP parsing and creation
  • HTTP REST API for the daemon control and configuration
  • SAP sources discovery and advertisement compatible with AES67 standard
  • mDNS sources discovery and advertisement (using Linux Avahi) compatible with Ravenna standard
  • RTSP client and server to retrieve, return and update SDP files via DESCRIBE and ANNOUNCE methods according to Ravenna standard
  • IGMP handling for SAP, PTP and RTP sessions

The directory also contains the daemon regression tests in the tests subdirectory. See the README file in this directory for additional information about the AES67 daemon configuration and the HTTP REST API.

webui directory

This directory contains the AES67 daemon WebUI configuration implemented using React. With the WebUI a user can do the following operations:

  • change the daemon configuration, this causes a daemon restart
  • edit PTP clock slave configuration and monitor PTP slave status
  • add and edit RTP Sources
  • add, edit and monitor RTP Sinks
  • browser remote SAP and mDNS RTP sources

3rdparty directory

This directory is used to download the 3rdparty open source. The aes67-daemon branch of ravenna-alsa-lkm repository contains the ALSA RAVENNA/AES67 module code plus all the patches applied to it.

The ALSA RAVENNA/AES67 kernel module is responsible for:

  • registering as an ALSA driver
  • generating and receiving RTP audio packets
  • PTP slave operations and PTP driven interrupt loop
  • netlink communication between user and kernel

The following patches have been applied to the original module:

  • patch to make the PTP slave status change from locked to unlocked if no announcement messages are received from the Master for more than 5 seconds (from driver version v1.6). See issue 87.
  • patch to fix issue causing the usage of wrong Sources and Sinks buffer offsets in case of reconfiguration or daemon restart (from driver version v1.5). See issue 55.
  • patch to enable the configuration of smaller ALSA buffer sizes to reduce end-to-end latency up to 8ms (from driver version v1.4). See platform latency test and See issue 53
  • patch to remove unsupported non-interleved access from driver capabilities. This enables compatibility with JACK audio (from driver version v1.3)
  • patch to enable the usage of a PTP master clock on the daemon host (from driver version v1.1)
  • patch to rework the driver PCM interface and to simplify and unify handling of read-write interlaved and memory mapped access modes
  • patch to remove user space transfer handling from convert functions
  • patch to add support for AM824 (L32) codec
  • patch to initialize playback and capture buffers
  • patch to enable mono channel support to playback and capture ALSA devices
  • patch to enable direct PCM transfer mode instead of indirect to enable the use of ALSA plugins
  • patch to enable independent playback and capture interrupt startup
  • patch to disable UDP checksum check for PTP packets
  • patch to enable support for ARM 32bit and 64bit platforms
  • patch to enable the network loopback device
  • patch to compile with Linux Kernel v5

See ALSA RAVENNA/AES67 Driver README for additional information about the Merging Technologies module and for proper Linux Kernel configuration and tuning.

test directory

This directory contains the files used to run the daemon platform compatibility test on the network loopback interface. The test is described below.

Prerequisite

The daemon and the test have been tested with Ubuntu 18.04 distro on ARMv7 and with Ubuntu 18.04, 19.10 and 20.04 distros on x86 using:

  • Linux kernel version >= 4.10.x
  • GCC version >= 7.x / clang >= 6.x (C++17 support required)
  • cmake version >= 3.7
  • boost libraries version >= 1.65
  • Avahi service discovery (if enabled) >= 0.7

The following ARM platform have been used for testing:

The BeagleBone® Black board with ARM Cortex-A8 32-Bit processor. See Ubuntu 18.04 on BeagleBone® Black for additional information about how to setup Ubuntu on this board.

The NanoPi NEO2 with Allwinner H5, Quad-core 64-bit high-performance Cortex A53 processor. See Armbian NanoPi NEO2 for additional information about how to setup Ubuntu on this board.

The ubuntu-packages.sh script can be used to install all the packages required to compile and run the AES67 daemon, and the platform compatibility test. Important PulseAudio must be disabled or uninstalled for the daemon to work properly, see PulseAudio and scripts notes.

How to build

Make sure you have all the required packages installed, see prerequisite. To compile the AES67 daemon and the WebUI you can use the build.sh script, see script notes. The script performs the following operations:

  • checkout, patch and build the Merging Technologies ALSA RAVENNA/AES67 module
  • checkout the cpp-httplib
  • build and deploy the WebUI
  • build the AES67 daemon

Run the platform compatibility test

Before attempting to use the AES67 daemon on a specific host or board it's highly recommended to run the platform test. The platform test runs a playback and recording of an RTP session on the loopback network device using the ALSA RAVENNA/AES67 modules and checks that no audio samples get corrupted or lost. This test can be executed using the run_test.sh script. See script notes.

The script allows a user to test a specific configuration and it can be used to ensure that the daemon will be able to operate smoothly with such config on the current platform.

  Usage run_test.sh sample_format sample_rate channels duration
       sample_format can be one of S16_LE, S24_3LE, S32_LE
       sample_rate can be one of 44100, 48000, 96000
       channels can be one of 1, 2, 4
       duration is in the range 1 to 10 minutes

For example to test the typical AES67 configuration run:

  ./run_test.sh S24_3LE 48000 2 5

The test performs the following operations:

  • check that all the required executables are available
  • stop the running daemon instances and remove the ALSA RAVENNA/AES67 module
  • compile the test tools under the test folder
  • validates the input parameters, prepare the raw input file to be played ./test/test.raw and the configuration files under the test folder
  • stop PulseAudio (if installed). This opens and keeps busy the ALSA playback and capture devices causing problems. See PulseAudio.
  • install the ALSA RAVENNA/AES67 module
  • start the ptp4l as master clock on the network loopback interface
  • start the AES67 daemon and create a source and a sink according to the status file created in the test directory
  • wait for the Ravenna driver PTP slave to synchronize
  • start recording on the configured ALSA sink for the specified period tof time to the raw file ./test/sink_test.raw
  • start playing the test file created ./test/test.raw on the configured ALSA source
  • wait for the recording and the playback to complete
  • check that the recorded file contains the expected audio samples sequence
  • terminate ptp4l and the AES67 daemon
  • print the test result that can be either OK or failed at (location)

If the test result is OK it means that the selected configuration can run smoothly on your platform.

If the test reports a failure you may try to stop all the possible additional loads running on the host and repeat it. If after this the test fails systematically it means you cannot achieve a good reliability with the specified configuration. In this case you may try to configure a different driver timer basic tick period in the daemon configuration file (parameter tic_frame_size_at_1fs in test/daemon.conf). By default this parameter is set to 48 (1ms latency) and the valid range is from 48 to 480 with steps of 48. Note that higher values of this parameter (values above 48) lead to higher packets processing latency and this breaks the compatibility with certain devices.

Run the platform latency test

The platform latency test can be used to measure the minimum end-to-end latency that can be achieved on a specific platform.

The test is based on the same setup used for the platform compatibility test where a Sink is configured to receive audio samples from a Source both running on the same device using the network loopback interface.

A test application plays audio samples on the RAVENNA playback device and measures the time till the samples are received on the RAVENNA capture device.

The test setup and the end-to-end latency measured are shown in the picture below:

image

The test can be executed using the run_latency_test.sh script. See script notes.

The script allows a user to test the latency on a specific configuration and it can be used to ensure that a specific ALSA buffer size can be used:

  Usage run_latency_test.sh sample_format sample_rate channels duration frames
       sample_format can be one of S16_LE, S24_3LE, S32_LE
       sample_rate can be one of 44100, 48000, 96000
       channels can be one of 1, 2, 4
       duration of the test in seconds
       frames buffer size in frames

The specified buffer size in frames starts from tic_frame_size_at_1fs * 2 (128 by default) in steps of tic_frame_size_at_1fs.

For example, to test the typical AES67 configuration for 1 minute and a buffer size of 128 frames run:

  ./run_latency_test.sh S24_3LE 48000 2 60 128

If no underrun errors occurred during the test the requested buffer size can be used and the end-to-end latency measured is printed at the end:

   Trying latency 128 frames, 2666.667us, 2.666667ms (375.0000Hz)
   Success
   Playback:
   *** frames = 2880128 ***
     state       : RUNNING
     trigger_time: 157745.455411
     tstamp      : 0.000000
     delay       : 128
     avail       : 0
     avail_max   : 64
   Capture:
   *** frames = 2880000 ***
     state       : RUNNING
     trigger_time: 157745.455415
     tstamp      : 0.000000
     delay       : 0
     avail       : 0
     avail_max   : 64
   Maximum read: 64 frames
   Maximum read latency: 1333.333us, 1.333333ms (750.0000Hz)
   Playback time = 157745.455411, Record time = 157745.455415, diff = -4
   End to end latency: 7.997 msecs
   Terminating processes ...
   daemon exiting with code: 0

The previous test was run on a NanoPi NEO2 board with Ubuntu distro.

In case underrun happened the status reported is:

     state       : XRUN

and the specified buffer size cannot be used.

Run the daemon regression tests

To run daemon regression tests install the ALSA RAVENNA/AES67 kernel module with:

  sudo insmod 3rdparty/ravenna-alsa-lkm/driver/MergingRavennaALSA.ko

setup the kernel parameters with:

  sudo sysctl -w net/ipv4/igmp_max_memberships=66

make sure that no instances of the aes67-daemon are running, enter the tests subdirectory and run:

  ./daemon-test -p

NOTE: when running regression tests make sure that no other Ravenna mDNS sources are advertised on the network because this will affect the results. Regression tests run on loopback interface but Avahi ignores the interface parameter set and will forward to the daemon the sources found on all network interfaces.

Notes

  • All the scripts in this repository are provided as a reference to help setting up the system and run the platform compatibility test. They have been tested on Ubuntu 18.04 19.10 20.04 distros.

  • PulseAudio can create instability problems. Before running the daemon verify that PulseAudio is not running with:

    ps ax | grep pulseaudio
    

    In case it's running try to execute the following script to stop it:

    daemon/scripts/disable_pulseaudio.sh
    

    If after this the process is still alive consider one of these two solutions and reboot the system afterwards:

    • Uninstall it completely with:

      sudo apt-get remove pulseaudio
      
    • Disable it by renaming the executable with:

       sudo mv /usr/bin/pulseaudio /usr/bin/_pulseaudio
      

    Other methods to disable PulseAudio may fail and just killing it is not enough since it gets immediately re-spawned.




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