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linux/tools/testing/selftests/resctrl/mbm_test.c
Maciej Wieczor-Retman d6d35d0b0f selftests/resctrl: Discover SNC kernel support and adjust messages 
Resctrl selftest prints a message on test failure that Sub-Numa
Clustering (SNC) could be enabled and points the user to check their BIOS
settings. No actual check is performed before printing that message so
it is not very accurate in pinpointing a problem.

When there is SNC support for kernel's resctrl subsystem and SNC is
enabled then sub node files are created for each node in the resctrlfs.
The sub node files exist in each regular node's L3 monitoring directory.
The reliable path to check for existence of sub node files is
/sys/fs/resctrl/mon_data/mon_L3_00/mon_sub_L3_00.

Add helper that checks for mon_sub_L3_00 existence.

Correct old messages to account for kernel support of SNC in
resctrl.

Signed-off-by: Maciej Wieczor-Retman <maciej.wieczor-retman@intel.com>
Reviewed-by: Reinette Chatre <reinette.chatre@intel.com>
Signed-off-by: Shuah Khan <skhan@linuxfoundation.org>
2025-01-14 17:06:32 -07:00

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// 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 sum_bw_imc = 0, sum_bw_resc = 0;
long avg_bw_imc = 0, avg_bw_resc = 0;
int runs, ret, avg_diff_per;
float avg_diff = 0;
for (runs = 0; runs < NUM_OF_RUNS; runs++) {
sum_bw_imc += bw_imc[runs];
sum_bw_resc += bw_resc[runs];
}
avg_bw_imc = sum_bw_imc / NUM_OF_RUNS;
avg_bw_resc = sum_bw_resc / NUM_OF_RUNS;
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);
if (span)
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) {
ksft_perror(output);
return -1;
}
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_init(const struct resctrl_val_param *param, int domain_id)
{
int ret;
ret = initialize_read_mem_bw_imc();
if (ret)
return ret;
initialize_mem_bw_resctrl(param, domain_id);
return 0;
}
static int mbm_setup(const struct resctrl_test *test,
const struct user_params *uparams,
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 && resctrl_resource_exists("MB"))
ret = write_schemata(p->ctrlgrp, "100", uparams->cpu, test->resource);
p->num_of_runs++;
return ret;
}
static int mbm_measure(const struct user_params *uparams,
struct resctrl_val_param *param, pid_t bm_pid)
{
return measure_read_mem_bw(uparams, param, bm_pid);
}
static void mbm_test_cleanup(void)
{
remove(RESULT_FILE_NAME);
}
static int mbm_run_test(const struct resctrl_test *test, const struct user_params *uparams)
{
struct resctrl_val_param param = {
.ctrlgrp = "c1",
.filename = RESULT_FILE_NAME,
.init = mbm_init,
.setup = mbm_setup,
.measure = mbm_measure,
};
struct fill_buf_param fill_buf = {};
int ret;
remove(RESULT_FILE_NAME);
if (uparams->fill_buf) {
fill_buf.buf_size = uparams->fill_buf->buf_size;
fill_buf.memflush = uparams->fill_buf->memflush;
param.fill_buf = &fill_buf;
} else if (!uparams->benchmark_cmd[0]) {
ssize_t buf_size;
buf_size = get_fill_buf_size(uparams->cpu, "L3");
if (buf_size < 0)
return buf_size;
fill_buf.buf_size = buf_size;
fill_buf.memflush = true;
param.fill_buf = &fill_buf;
}
ret = resctrl_val(test, uparams, &param);
if (ret)
return ret;
ret = check_results(param.fill_buf ? param.fill_buf->buf_size : 0);
if (ret && (get_vendor() == ARCH_INTEL) && !snc_kernel_support())
ksft_print_msg("Kernel doesn't support Sub-NUMA Clustering but it is enabled on the system.\n");
return ret;
}
static bool mbm_feature_check(const struct resctrl_test *test)
{
return resctrl_mon_feature_exists("L3_MON", "mbm_total_bytes") &&
resctrl_mon_feature_exists("L3_MON", "mbm_local_bytes");
}
struct resctrl_test mbm_test = {
.name = "MBM",
.resource = "MB",
.vendor_specific = ARCH_INTEL,
.feature_check = mbm_feature_check,
.run_test = mbm_run_test,
.cleanup = mbm_test_cleanup,
};
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