From 0c333567f599206cb0be6b74f02e59820536e0b2 Mon Sep 17 00:00:00 2001 From: cbdev Date: Sun, 31 Mar 2019 09:00:12 +0200 Subject: Move backend documentation out of main README --- README.md | 429 ++------------------------------------------------------------ 1 file changed, 11 insertions(+), 418 deletions(-) (limited to 'README.md') diff --git a/README.md b/README.md index 8dfcdd8..6265581 100644 --- a/README.md +++ b/README.md @@ -30,42 +30,6 @@ on any other (or the same) supported protocol, for example to: * [Usage](#usage) * [Configuration](#configuration) * [Backend documentation](#backend-documentation) - + [The `artnet` backend](#the-artnet-backend) - - [Global configuration](#global-configuration) - - [Instance configuration](#instance-configuration) - - [Channel specification](#channel-specification) - - [Known bugs / problems](#known-bugs--problems) - + [The `sacn` backend](#the-sacn-backend) - - [Global configuration](#global-configuration-1) - - [Instance configuration](#instance-configuration-1) - - [Channel specification](#channel-specification-1) - - [Known bugs / problems](#known-bugs--problems-1) - + [The `midi` backend](#the-midi-backend) - - [Global configuration](#global-configuration-2) - - [Instance configuration](#instance-configuration-2) - - [Channel specification](#channel-specification-2) - - [Known bugs / problems](#known-bugs--problems-2) - + [The `evdev` backend](#the-evdev-backend) - - [Global configuration](#global-configuration-3) - - [Instance configuration](#instance-configuration-3) - - [Channel specification](#channel-specification-3) - - [Known bugs/problems](#known-bugs--problems-3) - + [The `loopback` backend](#the-loopback-backend) - - [Global configuration](#global-configuration-4) - - [Instance configuration](#instance-configuration-4) - - [Channel specification](#channel-specification-4) - - [Known bugs / problems](#known-bugs--problems-4) - + [The `osc` backend](#the-osc-backend) - - [Global configuration](#global-configuration-5) - - [Instance configuration](#instance-configuration-5) - - [Channel specification](#channel-specification-5) - - [Supported types & value ranges](#supported-types--value-ranges) - - [Known bugs / problems](#known-bugs--problems-5) - + [The `ola` backend](#the-ola-backend) - - [Global configuration](#global-configuration-6) - - [Instance configuration](#instance-configuration-6) - - [Channel specification](#channel-specification-6) - - [Known bugs / problems](#known-bugs--problems-6) * [Building](#building) + [Prerequisites](#prerequisites) + [Build](#build) @@ -112,389 +76,18 @@ The last line is a shorter way to create a bi-directional mapping. Example configuration files may be found in [configs/](configs/). ## Backend documentation -This section documents the configuration options supported by the various backends. -### The `artnet` backend - -The ArtNet backend provides read-write access to the UDP-based ArtNet protocol for lighting -fixture control. - -#### Global configuration - -| Option | Example value | Default value | Description | -|---------------|-----------------------|-----------------------|-----------------------| -| `bind` | `127.0.0.1 6454` | none | Binds a network address to listen for data. This option may be set multiple times, with each interface being assigned an index starting from 0 to be used with the `interface` instance configuration option. At least one interface is required for transmission. | -| `net` | `0` | `0` | The default net to use | - -#### Instance configuration - -| Option | Example value | Default value | Description | -|---------------|-----------------------|-----------------------|-----------------------| -| `net` | `0` | `0` | ArtNet `net` to use | -| `universe` | `0` | `0` | Universe identifier | -| `destination` | `10.2.2.2` | none | Destination address for sent ArtNet frames. Setting this enables the universe for output | -| `interface` | `1` | `0` | The bound address to use for data input/output | - -#### Channel specification - -A channel is specified by it's universe index. Channel indices start at 1 and end at 512. - -Example mapping: -``` -net1.231 < net2.123 -``` - -A 16-bit channel (spanning any two normal 8-bit channels in the same universe, also called a wide channel) may be mapped with the syntax -``` -net1.1+2 > net2.5+123 -``` - -A normal channel that is part of a wide channel can not be mapped individually. - -#### Known bugs / problems - -The minimum inter-frame-time is disregarded, as the packet rate is determined by the rate of incoming -channel events. - -### The `sacn` backend - -The sACN backend provides read-write access to the Multicast-UDP based streaming ACN protocol (ANSI E1.31-2016), -used for lighting fixture control. The backend sends universe discovery frames approximately every 10 seconds, -containing all write-enabled universes. - -#### Global configuration - -| Option | Example value | Default value | Description | -|---------------|-----------------------|-----------------------|-----------------------| -| `name` | `sACN source` | `MIDIMonster` | sACN source name | -| `cid` | `0xAA 0xBB 0xCC` ... | `MIDIMonster` | Source CID (16 bytes) | -| `bind` | `0.0.0.0 5568` | none | Binds a network address to listen for data. This option may be set multiple times, with each descriptor being assigned an index starting from 0 to be used with the `interface` instance configuration option. At least one descriptor is required for transmission. | - -#### Instance configuration - -| Option | Example value | Default value | Description | -|---------------|-----------------------|-----------------------|-----------------------| -| `universe` | `0` | none | Universe identifier | -| `interface` | `1` | `0` | The bound address to use for data input/output | -| `priority` | `100` | none | The data priority to transmit for this instance. Setting this option enables the instance for output and includes it in the universe discovery report. | -| `destination` | `10.2.2.2` | Universe multicast | Destination address for unicast output. If unset, the multicast destination for the specified universe is used. | -| `from` | `0xAA 0xBB` ... | none | 16-byte input source CID filter. Setting this option filters the input stream for this universe. | -| `unicast` | `1` | `0` | Prevent this instance from joining its universe multicast group | - -Note that instances accepting multicast input also process unicast frames directed at them, while -instances in `unicast` mode will not receive multicast frames. - -#### Channel specification - -A channel is specified by it's universe index. Channel indices start at 1 and end at 512. - -Example mapping: -``` -sacn1.231 < sacn2.123 -``` - -A 16-bit channel (spanning any two normal 8-bit channels in the same universe, also called a wide channel) may be mapped with the syntax -``` -sacn.1+2 > sacn2.5+123 -``` - -A normal channel that is part of a wide channel can not be mapped individually. - -#### Known bugs / problems - -The DMX start code of transmitted and received universes is fixed as `0`. - -The (upper) limit on packet transmission rate mandated by section 6.6.1 of the sACN specification is disregarded. -The rate of packet transmission is influenced by the rate of incoming mapped events on the instance. - -Universe synchronization is currently not supported, though this feature may be implemented in the future. - -To use multicast input, all networking hardware in the path must support the IGMPv2 protocol. - -The Linux kernel limits the number of multicast groups an interface may join to 20. An instance configured -for input automatically joins the multicast group for its universe, unless configured in `unicast` mode. -This limit can be raised by changing the kernel option in `/proc/sys/net/ipv4/igmp_max_memberships`. - -### The `midi` backend - -The MIDI backend provides read-write access to the MIDI protocol via virtual ports. - -#### Global configuration - -| Option | Example value | Default value | Description | -|---------------|-----------------------|-----------------------|-----------------------| -| `name` | `MIDIMonster` | none | MIDI client name | - -#### Instance configuration - -| Option | Example value | Default value | Description | -|---------------|-----------------------|-----------------------|-----------------------| -| `read` | `20:0` | none | MIDI device to connect for input | -| `write` | `DeviceName` | none | MIDI device to connect for output | - -MIDI device names may either be `client:port` portnames or prefixes of MIDI device names. -Run `aconnect -i` to list input ports and `aconnect -o` to list output ports. - -Each instance also provides a virtual port, so MIDI devices can also be connected with `aconnect `. - -#### Channel specification - -The MIDI backend supports multiple channel types - -* `cc` - Control Changes -* `note` - Note On/Off messages -* `nrpn` - NRPNs (not yet implemented) - -A channel is specified using the syntax `channel.`. The shorthand `ch` may be used instead -of `channel`. -The earlier syntax of `.` is officially deprecated but still supported for compatability -reasons. This support may be removed at some future time. - -Channels range from `0` to `15`. Each channel consists of 128 notes (numbered `0` through `127`) and 128 CC's -(numbered likewise), a channel pressure control (also called 'channel aftertouch') and a pitch control. -Each Note also has an additional pressure value associated with it. - -Example mappings: -``` -midi1.ch0.note9 > midi2.channel1.cc4 -midi1.channel15.cc1 > midi1.channel0.note0 -``` -#### Known bugs / problems - -Currently, no Note Off messages are sent (instead, Note On messages with a velocity of 0 are -generated, which amount to the same thing according to the spec). This may be implemented as -a configuration option at a later time. - -NRPNs are not yet fully implemented, though rudimentary support is in the codebase. - -To see which events your MIDI devices output, ALSA provides the `aseqdump` utility. You can -list all incoming events using `aseqdump -p `. - -### The `evdev` backend - -This backend allows using Linux `evdev` devices such as mouses, keyboards, gamepads and joysticks -as input and output devices. All buttons and axes available to the Linux system are mappable. -Output is provided by the `uinput` kernel module, which allows creation of virtual input devices. -This functionality may require elevated privileges (such as special group membership or root access). - -#### Global configuration - -This backend does not take any global configuration. - -#### Instance configuration - -| Option | Example value | Default value | Description | -|---------------|-----------------------|---------------|-------------------------------------------------------| -| `device` | `/dev/input/event1` | none | `evdev` device to use as input device | -| `input` | `Xbox Wireless` | none | Presentation name of evdev device to use as input (prefix-matched) | -| `output` | `My Input Device` | none | Output device presentation name. Setting this option enables the instance for output | -| `exclusive` | `1` | `0` | Prevent other processes from using the device | -| `id` | `0x1 0x2 0x3` | none | Set output device bus identification (Vendor, Product and Version), optional | -| `axis.AXISNAME`| `34300 0 65536 255 4095` | none | Specify absolute axis details (see below) for output. This is required for any absolute axis to be output. - -The absolute axis details configuration (e.g. `axis.ABS_X`) is required for any absolute axis on output-enabled -instances. The configuration value contains, space-separated, the following values: - -* `value`: The value to assume for the axis until an event is received -* `minimum`: The axis minimum value -* `maximum`: The axis maximum value -* `fuzz`: A value used for filtering the input stream -* `flat`: An offset, below which all deviations will be ignored -* `resolution`: Axis resolution in units per millimeter (or units per radian for rotational axes) - -For real devices, all of these parameters for every axis can be found by running `evtest` on the device. - -#### Channel specification - -A channel is specified by its event type and event code, separated by `.`. For a complete list of event types and codes -see the [kernel documentation](https://www.kernel.org/doc/html/v4.12/input/event-codes.html). The most interesting event types are - -* `EV_KEY` for keys and buttons -* `EV_ABS` for absolute axes (such as Joysticks) -* `EV_REL` for relative axes (such as Mouses) - -The `evtest` tool is useful to gather information on devices active on the local system, including names, types, codes -and configuration supported by these devices. - -Example mapping: -``` -ev1.EV_KEY.KEY_A > ev1.EV_ABS.ABS_X -``` - -Note that to map an absolute axis on an output-enabled instance, additional information such as the axis minimum -and maximum are required. These must be specified in the instance configuration. When only mapping the instance -as a channel input, this is not required. - -#### Known bugs / problems - -Creating an `evdev` output device requires elevated privileges, namely, write access to the system's -`/dev/uinput`. Usually, this is granted for users in the `input` group and the `root` user. - -Input devices may synchronize logically connected event types (for example, X and Y axes) via `EV_SYN`-type -events. The MIDIMonster also generates these events after processing channel events, but may not keep the original -event grouping. - -Relative axes (`EV_REL`-type events), such as generated by mouses, are currently handled in a very basic fashion, -generating only the normalized channel values of `0`, `0.5` and `1` for any input less than, equal to and greater -than `0`, respectively. As for output, only the values `-1`, `0` and `1` are generated for the same interval. - -`EV_KEY` key-down events are sent for normalized channel values over `0.9`. - -Extended event type values such as `EV_LED`, `EV_SND`, etc are recognized in the MIDIMonster configuration file -but may or may not work with the internal channel mapping and normalization code. - -### The `loopback` backend - -This backend allows the user to create logical mapping channels, for example to exchange triggering -channels easier later. All events that are input are immediately output again on the same channel. - -#### Global configuration - -All global configuration is ignored. - -#### Instance configuration - -All instance configuration is ignored - -#### Channel specification - -A channel may have any string for a name. - -Example mapping: -``` -loop.foo < loop.bar123 -``` - -#### Known bugs / problems - -It is possible to configure loops using this backend. Triggering a loop -will create a deadlock, preventing any other backends from generating events. -Be careful with bidirectional channel mappings, as any input will be immediately -output to the same channel again. - -### The `osc` backend - -This backend offers read and write access to the Open Sound Control protocol, -spoken primarily by visual interface tools and hardware such as TouchOSC. - -#### Global configuration - -This backend does not take any global configuration. - -#### Instance configuration - -| Option | Example value | Default value | Description | -|---------------|-----------------------|-----------------------|-----------------------| -| `root` | `/my/osc/path` | none | An OSC path prefix to be prepended to all channels | -| `bind` | `:: 8000` | none | The host and port to listen on | -| `destination` | `10.11.12.13 8001` | none | Remote address to send OSC data to. Setting this enables the instance for output. The special value `learn` causes the MIDImonster to always reply to the address the last incoming packet came from. A different remote port for responses can be forced with the syntax `learn@` | - -Note that specifying an instance root speeds up matching, as packets not matching -it are ignored early in processing. - -Channels that are to be output or require a value range different from the default ranges (see below) -require special configuration, as their types and limits have to be set. - -This is done in the instance configuration using an assignment of the syntax - -``` -/local/osc/path = ... -``` - -The OSC path to be configured must only be the local part (omitting a configured instance root). - -**format** may be any sequence of valid OSC type characters. See below for a table of supported -OSC types. - -For each component of the path, the minimum and maximum values must be given separated by spaces. -Components may be accessed in the mapping section as detailed in the next section. - -An example configuration for transmission of an OSC message with 2 floating point components with -a range between 0.0 and 2.0 (for example, an X-Y control), would look as follows: - -``` -/1/xy1 = ff 0.0 2.0 0.0 2.0 -``` - -#### Channel specification - -A channel may be any valid OSC path, to which the instance root will be prepended if -set. Multi-value controls (such as X-Y pads) are supported by appending `:n` to the path, -where `n` is the parameter index, with the first (and default) one being `0`. - -Example mapping: -``` -osc1./1/xy1:0 > osc2./1/fader1 -``` - -Note that any channel that is to be output will need to be set up in the instance -configuration. - -#### Supported types & value ranges - -OSC allows controls to have individual value ranges and supports different parameter types. -The following types are currently supported by the MIDImonster: - -* **i**: 32-bit signed integer -* **f**: 32-bit IEEE floating point -* **h**: 64-bit signed integer -* **d**: 64-bit double precision floating point - -For each type, there is a default value range which will be assumed if the channel is not otherwise -configured using the instance configuration. Values out of a channels range will be clipped. - -The default ranges are: - -* **i**: `0` to `255` -* **f**: `0.0` to `1.0` -* **h**: `0` to `1024` -* **d**: `0.0` to `1.0` - -#### Known bugs / problems - -Ping requests are not yet answered. There may be some problems using broadcast output and input. - -### The `ola` backend - -This backend connects the MIDIMonster to the Open Lighting Architecture daemon. This can be useful -to take advantage of additional protocols implemented in OLA. This backend is currently marked as -optional and is only built with `make full` in the `backends/` directory, as the OLA is a large -dependency to require for all users. - -#### Global configuration - -This backend does not take any global configuration. - -#### Instance configuration - -| Option | Example value | Default value | Description | -|---------------|-----------------------|---------------|-------------------------------------------------------| -| `universe` | `7` | `0` | OLA universe to send/receive data on | - -#### Channel specification - -A channel is specified by it's universe index. Channel indices start at 1 and end at 512. - -Example mapping: -``` -ola1.231 < in2.123 -``` - -A 16-bit channel (spanning any two normal 8-bit channels in the same universe, also called a wide channel) may be mapped with the syntax -``` -ola1.1+2 > net2.5+123 -``` - -A normal channel that is part of a wide channel can not be mapped individually. - -#### Known bugs / problems - -The backend currently assumes that the OLA daemon is running on the same host as the MIDIMonster. -This may be made configurable in the future. - -This backend requires `libola-dev` to be installed, which pulls in a rather large and aggressive (in terms of probing -and taking over connected hardware) daemon. It is thus marked as optional and only built when executing the `full` target -within the `backends` directory. +Every backend includes specific documentation, including the global and instance +configuration options, channel specification syntax and any known problems or other +special information. These documentation files are located in the `backends/` directory. + +* [`midi` backend documentation](backends/midi.md) +* [`artnet` backend documentation](backends/artnet.md) +* [`sacn` backend documentation](backends/sacn.md) +* [`evdev` backend documentation](backends/evdev.md) +* [`loopback` backend documentation](backends/loopback.md) +* [`ola` backend documentation](backends/ola.md) +* [`osc` backend documentation](backends/osc.md) ## Building -- cgit v1.2.3