Difference between revisions of "83Plus:OS:84 Plus USB Information"

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== In Other News ==
 
== In Other News ==
* At some point, TI checks for USB devices VID: 045A, PID: 0003, 0008, and 000F.  It seems to return "ok" on 0008 and 0003, and error on 000F0008 is the 84P.  No clue what 0003 and 000F are.  Perhaps one is the Viewscreen connector?
+
* At some point, TI checks for USB devices VID: 045A, PID: E003, E008, and E00F.  It seems to return "ok" on E008 and E003, and error on E00FE008 is the 84P.  No clue what E003 and E00F are.  Perhaps one is the Viewscreen connector?
 
* I have successfully connected my calculator and digital camera, and retrieved the Product ID and Vendor ID from the camera.  Yay :)
 
* I have successfully connected my calculator and digital camera, and retrieved the Product ID and Vendor ID from the camera.  Yay :)
  
 
[[Category:83Plus:OS_Information|84+ USB Information]]
 
[[Category:83Plus:OS_Information|84+ USB Information]]

Revision as of 11:40, 27 May 2005

The title of this article is incorrect because of technical limitations. The correct title is 83Plus:OS:84+ USB Information.


I moved this page from Talk:83Plus:BCALLs:5254 to here because it seems to fit better. Please note that this is still a work in progress, and don't take the information as gold. I figured having an option for a Talk page for this would outweigh the moving of it. For the time being, we'll leave the data formatted as-is, since it's still nicely done. --AndyJ 07:44, 27 May 2005 (PDT)


OK, I've started this talk page to post information about the 84 Plus USB. This isn't the ideal place, since not all of this stuff has to do with entry point 5254, but it'll have to do. If anyone else would like to contribute any information or thoughts, please do so. Much of this data has been discovered by analyzing how the EasyData application interacts with the EasyTemp probe. --Dan Englender 22:32, 23 May 2005 (PDT)


Easy Data

The USB entry points that Easy Data uses are:

5254
5257
525A
525D
5260

These routines return carry flag with an error code in A on failure, or no carry on success. On success they return BC=(9C16), DE=(9C1A), and HL=(9C18). 9C16 = Vendor ID. 9C18 = Device ID. 9C1A = ????.


The entry points seem to be called only on initialization and quit. On initialization 5254 then 525D are called, and then 525A six times. On quit, 5254, then 5260, then 5257 are called.

5254 BCALL

The 5254 entry point seems to take a callback address to be passed in A (page) and HL (address). That callback address appears to be called on quit, after 5257 is called.

5260 and 5257 BCALLs

The 5260 and 5257 entry points are called right after each other in the code, and don't seem to take any input. I guess they're some kind of USB shut down. 5260 doesn't do much of anything other than set 9C1E to 0000. 5257 plays with the ports some, and then clears the callback address. Since the call back address gets called, I'm assuming it must also call the callback address somewhere in there.

525A and 525D BCALLs

525A and 525D take some kind of pointer in HL. I'm not sure what yet. The 525D entry point first checks to see if bit 3 of port 4C and bits 0 and 2 of port 8F are set. If they are not, it returns failure. These bits are not set by, say, plugging in the hardware. They are set, however, after 5254 has been called. After checking these bits, 9C1E is set to the passed value of HL. If this value is zero, the routine will return failure. A value of 1 will be stored to HL+2, then a value of 1 will be output to port 8E, a value of 20h to port 94h, and success will be returned.

5290 BCALLs

A BCALL to 5290 alone is enough to turn on the LED on EasyTemp. (Though it turns on to a strange orange color which is never seen during EasyData execution). It must do some sort of USB initialization type stuff. If bit 3,(iy+41) is set, 5290 will fail. So this must either be a USB-already-initialized flag, or a Don't-Use-USB flag I guess.

Other

The callback routine appears to recieve some kind of input in B. I'm not sure what yet.


I'm, err, not exactly clear at this point how the app actually gets the temperature data from the EasyTemp probe, as the entry point seem to only be called on init and quit. The callback routine seemed a likely candidate, but it's not that either. Maybe there's something going on in the interrupt that I'm not aware of. Or maybe there are some more entry points used that I missed.


EasyData is automatically started when you plug the EasyTemp into the USB port if: The current app is Home Screen, a program is not currently executing, and EasyTemp is loaded on the calculator. EasyTemp is searched for via the app header table below.

4087 Header

The calculator knows to run EasyData when the Probe is plugged in because it includes a special header at address 4087h. The format is as follows:

 db 096h, 0E2h, 00h, 01h
 dw TablePtr
.....
TablePtr:
 dw 1, TableEntryType, DataPtr
.....
DataPtr:   ;This is the EasyData data
 db 03h, 80h, 03h, 00h, 0F7h, 08h, 02h, 00h
 db      80h, 03h, 00h, 0F7h, 08h, 03h, 00h
 db      80h, 03h, 00h, 0F7h, 08h, 04h, 00h
 db 00h, 00h

In theory, the Table should be terminated with a 0000 word. It does not appear that EasyData does this.

Header Table Entries

The TableEntryType value can be one of the follow:

  • 1 - This type is checked for in what seems to be unused OS code. There's a string "IsDevice" that is used in conjunction with it. Perhaps it's an unimplemented feature, or perhaps it's debug code that's not active in the release OS. Your guess is as good as mine.
  • 2 - This is for the library functions used by OpenLib and ExecLib
  • 3 - This is for the USB auto-launch, as used by EasyData

USB Data Table

If the TableEntryType is 3, then the data will be USB data and will be formatted as follows: The first byte will be the number of entries in the USB data table. Then, each entry, starts with a byte. Not sure what that is. Then comes a word. Not really sure what that is either. But weird things happen if the high byte is not 00. And it appears that if the low byte is 01, only the vendor ID will be checked, if it's 03, the vendor ID and the product ID will be checked. If it's something else, well, something else happens. if the low byte was 03, then the next word will be the vendor ID, and the following word will be the product ID. If both of these match a connected USB device, then the app will launch.

FindSpecialAppHeader BCALL

The 50EF BCALL reads the 4087 Header. It is used by the OS. Returns SCF on failure, NC on success. On success, returns in HL the read table value. App name in OP1. Input DE is passed as the table entry to look for. Input A holds whether to look at certain app, or all apps. A = 0 means start at the first app, and search until you find an app with the appropriate header. A = 1 means start searching after the app in OP1. This would be used after the first success returned by A=0, to search the entire app list. A=2 means search only the app named in OP1.

5263 BCALL

The 5263 BCALL reads the 4087 Header. it is used by the OS. This appears to be very similar to the above entry point, except that it searches all the pages by number, instead of searching by name. Input DE = header type to find. Output C on failure, NC on success. HL = table entry value. (appSearchPage) = page it was found on. This only finds the first instance of the header type.

5266 BCALL

This allows you to continue a search you started with the 5263 BCALL. Input page in B.

5269 BCALL

The 5269 BCALL is used by the OS after determining that an app with the USB special app header exists. In general, this entry point seems to compare the values in the USB app header data table with the values at 9C16, 9C18, and 9C1A. Some kind of ID I guess? In specific, it's actually very convoluted and strange code. Input is HL -> data table, A = page.

Hardware

Ports 55h and 56h are initially polled in the interrupt routine to determine USB activity. If activity is detected, 4Dh, 82h, 84h, 86h, 8Fh, 91h, and others may be polled as well.

Port 56

The default value for port 56h is 00. If the USB-B plug (peripheral) is plugged into the port with no connection on the other side, nothing happens. If there is a connection on the other side, bit 6 will be set. If the USB-A plug (host) is plugged into the port bit 4 will be set, regardless of whether there is a device on the other side. If you plug one connector in, unplug, and then plug the other connector in without doing whatever the interrupt routine does to acknowledge the USB status, you will get both bits 4 and 6 set. This should probably never happen in practice.

Port A0

I believe this is a/the data input/output port.

In Other News

  • At some point, TI checks for USB devices VID: 045A, PID: E003, E008, and E00F. It seems to return "ok" on E008 and E003, and error on E00F. E008 is the 84P. No clue what E003 and E00F are. Perhaps one is the Viewscreen connector?
  • I have successfully connected my calculator and digital camera, and retrieved the Product ID and Vendor ID from the camera. Yay :)