Difference between revisions of "Geneve CRU definitions"

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| 001a
| 001a
| in
| in
| -
| (reflects output 0032)
|-
|-
| 001c
| 001c
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| 002e
| 002e
| out
| out
| PAL pin 5 (/VDP wait states?)
| PAL pin 5 (System clock speed?)
|-  
|-  
| 0030
| 0030
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| 0032
| 0032
| out
| out
| PAL pin 19 (System clock speed?)
| Video wait states (PAL pin 19)
|-  
|-  
| 0034
| 0034

Revision as of 16:09, 18 September 2011

Definitions

CRU bits may be tested with the TB command, with the base address in R12. The bit is copied to the EQ flag of the status register so that a JEQ will cause a branch whenever the bit is set.

The bits of the 9901 are tested in positive logic, which means that a low value on the pin will make a TB yield EQ=0, and a high value on the pin makes EQ=1. The signals on the pins may show negative logic themselves. That is, if the joystick button is pressed, a low value is put on the /INT3 input (bit 3), and a TB 3 will make EQ=0, while a not pressed button would be EQ=1.

TMS9901 lines may be configured as inputs (in), outputs (out), and the first 16 addresses may be configured as interrupt inputs (int), triggering an outgoing interrupt if the mask is set to 1 for the respective input.

(/signal means negative logic)

TMS 9901
0002 int /INTA (P-Box, pin 17)
0004 int /V9938 INT
0006 in /Joystick button
0008 in /Joystick left
000a in /Joystick right
000c in /Joystick down
000e in /Joystick up
0010 int /Keyboard Interrupt
0012 in always L, mirrors 003a
0014 in Mouse button, mirrors 0038
0016 in Real-time clock interrupt (mirrors 0036)
0018 in /INTB (mirrors 0034)
001a in (reflects output 0032)
001c in -
001e in -
0020 out RESET (P-Box, pin 6 (inverted))
0022 out /V9938 reset
0024 out Joystick select
0026 - -
0028 - -
002a - -
002c out /Keyboard reset (neg. logic?)
002e out PAL pin 5 (System clock speed?)
0030 - -
0032 out Video wait states (PAL pin 19)
0034 in /INTB (P-Box pin 18)
0036 in Real-time clock interrupt (/?)
0038 in /Mouse button 3
003a in L
003c in /Keyboard interrupt (mirrors 0010, no int)
003e in /Joystick up (mirrors 000e)
Special
13c0-13fe Single step
TMS9995
1ee0 Decrementer in event counter mode (0=in timer mode)
1ee2 Enable decrementer
1ee4 Interrupt level 1 latch
1ee6 Interrupt level 2 latch
1ee8 Interrupt level 4 latch
1eea-1eee not used
1ef0 Keyboard clock enable
1ef2 Clear keyboard input register
1ef4 Geneve mode (/TI mode)
1ef6 Direct mode (/Mapper mode)
1ef8 Cartridge rom size (1=8 KiB, 0=16 Kib)
1efa /Protect 6xxx
1efc /Protect 7xxx
1efe /Add wait state per memory cycle
1fda Macro Instruction Detect

The MID flag is set whenever the CPU encounters an unknown opcode. This (together with the interrupt) may be used to implement new "commands" on the application level.

Usage

As always, CRU bits are queried and set with special commands. Bits are addressed as offsets to a base address which is stored in Workspace Register 12 (R12). The base address is stored in bits 3-14, so the R12 value is twice as high as the absolute bit address. (Note that bit 15 cannot be used since A15 and CRUOUT share the same line.) Base addresses are commonly noted as register 12 values.

Turn on Geneve mode:

LI   R12,>1EF4
SBO  0

or, equivalently

LI   R12,>1EE0
SBO  10

since 0x1ee0 + 10*2 = 0x1ee0 + 0x14

(bit numbers are often given in decimal notation)

The LDCR and STCR commands are used to write or read multiple CRU bits. The base address is automatically incremented for each bit transfer. Bit transfers begin at the least significant bit. Note that it is relevant whether less than 9 bits are transferred: If less, the memory location is treated as a byte address, if more, as a word address.

LI   R12,>0006
STCR R0,5

reads the five joystick lines, storing the bits in the least significant five bits of the high byte of R0, with bit 3 at the right.

x x x up down right left but x x x x x x x x

If we had transferred 9 bits, all bits as shown above are shifted to the right by 8 positions (starting at the very right bit).

LI   R12,>1EF0
LI   R1,>f100   * binary: 11110001
LCDR R1,8

This enables the keyboard clock, not clearing the input register, activating TI mode and mapping, cartridges have 8K, no write protection to 6xxx and 7xxx, and no wait states.