knx
Crystal KNX
Constructs KNX standard datagrams that make it easy to communicate with devices on KNX networks.
Usage
require "knx"
knx = KNX.new
datagram = knx.read(bytes)
datagram.source_address.to_s
# => "2.3.4"
datagram.destination_address.to_s
# => "3/4/5"
datagram.data # Returns a byte array
# => [1]
# ...
request = knx.action("1/2/0", true)
bytes = request.to_slice
request = knx.action("1/2/3", 150)
bytes = request.to_slice
# Send byte_string to KNX network to execute the request
# Supports multicast, unicast and TCP/IP tunnelling
There is also support for KNX BAOS devices devices:
require "knx/object_server"
os = KNX::ObjectServer.new
datagram = os.read(bytes)
# Can return multiple values
datagram.data.size #=> 1
# Get the item index we are reading
datagram.data[0].id
# => 12
datagram.data[0].value # Returns bytes
# => Bytes[1]
# ...
request = os.action(1, true)
bytes = request.to_slice
# Send byte_string to KNX BAOS server to execute the request
# This protocol was designed to be sent over TCP/IP
and support for Tunnelling
require "knx/tunnel_client"
# connect to the interface
interface_ip = Socket::IPAddress.new("192.168.0.10", 3671)
udp_socket = UDPSocket.new
udp_socket.connect interface_ip.address, interface_ip.port
# determine our local IP address
local_ip = udp_socket.local_address
# configure the client
client = KNX::TunnelClient.new(control_ip)
is_connected = false
client.on_state_change do |connected, error|
# we should maintain the connection
if connected
spawn do
loop do
break unless is_connected
sleep 60.seconds
# sends a connection state request
client.query_state
end
end
end
end
# send the data down the transport
client.on_transmit { |bytes| udp_socket.write bytes }
# we received a tunnelled request from the interface (forwarded broadcast packets)
client.on_message do |cemi|
cemi.destination_address # => 1/2/55
cemi.data # => Bytes (can process data based on the address)
end
# process any incoming data on the socket
spawn do
message = Bytes.new(512)
loop do
bytes_read, client_addr = udp_socket.receive(message)
client.process(message[0, bytes_read])
end
end
# send any messages
client.status("1/2/55")
client.action("1/2/55", true)
client.action("2/2/55", 3)
client.action("1/3/55", 8.4)
License
MIT