Re: [PATCH v2] perf/hx_arm_ni: Support uncore ARM NI-700 PMU

From: Krzysztof Kozlowski
Date: Wed Jan 31 2024 - 05:36:26 EST


On 31/01/2024 11:07, Yang Jialong 杨佳龙 wrote:
>
>
> 在 2024/1/31 17:38, Krzysztof Kozlowski 写道:
>> On 31/01/2024 10:07, Yang Jialong 杨佳龙 wrote:
>>>
>>>
>>> 在 2024/1/31 15:59, Krzysztof Kozlowski 写道:
>>>> On 31/01/2024 08:08, JiaLong.Yang wrote:
>>>>> This code is based on uncore PMUs arm_smmuv3_pmu and arm-cmn.
>>>>> One ni-700 can have many clock domains. Each of them has only one PMU.
>>>>> Here one PMU corresponds to one 'struct ni_pmu' instance.
>>>>> PMU name will be ni_pmu_N_M, which N means different NI-700s and M means
>>>>> different PMU in one NI-700. If only one NI-700 found in NI-700, name will
>>>>> be ni_pmu_N.
>>>>> Node interface event name will be xxni_N_eventname, such as
>>>>> asni_0_rdreq_any. There are many kinds of type of nodes in one clock
>>>>> domain. Also means that there are many kinds of that in one PMU. So we
>>>>> distinguish them by xxni string. Besides, maybe there are many nodes
>>>>> have same type. So we have number N in event name.
>>>>> By ni_pmu_0_0/asni_0_rdreq_any/, we can pinpoint accurate bus traffic.
>>>>> Example1: perf stat -a -e ni_pmu_0_0/asni_0_rdreq_any/,ni_pmu_0_0/cycles/
>>>>> EXample2: perf stat -a -e ni_pmu_0_0/asni,id=0,event=0x0/
>>>>>
>>>>> Signed-off-by: JiaLong.Yang <jialong.yang@xxxxxxxxxxxx>
>>>>> ---
>>>>> v1 --> v2:
>>>>> 1. Submit MAINTANER Documentation/ files seperately.
>>>>
>>>> SEPARATE PATCHES, not patchsets. You have now checkpatch warnings
>>>> because of this...
>>>
>>> ...OK. But the MAINTANER file changing should be given in which one
>>> patches.
>>> I will submit patch v3 after talking and your permission.
>>>
>>>>
>>>>> 2. Delete some useless info printing.
>>>>> 3. Change print from pr_xxx to dev_xxx.
>>>>> 4. Fix more than 75 length log info.
>>>>> 5. Fix dts attribute pccs-id.
>>>>> 6. Fix generic name according to DT specification.
>>>>> 7. Some indentation.
>>>>> 8. Del of_match_ptr macro.
>>>>>
>>>>> drivers/perf/Kconfig | 11 +
>>>>> drivers/perf/Makefile | 1 +
>>>>> drivers/perf/hx_arm_ni.c | 1284 ++++++++++++++++++++++++++++++++++++++
>>>>> 3 files changed, 1296 insertions(+)
>>>>> create mode 100644 drivers/perf/hx_arm_ni.c
>>>>>
>>>>> diff --git a/drivers/perf/Kconfig b/drivers/perf/Kconfig
>>>>> index ec6e0d9194a1..95ef8b13730f 100644
>>>>> --- a/drivers/perf/Kconfig
>>>>> +++ b/drivers/perf/Kconfig
>>>>> @@ -241,4 +241,15 @@ config CXL_PMU
>>>>>
>>>>> If unsure say 'm'.
>>>>>
>>>>> +config HX_ARM_NI_PMU
>>>>> + tristate "HX ARM NI-700 PMU"
>>>>> + depends on PPC_HX_C2000 && 64BIT
>>>>
>>>> 1. There is no PPC_HX_C2000.
>>>
>>> I have been used to using this macro. However this macro is not existed
>>> in mainline.
>>> I will replace it with ARM64. And del involved C code if OK.
>>>
>>> 64bit:
>>> __ffs(unsigned long) and __fls(unsigned long) will be wrong in 32bit. I
>>> pass a u64 argument.
>>
>> One thing is where the code is supposed to run, second thing is compile
>> testing.
>>
>
> Now run on my company product, a 64bit PowerPC...
> But I think it's general for 64bit systems.
>
>> Why do you use __ffs, not __ffs64 which takes u64 if you really want
>> only 64bit argument? unsigned long != u64, so your code is not
>> architecture independent. You claim you wrote it on purpose as
>> non-architecture-independent, but then I claim it's a bug. We are
>> supposed to write code which is portable, as much as possible, assuming
>> it does not affect readability.
>>
>
> I write code in v5.18, there are __ffs64() and fls64(). Asymmetric.

Sorry, that's a no go.

That's some very, very old kernel. Do not develop on old kernels, but on
mainline. I also suspect that by basing your work on old kernel, you
duplicate a lot of issues already fixed.

> There are some difference in return val between __ffs() and ffs64().
> __ffs(0) and ffs64(0) will give different value.

__ffs64 calls __ffs, so why would results be different?

Anyway, that's not really excuse.


>
> And I'm sure code run in 64bit. So I choose to use __ffs and __fls.
>
> Maybe it could be compatbile with 32bit. But I don't have a environment
> to test this.
>>
>>> struct ni_hw_perf_event will be big than limit.
>>> BUILD_BUG_ON(sizeof(struct ni_hw_perf_event) > offsetof(struct
>>> hw_perf_event, target));
>>
>> And why do you need to use any of such code? Please open one of hundreds
>> of other drivers which work correctly on 32 and 64-bit platforms.
>>
>
> Code for 64bit.
> This code is to avoid struct ni_hw_perf_event is too big than struct
> hw_perf_event::target.

1. Why would that matter? target is task_struct. It's size does not
matter. Maybe its offset matters, but not size.

2. So you claim that on 32-bit system the structure will be bigger than
on 64-bit system?

> I learn it from arm-cmn.c.

Are you copying patterns because they are good patterns or just because
you decided to copy?

> ni_hw_perf_event will replace hw_perf_event.
> I will put some useful information in it with less space and good field
> names.
> But I can't exceed a limit.
>
>>>
>>>> 2. Nothing justified dependency on 64bit. Drop or explain. Your previous
>>>> message did not provide real rationale.
>>>
>>> If ARM64, then drop.
>>
>> ...
>>
>> ...
>>
>>>>> + /* Step2: Traverse all clock domains. */
>>>>> + for (cd_idx = 0; cd_idx < ni->cd_num; cd_idx++) {
>>>>> + cd = cd_arrays[cd_idx];
>>>>> +
>>>>> + num = ni_child_number(cd);
>>>>> + dev_dbg(dev, "The %dth clock domain has %d child nodes:", cd_idx, num);
>>>>> +
>>>>> + /* Omit pmu node */
>>>>> + ni_pmu = devm_kzalloc(dev, struct_size(ni_pmu, ev_src_nodes, num - 1),
>>>>> + GFP_KERNEL);
>>>>> + ni_pmu->ev_src_num = num - 1;
>>>>> +
>>>>> + if (!ni_pmu)
>>>>> + return -ENOMEM;
>>>>> +
>>>>> + num_idx = 0;
>>>>> + for (nd_idx = 0; nd_idx < num; nd_idx++) {
>>>>> + nd = ni_child_pointer(pbase, cd, nd_idx);
>>>>> +
>>>>> + node.base = nd;
>>>>> + node.node_type = ni_node_node_type(nd);
>>>>> +
>>>>> + if (unlikely(ni_node_type(nd) == NI_PMU))
>>>>> + ni_pmu->pmu_node = node;
>>>>> + else
>>>>> + ni_pmu->ev_src_nodes[num_idx++] = node;
>>>>> + dev_dbg(dev, " name: %s id: %d", ni_node_name[node.type], node.id);
>>>>> + }
>>>>> +
>>>>> + ni_pmu->dev = dev;
>>>>> + ni_pmu->ni = ni;
>>>>> + ni->ni_pmus[cd_idx] = ni_pmu;
>>>>> + }
>>>>> +
>>>>> + devm_kfree(dev, cd_arrays);
>>>>
>>>> Why? If it is not device-lifetime then allocate with usual way.
>>>>
>>>
>>> No device-lifetime.
>>> Will allocate in stack.
>>
>> I was thinking about kzalloc. But if array is small, stack could be as well.
>>
>
> If I have to return before devm_kfree because of wrong, I will have to use:
>
> goto out;
>
> out:
> kfree();
>
> But if I use devm_kzalloc, I will not be worried about that. Even if no

devm* is not for that purpose. devm is for device-managed allocations.
Device does not manage your allocation.

> device-lifetime.
> Isn't this a good way?

Then you want cleanup.h and use proper __free().

Best regards,
Krzysztof