scx-upstream/scheds/c/scx_simple.bpf.c
Tejun Heo cf66e58118 Sync from kernel (670bdab6073)
And fix build breakage in scx_utils due to an enum type rename.
2024-04-29 09:58:19 -10:00

150 lines
4.1 KiB
C

/* SPDX-License-Identifier: GPL-2.0 */
/*
* A simple scheduler.
*
* By default, it operates as a simple global weighted vtime scheduler and can
* be switched to FIFO scheduling. It also demonstrates the following niceties.
*
* - Statistics tracking how many tasks are queued to local and global dsq's.
* - Termination notification for userspace.
*
* While very simple, this scheduler should work reasonably well on CPUs with a
* uniform L3 cache topology. While preemption is not implemented, the fact that
* the scheduling queue is shared across all CPUs means that whatever is at the
* front of the queue is likely to be executed fairly quickly given enough
* number of CPUs. The FIFO scheduling mode may be beneficial to some workloads
* but comes with the usual problems with FIFO scheduling where saturating
* threads can easily drown out interactive ones.
*
* Copyright (c) 2022 Meta Platforms, Inc. and affiliates.
* Copyright (c) 2022 Tejun Heo <tj@kernel.org>
* Copyright (c) 2022 David Vernet <dvernet@meta.com>
*/
#include <scx/common.bpf.h>
char _license[] SEC("license") = "GPL";
const volatile bool fifo_sched;
static u64 vtime_now;
UEI_DEFINE(uei);
#define SHARED_DSQ 0
struct {
__uint(type, BPF_MAP_TYPE_PERCPU_ARRAY);
__uint(key_size, sizeof(u32));
__uint(value_size, sizeof(u64));
__uint(max_entries, 2); /* [local, global] */
} stats SEC(".maps");
static void stat_inc(u32 idx)
{
u64 *cnt_p = bpf_map_lookup_elem(&stats, &idx);
if (cnt_p)
(*cnt_p)++;
}
static inline bool vtime_before(u64 a, u64 b)
{
return (s64)(a - b) < 0;
}
s32 BPF_STRUCT_OPS(simple_select_cpu, struct task_struct *p, s32 prev_cpu, u64 wake_flags)
{
bool is_idle = false;
s32 cpu;
cpu = scx_bpf_select_cpu_dfl(p, prev_cpu, wake_flags, &is_idle);
if (is_idle) {
stat_inc(0); /* count local queueing */
scx_bpf_dispatch(p, SCX_DSQ_LOCAL, SCX_SLICE_DFL, 0);
}
return cpu;
}
void BPF_STRUCT_OPS(simple_enqueue, struct task_struct *p, u64 enq_flags)
{
stat_inc(1); /* count global queueing */
if (fifo_sched) {
scx_bpf_dispatch(p, SHARED_DSQ, SCX_SLICE_DFL, enq_flags);
} else {
u64 vtime = p->scx.dsq_vtime;
/*
* Limit the amount of budget that an idling task can accumulate
* to one slice.
*/
if (vtime_before(vtime, vtime_now - SCX_SLICE_DFL))
vtime = vtime_now - SCX_SLICE_DFL;
scx_bpf_dispatch_vtime(p, SHARED_DSQ, SCX_SLICE_DFL, vtime,
enq_flags);
}
}
void BPF_STRUCT_OPS(simple_dispatch, s32 cpu, struct task_struct *prev)
{
scx_bpf_consume(SHARED_DSQ);
}
void BPF_STRUCT_OPS(simple_running, struct task_struct *p)
{
if (fifo_sched)
return;
/*
* Global vtime always progresses forward as tasks start executing. The
* test and update can be performed concurrently from multiple CPUs and
* thus racy. Any error should be contained and temporary. Let's just
* live with it.
*/
if (vtime_before(vtime_now, p->scx.dsq_vtime))
vtime_now = p->scx.dsq_vtime;
}
void BPF_STRUCT_OPS(simple_stopping, struct task_struct *p, bool runnable)
{
if (fifo_sched)
return;
/*
* Scale the execution time by the inverse of the weight and charge.
*
* Note that the default yield implementation yields by setting
* @p->scx.slice to zero and the following would treat the yielding task
* as if it has consumed all its slice. If this penalizes yielding tasks
* too much, determine the execution time by taking explicit timestamps
* instead of depending on @p->scx.slice.
*/
p->scx.dsq_vtime += (SCX_SLICE_DFL - p->scx.slice) * 100 / p->scx.weight;
}
void BPF_STRUCT_OPS(simple_enable, struct task_struct *p)
{
p->scx.dsq_vtime = vtime_now;
}
s32 BPF_STRUCT_OPS_SLEEPABLE(simple_init)
{
return scx_bpf_create_dsq(SHARED_DSQ, -1);
}
void BPF_STRUCT_OPS(simple_exit, struct scx_exit_info *ei)
{
UEI_RECORD(uei, ei);
}
SCX_OPS_DEFINE(simple_ops,
.select_cpu = (void *)simple_select_cpu,
.enqueue = (void *)simple_enqueue,
.dispatch = (void *)simple_dispatch,
.running = (void *)simple_running,
.stopping = (void *)simple_stopping,
.enable = (void *)simple_enable,
.init = (void *)simple_init,
.exit = (void *)simple_exit,
.name = "simple");