Re: ad714x driver help and possible bug
From: Michael Hennerich
Date: Tue May 03 2011 - 11:25:27 EST
On 05/03/2011 04:33 PM, Michael Hennerich wrote:
> On 05/03/2011 04:13 PM, Jean-Francois Dagenais wrote:
>
>> On Apr 29, 2011, at 5:55, Jonathan Cameron wrote:
>>
>>
>>
>>> Cc'd input, and analog devices driver list...
>>>
>>> On 04/28/11 19:17, Jean-Francois Dagenais wrote:
>>>
>>>
>>>> Hi all,
>>>>
>>>> I am having trouble getting the ad714x (i2c) driver to work in my
>>>> test setup. I am using the VGA i2c bus to talk to the ad7147 I have.
>>>> I used INTA of a PCI ethernet slot in my PC. I enabled the PCI device
>>>> without the driver module loaded. I then give the interrupt number
>>>> to ad714x through the struct i2c_board_info. I actually tried the
>>>> same setup on two PCs, one intel graphics, the other nvidia to
>>>> eliminate the i2c master as a possible cause of my problem.
>>>>
>>>> The device is successfully loaded and I can see the interrupts going.
>>>> The eventN device created under /dev/input never spit out anything
>>>> and so I added printks in the threaded ISR handler to see what is
>>>> going on.
>>>>
>>>> I only have a wheel with 8 stages. In ad714x_wheel_state_machine() I
>>>> see that upon the first interrupt, the state goes from IDLE to
>>>> JITTER. After this the JITTER case checks that c_state == mask (with
>>>> mask being 0xff in our case). This condition is never met and the
>>>> driver stays indefinitely in this state. After lifting my finger from
>>>> the wheel, the chip settles down to scanning every so many
>>>> milliseconds.
>>>>
>>>> The STAGE_COMPLETE_INT_STATUS is always 0 when my finger is off, but
>>>> varies a lot while my finger is on (while interrupt frequency is
>>>> high). Looking at the value of STAGE_COMPLETE_INT_STATUS in binary
>>>> reveals that the set bits are always in groups, e.g. 0x0007 or 0x001C
>>>> or 0x0081(I imagine a roll-over of our start_stage-end_stage (0-7)).
>>>> There seems to be a timing aspect here. I added a spin counter in the
>>>> threaded ISR to delay reading the 3 registers and that seemed to make
>>>> the c_state change a little.
>>>>
>>>> I modified the code that reads the 3 registers right after the
>>>> mutex_lock in ad714x_interrupt_thread so that the
>>>> STAGE_COMPLETE_INT_STATUS is read before the other two (LOW and HIGH
>>>> regs). The result was surprising. The COMPLETE reg did read 0xff now
>>>> and the JITTER case went past the "if(c_state == mask)" but later
>>>> crashed (divide by 0) in ad714x_wheel_cal_abs_pos() called from the
>>>> JITTER case.
>>>>
>>>>
>>>> Here's the initial configuration I give the driver:
>>>>
>>>> static struct ad714x_wheel_plat wheel_platform_data = {
>>>> .start_stage = 0, // int start_stage;
>>>> .end_stage = 7, // int end_stage;
>>>> .max_coord = 128, // int max_coord;
>>>> };
>>>>
>>>> static struct ad714x_platform_data wheel_dev_platform_data = {
>>>> .slider_num = 0,
>>>> .wheel_num = 1,
>>>> .touchpad_num = 0,
>>>> .button_num = 0,
>>>> .slider = 0,
>>>> .wheel = &wheel_platform_data, // struct ad714x_wheel_plat *wheel;
>>>> .touchpad = 0, // struct ad714x_touchpad_plat *touchpad;
>>>> .button = 0, // struct ad714x_button_plat *button;
>>>> .stage_cfg_reg = { /* unsigned short stage_cfg_reg[STAGE_NUM][STAGE_CFGREG_NUM] */
>>>> {0xfffe, 0x3fff, 0, 0x2626, 0x3e8, 0x3e8, 0x1388, 0x1388 },
>>>> {0xfffb, 0x3fff, 0, 0x2626, 0x3e8, 0x3e8, 0x1388, 0x1388 },
>>>> {0xffef, 0x3fff, 0, 0x2626, 0x3e8, 0x3e8, 0x1388, 0x1388 },
>>>> {0xffbf, 0x3fff, 0, 0x2626, 0x3e8, 0x3e8, 0x1388, 0x1388 },
>>>> {0xfeff, 0x3fff, 0, 0x2626, 0x3e8, 0x3e8, 0x1388, 0x1388 },
>>>> {0xfbff, 0x3fff, 0, 0x2626, 0x3e8, 0x3e8, 0x1388, 0x1388 },
>>>> {0xefff, 0x3fff, 0, 0x2626, 0x3e8, 0x3e8, 0x1388, 0x1388 },
>>>> {0xffff, 0x3ffe, 0, 0x2626, 0x3e8, 0x3e8, 0x1388, 0x1388 },
>>>>
>>>> {0xffff, 0x3fff, 0, 0x0606, 0x01f4, 0x01f4, 0x0320, 0x0320},
>>>> {0xffff, 0x3fff, 0, 0x0606, 0x01f4, 0x01f4, 0x0320, 0x0320},
>>>> {0xffff, 0x3fff, 0, 0x0606, 0x01f4, 0x01f4, 0x0320, 0x0320},
>>>> {0xffff, 0x3fff, 0, 0x0606, 0x01f4, 0x01f4, 0x0320, 0x0320},
>>>> },
>>>> .sys_cfg_reg = {0x027e, 0x00ff, 0x3233, 0x0819, 0x0832, 0x0000, 0x00ff, 0}, /* unsigned short sys_cfg_reg[SYS_CFGREG_NUM] */
>>>> //.sys_cfg_reg = {0x2b2, 0xfff, 0x3233, 0x819, 0x832, 0xcff, 0xcff, 0x0}, /* unsigned short sys_cfg_reg[SYS_CFGREG_NUM] */
>>>> };
>>>>
>>>>
>>>>
>>>
>>>
>>>> I also had to change the request_threaded_irq flags to specify
>>>> IRQF_ONESHOT so the kernel keeps the interrupt masked while we are
>>>> running ad714x_interrupt_thread(). Otherwise we were getting storms
>>>> of interrupts each time only one was requested. I am wondering if
>>>> this should be pulled back to the mainline kernel?
>>>>
>>>> Thanks for pointers and clues!
>>>>
>>>>
>>>>
>>>
>>>
>> here's the printk I added to ad714x_wheel_state_machine()
>>
>> mask = ((1 << (hw->end_stage + 1)) - 1) - ((1 << hw->start_stage) - 1);
>>
>> h_state = ad714x->h_state & mask;
>> c_state = ad714x->c_state & mask;
>> dev_dbg(ad714x->dev, "interrupt state:%d mask:0x%x l:0x%x h:0x%x c:0x%x\n",
>> sw->state,
>> (u32)mask,
>> (u32)ad714x->l_state,
>> (u32)ad714x->h_state,
>> (u32)ad714x->c_state);
>>
>> Here what it looks like upon loading a module which does the i2c_new_device of the AD7147:
>>
>> <7>[58302.186886] my-pci-stub 0000:01:04.0: claimed by my platform module PCI stub
>> <6>[58302.186903] my-pci-stub 0000:01:04.0: PCI INT A -> GSI 17 (level, low) -> IRQ 17
>> <6>[58302.189815] ad714x_captouch 9-002c: found AD7147(A) captouch, rev:1
>> <6>[58302.427237] input: Unspecified device as /devices/virtual/input/input8
>>
>> [ pause here while my hand goes from my mouse and keyboard to the wheel on the AD7147 ]
>>
>> <7>[58311.646183] ad714x_captouch 9-002c: interrupt state:0 mask:0xff l:0x0 h:0x18 c:0x1c
>> <7>[58311.646192] ad714x_captouch 9-002c: case IDLE in if
>> <7>[58311.655436] ad714x_captouch 9-002c: wheel 0 touched
>> <7>[58311.663087] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x18 c:0x7
>> <7>[58311.674562] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x18 c:0x81
>> <7>[58311.686803] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x18 c:0x81
>> <7>[58311.699147] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x18 c:0x81
>> <7>[58311.711430] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x18 c:0x81
>> <7>[58311.723585] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x18 c:0x81
>> <7>[58311.736017] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x38 c:0x81
>> <7>[58311.748298] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x38 c:0x81
>> <7>[58311.760581] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x38 c:0x81
>> <7>[58311.772800] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x38 c:0x81
>> <7>[58311.785176] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x38 c:0x81
>> <7>[58311.797473] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x38 c:0x81
>> <7>[58311.809651] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x10 c:0x81
>>
>> [ here I lift my finger ]
>>
>> <7>[58311.822059] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x0 c:0x81
>> <7>[58311.834345] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x0 c:0x81
>> <7>[58311.846582] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x0 c:0x81
>> <7>[58311.858800] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x0 c:0x81
>> <7>[58311.871212] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x0 c:0x81
>> <7>[58311.883517] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x0 c:0x81
>> <7>[58311.895802] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x0 c:0x81
>> <7>[58311.908099] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x0 c:0x81
>> <7>[58311.920381] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x0 c:0x81
>> <7>[58311.932585] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x0 c:0x81
>>
>> [...]
>>
>> <7>[58313.432218] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x0 c:0x81
>> <7>[58314.157343] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x0 c:0x81
>>
>> [... after 2 seconds or so, the rhythm slows down to 2 interrupts per second or so ]
>>
>> <7>[58314.169629] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x0 c:0x80
>>
>> <7>[58314.976518] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x0 c:0x80
>>
>> <7>[58315.783342] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x0 c:0x80
>>
>>
>> There is a clue in what I did next. I added a wait time in the isr thread function like so:
>>
>> static irqreturn_t ad714x_interrupt_thread(int irq, void *data)
>> {
>> struct ad714x_chip *ad714x = data;
>> volatile int i;
>>
>> mutex_lock(&ad714x->mutex);
>>
>> i=0xffffff;
>> while(i)
>> --i;
>>
>> ad714x->read(ad714x->dev, STG_LOW_INT_STA_REG, &ad714x->l_state);
>> ad714x->read(ad714x->dev, STG_HIGH_INT_STA_REG, &ad714x->h_state);
>> ad714x->read(ad714x->dev, STG_COM_INT_STA_REG, &ad714x->c_state);
>> [ ... ]
>>
>> this changes the above trace to these values:
>>
>> while touching the wheel:
>> <7>[63085.414268] ad714x_captouch 9-002c: interrupt state:0 mask:0xff l:0x0 h:0x70 c:0x60
>> <7>[63085.414277] ad714x_captouch 9-002c: case IDLE in if
>> <7>[63085.423519] ad714x_captouch 9-002c: wheel 0 touched
>> <7>[63085.578931] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x70 c:0x18
>> <7>[63085.736079] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x70 c:0x3
>> <7>[63085.832304] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x70 c:0x60
>> <7>[63086.938334] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x30 c:0x60
>> <7>[63087.030835] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x38 c:0x60
>> <7>[63087.122909] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x38 c:0x60
>> <7>[63087.215014] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x38 c:0x60
>> <7>[63087.307071] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x38 c:0x60
>> <7>[63087.399367] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x38 c:0x60
>> <7>[63087.739386] ad714x_captouch 9-002c: interrupt state:1 mask:0xff l:0x0 h:0x38 c:0x83
>>
>> Again, notice the state going from 0 (IDLE) to 1(JITTER), and never entering the "if" in the JITTER case (needs mask == c_state). The HIGH register varies a lot while I move my finger around, but the COMPLETE looks like its always going and being cleared. I mentioned before that reading the COMPLETE status reg before the LOW and HIGH produces completely different results.
>>
>> I am suspecting the register configuration we use is off somehow, I will review them thoroughly. Aside from this we are running out of leads here, anyone has input on this?
>>
>> Thanks in advance!
>> JFD
>>
>>
> Hi Jean-Francois,
>
> Barry Song, the driver author left ADI quite some time ago
> I don't have hardware to test things at the moment.
>
> The EVAL-AD7147 only has sliders and buttons, so I don't know how useful
> it will be here.
> Need to check if I can find one having a wheel.
>
>
Hi Jean-Francois,
The ADZS-BFLLCD-EZEXT features a AD7147-1 + wheel.
I'll take a look and get back to you later this week.
--
Greetings,
Michael
--
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