Architecture for Control Networks (ACN)
ACN is a suite of network protocols for theatrical control developed by ESTA (Entertainment Services and Technology Association). It is also referred to as BSR E1.17, Entertainment Technology - Multipurpose Network Control Protocol Suite.
It may replace DMX as the control protocol for lighting systems and will be used for controlling more complex devices like video playback servers (media servers) and audio mixers. The protocol is designed to be layered on top of UDP/IP and therefore will run over standard, inexpensive Ethernet and 802.11 (WiFi) network links.
The Architecture for Control Networks arose from a need within the entertainment technology industry in general and particularly the lighting industry for a common interoperable protocol or protocols for control of equipment which would take advantage of the new technologies which were gaining dominance and offering cheap high speed communications in many areas. This section describes the background from which ACN was developed, the design reasoning and processes which have gone into generating ACN and the way a typical implementation fits together. It is informative only, but is recommended reading as starting point for those new to ACN.
In designing ACN, great reliance has been placed on a wide variety of existing technologies which are constantly changing and progressing. The protocols of ACN have well defined functionality and clear boundaries and layering. It follows that all these pieces can and will be put together in different ways to suit different applications. The things which tie all these pieces together are interoperability profiles which specify which pieces must be used and what their operational parameters must be to achieve interoperability over a particular application domain. They may also specify what form of bridging or translation is required to connect them to networks using different profiles.
Thus the ACN architecture consists of a number of separate specifications for protocol formats, languages etc., together with interoperability profiles which specify where and how those specifications are to be used and call up external specifications as necessary. The driving force for ACN has been control of entertainment technology equipment across mainstream networks such as Ethernet and the initial interoperability profiles and specifications reflect this. However, other applications can be developed within this framework.
Architecture for Control Networks Size of preamble: 16 Size of postamble: 0 Packet Identifier: ASC-E1.17 PDU: Root SDT Flags: 0x70 0... .... = Length: False .1.. .... = Vector: True ..1. .... = Header: True ...1 .... = Data: True Length: 62 Protocol ID: SDT Protocol (1) Component ID: bad00668-bbbb-aaaa-dddd-abc012345678 PDU: Unreliable Wrapper Flags: 0x70 0... .... = Length: False .1.. .... = Vector: True ..1. .... = Header: True ...1 .... = Data: True Length: 40 STD Vector: Unreliable Wrapper (2) Channel Number: 42998 (0xa7f6) Total Sequence Number: 42999 (0x0000a7f7) Reliable Sequence Number: 42998 (0x0000a7f6) Oldest Available Wrapper: 42998 (0x0000a7f6) First Member to ACK: 65535 (0xffff) Last Member to ACK: 65535 (0xffff) MAK Threshold: 0 (0x0000) PDU: SDT Protocol Flags: 0x70 0... .... = Length: False .1.. .... = Vector: True ..1. .... = Header: True ...1 .... = Data: True Length: 17 Member ID: 1 (0x0001) Protocol ID: SDT Protocol (1) Association: 42998 (0xa7f6) PDU: Ack Flags: 0x70 0... .... = Length: False .1.. .... = Vector: True ..1. .... = Header: True ...1 .... = Data: True Length: 7 STD Vector: Ack (14) Reliable Sequence Number: 42998 (0x0000a7f6)
The ACN dissector is fully functional.
Decode ACN: Enable dissector. Starting from Wireshark 2.0, this setting is obsolete and replaced by the activation of the acn_udp dissector in Analyze -> Enabled Protocols
Streaming DMX: Enables dissector for ANSI BSR E1.31 "Streaming DMX" extension
DMX, display format: Changes the display format when viewing Streaming DMX
DMX, display zeros: If checked zeros are display for a value of zero, otherwise they are blanked.
DMX, display leading zeros, if checked, all values are padded with zeros.
DMX, display line format: controls the number of values display per line when viewing Streaming DMX
Example capture file
A complete list of ACN display filter fields can be found in the display filter reference
Show only the ACN based traffic:
You cannot directly filter ACN protocol while capturing.
http://www.engarts.eclipse.co.uk/acn ACN information
http://www.esta.org/tsp/working_groups/CP/projs.html ESTA's Technical Standards Program
http://en.wikipedia.org/wiki/Architecture_for_Control_Networks ACN protocol on wikipedia.org
http://sacnview.sourceforge.net Open source viewer/server for E1.31 "Streaming DMX" extension
http://opendmx.net/index.php/OLA Open source implementation
Imported from https://wiki.wireshark.org/ACN on 2020-08-11 23:11:01 UTC