[PATCH V2] ARM: BCM5301X: Implement SMP support

Ray Jui rjui at broadcom.com
Tue Oct 13 15:48:54 PDT 2015


+ bcm-kernel-feedback-list.

Kapil, you might want to take a look at this. Not sure how this is
related to your SMP patches for NSP.

On 10/13/2015 3:29 PM, Hauke Mehrtens wrote:
> Hi,
> 
> I tested this patch on my device now.
> 
> What does the loader do before Linux gets started on the second CPU and
> what is ensured?
> 
> On 03/26/2015 01:00 PM, Russell King - ARM Linux wrote:
>> On Sun, Mar 22, 2015 at 02:20:15PM +0100, Rafał Miłecki wrote:
>>> +/*
>>> + * BCM5301X specific entry point for secondary CPUs.
>>> + */
>>> +ENTRY(bcm5301x_secondary_startup)
>>> +	mrc	p15, 0, r0, c0, c0, 5
>>> +	and	r0, r0, #15
>>> +	adr	r4, 1f
>>> +	ldmia	r4, {r5, r6}
>>> +	sub	r4, r4, r5
>>> +	add	r6, r6, r4
>>> +pen:	ldr	r7, [r6]
>>> +	cmp	r7, r0
>>> +	bne	pen
>>> +
>>> +	/*
>>> +	 * In case L1 cache has unpredictable contents at power-up
>>> +	 * clean its contents without flushing.
>>> +	 */
>>> +	bl      v7_invalidate_l1
>>> +
>>> +	mov	r0, #0
>>> +	mcr	p15, 0, r0, c7, c5, 0	/* Invalidate icache */
>>> +	dsb
>>> +	isb
>>
>> So if your I-cache contains unpredictable contents, how do you execute
>> the code to this point?  Shouldn't the I-cache invalidate be the very
>> first instruction you execute followed by the dsb and isb (oh, and iirc
>> it ignores the value in the register).
>>
>> In the case where a CPU has unpredictable contents at power up, the
>> ARM ARM requires that an implementation specific sequence is followed
>> to initialise the caches.  I doubt that such a sequence includes testing
>> a pen value.
> 
> When I remove the test for the pen value the CPU does not come up any
> more, I get this log output:
> 
> [ 0.132292] CPU: Testing write buffer coherency: ok
> [ 0.137635] CPU0: thread -1, cpu 0, socket 0, mpidr 80000000
> [ 0.143675] Setting up static identity map for 0x82a0 - 0x82d4
> [ 10.149786] CPU1: failed to boot: -38
> [ 10.153651] Brought up 1 CPUs
> 
> 
> This was caused just by removing the "cmp r7, r0" and "bne pen"
> instructions.
> 
> With these instructions are added it works and I get this:
> 
> [    0.132329] CPU: Testing write buffer coherency: ok
> [    0.137682] CPU0: thread -1, cpu 0, socket 0, mpidr 80000000
> [    0.143708] Setting up static identity map for 0x82a0 - 0x82d4
> [    0.189788] CPU1: thread -1, cpu 1, socket 0, mpidr 80000001
> [    0.189892] Brought up 2 CPUs
> [    0.198889] SMP: Total of 2 processors activated (3188.32 BogoMIPS).
> 
> Currently this is 100% reproducible.
> 
> Could it be that the second CPU needs some time till it is synchronised
> correctly?
> 
> I do not know if and why the cache clearing is needed, I do not have
> access to the SoC documentation or the ASIC/firmware developer.
> 
>>
>>> +	sysram_base_addr = of_iomap(node, 0);
>>> +	if (!sysram_base_addr) {
>>> +		pr_warn("Failed to map sysram\n");
>>> +		return;
>>> +	}
>>> +
>>> +	writel(virt_to_phys(entry_point), sysram_base_addr + SOC_ROM_LUT_OFF);
>>> +
>>> +	dsb_sev();	/* Exit WFI */
>>
>> Which WFI?  This seems to imply that you have some kind of initial
>> firmware.  If so, that should be taking care of the cache initialisation,
>> not the kernel.
>>
>>> +	mb();		/* make sure write buffer is drained */
>>
>> writel() already ensures that.
>>
>>> +	/*
>>> +	 * The secondary processor is waiting to be released from
>>> +	 * the holding pen - release it, then wait for it to flag
>>> +	 * that it has been released by resetting pen_release.
>>> +	 *
>>> +	 * Note that "pen_release" is the hardware CPU ID, whereas
>>> +	 * "cpu" is Linux's internal ID.
>>> +	 */
>>> +	write_pen_release(cpu_logical_map(cpu));
>>> +
>>> +	 /* Send the secondary CPU SEV */
>>> +	dsb_sev();
>>
>> If you even need any of the pen code, if you're having to send a SEV here,
>> wouldn't having a WFE in the pen assembly loop above be a good idea?
>>
> 
> 
> I have to read more on how WFE and co works.
> 
> Hauke
> 



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