On Wednesday 23 March 2016 11:15 PM, David Lechner wrote:
> On 03/23/2016 11:56 AM, Sekhar Nori wrote:
>>>
>>> +static struct clk usb_ref_clk = {
>>> + .name = "usb_ref_clk",
>>> + .rate = 48000000,
>>> + .set_rate = davinci_simple_set_rate,
>>> +};
>>
>> can we call this usb_refclkin so it matches the TRM name? Also, should
>> this node be not be coming through individual board files as the rate
>> depends on what is connected to the usb_refclkin pin? Or is the
>> expectation that boards will call clk_set_rate() on this clock to the
>> correct value? If yes, I think it is misleading to populate the .rate
>> here.
>
> You are right. When I did this, I was looking at USB 1.1 only, which
> MUST be 48MHz. However, this can be used for USB 2.0 which can accept a
> number of rates.
>
> However, even the main reference oscillator in da850.c has the rate hard
> coded in da850.c (DA850_REF_FREQ).
:)
>
> The clock initialization will fail if a clock does not have a parent or
> a rate, so we have to give it a default rate since it is an external
> clock and has no parent. So, I think 48MHz makes sense for a default
> value. Most boards will probably not be using this clock anyway, but
> rather the PLL in the USB 2.0 PHY.
Alright, I guess the only change is to call it usb_refclkin
>
>
>>> +
>>> + pr_info("Waiting for USB 2.0 PHY clock good...\n");
>>> + while (!(readl(DA8XX_SYSCFG0_VIRT(DA8XX_CFGCHIP2_REG))
>>> + & CFGCHIP2_PHYCLKGD))
>>> + cpu_relax();
>>
>> I guess this is copying some earlier code, but still, it will be nice to
>> see a timeout mechanism here, rather than loop endlessly.
>
> Do you have a suggestion on how to do this?
Simplest would be to use a udelay(1) inside the loop and count a
specific number of times (sufficiently large to not cause false
negatives and sufficiently small so as to not appear that board is
frozen forever).
Thanks,
Sekhar
