1be621a76SAndrea Righi // SPDX-License-Identifier: GPL-2.0
2be621a76SAndrea Righi /*
3be621a76SAndrea Righi * Copyright (c) 2025 NVIDIA Corporation.
4be621a76SAndrea Righi */
5be621a76SAndrea Righi #define _GNU_SOURCE
6be621a76SAndrea Righi #include <stdio.h>
7be621a76SAndrea Righi #include <stdlib.h>
8be621a76SAndrea Righi #include <unistd.h>
9be621a76SAndrea Righi #include <sched.h>
10be621a76SAndrea Righi #include <sys/prctl.h>
11be621a76SAndrea Righi #include <sys/types.h>
12be621a76SAndrea Righi #include <sys/wait.h>
13be621a76SAndrea Righi #include <time.h>
14be621a76SAndrea Righi #include <linux/sched.h>
15be621a76SAndrea Righi #include <signal.h>
16be621a76SAndrea Righi #include <bpf/bpf.h>
17be621a76SAndrea Righi #include <scx/common.h>
18be621a76SAndrea Righi #include <unistd.h>
19be621a76SAndrea Righi #include "rt_stall.bpf.skel.h"
20be621a76SAndrea Righi #include "scx_test.h"
21be621a76SAndrea Righi #include "../kselftest.h"
22be621a76SAndrea Righi
23be621a76SAndrea Righi #define CORE_ID 0 /* CPU to pin tasks to */
24be621a76SAndrea Righi #define RUN_TIME 5 /* How long to run the test in seconds */
25be621a76SAndrea Righi
26*0b82cc33SIhor Solodrai /* Signal the parent that setup is complete by writing to a pipe */
signal_ready(int fd)27*0b82cc33SIhor Solodrai static void signal_ready(int fd)
28*0b82cc33SIhor Solodrai {
29*0b82cc33SIhor Solodrai char c = 1;
30*0b82cc33SIhor Solodrai
31*0b82cc33SIhor Solodrai if (write(fd, &c, 1) != 1) {
32*0b82cc33SIhor Solodrai perror("write to ready pipe");
33*0b82cc33SIhor Solodrai exit(EXIT_FAILURE);
34*0b82cc33SIhor Solodrai }
35*0b82cc33SIhor Solodrai close(fd);
36*0b82cc33SIhor Solodrai }
37*0b82cc33SIhor Solodrai
38*0b82cc33SIhor Solodrai /* Wait for a child to signal readiness via a pipe */
wait_ready(int fd)39*0b82cc33SIhor Solodrai static void wait_ready(int fd)
40*0b82cc33SIhor Solodrai {
41*0b82cc33SIhor Solodrai char c;
42*0b82cc33SIhor Solodrai
43*0b82cc33SIhor Solodrai if (read(fd, &c, 1) != 1) {
44*0b82cc33SIhor Solodrai perror("read from ready pipe");
45*0b82cc33SIhor Solodrai exit(EXIT_FAILURE);
46*0b82cc33SIhor Solodrai }
47*0b82cc33SIhor Solodrai close(fd);
48*0b82cc33SIhor Solodrai }
49*0b82cc33SIhor Solodrai
50be621a76SAndrea Righi /* Simple busy-wait function for test tasks */
process_func(void)51be621a76SAndrea Righi static void process_func(void)
52be621a76SAndrea Righi {
53be621a76SAndrea Righi while (1) {
54be621a76SAndrea Righi /* Busy wait */
55be621a76SAndrea Righi for (volatile unsigned long i = 0; i < 10000000UL; i++)
56be621a76SAndrea Righi ;
57be621a76SAndrea Righi }
58be621a76SAndrea Righi }
59be621a76SAndrea Righi
60be621a76SAndrea Righi /* Set CPU affinity to a specific core */
set_affinity(int cpu)61be621a76SAndrea Righi static void set_affinity(int cpu)
62be621a76SAndrea Righi {
63be621a76SAndrea Righi cpu_set_t mask;
64be621a76SAndrea Righi
65be621a76SAndrea Righi CPU_ZERO(&mask);
66be621a76SAndrea Righi CPU_SET(cpu, &mask);
67be621a76SAndrea Righi if (sched_setaffinity(0, sizeof(mask), &mask) != 0) {
68be621a76SAndrea Righi perror("sched_setaffinity");
69be621a76SAndrea Righi exit(EXIT_FAILURE);
70be621a76SAndrea Righi }
71be621a76SAndrea Righi }
72be621a76SAndrea Righi
73be621a76SAndrea Righi /* Set task scheduling policy and priority */
set_sched(int policy,int priority)74be621a76SAndrea Righi static void set_sched(int policy, int priority)
75be621a76SAndrea Righi {
76be621a76SAndrea Righi struct sched_param param;
77be621a76SAndrea Righi
78be621a76SAndrea Righi param.sched_priority = priority;
79be621a76SAndrea Righi if (sched_setscheduler(0, policy, ¶m) != 0) {
80be621a76SAndrea Righi perror("sched_setscheduler");
81be621a76SAndrea Righi exit(EXIT_FAILURE);
82be621a76SAndrea Righi }
83be621a76SAndrea Righi }
84be621a76SAndrea Righi
85be621a76SAndrea Righi /* Get process runtime from /proc/<pid>/stat */
get_process_runtime(int pid)86be621a76SAndrea Righi static float get_process_runtime(int pid)
87be621a76SAndrea Righi {
88be621a76SAndrea Righi char path[256];
89be621a76SAndrea Righi FILE *file;
90be621a76SAndrea Righi long utime, stime;
91be621a76SAndrea Righi int fields;
92be621a76SAndrea Righi
93be621a76SAndrea Righi snprintf(path, sizeof(path), "/proc/%d/stat", pid);
94be621a76SAndrea Righi file = fopen(path, "r");
95be621a76SAndrea Righi if (file == NULL) {
96be621a76SAndrea Righi perror("Failed to open stat file");
97be621a76SAndrea Righi return -1;
98be621a76SAndrea Righi }
99be621a76SAndrea Righi
100be621a76SAndrea Righi /* Skip the first 13 fields and read the 14th and 15th */
101be621a76SAndrea Righi fields = fscanf(file,
102be621a76SAndrea Righi "%*d %*s %*c %*d %*d %*d %*d %*d %*u %*u %*u %*u %*u %lu %lu",
103be621a76SAndrea Righi &utime, &stime);
104be621a76SAndrea Righi fclose(file);
105be621a76SAndrea Righi
106be621a76SAndrea Righi if (fields != 2) {
107be621a76SAndrea Righi fprintf(stderr, "Failed to read stat file\n");
108be621a76SAndrea Righi return -1;
109be621a76SAndrea Righi }
110be621a76SAndrea Righi
111be621a76SAndrea Righi /* Calculate the total time spent in the process */
112be621a76SAndrea Righi long total_time = utime + stime;
113be621a76SAndrea Righi long ticks_per_second = sysconf(_SC_CLK_TCK);
114be621a76SAndrea Righi float runtime_seconds = total_time * 1.0 / ticks_per_second;
115be621a76SAndrea Righi
116be621a76SAndrea Righi return runtime_seconds;
117be621a76SAndrea Righi }
118be621a76SAndrea Righi
setup(void ** ctx)119be621a76SAndrea Righi static enum scx_test_status setup(void **ctx)
120be621a76SAndrea Righi {
121be621a76SAndrea Righi struct rt_stall *skel;
122be621a76SAndrea Righi
123be621a76SAndrea Righi skel = rt_stall__open();
124be621a76SAndrea Righi SCX_FAIL_IF(!skel, "Failed to open");
125be621a76SAndrea Righi SCX_ENUM_INIT(skel);
126be621a76SAndrea Righi SCX_FAIL_IF(rt_stall__load(skel), "Failed to load skel");
127be621a76SAndrea Righi
128be621a76SAndrea Righi *ctx = skel;
129be621a76SAndrea Righi
130be621a76SAndrea Righi return SCX_TEST_PASS;
131be621a76SAndrea Righi }
132be621a76SAndrea Righi
sched_stress_test(bool is_ext)133be621a76SAndrea Righi static bool sched_stress_test(bool is_ext)
134be621a76SAndrea Righi {
135be621a76SAndrea Righi /*
136be621a76SAndrea Righi * We're expecting the EXT task to get around 5% of CPU time when
137be621a76SAndrea Righi * competing with the RT task (small 1% fluctuations are expected).
138be621a76SAndrea Righi *
139be621a76SAndrea Righi * However, the EXT task should get at least 4% of the CPU to prove
140be621a76SAndrea Righi * that the EXT deadline server is working correctly. A percentage
141be621a76SAndrea Righi * less than 4% indicates a bug where RT tasks can potentially
142be621a76SAndrea Righi * stall SCHED_EXT tasks, causing the test to fail.
143be621a76SAndrea Righi */
144be621a76SAndrea Righi const float expected_min_ratio = 0.04; /* 4% */
145be621a76SAndrea Righi const char *class_str = is_ext ? "EXT" : "FAIR";
146be621a76SAndrea Righi
147be621a76SAndrea Righi float ext_runtime, rt_runtime, actual_ratio;
148be621a76SAndrea Righi int ext_pid, rt_pid;
149*0b82cc33SIhor Solodrai int ext_ready[2], rt_ready[2];
150be621a76SAndrea Righi
151be621a76SAndrea Righi ksft_print_header();
152be621a76SAndrea Righi ksft_set_plan(1);
153be621a76SAndrea Righi
154*0b82cc33SIhor Solodrai if (pipe(ext_ready) || pipe(rt_ready)) {
155*0b82cc33SIhor Solodrai perror("pipe");
156*0b82cc33SIhor Solodrai ksft_exit_fail();
157*0b82cc33SIhor Solodrai }
158*0b82cc33SIhor Solodrai
159be621a76SAndrea Righi /* Create and set up a EXT task */
160be621a76SAndrea Righi ext_pid = fork();
161be621a76SAndrea Righi if (ext_pid == 0) {
162*0b82cc33SIhor Solodrai close(ext_ready[0]);
163*0b82cc33SIhor Solodrai close(rt_ready[0]);
164*0b82cc33SIhor Solodrai close(rt_ready[1]);
165be621a76SAndrea Righi set_affinity(CORE_ID);
166*0b82cc33SIhor Solodrai signal_ready(ext_ready[1]);
167be621a76SAndrea Righi process_func();
168be621a76SAndrea Righi exit(0);
169be621a76SAndrea Righi } else if (ext_pid < 0) {
170be621a76SAndrea Righi perror("fork task");
171be621a76SAndrea Righi ksft_exit_fail();
172be621a76SAndrea Righi }
173be621a76SAndrea Righi
174be621a76SAndrea Righi /* Create an RT task */
175be621a76SAndrea Righi rt_pid = fork();
176be621a76SAndrea Righi if (rt_pid == 0) {
177*0b82cc33SIhor Solodrai close(ext_ready[0]);
178*0b82cc33SIhor Solodrai close(ext_ready[1]);
179*0b82cc33SIhor Solodrai close(rt_ready[0]);
180be621a76SAndrea Righi set_affinity(CORE_ID);
181be621a76SAndrea Righi set_sched(SCHED_FIFO, 50);
182*0b82cc33SIhor Solodrai signal_ready(rt_ready[1]);
183be621a76SAndrea Righi process_func();
184be621a76SAndrea Righi exit(0);
185be621a76SAndrea Righi } else if (rt_pid < 0) {
186be621a76SAndrea Righi perror("fork for RT task");
187be621a76SAndrea Righi ksft_exit_fail();
188be621a76SAndrea Righi }
189be621a76SAndrea Righi
190*0b82cc33SIhor Solodrai /*
191*0b82cc33SIhor Solodrai * Wait for both children to complete their setup (affinity and
192*0b82cc33SIhor Solodrai * scheduling policy) before starting the measurement window.
193*0b82cc33SIhor Solodrai * This prevents flaky failures caused by the RT child's setup
194*0b82cc33SIhor Solodrai * time eating into the measurement period.
195*0b82cc33SIhor Solodrai */
196*0b82cc33SIhor Solodrai close(ext_ready[1]);
197*0b82cc33SIhor Solodrai close(rt_ready[1]);
198*0b82cc33SIhor Solodrai wait_ready(ext_ready[0]);
199*0b82cc33SIhor Solodrai wait_ready(rt_ready[0]);
200*0b82cc33SIhor Solodrai
201be621a76SAndrea Righi /* Let the processes run for the specified time */
202be621a76SAndrea Righi sleep(RUN_TIME);
203be621a76SAndrea Righi
204be621a76SAndrea Righi /* Get runtime for the EXT task */
205be621a76SAndrea Righi ext_runtime = get_process_runtime(ext_pid);
206be621a76SAndrea Righi if (ext_runtime == -1)
207be621a76SAndrea Righi ksft_exit_fail_msg("Error getting runtime for %s task (PID %d)\n",
208be621a76SAndrea Righi class_str, ext_pid);
209be621a76SAndrea Righi ksft_print_msg("Runtime of %s task (PID %d) is %f seconds\n",
210be621a76SAndrea Righi class_str, ext_pid, ext_runtime);
211be621a76SAndrea Righi
212be621a76SAndrea Righi /* Get runtime for the RT task */
213be621a76SAndrea Righi rt_runtime = get_process_runtime(rt_pid);
214be621a76SAndrea Righi if (rt_runtime == -1)
215be621a76SAndrea Righi ksft_exit_fail_msg("Error getting runtime for RT task (PID %d)\n", rt_pid);
216be621a76SAndrea Righi ksft_print_msg("Runtime of RT task (PID %d) is %f seconds\n", rt_pid, rt_runtime);
217be621a76SAndrea Righi
218be621a76SAndrea Righi /* Kill the processes */
219be621a76SAndrea Righi kill(ext_pid, SIGKILL);
220be621a76SAndrea Righi kill(rt_pid, SIGKILL);
221be621a76SAndrea Righi waitpid(ext_pid, NULL, 0);
222be621a76SAndrea Righi waitpid(rt_pid, NULL, 0);
223be621a76SAndrea Righi
224be621a76SAndrea Righi /* Verify that the scx task got enough runtime */
225be621a76SAndrea Righi actual_ratio = ext_runtime / (ext_runtime + rt_runtime);
226be621a76SAndrea Righi ksft_print_msg("%s task got %.2f%% of total runtime\n",
227be621a76SAndrea Righi class_str, actual_ratio * 100);
228be621a76SAndrea Righi
229be621a76SAndrea Righi if (actual_ratio >= expected_min_ratio) {
230be621a76SAndrea Righi ksft_test_result_pass("PASS: %s task got more than %.2f%% of runtime\n",
231be621a76SAndrea Righi class_str, expected_min_ratio * 100);
232be621a76SAndrea Righi return true;
233be621a76SAndrea Righi }
234be621a76SAndrea Righi ksft_test_result_fail("FAIL: %s task got less than %.2f%% of runtime\n",
235be621a76SAndrea Righi class_str, expected_min_ratio * 100);
236be621a76SAndrea Righi return false;
237be621a76SAndrea Righi }
238be621a76SAndrea Righi
run(void * ctx)239be621a76SAndrea Righi static enum scx_test_status run(void *ctx)
240be621a76SAndrea Righi {
241be621a76SAndrea Righi struct rt_stall *skel = ctx;
242be621a76SAndrea Righi struct bpf_link *link = NULL;
243be621a76SAndrea Righi bool res;
244be621a76SAndrea Righi int i;
245be621a76SAndrea Righi
246be621a76SAndrea Righi /*
247be621a76SAndrea Righi * Test if the dl_server is working both with and without the
248be621a76SAndrea Righi * sched_ext scheduler attached.
249be621a76SAndrea Righi *
250be621a76SAndrea Righi * This ensures all the scenarios are covered:
251be621a76SAndrea Righi * - fair_server stop -> ext_server start
252be621a76SAndrea Righi * - ext_server stop -> fair_server stop
253be621a76SAndrea Righi */
254be621a76SAndrea Righi for (i = 0; i < 4; i++) {
255be621a76SAndrea Righi bool is_ext = i % 2;
256be621a76SAndrea Righi
257be621a76SAndrea Righi if (is_ext) {
258be621a76SAndrea Righi memset(&skel->data->uei, 0, sizeof(skel->data->uei));
259be621a76SAndrea Righi link = bpf_map__attach_struct_ops(skel->maps.rt_stall_ops);
260be621a76SAndrea Righi SCX_FAIL_IF(!link, "Failed to attach scheduler");
261be621a76SAndrea Righi }
262be621a76SAndrea Righi res = sched_stress_test(is_ext);
263be621a76SAndrea Righi if (is_ext) {
264be621a76SAndrea Righi SCX_EQ(skel->data->uei.kind, EXIT_KIND(SCX_EXIT_NONE));
265be621a76SAndrea Righi bpf_link__destroy(link);
266be621a76SAndrea Righi }
267be621a76SAndrea Righi
268be621a76SAndrea Righi if (!res)
269be621a76SAndrea Righi ksft_exit_fail();
270be621a76SAndrea Righi }
271be621a76SAndrea Righi
272be621a76SAndrea Righi return SCX_TEST_PASS;
273be621a76SAndrea Righi }
274be621a76SAndrea Righi
cleanup(void * ctx)275be621a76SAndrea Righi static void cleanup(void *ctx)
276be621a76SAndrea Righi {
277be621a76SAndrea Righi struct rt_stall *skel = ctx;
278be621a76SAndrea Righi
279be621a76SAndrea Righi rt_stall__destroy(skel);
280be621a76SAndrea Righi }
281be621a76SAndrea Righi
282be621a76SAndrea Righi struct scx_test rt_stall = {
283be621a76SAndrea Righi .name = "rt_stall",
284be621a76SAndrea Righi .description = "Verify that RT tasks cannot stall SCHED_EXT tasks",
285be621a76SAndrea Righi .setup = setup,
286be621a76SAndrea Righi .run = run,
287be621a76SAndrea Righi .cleanup = cleanup,
288be621a76SAndrea Righi };
289be621a76SAndrea Righi REGISTER_SCX_TEST(&rt_stall)
290