On Tue, Nov 07, 2023 at 06:20:20AM -0500, Faizal Rahim wrote:
Retrieve adjusted cycle_time and interval values through new APIs.
Note that in some cases where the original values are required,
such as in dump_schedule() and setup_first_end_time(), direct calls
to cycle_time and interval are retained without using the new APIs.
Added a new field, correction_active, in the sched_entry struct to
determine the entry's correction state. This field is required due
to specific flow like find_entry_to_transmit() -> get_interval_end_time()
which retrieves the interval for each entry. During positive cycle
time correction, it's known that the last entry interval requires
correction. However, for negative correction, the affected entry
is unknown, which is why this new field is necessary.
I agree with the motivation, but I'm not sure if the chosen solution is
correct.
static u32 get_interval(const struct sched_entry *entry,
const struct sched_gate_list *oper)
{
if (entry->correction_active)
return entry->interval + oper->cycle_time_correction;
return entry->interval;
}
What if the schedule looks like this:
sched-entry S 0x01 125000000
sched-entry S 0x02 125000000
sched-entry S 0x04 125000000
sched-entry S 0x08 125000000
sched-entry S 0x10 125000000
sched-entry S 0x20 125000000
sched-entry S 0x40 125000000
sched-entry S 0x80 125000000
and the calculated cycle_time_correction is -200000000? That would
eliminate the entire last sched-entry (0x80), and the previous one
(0x40) would run for just 75000000 ns. But your calculation would say
that its interval is −75000000 ns (actually reported as an u32 positive
integer, so it would be a completely bogus value).
So not only is the affected entry unknown, but also the amount of cycle
time correction that applies to it is unknown.
I'm looking at where we need get_interval(), and it's from:
taprio_enqueue_one()
-> is_valid_interval()
-> find_entry_to_transmit()
-> get_interval_end_time()
-> get_packet_txtime()
-> find_entry_to_transmit()
I admit it's a part of taprio which I don't understand too well. Why do
we perform such complex calculations in get_interval_end_time() when we
should have struct sched_entry :: end_time precomputed and available for
this purpose (although it was primarily inteded for advance_sched() and
not for enqueue())?
Vinicius, do you know?