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// SPDX-License-Identifier: GPL-2.0
#include <linux/list.h>
#include <linux/list_sort.h>
#include <linux/string.h>
#include <linux/zalloc.h>
#include <subcmd/pager.h>
#include <sys/types.h>
#include <ctype.h>
#include <dirent.h>
#include <pthread.h>
#include <string.h>
#include <unistd.h>
#include "debug.h"
#include "evsel.h"
#include "pmus.h"
#include "pmu.h"
#include "print-events.h"
/*
* core_pmus: A PMU belongs to core_pmus if it's name is "cpu" or it's sysfs
* directory contains "cpus" file. All PMUs belonging to core_pmus
* must have pmu->is_core=1. If there are more than one PMU in
* this list, perf interprets it as a heterogeneous platform.
* (FWIW, certain ARM platforms having heterogeneous cores uses
* homogeneous PMU, and thus they are treated as homogeneous
* platform by perf because core_pmus will have only one entry)
* other_pmus: All other PMUs which are not part of core_pmus list. It doesn't
* matter whether PMU is present per SMT-thread or outside of the
* core in the hw. For e.g., an instance of AMD ibs_fetch// and
* ibs_op// PMUs is present in each hw SMT thread, however they
* are captured under other_pmus. PMUs belonging to other_pmus
* must have pmu->is_core=0 but pmu->is_uncore could be 0 or 1.
*/
static LIST_HEAD(core_pmus);
static LIST_HEAD(other_pmus);
static bool read_sysfs_core_pmus;
static bool read_sysfs_all_pmus;
int pmu_name_len_no_suffix(const char *str, unsigned long *num)
{
int orig_len, len;
orig_len = len = strlen(str);
/* Non-uncore PMUs have their full length, for example, i915. */
if (!strstarts(str, "uncore_"))
return len;
/*
* Count trailing digits and '_', if '_{num}' suffix isn't present use
* the full length.
*/
while (len > 0 && isdigit(str[len - 1]))
len--;
if (len > 0 && len != orig_len && str[len - 1] == '_') {
if (num)
*num = strtoul(&str[len], NULL, 10);
return len - 1;
}
return orig_len;
}
void perf_pmus__destroy(void)
{
struct perf_pmu *pmu, *tmp;
list_for_each_entry_safe(pmu, tmp, &core_pmus, list) {
list_del(&pmu->list);
perf_pmu__delete(pmu);
}
list_for_each_entry_safe(pmu, tmp, &other_pmus, list) {
list_del(&pmu->list);
perf_pmu__delete(pmu);
}
read_sysfs_core_pmus = false;
read_sysfs_all_pmus = false;
}
static struct perf_pmu *pmu_find(const char *name)
{
struct perf_pmu *pmu;
list_for_each_entry(pmu, &core_pmus, list) {
if (!strcmp(pmu->name, name) ||
(pmu->alias_name && !strcmp(pmu->alias_name, name)))
return pmu;
}
list_for_each_entry(pmu, &other_pmus, list) {
if (!strcmp(pmu->name, name) ||
(pmu->alias_name && !strcmp(pmu->alias_name, name)))
return pmu;
}
return NULL;
}
struct perf_pmu *perf_pmus__find(const char *name)
{
struct perf_pmu *pmu;
int dirfd;
bool core_pmu;
/*
* Once PMU is loaded it stays in the list,
* so we keep us from multiple reading/parsing
* the pmu format definitions.
*/
pmu = pmu_find(name);
if (pmu)
return pmu;
if (read_sysfs_all_pmus)
return NULL;
core_pmu = is_pmu_core(name);
if (core_pmu && read_sysfs_core_pmus)
return NULL;
dirfd = perf_pmu__event_source_devices_fd();
pmu = perf_pmu__lookup(core_pmu ? &core_pmus : &other_pmus, dirfd, name);
close(dirfd);
return pmu;
}
static struct perf_pmu *perf_pmu__find2(int dirfd, const char *name)
{
struct perf_pmu *pmu;
bool core_pmu;
/*
* Once PMU is loaded it stays in the list,
* so we keep us from multiple reading/parsing
* the pmu format definitions.
*/
pmu = pmu_find(name);
if (pmu)
return pmu;
if (read_sysfs_all_pmus)
return NULL;
core_pmu = is_pmu_core(name);
if (core_pmu && read_sysfs_core_pmus)
return NULL;
return perf_pmu__lookup(core_pmu ? &core_pmus : &other_pmus, dirfd, name);
}
static int pmus_cmp(void *priv __maybe_unused,
const struct list_head *lhs, const struct list_head *rhs)
{
unsigned long lhs_num = 0, rhs_num = 0;
struct perf_pmu *lhs_pmu = container_of(lhs, struct perf_pmu, list);
struct perf_pmu *rhs_pmu = container_of(rhs, struct perf_pmu, list);
const char *lhs_pmu_name = lhs_pmu->name ?: "";
const char *rhs_pmu_name = rhs_pmu->name ?: "";
int lhs_pmu_name_len = pmu_name_len_no_suffix(lhs_pmu_name, &lhs_num);
int rhs_pmu_name_len = pmu_name_len_no_suffix(rhs_pmu_name, &rhs_num);
int ret = strncmp(lhs_pmu_name, rhs_pmu_name,
lhs_pmu_name_len < rhs_pmu_name_len ? lhs_pmu_name_len : rhs_pmu_name_len);
if (lhs_pmu_name_len != rhs_pmu_name_len || ret != 0 || lhs_pmu_name_len == 0)
return ret;
return lhs_num < rhs_num ? -1 : (lhs_num > rhs_num ? 1 : 0);
}
/* Add all pmus in sysfs to pmu list: */
static void pmu_read_sysfs(bool core_only)
{
int fd;
DIR *dir;
struct dirent *dent;
if (read_sysfs_all_pmus || (core_only && read_sysfs_core_pmus))
return;
fd = perf_pmu__event_source_devices_fd();
if (fd < 0)
return;
dir = fdopendir(fd);
if (!dir) {
close(fd);
return;
}
while ((dent = readdir(dir))) {
if (!strcmp(dent->d_name, ".") || !strcmp(dent->d_name, ".."))
continue;
if (core_only && !is_pmu_core(dent->d_name))
continue;
/* add to static LIST_HEAD(core_pmus) or LIST_HEAD(other_pmus): */
perf_pmu__find2(fd, dent->d_name);
}
closedir(dir);
if (list_empty(&core_pmus)) {
if (!perf_pmu__create_placeholder_core_pmu(&core_pmus))
pr_err("Failure to set up any core PMUs\n");
}
list_sort(NULL, &core_pmus, pmus_cmp);
list_sort(NULL, &other_pmus, pmus_cmp);
if (!list_empty(&core_pmus)) {
read_sysfs_core_pmus = true;
if (!core_only)
read_sysfs_all_pmus = true;
}
}
static struct perf_pmu *__perf_pmus__find_by_type(unsigned int type)
{
struct perf_pmu *pmu;
list_for_each_entry(pmu, &core_pmus, list) {
if (pmu->type == type)
return pmu;
}
list_for_each_entry(pmu, &other_pmus, list) {
if (pmu->type == type)
return pmu;
}
return NULL;
}
struct perf_pmu *perf_pmus__find_by_type(unsigned int type)
{
struct perf_pmu *pmu = __perf_pmus__find_by_type(type);
if (pmu || read_sysfs_all_pmus)
return pmu;
pmu_read_sysfs(/*core_only=*/false);
pmu = __perf_pmus__find_by_type(type);
return pmu;
}
/*
* pmu iterator: If pmu is NULL, we start at the begin, otherwise return the
* next pmu. Returns NULL on end.
*/
struct perf_pmu *perf_pmus__scan(struct perf_pmu *pmu)
{
bool use_core_pmus = !pmu || pmu->is_core;
if (!pmu) {
pmu_read_sysfs(/*core_only=*/false);
pmu = list_prepare_entry(pmu, &core_pmus, list);
}
if (use_core_pmus) {
list_for_each_entry_continue(pmu, &core_pmus, list)
return pmu;
pmu = NULL;
pmu = list_prepare_entry(pmu, &other_pmus, list);
}
list_for_each_entry_continue(pmu, &other_pmus, list)
return pmu;
return NULL;
}
struct perf_pmu *perf_pmus__scan_core(struct perf_pmu *pmu)
{
if (!pmu) {
pmu_read_sysfs(/*core_only=*/true);
pmu = list_prepare_entry(pmu, &core_pmus, list);
}
list_for_each_entry_continue(pmu, &core_pmus, list)
return pmu;
return NULL;
}
static struct perf_pmu *perf_pmus__scan_skip_duplicates(struct perf_pmu *pmu)
{
bool use_core_pmus = !pmu || pmu->is_core;
int last_pmu_name_len = 0;
const char *last_pmu_name = (pmu && pmu->name) ? pmu->name : "";
if (!pmu) {
pmu_read_sysfs(/*core_only=*/false);
pmu = list_prepare_entry(pmu, &core_pmus, list);
} else
last_pmu_name_len = pmu_name_len_no_suffix(pmu->name ?: "", NULL);
if (use_core_pmus) {
list_for_each_entry_continue(pmu, &core_pmus, list) {
int pmu_name_len = pmu_name_len_no_suffix(pmu->name ?: "", /*num=*/NULL);
if (last_pmu_name_len == pmu_name_len &&
!strncmp(last_pmu_name, pmu->name ?: "", pmu_name_len))
continue;
return pmu;
}
pmu = NULL;
pmu = list_prepare_entry(pmu, &other_pmus, list);
}
list_for_each_entry_continue(pmu, &other_pmus, list) {
int pmu_name_len = pmu_name_len_no_suffix(pmu->name ?: "", /*num=*/NULL);
if (last_pmu_name_len == pmu_name_len &&
!strncmp(last_pmu_name, pmu->name ?: "", pmu_name_len))
continue;
return pmu;
}
return NULL;
}
const struct perf_pmu *perf_pmus__pmu_for_pmu_filter(const char *str)
{
struct perf_pmu *pmu = NULL;
while ((pmu = perf_pmus__scan(pmu)) != NULL) {
if (!strcmp(pmu->name, str))
return pmu;
/* Ignore "uncore_" prefix. */
if (!strncmp(pmu->name, "uncore_", 7)) {
if (!strcmp(pmu->name + 7, str))
return pmu;
}
/* Ignore "cpu_" prefix on Intel hybrid PMUs. */
if (!strncmp(pmu->name, "cpu_", 4)) {
if (!strcmp(pmu->name + 4, str))
return pmu;
}
}
return NULL;
}
int __weak perf_pmus__num_mem_pmus(void)
{
/* All core PMUs are for mem events. */
return perf_pmus__num_core_pmus();
}
/** Struct for ordering events as output in perf list. */
struct sevent {
/** PMU for event. */
const struct perf_pmu *pmu;
const char *name;
const char* alias;
const char *scale_unit;
const char *desc;
const char *long_desc;
const char *encoding_desc;
const char *topic;
const char *pmu_name;
bool deprecated;
};
static int cmp_sevent(const void *a, const void *b)
{
const struct sevent *as = a;
const struct sevent *bs = b;
bool a_iscpu, b_iscpu;
int ret;
/* Put extra events last. */
if (!!as->desc != !!bs->desc)
return !!as->desc - !!bs->desc;
/* Order by topics. */
ret = strcmp(as->topic ?: "", bs->topic ?: "");
if (ret)
return ret;
/* Order CPU core events to be first */
a_iscpu = as->pmu ? as->pmu->is_core : true;
b_iscpu = bs->pmu ? bs->pmu->is_core : true;
if (a_iscpu != b_iscpu)
return a_iscpu ? -1 : 1;
/* Order by PMU name. */
if (as->pmu != bs->pmu) {
ret = strcmp(as->pmu_name ?: "", bs->pmu_name ?: "");
if (ret)
return ret;
}
/* Order by event name. */
return strcmp(as->name, bs->name);
}
static bool pmu_alias_is_duplicate(struct sevent *a, struct sevent *b)
{
/* Different names -> never duplicates */
if (strcmp(a->name ?: "//", b->name ?: "//"))
return false;
/* Don't remove duplicates for different PMUs */
return strcmp(a->pmu_name, b->pmu_name) == 0;
}
struct events_callback_state {
struct sevent *aliases;
size_t aliases_len;
size_t index;
};
static int perf_pmus__print_pmu_events__callback(void *vstate,
struct pmu_event_info *info)
{
struct events_callback_state *state = vstate;
struct sevent *s;
if (state->index >= state->aliases_len) {
pr_err("Unexpected event %s/%s/\n", info->pmu->name, info->name);
return 1;
}
s = &state->aliases[state->index];
s->pmu = info->pmu;
#define COPY_STR(str) s->str = info->str ? strdup(info->str) : NULL
COPY_STR(name);
COPY_STR(alias);
COPY_STR(scale_unit);
COPY_STR(desc);
COPY_STR(long_desc);
COPY_STR(encoding_desc);
COPY_STR(topic);
COPY_STR(pmu_name);
#undef COPY_STR
s->deprecated = info->deprecated;
state->index++;
return 0;
}
void perf_pmus__print_pmu_events(const struct print_callbacks *print_cb, void *print_state)
{
struct perf_pmu *pmu;
int printed = 0;
int len;
struct sevent *aliases;
struct events_callback_state state;
bool skip_duplicate_pmus = print_cb->skip_duplicate_pmus(print_state);
struct perf_pmu *(*scan_fn)(struct perf_pmu *);
if (skip_duplicate_pmus)
scan_fn = perf_pmus__scan_skip_duplicates;
else
scan_fn = perf_pmus__scan;
pmu = NULL;
len = 0;
while ((pmu = scan_fn(pmu)) != NULL)
len += perf_pmu__num_events(pmu);
aliases = zalloc(sizeof(struct sevent) * len);
if (!aliases) {
pr_err("FATAL: not enough memory to print PMU events\n");
return;
}
pmu = NULL;
state = (struct events_callback_state) {
.aliases = aliases,
.aliases_len = len,
.index = 0,
};
while ((pmu = scan_fn(pmu)) != NULL) {
perf_pmu__for_each_event(pmu, skip_duplicate_pmus, &state,
perf_pmus__print_pmu_events__callback);
}
qsort(aliases, len, sizeof(struct sevent), cmp_sevent);
for (int j = 0; j < len; j++) {
/* Skip duplicates */
if (j > 0 && pmu_alias_is_duplicate(&aliases[j], &aliases[j - 1]))
continue;
print_cb->print_event(print_state,
aliases[j].pmu_name,
aliases[j].topic,
aliases[j].name,
aliases[j].alias,
aliases[j].scale_unit,
aliases[j].deprecated,
"Kernel PMU event",
aliases[j].desc,
aliases[j].long_desc,
aliases[j].encoding_desc);
zfree(&aliases[j].name);
zfree(&aliases[j].alias);
zfree(&aliases[j].scale_unit);
zfree(&aliases[j].desc);
zfree(&aliases[j].long_desc);
zfree(&aliases[j].encoding_desc);
zfree(&aliases[j].topic);
zfree(&aliases[j].pmu_name);
}
if (printed && pager_in_use())
printf("\n");
zfree(&aliases);
}
bool perf_pmus__have_event(const char *pname, const char *name)
{
struct perf_pmu *pmu = perf_pmus__find(pname);
return pmu && perf_pmu__have_event(pmu, name);
}
int perf_pmus__num_core_pmus(void)
{
static int count;
if (!count) {
struct perf_pmu *pmu = NULL;
while ((pmu = perf_pmus__scan_core(pmu)) != NULL)
count++;
}
return count;
}
static bool __perf_pmus__supports_extended_type(void)
{
struct perf_pmu *pmu = NULL;
if (perf_pmus__num_core_pmus() <= 1)
return false;
while ((pmu = perf_pmus__scan_core(pmu)) != NULL) {
if (!is_event_supported(PERF_TYPE_HARDWARE, PERF_COUNT_HW_CPU_CYCLES | ((__u64)pmu->type << PERF_PMU_TYPE_SHIFT)))
return false;
}
return true;
}
static bool perf_pmus__do_support_extended_type;
static void perf_pmus__init_supports_extended_type(void)
{
perf_pmus__do_support_extended_type = __perf_pmus__supports_extended_type();
}
bool perf_pmus__supports_extended_type(void)
{
static pthread_once_t extended_type_once = PTHREAD_ONCE_INIT;
pthread_once(&extended_type_once, perf_pmus__init_supports_extended_type);
return perf_pmus__do_support_extended_type;
}
char *perf_pmus__default_pmu_name(void)
{
int fd;
DIR *dir;
struct dirent *dent;
char *result = NULL;
if (!list_empty(&core_pmus))
return strdup(list_first_entry(&core_pmus, struct perf_pmu, list)->name);
fd = perf_pmu__event_source_devices_fd();
if (fd < 0)
return strdup("cpu");
dir = fdopendir(fd);
if (!dir) {
close(fd);
return strdup("cpu");
}
while ((dent = readdir(dir))) {
if (!strcmp(dent->d_name, ".") || !strcmp(dent->d_name, ".."))
continue;
if (is_pmu_core(dent->d_name)) {
result = strdup(dent->d_name);
break;
}
}
closedir(dir);
return result ?: strdup("cpu");
}
struct perf_pmu *evsel__find_pmu(const struct evsel *evsel)
{
struct perf_pmu *pmu = evsel->pmu;
if (!pmu) {
pmu = perf_pmus__find_by_type(evsel->core.attr.type);
((struct evsel *)evsel)->pmu = pmu;
}
return pmu;
}
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