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linux-next/tools/counter/counter_watch_events.c

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// SPDX-License-Identifier: GPL-2.0-only
/*
* Counter Watch Events - Test various counter watch events in a userspace application
*
* Copyright (C) STMicroelectronics 2023 - All Rights Reserved
* Author: Fabrice Gasnier <fabrice.gasnier@foss.st.com>.
*/
#include <errno.h>
#include <fcntl.h>
#include <getopt.h>
#include <linux/counter.h>
#include <linux/kernel.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <sys/ioctl.h>
#include <unistd.h>
static struct counter_watch simple_watch[] = {
{
/* Component data: Count 0 count */
.component.type = COUNTER_COMPONENT_COUNT,
.component.scope = COUNTER_SCOPE_COUNT,
.component.parent = 0,
/* Event type: overflow or underflow */
.event = COUNTER_EVENT_OVERFLOW_UNDERFLOW,
/* Device event channel 0 */
.channel = 0,
},
};
static const char * const counter_event_type_name[] = {
"COUNTER_EVENT_OVERFLOW",
"COUNTER_EVENT_UNDERFLOW",
"COUNTER_EVENT_OVERFLOW_UNDERFLOW",
"COUNTER_EVENT_THRESHOLD",
"COUNTER_EVENT_INDEX",
"COUNTER_EVENT_CHANGE_OF_STATE",
"COUNTER_EVENT_CAPTURE",
};
static const char * const counter_component_type_name[] = {
"COUNTER_COMPONENT_NONE",
"COUNTER_COMPONENT_SIGNAL",
"COUNTER_COMPONENT_COUNT",
"COUNTER_COMPONENT_FUNCTION",
"COUNTER_COMPONENT_SYNAPSE_ACTION",
"COUNTER_COMPONENT_EXTENSION",
};
static const char * const counter_scope_name[] = {
"COUNTER_SCOPE_DEVICE",
"COUNTER_SCOPE_SIGNAL",
"COUNTER_SCOPE_COUNT",
};
static void print_watch(struct counter_watch *watch, int nwatch)
{
int i;
/* prints the watch array in C-like structure */
printf("watch[%d] = {\n", nwatch);
for (i = 0; i < nwatch; i++) {
printf(" [%d] =\t{\n"
"\t\t.component.type = %s\n"
"\t\t.component.scope = %s\n"
"\t\t.component.parent = %d\n"
"\t\t.component.id = %d\n"
"\t\t.event = %s\n"
"\t\t.channel = %d\n"
"\t},\n",
i,
counter_component_type_name[watch[i].component.type],
counter_scope_name[watch[i].component.scope],
watch[i].component.parent,
watch[i].component.id,
counter_event_type_name[watch[i].event],
watch[i].channel);
}
printf("};\n");
}
static void print_usage(void)
{
fprintf(stderr, "Usage:\n\n"
"counter_watch_events [options] [-w <watchoptions>]\n"
"counter_watch_events [options] [-w <watch1 options>] [-w <watch2 options>]...\n"
"\n"
"When no --watch option has been provided, simple watch example is used:\n"
"counter_watch_events [options] -w comp_count,scope_count,evt_ovf_udf\n"
"\n"
"Test various watch events for given counter device.\n"
"\n"
"Options:\n"
" -d, --debug Prints debug information\n"
" -h, --help Prints usage\n"
" -n, --device-num <n> Use /dev/counter<n> [default: /dev/counter0]\n"
" -l, --loop <n> Loop for <n> events [default: 0 (forever)]\n"
" -w, --watch <watchoptions> comma-separated list of watch options\n"
"\n"
"Watch options:\n"
" scope_device (COUNTER_SCOPE_DEVICE) [default: scope_device]\n"
" scope_signal (COUNTER_SCOPE_SIGNAL)\n"
" scope_count (COUNTER_SCOPE_COUNT)\n"
"\n"
" comp_none (COUNTER_COMPONENT_NONE) [default: comp_none]\n"
" comp_signal (COUNTER_COMPONENT_SIGNAL)\n"
" comp_count (COUNTER_COMPONENT_COUNT)\n"
" comp_function (COUNTER_COMPONENT_FUNCTION)\n"
" comp_synapse_action (COUNTER_COMPONENT_SYNAPSE_ACTION)\n"
" comp_extension (COUNTER_COMPONENT_EXTENSION)\n"
"\n"
" evt_ovf (COUNTER_EVENT_OVERFLOW) [default: evt_ovf]\n"
" evt_udf (COUNTER_EVENT_UNDERFLOW)\n"
" evt_ovf_udf (COUNTER_EVENT_OVERFLOW_UNDERFLOW)\n"
" evt_threshold (COUNTER_EVENT_THRESHOLD)\n"
" evt_index (COUNTER_EVENT_INDEX)\n"
" evt_change_of_state (COUNTER_EVENT_CHANGE_OF_STATE)\n"
" evt_capture (COUNTER_EVENT_CAPTURE)\n"
"\n"
" chan=<n> channel <n> for this watch [default: 0]\n"
" id=<n> component id <n> for this watch [default: 0]\n"
" parent=<n> component parent <n> for this watch [default: 0]\n"
"\n"
"Example with two watched events:\n\n"
"counter_watch_events -d \\\n"
"\t-w comp_count,scope_count,evt_ovf_udf \\\n"
"\t-w comp_extension,scope_count,evt_capture,id=7,chan=3\n"
);
}
static const struct option longopts[] = {
{ "debug", no_argument, 0, 'd' },
{ "help", no_argument, 0, 'h' },
{ "device-num", required_argument, 0, 'n' },
{ "loop", required_argument, 0, 'l' },
{ "watch", required_argument, 0, 'w' },
{ },
};
/* counter watch subopts */
enum {
WATCH_SCOPE_DEVICE,
WATCH_SCOPE_SIGNAL,
WATCH_SCOPE_COUNT,
WATCH_COMPONENT_NONE,
WATCH_COMPONENT_SIGNAL,
WATCH_COMPONENT_COUNT,
WATCH_COMPONENT_FUNCTION,
WATCH_COMPONENT_SYNAPSE_ACTION,
WATCH_COMPONENT_EXTENSION,
WATCH_EVENT_OVERFLOW,
WATCH_EVENT_UNDERFLOW,
WATCH_EVENT_OVERFLOW_UNDERFLOW,
WATCH_EVENT_THRESHOLD,
WATCH_EVENT_INDEX,
WATCH_EVENT_CHANGE_OF_STATE,
WATCH_EVENT_CAPTURE,
WATCH_CHANNEL,
WATCH_ID,
WATCH_PARENT,
WATCH_SUBOPTS_MAX,
};
static char * const counter_watch_subopts[WATCH_SUBOPTS_MAX + 1] = {
/* component.scope */
[WATCH_SCOPE_DEVICE] = "scope_device",
[WATCH_SCOPE_SIGNAL] = "scope_signal",
[WATCH_SCOPE_COUNT] = "scope_count",
/* component.type */
[WATCH_COMPONENT_NONE] = "comp_none",
[WATCH_COMPONENT_SIGNAL] = "comp_signal",
[WATCH_COMPONENT_COUNT] = "comp_count",
[WATCH_COMPONENT_FUNCTION] = "comp_function",
[WATCH_COMPONENT_SYNAPSE_ACTION] = "comp_synapse_action",
[WATCH_COMPONENT_EXTENSION] = "comp_extension",
/* event */
[WATCH_EVENT_OVERFLOW] = "evt_ovf",
[WATCH_EVENT_UNDERFLOW] = "evt_udf",
[WATCH_EVENT_OVERFLOW_UNDERFLOW] = "evt_ovf_udf",
[WATCH_EVENT_THRESHOLD] = "evt_threshold",
[WATCH_EVENT_INDEX] = "evt_index",
[WATCH_EVENT_CHANGE_OF_STATE] = "evt_change_of_state",
[WATCH_EVENT_CAPTURE] = "evt_capture",
/* channel, id, parent */
[WATCH_CHANNEL] = "chan",
[WATCH_ID] = "id",
[WATCH_PARENT] = "parent",
/* Empty entry ends the opts array */
NULL
};
int main(int argc, char **argv)
{
int c, fd, i, ret, rc = 0, debug = 0, loop = 0, dev_num = 0, nwatch = 0;
struct counter_event event_data;
char *device_name = NULL, *subopts, *value;
struct counter_watch *watches;
/*
* 1st pass:
* - list watch events number to allocate the watch array.
* - parse normal options (other than watch options)
*/
while ((c = getopt_long(argc, argv, "dhn:l:w:", longopts, NULL)) != -1) {
switch (c) {
case 'd':
debug = 1;
break;
case 'h':
print_usage();
return EXIT_SUCCESS;
case 'n':
dev_num = strtoul(optarg, NULL, 10);
if (errno) {
perror("strtol failed: --device-num <n>\n");
return EXIT_FAILURE;
}
break;
case 'l':
loop = strtol(optarg, NULL, 10);
if (errno) {
perror("strtol failed: --loop <n>\n");
return EXIT_FAILURE;
}
break;
case 'w':
nwatch++;
break;
default:
return EXIT_FAILURE;
}
}
if (nwatch) {
watches = calloc(nwatch, sizeof(*watches));
if (!watches) {
perror("Error allocating watches\n");
return EXIT_FAILURE;
}
} else {
/* default to simple watch example */
watches = simple_watch;
nwatch = ARRAY_SIZE(simple_watch);
}
/* 2nd pass: parse watch sub-options to fill in watch array */
optind = 1;
i = 0;
while ((c = getopt_long(argc, argv, "dhn:l:w:", longopts, NULL)) != -1) {
switch (c) {
case 'w':
subopts = optarg;
while (*subopts != '\0') {
ret = getsubopt(&subopts, counter_watch_subopts, &value);
switch (ret) {
case WATCH_SCOPE_DEVICE:
case WATCH_SCOPE_SIGNAL:
case WATCH_SCOPE_COUNT:
/* match with counter_scope */
watches[i].component.scope = ret;
break;
case WATCH_COMPONENT_NONE:
case WATCH_COMPONENT_SIGNAL:
case WATCH_COMPONENT_COUNT:
case WATCH_COMPONENT_FUNCTION:
case WATCH_COMPONENT_SYNAPSE_ACTION:
case WATCH_COMPONENT_EXTENSION:
/* match counter_component_type: subtract enum value */
ret -= WATCH_COMPONENT_NONE;
watches[i].component.type = ret;
break;
case WATCH_EVENT_OVERFLOW:
case WATCH_EVENT_UNDERFLOW:
case WATCH_EVENT_OVERFLOW_UNDERFLOW:
case WATCH_EVENT_THRESHOLD:
case WATCH_EVENT_INDEX:
case WATCH_EVENT_CHANGE_OF_STATE:
case WATCH_EVENT_CAPTURE:
/* match counter_event_type: subtract enum value */
ret -= WATCH_EVENT_OVERFLOW;
watches[i].event = ret;
break;
case WATCH_CHANNEL:
if (!value) {
fprintf(stderr, "Invalid chan=<number>\n");
rc = EXIT_FAILURE;
goto err_free_watches;
}
watches[i].channel = strtoul(value, NULL, 10);
if (errno) {
perror("strtoul failed: chan=<number>\n");
rc = EXIT_FAILURE;
goto err_free_watches;
}
break;
case WATCH_ID:
if (!value) {
fprintf(stderr, "Invalid id=<number>\n");
rc = EXIT_FAILURE;
goto err_free_watches;
}
watches[i].component.id = strtoul(value, NULL, 10);
if (errno) {
perror("strtoul failed: id=<number>\n");
rc = EXIT_FAILURE;
goto err_free_watches;
}
break;
case WATCH_PARENT:
if (!value) {
fprintf(stderr, "Invalid parent=<number>\n");
rc = EXIT_FAILURE;
goto err_free_watches;
}
watches[i].component.parent = strtoul(value, NULL, 10);
if (errno) {
perror("strtoul failed: parent=<number>\n");
rc = EXIT_FAILURE;
goto err_free_watches;
}
break;
default:
fprintf(stderr, "Unknown suboption '%s'\n", value);
rc = EXIT_FAILURE;
goto err_free_watches;
}
}
i++;
break;
}
}
if (debug)
print_watch(watches, nwatch);
ret = asprintf(&device_name, "/dev/counter%d", dev_num);
if (ret < 0) {
fprintf(stderr, "asprintf failed\n");
rc = EXIT_FAILURE;
goto err_free_watches;
}
if (debug)
printf("Opening %s\n", device_name);
fd = open(device_name, O_RDWR);
if (fd == -1) {
fprintf(stderr, "Unable to open %s: %s\n", device_name, strerror(errno));
free(device_name);
rc = EXIT_FAILURE;
goto err_free_watches;
}
free(device_name);
for (i = 0; i < nwatch; i++) {
ret = ioctl(fd, COUNTER_ADD_WATCH_IOCTL, watches + i);
if (ret == -1) {
fprintf(stderr, "Error adding watches[%d]: %s\n", i,
strerror(errno));
rc = EXIT_FAILURE;
goto err_close;
}
}
ret = ioctl(fd, COUNTER_ENABLE_EVENTS_IOCTL);
if (ret == -1) {
perror("Error enabling events");
rc = EXIT_FAILURE;
goto err_close;
}
for (i = 0; loop <= 0 || i < loop; i++) {
ret = read(fd, &event_data, sizeof(event_data));
if (ret == -1) {
perror("Failed to read event data");
rc = EXIT_FAILURE;
goto err_close;
}
if (ret != sizeof(event_data)) {
fprintf(stderr, "Failed to read event data (got: %d)\n", ret);
rc = EXIT_FAILURE;
goto err_close;
}
printf("Timestamp: %llu\tData: %llu\t event: %s\tch: %d\n",
event_data.timestamp, event_data.value,
counter_event_type_name[event_data.watch.event],
event_data.watch.channel);
if (event_data.status) {
fprintf(stderr, "Error %d: %s\n", event_data.status,
strerror(event_data.status));
}
}
err_close:
close(fd);
err_free_watches:
if (watches != simple_watch)
free(watches);
return rc;
}