mirror of https://gitee.com/openkylin/linux.git
rcuperf: Add kfree_rcu() performance Tests
This test runs kfree_rcu() in a loop to measure performance of the new kfree_rcu() batching functionality. The following table shows results when booting with arguments: rcuperf.kfree_loops=20000 rcuperf.kfree_alloc_num=8000 rcuperf.kfree_rcu_test=1 rcuperf.kfree_no_batch=X rcuperf.kfree_no_batch=X # Grace Periods Test Duration (s) X=1 (old behavior) 9133 11.5 X=0 (new behavior) 1732 12.5 On a 16 CPU system with the above boot parameters, we see that the total number of grace periods that elapse during the test drops from 9133 when not batching to 1732 when batching (a 5X improvement). The kfree_rcu() flood itself slows down a bit when batching, though, as shown. Note that the active memory consumption during the kfree_rcu() flood does increase to around 200-250MB due to the batching (from around 50MB without batching). However, this memory consumption is relatively constant. In other words, the system is able to keep up with the kfree_rcu() load. The memory consumption comes down considerably if KFREE_DRAIN_JIFFIES is increased from HZ/50 to HZ/80. A later patch will reduce memory consumption further by using multiple lists. Also, when running the test, please disable CONFIG_DEBUG_PREEMPT and CONFIG_PROVE_RCU for realistic comparisons with/without batching. Signed-off-by: Joel Fernandes (Google) <joel@joelfernandes.org> Signed-off-by: Paul E. McKenney <paulmck@kernel.org>
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@ -3978,6 +3978,23 @@
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test until boot completes in order to avoid
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interference.
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rcuperf.kfree_rcu_test= [KNL]
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Set to measure performance of kfree_rcu() flooding.
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rcuperf.kfree_nthreads= [KNL]
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The number of threads running loops of kfree_rcu().
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rcuperf.kfree_alloc_num= [KNL]
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Number of allocations and frees done in an iteration.
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rcuperf.kfree_loops= [KNL]
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Number of loops doing rcuperf.kfree_alloc_num number
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of allocations and frees.
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rcuperf.kfree_no_batch= [KNL]
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Use the non-batching (less efficient) version of kfree_rcu().
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This is useful for comparing with the batched version.
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rcuperf.nreaders= [KNL]
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Set number of RCU readers. The value -1 selects
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N, where N is the number of CPUs. A value
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@ -86,6 +86,7 @@ torture_param(bool, shutdown, RCUPERF_SHUTDOWN,
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"Shutdown at end of performance tests.");
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torture_param(int, verbose, 1, "Enable verbose debugging printk()s");
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torture_param(int, writer_holdoff, 0, "Holdoff (us) between GPs, zero to disable");
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torture_param(int, kfree_rcu_test, 0, "Do we run a kfree_rcu() perf test?");
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static char *perf_type = "rcu";
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module_param(perf_type, charp, 0444);
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@ -105,8 +106,8 @@ static atomic_t n_rcu_perf_writer_finished;
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static wait_queue_head_t shutdown_wq;
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static u64 t_rcu_perf_writer_started;
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static u64 t_rcu_perf_writer_finished;
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static unsigned long b_rcu_perf_writer_started;
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static unsigned long b_rcu_perf_writer_finished;
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static unsigned long b_rcu_gp_test_started;
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static unsigned long b_rcu_gp_test_finished;
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static DEFINE_PER_CPU(atomic_t, n_async_inflight);
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#define MAX_MEAS 10000
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@ -378,10 +379,10 @@ rcu_perf_writer(void *arg)
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if (atomic_inc_return(&n_rcu_perf_writer_started) >= nrealwriters) {
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t_rcu_perf_writer_started = t;
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if (gp_exp) {
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b_rcu_perf_writer_started =
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b_rcu_gp_test_started =
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cur_ops->exp_completed() / 2;
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} else {
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b_rcu_perf_writer_started = cur_ops->get_gp_seq();
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b_rcu_gp_test_started = cur_ops->get_gp_seq();
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}
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}
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@ -429,10 +430,10 @@ rcu_perf_writer(void *arg)
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PERFOUT_STRING("Test complete");
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t_rcu_perf_writer_finished = t;
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if (gp_exp) {
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b_rcu_perf_writer_finished =
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b_rcu_gp_test_finished =
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cur_ops->exp_completed() / 2;
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} else {
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b_rcu_perf_writer_finished =
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b_rcu_gp_test_finished =
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cur_ops->get_gp_seq();
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}
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if (shutdown) {
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@ -515,8 +516,8 @@ rcu_perf_cleanup(void)
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t_rcu_perf_writer_finished -
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t_rcu_perf_writer_started,
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ngps,
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rcuperf_seq_diff(b_rcu_perf_writer_finished,
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b_rcu_perf_writer_started));
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rcuperf_seq_diff(b_rcu_gp_test_finished,
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b_rcu_gp_test_started));
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for (i = 0; i < nrealwriters; i++) {
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if (!writer_durations)
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break;
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@ -584,6 +585,167 @@ rcu_perf_shutdown(void *arg)
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return -EINVAL;
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}
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/*
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* kfree_rcu() performance tests: Start a kfree_rcu() loop on all CPUs for number
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* of iterations and measure total time and number of GP for all iterations to complete.
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*/
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torture_param(int, kfree_nthreads, -1, "Number of threads running loops of kfree_rcu().");
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torture_param(int, kfree_alloc_num, 8000, "Number of allocations and frees done in an iteration.");
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torture_param(int, kfree_loops, 10, "Number of loops doing kfree_alloc_num allocations and frees.");
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torture_param(int, kfree_no_batch, 0, "Use the non-batching (slower) version of kfree_rcu().");
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static struct task_struct **kfree_reader_tasks;
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static int kfree_nrealthreads;
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static atomic_t n_kfree_perf_thread_started;
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static atomic_t n_kfree_perf_thread_ended;
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struct kfree_obj {
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char kfree_obj[8];
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struct rcu_head rh;
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};
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static int
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kfree_perf_thread(void *arg)
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{
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int i, loop = 0;
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long me = (long)arg;
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struct kfree_obj *alloc_ptr;
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u64 start_time, end_time;
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VERBOSE_PERFOUT_STRING("kfree_perf_thread task started");
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set_cpus_allowed_ptr(current, cpumask_of(me % nr_cpu_ids));
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set_user_nice(current, MAX_NICE);
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start_time = ktime_get_mono_fast_ns();
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if (atomic_inc_return(&n_kfree_perf_thread_started) >= kfree_nrealthreads) {
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if (gp_exp)
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b_rcu_gp_test_started = cur_ops->exp_completed() / 2;
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else
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b_rcu_gp_test_started = cur_ops->get_gp_seq();
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}
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do {
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for (i = 0; i < kfree_alloc_num; i++) {
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alloc_ptr = kmalloc(sizeof(struct kfree_obj), GFP_KERNEL);
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if (!alloc_ptr)
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return -ENOMEM;
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if (!kfree_no_batch) {
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kfree_rcu(alloc_ptr, rh);
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} else {
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rcu_callback_t cb;
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cb = (rcu_callback_t)(unsigned long)offsetof(struct kfree_obj, rh);
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kfree_call_rcu_nobatch(&(alloc_ptr->rh), cb);
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}
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}
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cond_resched();
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} while (!torture_must_stop() && ++loop < kfree_loops);
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if (atomic_inc_return(&n_kfree_perf_thread_ended) >= kfree_nrealthreads) {
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end_time = ktime_get_mono_fast_ns();
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if (gp_exp)
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b_rcu_gp_test_finished = cur_ops->exp_completed() / 2;
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else
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b_rcu_gp_test_finished = cur_ops->get_gp_seq();
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pr_alert("Total time taken by all kfree'ers: %llu ns, loops: %d, batches: %ld\n",
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(unsigned long long)(end_time - start_time), kfree_loops,
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rcuperf_seq_diff(b_rcu_gp_test_finished, b_rcu_gp_test_started));
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if (shutdown) {
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smp_mb(); /* Assign before wake. */
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wake_up(&shutdown_wq);
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}
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}
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torture_kthread_stopping("kfree_perf_thread");
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return 0;
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}
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static void
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kfree_perf_cleanup(void)
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{
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int i;
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if (torture_cleanup_begin())
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return;
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if (kfree_reader_tasks) {
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for (i = 0; i < kfree_nrealthreads; i++)
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torture_stop_kthread(kfree_perf_thread,
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kfree_reader_tasks[i]);
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kfree(kfree_reader_tasks);
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}
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torture_cleanup_end();
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}
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/*
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* shutdown kthread. Just waits to be awakened, then shuts down system.
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*/
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static int
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kfree_perf_shutdown(void *arg)
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{
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do {
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wait_event(shutdown_wq,
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atomic_read(&n_kfree_perf_thread_ended) >=
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kfree_nrealthreads);
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} while (atomic_read(&n_kfree_perf_thread_ended) < kfree_nrealthreads);
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smp_mb(); /* Wake before output. */
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kfree_perf_cleanup();
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kernel_power_off();
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return -EINVAL;
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}
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static int __init
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kfree_perf_init(void)
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{
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long i;
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int firsterr = 0;
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kfree_nrealthreads = compute_real(kfree_nthreads);
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/* Start up the kthreads. */
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if (shutdown) {
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init_waitqueue_head(&shutdown_wq);
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firsterr = torture_create_kthread(kfree_perf_shutdown, NULL,
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shutdown_task);
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if (firsterr)
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goto unwind;
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schedule_timeout_uninterruptible(1);
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}
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kfree_reader_tasks = kcalloc(kfree_nrealthreads, sizeof(kfree_reader_tasks[0]),
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GFP_KERNEL);
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if (kfree_reader_tasks == NULL) {
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firsterr = -ENOMEM;
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goto unwind;
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}
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for (i = 0; i < kfree_nrealthreads; i++) {
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firsterr = torture_create_kthread(kfree_perf_thread, (void *)i,
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kfree_reader_tasks[i]);
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if (firsterr)
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goto unwind;
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}
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while (atomic_read(&n_kfree_perf_thread_started) < kfree_nrealthreads)
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schedule_timeout_uninterruptible(1);
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torture_init_end();
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return 0;
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unwind:
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torture_init_end();
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kfree_perf_cleanup();
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return firsterr;
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}
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static int __init
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rcu_perf_init(void)
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{
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@ -616,6 +778,9 @@ rcu_perf_init(void)
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if (cur_ops->init)
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cur_ops->init();
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if (kfree_rcu_test)
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return kfree_perf_init();
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nrealwriters = compute_real(nwriters);
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nrealreaders = compute_real(nreaders);
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atomic_set(&n_rcu_perf_reader_started, 0);
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