Re: [Intel-gfx] [PATCH] drm/i915/guc/slpc: Use non-blocking H2G for waitboost

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On 5/6/2022 9:43 AM, John Harrison wrote:
On 5/6/2022 00:18, Tvrtko Ursulin wrote:
On 05/05/2022 19:36, John Harrison wrote:
On 5/5/2022 10:21, Belgaumkar, Vinay wrote:
On 5/5/2022 5:13 AM, Tvrtko Ursulin wrote:
On 05/05/2022 06:40, Vinay Belgaumkar wrote:
SLPC min/max frequency updates require H2G calls. We are seeing
timeouts when GuC channel is backed up and it is unable to respond
in a timely fashion causing warnings and affecting CI.

Is it the "Unable to force min freq" error? Do you have a link to the GitLab issue to add to commit message?
We don't have a specific error for this one, but have seen similar issues with other H2G which are blocking.

This is seen when waitboosting happens during a stress test.
this patch updates the waitboost path to use a non-blocking
H2G call instead, which returns as soon as the message is
successfully transmitted.

AFAIU with this approach, when CT channel is congested, you instead achieve silent dropping of the waitboost request, right?
We are hoping it makes it, but just not waiting for it to complete.
We are not 'hoping it makes it'. We know for a fact that it will make it. We just don't know when. The issue is not about whether the waitboost request itself gets dropped/lost it is about the ack that comes back. The GuC will process the message and it will send an ack. It's just a question of whether the i915 driver has given up waiting for it yet. And if it has, then you get the initial 'timed out waiting for ack' followed by a later 'got unexpected ack' message.

Whereas, if we make the call asynchronous, there is no ack. i915 doesn't bother waiting and it won't get surprised later.

Also, note that this is only an issue when GuC itself is backed up. Normally that requires the creation/destruction of large numbers of contexts in rapid succession (context management is about the slowest thing we do with GuC). Some of the IGTs and selftests do that with thousands of contexts all at once. Those are generally where we see this kind of problem. It would be highly unlikely (but not impossible) to hit it in real world usage.

Goto ->

The general design philosophy of H2G messages is that asynchronous mode should be used for everything if at all possible. It is fire and forget and will all get processed in the order sent (same as batch buffer execution, really). Synchronous messages should only be used when an ack/status is absolutely required. E.g. start of day initialisation or things like TLB invalidation where we need to know that a cache has been cleared/flushed before updating memory from the CPU.

John.



It sounds like a potentially important feedback from the field to lose so easily. How about you added drm_notice to the worker when it fails?

Or simply a "one line patch" to replace i915_probe_error (!?) with drm_notice and keep the blocking behavior. (I have no idea what is the typical time to drain the CT buffer, and so to decide whether waiting or dropping makes more sense for effectiveness of waitboosting.)

Or since the congestion /should not/ happen in production, then the argument is why complicate with more code, in which case going with one line patch is an easy way forward?

Here. Where I did hint I understood the "should not happen in production angle".

So statement is GuC is congested in processing requests, but the h2g buffer is not congested so no chance intel_guc_send_nb() will fail with no space in that buffer? Sounds a bit un-intuitive.
That's two different things. The problem of no space in the H2G buffer is the same whether the call is sent blocking or non-blocking. The wait-for-space version is intel_guc_send_busy_loop() rather than intel_guc_send_nb(). NB: _busy_loop is a wrapper around _nb, so the wait-for-space version is also non-blocking ;). If a non-looping version is used (blocking or otherwise) it will return -EBUSY if there is no space. So both the original SLPC call and this non-blocking version will still get an immediate EBUSY return code if the H2G channel is backed up completely.

Whether the code should be handling EBUSY or not is another matter. Vinay, does anything higher up do a loop on EBUSY? If not, maybe it should be using the _busy_loop() call instead?

The blocking vs non-blocking is about waiting for a response if the command is successfully sent. The blocking case will sit and spin for a reply, the non-blocking assumes success and expects an asynchronous error report on failure. The assumption being that the call can't fail unless something is already broken - i915 sending invalid data to GuC for example. And thus any failure is in the BUG_ON category rather than the try again with a different approach and/or try again later category.

This is the point of the change. We are currently getting timeout errors when the H2G channel has space so the command can be sent, but the channel already contains a lot of slow operations. The command has been sent and will be processed successfully, it just takes longer than the i915 timeout. Given that we don't actually care about the completion response for this command, there is no point in either a) sitting in a loop waiting for it or b) complaining that it doesn't happen in a timely fashion. Hence the plan to make it non-blocking.


Anyway, it sounds okay to me to use the non-blocking, but I would like to see some logging if the unexpected does happen. Hence I was suggesting the option of adding drm_notice logging if the send fails from the worker. (Because I think other callers would already propagate the error, like sysfs.)

  err = slpc_force_min_freq(slpc, slpc->boost_freq);
  if (!err)
       slpc->num_boosts++;
  else
       drm_notice(... "Failed to send waitboost request (%d)", err);
The only error this should ever report would be EBUSY when the H2G channel is full. Anything else (ENODEV, EPIPE, etc.) means the system is already toast and bigger errors will likely have already have been reported.

As above, maybe this should be looping on the EBUSY case. Presumably it is safe to do so if it was already looping waiting for the response. And then printing a notice level warning on more catastrophic errors seems reasonable.

Not sure if we need an extensive busy loop here. All we are trying to do (through a tasklet) is bump the min freq. If that fails due to EBUSY, we will just end up

retrying next time around.

Thanks,

Vinay.


John.


Something like that.

Regards,

Tvrtko


Even if we soften the blow here, the actual timeout error occurs in the intel_guc_ct.c code, so we cannot hide that error anyways. Making this call non-blocking will achieve both things.

Thanks,

Vinay.


Regards,

Tvrtko

Signed-off-by: Vinay Belgaumkar <vinay.belgaumkar@xxxxxxxxx>
---
  drivers/gpu/drm/i915/gt/uc/intel_guc_slpc.c | 38 ++++++++++++++++-----
  1 file changed, 30 insertions(+), 8 deletions(-)

diff --git a/drivers/gpu/drm/i915/gt/uc/intel_guc_slpc.c b/drivers/gpu/drm/i915/gt/uc/intel_guc_slpc.c
index 1db833da42df..c852f73cf521 100644
--- a/drivers/gpu/drm/i915/gt/uc/intel_guc_slpc.c
+++ b/drivers/gpu/drm/i915/gt/uc/intel_guc_slpc.c
@@ -98,6 +98,30 @@ static u32 slpc_get_state(struct intel_guc_slpc *slpc)
      return data->header.global_state;
  }
  +static int guc_action_slpc_set_param_nb(struct intel_guc *guc, u8 id, u32 value)
+{
+    u32 request[] = {
+        GUC_ACTION_HOST2GUC_PC_SLPC_REQUEST,
+        SLPC_EVENT(SLPC_EVENT_PARAMETER_SET, 2),
+        id,
+        value,
+    };
+    int ret;
+
+    ret = intel_guc_send_nb(guc, request, ARRAY_SIZE(request), 0);
+
+    return ret > 0 ? -EPROTO : ret;
+}
+
+static int slpc_set_param_nb(struct intel_guc_slpc *slpc, u8 id, u32 value)
+{
+    struct intel_guc *guc = slpc_to_guc(slpc);
+
+    GEM_BUG_ON(id >= SLPC_MAX_PARAM);
+
+    return guc_action_slpc_set_param_nb(guc, id, value);
+}
+
  static int guc_action_slpc_set_param(struct intel_guc *guc, u8 id, u32 value)
  {
      u32 request[] = {
@@ -208,12 +232,10 @@ static int slpc_force_min_freq(struct intel_guc_slpc *slpc, u32 freq)
       */
        with_intel_runtime_pm(&i915->runtime_pm, wakeref) {
-        ret = slpc_set_param(slpc,
- SLPC_PARAM_GLOBAL_MIN_GT_UNSLICE_FREQ_MHZ,
-                     freq);
-        if (ret)
-            i915_probe_error(i915, "Unable to force min freq to %u: %d",
-                     freq, ret);
+        /* Non-blocking request will avoid stalls */
+        ret = slpc_set_param_nb(slpc,
+ SLPC_PARAM_GLOBAL_MIN_GT_UNSLICE_FREQ_MHZ,
+                    freq);
      }
        return ret;
@@ -231,8 +253,8 @@ static void slpc_boost_work(struct work_struct *work)
       */
      mutex_lock(&slpc->lock);
      if (atomic_read(&slpc->num_waiters)) {
-        slpc_force_min_freq(slpc, slpc->boost_freq);
-        slpc->num_boosts++;
+        if (!slpc_force_min_freq(slpc, slpc->boost_freq))
+            slpc->num_boosts++;
      }
      mutex_unlock(&slpc->lock);
  }





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