mirror of
https://github.com/DJ2LS/FreeDATA
synced 2024-05-14 08:04:33 +00:00
.. | ||
001_highsnr_stdio_audio | ||
002_highsnr_ping_pong | ||
hamlib-test.py | ||
in8.raw | ||
out8.raw | ||
out48.raw | ||
ping.py | ||
pong.py | ||
README.md | ||
rx48.raw | ||
t48_8_short.py | ||
test_arq_short.py | ||
test_audiobuffer.py | ||
test_callback_multimode_rx.py | ||
test_callback_multimode_rx_outside.py | ||
test_callback_multimode_tx.py | ||
test_callback_rx.py | ||
test_callback_rx_outside.py | ||
test_callback_tx.py | ||
test_multimode_rx.py | ||
test_multimode_tx.py | ||
test_pa.py | ||
test_rx.py | ||
test_tx.py | ||
test_virtual1.sh | ||
test_virtual1a.sh | ||
test_virtual1b.sh | ||
test_virtual1c.sh | ||
test_virtual2.sh | ||
test_virtual3a.sh | ||
test_virtual3b.sh | ||
test_virtual4a.sh | ||
test_virtual4b.sh | ||
test_virtual_mm.sh |
Instructions
- Install:
cd FreeDATA mkdir build cd build cmake -DCODEC2_BUILD_DIR=$HOME/codec2/build_linux ..
- List available tests:
ctest -N Test project /home/david/FreeDATA/build Test #1: 000_audio_tests Test #2: 001_highsnr_stdio_audio Total Tests: 2
- Run tests:
ctest --output-on-failure
- Run tests verbosely:
ctest -V
001_HIGHSNR_STDIO_AUDIO TEST SUITE
- Install
sudo apt update sudo apt upgrade sudo apt install git cmake build-essential python3-pip portaudio19-dev python3-pyaudio pip3 install crcengine pip3 install threading
- Install codec2, and set up the
libcodec2.so
shared library path, for exampleexport LD_LIBRARY_PATH=${HOME}/codec2/build_linux/src
STDIO tests
Pipes are used to move audio samples from the Tx to Rx:
python3 test_tx.py --mode datac1 --delay 500 --frames 2 --bursts 1 | python3 test_rx.py --mode datac1 --frames 2 --bursts 1
AUDIO test via virtual audio devices
Important:
The virtual audio devices are great for testing, but they are also a little bit tricky to handle. So there's a high chance, the tests will fail, if you are running them via virtual audio devices. You should run the tests several times, while keeping this in mind. Most time the ctest is working even if it is failing.
-
Create virtual audio devices. Note: This command needs to be run again after every reboot
sudo modprobe snd-aloop index=1,2 enable=1,1 pcm_substreams=1,1 id=CHAT1,CHAT2
-
Check if devices have been created
aplay -l Karte 0: Intel [HDA Intel], Gerät 0: Generic Analog [Generic Analog] Sub-Geräte: 1/1 Sub-Gerät #0: subdevice #0 Karte 1: CHAT1 [Loopback], Gerät 0: Loopback PCM [Loopback PCM] Sub-Geräte: 1/1 Sub-Gerät #0: subdevice #0 Karte 1: CHAT1 [Loopback], Gerät 1: Loopback PCM [Loopback PCM] Sub-Geräte: 1/1 Sub-Gerät #0: subdevice #0 Karte 2: CHAT2 [Loopback], Gerät 0: Loopback PCM [Loopback PCM] Sub-Geräte: 1/1 Sub-Gerät #0: subdevice #0 Karte 2: CHAT2 [Loopback], Gerät 1: Loopback PCM [Loopback PCM] Sub-Geräte: 1/1 Sub-Gerät #0: subdevice #0
-
Determine the audio device number you would like to use:
python3 test_rx.py --list <snip> audiodev: 0 HDA Intel PCH: ALC269VC Analog (hw:0,0) audiodev: 1 HDA Intel PCH: HDMI 0 (hw:0,3) audiodev: 2 HDA Intel PCH: HDMI 1 (hw:0,7) audiodev: 3 HDA Intel PCH: HDMI 2 (hw:0,8) audiodev: 4 Loopback: PCM (hw:1,0) audiodev: 5 Loopback: PCM (hw:1,1) audiodev: 6 Loopback: PCM (hw:2,0) audiodev: 7 Loopback: PCM (hw:2,1)
In this case we choose audiodev 4 for the RX and 5 for the Tx.
-
Start the Rx first, then Tx in separate consoles:
python3 test_rx.py --mode datac0 --frames 2 --bursts 1 --audiodev 4 --debug python3 test_tx.py --mode datac0 --frames 2 --bursts 1 --audiodev 5