| src | ||
| .gitignore | ||
| bark.toml | ||
| Cargo.lock | ||
| Cargo.toml | ||
| README.md | ||
bark!
low latency multi-receiver synchronised audio streaming for local networks.
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Transmits uncompressed 48khz stereo audio over UDP multicast
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Requires precisely synchronised system clocks. Implementation recommendation is to run a chronyd server locally, it can achieve precision in the tens of microseconds over LANs
Running the server under Pipewire
Note: you must have pipewire-alsa installed for this to work.
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First create a virtual node for Bark to receive audio from. You will configure applications to send audio to this node.
$ pactl load-module module-null-sink media.class=Audio/Duplex sink_name=Bark audio.position=FL,FR -
Then find the Pipewire node ID for the new virtual node you just created. You can use
pactlandjqto do this programatically. The output on my machine looks something like:$ pactl --format=json list sources | jq 'map({ key: .name, value: .index }) | from_entries' { "alsa_output.usb-Focusrite_Scarlett_Solo_USB-00.analog-stereo.monitor": 75, "alsa_input.usb-Focusrite_Scarlett_Solo_USB-00.analog-stereo": 76, "alsa_input.usb-Logitech_Webcam_C930e-02.analog-stereo": 77, "Bark": 145 } -
Run the Bark server passing the node ID in the
PIPEWIRE_NODEenvironment variable:$ PIPEWIRE_NODE=145 bark stream --group 224.100.100.100 --port 1234 -
Then run your audio source! You can use the same node ID to arrange for it to send its audio to the Bark node:
$ PIPEWIRE_NODE=145 ffplay music.flac
Running the receiver
$ bark receive --group 224.100.100.100 --port 1234
Simple as