This is a sACN implementation for golang. It is based on the E1.31 protocol by the ESTA. A copy can be found here.
This is by no means a full implementation yet, but may be in the future. If you want to see a full DMX package, see the OLA project.
There is also some documentation on godoc.org. This Project suports Go Modules introduced in Go 1.11.
go get github.com/Hundemeier/go-sacn/sacn
The simplest way to receive sACN packets is to use sacn.NewReceiverSocket
.
For up-to-date information, visit the godoc.org website with this repo.
You can stop the receiving of packets on a Receiver via receiver.Stop()
.
Please note that it can take up to 2,5s to stop the receiving and close all channels.
If you have stoped a receiver once, you can restart via receiver.Start()
.
To transmitt DMX data, you have to initalize a Transmitter
object. This handles all the protocol
specific actions (currently not all). You can activate universes, if you wish to send out data.
Then you can use a channel for 512-byte arrays to transmitt them over the network.
There are two different types of addressing the receiver: unicast and multicast.
When using multicast, note that you have to provide a bind address on some operating systems
(eg Windows). You can use both at the same time and any number of unicast addresses.
To set wether multicast should be used, call transmitter.SetMulticast(<universe>, <bool>)
.
You can set multiple unicast destinations as slice via
transmitter.SetDestinations(<universe>, <[]string>)
.
Note that any existing destinations will be overwritten. If you want to append a destination, you
can use transmitter.Destination(<universe>)
which returns a deep copy of the used net.UDPAddr
objects.
GoDoc Examples:
Transmitter Example:
package main
import (
"log"
"math/rand"
"time"
"github.com/Hundemeier/go-sacn/sacn"
)
func main() {
//instead of "" you could provide an ip-address that the socket should bind to
trans, err := sacn.NewTransmitter("", [16]byte{1, 2, 3}, "test")
if err != nil {
log.Fatal(err)
}
//activates the first universe
ch, err := trans.Activate(1)
if err != nil {
log.Fatal(err)
}
//deactivate the channel on exit
defer close(ch)
//set a unicast destination, and/or use multicast
trans.SetMulticast(1, true)//this specific setup will not multicast on windows,
//because no bind address was provided
//set some example ip-addresses
trans.SetDestinations(1, []string{"192.168.1.13", "192.168.1.1"})
//send some random data for 10 seconds
for i := 0; i < 20; i++ {
ch <- [512]byte{byte(rand.Int()), byte(i & 0xFF)}
time.Sleep(500 * time.Millisecond)
}
}