Re: [PATCH v2 1/2] interconnect: Add sync state support

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On 7/30/2020 12:07 PM, Saravana Kannan wrote:
On Mon, Jul 27, 2020 at 11:18 PM Mike Tipton <mdtipton@xxxxxxxxxxxxxx> wrote:

On 7/22/2020 10:07 AM, Saravana Kannan wrote:
On Wed, Jul 22, 2020 at 4:01 AM Georgi Djakov <georgi.djakov@xxxxxxxxxx> wrote:

The bootloaders often do some initial configuration of the interconnects
in the system and we want to keep this configuration until all consumers
have probed and expressed their bandwidth needs. This is because we don't
want to change the configuration by starting to disable unused paths until
every user had a chance to request the amount of bandwidth it needs.

To accomplish this we will implement an interconnect specific sync_state
callback which will synchronize (aggregate and set) the current bandwidth
settings when all consumers have been probed.

Signed-off-by: Georgi Djakov <georgi.djakov@xxxxxxxxxx>
---
   drivers/interconnect/core.c           | 61 +++++++++++++++++++++++++++
   include/linux/interconnect-provider.h |  5 +++
   2 files changed, 66 insertions(+)

diff --git a/drivers/interconnect/core.c b/drivers/interconnect/core.c
index e5f998744501..0c4e38d9f1fa 100644
--- a/drivers/interconnect/core.c
+++ b/drivers/interconnect/core.c
@@ -26,6 +26,8 @@

   static DEFINE_IDR(icc_idr);
   static LIST_HEAD(icc_providers);
+static int providers_count;
+static bool synced_state;
   static DEFINE_MUTEX(icc_lock);
   static struct dentry *icc_debugfs_dir;

@@ -255,6 +257,12 @@ static int aggregate_requests(struct icc_node *node)
                          continue;
                  p->aggregate(node, r->tag, r->avg_bw, r->peak_bw,
                               &node->avg_bw, &node->peak_bw);
+
+               /* during boot use the initial bandwidth as a floor value */
+               if (!synced_state) {
+                       node->avg_bw = max(node->avg_bw, node->init_avg);
+                       node->peak_bw = max(node->peak_bw, node->init_peak);
+               }

Sorry I didn't reply earlier.

I liked your previous approach with the get_bw ops. The v2 approach
forces every interconnect provider driver to set up these values even
if they are okay with just maxing out the bandwidth. Also, if they can
actually query their hardware, this adds additional steps for them.

The problem with using something like get_bw() is that while we can
dynamically query the HW, we have far less granularity in HW than we
have nodes in the framework. We vote at BCM-level granularity, but each
BCM can have many nodes. For example, the sdm845 CN0 BCM has 47 nodes.
If we implement get_bw() generically, then it would return the BW for
each node, which would be the queried BCM vote scaled to account for
differences in BCM/node widths. While this could be useful in general as
an informational callback, we wouldn't want to use this as a proxy for
our initial BW vote requirements. For CN0, we wouldn't want or need to
vote 47 times for the same CN0 BCM. Each of the 47 node requests would
result in the same BCM request.

Firstly most people in the list don't know what BCM means. Also, all
of this is your provider driver specific issues. If you are exposing
more nodes than available HW granularity, then you might want to
question why it needs to be done (probably to make aggregation easier
for the driver). If it's needed, then optimize your get/set() calls by
caching the value in an internal variable so that you don't send a
request to your BCM if you haven't changed the value since the last
request. This is not a reason to not have get_bw() calls at the
framework level. Other providers might support it and it'd make their
lives easier.

The nodes capture the HW topology, so they are all needed to expose the necessary paths and aggregate properly. However, HW doesn't support voting for each node individually. Instead, they are grouped together and collections of nodes are voted using a single "BCM". So in addition to the node aggregation done in the framework, we also aggregate across all nodes belonging to the BCM.


All we'd really need is a single node per-BCM to serve as the proxy
node. We'd query the HW, scale the queried value for the chosen proxy
node, and set init_avg/init_peak appropriately. This would save a lot of
unnecessary votes. Based on the current implementation, the set() call
in icc_node_add() for initial BW wouldn't trigger any actual HW requests
since we only queue BCMs that require updating in the aggregate()
callback. However, the set() call in icc_sync_state() would, since we
re-aggregate each node that has a non-zero init_avg/init_peak.

Having a fake "proxy node" seems like a bad internal design. Also,
have you timed the cost of these calls to justify your concern? If you
cache the values after aggregation and check before you send it down
to a "BCM", at worst you get one additional call to rpmh per BCM due
to this feature. I'm guessing any time delta would be lost as noise
compared to the boot up time.

It wouldn't be a fake node. It would be one of the real, existing nodes. But since we can only query/vote the BCM (and a single BCM can have multiple nodes), then we'd just have to choose one node per-BCM in order to "hold" the initial BW from boot.

I don't have specific timing numbers offhand. But now that I think about it it's a bigger functional issue. If we implement get_bw() to return the available BW for each node in the BCM, then our internal BCM aggregation will quickly ramp to max. The avg_bw for each node in the BCM is summed. If every node in the BCM votes for the queried BW, then it will sum to something much higher.

As I mentioned before, we could solve this problem by implementing get_bw() to only return non-zero BW for one node per-BCM. This would work for the initial proxy voting. The only downside is that it wouldn't be a generic "get_bw" callback anymore. It would return our initial BW vote instead. That's not a big deal, unless the framework wants to use it for other purposes in the future. But that doesn't seem particularly likely. The framework already knows the BW explicitly voted by clients. So querying is only useful to find out how much BW is configured in HW, but isn't explicitly voted for. Outside of the initial sync-state context I don't see that being necessary.


There's nothing stopping us from implementing get_bw() as if it were
get_initial_bw(), but that only works until the framework decides to use
get_bw() for more things than just the initial vote. I suppose we could
also just have a "get_initial_bw" callback, but it only needs to be
called once, so doesn't necessarily need a callback as opposed to
additional init_avg/init_peak members in the icc_node struct.

The benefit of "ops" vs "fill up these variables" is that you can
differentiate between "I don't care, framework can decide" vs "I need
it to be 0". Put another way, there's no way to say "I don't care" if
you use variables. And by default drivers that don't really care (as
in, okay if it's set to INT_MAX) shouldn't have to do extra code/work.

Long story short, there's nothing wrong with get_bw(). If your
specific driver needs to optimize the calls to your RPMH hardware,
that should be hidden inside your driver.

Yeah, I get all that. I was mainly pointing out that sometimes there's a distinction between the available BW (get_bw) and the desired initial BW vote (get_initial_bw). I'm fine if we go with get_bw(), but our implementation may look a bit odd.


-Saravana




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