Difference between revisions of "83Plus:Ports:05"
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== Comments == | == Comments == | ||
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+ | It has been tested and confirmed that you can unlock RAM 00 on a Ti-83+ by using this port in conjunction with port $16. This allows you to run code in the $C000-$FFFF area. Once you succeed in unlocking flash, the following code can be used to unlock RAM page 0: | ||
+ | |||
+ | <nowiki> ;Tested on OS 1.16 - 1.19 | ||
+ | |||
+ | ld a, %00000111 | ||
+ | out ($05), a | ||
+ | ld a, $1F | ||
+ | out ($06), a | ||
+ | ld a, 1 | ||
+ | call $46DA</nowiki> | ||
+ | |||
At least on my TI-84+, if you output a value with bit 3 set, reading from the port will return a value with bit 3 set. This would imply that you can use RAM pages 08h-0Fh, but these RAM pages do not exist--this bit is simply ignored (only bits 0-2 actually determine what RAM page is active.) | At least on my TI-84+, if you output a value with bit 3 set, reading from the port will return a value with bit 3 set. This would imply that you can use RAM pages 08h-0Fh, but these RAM pages do not exist--this bit is simply ignored (only bits 0-2 actually determine what RAM page is active.) | ||
Revision as of 14:11, 2 May 2011
Contents
Synopsis (TI-83 Plus S.E. and TI-84 Plus Family)
Port Number: 05h
Function: RAM Paging Port
This port can be used to control what RAM page is paged into the C000h-FFFFh memory bank. Note that it can only map RAM pages, not flash pages.
Read Values
Returns the current RAM page.
Write Values
Sets the current RAM page, by giving a value in 00h-07h, inclusive.
Synopsis (TI-83 Plus)
Port Number: 05h
Function: Port 16h Configuration Port/Link Assist Read
This port configures which memory pages are locked or unlocked (i.e. whether or not the PC register is allowed to point within the page) by port 16h. Only bits 0..2 are considered, the rest have no effect. Also, this port is used to read the last byte the link assist received.
Read Values
The last byte received by the link assist (see port 0 for more information).
Write Values
Writing a set bit to 16h protects the page; writing a clear bit unprotects the page. The value of port 05h affects which bits of port 16h are acted on. An 'X' in the table indicates the bit is ignored.
Port 05h Bit | Port 16h Bit | |||||||||
---|---|---|---|---|---|---|---|---|---|---|
2 | 1 | 0 | 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
0 | 0 | 0 | ROM 0F | ROM 0E | ROM 0D | ROM 0C | ROM 0B | ROM 0A | ROM 09 | ROM 08 |
0 | 0 | 1 | ROM 17 | ROM 16 | ROM 15 | ROM 14 | ROM 13 | ROM 12 | ROM 11 | ROM 10 |
0 | 1 | 0 | X | X | X | X | ROM 1B | ROM 1A | ROM 19 | ROM 18 |
1 | 1 | 1 | X | X | RAM 01 | X | X | X | X | RAM 00 |
Comments
It has been tested and confirmed that you can unlock RAM 00 on a Ti-83+ by using this port in conjunction with port $16. This allows you to run code in the $C000-$FFFF area. Once you succeed in unlocking flash, the following code can be used to unlock RAM page 0:
;Tested on OS 1.16 - 1.19 ld a, %00000111 out ($05), a ld a, $1F out ($06), a ld a, 1 call $46DA
At least on my TI-84+, if you output a value with bit 3 set, reading from the port will return a value with bit 3 set. This would imply that you can use RAM pages 08h-0Fh, but these RAM pages do not exist--this bit is simply ignored (only bits 0-2 actually determine what RAM page is active.)
Credits and Contributions
- Michael Vincent: Initial documentation.
- Tijl Coosemans: Documenting TI-83 Plus functionality here.