The snd-serial-u16550 driver contains some auto-detection code. If this does not work, these options may be required. This information is focused on the options that make the Winman 1x1 ISA interface work. The Winman 2x2 seems the be that same card with two UARTs instead of one.
The key options for snd-serial-u16550 are:
This option is covered in the serial page. adaptor sets the MIDI interface type. There are five options:
0 - Roland Soundcanvas or Alesis QS-series support (default) 1 - Midiator MS-124T support (1) 2 - Midiator MS-124W S/A mode (2) 3 - MS-124W M/B mode support (3) 4 - Generic device with multiple input support (4)
The number of MIDI inputs for the Generic option is set by the parameter ins, or defaults to 1.
For the Midiator MS-124W, you must set the physical M-S and A-B switches on the Midiator to match the driver mode you select.
In Roland Soundcanvas mode, multiple ALSA raw MIDI substreams are supported (midiCnD0-midiCnD15). Whenever you write to a different substream, the driversends the nonstandard MIDI command sequence F5 NN, where NN is the substream number plus 1. Roland modules use this command to switch between different "parts", so this feature lets you treat each part as a distinct raw MIDI substream. The driver provides no way to send F5 00 (no selection) or to not send the F5 NN command sequence at all; perhaps it ought to.
Specifies the hardware I/O base memory address of the UART chip. On some cards this is set by hardware. On the Winman 1x1 this is set by jumper. On the Winman 2x2 the first MIDI port has the specified base address and the second port has an address 0x008 higher; thus if the base address is 0x200 the second UART base address is 0x208.
Specifies the hardware IRQ of the UART chip. On the Winman cards this is set by jumper. snd-serial-u16550 may be able to operate on a polling basis if an interrupt is not available.
Specifies the speed in baud of the MIDI interface. The correct rate for MIDI is 31250 baud; generic PC serial ports, however, cannot produce this speed due to the clock rate of their UARTs. 38400 baud is the fallback rate, producible by standard PC serial ports and expected by devices with a PC serial port interface.
Specifies the base speed of the UART. This is the crystal clock divided by 16. On the Winman cards, the crystal clock is 6MHz; on other cards the crystal clock value should be printed on the crystal, typically the only component in a metal canister. The appropriate value for the Winman cards is thus 375000 = 6000000 / 16. The driver will use the appropriate divisor given the base and possibly speed parameters.
Specifies the number of MIDI outputs supported by the interface. Defaults to 1.
Specifies the number of MIDI inputs supported by the interface. Also defaults to 1.
There are a few additional parameters listed in the output of /sbin/modinfo snd-serial-u16550. I do not know what they do. On the Winman 1x1 interface the magic line for me is:
/sbin/modprobe snd-serial-u16550 adaptor=4 port=0x300 irq=5 speed=31250 base=375000
All these parameters seem to be necessary; on the Winman the module loaded happily without the base parameter but produced meaningless MIDI data.
Usage example for simple serial converter:
/sbin/setserial /dev/ttyS0 uart none /sbin/modprobe snd-serial-u16550 port=0x3f8 irq=4 \ speed=115200
Note: I found that setserial would not accept none as a parameter. Instead I had to set the port to an unused address. Use:
to find out which address are in use... then choose another. The best ones to use are other serial address like 0x2f8.
In other cases it can be completely fine to give the uart none argument to setserial.
Usage example for Roland SoundCanvas with 4 MIDI ports:
/sbin/setserial /dev/ttyS0 uart none /sbin/modprobe snd-serial-u16550 port=0x3f8 irq=4 outs=4
The same goes for an Alesis QSR, only you should leave out the outs=4 parameter, because the QSR only has 1 in and 1 out port.
In MS-124T mode, one raw MIDI substream is supported (midiCnD0); the outs module parameter is automatically set to 1. The driver sends the same data to all four MIDI Out connectors. Set the A-B switch and the speed module parameter to match (A=19200, B=9600).
Usage example for MS-124T, with A-B switch in A position:
/sbin/setserial /dev/ttyS0 uart none /sbin/modprobe snd-serial-u16550 port=0x3f8 irq=4 \ adaptor=1 speed=19200
In MS-124W S/A mode, one raw MIDI substream is supported (midiCnD0); the outs module parameter is automatically set to 1. The driver sends the same data to all four MIDI Out connectors at full MIDI speed.
Usage example for S/A mode:
/sbin/setserial /dev/ttyS0 uart none /sbin/modprobe snd-serial-u16550 port=0x3f8 irq=4 \ adaptor=2
In MS-124W M/B mode, the driver supports 16 ALSA raw MIDI substreams; the outs module parameter is automatically set to 16. The substream number gives a bitmask of which MIDI Out connectors the data should be sent to, with midiCnD1 sending to Out 1, midiCnD2 to Out 2, midiCnD4 to Out 3, and midiCnD8 to Out 4. Thus midiCnD15 sends the data to all 4 ports. As a special case, midiCnD0 also sends to all ports, since it is not useful to send the data to no ports. M/B mode has extra overhead to select the MIDI Out for each byte, so the aggregate data rate across all four MIDI Outs is at most one byte every 520 us, as compared with the full MIDI data rate of one byte every 320 us per port.
Usage example for M/B mode:
/sbin/setserial /dev/ttyS0 uart none /sbin/modprobe snd-serial-u16550 port=0x3f8 irq=4 \ adaptor=3
The MS-124W hardware's M/A mode is currently not supported. This mode allows the MIDI Outs to act independently at double the aggregate throughput of M/B, but does not allow sending the same byte simultaneously to multiple MIDI Outs. The M/A protocol requires the driver to twiddle the modem control lines under timing constraints, so it would be a bit more complicated to implement than the other modes.
Midiator models other than MS-124W and MS-124T are currently not supported. Note that the suffix letter is significant; the MS-124 and MS-124B are not compatible, nor are the other known models MS-101, MS-101B, MS-103, and MS-114. I do have documentation (firstname.lastname@example.org) that partially covers these models, but no units to experiment with. The MS-124W support is tested with a real unit. The MS-124T support is untested, but should work.
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