[<prev] [next>] [<thread-prev] [thread-next>] [day] [month] [year] [list]
Message-Id: <20211121212040.8649-5-posk@google.com>
Date: Sun, 21 Nov 2021 13:20:38 -0800
From: Peter Oskolkov <posk@...k.io>
To: Peter Zijlstra <peterz@...radead.org>,
Ingo Molnar <mingo@...hat.com>,
Thomas Gleixner <tglx@...utronix.de>,
Andrew Morton <akpm@...ux-foundation.org>,
Dave Hansen <dave.hansen@...ux.intel.com>,
Andy Lutomirski <luto@...nel.org>, linux-mm@...ck.org,
linux-kernel@...r.kernel.org, linux-api@...r.kernel.org
Cc: Paul Turner <pjt@...gle.com>, Ben Segall <bsegall@...gle.com>,
Peter Oskolkov <posk@...gle.com>,
Peter Oskolkov <posk@...k.io>,
Andrei Vagin <avagin@...gle.com>, Jann Horn <jannh@...gle.com>,
Thierry Delisle <tdelisle@...terloo.ca>
Subject: [PATCH v0.9 4/6] sched/umcg, lib/umcg: implement libumcg
Implement libumcg in tools/lib/umcg. Define higher-level UMCG
API that hides kernel-level UMCG API intricacies.
As a higher-level API, libumcg makes subtle changes to server/worker
interactions, compared to the kernel UMCG API, and introduces
the following new concepts:
- UMCG Group: a collection of servers and workers in a process
that can interact with each other; UMCG groups are useful to
partition servers and workers within a process in order to, for
example, affine work to specific NUMA nodes;
- UMCG basic tasks: these are UMCG servers, from the kernel point
of view; they do not interact with UMCG workers and thus
do not need in UMCG groups; used for cooperative wait/wake/swap
operations.
The main difference of server/worker interaction in libumcg
vs the kernel-side UMCG API is that a wakeup can be queued:
if umcg_wake() is called on a RUNNING UMCG task, the fact is
recorded (in the userspace), and when the task calls umcg_wait()
or umcg_swap(), the wakeup is consumed and the task is not
marked IDLE.
Libumcg exports the following API:
umcg_enabled()
umcg_get_utid()
umcg_set_task_tag()
umcg_get_task_tag()
umcg_create_group()
umcg_destroy_group()
umcg_register_basic_task()
umcg_register_worker()
umcg_register_server()
umcg_unregister_task()
umcg_wait()
umcg_wake()
umcg_swap()
umcg_get_idle_worker()
umcg_run_worker()
umcg_preempt_worker()
umcg_get_time_ns()
See tools/lib/umcg/libumcg.txt for details.
Notes:
- this is still somewhat work-in-progress: while the kernel side
code has been more or less stable over the last couple of months,
the userspace side of things is less so;
- while libumcg is intended to be the main/primary/only direct user
of the kernel UMCG API, at the moment the implementation is more
geared more towards testing and correctness than live production
usage, with a lot of asserts and similar development helpers;
- I have a number of umcg selftests that I plan to clean up and
post shortly.
Signed-off-by: Peter Oskolkov <posk@...gle.com>
---
tools/lib/umcg/.gitignore | 4 +
tools/lib/umcg/Makefile | 11 +
tools/lib/umcg/libumcg.c | 1201 +++++++++++++++++++++++++++++++++++++
tools/lib/umcg/libumcg.h | 299 +++++++++
4 files changed, 1515 insertions(+)
create mode 100644 tools/lib/umcg/.gitignore
create mode 100644 tools/lib/umcg/Makefile
create mode 100644 tools/lib/umcg/libumcg.c
create mode 100644 tools/lib/umcg/libumcg.h
diff --git a/tools/lib/umcg/.gitignore b/tools/lib/umcg/.gitignore
new file mode 100644
index 000000000000..ea55ae666041
--- /dev/null
+++ b/tools/lib/umcg/.gitignore
@@ -0,0 +1,4 @@
+PDX-License-Identifier: GPL-2.0-only
+libumcg.a
+libumcg.o
+
diff --git a/tools/lib/umcg/Makefile b/tools/lib/umcg/Makefile
new file mode 100644
index 000000000000..ea4439d44917
--- /dev/null
+++ b/tools/lib/umcg/Makefile
@@ -0,0 +1,11 @@
+# SPDX-License-Identifier: GPL-2.0
+
+CFLAGS += -g -I../../include/ -I../../../usr/include/
+
+libumcg.a: libumcg.o
+ ar rc libumcg.a libumcg.o
+
+libumcg.o: libumcg.c
+
+clean :
+ rm libumcg.a libumcg.o
diff --git a/tools/lib/umcg/libumcg.c b/tools/lib/umcg/libumcg.c
new file mode 100644
index 000000000000..b5317024fc0d
--- /dev/null
+++ b/tools/lib/umcg/libumcg.c
@@ -0,0 +1,1201 @@
+// SPDX-License-Identifier: GPL-2.0
+#define _GNU_SOURCE
+#include "libumcg.h"
+
+#include <assert.h>
+#include <errno.h>
+#include <pthread.h>
+#include <signal.h>
+#include <stdatomic.h>
+#include <stdbool.h>
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <threads.h>
+#include <time.h>
+
+#include <linux/kernel.h>
+
+static int sys_umcg_ctl(uint32_t flags, struct umcg_task *umcg_task)
+{
+ return syscall(__NR_umcg_ctl, flags, umcg_task);
+}
+
+static int sys_umcg_wait(uint32_t flags, uint64_t abs_timeout)
+{
+ return syscall(__NR_umcg_wait, flags, abs_timeout);
+}
+
+bool umcg_enabled(void)
+{
+ int ret = sys_umcg_ctl(UMCG_CTL_REGISTER, NULL);
+
+ if (ret && errno == EINVAL)
+ return true;
+
+ return false;
+}
+
+uint64_t umcg_get_time_ns(void)
+{
+ struct timespec ts;
+
+ if (clock_gettime(CLOCK_REALTIME, &ts)) {
+ fprintf(stderr, "clock_gettime failed\n");
+ abort();
+ }
+
+ return ts.tv_sec * NSEC_PER_SEC + ts.tv_nsec;
+}
+
+struct umcg_task_tls;
+
+/**
+ * struct umcg_group - describes UMCG group.
+ *
+ * See tools/lib/umcg/libumcg.txt for detals.
+ */
+struct umcg_group {
+ /**
+ * @idle_workers_head: points to the kernel-side list of idle
+ * workers, i.e. the address of this field
+ * is passed to the kernel in
+ * struct umcg_task.idle_workers_ptr.
+ */
+ uint64_t idle_workers_head;
+
+ /**
+ * @nr_tasks: the number of tasks (servers and workers) registered
+ * in this group.
+ */
+ uint64_t nr_tasks;
+
+ /**
+ * @idle_worker_lock: protects @idle_workers below.
+ */
+ pthread_spinlock_t idle_worker_lock;
+
+ /**
+ * @idle_server_lock: protects @idle_servers below.
+ */
+ pthread_spinlock_t idle_server_lock;
+
+ /**
+ * @idle_workers: points to the userspace-side list of idle workers.
+ *
+ * When a server polls for an idle worker via umcg_poll_worker(),
+ * the server first consults @idle_workers; if the list is empty,
+ * the value of the variable is swapped with @idle_workers_head.
+ */
+ uint64_t *idle_workers;
+
+ /**
+ * @idle_servers: points to the userspace-side list of idle servers.
+ *
+ * When a server polls for an idle worker via umcg_poll_worker(),
+ * and none is available, the server is added to the list and blocks
+ * via sys_umcg_wait().
+ */
+ struct umcg_task_tls *idle_servers;
+
+ /**
+ * @idle_server_tid: the TID of one of the idle servers.
+ *
+ * The address of this field is passed to the kernel in
+ * struct umct_task.idle_server_tid_ptr.
+ */
+ uint32_t idle_server_tid;
+} __attribute((aligned(8)));
+
+/**
+ * struct umcg_task_tls - per thread struct used to identify/manage UMCG tasks
+ *
+ * Each UMCG task requires an instance of struct umcg_task passed to
+ * sys_umcg_ctl. This struct contains it, as well as several additional
+ * fields useful for the userspace UMCG API.
+ *
+ * The alignment is driven by the alignment of struct umcg_task.
+ */
+struct umcg_task_tls {
+ struct umcg_task umcg_task;
+ struct umcg_group *group; /* read only */
+ umcg_tid peer; /* server or worker or UMCG_NONE */
+ umcg_tid self; /* read only */
+ intptr_t tag;
+ pid_t tid; /* read only */
+ bool worker; /* read only */
+
+ struct umcg_task_tls *next; /* used in group->idle_servers */
+} __attribute((aligned(8 * sizeof(uint64_t))));
+
+static thread_local struct umcg_task_tls *umcg_task_tls;
+
+umcg_tid umcg_get_utid(void)
+{
+ return (umcg_tid)&umcg_task_tls;
+}
+
+static struct umcg_task_tls *utid_to_utls(umcg_tid utid)
+{
+ assert(utid != UMCG_NONE);
+ return *(struct umcg_task_tls **)utid;
+}
+
+uint64_t umcg_get_task_state(umcg_tid task)
+{
+ struct umcg_task_tls *utls = utid_to_utls(task);
+ uint64_t state;
+
+ if (!utls)
+ return UMCG_TASK_NONE;
+
+ state = atomic_load_explicit(&utls->umcg_task.state_ts, memory_order_acquire);
+ return state & UMCG_TASK_STATE_MASK_FULL;
+}
+
+/* Update the state variable, set new timestamp. */
+static bool umcg_update_state(uint64_t *state, uint64_t *prev, uint64_t next)
+{
+ uint64_t prev_ts = (*prev) >> (64 - UMCG_STATE_TIMESTAMP_BITS);
+ struct timespec now;
+ uint64_t next_ts;
+ int res;
+
+ /*
+ * clock_gettime(CLOCK_MONOTONIC, ...) takes less than 20ns on a
+ * typical Intel processor on average, even when run concurrently,
+ * so the overhead is low enough for most applications.
+ *
+ * If this is still too high, `next_ts = prev_ts + 1` should work
+ * as well. The only real requirement is that the "timestamps" are
+ * uniqueue per thread within a reasonable time frame.
+ */
+ res = clock_gettime(CLOCK_MONOTONIC, &now);
+ assert(!res);
+ next_ts = (now.tv_sec * NSEC_PER_SEC + now.tv_nsec) >>
+ UMCG_STATE_TIMESTAMP_GRANULARITY;
+
+ /* Cut higher order bits. */
+ next_ts &= ((1ULL << UMCG_STATE_TIMESTAMP_BITS) - 1);
+
+ if (next_ts == prev_ts)
+ ++next_ts;
+
+#ifndef NDEBUG
+ if (prev_ts > next_ts) {
+ fprintf(stderr, "%s: time goes back: prev_ts: %lu "
+ "next_ts: %lu diff: %lu\n", __func__,
+ prev_ts, next_ts, prev_ts - next_ts);
+ }
+#endif
+
+ /* Remove old timestamp, if any. */
+ next &= ((1ULL << (64 - UMCG_STATE_TIMESTAMP_BITS)) - 1);
+
+ /* Set the new timestamp. */
+ next |= (next_ts << (64 - UMCG_STATE_TIMESTAMP_BITS));
+
+ /*
+ * TODO: review whether memory order below can be weakened to
+ * memory_order_acq_rel for success and memory_order_acquire for
+ * failure.
+ */
+ return atomic_compare_exchange_strong_explicit(state, prev, next,
+ memory_order_seq_cst, memory_order_seq_cst);
+}
+
+static bool umcg_worker_in_idle_queue(umcg_tid worker)
+{
+ struct umcg_task_tls *worker_utls = utid_to_utls(worker);
+ struct umcg_task *worker_ut = &worker_utls->umcg_task;
+
+ assert(worker_utls->worker);
+
+ return (uint64_t)&worker_utls->group->idle_workers_head !=
+ atomic_load_explicit(&worker_ut->idle_workers_ptr,
+ memory_order_acquire);
+}
+
+void umcg_set_task_tag(umcg_tid utid, intptr_t tag)
+{
+ utid_to_utls(utid)->tag = tag;
+}
+
+intptr_t umcg_get_task_tag(umcg_tid utid)
+{
+ return utid_to_utls(utid)->tag;
+}
+
+static bool try_task_lock(struct umcg_task_tls *task, uint64_t expected_state,
+ uint64_t new_state)
+{
+ uint64_t next;
+ uint64_t prev = atomic_load_explicit(&task->umcg_task.state_ts,
+ memory_order_acquire);
+
+ if (prev & UMCG_TF_LOCKED)
+ return false;
+
+ if ((prev & UMCG_TASK_STATE_MASK) != expected_state)
+ return false;
+
+ next = (prev & ~UMCG_TASK_STATE_MASK) | new_state | UMCG_TF_LOCKED;
+ return umcg_update_state(&task->umcg_task.state_ts, &prev, next);
+}
+
+static void task_lock(struct umcg_task_tls *task, uint64_t expected_state,
+ uint64_t new_state)
+{
+ int loop_counter = 0;
+
+ while (!try_task_lock(task, expected_state, new_state))
+ assert(++loop_counter < 1000 * 1000 * 100);
+}
+
+static void task_unlock(struct umcg_task_tls *task, uint64_t expected_state,
+ uint64_t new_state)
+{
+ bool ok;
+ uint64_t next;
+ uint64_t prev = atomic_load_explicit(&task->umcg_task.state_ts,
+ memory_order_acquire);
+
+ next = ((prev & ~UMCG_TASK_STATE_MASK_FULL) | new_state) & ~UMCG_TF_LOCKED;
+ assert(next != prev);
+ assert((prev & UMCG_TASK_STATE_MASK_FULL & ~UMCG_TF_LOCKED) == expected_state);
+
+ ok = umcg_update_state(&task->umcg_task.state_ts, &prev, next);
+ assert(ok);
+}
+
+umcg_tid umcg_register_basic_task(intptr_t tag)
+{
+ int ret;
+
+ if (umcg_task_tls != NULL) {
+ errno = EINVAL;
+ return UMCG_NONE;
+ }
+
+ umcg_task_tls = malloc(sizeof(struct umcg_task_tls));
+ if (!umcg_task_tls) {
+ errno = ENOMEM;
+ return UMCG_NONE;
+ }
+ memset(umcg_task_tls, 0, sizeof(struct umcg_task_tls));
+
+ umcg_task_tls->umcg_task.state_ts = UMCG_TASK_RUNNING;
+ umcg_task_tls->self = (umcg_tid)&umcg_task_tls;
+ umcg_task_tls->tag = tag;
+ umcg_task_tls->tid = gettid();
+
+ ret = sys_umcg_ctl(UMCG_CTL_REGISTER, &umcg_task_tls->umcg_task);
+ if (ret) {
+ free(umcg_task_tls);
+ umcg_task_tls = NULL;
+ errno = ret;
+ return UMCG_NONE;
+ }
+
+ return umcg_task_tls->self;
+}
+
+static umcg_tid umcg_register_task_in_group(umcg_t group_id, intptr_t tag,
+ bool server)
+{
+ int ret;
+ uint32_t self_tid;
+ struct umcg_group *group;
+ struct umcg_task_tls *curr;
+
+ if (group_id == UMCG_NONE) {
+ errno = EINVAL;
+ return UMCG_NONE;
+ }
+
+ if (umcg_task_tls != NULL) {
+ errno = EINVAL;
+ return UMCG_NONE;
+ }
+
+ group = (struct umcg_group *)group_id;
+
+ curr = malloc(sizeof(struct umcg_task_tls));
+ if (!curr) {
+ errno = ENOMEM;
+ return UMCG_NONE;
+ }
+ memset(curr, 0, sizeof(struct umcg_task_tls));
+
+ self_tid = gettid();
+ curr->umcg_task.state_ts = server ? UMCG_TASK_RUNNING : UMCG_TASK_BLOCKED;
+ curr->umcg_task.idle_server_tid_ptr = server ? 0UL :
+ (uint64_t)&group->idle_server_tid;
+ curr->umcg_task.idle_workers_ptr =
+ (uint64_t)&group->idle_workers_head;
+ curr->group = group;
+ curr->tag = tag;
+ curr->tid = self_tid;
+ curr->self = (umcg_tid)&umcg_task_tls;
+ curr->worker = !server;
+
+ /*
+ * Need to set umcg_task_tls before registering, as a server
+ * may pick up this worker immediately, and use @self.
+ */
+ atomic_store_explicit(&umcg_task_tls, curr, memory_order_release);
+
+ ret = sys_umcg_ctl(server ? UMCG_CTL_REGISTER :
+ UMCG_CTL_REGISTER | UMCG_CTL_WORKER,
+ &curr->umcg_task);
+ if (ret) {
+ free(curr);
+ errno = ret;
+ atomic_store_explicit(&umcg_task_tls, NULL, memory_order_release);
+ return UMCG_NONE;
+ }
+
+ atomic_fetch_add_explicit(&group->nr_tasks, 1, memory_order_relaxed);
+
+ return umcg_task_tls->self;
+}
+
+umcg_tid umcg_register_worker(umcg_t group_id, intptr_t tag)
+{
+ return umcg_register_task_in_group(group_id, tag, false);
+}
+
+umcg_tid umcg_register_server(umcg_t group_id, intptr_t tag)
+{
+ return umcg_register_task_in_group(group_id, tag, true);
+}
+
+int umcg_unregister_task(void)
+{
+ int ret;
+
+ if (!umcg_task_tls) {
+ errno = EINVAL;
+ return -1;
+ }
+
+ /* If this is a worker, wake the server. */
+ if (umcg_task_tls->worker) {
+ struct umcg_task_tls *curr = umcg_task_tls;
+ struct umcg_task_tls *utls_server;
+
+ task_lock(curr, UMCG_TASK_RUNNING, UMCG_TASK_IDLE);
+ utls_server = utid_to_utls(curr->peer);
+ assert(utls_server->tid == atomic_load_explicit(
+ &curr->umcg_task.next_tid,
+ memory_order_acquire));
+ curr->peer = UMCG_NONE;
+ atomic_store_explicit(&curr->umcg_task.next_tid, 0,
+ memory_order_release);
+
+ utls_server->peer = UMCG_NONE;
+ atomic_store_explicit(&utls_server->umcg_task.next_tid, 0,
+ memory_order_release);
+
+ /* Keep the worker locked to avoid needing the server. */
+ if (utls_server) {
+ curr->worker = false; /* umcg_wake tries to lock */
+ ret = umcg_wake(utls_server->self, false);
+ assert(!ret || errno == ESRCH);
+ }
+ }
+
+ ret = sys_umcg_ctl(UMCG_CTL_UNREGISTER, NULL);
+ if (ret) {
+ errno = ret;
+ return -1;
+ }
+
+ if (umcg_task_tls->group)
+ atomic_fetch_sub_explicit(&umcg_task_tls->group->nr_tasks, 1,
+ memory_order_relaxed);
+
+ free(umcg_task_tls);
+ atomic_store_explicit(&umcg_task_tls, NULL, memory_order_release);
+ return 0;
+}
+
+/* Helper return codes. */
+enum umcg_prepare_op_result {
+ UMCG_OP_DONE,
+ UMCG_OP_SYS,
+ UMCG_OP_AGAIN,
+ UMCG_OP_ERROR
+};
+
+static enum umcg_prepare_op_result umcg_prepare_wait_may_lock(void)
+{
+ struct umcg_task *ut;
+ uint64_t prev_state, next_state;
+
+ if (!umcg_task_tls) {
+ errno = EINVAL;
+ return UMCG_OP_ERROR;
+ }
+
+ ut = &umcg_task_tls->umcg_task;
+
+ prev_state = atomic_load_explicit(&ut->state_ts, memory_order_acquire);
+ next_state = umcg_task_tls->worker ?
+ UMCG_TASK_IDLE | UMCG_TF_LOCKED | UMCG_UTF_WORKER_IN_WAIT :
+ UMCG_TASK_IDLE;
+ if (((prev_state & UMCG_TASK_STATE_MASK_FULL) == UMCG_TASK_RUNNING) &&
+ umcg_update_state(&ut->state_ts, &prev_state, next_state))
+ return UMCG_OP_SYS;
+
+ if ((prev_state & UMCG_TASK_STATE_MASK_FULL) !=
+ (UMCG_TASK_RUNNING | UMCG_UTF_WAKEUP_QUEUED)) {
+#ifndef NDEBUG
+ fprintf(stderr, "libumcg: unexpected state before wait: %lu\n",
+ prev_state);
+ assert(false);
+#endif
+ errno = EINVAL;
+ return UMCG_OP_ERROR;
+ }
+
+ if (umcg_update_state(&ut->state_ts, &prev_state, UMCG_TASK_RUNNING))
+ return UMCG_OP_DONE;
+
+#ifndef NDEBUG
+ /* Raced with another wait/wake? This is not supported. */
+ fprintf(stderr, "libumcg: failed to remove the wakeup flag: %lu\n",
+ prev_state);
+ assert(false);
+#endif
+ errno = EINVAL;
+ return UMCG_OP_ERROR;
+}
+
+/* Always return -1 because the user needs to see ETIMEDOUT in errno */
+static int handle_timedout(void)
+{
+ struct umcg_task *ut = &umcg_task_tls->umcg_task;
+ uint64_t umcg_state;
+
+retry:
+ /* Restore RUNNING state if the task is still IDLE. */
+ umcg_state = atomic_load_explicit(&ut->state_ts,
+ memory_order_acquire);
+ if ((umcg_state & UMCG_TASK_STATE_MASK) == UMCG_TASK_RUNNING)
+ return -1;
+
+ assert((umcg_state & UMCG_TASK_STATE_MASK) == UMCG_TASK_IDLE);
+
+ if (umcg_update_state(&ut->state_ts, &umcg_state, UMCG_TASK_RUNNING))
+ return -1;
+
+ /* A wakeup could have been queued. */
+ goto retry;
+}
+
+static int umcg_do_wait(uint64_t timeout)
+{
+ struct umcg_task *ut = &umcg_task_tls->umcg_task;
+ uint32_t flags = 0;
+
+ /* If this is a worker, need to change the state of the server. */
+ if (umcg_task_tls->worker &&
+ atomic_load_explicit(&ut->next_tid, memory_order_acquire)) {
+ bool ok;
+ struct umcg_task *server_ut =
+ &utid_to_utls(umcg_task_tls->peer)->umcg_task;
+ uint64_t server_state = atomic_load_explicit(&server_ut->state_ts,
+ memory_order_acquire);
+
+ assert((server_state & UMCG_TASK_STATE_MASK_FULL) == UMCG_TASK_IDLE);
+ ok = umcg_update_state(&server_ut->state_ts,
+ &server_state, UMCG_TASK_RUNNING);
+ assert(ok);
+ } else if (!umcg_task_tls->worker)
+ atomic_store_explicit(&ut->next_tid, 0, memory_order_release);
+
+ do {
+ uint64_t umcg_state;
+ int ret;
+
+ ret = sys_umcg_wait(flags, timeout);
+ if (!ret)
+ return 0;
+
+ if (ret && errno == EINTR) {
+ umcg_state = atomic_load_explicit(&ut->state_ts,
+ memory_order_acquire) & UMCG_TASK_STATE_MASK;
+ if (umcg_state == UMCG_TASK_RUNNING)
+ return 0;
+ continue;
+ }
+
+ if (errno == ETIMEDOUT)
+ return handle_timedout();
+
+ return -1;
+ } while (true);
+}
+
+int umcg_wait(uint64_t timeout)
+{
+ switch (umcg_prepare_wait_may_lock()) {
+ case UMCG_OP_DONE:
+ return 0;
+ case UMCG_OP_SYS:
+ break;
+ case UMCG_OP_ERROR:
+ return -1;
+ default:
+ assert(false);
+ return -1;
+ }
+
+ return umcg_do_wait(timeout);
+}
+
+static void enqueue_idle_worker(struct umcg_task_tls *utls)
+{
+ struct umcg_task *ut = &utls->umcg_task;
+ uint64_t *node = &ut->idle_workers_ptr;
+ uint64_t head = *node;
+ uint64_t *head_ptr = (uint64_t *)head;
+ uint64_t first = (uint64_t)node;
+
+ assert(utls->worker);
+ assert(&utls->group->idle_workers_head == head_ptr);
+
+ /* Mark the worker as pending. */
+ atomic_store_explicit(node, UMCG_IDLE_NODE_PENDING, memory_order_release);
+
+ /* Make the head point to the worker. */
+ first = atomic_exchange_explicit(head_ptr, first, memory_order_acq_rel);
+
+ /* Make the worker point to the previous head. */
+ atomic_store_explicit(node, first, memory_order_release);
+}
+
+static enum umcg_prepare_op_result umcg_prepare_wake_may_lock(
+ struct umcg_task_tls *next_utls, bool for_swap)
+{
+ struct umcg_task *next_ut = &next_utls->umcg_task;
+ uint64_t curr_state, next_state;
+ enum umcg_prepare_op_result result = UMCG_OP_DONE;
+ bool enqueue_worker = false;
+
+ curr_state = atomic_load_explicit(&next_ut->state_ts, memory_order_acquire);
+
+ if (curr_state & (UMCG_TF_LOCKED | UMCG_UTF_WAKEUP_QUEUED))
+ return UMCG_OP_AGAIN;
+
+ /* Start with RUNNING tasks. */
+ if ((curr_state & UMCG_TASK_STATE_MASK_FULL) == UMCG_TASK_RUNNING)
+ next_state = UMCG_TASK_RUNNING | UMCG_UTF_WAKEUP_QUEUED;
+ else if (curr_state & UMCG_UTF_WORKER_IN_WAIT) {
+ /* Next, check workers in wait. */
+ assert(next_utls->worker);
+ assert((curr_state & UMCG_TASK_STATE_MASK) == UMCG_TASK_IDLE);
+
+ if (for_swap) {
+ next_state = UMCG_TASK_RUNNING;
+ result = UMCG_OP_SYS;
+ } else {
+ next_state = UMCG_TASK_IDLE;
+ enqueue_worker = true;
+ }
+ } else if ((curr_state & UMCG_TASK_STATE_MASK_FULL) == UMCG_TASK_IDLE) {
+ /* Next, check IDLE tasks. */
+ if (next_utls->worker) {
+ if (for_swap) {
+ next_state = UMCG_TASK_RUNNING | UMCG_TF_LOCKED;
+ result = UMCG_OP_SYS;
+ } else {
+ return UMCG_OP_AGAIN;
+ }
+ } else {
+ atomic_store_explicit(&next_utls->umcg_task.next_tid,
+ 0, memory_order_release);
+ next_state = UMCG_TASK_RUNNING;
+ result = UMCG_OP_SYS;
+ }
+ } else {
+ /* Finally, deal with BLOCKED workers. */
+ assert((curr_state & UMCG_TASK_STATE_MASK) == UMCG_TASK_BLOCKED);
+ assert(next_utls->worker);
+
+ return UMCG_OP_AGAIN;
+ }
+
+ if (umcg_update_state(&next_ut->state_ts, &curr_state, next_state)) {
+ if (enqueue_worker)
+ enqueue_idle_worker(next_utls);
+ return result;
+ }
+
+ return UMCG_OP_AGAIN;
+}
+
+static int umcg_do_wake_or_swap(uint32_t next_tid, bool should_wait,
+ uint64_t timeout, bool wf_current_cpu,
+ struct umcg_task_tls *next_utls)
+{
+ struct umcg_task *ut;
+ uint32_t flags = 0;
+ uint32_t server_tid = 0;
+ int ret;
+
+ /* wf_current_cpu is possible in wake-only scenarios. */
+ assert(!should_wait || !wf_current_cpu);
+ assert(umcg_task_tls != NULL);
+
+ ut = &umcg_task_tls->umcg_task;
+
+ /*
+ * This is a worker waking another task: lock it so that next_tid
+ * is not interpreted as a server if this worker pagefaults.
+ */
+ if (umcg_task_tls->worker && !should_wait) {
+ server_tid = atomic_load_explicit(&ut->next_tid,
+ memory_order_acquire);
+ assert(server_tid);
+ assert(utid_to_utls(umcg_task_tls->peer)->tid == server_tid);
+ task_lock(umcg_task_tls, UMCG_TASK_RUNNING, UMCG_TASK_IDLE);
+ }
+
+ atomic_store_explicit(&ut->next_tid, next_tid, memory_order_release);
+
+ if (!should_wait)
+ flags |= UMCG_WAIT_WAKE_ONLY;
+ if (wf_current_cpu)
+ flags |= UMCG_WAIT_WF_CURRENT_CPU;
+
+ if (next_utls && next_utls->worker)
+ task_unlock(next_utls, UMCG_TASK_RUNNING, UMCG_TASK_RUNNING);
+ ret = sys_umcg_wait(flags, should_wait ? timeout : 0);
+
+ /* If we locked this worker, unlock it. */
+ if (server_tid) {
+ atomic_store_explicit(&ut->next_tid, server_tid,
+ memory_order_release);
+ task_unlock(umcg_task_tls, UMCG_TASK_IDLE, UMCG_TASK_RUNNING);
+ }
+
+ if (ret && errno == ETIMEDOUT)
+ return handle_timedout();
+
+ return ret;
+}
+
+int umcg_wake(umcg_tid next, bool wf_current_cpu)
+{
+ struct umcg_task_tls *utls = utid_to_utls(next);
+ uint64_t loop_counter = 0;
+
+ if (!utls) {
+ errno = EINVAL;
+ return -1;
+ }
+
+again:
+ assert(++loop_counter < (1ULL << 31));
+ switch (umcg_prepare_wake_may_lock(utls, false /* for_swap */)) {
+ case UMCG_OP_DONE:
+ return 0;
+ case UMCG_OP_SYS:
+ break;
+ case UMCG_OP_ERROR:
+ return -1;
+ case UMCG_OP_AGAIN:
+ goto again;
+ default:
+ assert(false);
+ return -1;
+ }
+
+ return umcg_do_wake_or_swap(utls->tid, false, 0, wf_current_cpu, utls);
+}
+
+static void transfer_server_locked(struct umcg_task_tls *next)
+{
+ struct umcg_task_tls *curr = umcg_task_tls;
+ struct umcg_task_tls *server = utid_to_utls(curr->peer);
+
+ atomic_thread_fence(memory_order_acquire);
+ assert(curr->worker);
+ assert(next->worker);
+ assert(curr->peer != UMCG_NONE);
+ assert(next->peer == UMCG_NONE);
+
+ next->peer = curr->peer;
+ curr->peer = UMCG_NONE;
+ next->umcg_task.next_tid = curr->umcg_task.next_tid;
+ curr->umcg_task.next_tid = 0;
+
+ server->peer = next->self;
+ server->umcg_task.next_tid = next->tid;
+ atomic_thread_fence(memory_order_release);
+}
+
+int umcg_swap(umcg_tid next, uint64_t timeout)
+{
+ struct umcg_task_tls *utls = utid_to_utls(next);
+ bool should_wake, should_wait;
+ uint64_t loop_counter = 0;
+
+ assert(umcg_task_tls);
+
+again:
+ assert(++loop_counter < (1ULL << 31));
+ switch (umcg_prepare_wake_may_lock(utls, true /* for_swap */)) {
+ case UMCG_OP_DONE:
+ should_wake = false;
+ break;
+ case UMCG_OP_SYS:
+ should_wake = true;
+ break;
+ case UMCG_OP_ERROR:
+ return -1;
+ case UMCG_OP_AGAIN:
+ goto again;
+ default:
+ assert(false);
+ }
+
+ switch (umcg_prepare_wait_may_lock()) {
+ case UMCG_OP_DONE:
+ should_wait = false;
+ break;
+ case UMCG_OP_SYS:
+ should_wait = true;
+ break;
+ case UMCG_OP_ERROR:
+ return -1;
+ default:
+ assert(false);
+ }
+
+ if (should_wait && should_wake && umcg_task_tls->worker)
+ transfer_server_locked(utls);
+
+ if (should_wake)
+ return umcg_do_wake_or_swap(utls->tid, should_wait, timeout,
+ false, utls);
+
+ if (should_wait)
+ return umcg_do_wait(timeout);
+
+ return 0;
+}
+
+/* A noop SIGUSR1 handler, used in worker preemption. */
+static void sigusr_handler(int signum)
+{
+}
+
+umcg_t umcg_create_group(uint32_t flags)
+{
+ struct umcg_group *group;
+ int res;
+
+ if (flags && flags != UMCG_GROUP_ENABLE_PREEMPTION) {
+ errno = EINVAL;
+ return UMCG_NONE;
+ }
+
+ group = malloc(sizeof(struct umcg_group));
+ if (!group) {
+ errno = ENOMEM;
+ return UMCG_NONE;
+ }
+
+ memset(group, 0, sizeof(*group));
+
+ res = pthread_spin_init(&group->idle_worker_lock, PTHREAD_PROCESS_PRIVATE);
+ if (res) {
+ errno = res;
+ goto error;
+ }
+
+ res = pthread_spin_init(&group->idle_server_lock, PTHREAD_PROCESS_PRIVATE);
+ if (res) {
+ errno = res;
+ res = pthread_spin_destroy(&group->idle_worker_lock);
+ assert(!res);
+ goto error;
+ }
+
+ if (flags & UMCG_GROUP_ENABLE_PREEMPTION) {
+ if (SIG_ERR == signal(SIGUSR1, sigusr_handler)) {
+ res = pthread_spin_destroy(&group->idle_worker_lock);
+ assert(!res);
+ res = pthread_spin_destroy(&group->idle_server_lock);
+ assert(!res);
+ goto error;
+ }
+ }
+
+ return (intptr_t)group;
+
+error:
+ free(group);
+ return UMCG_NONE;
+}
+
+int umcg_destroy_group(umcg_t umcg)
+{
+ int res;
+ struct umcg_group *group = (struct umcg_group *)umcg;
+
+ if (atomic_load_explicit(&group->nr_tasks, memory_order_acquire)) {
+ errno = EBUSY;
+ return -1;
+ }
+
+ res = pthread_spin_destroy(&group->idle_worker_lock);
+ assert(!res);
+ res = pthread_spin_destroy(&group->idle_server_lock);
+ assert(!res);
+
+ free(group);
+ return 0;
+}
+
+static void detach_worker(void)
+{
+ struct umcg_task_tls *server_utls = umcg_task_tls;
+ struct umcg_task_tls *worker_utls;
+
+ assert(server_utls->group != NULL);
+
+ atomic_thread_fence(memory_order_acquire);
+ if (!server_utls->peer)
+ return;
+
+ worker_utls = utid_to_utls(server_utls->peer);
+ assert(server_utls->peer == worker_utls->self);
+ assert(worker_utls->peer == server_utls->self);
+
+ umcg_task_tls->umcg_task.next_tid = 0;
+ worker_utls->umcg_task.next_tid = 0;
+ worker_utls->peer = UMCG_NONE;
+ server_utls->peer = UMCG_NONE;
+
+ atomic_thread_fence(memory_order_release);
+}
+
+umcg_tid umcg_run_worker(umcg_tid worker)
+{
+ struct umcg_task_tls *worker_utls = utid_to_utls(worker);
+ struct umcg_task_tls *server_utls = umcg_task_tls;
+ struct umcg_task *server_ut = &umcg_task_tls->umcg_task;
+ struct umcg_task *worker_ut;
+ uint64_t curr_state, next_state;
+ int ret;
+ bool ok;
+
+ assert(server_utls->group != NULL);
+ assert(server_utls->group == worker_utls->group);
+ assert(worker_utls->worker);
+
+ atomic_thread_fence(memory_order_acquire);
+ assert(server_utls->peer == UMCG_NONE);
+ assert(worker_utls->peer == UMCG_NONE);
+
+ worker_ut = &worker_utls->umcg_task;
+
+ assert(!umcg_worker_in_idle_queue(worker));
+
+ /*
+ * Mark the server IDLE before marking the worker RUNNING: preemption
+ * can happen immediately after the worker is marked RUNNING.
+ */
+ curr_state = atomic_load_explicit(&server_ut->state_ts,
+ memory_order_acquire);
+ assert((curr_state & UMCG_TASK_STATE_MASK_FULL) == UMCG_TASK_RUNNING);
+ ok = umcg_update_state(&server_ut->state_ts, &curr_state, UMCG_TASK_IDLE);
+ assert(ok);
+
+ /* Lock the worker in preparation to run it. */
+ curr_state = atomic_load_explicit(&worker_ut->state_ts,
+ memory_order_acquire);
+ assert((curr_state & UMCG_TASK_STATE_MASK) == UMCG_TASK_IDLE);
+ assert(!(curr_state & UMCG_TF_LOCKED));
+ next_state = curr_state & UMCG_UTF_WAKEUP_QUEUED ?
+ UMCG_TASK_RUNNING | UMCG_UTF_WAKEUP_QUEUED :
+ UMCG_TASK_RUNNING;
+ ok = umcg_update_state(&worker_ut->state_ts, &curr_state,
+ next_state | UMCG_TF_LOCKED);
+
+ assert(ok);
+
+ /* Attach the server to the worker. */
+ atomic_thread_fence(memory_order_acquire);
+ server_ut->next_tid = worker_utls->tid;
+ worker_ut->next_tid = server_utls->tid;
+ worker_utls->peer = server_utls->self;
+ server_utls->peer = worker;
+
+ atomic_thread_fence(memory_order_release);
+ task_unlock(worker_utls, next_state, next_state);
+
+ ret = sys_umcg_wait(0, 0);
+
+ atomic_thread_fence(memory_order_acquire);
+ if (!server_utls->peer) {
+ assert(server_ut->next_tid == 0);
+ /*
+ * The worker woke early due to umcg_state change
+ * and unregistered/exited.
+ */
+ assert(!ret || errno == ESRCH);
+ errno = 0;
+ return UMCG_NONE;
+ }
+
+ assert(!ret);
+
+ /* Detach the server from the worker. */
+ worker_utls = utid_to_utls(server_utls->peer);
+ detach_worker();
+
+ return worker_utls->self;
+}
+
+int umcg_preempt_worker(umcg_tid worker)
+{
+ struct umcg_task_tls *worker_utls = utid_to_utls(worker);
+ struct umcg_task *worker_ut = &worker_utls->umcg_task;
+ uint32_t worker_tid = worker_utls->tid;
+ uint64_t curr_state;
+ int ret;
+
+ curr_state = atomic_load_explicit(&worker_ut->state_ts,
+ memory_order_acquire);
+ if ((curr_state & UMCG_TASK_STATE_MASK_FULL) != UMCG_TASK_RUNNING) {
+ errno = EAGAIN;
+ return -1;
+ }
+
+ if (!umcg_update_state(&worker_ut->state_ts, &curr_state,
+ UMCG_TASK_RUNNING | UMCG_TF_PREEMPTED)) {
+ errno = EAGAIN;
+ return -1;
+ }
+
+ /*
+ * It is possible that this thread is descheduled here, the worker
+ * pagefaults, wakes up, and then exits; in this case tgkill() below
+ * will fail with errno == ESRCH.
+ */
+ ret = tgkill(getpid(), worker_tid, SIGUSR1);
+ assert(!ret || errno == ESRCH);
+ return 0;
+}
+
+static void wake_idle_server(void)
+{
+ struct umcg_group *group = umcg_task_tls->group;
+ int res;
+
+ res = pthread_spin_lock(&group->idle_server_lock);
+ assert(!res);
+
+ if (group->idle_servers) {
+ struct umcg_task_tls *server = group->idle_servers;
+
+ group->idle_servers = server->next;
+ server->next = NULL;
+
+ assert((atomic_load_explicit(&server->umcg_task.state_ts,
+ memory_order_acquire) &
+ UMCG_TASK_STATE_MASK_FULL) == UMCG_TASK_IDLE);
+
+ res = umcg_wake(server->self, false);
+ assert(!res);
+ }
+
+ res = pthread_spin_unlock(&group->idle_server_lock);
+ assert(!res);
+}
+
+static umcg_tid get_idle_worker(void)
+{
+ struct umcg_group *group = umcg_task_tls->group;
+ umcg_tid result = UMCG_NONE;
+ uint64_t *head;
+ int res;
+
+ res = pthread_spin_lock(&group->idle_worker_lock);
+ assert(!res);
+
+ head = group->idle_workers;
+
+once_again:
+ /* First, check the userspace idle worker list. */
+ if (head) {
+ uint64_t next;
+ struct umcg_task *worker;
+ struct umcg_task_tls *worker_utls;
+
+ worker = container_of(head, struct umcg_task, idle_workers_ptr);
+ worker_utls = container_of(worker, struct umcg_task_tls, umcg_task);
+
+ /* Spin while the worker is pending. */
+ do {
+ next = atomic_load_explicit(head, memory_order_acquire);
+ } while (next == UMCG_IDLE_NODE_PENDING);
+
+ /* Wait for the worker's server to detach in umcg_run_worker(). */
+ while (atomic_load_explicit(&worker_utls->peer,
+ memory_order_relaxed))
+ ;
+
+ /* Pull the worker out of the idle worker list. */
+ group->idle_workers = (uint64_t *)next;
+ atomic_store_explicit(&worker->idle_workers_ptr,
+ (uint64_t)&group->idle_workers_head,
+ memory_order_release);
+
+ if (next)
+ wake_idle_server();
+
+ result = worker_utls->self;
+ goto out;
+ }
+
+ /*
+ * Get the kernel's idle worker list.
+ *
+ * TODO: review whether memory order below can be weakened to
+ * memory_order_acq_rel.
+ */
+ head = (uint64_t *)atomic_exchange_explicit(&group->idle_workers_head,
+ 0ULL, memory_order_seq_cst);
+
+ if (!head)
+ goto out;
+
+ group->idle_workers = head;
+ goto once_again;
+
+out:
+ res = pthread_spin_unlock(&group->idle_worker_lock);
+ assert(!res);
+
+ return result;
+}
+
+static void enqueue_idle_server(void)
+{
+ struct umcg_task_tls *server = umcg_task_tls;
+ struct umcg_group *group = server->group;
+ int res;
+
+ res = pthread_spin_lock(&group->idle_server_lock);
+ assert(!res);
+
+ assert(server->next == NULL);
+ assert((atomic_load_explicit(&server->umcg_task.state_ts,
+ memory_order_acquire) &
+ UMCG_TASK_STATE_MASK_FULL) == UMCG_TASK_IDLE);
+
+ server->next = group->idle_servers;
+ group->idle_servers = server;
+
+ res = pthread_spin_unlock(&group->idle_server_lock);
+ assert(!res);
+}
+
+static umcg_tid idle_server_wait(void)
+{
+ struct umcg_task_tls *server_utls = umcg_task_tls;
+ struct umcg_task *server_ut = &umcg_task_tls->umcg_task;
+ uint32_t server_tid = server_utls->tid;
+ struct umcg_group *group = umcg_task_tls->group;
+ umcg_tid worker;
+ uint32_t prev = 0ULL;
+ uint64_t state;
+ bool ok;
+
+ state = atomic_load_explicit(&server_ut->state_ts, memory_order_acquire);
+ assert((state & UMCG_TASK_STATE_MASK_FULL) == UMCG_TASK_RUNNING);
+ ok = umcg_update_state(&server_ut->state_ts, &state, UMCG_TASK_IDLE);
+ assert(ok);
+
+ /*
+ * Try to become THE idle server that the kernel will wake.
+ *
+ * TODO: review whether memory order below can be weakened to
+ * memory_order_acq_rel for success and memory_order_acquire
+ * for failure.
+ */
+ ok = atomic_compare_exchange_strong_explicit(&group->idle_server_tid,
+ &prev, server_tid,
+ memory_order_seq_cst, memory_order_seq_cst);
+
+ if (!ok) {
+ assert(prev != server_tid);
+ enqueue_idle_server();
+ umcg_do_wait(0);
+ assert(server_utls->next == NULL);
+
+ return UMCG_NONE;
+ }
+
+ /* We need to ensure no idle workers enqueued before going to sleep. */
+ worker = get_idle_worker();
+
+ if (worker) {
+ state = atomic_load_explicit(&server_ut->state_ts,
+ memory_order_acquire);
+ if ((state & UMCG_TASK_STATE_MASK_FULL) != UMCG_TASK_RUNNING) {
+ ok = umcg_update_state(&server_ut->state_ts, &state,
+ UMCG_TASK_RUNNING);
+ assert(ok || ((state & UMCG_TASK_STATE_MASK_FULL) ==
+ UMCG_TASK_RUNNING));
+ }
+ } else
+ umcg_do_wait(0);
+
+ /*
+ * If the server calls umcg_get_idle_worker() in a loop, the worker
+ * that pulled the server at step N (and thus zeroed idle_server_tid)
+ * may wake the server at step N+1 without cleaning idle_server_tid,
+ * so the server needs to clean idle_server_tid in case this happens.
+ *
+ * TODO: review whether memory order below can be weakened to
+ * memory_order_acq_rel for success and memory_order_acquire
+ * for failure.
+ */
+ prev = server_tid;
+ ok = atomic_compare_exchange_strong_explicit(
+ &group->idle_server_tid, &prev, 0UL,
+ memory_order_seq_cst, memory_order_seq_cst);
+ assert(ok || (prev != server_tid));
+ return worker;
+}
+
+umcg_tid umcg_get_idle_worker(bool wait)
+{
+ umcg_tid result = UMCG_NONE;
+
+ assert(umcg_task_tls->peer == UMCG_NONE);
+ assert((atomic_load_explicit(&umcg_task_tls->umcg_task.state_ts,
+ memory_order_acquire) & UMCG_TASK_STATE_MASK_FULL) ==
+ UMCG_TASK_RUNNING);
+
+ do {
+ result = get_idle_worker();
+
+ if (result || !wait)
+ break;
+
+ result = idle_server_wait();
+ } while (!result);
+
+ assert((atomic_load_explicit(&umcg_task_tls->umcg_task.state_ts,
+ memory_order_acquire) & UMCG_TASK_STATE_MASK_FULL) ==
+ UMCG_TASK_RUNNING);
+ return result;
+}
diff --git a/tools/lib/umcg/libumcg.h b/tools/lib/umcg/libumcg.h
new file mode 100644
index 000000000000..8d97d4032667
--- /dev/null
+++ b/tools/lib/umcg/libumcg.h
@@ -0,0 +1,299 @@
+/* SPDX-License-Identifier: GPL-2.0 */
+
+#ifndef __LIBUMCG_H
+#define __LIBUMCG_H
+
+#define _GNU_SOURCE
+#include <errno.h>
+#include <limits.h>
+#include <unistd.h>
+#include <linux/types.h>
+#include <stdbool.h>
+#include <stdint.h>
+#include <syscall.h>
+#include <time.h>
+
+#include <linux/umcg.h>
+
+/*
+ * UMCG: User Managed Concurrency Groups.
+ *
+ * LIBUMCG provides userspace UMCG API that hides some of the intricacies
+ * of sys_umcg_ctl() and sys_umcg_wait() syscalls.
+ *
+ * Note that this API is still quite low level and is designed as
+ * a toolkit for building higher-level userspace schedulers.
+ *
+ * See tools/lib/umcg/libumcg.txt for detals.
+ */
+
+typedef intptr_t umcg_t; /* UMCG group ID. */
+typedef intptr_t umcg_tid; /* UMCG thread ID. */
+
+#define UMCG_NONE (0)
+
+/**
+ * umcg_enabled - indicates whether UMCG syscalls are available.
+ */
+bool umcg_enabled(void);
+
+/**
+ * umcg_get_utid - return the UMCG ID of the current thread.
+ *
+ * The function always succeeds, and the returned ID is guaranteed to be
+ * stable over the life of the thread.
+ *
+ * The ID is NOT guaranteed to be unique over the life of the process.
+ */
+umcg_tid umcg_get_utid(void);
+
+/**
+ * umcg_set_task_tag - add an arbitrary tag to a registered UMCG task.
+ *
+ * Note: not-thread-safe: the user is responsible for proper memory fencing.
+ */
+void umcg_set_task_tag(umcg_tid utid, intptr_t tag);
+
+/**
+ * umcg_get_task_tag - get the task tag. Returns zero if none set.
+ *
+ * Note: not-thread-safe: the user is responsible for proper memory fencing.
+ */
+intptr_t umcg_get_task_tag(umcg_tid utid);
+
+/**
+ * enum umcg_create_group_flag - flags to pass to umcg_create_group
+ * @UMCG_GROUP_ENABLE_PREEMPTION: enable worker preemption.
+ *
+ * See tools/lib/libumcg.txt for detals.
+ */
+enum umcg_create_group_flag {
+ UMCG_GROUP_ENABLE_PREEMPTION = 1
+};
+
+/**
+ * umcg_create_group - create a UMCG group
+ * @flags: a combination of values from enum umcg_create_group_flag
+ *
+ * See tools/lib/libumcg.txt for detals.
+ *
+ * Return:
+ * UMCG_NONE - an error occurred. Check errno.
+ * != UMCG_NONE - the ID of the group, to be used in e.g. umcg_register.
+ */
+umcg_t umcg_create_group(uint32_t flags);
+
+/**
+ * umcg_destroy_group - destroy a UMCG group
+ * @umcg: ID of the group to destroy
+ *
+ * The group must be empty (no server or worker threads).
+ *
+ * Return:
+ * 0 - Ok
+ * -1 - an error occurred. Check errno.
+ * errno == EAGAIN: the group has server or worker threads
+ */
+int umcg_destroy_group(umcg_t umcg);
+
+/**
+ * umcg_register_basic_task - register the current thread as a UMCG basic task
+ * @tag: An arbitrary tag to be associated with the task.
+ *
+ * See tools/lib/libumcg.txt for detals.
+ *
+ * Return:
+ * UMCG_NONE - an error occurred. Check errno.
+ * != UMCG_NONE - the ID of the thread to be used with UMCG API (guaranteed
+ * to match the value returned by umcg_get_utid).
+ */
+umcg_tid umcg_register_basic_task(intptr_t tag);
+
+/**
+ * umcg_register_worker - register the current thread as a UMCG worker
+ * @group_id: The ID of the UMCG group the thread should join;
+ * @tag: an arbitrary tag to be associated with the task.
+ *
+ * Return:
+ * UMCG_NONE - an error occurred. Check errno.
+ * != UMCG_NONE - the ID of the thread to be used with UMCG API (guaranteed
+ * to match the value returned by umcg_get_utid).
+ */
+umcg_tid umcg_register_worker(umcg_t group_id, intptr_t tag);
+
+/**
+ * umcg_register_server - register the current thread as a UMCG server
+ * @group_id: The ID of the UMCG group the thread should join;
+ * @tag: an arbitrary tag to be associated with the task.
+ *
+ * Return:
+ * UMCG_NONE - an error occurred. Check errno.
+ * != UMCG_NONE - the ID of the thread to be used with UMCG API (guaranteed
+ * to match the value returned by umcg_get_utid).
+ */
+umcg_tid umcg_register_server(umcg_t group_id, intptr_t tag);
+
+/**
+ * umcg_unregister_task - unregister the current thread.
+ *
+ * Return:
+ * 0 - OK
+ * -1 - the current thread is not a UMCG thread
+ */
+int umcg_unregister_task(void);
+
+/**
+ * umcg_wait - block the current thread
+ * @timeout: absolute timeout in nanoseconds
+ *
+ * Blocks the current thread, which must have been registered via umcg_register,
+ * until it is waken via umcg_wake or swapped into via umcg_swap. If the current
+ * thread has a wakeup queued (see umcg_wake), returns zero immediately,
+ * consuming the wakeup.
+ *
+ * Return:
+ * 0 - OK, the thread was waken;
+ * -1 - did not wake normally;
+ * errno:
+ * EINTR: interrupted
+ * EINVAL: some other error occurred
+ */
+int umcg_wait(uint64_t timeout);
+
+/**
+ * umcg_wake - wake @next; non-blocking.
+ * @next: ID of the thread to wake;
+ * @wf_current_cpu: an advisory hint indicating that the current thread
+ * is going to block in the immediate future and that
+ * the wakee should be woken on the current CPU;
+ *
+ * If @next is blocked via umcg_wait or umcg_swap, wake it if @next is
+ * a server or a basic task; if @next is a worker, it will be queued
+ * in the idle worker list. If @next is running, queue the wakeup,
+ * so that a future block of @next will consume the wakeup and will not block.
+ *
+ * umcg_wake can queue at most one wakeup; if waking or queueing a wakeup
+ * is not possible, umcg_wake will SPIN.
+ *
+ * See tools/lib/umcg/libumcg.txt for detals.
+ *
+ * Return:
+ * 0 - OK, @next has woken, or a wakeup has been queued;
+ * -1 - an error occurred.
+ */
+int umcg_wake(umcg_tid next, bool wf_current_cpu);
+
+/**
+ * umcg_swap - wake @next, put the current thread to sleep
+ * @next: ID of the thread to wake
+ * @timeout: absolute timeout in ns
+ *
+ * umcg_swap is semantically equivalent to
+ *
+ * int ret = umcg_wake(next, true);
+ * if (ret)
+ * return ret;
+ * return umcg_wait(timeout);
+ *
+ * but may do a synchronous context switch into @next on the current CPU.
+ *
+ * Note: if @next is a worker, it must be IDLE, but not in the idle worker list.
+ * See tools/lib/umcg/libumcg.txt for detals.
+ */
+int umcg_swap(umcg_tid next, u64 timeout);
+
+/**
+ * umcg_get_idle_worker - get an idle worker, if available
+ * @wait: if true, block until an idle worker becomes available
+ *
+ * The current thread must be a UMCG server. If there is a list/queue of
+ * waiting IDLE workers in the server's group, umcg_get_idle_worker
+ * picks one; if there are no IDLE workers, the current thread sleeps in
+ * the idle server queue if @wait is true.
+ *
+ * Note: servers waiting for idle workers must NOT be woken via umcg_wake(),
+ * as this will leave them in inconsistent state.
+ *
+ * See tools/lib/umcg/libumcg.txt for detals.
+ *
+ * Return:
+ * UMCG_NONE - an error occurred; check errno;
+ * != UMCG_NONE - a RUNNABLE worker.
+ */
+umcg_tid umcg_get_idle_worker(bool wait);
+
+/**
+ * umcg_run_worker - run @worker as a UMCG server
+ * @worker: the ID of a RUNNABLE worker to run
+ *
+ * The current thread must be a UMCG "server".
+ *
+ * See tools/lib/umcg/libumcg.txt for detals.
+ *
+ * Return:
+ * UMCG_NONE - if errno == 0, the last worker the server was running
+ * unregistered itself; if errno != 0, an error occurred
+ * != UMCG_NONE - the ID of the last worker the server was running before
+ * the worker was blocked or preempted.
+ */
+umcg_tid umcg_run_worker(umcg_tid worker);
+
+/**
+ * umcg_preempt_worker - preempt a RUNNING worker.
+ * @worker: the ID of a RUNNING worker to preempt.
+ *
+ * See tools/lib/umcg/libumcg.txt for detals.
+ *
+ * Return:
+ * 0 - Ok;
+ * -1 - an error occurred; check errno and `man tgkill()`. In addition
+ * to tgkill() errors, EAGAIN is also returned if the worker
+ * is not in RUNNING state (in this case tgkill() was not called).
+ */
+int umcg_preempt_worker(umcg_tid worker);
+
+/**
+ * umcg_get_task_state - return the UMCG state of @task, including state
+ * flags, without the timestamp.
+ *
+ * Note that in most situations the state value can be changed at any time
+ * by a concurrent thread, so this function is exposed for debugging/testing
+ * purposes only.
+ */
+uint64_t umcg_get_task_state(umcg_tid task);
+
+#ifndef NSEC_PER_SEC
+#define NSEC_PER_SEC 1000000000L
+#endif
+
+/**
+ * umcg_get_time_ns - returns the absolute current time in nanoseconds.
+ *
+ * The function uses CLOCK_MONOTONIC; the returned value can be used
+ * to set absolute timeouts for umcg_wait() and umcg_swap().
+ */
+uint64_t umcg_get_time_ns(void);
+
+/**
+ * UMCG userspace-only task state flag: wakeup queued.
+ *
+ * see umcg_wake() above.
+ */
+#define UMCG_UTF_WAKEUP_QUEUED (1ULL << 17)
+
+/**
+ * UMCG userspace-only task state flag: worker in sys_umcg_wait().
+ *
+ * IDLE workers can be in two substates:
+ * - waiting in sys_umcg_wait(): in this case UTF_WORKER_IN_WAIT flag is set;
+ * - waiting in the idle worker list: in this case the flag is not set.
+ *
+ * If the worker is IDLE in sys_umcg_wait, umcg_wake() clears the flag
+ * and adds the worker to the idle worker list.
+ *
+ * If the worker is IDLE in the idle worker list, umcg_wake() sets
+ * the wakeup queued flag.
+ */
+#define UMCG_UTF_WORKER_IN_WAIT (1ULL << 16)
+
+#endif /* __LIBUMCG_H */
--
2.25.1
Powered by blists - more mailing lists