Difference between revisions of "83Plus:Ports:00"

From WikiTI
Jump to: navigation, search
(Sending/Setting)
(oops I was wrong, Undo revision 11679 by Fghsgh (talk))
 
(34 intermediate revisions by 12 users not shown)
Line 1: Line 1:
 +
[[Category:83Plus:Ports:By_Address|00 - Link]] [[Category:83Plus:Ports:By_Name|Link]]
 
== Synopsis ==
 
== Synopsis ==
 
'''Port Number:''' 00h
 
'''Port Number:''' 00h
 +
 +
'''Function:''' Link
  
 
This port controls the calculator's serial link port (the standard link port present on the 83+, 83+ SE, 84+ and 84+ SE - do not confuse this with the 84+/84+SE's USB link port).
 
This port controls the calculator's serial link port (the standard link port present on the 83+, 83+ SE, 84+ and 84+ SE - do not confuse this with the 84+/84+SE's USB link port).
  
 
=== Read Values ===
 
=== Read Values ===
* Bit 0 and 1: The low 2 bits indicate the state of the link port's two lines. A 1 bit indicates a high line, and a 0 bit indicates a low line. When idle (no transfer in progress, no cable plugged in, etc), both lines are usually high (1). When a cable is connected on both ends, a line reads high if and only if both ends have set the line high. The line will read low if either calculator sets it low.
+
* Bits 0 and 1: These bits indicate the state of the link port's two lines. If a bit is set that indicates the line is high, and if it is reset that indicates the line is low. When idle (no transfer in progress, no cable plugged in, etc), both lines are usually high. When a cable is connected on both ends, a line reads high if and only if both ends have set the line high. The line will read low if either calculator sets it low. Bit 0 is the tip and bit 1 is the ring.
* Bit 5 and 6: Bits 5 and 6 indicate which lines are pulled low by the calculator (unlike bits 0 and 1 they are not influenced by the other calculator). A 1 bit indicates your calculator is holding the line low. A 0 bit indicates your calculator is not holding the line low. (When both calculators have a 0 bit here, the corresponding line will read 1.) In other words, these bits reflect bits 0 and 1 from the most recent write to this port.
+
*'''83+ only:''' Bit 2: Set means link receive assist is active.
* Bit 2: I have absolutely no idea what this means or does...  
+
*'''83+ only:''' Bit 3: Set when link assist has received a complete byte. The only way to reset this bit is to read [[83Plus:Ports:05|port 5]].
 +
* Bit 4 and 5: Bits 4 and 5 indicate which lines are pulled low by the calculator (unlike bits 0 and 1 they are not influenced by the other calculator). A 1 bit indicates your calculator is holding the line low. A 0 bit indicates your calculator is not holding the line low. (When both calculators have a 0 bit here, the corresponding line will read 1.) In other words, these bits reflect bits 0 and 1 from the most recent write to this port.
 +
* '''83+ only:''' Bit 6: Set if the link assist is currently receiving data.
  
 
=== Write Values ===
 
=== Write Values ===
* Bit 0 and 1: The low 2 bits indicate what state the lines should be put into. A 1 bit will pull the line low. A 0 bit will stop holding the line low (allowing it to go high if the other calculator is not holding it low).
+
* Bits 0 and 1: Setting a bit will pull the line low. Resetting a bit will stop holding the line low (allowing it to go high if the other calculator is not holding it low). Remember a low line will read as a bit being reset, but when writing setting a bit brings the line low.
* Bit 2: I have absolutely no idea what this means or does, except that any change of this bit causes both lines to be released, and writing with this bit set causes bit 2 to read 1, and the next write causes it to read 0 and both lines are released.
+
*'''83+ only:''' Bit 2: Set this bit to enable the link receive assist. After setting this bit, poll port 0 until bit 3 is high, at which point read from [[83Plus:Ports:05|port 5]] to get the byte.
 +
<br>
  
 
== Comments ==
 
== Comments ==
  
=== Bit 2 ===
+
=== TI-OS Interference ===
As mentioned bit 2's effect is unknown. An example of it's behavior follows:
+
One thing to keep in mind when writing link port related software is that the Ti-OS checks for silent transfers in the background of input routines. When two calculators are connected and one pulls a line low, the other calculator will respond by pulling the other line low to acknowledge that it has received a bit. Even when the other calculator is running an assembly program that uses the getkey romcall. This phenomenon is known to cause severe headaches for programmers who attempt to write synchronization routines :).
<nowiki>Start, read 03.
+
Write 02, read 01.
+
Write 07, read 07.
+
Write 07, read 03.
+
Write 07, read 07.
+
Write 00, read 03.
+
Write 09, read 07.
+
Write 01, read 03.</nowiki>
+
  
=== Ti-OS interference ===
+
=== Data Transfer ===
One thing to keep in mind when writing link port related software is that the Ti-OS checks for silent transfers in the background. When two calculators are connected and one pulls a line low, the other calculator will respond by pulling the other line low to acknowledge that it has received a bit. This phenomenon is known to cause severe headaches for programmers who attempt to write synchronization routines :). It's unclear if this is only when the other calculator is in the homescreen, or if it is part of the default interrupt routine at $0038.
+
Transferring an entire byte requires you to implement some form of protocol. Examples include TI's official linking protocol, [http://www.ticalc.org/archives/files/fileinfo/277/27718.html Michael Vincent's TachyonLink protocol] and [http://bell.timendus.com/ Timendus' Bell library].
  
=== Data transfer ===
+
Other useful information on linking in general:
Transferring an entire byte requires you to implement some form of protocol. Examples include TI's official linking protocol, and [http://www.ticalc.org/archives/files/fileinfo/277/27718.html Michael Vincent's TachyonLink protocol].
+
[http://www.ticalc.org/archives/files/fileinfo/247/24750.html TI Link Protocol & File Format Guide]
 
+
[http://www.ticalc.org/archives/files/fileinfo/294/29418.html Ti-83 Link Port Tutorial] (note that this deals with the TI-83, not the 83 Plus, where the the hardware is [[83:Ports:00|somewhat different]].)
<p>Other useful information on linking in general:<br>
+
*  [http://www.ticalc.org/archives/files/fileinfo/242/24244.html All about the Ti-86 link port]
[http://www.ticalc.org/archives/files/fileinfo/247/24750.html TI Link Protocol & File Format Guide]<br>
+
*  [http://bell.timendus.com/ Bell] and [http://clap.timendus.com/ CLAP] projects
[http://www.ticalc.org/archives/files/fileinfo/294/29418.html Ti-83 Link Port Tutorial]
+
  
 
== Example ==
 
== Example ==
  
 
=== Sending/Setting ===
 
=== Sending/Setting ===
<pre>ld a, 0 ; Set both lines high
+
<nowiki> ld a,0     ; Set both lines high
out (0), a
+
out (0),a
  
ld a, 2 ; Set tip high, ring low
+
ld a,2     ; Set tip high, ring low
out (0), a
+
out (0),a
  
ld a, 1 ; Set tip low, ring high
+
ld a,1     ; Set tip low, ring high
out (0), a
+
out (0),a
  
ld a, 3 ; Set both low
+
ld a,3     ; Set both low
out (0), a</pre>
+
out (0),a</nowiki>
  
 
=== Receiving/Reading ===
 
=== Receiving/Reading ===
<pre>in a,(0) ; Get the link port value
+
<nowiki> in a,(0)       ; Get link port value
bit 0,a   ; Check tip
+
 
jr z,tip_low
+
bit 0,a         ; Check tip
jr nz,tip_high
+
jr z,tip_low
bit 1,a   ; Check ring
+
jr nz,tip_high
jr z,ring_low
+
 
jr nz,ring_high</pre>
+
bit 1,a         ; Check ring
 +
jr z,ring_low
 +
jr nz,ring_high</nowiki>

Latest revision as of 07:14, 17 March 2020

Synopsis

Port Number: 00h

Function: Link

This port controls the calculator's serial link port (the standard link port present on the 83+, 83+ SE, 84+ and 84+ SE - do not confuse this with the 84+/84+SE's USB link port).

Read Values

  • Bits 0 and 1: These bits indicate the state of the link port's two lines. If a bit is set that indicates the line is high, and if it is reset that indicates the line is low. When idle (no transfer in progress, no cable plugged in, etc), both lines are usually high. When a cable is connected on both ends, a line reads high if and only if both ends have set the line high. The line will read low if either calculator sets it low. Bit 0 is the tip and bit 1 is the ring.
  • 83+ only: Bit 2: Set means link receive assist is active.
  • 83+ only: Bit 3: Set when link assist has received a complete byte. The only way to reset this bit is to read port 5.
  • Bit 4 and 5: Bits 4 and 5 indicate which lines are pulled low by the calculator (unlike bits 0 and 1 they are not influenced by the other calculator). A 1 bit indicates your calculator is holding the line low. A 0 bit indicates your calculator is not holding the line low. (When both calculators have a 0 bit here, the corresponding line will read 1.) In other words, these bits reflect bits 0 and 1 from the most recent write to this port.
  • 83+ only: Bit 6: Set if the link assist is currently receiving data.

Write Values

  • Bits 0 and 1: Setting a bit will pull the line low. Resetting a bit will stop holding the line low (allowing it to go high if the other calculator is not holding it low). Remember a low line will read as a bit being reset, but when writing setting a bit brings the line low.
  • 83+ only: Bit 2: Set this bit to enable the link receive assist. After setting this bit, poll port 0 until bit 3 is high, at which point read from port 5 to get the byte.


Comments

TI-OS Interference

One thing to keep in mind when writing link port related software is that the Ti-OS checks for silent transfers in the background of input routines. When two calculators are connected and one pulls a line low, the other calculator will respond by pulling the other line low to acknowledge that it has received a bit. Even when the other calculator is running an assembly program that uses the getkey romcall. This phenomenon is known to cause severe headaches for programmers who attempt to write synchronization routines :).

Data Transfer

Transferring an entire byte requires you to implement some form of protocol. Examples include TI's official linking protocol, Michael Vincent's TachyonLink protocol and Timendus' Bell library.

Other useful information on linking in general:

Example

Sending/Setting

 ld a,0     ; Set both lines high
 out (0),a

 ld a,2     ; Set tip high, ring low
 out (0),a

 ld a,1     ; Set tip low, ring high
 out (0),a

 ld a,3     ; Set both low
 out (0),a

Receiving/Reading

 in a,(0)        ; Get link port value

 bit 0,a         ; Check tip
 jr z,tip_low
 jr nz,tip_high

 bit 1,a         ; Check ring
 jr z,ring_low
 jr nz,ring_high