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Most of these fixes were already submitted for old kernel versions, and were approved, but for some reason they never made it into the releases. Because this is a consolidation of a couple old missed patches, it touches both Kconfigs and documentation texts. Signed-off-by: Matt LaPlante <kernel1@cyberdogtech.com> Acked-by: Randy Dunlap <randy.dunlap@oracle.com> Signed-off-by: Adrian Bunk <bunk@kernel.org>
709 lines
26 KiB
Text
709 lines
26 KiB
Text
Intelligent Keyboard (ikbd) Protocol
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1. Introduction
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The Atari Corp. Intelligent Keyboard (ikbd) is a general purpose keyboard
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controller that is flexible enough that it can be used in a variety of
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products without modification. The keyboard, with its microcontroller,
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provides a convenient connection point for a mouse and switch-type joysticks.
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The ikbd processor also maintains a time-of-day clock with one second
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resolution.
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The ikbd has been designed to be general enough that it can be used with a
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variety of new computer products. Product variations in a number of
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keyswitches, mouse resolution, etc. can be accommodated.
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The ikbd communicates with the main processor over a high speed bi-directional
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serial interface. It can function in a variety of modes to facilitate
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different applications of the keyboard, joysticks, or mouse. Limited use of
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the controller is possible in applications in which only a unidirectional
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communications medium is available by carefully designing the default modes.
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3. Keyboard
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The keyboard always returns key make/break scan codes. The ikbd generates
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keyboard scan codes for each key press and release. The key scan make (key
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closure) codes start at 1, and are defined in Appendix A. For example, the
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ISO key position in the scan code table should exist even if no keyswitch
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exists in that position on a particular keyboard. The break code for each key
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is obtained by ORing 0x80 with the make code.
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The special codes 0xF6 through 0xFF are reserved for use as follows:
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0xF6 status report
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0xF7 absolute mouse position record
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0xF8-0xFB relative mouse position records (lsbs determined by
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mouse button states)
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0xFC time-of-day
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0xFD joystick report (both sticks)
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0xFE joystick 0 event
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0xFF joystick 1 event
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The two shift keys return different scan codes in this mode. The ENTER key
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and the RETurn key are also distinct.
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4. Mouse
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The mouse port should be capable of supporting a mouse with resolution of
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approximately 200 counts (phase changes or 'clicks') per inch of travel. The
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mouse should be scanned at a rate that will permit accurate tracking at
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velocities up to 10 inches per second.
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The ikbd can report mouse motion in three distinctly different ways. It can
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report relative motion, absolute motion in a coordinate system maintained
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within the ikbd, or by converting mouse motion into keyboard cursor control
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key equivalents.
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The mouse buttons can be treated as part of the mouse or as additional
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keyboard keys.
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4.1 Relative Position Reporting
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In relative position mode, the ikbd will return relative mouse position
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records whenever a mouse event occurs. A mouse event consists of a mouse
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button being pressed or released, or motion in either axis exceeding a
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settable threshold of motion. Regardless of the threshold, all bits of
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resolution are returned to the host computer.
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Note that the ikbd may return mouse relative position reports with
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significantly more than the threshold delta x or y. This may happen since no
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relative mouse motion events will be generated: (a) while the keyboard has
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been 'paused' ( the event will be stored until keyboard communications is
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resumed) (b) while any event is being transmitted.
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The relative mouse position record is a three byte record of the form
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(regardless of keyboard mode):
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%111110xy ; mouse position record flag
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; where y is the right button state
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; and x is the left button state
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X ; delta x as twos complement integer
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Y ; delta y as twos complement integer
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Note that the value of the button state bits should be valid even if the
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MOUSE BUTTON ACTION has set the buttons to act like part of the keyboard.
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If the accumulated motion before the report packet is generated exceeds the
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+127...-128 range, the motion is broken into multiple packets.
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Note that the sign of the delta y reported is a function of the Y origin
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selected.
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4.2 Absolute Position reporting
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The ikbd can also maintain absolute mouse position. Commands exist for
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resetting the mouse position, setting X/Y scaling, and interrogating the
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current mouse position.
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4.3 Mouse Cursor Key Mode
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The ikbd can translate mouse motion into the equivalent cursor keystrokes.
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The number of mouse clicks per keystroke is independently programmable in
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each axis. The ikbd internally maintains mouse motion information to the
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highest resolution available, and merely generates a pair of cursor key events
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for each multiple of the scale factor.
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Mouse motion produces the cursor key make code immediately followed by the
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break code for the appropriate cursor key. The mouse buttons produce scan
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codes above those normally assigned for the largest envisioned keyboard (i.e.
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LEFT=0x74 & RIGHT=0x75).
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5. Joystick
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5.1 Joystick Event Reporting
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In this mode, the ikbd generates a record whenever the joystick position is
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changed (i.e. for each opening or closing of a joystick switch or trigger).
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The joystick event record is two bytes of the form:
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%1111111x ; Joystick event marker
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; where x is Joystick 0 or 1
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%x000yyyy ; where yyyy is the stick position
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; and x is the trigger
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5.2 Joystick Interrogation
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The current state of the joystick ports may be interrogated at any time in
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this mode by sending an 'Interrogate Joystick' command to the ikbd.
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The ikbd response to joystick interrogation is a three byte report of the form
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0xFD ; joystick report header
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%x000yyyy ; Joystick 0
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%x000yyyy ; Joystick 1
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; where x is the trigger
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; and yyy is the stick position
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5.3 Joystick Monitoring
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A mode is available that devotes nearly all of the keyboard communications
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time to reporting the state of the joystick ports at a user specifiable rate.
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It remains in this mode until reset or commanded into another mode. The PAUSE
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command in this mode not only stop the output but also temporarily stops
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scanning the joysticks (samples are not queued).
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5.4 Fire Button Monitoring
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A mode is provided to permit monitoring a single input bit at a high rate. In
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this mode the ikbd monitors the state of the Joystick 1 fire button at the
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maximum rate permitted by the serial communication channel. The data is packed
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8 bits per byte for transmission to the host. The ikbd remains in this mode
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until reset or commanded into another mode. The PAUSE command in this mode not
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only stops the output but also temporarily stops scanning the button (samples
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are not queued).
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5.5 Joystick Key Code Mode
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The ikbd may be commanded to translate the use of either joystick into the
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equivalent cursor control keystroke(s). The ikbd provides a single breakpoint
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velocity joystick cursor.
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Joystick events produce the make code, immediately followed by the break code
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for the appropriate cursor motion keys. The trigger or fire buttons of the
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joysticks produce pseudo key scan codes above those used by the largest key
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matrix envisioned (i.e. JOYSTICK0=0x74, JOYSTICK1=0x75).
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6. Time-of-Day Clock
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The ikbd also maintains a time-of-day clock for the system. Commands are
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available to set and interrogate the timer-of-day clock. Time-keeping is
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maintained down to a resolution of one second.
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7. Status Inquiries
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The current state of ikbd modes and parameters may be found by sending status
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inquiry commands that correspond to the ikbd set commands.
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8. Power-Up Mode
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The keyboard controller will perform a simple self-test on power-up to detect
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major controller faults (ROM checksum and RAM test) and such things as stuck
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keys. Any keys down at power-up are presumed to be stuck, and their BREAK
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(sic) code is returned (which without the preceding MAKE code is a flag for a
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keyboard error). If the controller self-test completes without error, the code
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0xF0 is returned. (This code will be used to indicate the version/release of
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the ikbd controller. The first release of the ikbd is version 0xF0, should
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there be a second release it will be 0xF1, and so on.)
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The ikbd defaults to a mouse position reporting with threshold of 1 unit in
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either axis and the Y=0 origin at the top of the screen, and joystick event
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reporting mode for joystick 1, with both buttons being logically assigned to
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the mouse. After any joystick command, the ikbd assumes that joysticks are
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connected to both Joystick0 and Joystick1. Any mouse command (except MOUSE
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DISABLE) then causes port 0 to again be scanned as if it were a mouse, and
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both buttons are logically connected to it. If a mouse disable command is
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received while port 0 is presumed to be a mouse, the button is logically
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assigned to Joystick1 (until the mouse is reenabled by another mouse command).
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9. ikbd Command Set
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This section contains a list of commands that can be sent to the ikbd. Command
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codes (such as 0x00) which are not specified should perform no operation
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(NOPs).
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9.1 RESET
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0x80
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0x01
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N.B. The RESET command is the only two byte command understood by the ikbd.
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Any byte following an 0x80 command byte other than 0x01 is ignored (and causes
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the 0x80 to be ignored).
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A reset may also be caused by sending a break lasting at least 200mS to the
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ikbd.
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Executing the RESET command returns the keyboard to its default (power-up)
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mode and parameter settings. It does not affect the time-of-day clock.
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The RESET command or function causes the ikbd to perform a simple self-test.
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If the test is successful, the ikbd will send the code of 0xF0 within 300mS
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of receipt of the RESET command (or the end of the break, or power-up). The
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ikbd will then scan the key matrix for any stuck (closed) keys. Any keys found
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closed will cause the break scan code to be generated (the break code arriving
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without being preceded by the make code is a flag for a key matrix error).
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9.2. SET MOUSE BUTTON ACTION
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0x07
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%00000mss ; mouse button action
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; (m is presumed = 1 when in MOUSE KEYCODE mode)
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; mss=0xy, mouse button press or release causes mouse
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; position report
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; where y=1, mouse key press causes absolute report
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; and x=1, mouse key release causes absolute report
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; mss=100, mouse buttons act like keys
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This command sets how the ikbd should treat the buttons on the mouse. The
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default mouse button action mode is %00000000, the buttons are treated as part
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of the mouse logically.
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When buttons act like keys, LEFT=0x74 & RIGHT=0x75.
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9.3 SET RELATIVE MOUSE POSITION REPORTING
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0x08
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Set relative mouse position reporting. (DEFAULT) Mouse position packets are
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generated asynchronously by the ikbd whenever motion exceeds the setable
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threshold in either axis (see SET MOUSE THRESHOLD). Depending upon the mouse
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key mode, mouse position reports may also be generated when either mouse
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button is pressed or released. Otherwise the mouse buttons behave as if they
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were keyboard keys.
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9.4 SET ABSOLUTE MOUSE POSITIONING
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0x09
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XMSB ; X maximum (in scaled mouse clicks)
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XLSB
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YMSB ; Y maximum (in scaled mouse clicks)
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YLSB
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Set absolute mouse position maintenance. Resets the ikbd maintained X and Y
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coordinates.
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In this mode, the value of the internally maintained coordinates does NOT wrap
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between 0 and large positive numbers. Excess motion below 0 is ignored. The
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command sets the maximum positive value that can be attained in the scaled
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coordinate system. Motion beyond that value is also ignored.
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9.5 SET MOUSE KEYCODE MOSE
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0x0A
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deltax ; distance in X clicks to return (LEFT) or (RIGHT)
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deltay ; distance in Y clicks to return (UP) or (DOWN)
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Set mouse monitoring routines to return cursor motion keycodes instead of
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either RELATIVE or ABSOLUTE motion records. The ikbd returns the appropriate
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cursor keycode after mouse travel exceeding the user specified deltas in
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either axis. When the keyboard is in key scan code mode, mouse motion will
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cause the make code immediately followed by the break code. Note that this
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command is not affected by the mouse motion origin.
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9..6 SET MOUSE THRESHOLD
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0x0B
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X ; x threshold in mouse ticks (positive integers)
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Y ; y threshold in mouse ticks (positive integers)
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This command sets the threshold before a mouse event is generated. Note that
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it does NOT affect the resolution of the data returned to the host. This
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command is valid only in RELATIVE MOUSE POSITIONING mode. The thresholds
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default to 1 at RESET (or power-up).
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9.7 SET MOUSE SCALE
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0x0C
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X ; horizontal mouse ticks per internal X
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Y ; vertical mouse ticks per internal Y
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This command sets the scale factor for the ABSOLUTE MOUSE POSITIONING mode.
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In this mode, the specified number of mouse phase changes ('clicks') must
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occur before the internally maintained coordinate is changed by one
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(independently scaled for each axis). Remember that the mouse position
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information is available only by interrogating the ikbd in the ABSOLUTE MOUSE
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POSITIONING mode unless the ikbd has been commanded to report on button press
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or release (see SET MOSE BUTTON ACTION).
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9.8 INTERROGATE MOUSE POSITION
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0x0D
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Returns:
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0xF7 ; absolute mouse position header
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BUTTONS
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0000dcba ; where a is right button down since last interrogation
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; b is right button up since last
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; c is left button down since last
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; d is left button up since last
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XMSB ; X coordinate
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XLSB
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YMSB ; Y coordinate
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YLSB
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The INTERROGATE MOUSE POSITION command is valid when in the ABSOLUTE MOUSE
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POSITIONING mode, regardless of the setting of the MOUSE BUTTON ACTION.
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9.9 LOAD MOUSE POSITION
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0x0E
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0x00 ; filler
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XMSB ; X coordinate
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XLSB ; (in scaled coordinate system)
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YMSB ; Y coordinate
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YLSB
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This command allows the user to preset the internally maintained absolute
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mouse position.
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9.10 SET Y=0 AT BOTTOM
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0x0F
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This command makes the origin of the Y axis to be at the bottom of the
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logical coordinate system internal to the ikbd for all relative or absolute
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mouse motion. This causes mouse motion toward the user to be negative in sign
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and away from the user to be positive.
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9.11 SET Y=0 AT TOP
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0x10
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Makes the origin of the Y axis to be at the top of the logical coordinate
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system within the ikbd for all relative or absolute mouse motion. (DEFAULT)
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This causes mouse motion toward the user to be positive in sign and away from
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the user to be negative.
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9.12 RESUME
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0x11
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Resume sending data to the host. Since any command received by the ikbd after
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its output has been paused also causes an implicit RESUME this command can be
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thought of as a NO OPERATION command. If this command is received by the ikbd
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and it is not PAUSED, it is simply ignored.
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9.13 DISABLE MOUSE
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0x12
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All mouse event reporting is disabled (and scanning may be internally
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disabled). Any valid mouse mode command resumes mouse motion monitoring. (The
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valid mouse mode commands are SET RELATIVE MOUSE POSITION REPORTING, SET
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ABSOLUTE MOUSE POSITIONING, and SET MOUSE KEYCODE MODE. )
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N.B. If the mouse buttons have been commanded to act like keyboard keys, this
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command DOES affect their actions.
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9.14 PAUSE OUTPUT
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0x13
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Stop sending data to the host until another valid command is received. Key
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matrix activity is still monitored and scan codes or ASCII characters enqueued
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(up to the maximum supported by the microcontroller) to be sent when the host
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allows the output to be resumed. If in the JOYSTICK EVENT REPORTING mode,
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joystick events are also queued.
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Mouse motion should be accumulated while the output is paused. If the ikbd is
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in RELATIVE MOUSE POSITIONING REPORTING mode, motion is accumulated beyond the
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normal threshold limits to produce the minimum number of packets necessary for
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transmission when output is resumed. Pressing or releasing either mouse button
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causes any accumulated motion to be immediately queued as packets, if the
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mouse is in RELATIVE MOUSE POSITION REPORTING mode.
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Because of the limitations of the microcontroller memory this command should
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be used sparingly, and the output should not be shut of for more than <tbd>
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milliseconds at a time.
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The output is stopped only at the end of the current 'even'. If the PAUSE
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OUTPUT command is received in the middle of a multiple byte report, the packet
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will still be transmitted to conclusion and then the PAUSE will take effect.
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When the ikbd is in either the JOYSTICK MONITORING mode or the FIRE BUTTON
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MONITORING mode, the PAUSE OUTPUT command also temporarily stops the
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monitoring process (i.e. the samples are not enqueued for transmission).
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0.15 SET JOYSTICK EVENT REPORTING
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0x14
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Enter JOYSTICK EVENT REPORTING mode (DEFAULT). Each opening or closure of a
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joystick switch or trigger causes a joystick event record to be generated.
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9.16 SET JOYSTICK INTERROGATION MODE
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0x15
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Disables JOYSTICK EVENT REPORTING. Host must send individual JOYSTICK
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INTERROGATE commands to sense joystick state.
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9.17 JOYSTICK INTERROGATE
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0x16
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Return a record indicating the current state of the joysticks. This command
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is valid in either the JOYSTICK EVENT REPORTING mode or the JOYSTICK
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INTERROGATION MODE.
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9.18 SET JOYSTICK MONITORING
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0x17
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rate ; time between samples in hundredths of a second
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Returns: (in packets of two as long as in mode)
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%000000xy ; where y is JOYSTICK1 Fire button
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; and x is JOYSTICK0 Fire button
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%nnnnmmmm ; where m is JOYSTICK1 state
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; and n is JOYSTICK0 state
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Sets the ikbd to do nothing but monitor the serial command line, maintain the
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time-of-day clock, and monitor the joystick. The rate sets the interval
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between joystick samples.
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N.B. The user should not set the rate higher than the serial communications
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channel will allow the 2 bytes packets to be transmitted.
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9.19 SET FIRE BUTTON MONITORING
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0x18
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Returns: (as long as in mode)
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%bbbbbbbb ; state of the JOYSTICK1 fire button packed
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; 8 bits per byte, the first sample if the MSB
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Set the ikbd to do nothing but monitor the serial command line, maintain the
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time-of-day clock, and monitor the fire button on Joystick 1. The fire button
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is scanned at a rate that causes 8 samples to be made in the time it takes for
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the previous byte to be sent to the host (i.e. scan rate = 8/10 * baud rate).
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The sample interval should be as constant as possible.
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9.20 SET JOYSTICK KEYCODE MODE
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0x19
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RX ; length of time (in tenths of seconds) until
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; horizontal velocity breakpoint is reached
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RY ; length of time (in tenths of seconds) until
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; vertical velocity breakpoint is reached
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TX ; length (in tenths of seconds) of joystick closure
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; until horizontal cursor key is generated before RX
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; has elapsed
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TY ; length (in tenths of seconds) of joystick closure
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; until vertical cursor key is generated before RY
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; has elapsed
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VX ; length (in tenths of seconds) of joystick closure
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; until horizontal cursor keystrokes are generated
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; after RX has elapsed
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VY ; length (in tenths of seconds) of joystick closure
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; until vertical cursor keystrokes are generated
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; after RY has elapsed
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In this mode, joystick 0 is scanned in a way that simulates cursor keystrokes.
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On initial closure, a keystroke pair (make/break) is generated. Then up to Rn
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tenths of seconds later, keystroke pairs are generated every Tn tenths of
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seconds. After the Rn breakpoint is reached, keystroke pairs are generated
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every Vn tenths of seconds. This provides a velocity (auto-repeat) breakpoint
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feature.
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Note that by setting RX and/or Ry to zero, the velocity feature can be
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disabled. The values of TX and TY then become meaningless, and the generation
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of cursor 'keystrokes' is set by VX and VY.
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9.21 DISABLE JOYSTICKS
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0x1A
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Disable the generation of any joystick events (and scanning may be internally
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disabled). Any valid joystick mode command resumes joystick monitoring. (The
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joystick mode commands are SET JOYSTICK EVENT REPORTING, SET JOYSTICK
|
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INTERROGATION MODE, SET JOYSTICK MONITORING, SET FIRE BUTTON MONITORING, and
|
|
SET JOYSTICK KEYCODE MODE.)
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|
|
|
9.22 TIME-OF-DAY CLOCK SET
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|
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|
0x1B
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|
YY ; year (2 least significant digits)
|
|
MM ; month
|
|
DD ; day
|
|
hh ; hour
|
|
mm ; minute
|
|
ss ; second
|
|
|
|
All time-of-day data should be sent to the ikbd in packed BCD format.
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|
Any digit that is not a valid BCD digit should be treated as a 'don't care'
|
|
and not alter that particular field of the date or time. This permits setting
|
|
only some subfields of the time-of-day clock.
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|
|
|
9.23 INTERROGATE TIME-OF-DAT CLOCK
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|
|
|
0x1C
|
|
Returns:
|
|
0xFC ; time-of-day event header
|
|
YY ; year (2 least significant digits)
|
|
MM ; month
|
|
DD ; day
|
|
hh ; hour
|
|
mm ; minute
|
|
ss ; second
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|
|
|
All time-of-day is sent in packed BCD format.
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|
|
|
9.24 MEMORY LOAD
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|
|
|
0x20
|
|
ADRMSB ; address in controller
|
|
ADRLSB ; memory to be loaded
|
|
NUM ; number of bytes (0-128)
|
|
{ data }
|
|
|
|
This command permits the host to load arbitrary values into the ikbd
|
|
controller memory. The time between data bytes must be less than 20ms.
|
|
|
|
9.25 MEMORY READ
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|
|
|
0x21
|
|
ADRMSB ; address in controller
|
|
ADRLSB ; memory to be read
|
|
Returns:
|
|
0xF6 ; status header
|
|
0x20 ; memory access
|
|
{ data } ; 6 data bytes starting at ADR
|
|
|
|
This command permits the host to read from the ikbd controller memory.
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|
|
|
9.26 CONTROLLER EXECUTE
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|
|
|
0x22
|
|
ADRMSB ; address of subroutine in
|
|
ADRLSB ; controller memory to be called
|
|
|
|
This command allows the host to command the execution of a subroutine in the
|
|
ikbd controller memory.
|
|
|
|
9.27 STATUS INQUIRIES
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|
|
|
Status commands are formed by inclusively ORing 0x80 with the
|
|
relevant SET command.
|
|
|
|
Example:
|
|
0x88 (or 0x89 or 0x8A) ; request mouse mode
|
|
Returns:
|
|
0xF6 ; status response header
|
|
mode ; 0x08 is RELATIVE
|
|
; 0x09 is ABSOLUTE
|
|
; 0x0A is KEYCODE
|
|
param1 ; 0 is RELATIVE
|
|
; XMSB maximum if ABSOLUTE
|
|
; DELTA X is KEYCODE
|
|
param2 ; 0 is RELATIVE
|
|
; YMSB maximum if ABSOLUTE
|
|
; DELTA Y is KEYCODE
|
|
param3 ; 0 if RELATIVE
|
|
; or KEYCODE
|
|
; YMSB is ABSOLUTE
|
|
param4 ; 0 if RELATIVE
|
|
; or KEYCODE
|
|
; YLSB is ABSOLUTE
|
|
0 ; pad
|
|
0
|
|
|
|
The STATUS INQUIRY commands request the ikbd to return either the current mode
|
|
or the parameters associated with a given command. All status reports are
|
|
padded to form 8 byte long return packets. The responses to the status
|
|
requests are designed so that the host may store them away (after stripping
|
|
off the status report header byte) and later send them back as commands to
|
|
ikbd to restore its state. The 0 pad bytes will be treated as NOPs by the
|
|
ikbd.
|
|
|
|
Valid STATUS INQUIRY commands are:
|
|
|
|
0x87 mouse button action
|
|
0x88 mouse mode
|
|
0x89
|
|
0x8A
|
|
0x8B mnouse threshold
|
|
0x8C mouse scale
|
|
0x8F mouse vertical coordinates
|
|
0x90 ( returns 0x0F Y=0 at bottom
|
|
0x10 Y=0 at top )
|
|
0x92 mouse enable/disable
|
|
( returns 0x00 enabled)
|
|
0x12 disabled )
|
|
0x94 joystick mode
|
|
0x95
|
|
0x96
|
|
0x9A joystick enable/disable
|
|
( returns 0x00 enabled
|
|
0x1A disabled )
|
|
|
|
It is the (host) programmer's responsibility to have only one unanswered
|
|
inquiry in process at a time.
|
|
STATUS INQUIRY commands are not valid if the ikbd is in JOYSTICK MONITORING
|
|
mode or FIRE BUTTON MONITORING mode.
|
|
|
|
|
|
10. SCAN CODES
|
|
|
|
The key scan codes returned by the ikbd are chosen to simplify the
|
|
implementation of GSX.
|
|
|
|
GSX Standard Keyboard Mapping.
|
|
|
|
Hex Keytop
|
|
01 Esc
|
|
02 1
|
|
03 2
|
|
04 3
|
|
05 4
|
|
06 5
|
|
07 6
|
|
08 7
|
|
09 8
|
|
0A 9
|
|
0B 0
|
|
0C -
|
|
0D ==
|
|
0E BS
|
|
0F TAB
|
|
10 Q
|
|
11 W
|
|
12 E
|
|
13 R
|
|
14 T
|
|
15 Y
|
|
16 U
|
|
17 I
|
|
18 O
|
|
19 P
|
|
1A [
|
|
1B ]
|
|
1C RET
|
|
1D CTRL
|
|
1E A
|
|
1F S
|
|
20 D
|
|
21 F
|
|
22 G
|
|
23 H
|
|
24 J
|
|
25 K
|
|
26 L
|
|
27 ;
|
|
28 '
|
|
29 `
|
|
2A (LEFT) SHIFT
|
|
2B \
|
|
2C Z
|
|
2D X
|
|
2E C
|
|
2F V
|
|
30 B
|
|
31 N
|
|
32 M
|
|
33 ,
|
|
34 .
|
|
35 /
|
|
36 (RIGHT) SHIFT
|
|
37 { NOT USED }
|
|
38 ALT
|
|
39 SPACE BAR
|
|
3A CAPS LOCK
|
|
3B F1
|
|
3C F2
|
|
3D F3
|
|
3E F4
|
|
3F F5
|
|
40 F6
|
|
41 F7
|
|
42 F8
|
|
43 F9
|
|
44 F10
|
|
45 { NOT USED }
|
|
46 { NOT USED }
|
|
47 HOME
|
|
48 UP ARROW
|
|
49 { NOT USED }
|
|
4A KEYPAD -
|
|
4B LEFT ARROW
|
|
4C { NOT USED }
|
|
4D RIGHT ARROW
|
|
4E KEYPAD +
|
|
4F { NOT USED }
|
|
50 DOWN ARROW
|
|
51 { NOT USED }
|
|
52 INSERT
|
|
53 DEL
|
|
54 { NOT USED }
|
|
5F { NOT USED }
|
|
60 ISO KEY
|
|
61 UNDO
|
|
62 HELP
|
|
63 KEYPAD (
|
|
64 KEYPAD /
|
|
65 KEYPAD *
|
|
66 KEYPAD *
|
|
67 KEYPAD 7
|
|
68 KEYPAD 8
|
|
69 KEYPAD 9
|
|
6A KEYPAD 4
|
|
6B KEYPAD 5
|
|
6C KEYPAD 6
|
|
6D KEYPAD 1
|
|
6E KEYPAD 2
|
|
6F KEYPAD 3
|
|
70 KEYPAD 0
|
|
71 KEYPAD .
|
|
72 KEYPAD ENTER
|