RE: [PATCH] Alps I2C HID Touchad-Stick support

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Hi, Jiri,

I have made the document for this device.
Actually, the device structure is the same as PS2 Touchpad + Stickpinter.
You can see StickPointer code in alps.c

Best Regards,
Masaki Ota
-----Original Message-----
From: Jiri Kosina [mailto:jikos@xxxxxxxxxx] 
Sent: Tuesday, June 14, 2016 8:17 AM
To: 太田 真喜 Masaki Ota
Cc: benjamin.tissorires@xxxxxxxxxx; peter.hutterer@xxxxxxxxx; hdegoede@xxxxxxxxxx; dmitry.torokhov@xxxxxxxxx
Subject: RE: [PATCH] Alps I2C HID Touchad-Stick support


[ is there any reason why you dropped malinglist(s) from CC? ]

On Fri, 3 Jun 2016, Masaki Ota wrote:

> > Is it absolutely impossible to have two such devices connected to one system?
> We cannot connect two devices to one system.

Is this due to a HW design? Could you be perhaps more specific?

This needs to be documented in a detailed manner then, otherwise everybody would be wondering about exactly the same thing I did wrt. the global variable when looking at the code.

> 
> > You just have to make sure that the buffer you're performing DMA to/from is not allocated on stack.
> I have modified the code.
> How about the below?

Yes, that code looks correct wrt DMA memory requirements.

Thanks,

--
Jiri Kosina
SUSE Labs

ALPS HID Touchpad Protocol
----------------------

Introduction
------------
Currently ALPS HID driver supports U1 Touchpad device.

U1 devuce basic informations.
Vender ID	0x044E
Product ID	0x120B
Version ID	0x0121


HID Descriptor
------------
Byte	Field			Value	Notes
0	wHIDDescLength		001E	Length of HID Descriptor : 30 bytes
2	bcdVersion		0100	Compliant with Version 1.00
4	wReportDescLength	00B2	Report Descriptor is 178 Bytes (0x00B2)
6	wReportDescRegister	0002	Identifier to read Report Descriptor
8	wInputRegister		0003	Identifier to read Input Report
10	wMaxInputLength		0053	Input Report is 80 Bytes + 2
12	wOutputRegister		0000	Identifier to read Output Report
14	wMaxOutputLength	0000	No Output Reports
16	wCommandRegister	0005	Identifier for Command Register
18	wDataRegister		0006	Identifier for Data Register
20	wVendorID		044E	Vendor ID 0x044E
22	wProductID		120B	Product ID 0x120B
24	wVersionID		0121	Version 01.21
26	RESERVED		0000	RESERVED


Report ID
------------
ReportID-1	(Input Reports)	(HIDUsage-Mouse) for TP&SP
ReportID-2	(Input Reports)	(HIDUsage-keyboard) for TP
ReportID-3	(Input Reports)	(Vendor Usage: Max 10 finger data) for TP
ReportID-4	(Input Reports)	(Vendor Usage: ON bit data) for GP
ReportID-5	(Feature Reports)	Feature Reports
ReportID-6	(Input Reports)	(Vendor Usage: StickPointer data) for SP
ReportID-7	(Feature Reports)	Flash update (Bootloader)


Data pattern
------------
Case1	ReportID_1	TP/SP	Relative/Relative
Case2	ReportID_3	TP	Absolute
	ReportID_6	SP	Absolute


Command Read/Write
------------------
To read/write to RAM, need to send a commands to the device.
The command format is as below.

DataByte(SET_REPORT)
Byte1	Command Byte
Byte2	Address - Byte 0 (LSB)
Byte3	Address - Byte 1
Byte4	Address - Byte 2
Byte5	Address - Byte 3 (MSB)
Byte6	Value Byte
Byte7	Checksum

Command Byte is read=0xD1/write=0xD2 .
Address is read/write RAM address.
Value Byte is writing data when you send the write commands.
When you read RAM, there is no meaning.

DataByte(GET_REPORT)
Byte1	Response Byte
Byte2	Address - Byte 0 (LSB)
Byte3	Address - Byte 1
Byte4	Address - Byte 2
Byte5	Address - Byte 3 (MSB)
Byte6	Value Byte
Byte7	Checksum

Read value is stored in Value Byte.


Packet Format
Touchpad data byte
------------------
	b7	b6	b5	b4	b3	b2	b1	b0
1	0	0	SW6	SW5	SW4	SW3	SW2	SW1
2	0	0	0	Fcv	Fn3	Fn2	Fn1	Fn0
3	Xa0_7	Xa0_6	Xa0_5	Xa0_4	Xa0_3	Xa0_2	Xa0_1	Xa0_0
4	Xa0_15	Xa0_14	Xa0_13	Xa0_12	Xa0_11	Xa0_10	Xa0_9	Xa0_8
5	Ya0_7	Ya0_6	Ya0_5	Ya0_4	Ya0_3	Ya0_2	Ya0_1	Ya0_0
6	Ya0_15	Ya0_14	Ya0_13	Ya0_12	Ya0_11	Ya0_10	Ya0_9	Ya0_8
7	LFB0	Zs0_6	Zs0_5	Zs0_4	Zs0_3	Zs0_2	Zs0_1	Zs0_0
								
8	Xa1_7	Xa1_6	Xa1_5	Xa1_4	Xa1_3	Xa1_2	Xa1_1	Xa1_0
9	Xa1_15	Xa1_14	Xa1_13	Xa1_12	Xa1_11	Xa1_10	Xa1_9	Xa1_8
10	Ya1_7	Ya1_6	Ya1_5	Ya1_4	Ya1_3	Ya1_2	Ya1_1	Ya1_0
11	Ya1_15	Ya1_14	Ya1_13	Ya1_12	Ya1_11	Ya1_10	Ya1_9	Ya1_8
12	LFB1	Zs1_6	Zs1_5	Zs1_4	Zs1_3	Zs1_2	Zs1_1	Zs1_0
								
13	Xa2_7	Xa2_6	Xa2_5	Xa2_4	Xa2_3	Xa2_2	Xa2_1	Xa2_0
14	Xa2_15	Xa2_14	Xa2_13	Xa2_12	Xa2_11	Xa2_10	Xa2_9	Xa2_8
15	Ya2_7	Ya2_6	Ya2_5	Ya2_4	Ya2_3	Ya2_2	Ya2_1	Ya2_0
16	Ya2_15	Ya2_14	Ya2_13	Ya2_12	Ya2_11	Ya2_10	Ya2_9	Ya2_8
17	LFB2	Zs2_6	Zs2_5	Zs2_4	Zs2_3	Zs2_2	Zs2_1	Zs2_0
								
18	Xa3_7	Xa3_6	Xa3_5	Xa3_4	Xa3_3	Xa3_2	Xa3_1	Xa3_0
19	Xa3_15	Xa3_14	Xa3_13	Xa3_12	Xa3_11	Xa3_10	Xa3_9	Xa3_8
20	Ya3_7	Ya3_6	Ya3_5	Ya3_4	Ya3_3	Ya3_2	Ya3_1	Ya3_0
21	Ya3_15	Ya3_14	Ya3_13	Ya3_12	Ya3_11	Ya3_10	Ya3_9	Ya3_8
22	LFB3	Zs3_6	Zs3_5	Zs3_4	Zs3_3	Zs3_2	Zs3_1	Zs3_0
								
23	Xa4_7	Xa4_6	Xa4_5	Xa4_4	Xa4_3	Xa4_2	Xa4_1	Xa4_0
24	Xa4_15	Xa4_14	Xa4_13	Xa4_12	Xa4_11	Xa4_10	Xa4_9	Xa4_8
25	Ya4_7	Ya4_6	Ya4_5	Ya4_4	Ya4_3	Ya4_2	Ya4_1	Ya4_0
26	Ya4_15	Ya4_14	Ya4_13	Ya4_12	Ya4_11	Ya4_10	Ya4_9	Ya4_8
27	LFB4	Zs4_6	Zs4_5	Zs4_4	Zs4_3	Zs4_2	Zs4_1	Zs4_0


SW1-SW6:	SW ON/OFF status
Xan_15-0(16bit):X Absolute data of the ?gn?hth finger
Yan_15-0(16bit):Y Absolute data of the ?gn?hth finger
Zsn_6-0(7bit):	Operation area of the ?gn?hth finger


StickPointer data byte
------------------
	b7	b6	b5	b4	b3	b2	b1	b0
Byte1	1	1	1	0	1	SW3	SW2	SW1
Byte2	X7	X6	X5	X4	X3	X2	X1	X0
Byte3	X15	X14	X13	X12	X11	X10	X9	X8
Byte4	Y7	Y6	Y5	Y4	Y3	Y2	Y1	Y0
Byte5	Y15	Y14	Y13	Y12	Y11	Y10	Y9	Y8
Byte6	Z7	Z6	Z5	Z4	Z3	Z2	Z1	Z0
Byte7	T&P	Z14	Z13	Z12	Z11	Z10	Z9	Z8

SW1-SW3:	SW ON/OFF status
Xn_15-0(16bit):X Absolute data
Yn_15-0(16bit):Y Absolute data
Zn_14-0(15bit):Z 

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