From: Andrea Righi <arighi@nvidia.com>
To: Tejun Heo <tj@kernel.org>, David Vernet <void@manifault.com>,
Changwoo Min <changwoo@igalia.com>,
John Stultz <jstultz@google.com>
Cc: Ingo Molnar <mingo@redhat.com>,
Peter Zijlstra <peterz@infradead.org>,
Juri Lelli <juri.lelli@redhat.com>,
Vincent Guittot <vincent.guittot@linaro.org>,
Dietmar Eggemann <dietmar.eggemann@arm.com>,
Steven Rostedt <rostedt@goodmis.org>,
Ben Segall <bsegall@google.com>, Mel Gorman <mgorman@suse.de>,
Valentin Schneider <vschneid@redhat.com>,
K Prateek Nayak <kprateek.nayak@amd.com>,
Christian Loehle <christian.loehle@arm.com>,
David Dai <david.dai@linux.dev>, Koba Ko <kobak@nvidia.com>,
Aiqun Yu <aiqun.yu@oss.qualcomm.com>,
Shuah Khan <shuah@kernel.org>,
sched-ext@lists.linux.dev, linux-kernel@vger.kernel.org
Subject: [PATCH 08/11] sched_ext: Delegate proxy donor admission to BPF schedulers
Date: Thu, 16 Jul 2026 15:20:43 +0200 [thread overview]
Message-ID: <20260716132229.61603-9-arighi@nvidia.com> (raw)
In-Reply-To: <20260716132229.61603-1-arighi@nvidia.com>
Proxy execution keeps a blocked donor runnable so its scheduling context
can execute the mutex owner. Dispatching sched_ext donors on a local
DSQ bypasses the BPF scheduler ordering policy and can give donors
more CPU priority than intended to perform the proxy execution handoff.
Add SCX_OPS_ENQ_BLOCKED as an explicit proxy execution capability. Tasks
owned by schedulers without the flag block normally. Schedulers with the
flag receive blocked donors through ops.enqueue() with SCX_ENQ_BLOCKED
set in enq_flags and can apply their own admission policy.
From a high-level perspective, the resulting flow for a BPF scheduler
with SCX_OPS_ENQ_BLOCKED is:
D ------ blocked on -----> M ------ owned by -----> O
[donor] [mutex] [owner]
|
| ops.enqueue(D, SCX_ENQ_BLOCKED)
| BPF dispatches D to CPUi
v
+-----------------+
| CPUi local DSQ |
+-------+---------+
|
| pick_next_task() selects D
v
+-----------------+
| proxy exec | move D to O's rq
+-------+---------+
|
| run O using D's scheduling context
v
rq->curr = O
rq->donor = D
|
| O releases M
v
+-----------------+
| proxy exec | return D to CPUi via wakeup
+-----------------+
A proxy migration preserves the donor's wake_cpu while moving its
scheduling context to the owner's rq, so task_cpu() differs from wake_cpu
until the donor wakes. Prevent BPF-directed migrations from pulling a
blocked donor off this proxy rq. Otherwise each blocked re-enqueue may
move the donor back to its callback rq only for proxy execution to move
it to the owner again.
Scheduler ownership can change after a donor has already blocked. Since
sched_change preserves queued state, handle both iterator-driven moves
to root or sub-schedulers and sched_setscheduler() transitions into EXT.
Before entering a scheduler without the flag, deactivate the retained
donor. It remains on the mutex wait path and wakes normally when the
mutex becomes available.
The global sched_ext enable state can change while __schedule() holds
the runqueue lock. Once an EXT task has an assigned scheduler, consult
it directly so the task cannot retain a donor during the transition
unless the scheduler opted in. Tasks without an assigned scheduler keep
the generic proxy execution behavior.
The preparation helpers require and assert that p->pi_lock and p's rq
lock are held before updating rq state.
The donor starts associated with its original CPU. A BPF scheduler may
dispatch it directly into that CPU local DSQ to let the core resolve the
mutex owner and execute it with the donor scheduling context.
A normal sleeper also has p->is_blocked set until after
wakeup_preempt(). Exclude full wakeup activations from SCX_ENQ_BLOCKED
and carry a transient task flag from enqueue_task_scx() to
wakeup_preempt_scx(). Retained donor wakeups skip enqueue_task_scx(), so
they remain distinguishable without changing core scheduler wake flags.
Reschedule a retained donor when its mutex wakes it so ops.dispatch()
can reconsider the now-unblocked task. Make SCX_OPS_ENQ_BLOCKED
override the exiting and migration-disabled enqueue fallbacks so
opted-in schedulers receive all eligible donor requests.
Signed-off-by: Andrea Righi <arighi@nvidia.com>
---
include/linux/sched/ext.h | 1 +
kernel/sched/ext/ext.c | 109 ++++++++++++++----
kernel/sched/ext/internal.h | 23 +++-
kernel/sched/ext/sub.c | 12 +-
tools/sched_ext/include/scx/compat.h | 1 +
.../sched_ext/include/scx/enum_defs.autogen.h | 1 +
.../sched_ext/include/scx/enums.autogen.bpf.h | 3 +
tools/sched_ext/include/scx/enums.autogen.h | 1 +
8 files changed, 127 insertions(+), 24 deletions(-)
diff --git a/include/linux/sched/ext.h b/include/linux/sched/ext.h
index 5da12d6562b8e..82d47a046a4f5 100644
--- a/include/linux/sched/ext.h
+++ b/include/linux/sched/ext.h
@@ -104,6 +104,7 @@ enum scx_ent_flags {
SCX_TASK_IMMED = 1 << 5, /* task is on local DSQ with %SCX_ENQ_IMMED */
SCX_TASK_RUN_TRACKED = 1 << 6, /* task is in an ops.running()/stopping() session */
+ SCX_TASK_ENQ_WAKEUP = 1 << 7, /* wakeup enqueue awaiting wakeup_preempt() */
/*
* Bits 8 to 10 are used to carry task state:
diff --git a/kernel/sched/ext/ext.c b/kernel/sched/ext/ext.c
index 02e3ea7add16f..3456be01d5548 100644
--- a/kernel/sched/ext/ext.c
+++ b/kernel/sched/ext/ext.c
@@ -26,7 +26,18 @@ DEFINE_RAW_SPINLOCK(scx_sched_lock);
bool scx_allow_proxy_exec(const struct task_struct *p)
{
- return p->sched_class != &ext_sched_class;
+ struct scx_sched *sch;
+
+ if (p->sched_class != &ext_sched_class)
+ return true;
+
+ /*
+ * scx_enabled() may change while __schedule() holds only @p's rq lock.
+ * Once @p is associated with a scheduler, use that scheduler's policy
+ * even while the global enable state is transitioning.
+ */
+ sch = scx_task_sched(p);
+ return !sch || (sch->ops.flags & SCX_OPS_ENQ_BLOCKED);
}
/*
@@ -36,6 +47,8 @@ bool scx_allow_proxy_exec(const struct task_struct *p)
void scx_prepare_setscheduler(struct task_struct *p,
const struct sched_class *next_class)
{
+ struct scx_sched *sch;
+
lockdep_assert_held(&p->pi_lock);
lockdep_assert_rq_held(task_rq(p));
@@ -47,7 +60,13 @@ void scx_prepare_setscheduler(struct task_struct *p,
if (p->sched_class == next_class || next_class != &ext_sched_class)
return;
- sched_proxy_block_task(task_rq(p), p);
+ sch = scx_task_sched(p);
+ if (WARN_ON_ONCE(!sch))
+ return;
+
+ /* Block retained donors that the incoming scheduler cannot manage. */
+ if (!(sch->ops.flags & SCX_OPS_ENQ_BLOCKED))
+ sched_proxy_block_task(task_rq(p), p);
}
/*
@@ -55,13 +74,16 @@ void scx_prepare_setscheduler(struct task_struct *p,
* sched_change_begin(). The caller must pass DEQUEUE_NOCLOCK so the rq clock
* is updated only once.
*/
-static void scx_prepare_task_sched_change(struct task_struct *p)
+void scx_prepare_task_sched_change(struct task_struct *p, struct scx_sched *sch)
{
lockdep_assert_held(&p->pi_lock);
lockdep_assert_rq_held(task_rq(p));
update_rq_clock(task_rq(p));
- sched_proxy_block_task(task_rq(p), p);
+
+ /* Block retained donors that the incoming scheduler cannot manage. */
+ if (!(sch->ops.flags & SCX_OPS_ENQ_BLOCKED))
+ sched_proxy_block_task(task_rq(p), p);
}
/*
@@ -1914,6 +1936,7 @@ void scx_do_enqueue_task(struct rq *rq, struct task_struct *p, u64 enq_flags,
struct scx_sched *sch = scx_task_sched(p);
struct task_struct **ddsp_taskp;
struct scx_dispatch_q *dsq;
+ bool enq_blocked;
unsigned long qseq;
WARN_ON_ONCE(!(p->scx.flags & SCX_TASK_QUEUED));
@@ -1946,15 +1969,22 @@ void scx_do_enqueue_task(struct rq *rq, struct task_struct *p, u64 enq_flags,
if (p->scx.ddsp_dsq_id != SCX_DSQ_INVALID)
goto direct;
+ /* %SCX_OPS_ENQ_BLOCKED takes precedence over the fallbacks below. */
+ enq_blocked = (sch->ops.flags & SCX_OPS_ENQ_BLOCKED) &&
+ p->is_blocked && !(enq_flags & SCX_ENQ_WAKEUP);
+ if (enq_blocked)
+ enq_flags |= SCX_ENQ_BLOCKED;
+
/* see %SCX_OPS_ENQ_EXITING */
- if (!(sch->ops.flags & SCX_OPS_ENQ_EXITING) &&
+ if (!enq_blocked && !(sch->ops.flags & SCX_OPS_ENQ_EXITING) &&
unlikely(p->flags & PF_EXITING)) {
__scx_add_event(sch, SCX_EV_ENQ_SKIP_EXITING, 1);
goto local;
}
/* see %SCX_OPS_ENQ_MIGRATION_DISABLED */
- if (!(sch->ops.flags & SCX_OPS_ENQ_MIGRATION_DISABLED) &&
+ if (!enq_blocked &&
+ !(sch->ops.flags & SCX_OPS_ENQ_MIGRATION_DISABLED) &&
is_migration_disabled(p)) {
__scx_add_event(sch, SCX_EV_ENQ_SKIP_MIGRATION_DISABLED, 1);
goto local;
@@ -2062,8 +2092,16 @@ static void enqueue_task_scx(struct rq *rq, struct task_struct *p, int core_enq_
int sticky_cpu = p->scx.sticky_cpu;
u64 enq_flags = core_enq_flags | rq->scx.remote_activate_enq_flags;
- if (enq_flags & ENQUEUE_WAKEUP)
+ /*
+ * p->is_blocked is cleared after wakeup_preempt(), so remember whether
+ * this is a full wakeup activation until that callback is reached.
+ */
+ if (enq_flags & ENQUEUE_WAKEUP) {
rq->scx.flags |= SCX_RQ_IN_WAKEUP;
+ p->scx.flags |= SCX_TASK_ENQ_WAKEUP;
+ } else {
+ p->scx.flags &= ~SCX_TASK_ENQ_WAKEUP;
+ }
/*
* Restoring a running task will be immediately followed by
@@ -2268,11 +2306,24 @@ static void wakeup_preempt_scx(struct rq *rq, struct task_struct *p, int wake_fl
{
/*
* Preemption between SCX tasks is implemented by resetting the victim
- * task's slice to 0 and triggering reschedule on the target CPU.
- * Nothing to do.
+ * task's slice to 0 and triggering reschedule on the target CPU. A
+ * mutex-blocked task is kept queued for proxy execution, so its wakeup
+ * doesn't go through enqueue_task_scx(). If the BPF scheduler manages
+ * blocked donors, reschedule explicitly so that it can reconsider a
+ * donor it declined to dispatch while blocked.
*/
- if (p->sched_class == &ext_sched_class)
+ if (p->sched_class == &ext_sched_class) {
+ bool enq_wakeup = p->scx.flags & SCX_TASK_ENQ_WAKEUP;
+
+ p->scx.flags &= ~SCX_TASK_ENQ_WAKEUP;
+ if (!enq_wakeup && p->is_blocked) {
+ struct scx_sched *sch = scx_task_sched(p);
+
+ if (sch && (sch->ops.flags & SCX_OPS_ENQ_BLOCKED))
+ resched_curr(rq);
+ }
return;
+ }
/*
* Getting preempted by a higher-priority class. Reenqueue IMMED tasks.
@@ -2387,6 +2438,19 @@ static bool task_can_run_on_remote_rq(struct scx_sched *sch,
WARN_ON_ONCE(task_cpu(p) == cpu);
+ /*
+ * A blocked donor may be moved normally to select a new callback rq.
+ * set_task_cpu() updates wake_cpu and makes the destination rq its new
+ * callback home.
+ *
+ * proxy_set_task_cpu() instead preserves wake_cpu when moving a donor to
+ * its lock owner's CPU. Keep such a donor on the proxy rq until it wakes;
+ * otherwise normal BPF placement may repeatedly pull it back to its
+ * callback rq only for proxy execution to move it to the owner again.
+ */
+ if (p->is_blocked && task_cpu(p) != p->wake_cpu)
+ return false;
+
/*
* If @p has migration disabled, @p->cpus_ptr is updated to contain only
* the pinned CPU in migrate_disable_switch() while @p is being switched
@@ -2957,6 +3021,8 @@ static void set_next_task_scx(struct rq *rq, struct task_struct *p, bool first)
struct scx_sched *sch = scx_task_sched(p);
bool can_stop_tick;
+ p->scx.flags &= ~SCX_TASK_ENQ_WAKEUP;
+
if (p->scx.flags & SCX_TASK_QUEUED) {
/*
* Core-sched might decide to execute @p before it is
@@ -3098,18 +3164,16 @@ static void put_prev_task_scx(struct rq *rq, struct task_struct *p,
set_task_runnable(rq, p);
/*
- * Mutex-blocked donors stay queued on the runqueue under proxy
- * execution, but the donor never runs as itself, proxy-exec
- * walks the blocked_on chain on the next __schedule() and runs
- * the lock owner in its place.
+ * Mutex-blocked donors only stay queued when their BPF scheduler
+ * enables %SCX_OPS_ENQ_BLOCKED. The rq lock has remained held since
+ * scx_allow_proxy_exec(), so @p's scheduler association cannot have
+ * changed and @sch must be non-NULL with the flag set.
*
- * Put the donor on the local DSQ directly so pick_next_task()
- * can still see it. find_proxy_task() will either run the chain
- * owner or deactivate the donor so the wakeup path can return it
- * and let BPF make a new dispatch decision once it is unblocked.
+ * Delegate admission to the BPF scheduler.
*/
if (p->is_blocked) {
- scx_dispatch_enqueue(sch, rq, &rq->scx.local_dsq, p, 0);
+ WARN_ON_ONCE(!(sch->ops.flags & SCX_OPS_ENQ_BLOCKED));
+ scx_do_enqueue_task(rq, p, 0, -1);
goto switch_class;
}
@@ -7056,6 +7120,11 @@ int scx_validate_ops(struct scx_sched *sch, const struct sched_ext_ops *ops)
return -EINVAL;
}
+ if ((ops->flags & SCX_OPS_ENQ_BLOCKED) && !ops->enqueue) {
+ scx_error(sch, "SCX_OPS_ENQ_BLOCKED requires ops.enqueue() to be implemented");
+ return -EINVAL;
+ }
+
/*
* SCX_OPS_TID_TO_TASK is enabled by the root scheduler. A sub-sched
* may set it to declare a dependency; reject if the root hasn't
@@ -7438,7 +7507,7 @@ static void scx_root_enable_workfn(struct kthread_work *work)
if (old_class != new_class)
queue_flags |= DEQUEUE_CLASS;
if (new_class == &ext_sched_class) {
- scx_prepare_task_sched_change(p);
+ scx_prepare_task_sched_change(p, sch);
queue_flags |= DEQUEUE_NOCLOCK;
}
diff --git a/kernel/sched/ext/internal.h b/kernel/sched/ext/internal.h
index 4f4130f0d1211..5cbc2808cf365 100644
--- a/kernel/sched/ext/internal.h
+++ b/kernel/sched/ext/internal.h
@@ -213,6 +213,19 @@ enum scx_ops_flags {
*/
SCX_OPS_TID_TO_TASK = 1LLU << 8,
+ /*
+ * If set, mutex-blocked tasks remain runnable as proxy donors and are
+ * passed to ops.enqueue() with %SCX_ENQ_BLOCKED. The BPF scheduler controls
+ * when donors are dispatched and whether they should preempt other work.
+ *
+ * If clear, mutex-blocked tasks are removed from the runqueue normally
+ * and cannot donate their scheduling context through proxy execution.
+ *
+ * For blocked donors, this flag takes precedence over
+ * %SCX_OPS_ENQ_EXITING and %SCX_OPS_ENQ_MIGRATION_DISABLED.
+ */
+ SCX_OPS_ENQ_BLOCKED = 1LLU << 9,
+
SCX_OPS_ALL_FLAGS = SCX_OPS_KEEP_BUILTIN_IDLE |
SCX_OPS_ENQ_LAST |
SCX_OPS_ENQ_EXITING |
@@ -221,7 +234,8 @@ enum scx_ops_flags {
SCX_OPS_SWITCH_PARTIAL |
SCX_OPS_BUILTIN_IDLE_PER_NODE |
SCX_OPS_ALWAYS_ENQ_IMMED |
- SCX_OPS_TID_TO_TASK,
+ SCX_OPS_TID_TO_TASK |
+ SCX_OPS_ENQ_BLOCKED,
/* high 8 bits are internal, don't include in SCX_OPS_ALL_FLAGS */
__SCX_OPS_INTERNAL_MASK = 0xffLLU << 56,
@@ -1614,6 +1628,12 @@ enum scx_enq_flags {
*/
SCX_ENQ_LAST = 1LLU << 41,
+ /*
+ * The task is blocked on a mutex and is being kept runnable as a proxy
+ * donor. Only passed to ops.enqueue() when %SCX_OPS_ENQ_BLOCKED is set.
+ */
+ SCX_ENQ_BLOCKED = 1LLU << 42,
+
/* high 8 bits are internal */
__SCX_ENQ_INTERNAL_MASK = 0xffLLU << 56,
@@ -1909,6 +1929,7 @@ void scx_task_iter_start(struct scx_task_iter *iter, struct cgroup *cgrp);
void scx_task_iter_unlock(struct scx_task_iter *iter);
void scx_task_iter_stop(struct scx_task_iter *iter);
struct task_struct *scx_task_iter_next_locked(struct scx_task_iter *iter);
+void scx_prepare_task_sched_change(struct task_struct *p, struct scx_sched *sch);
void scx_dispatch_dequeue(struct rq *rq, struct task_struct *p);
void scx_do_enqueue_task(struct rq *rq, struct task_struct *p, u64 enq_flags,
int sticky_cpu);
diff --git a/kernel/sched/ext/sub.c b/kernel/sched/ext/sub.c
index 3cc6d2633f73c..b1c464061d394 100644
--- a/kernel/sched/ext/sub.c
+++ b/kernel/sched/ext/sub.c
@@ -780,7 +780,9 @@ static void scx_fail_parent(struct scx_sched *sch,
if (scx_task_on_sched(parent, p))
continue;
- scoped_guard (sched_change, p, DEQUEUE_SAVE | DEQUEUE_MOVE) {
+ scx_prepare_task_sched_change(p, parent);
+ scoped_guard (sched_change, p, DEQUEUE_SAVE | DEQUEUE_MOVE |
+ DEQUEUE_NOCLOCK) {
scx_disable_and_exit_task(sch, p);
scx_set_task_sched(p, parent);
}
@@ -872,7 +874,9 @@ void scx_sub_disable(struct scx_sched *sch)
continue;
}
- scoped_guard (sched_change, p, DEQUEUE_SAVE | DEQUEUE_MOVE) {
+ scx_prepare_task_sched_change(p, parent);
+ scoped_guard (sched_change, p, DEQUEUE_SAVE | DEQUEUE_MOVE |
+ DEQUEUE_NOCLOCK) {
/*
* $p is initialized for $parent and still attached to
* @sch. Disable and exit for @sch, switch over to
@@ -1207,7 +1211,9 @@ void scx_sub_enable_workfn(struct kthread_work *work)
if (!(p->scx.flags & SCX_TASK_SUB_INIT))
continue;
- scoped_guard (sched_change, p, DEQUEUE_SAVE | DEQUEUE_MOVE) {
+ scx_prepare_task_sched_change(p, sch);
+ scoped_guard (sched_change, p, DEQUEUE_SAVE | DEQUEUE_MOVE |
+ DEQUEUE_NOCLOCK) {
/*
* $p must be either READY or ENABLED. If ENABLED,
* __scx_disabled_and_exit_task() first disables and
diff --git a/tools/sched_ext/include/scx/compat.h b/tools/sched_ext/include/scx/compat.h
index 23d9ef3e4c9d2..8d5606e465080 100644
--- a/tools/sched_ext/include/scx/compat.h
+++ b/tools/sched_ext/include/scx/compat.h
@@ -117,6 +117,7 @@ static inline bool __COMPAT_struct_has_field(const char *type, const char *field
#define SCX_OPS_ALLOW_QUEUED_WAKEUP SCX_OPS_FLAG(SCX_OPS_ALLOW_QUEUED_WAKEUP)
#define SCX_OPS_BUILTIN_IDLE_PER_NODE SCX_OPS_FLAG(SCX_OPS_BUILTIN_IDLE_PER_NODE)
#define SCX_OPS_ALWAYS_ENQ_IMMED SCX_OPS_FLAG(SCX_OPS_ALWAYS_ENQ_IMMED)
+#define SCX_OPS_ENQ_BLOCKED SCX_OPS_FLAG(SCX_OPS_ENQ_BLOCKED)
#define SCX_PICK_IDLE_FLAG(name) __COMPAT_ENUM_OR_ZERO("scx_pick_idle_cpu_flags", #name)
diff --git a/tools/sched_ext/include/scx/enum_defs.autogen.h b/tools/sched_ext/include/scx/enum_defs.autogen.h
index da4b459820fdd..79b31eb7db7cb 100644
--- a/tools/sched_ext/include/scx/enum_defs.autogen.h
+++ b/tools/sched_ext/include/scx/enum_defs.autogen.h
@@ -55,6 +55,7 @@
#define HAVE_SCX_ENQ_IMMED
#define HAVE_SCX_ENQ_REENQ
#define HAVE_SCX_ENQ_LAST
+#define HAVE_SCX_ENQ_BLOCKED
#define HAVE___SCX_ENQ_INTERNAL_MASK
#define HAVE_SCX_ENQ_CLEAR_OPSS
#define HAVE_SCX_ENQ_DSQ_PRIQ
diff --git a/tools/sched_ext/include/scx/enums.autogen.bpf.h b/tools/sched_ext/include/scx/enums.autogen.bpf.h
index dafccbb6b69d2..7efe7b9346b49 100644
--- a/tools/sched_ext/include/scx/enums.autogen.bpf.h
+++ b/tools/sched_ext/include/scx/enums.autogen.bpf.h
@@ -130,6 +130,9 @@ const volatile u64 __SCX_ENQ_REENQ __weak;
const volatile u64 __SCX_ENQ_LAST __weak;
#define SCX_ENQ_LAST __SCX_ENQ_LAST
+const volatile u64 __SCX_ENQ_BLOCKED __weak;
+#define SCX_ENQ_BLOCKED __SCX_ENQ_BLOCKED
+
const volatile u64 __SCX_ENQ_CLEAR_OPSS __weak;
#define SCX_ENQ_CLEAR_OPSS __SCX_ENQ_CLEAR_OPSS
diff --git a/tools/sched_ext/include/scx/enums.autogen.h b/tools/sched_ext/include/scx/enums.autogen.h
index bbd4901f4fce3..f8fbeb7fbf95b 100644
--- a/tools/sched_ext/include/scx/enums.autogen.h
+++ b/tools/sched_ext/include/scx/enums.autogen.h
@@ -47,6 +47,7 @@
SCX_ENUM_SET(skel, scx_enq_flags, SCX_ENQ_IMMED); \
SCX_ENUM_SET(skel, scx_enq_flags, SCX_ENQ_REENQ); \
SCX_ENUM_SET(skel, scx_enq_flags, SCX_ENQ_LAST); \
+ SCX_ENUM_SET(skel, scx_enq_flags, SCX_ENQ_BLOCKED); \
SCX_ENUM_SET(skel, scx_enq_flags, SCX_ENQ_CLEAR_OPSS); \
SCX_ENUM_SET(skel, scx_enq_flags, SCX_ENQ_DSQ_PRIQ); \
SCX_ENUM_SET(skel, scx_deq_flags, SCX_DEQ_SCHED_CHANGE); \
--
2.55.0
next prev parent reply other threads:[~2026-07-16 13:23 UTC|newest]
Thread overview: 19+ messages / expand[flat|nested] mbox.gz Atom feed top
2026-07-16 13:20 [PATCHSET v7 sched_ext/for-7.3] sched: Make proxy execution compatible with sched_ext Andrea Righi
2026-07-16 13:20 ` [PATCH 01/11] sched: Make NOHZ CFS bandwidth checks follow proxy donor Andrea Righi
2026-07-18 3:11 ` John Stultz
2026-07-16 13:20 ` [PATCH 02/11] sched: Add helper to block retained proxy donors Andrea Righi
2026-07-16 13:20 ` [PATCH 03/11] sched_ext: Block proxy donors across scheduler transitions Andrea Righi
2026-07-18 3:16 ` John Stultz
2026-07-16 13:20 ` [PATCH 04/11] sched_ext: Fix ops.running/stopping() pairing for proxy-exec donors Andrea Righi
2026-07-16 13:20 ` [PATCH 05/11] sched_ext: Fix TOCTOU race in consume_remote_task() Andrea Righi
2026-07-16 21:29 ` Tejun Heo
2026-07-16 21:38 ` Tejun Heo
2026-07-17 6:35 ` Andrea Righi
2026-07-16 13:20 ` [PATCH 06/11] sched_ext: Split curr|donor references properly Andrea Righi
2026-07-16 13:20 ` [PATCH 07/11] sched_ext: Handle blocked donor migration with proxy execution Andrea Righi
2026-07-16 13:20 ` Andrea Righi [this message]
2026-07-16 13:20 ` [PATCH 09/11] sched_ext: Add selftest for blocked donor admission Andrea Righi
2026-07-16 13:20 ` [PATCH 10/11] sched_ext: scx_qmap: Add proxy execution support Andrea Righi
2026-07-18 2:28 ` John Stultz
2026-07-16 13:20 ` [PATCH 11/11] sched: Allow enabling proxy exec with sched_ext Andrea Righi
-- strict thread matches above, loose matches on Subject: below --
2026-07-15 20:54 [PATCHSET v6 sched_ext/for-7.3] sched: Make proxy execution compatible " Andrea Righi
2026-07-15 20:54 ` [PATCH 08/11] sched_ext: Delegate proxy donor admission to BPF schedulers Andrea Righi
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