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livetrax/libs/surfaces/frontier/kernel_drivers/tests
David Robillard 99904735e0 Merged with trunk R1612.
git-svn-id: svn://localhost/ardour2/branches/midi@1614 d708f5d6-7413-0410-9779-e7cbd77b26cf
2007-03-18 06:07:08 +00:00
..
Makefile Merged with trunk R1612. 2007-03-18 06:07:08 +00:00
README Merged with trunk R1612. 2007-03-18 06:07:08 +00:00
tranzport_lights.c Merged with trunk R1612. 2007-03-18 06:07:08 +00:00
tranzport_tests.sh Merged with trunk R1612. 2007-03-18 06:07:08 +00:00
tranzport.c Merged with trunk R1612. 2007-03-18 06:07:08 +00:00

tranzport 0.1 <tranzport.sf.net>
oct 18, 2005
arthur@artcmusic.com
---

The Frontier Design Tranzport(tm) (www.frontierdesign.com) is a simple
wireless USB device. It is not a MIDI device. The document on their web
site "Tranzport(tm) Native Mode Interface Description" describes the
Tranzport(tm) as if it were a MIDI device, but this is implemented by their
Windows and Macintosh software drivers.

This code will allow you to use your Tranzport(tm) at a lower level of
abstraction. This code relies on libusb, which can be obtained from
libusb.sourceforge.net.

To compile the program, type "make". You should end up with a executable
called "tranzport". You'll probably have to run this program as root.

Using the program is straightforward. It will simply tell you which
buttons are being pressed and what not. If you press one of the buttons
with a light, the light will turn on. If you hold shift and press one of
the buttons with a light, the light will turn off. If you take out the
batteries to the device (or go out of range), it will tell you that the
device is offline. When you replace the batteries (or come back in
range), it should tell you it is back online.

Once you understand how everything works, you should be able to
incorporate it into your own setup however you wish.

This code was developed on a Linux machine, but (theoretically) it
should work on any system that is supported by libusb, since that is how
it communicates with the device.

Here are a few more details about the device:

There are two endpoints for communication with the device. All data
reads and writes are done in 8-byte segments.

One endpoint is for interrupt reads. This is used to read button data 
from the device. It also supplies status information for when the device 
goes out of range and comes back in range, loses power and regains 
power, etc. The format of the data is:

    00 ss bb bb bb bb dd 00  (hexadecimal)

where:

    ss - status code, 01=online ff=offline
    bb - button bits
    dd - data wheel, 01-3f=forward 41-7f=backward

Please refer to the source code for a list of the button bits.

The other endpoint is for interrupt writes. This is used to toggle the
lights on the device, and to write data to the LCD.

There are 7 lights on the device. To turn a light on, send the following 
sequence of bytes:

    00 00 nn 01 00 00 00 00  (hexadecimal)

where nn is the light number.

To turn a light off:

    00 00 nn 00 00 00 00 00  (hexadecimal)

Here is the list of lights:

    00  Record
    01  Track Rec
    02  Track Mute
    03  Track Solo
    04  Any Solo
    05  Loop
    06  Punch

The size of the LCD is 20x2, and it is split into 10 cells, each cell
being 4 characters wide. The cells progress across, then down. To write
to the LCD, send the following sequence of bytes:

    00 01 cc aa aa aa aa 00  (hexadecimal)

where:

    cc - cell number
    aa - ASCII code

Here is a list of the cells to clarify:

    00  row 0, column 0-3
    01  row 0, column 4-7
    02  row 0, column 8-11
    03  row 0, column 12-15
    04  row 0, column 16-19
    05  row 1, column 0-3
    06  row 1, column 4-7
    07  row 1, column 8-11
    08  row 1, column 12-15
    09  row 1, column 16-19

You should refer to the "Tranzport(tm) Native Mode Interface
Description" document for a listing of the ASCII codes the LCD uses.