openEuler_kernel_rk3588/tools/testing/selftests/resctrl/mbm_test.c

// SPDX-License-Identifier: GPL-2.0
/*
 * Memory Bandwidth Monitoring (MBM) test
 *
 * Copyright (C) 2018 Intel Corporation
 *
 * Authors:
 *    Sai Praneeth Prakhya <sai.praneeth.prakhya@intel.com>,
 *    Fenghua Yu <fenghua.yu@intel.com>
 */
#include "resctrl.h"

#define RESULT_FILE_NAME	"result_mbm"
#define MAX_DIFF_PERCENT	8
#define NUM_OF_RUNS		5

static int
show_bw_info(unsigned long *bw_imc, unsigned long *bw_resc, size_t span)
{
	unsigned long avg_bw_imc = 0, avg_bw_resc = 0;
	unsigned long sum_bw_imc = 0, sum_bw_resc = 0;
	int runs, ret, avg_diff_per;
	float avg_diff = 0;

	/*
	 * Discard the first value which is inaccurate due to monitoring setup
	 * transition phase.
	 */
	for (runs = 1; runs < NUM_OF_RUNS ; runs++) {
		sum_bw_imc += bw_imc[runs];
		sum_bw_resc += bw_resc[runs];
	}

	avg_bw_imc = sum_bw_imc / 4;
	avg_bw_resc = sum_bw_resc / 4;
	avg_diff = (float)labs(avg_bw_resc - avg_bw_imc) / avg_bw_imc;
	avg_diff_per = (int)(avg_diff * 100);

	ret = avg_diff_per > MAX_DIFF_PERCENT;
	ksft_print_msg("%s Check MBM diff within %d%%\n",
		       ret ? "Fail:" : "Pass:", MAX_DIFF_PERCENT);
	ksft_print_msg("avg_diff_per: %d%%\n", avg_diff_per);
	ksft_print_msg("Span (MB): %zu\n", span / MB);
	ksft_print_msg("avg_bw_imc: %lu\n", avg_bw_imc);
	ksft_print_msg("avg_bw_resc: %lu\n", avg_bw_resc);

	return ret;
}

static int check_results(size_t span)
{
	unsigned long bw_imc[NUM_OF_RUNS], bw_resc[NUM_OF_RUNS];
	char temp[1024], *token_array[8];
	char output[] = RESULT_FILE_NAME;
	int runs, ret;
	FILE *fp;

	ksft_print_msg("Checking for pass/fail\n");

	fp = fopen(output, "r");
	if (!fp) {
		perror(output);

		return errno;
	}

	runs = 0;
	while (fgets(temp, sizeof(temp), fp)) {
		char *token = strtok(temp, ":\t");
		int i = 0;

		while (token) {
			token_array[i++] = token;
			token = strtok(NULL, ":\t");
		}

		bw_resc[runs] = strtoul(token_array[5], NULL, 0);
		bw_imc[runs] = strtoul(token_array[3], NULL, 0);
		runs++;
	}

	ret = show_bw_info(bw_imc, bw_resc, span);

	fclose(fp);

	return ret;
}

static int mbm_setup(struct resctrl_val_param *p)
{
	int ret = 0;

	/* Run NUM_OF_RUNS times */
	if (p->num_of_runs >= NUM_OF_RUNS)
		return END_OF_TESTS;

	/* Set up shemata with 100% allocation on the first run. */
	if (p->num_of_runs == 0)
		ret = write_schemata(p->ctrlgrp, "100", p->cpu_no,
				     p->resctrl_val);

	p->num_of_runs++;

	return ret;
}

void mbm_test_cleanup(void)
{
	remove(RESULT_FILE_NAME);
}

int mbm_bw_change(int cpu_no, const char * const *benchmark_cmd)
{
	struct resctrl_val_param param = {
		.resctrl_val	= MBM_STR,
		.ctrlgrp	= "c1",
		.mongrp		= "m1",
		.cpu_no		= cpu_no,
		.filename	= RESULT_FILE_NAME,
		.bw_report	= "reads",
		.setup		= mbm_setup
	};
	int ret;

	remove(RESULT_FILE_NAME);

	ret = resctrl_val(benchmark_cmd, &param);
	if (ret)
		goto out;

	ret = check_results(DEFAULT_SPAN);

out:
	mbm_test_cleanup();

	return ret;
}
new 2026-01-21 18:59:54 +08:00			`// SPDX-License-Identifier: GPL-2.0`
			`/*`
			`* Memory Bandwidth Monitoring (MBM) test`
			`*`
			`* Copyright (C) 2018 Intel Corporation`
			`*`
			`* Authors:`
			`* Sai Praneeth Prakhya <sai.praneeth.prakhya@intel.com>,`
			`* Fenghua Yu <fenghua.yu@intel.com>`
			`*/`
			`#include "resctrl.h"`

			`#define RESULT_FILE_NAME "result_mbm"`
init 2026-01-29 22:25:33 +08:00			`#define MAX_DIFF_PERCENT 8`
new 2026-01-21 18:59:54 +08:00			`#define NUM_OF_RUNS 5`

init 2026-01-29 22:25:33 +08:00			`static int`
			`show_bw_info(unsigned long bw_imc, unsigned long bw_resc, size_t span)`
new 2026-01-21 18:59:54 +08:00			`{`
			`unsigned long avg_bw_imc = 0, avg_bw_resc = 0;`
			`unsigned long sum_bw_imc = 0, sum_bw_resc = 0;`
init 2026-01-29 22:25:33 +08:00			`int runs, ret, avg_diff_per;`
			`float avg_diff = 0;`
new 2026-01-21 18:59:54 +08:00
			`/*`
			`* Discard the first value which is inaccurate due to monitoring setup`
			`* transition phase.`
			`*/`
			`for (runs = 1; runs < NUM_OF_RUNS ; runs++) {`
			`sum_bw_imc += bw_imc[runs];`
			`sum_bw_resc += bw_resc[runs];`
			`}`

			`avg_bw_imc = sum_bw_imc / 4;`
			`avg_bw_resc = sum_bw_resc / 4;`
init 2026-01-29 22:25:33 +08:00			`avg_diff = (float)labs(avg_bw_resc - avg_bw_imc) / avg_bw_imc;`
			`avg_diff_per = (int)(avg_diff * 100);`

			`ret = avg_diff_per > MAX_DIFF_PERCENT;`
			`ksft_print_msg("%s Check MBM diff within %d%%\n",`
			`ret ? "Fail:" : "Pass:", MAX_DIFF_PERCENT);`
			`ksft_print_msg("avg_diff_per: %d%%\n", avg_diff_per);`
			`ksft_print_msg("Span (MB): %zu\n", span / MB);`
			`ksft_print_msg("avg_bw_imc: %lu\n", avg_bw_imc);`
			`ksft_print_msg("avg_bw_resc: %lu\n", avg_bw_resc);`

			`return ret;`
new 2026-01-21 18:59:54 +08:00			`}`

init 2026-01-29 22:25:33 +08:00			`static int check_results(size_t span)`
new 2026-01-21 18:59:54 +08:00			`{`
			`unsigned long bw_imc[NUM_OF_RUNS], bw_resc[NUM_OF_RUNS];`
			`char temp[1024], *token_array[8];`
			`char output[] = RESULT_FILE_NAME;`
init 2026-01-29 22:25:33 +08:00			`int runs, ret;`
new 2026-01-21 18:59:54 +08:00			`FILE *fp;`

init 2026-01-29 22:25:33 +08:00			`ksft_print_msg("Checking for pass/fail\n");`
new 2026-01-21 18:59:54 +08:00
			`fp = fopen(output, "r");`
			`if (!fp) {`
			`perror(output);`

			`return errno;`
			`}`

			`runs = 0;`
			`while (fgets(temp, sizeof(temp), fp)) {`
			`char *token = strtok(temp, ":\t");`
			`int i = 0;`

			`while (token) {`
			`token_array[i++] = token;`
			`token = strtok(NULL, ":\t");`
			`}`

			`bw_resc[runs] = strtoul(token_array[5], NULL, 0);`
			`bw_imc[runs] = strtoul(token_array[3], NULL, 0);`
			`runs++;`
			`}`

init 2026-01-29 22:25:33 +08:00			`ret = show_bw_info(bw_imc, bw_resc, span);`
new 2026-01-21 18:59:54 +08:00
			`fclose(fp);`

init 2026-01-29 22:25:33 +08:00			`return ret;`
new 2026-01-21 18:59:54 +08:00			`}`

init 2026-01-29 22:25:33 +08:00			`static int mbm_setup(struct resctrl_val_param *p)`
new 2026-01-21 18:59:54 +08:00			`{`
			`int ret = 0;`

			`/* Run NUM_OF_RUNS times */`
init 2026-01-29 22:25:33 +08:00			`if (p->num_of_runs >= NUM_OF_RUNS)`
			`return END_OF_TESTS;`
new 2026-01-21 18:59:54 +08:00
			`/* Set up shemata with 100% allocation on the first run. */`
init 2026-01-29 22:25:33 +08:00			`if (p->num_of_runs == 0)`
new 2026-01-21 18:59:54 +08:00			`ret = write_schemata(p->ctrlgrp, "100", p->cpu_no,`
			`p->resctrl_val);`

init 2026-01-29 22:25:33 +08:00			`p->num_of_runs++;`

new 2026-01-21 18:59:54 +08:00			`return ret;`
			`}`

			`void mbm_test_cleanup(void)`
			`{`
			`remove(RESULT_FILE_NAME);`
			`}`

init 2026-01-29 22:25:33 +08:00			`int mbm_bw_change(int cpu_no, const char * const *benchmark_cmd)`
new 2026-01-21 18:59:54 +08:00			`{`
			`struct resctrl_val_param param = {`
			`.resctrl_val = MBM_STR,`
			`.ctrlgrp = "c1",`
			`.mongrp = "m1",`
			`.cpu_no = cpu_no,`
			`.filename = RESULT_FILE_NAME,`
init 2026-01-29 22:25:33 +08:00			`.bw_report = "reads",`
new 2026-01-21 18:59:54 +08:00			`.setup = mbm_setup`
			`};`
			`int ret;`

			`remove(RESULT_FILE_NAME);`

			`ret = resctrl_val(benchmark_cmd, &param);`
			`if (ret)`
init 2026-01-29 22:25:33 +08:00			`goto out;`
new 2026-01-21 18:59:54 +08:00
init 2026-01-29 22:25:33 +08:00			`ret = check_results(DEFAULT_SPAN);`
new 2026-01-21 18:59:54 +08:00
init 2026-01-29 22:25:33 +08:00			`out:`
new 2026-01-21 18:59:54 +08:00			`mbm_test_cleanup();`

init 2026-01-29 22:25:33 +08:00			`return ret;`
new 2026-01-21 18:59:54 +08:00			`}`