567 lines
23 KiB
ReStructuredText
567 lines
23 KiB
ReStructuredText
=================
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MIDI 2.0 on Linux
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=================
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General
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=======
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MIDI 2.0 is an extended protocol for providing higher resolutions and
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more fine controls over the legacy MIDI 1.0. The fundamental changes
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introduced for supporting MIDI 2.0 are:
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- Support of Universal MIDI Packet (UMP)
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- Support of MIDI 2.0 protocol messages
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- Transparent conversions between UMP and legacy MIDI 1.0 byte stream
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- MIDI-CI for property and profile configurations
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UMP is a new container format to hold all MIDI protocol 1.0 and MIDI
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2.0 protocol messages. Unlike the former byte stream, it's 32bit
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aligned, and each message can be put in a single packet. UMP can send
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the events up to 16 "UMP Groups", where each UMP Group contain up to
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16 MIDI channels.
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MIDI 2.0 protocol is an extended protocol to achieve the higher
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resolution and more controls over the old MIDI 1.0 protocol.
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MIDI-CI is a high-level protocol that can talk with the MIDI device
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for the flexible profiles and configurations. It's represented in the
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form of special SysEx.
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For Linux implementations, the kernel supports the UMP transport and
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the encoding/decoding of MIDI protocols on UMP, while MIDI-CI is
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supported in user-space over the standard SysEx.
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As of this writing, only USB MIDI device supports the UMP and Linux
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2.0 natively. The UMP support itself is pretty generic, hence it
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could be used by other transport layers, although it could be
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implemented differently (e.g. as a ALSA sequencer client), too.
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The access to UMP devices are provided in two ways: the access via
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rawmidi device and the access via ALSA sequencer API.
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ALSA sequencer API was extended to allow the payload of UMP packets.
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It's allowed to connect freely between MIDI 1.0 and MIDI 2.0 sequencer
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clients, and the events are converted transparently.
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Kernel Configuration
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====================
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The following new configs are added for supporting MIDI 2.0:
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`CONFIG_SND_UMP`, `CONFIG_SND_UMP_LEGACY_RAWMIDI`,
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`CONFIG_SND_SEQ_UMP`, `CONFIG_SND_SEQ_UMP_CLIENT`, and
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`CONFIG_SND_USB_AUDIO_MIDI_V2`. The first visible one is
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`CONFIG_SND_USB_AUDIO_MIDI_V2`, and when you choose it (to set `=y`),
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the core support for UMP (`CONFIG_SND_UMP`) and the sequencer binding
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(`CONFIG_SND_SEQ_UMP_CLIENT`) will be automatically selected.
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Additionally, `CONFIG_SND_UMP_LEGACY_RAWMIDI=y` will enable the
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support for the legacy raw MIDI device for UMP Endpoints.
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Rawmidi Device with USB MIDI 2.0
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================================
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When a device supports MIDI 2.0, the USB-audio driver probes and uses
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the MIDI 2.0 interface (that is found always at the altset 1) as
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default instead of the MIDI 1.0 interface (at altset 0). You can
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switch back to the binding with the old MIDI 1.0 interface by passing
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`midi2_enable=0` option to snd-usb-audio driver module, too.
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The USB audio driver tries to query the UMP Endpoint and UMP Function
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Block information that are provided since UMP v1.1, and builds up the
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topology based on those information. When the device is older and
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doesn't respond to the new UMP inquiries, the driver falls back and
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builds the topology based on Group Terminal Block (GTB) information
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from the USB descriptor. Some device might be screwed up by the
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unexpected UMP command; in such a case, pass `midi2_ump_probe=0`
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option to snd-usb-audio driver for skipping the UMP v1.1 inquiries.
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When the MIDI 2.0 device is probed, the kernel creates a rawmidi
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device for each UMP Endpoint of the device. Its device name is
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`/dev/snd/umpC*D*` and different from the standard rawmidi device name
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`/dev/snd/midiC*D*` for MIDI 1.0, in order to avoid confusing the
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legacy applications accessing mistakenly to UMP devices.
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You can read and write UMP packet data directly from/to this UMP
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rawmidi device. For example, reading via `hexdump` like below will
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show the incoming UMP packets of the card 0 device 0 in the hex
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format::
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% hexdump -C /dev/snd/umpC0D0
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00000000 01 07 b0 20 00 07 b0 20 64 3c 90 20 64 3c 80 20 |... ... d<. d<. |
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Unlike the MIDI 1.0 byte stream, UMP is a 32bit packet, and the size
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for reading or writing the device is also aligned to 32bit (which is 4
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bytes).
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The 32-bit words in the UMP packet payload are always in CPU native
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endianness. Transport drivers are responsible to convert UMP words
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from / to system endianness to required transport endianness / byte
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order.
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When `CONFIG_SND_UMP_LEGACY_RAWMIDI` is set, the driver creates
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another standard raw MIDI device additionally as `/dev/snd/midiC*D*`.
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This contains 16 substreams, and each substream corresponds to a
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(0-based) UMP Group. Legacy applications can access to the specified
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group via each substream in MIDI 1.0 byte stream format. With the
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ALSA rawmidi API, you can open the arbitrary substream, while just
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opening `/dev/snd/midiC*D*` will end up with opening the first
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substream.
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Each UMP Endpoint can provide the additional information, constructed
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from the information inquired via UMP 1.1 Stream messages or USB MIDI
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2.0 descriptors. And a UMP Endpoint may contain one or more UMP
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Blocks, where UMP Block is an abstraction introduced in the ALSA UMP
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implementations to represent the associations among UMP Groups. UMP
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Block corresponds to Function Block in UMP 1.1 specification. When
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UMP 1.1 Function Block information isn't available, it's filled
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partially from Group Terminal Block (GTB) as defined in USB MIDI 2.0
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specifications.
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The information of UMP Endpoints and UMP Blocks are found in the proc
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file `/proc/asound/card*/midi*`. For example::
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% cat /proc/asound/card1/midi0
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ProtoZOA MIDI
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Type: UMP
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EP Name: ProtoZOA
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EP Product ID: ABCD12345678
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UMP Version: 0x0000
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Protocol Caps: 0x00000100
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Protocol: 0x00000100
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Num Blocks: 3
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Block 0 (ProtoZOA Main)
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Direction: bidirection
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Active: Yes
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Groups: 1-1
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Is MIDI1: No
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Block 1 (ProtoZOA Ext IN)
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Direction: output
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Active: Yes
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Groups: 2-2
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Is MIDI1: Yes (Low Speed)
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....
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Note that `Groups` field shown in the proc file above indicates the
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1-based UMP Group numbers (from-to).
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Those additional UMP Endpoint and UMP Block information can be
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obtained via the new ioctls `SNDRV_UMP_IOCTL_ENDPOINT_INFO` and
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`SNDRV_UMP_IOCTL_BLOCK_INFO`, respectively.
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The rawmidi name and the UMP Endpoint name are usually identical, and
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in the case of USB MIDI, it's taken from `iInterface` of the
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corresponding USB MIDI interface descriptor. If it's not provided,
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it's copied from `iProduct` of the USB device descriptor as a
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fallback.
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The Endpoint Product ID is a string field and supposed to be unique.
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It's copied from `iSerialNumber` of the device for USB MIDI.
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The protocol capabilities and the actual protocol bits are defined in
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`asound.h`.
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ALSA Sequencer with USB MIDI 2.0
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================================
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In addition to the rawmidi interfaces, ALSA sequencer interface
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supports the new UMP MIDI 2.0 device, too. Now, each ALSA sequencer
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client may set its MIDI version (0, 1 or 2) to declare itself being
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either the legacy, UMP MIDI 1.0 or UMP MIDI 2.0 device, respectively.
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The first, legacy client is the one that sends/receives the old
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sequencer event as was. Meanwhile, UMP MIDI 1.0 and 2.0 clients send
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and receive in the extended event record for UMP. The MIDI version is
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seen in the new `midi_version` field of `snd_seq_client_info`.
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A UMP packet can be sent/received in a sequencer event embedded by
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specifying the new event flag bit `SNDRV_SEQ_EVENT_UMP`. When this
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flag is set, the event has 16 byte (128 bit) data payload for holding
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the UMP packet. Without the `SNDRV_SEQ_EVENT_UMP` bit flag, the event
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is treated as a legacy event as it was (with max 12 byte data
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payload).
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With `SNDRV_SEQ_EVENT_UMP` flag set, the type field of a UMP sequencer
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event is ignored (but it should be set to 0 as default).
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The type of each client can be seen in `/proc/asound/seq/clients`.
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For example::
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% cat /proc/asound/seq/clients
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Client info
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cur clients : 3
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....
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Client 14 : "Midi Through" [Kernel Legacy]
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Port 0 : "Midi Through Port-0" (RWe-)
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Client 20 : "ProtoZOA" [Kernel UMP MIDI1]
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UMP Endpoint: ProtoZOA
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UMP Block 0: ProtoZOA Main [Active]
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Groups: 1-1
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UMP Block 1: ProtoZOA Ext IN [Active]
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Groups: 2-2
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UMP Block 2: ProtoZOA Ext OUT [Active]
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Groups: 3-3
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Port 0 : "MIDI 2.0" (RWeX) [In/Out]
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Port 1 : "ProtoZOA Main" (RWeX) [In/Out]
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Port 2 : "ProtoZOA Ext IN" (-We-) [Out]
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Port 3 : "ProtoZOA Ext OUT" (R-e-) [In]
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Here you can find two types of kernel clients, "Legacy" for client 14,
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and "UMP MIDI1" for client 20, which is a USB MIDI 2.0 device.
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A USB MIDI 2.0 client gives always the port 0 as "MIDI 2.0" and the
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rest ports from 1 for each UMP Group (e.g. port 1 for Group 1).
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In this example, the device has three active groups (Main, Ext IN and
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Ext OUT), and those are exposed as sequencer ports from 1 to 3.
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The "MIDI 2.0" port is for a UMP Endpoint, and its difference from
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other UMP Group ports is that UMP Endpoint port sends the events from
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the all ports on the device ("catch-all"), while each UMP Group port
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sends only the events from the given UMP Group.
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Also, UMP groupless messages (such as the UMP message type 0x0f) are
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sent only to the UMP Endpoint port.
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Note that, although each UMP sequencer client usually creates 16
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ports, those ports that don't belong to any UMP Blocks (or belonging
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to inactive UMP Blocks) are marked as inactive, and they don't appear
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in the proc outputs. In the example above, the sequencer ports from 4
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to 16 are present but not shown there.
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The proc file above shows the UMP Block information, too. The same
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entry (but with more detailed information) is found in the rawmidi
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proc output.
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When clients are connected between different MIDI versions, the events
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are translated automatically depending on the client's version, not
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only between the legacy and the UMP MIDI 1.0/2.0 types, but also
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between UMP MIDI 1.0 and 2.0 types, too. For example, running
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`aseqdump` program on the ProtoZOA Main port in the legacy mode will
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give you the output like::
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% aseqdump -p 20:1
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Waiting for data. Press Ctrl+C to end.
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Source Event Ch Data
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20:1 Note on 0, note 60, velocity 100
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20:1 Note off 0, note 60, velocity 100
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20:1 Control change 0, controller 11, value 4
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When you run `aseqdump` in MIDI 2.0 mode, it'll receive the high
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precision data like::
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% aseqdump -u 2 -p 20:1
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Waiting for data. Press Ctrl+C to end.
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Source Event Ch Data
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20:1 Note on 0, note 60, velocity 0xc924, attr type = 0, data = 0x0
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20:1 Note off 0, note 60, velocity 0xc924, attr type = 0, data = 0x0
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20:1 Control change 0, controller 11, value 0x2000000
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while the data is automatically converted by ALSA sequencer core.
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Rawmidi API Extensions
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======================
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* The additional UMP Endpoint information can be obtained via the new
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ioctl `SNDRV_UMP_IOCTL_ENDPOINT_INFO`. It contains the associated
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card and device numbers, the bit flags, the protocols, the number of
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UMP Blocks, the name string of the endpoint, etc.
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The protocols are specified in two field, the protocol capabilities
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and the current protocol. Both contain the bit flags specifying the
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MIDI protocol version (`SNDRV_UMP_EP_INFO_PROTO_MIDI1` or
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`SNDRV_UMP_EP_INFO_PROTO_MIDI2`) in the upper byte and the jitter
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reduction timestamp (`SNDRV_UMP_EP_INFO_PROTO_JRTS_TX` and
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`SNDRV_UMP_EP_INFO_PROTO_JRTS_RX`) in the lower byte.
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A UMP Endpoint may contain up to 32 UMP Blocks, and the number of
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the currently assigned blocks are shown in the Endpoint information.
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* Each UMP Block information can be obtained via another new ioctl
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`SNDRV_UMP_IOCTL_BLOCK_INFO`. The block ID number (0-based) has to
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be passed for the block to query. The received data contains the
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associated the direction of the block, the first associated group ID
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(0-based) and the number of groups, the name string of the block,
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etc.
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The direction is either `SNDRV_UMP_DIR_INPUT`,
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`SNDRV_UMP_DIR_OUTPUT` or `SNDRV_UMP_DIR_BIDIRECTION`.
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* For the device supports UMP v1.1, the UMP MIDI protocol can be
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switched via "Stream Configuration Request" message (UMP type 0x0f,
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status 0x05). When UMP core receives such a message, it updates the
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UMP EP info and the corresponding sequencer clients as well.
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Control API Extensions
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======================
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* The new ioctl `SNDRV_CTL_IOCTL_UMP_NEXT_DEVICE` is introduced for
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querying the next UMP rawmidi device, while the existing ioctl
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`SNDRV_CTL_IOCTL_RAWMIDI_NEXT_DEVICE` queries only the legacy
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rawmidi devices.
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For setting the subdevice (substream number) to be opened, use the
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ioctl `SNDRV_CTL_IOCTL_RAWMIDI_PREFER_SUBDEVICE` like the normal
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rawmidi.
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* Two new ioctls `SNDRV_CTL_IOCTL_UMP_ENDPOINT_INFO` and
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`SNDRV_CTL_IOCTL_UMP_BLOCK_INFO` provide the UMP Endpoint and UMP
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Block information of the specified UMP device via ALSA control API
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without opening the actual (UMP) rawmidi device.
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The `card` field is ignored upon inquiry, always tied with the card
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of the control interface.
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Sequencer API Extensions
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========================
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* `midi_version` field is added to `snd_seq_client_info` to indicate
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the current MIDI version (either 0, 1 or 2) of each client.
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When `midi_version` is 1 or 2, the alignment of read from a UMP
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sequencer client is also changed from the former 28 bytes to 32
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bytes for the extended payload. The alignment size for the write
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isn't changed, but each event size may differ depending on the new
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bit flag below.
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* `SNDRV_SEQ_EVENT_UMP` flag bit is added for each sequencer event
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flags. When this bit flag is set, the sequencer event is extended
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to have a larger payload of 16 bytes instead of the legacy 12
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bytes, and the event contains the UMP packet in the payload.
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* The new sequencer port type bit (`SNDRV_SEQ_PORT_TYPE_MIDI_UMP`)
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indicates the port being UMP-capable.
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* The sequencer ports have new capability bits to indicate the
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inactive ports (`SNDRV_SEQ_PORT_CAP_INACTIVE`) and the UMP Endpoint
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port (`SNDRV_SEQ_PORT_CAP_UMP_ENDPOINT`).
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* The event conversion of ALSA sequencer clients can be suppressed the
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new filter bit `SNDRV_SEQ_FILTER_NO_CONVERT` set to the client info.
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For example, the kernel pass-through client (`snd-seq-dummy`) sets
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this flag internally.
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* The port information gained the new field `direction` to indicate
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the direction of the port (either `SNDRV_SEQ_PORT_DIR_INPUT`,
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`SNDRV_SEQ_PORT_DIR_OUTPUT` or `SNDRV_SEQ_PORT_DIR_BIDIRECTION`).
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* Another additional field for the port information is `ump_group`
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which specifies the associated UMP Group Number (1-based).
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When it's non-zero, the UMP group field in the UMP packet updated
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upon delivery to the specified group (corrected to be 0-based).
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Each sequencer port is supposed to set this field if it's a port to
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specific to a certain UMP group.
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* Each client may set the additional event filter for UMP Groups in
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`group_filter` bitmap. The filter consists of bitmap from 1-based
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Group numbers. For example, when the bit 1 is set, messages from
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Group 1 (i.e. the very first group) are filtered and not delivered.
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The bit 0 is used for filtering UMP groupless messages.
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* Two new ioctls are added for UMP-capable clients:
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`SNDRV_SEQ_IOCTL_GET_CLIENT_UMP_INFO` and
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`SNDRV_SEQ_IOCTL_SET_CLIENT_UMP_INFO`. They are used to get and set
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either `snd_ump_endpoint_info` or `snd_ump_block_info` data
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associated with the sequencer client. The USB MIDI driver provides
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those information from the underlying UMP rawmidi, while a
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user-space client may provide its own data via `*_SET` ioctl.
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For an Endpoint data, pass 0 to the `type` field, while for a Block
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data, pass the block number + 1 to the `type` field.
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Setting the data for a kernel client shall result in an error.
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* With UMP 1.1, Function Block information may be changed
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dynamically. When the update of Function Block is received from the
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device, ALSA sequencer core changes the corresponding sequencer port
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name and attributes accordingly, and notifies the changes via the
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announcement to the ALSA sequencer system port, similarly like the
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normal port change notification.
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MIDI2 USB Gadget Function Driver
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================================
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The latest kernel contains the support for USB MIDI 2.0 gadget
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function driver, which can be used for prototyping and debugging MIDI
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2.0 features.
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`CONFIG_USB_GADGET`, `CONFIG_USB_CONFIGFS` and
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`CONFIG_USB_CONFIGFS_F_MIDI2` need to be enabled for the MIDI2 gadget
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driver.
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In addition, for using a gadget driver, you need a working UDC driver.
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In the example below, we use `dummy_hcd` driver (enabled via
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`CONFIG_USB_DUMMY_HCD`) that is available on PC and VM for debugging
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purpose. There are other UDC drivers depending on the platform, and
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those can be used for a real device, instead, too.
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At first, on a system to run the gadget, load `libcomposite` module::
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% modprobe libcomposite
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and you'll have `usb_gadget` subdirectory under configfs space
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(typically `/sys/kernel/config` on modern OS). Then create a gadget
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instance and add configurations there, for example::
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% cd /sys/kernel/config
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% mkdir usb_gadget/g1
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% cd usb_gadget/g1
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% mkdir configs/c.1
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% mkdir functions/midi2.usb0
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% echo 0x0004 > idProduct
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% echo 0x17b3 > idVendor
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% mkdir strings/0x409
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% echo "ACME Enterprises" > strings/0x409/manufacturer
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% echo "ACMESynth" > strings/0x409/product
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% echo "ABCD12345" > strings/0x409/serialnumber
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% mkdir configs/c.1/strings/0x409
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% echo "Monosynth" > configs/c.1/strings/0x409/configuration
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% echo 120 > configs/c.1/MaxPower
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At this point, there must be a subdirectory `ep.0`, and that is the
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configuration for a UMP Endpoint. You can fill the Endpoint
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information like::
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% echo "ACMESynth" > functions/midi2.usb0/iface_name
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% echo "ACMESynth" > functions/midi2.usb0/ep.0/ep_name
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% echo "ABCD12345" > functions/midi2.usb0/ep.0/product_id
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% echo 0x0123 > functions/midi2.usb0/ep.0/family
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% echo 0x4567 > functions/midi2.usb0/ep.0/model
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% echo 0x123456 > functions/midi2.usb0/ep.0/manufacturer
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% echo 0x12345678 > functions/midi2.usb0/ep.0/sw_revision
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The default MIDI protocol can be set either 1 or 2::
|
|
|
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% echo 2 > functions/midi2.usb0/ep.0/protocol
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|
|
|
And, you can find a subdirectory `block.0` under this Endpoint
|
|
subdirectory. This defines the Function Block information::
|
|
|
|
% echo "Monosynth" > functions/midi2.usb0/ep.0/block.0/name
|
|
% echo 0 > functions/midi2.usb0/ep.0/block.0/first_group
|
|
% echo 1 > functions/midi2.usb0/ep.0/block.0/num_groups
|
|
|
|
Finally, link the configuration and enable it::
|
|
|
|
% ln -s functions/midi2.usb0 configs/c.1
|
|
% echo dummy_udc.0 > UDC
|
|
|
|
where `dummy_udc.0` is an example case and it differs depending on the
|
|
system. You can find the UDC instances in `/sys/class/udc` and pass
|
|
the found name instead::
|
|
|
|
% ls /sys/class/udc
|
|
dummy_udc.0
|
|
|
|
Now, the MIDI 2.0 gadget device is enabled, and the gadget host
|
|
creates a new sound card instance containing a UMP rawmidi device by
|
|
`f_midi2` driver::
|
|
|
|
% cat /proc/asound/cards
|
|
....
|
|
1 [Gadget ]: f_midi2 - MIDI 2.0 Gadget
|
|
MIDI 2.0 Gadget
|
|
|
|
And on the connected host, a similar card should appear, too, but with
|
|
the card and device names given in the configfs above::
|
|
|
|
% cat /proc/asound/cards
|
|
....
|
|
2 [ACMESynth ]: USB-Audio - ACMESynth
|
|
ACME Enterprises ACMESynth at usb-dummy_hcd.0-1, high speed
|
|
|
|
You can play a MIDI file on the gadget side::
|
|
|
|
% aplaymidi -p 20:1 to_host.mid
|
|
|
|
and this will appear as an input from a MIDI device on the connected
|
|
host::
|
|
|
|
% aseqdump -p 20:0 -u 2
|
|
|
|
Vice versa, a playback on the connected host will work as an input on
|
|
the gadget, too.
|
|
|
|
Each Function Block may have different direction and UI-hint,
|
|
specified via `direction` and `ui_hint` attributes.
|
|
Passing `1` is for input-only, `2` for out-only and `3` for
|
|
bidirectional (the default value). For example::
|
|
|
|
% echo 2 > functions/midi2.usb0/ep.0/block.0/direction
|
|
% echo 2 > functions/midi2.usb0/ep.0/block.0/ui_hint
|
|
|
|
When you need more than one Function Blocks, you can create
|
|
subdirectories `block.1`, `block.2`, etc dynamically, and configure
|
|
them in the configuration procedure above before linking.
|
|
For example, to create a second Function Block for a keyboard::
|
|
|
|
% mkdir functions/midi2.usb0/ep.0/block.1
|
|
% echo "Keyboard" > functions/midi2.usb0/ep.0/block.1/name
|
|
% echo 1 > functions/midi2.usb0/ep.0/block.1/first_group
|
|
% echo 1 > functions/midi2.usb0/ep.0/block.1/num_groups
|
|
% echo 1 > functions/midi2.usb0/ep.0/block.1/direction
|
|
% echo 1 > functions/midi2.usb0/ep.0/block.1/ui_hint
|
|
|
|
The `block.*` subdirectories can be removed dynamically, too (except
|
|
for `block.0` which is persistent).
|
|
|
|
For assigning a Function Block for MIDI 1.0 I/O, set up in `is_midi1`
|
|
attribute. 1 is for MIDI 1.0, and 2 is for MIDI 1.0 with low speed
|
|
connection::
|
|
|
|
% echo 2 > functions/midi2.usb0/ep.0/block.1/is_midi1
|
|
|
|
For disabling the processing of UMP Stream messages in the gadget
|
|
driver, pass `0` to `process_ump` attribute in the top-level config::
|
|
|
|
% echo 0 > functions/midi2.usb0/process_ump
|
|
|
|
The MIDI 1.0 interface at altset 0 is supported by the gadget driver,
|
|
too. When MIDI 1.0 interface is selected by the connected host, the
|
|
UMP I/O on the gadget is translated from/to USB MIDI 1.0 packets
|
|
accordingly while the gadget driver keeps communicating with the
|
|
user-space over UMP rawmidi.
|
|
|
|
MIDI 1.0 ports are set up from the config in each Function Block.
|
|
For example::
|
|
|
|
% echo 0 > functions/midi2.usb0/ep.0/block.0/midi1_first_group
|
|
% echo 1 > functions/midi2.usb0/ep.0/block.0/midi1_num_groups
|
|
|
|
The configuration above will enable the Group 1 (the index 0) for MIDI
|
|
1.0 interface. Note that those groups must be in the groups defined
|
|
for the Function Block itself.
|
|
|
|
The gadget driver supports more than one UMP Endpoints, too.
|
|
Similarly like the Function Blocks, you can create a new subdirectory
|
|
`ep.1` (but under the card top-level config) to enable a new Endpoint::
|
|
|
|
% mkdir functions/midi2.usb0/ep.1
|
|
|
|
and create a new Function Block there. For example, to create 4
|
|
Groups for the Function Block of this new Endpoint::
|
|
|
|
% mkdir functions/midi2.usb0/ep.1/block.0
|
|
% echo 4 > functions/midi2.usb0/ep.1/block.0/num_groups
|
|
|
|
Now, you'll have 4 rawmidi devices in total: the first two are UMP
|
|
rawmidi devices for Endpoint 0 and Endpoint 1, and other two for the
|
|
legacy MIDI 1.0 rawmidi devices corresponding to both EP 0 and EP 1.
|
|
|
|
The current altsetting on the gadget can be informed via a control
|
|
element "Operation Mode" with `RAWMIDI` iface. e.g. you can read it
|
|
via `amixer` program running on the gadget host like::
|
|
|
|
% amixer -c1 cget iface=RAWMIDI,name='Operation Mode'
|
|
; type=INTEGER,access=r--v----,values=1,min=0,max=2,step=0
|
|
: values=2
|
|
|
|
The value (shown in the second returned line with `: values=`)
|
|
indicates 1 for MIDI 1.0 (altset 0), 2 for MIDI 2.0 (altset 1) and 0
|
|
for unset.
|
|
|
|
As of now, the configurations can't be changed after binding.
|