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core-perf.c
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/*
* Copyright (C) 2013-2021 Canonical, Ltd.
* Copyright (C) 2021-2023 Colin Ian King.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
*/
#include "stress-ng.h"
#include "core-builtin.h"
#include "core-lock.h"
#include "core-perf.h"
#include "core-perf-event.h"
#if defined(HAVE_LINUX_PERF_EVENT_H)
#include <linux/perf_event.h>
#endif
#if defined(HAVE_LOCALE_H)
#include <locale.h>
#endif
#if defined(STRESS_PERF_STATS) && \
defined(HAVE_LINUX_PERF_EVENT_H) && \
defined(HAVE_SYSCALL)
/* perf enabled systems */
#define THOUSAND (1.0E3)
#define MILLION (1.0E6)
#define BILLION (1.0E9)
#define TRILLION (1.0E12)
#define QUADRILLION (1.0E15)
#define QUINTILLION (1.0E18)
#define SEXTILLION (1.0E21)
#define SEPTILLION (1.0E24)
#define UNRESOLVED (~0UL)
/* used for table of perf events to gather */
typedef struct {
const unsigned int type; /* perf types */
unsigned long config; /* perf type specific config */
const char *path; /* perf trace point path (only for trace points) */
const char *label; /* human readable name for perf type */
} stress_perf_info_t;
/* perf data */
typedef struct {
uint64_t counter; /* perf counter */
uint64_t time_enabled; /* perf time enabled */
uint64_t time_running; /* perf time running */
} stress_perf_data_t;
typedef struct {
const double threshold; /* scaling threshold */
const double scale; /* scaling value */
const char *suffix; /* scaling suffix, GB, MB, etc */
} stress_perf_scale_t;
/* Tracepoint */
#define PERF_INFO_TP(path, label) \
{ PERF_TYPE_TRACEPOINT, UNRESOLVED, path, label }
/* Hardware */
#define PERF_INFO_HW(config, label) \
{ PERF_TYPE_HARDWARE, PERF_COUNT_ ## config, NULL, label }
/* Software */
#define PERF_INFO_SW(config, label) \
{ PERF_TYPE_SOFTWARE, PERF_COUNT_ ## config, NULL, label }
#define PERF_INFO_HW_CACHE_CONFIG(cache_id, op_id, result_id) \
(PERF_COUNT_HW_CACHE_ ## cache_id) | \
((PERF_COUNT_HW_CACHE_OP_ ## op_id) << 8) | \
((PERF_COUNT_HW_CACHE_RESULT_ ## result_id) << 16) \
/* Hardware Cache */
#define PERF_INFO_HW_C(cache_id, op_id, result_id, label) \
{ PERF_TYPE_HW_CACHE, \
PERF_INFO_HW_CACHE_CONFIG(cache_id, op_id, result_id),\
NULL, label }
#define STRESS_PERF_DEFINED(x) STRESS_PERF_COUNT_ ## x
/*
* Perf scaling factors
*/
static const stress_perf_scale_t perf_scale[] = {
{ THOUSAND, 1.0, "/sec" },
{ 100 * THOUSAND, THOUSAND, "K/sec" },
{ 100 * MILLION, MILLION, "M/sec" },
{ 100 * BILLION, BILLION, "B/sec" },
{ 100 * TRILLION, TRILLION, "T/sec" },
{ 100 * QUADRILLION, QUADRILLION, "P/sec" },
{ 100 * QUINTILLION, QUINTILLION, "E/sec" },
{ 100 * SEXTILLION, SEXTILLION, "Z/sec" },
{ 100 * SEPTILLION, SEPTILLION, "Y/sec" },
{ -1, -1, NULL }
};
/* perf counters to be read */
static stress_perf_info_t perf_info[STRESS_PERF_MAX] = {
/*
* Hardware counters
*/
#if STRESS_PERF_DEFINED(HW_CPU_CYCLES)
PERF_INFO_HW(HW_CPU_CYCLES, "CPU Cycles"),
#endif
#if STRESS_PERF_DEFINED(HW_INSTRUCTIONS)
PERF_INFO_HW(HW_INSTRUCTIONS, "Instructions"),
#endif
#if STRESS_PERF_DEFINED(HW_BRANCH_INSTRUCTIONS)
PERF_INFO_HW(HW_BRANCH_INSTRUCTIONS, "Branch Instructions"),
#endif
#if STRESS_PERF_DEFINED(HW_BRANCH_MISSES)
PERF_INFO_HW(HW_BRANCH_MISSES, "Branch Misses"),
#endif
#if STRESS_PERF_DEFINED(HW_STALLED_CYCLES_FRONTEND)
PERF_INFO_HW(HW_STALLED_CYCLES_FRONTEND,"Stalled Cycles Frontend"),
#endif
#if STRESS_PERF_DEFINED(HW_STALLED_CYCLES_BACKEND)
PERF_INFO_HW(HW_STALLED_CYCLES_BACKEND, "Stalled Cycles Backend"),
#endif
#if STRESS_PERF_DEFINED(HW_BUS_CYCLES)
PERF_INFO_HW(HW_BUS_CYCLES, "Bus Cycles"),
#endif
#if STRESS_PERF_DEFINED(HW_REF_CPU_CYCLES)
PERF_INFO_HW(HW_REF_CPU_CYCLES, "Total Cycles"),
#endif
#if STRESS_PERF_DEFINED(HW_CACHE_REFERENCES)
PERF_INFO_HW(HW_CACHE_REFERENCES, "Cache References"),
#endif
#if STRESS_PERF_DEFINED(HW_CACHE_MISSES)
PERF_INFO_HW(HW_CACHE_MISSES, "Cache Misses"),
#endif
/*
* Hardware Cache counters
*/
#if STRESS_PERF_DEFINED(HW_CACHE_L1D)
PERF_INFO_HW_C(L1D, READ, ACCESS, "Cache L1D Read"),
PERF_INFO_HW_C(L1D, READ, MISS, "Cache L1D Read Miss"),
PERF_INFO_HW_C(L1D, WRITE, ACCESS, "Cache L1D Write"),
PERF_INFO_HW_C(L1D, WRITE, MISS, "Cache L1D Write Miss"),
PERF_INFO_HW_C(L1D, PREFETCH, ACCESS, "Cache L1D Prefetch"),
PERF_INFO_HW_C(L1D, PREFETCH, MISS, "Cache L1D Prefetch Miss"),
#endif
#if STRESS_PERF_DEFINED(HW_CACHE_L1I)
PERF_INFO_HW_C(L1I, READ, ACCESS, "Cache L1I Read"),
PERF_INFO_HW_C(L1I, READ, MISS, "Cache L1I Read Miss"),
PERF_INFO_HW_C(L1I, WRITE, ACCESS, "Cache L1I Write"),
PERF_INFO_HW_C(L1I, WRITE, MISS, "Cache L1I Write Miss"),
PERF_INFO_HW_C(L1I, PREFETCH, ACCESS, "Cache L1I Prefetch"),
PERF_INFO_HW_C(L1I, PREFETCH, MISS, "Cache L1I Prefetch Miss"),
#endif
#if STRESS_PERF_DEFINED(HW_CACHE_LL)
PERF_INFO_HW_C(LL, READ, ACCESS, "Cache LL Read"),
PERF_INFO_HW_C(LL, READ, MISS, "Cache LL Read Miss"),
PERF_INFO_HW_C(LL, WRITE, ACCESS, "Cache LL Write"),
PERF_INFO_HW_C(LL, WRITE, MISS, "Cache LL Write Miss"),
PERF_INFO_HW_C(LL, PREFETCH, ACCESS, "Cache LL Prefetch"),
PERF_INFO_HW_C(LL, PREFETCH, MISS, "Cache LL Prefetch Miss"),
#endif
#if STRESS_PERF_DEFINED(HW_CACHE_DTLB)
PERF_INFO_HW_C(DTLB, READ, ACCESS, "Cache DTLB Read"),
PERF_INFO_HW_C(DTLB, READ, MISS, "Cache DTLB Read Miss"),
PERF_INFO_HW_C(DTLB, WRITE, ACCESS, "Cache DTLB Write"),
PERF_INFO_HW_C(DTLB, WRITE, MISS, "Cache DTLB Write Miss"),
PERF_INFO_HW_C(DTLB, PREFETCH, ACCESS, "Cache DTLB Prefetch"),
PERF_INFO_HW_C(DTLB, PREFETCH, MISS, "Cache DTLB Prefetch Miss"),
#endif
#if STRESS_PERF_DEFINED(HW_CACHE_ITLB)
PERF_INFO_HW_C(ITLB, READ, ACCESS, "Cache ITLB Read"),
PERF_INFO_HW_C(ITLB, READ, MISS, "Cache ITLB Read Miss"),
PERF_INFO_HW_C(ITLB, WRITE, ACCESS, "Cache ITLB Write"),
PERF_INFO_HW_C(ITLB, WRITE, MISS, "Cache ITLB Write Miss"),
PERF_INFO_HW_C(ITLB, PREFETCH, ACCESS, "Cache ITLB Prefetch"),
PERF_INFO_HW_C(ITLB, PREFETCH, MISS, "Cache IILB Prefetch Miss"),
#endif
#if STRESS_PERF_DEFINED(HW_CACHE_BPU)
PERF_INFO_HW_C(BPU, READ, ACCESS, "Cache BPU Read"),
PERF_INFO_HW_C(BPU, READ, MISS, "Cache BPU Read Miss"),
PERF_INFO_HW_C(BPU, WRITE, ACCESS, "Cache BPU Write"),
PERF_INFO_HW_C(BPU, WRITE, MISS, "Cache BPU Write Miss"),
PERF_INFO_HW_C(BPU, PREFETCH, ACCESS, "Cache BPU Prefetch"),
PERF_INFO_HW_C(BPU, PREFETCH, MISS, "Cache DILB Prefetch Miss"),
#endif
#if STRESS_PERF_DEFINED(HW_CACHE_NODE)
PERF_INFO_HW_C(NODE, READ, ACCESS, "Cache NODE Read"),
PERF_INFO_HW_C(NODE, READ, MISS, "Cache NODE Read Miss"),
PERF_INFO_HW_C(NODE, WRITE, ACCESS, "Cache NODE Write"),
PERF_INFO_HW_C(NODE, WRITE, MISS, "Cache NODE Write Miss"),
PERF_INFO_HW_C(NODE, PREFETCH, ACCESS, "Cache NODE Prefetch"),
PERF_INFO_HW_C(NODE, PREFETCH, MISS, "Cache DILB Prefetch Miss"),
#endif
/*
* Software counters
*/
#if STRESS_PERF_DEFINED(SW_CPU_CLOCK)
PERF_INFO_SW(SW_CPU_CLOCK, "CPU Clock"),
#endif
#if STRESS_PERF_DEFINED(SW_TASK_CLOCK)
PERF_INFO_SW(SW_TASK_CLOCK, "Task Clock"),
#endif
#if STRESS_PERF_DEFINED(SW_PAGE_FAULTS)
PERF_INFO_SW(SW_PAGE_FAULTS, "Page Faults Total"),
#endif
#if STRESS_PERF_DEFINED(SW_PAGE_FAULTS_MIN)
PERF_INFO_SW(SW_PAGE_FAULTS_MIN, "Page Faults Minor"),
#endif
#if STRESS_PERF_DEFINED(SW_PAGE_FAULTS_MAJ)
PERF_INFO_SW(SW_PAGE_FAULTS_MAJ, "Page Faults Major"),
#endif
#if STRESS_PERF_DEFINED(SW_CONTEXT_SWITCHES)
PERF_INFO_SW(SW_CONTEXT_SWITCHES, "Context Switches"),
#endif
#if STRESS_PERF_DEFINED(SW_CGROUP_SWITCHES)
PERF_INFO_SW(SW_CGROUP_SWITCHES, "Cgroup Switches"),
#endif
#if STRESS_PERF_DEFINED(SW_CPU_MIGRATIONS)
PERF_INFO_SW(SW_CPU_MIGRATIONS, "CPU Migrations"),
#endif
#if STRESS_PERF_DEFINED(SW_ALIGNMENT_FAULTS)
PERF_INFO_SW(SW_ALIGNMENT_FAULTS, "Alignment Faults"),
#endif
#if STRESS_PERF_DEFINED(SW_EMULATION_FAULTS)
PERF_INFO_SW(SW_EMULATION_FAULTS, "Emulation Faults"),
#endif
#if STRESS_PERF_DEFINED(SW_CGROUP_SWITCHES)
PERF_INFO_SW(SW_CGROUP_SWITCHES, "Cgroup Switches"),
#endif
/*
* Tracepoint counters
*/
PERF_INFO_TP("exceptions/page_fault_user", "Page Faults User"),
PERF_INFO_TP("exceptions/page_fault_kernel", "Page Faults Kernel"),
PERF_INFO_TP("raw_syscalls/sys_enter", "System Call Enter"),
PERF_INFO_TP("raw_syscalls/sys_exit", "System Call Exit"),
/* This perf metric causes 5.4+ kernel hangs, disable it for now */
#if 1
PERF_INFO_TP("tlb/tlb_flush", "TLB Flushes"),
#endif
PERF_INFO_TP("kmem/kmalloc", "Kmalloc"),
PERF_INFO_TP("kmem/kmalloc_node", "Kmalloc Node"),
PERF_INFO_TP("kmem/kfree", "Kfree"),
PERF_INFO_TP("kmem/kmem_cache_alloc", "Kmem Cache Alloc"),
PERF_INFO_TP("kmem/kmem_cache_alloc_node", "Kmem Cache Alloc Node"),
PERF_INFO_TP("kmem/kmem_cache_free", "Kmem Cache Free"),
PERF_INFO_TP("kmem/mm_page_alloc", "MM Page Alloc"),
PERF_INFO_TP("kmem/mm_page_free", "MM Page Free"),
PERF_INFO_TP("mmap_lock/mmap_lock_start_locking","MMAP lock start"),
PERF_INFO_TP("mmap_lock/mmap_lock_released", "MMAP lock release"),
#if 1
PERF_INFO_TP("mmap_lock/mmap_lock_acquire_returned","MMAP lock acquire"),
#endif
PERF_INFO_TP("rcu/rcu_utilization", "RCU Utilization"),
PERF_INFO_TP("rcu/rcu_stall_warning", "RCU Stall Warning"),
PERF_INFO_TP("rcu/rcu_preempt_task", "RCU Preempt Task"),
PERF_INFO_TP("sched/sched_migrate_task", "Sched Migrate Task"),
PERF_INFO_TP("sched/sched_move_numa", "Sched Move NUMA"),
PERF_INFO_TP("sched/sched_wakeup", "Sched Wakeup"),
PERF_INFO_TP("sched/sched_process_exec", "Sched Proc Exec"),
PERF_INFO_TP("sched/sched_process_exit", "Sched Proc Exit"),
PERF_INFO_TP("sched/sched_process_fork", "Sched Proc Fork"),
PERF_INFO_TP("sched/sched_process_free", "Sched Proc Free"),
PERF_INFO_TP("sched/sched_process_hang", "Sched Proc Hang"),
PERF_INFO_TP("sched/sched_process_wait", "Sched Proc Wait"),
PERF_INFO_TP("sched/sched_switch", "Sched Switch"),
PERF_INFO_TP("task/task_newtask", "New Task"),
PERF_INFO_TP("context_tracking/user_enter", "Context User Enter"),
PERF_INFO_TP("context_tracking/user_exit", "Context User Exit"),
PERF_INFO_TP("signal/signal_generate", "Signal Generate"),
PERF_INFO_TP("signal/signal_deliver", "Signal Deliver"),
PERF_INFO_TP("irq/irq_handler_entry", "IRQ Entry"),
PERF_INFO_TP("irq/irq_handler_exit", "IRQ Exit"),
PERF_INFO_TP("irq/softirq_entry", "Soft IRQ Entry"),
PERF_INFO_TP("irq/softirq_exit", "Soft IRQ Exit"),
PERF_INFO_TP("nmi/nmi_handler", "NMI handler"),
PERF_INFO_TP("ipi/ipi_entry", "IPI Entry"),
PERF_INFO_TP("ipi/ipi_send_cpu", "IPI Send CPU"),
PERF_INFO_TP("ipi/ipi_exit", "IPI Exit"),
PERF_INFO_TP("block/block_bio_complete", "Block BIO Complete"),
#if 1
PERF_INFO_TP("iomap/iomap_readpage", "IOMAP Read Page"),
PERF_INFO_TP("iomap/iomap_writepage", "IOMAP Write Page"),
#endif
PERF_INFO_TP("io_uring/io_uring_submit_sqe", "IO uring submit"),
PERF_INFO_TP("io_uring/io_uring_complete", "IO uring complete"),
PERF_INFO_TP("writeback/writeback_dirty_inode", "Writeback Dirty Inode"),
PERF_INFO_TP("writeback/writeback_dirty_page", "Writeback Dirty Page"),
PERF_INFO_TP("writeback/writeback_dirty_folio", "Writeback Dirty Folio"),
PERF_INFO_TP("migrate/mm_migrate_pages", "Migrate MM Pages"),
PERF_INFO_TP("skb/consume_skb", "SKB Consume"),
PERF_INFO_TP("skb/kfree_skb", "SKB Kfree"),
PERF_INFO_TP("lock/contention_begin", "Lock Contention Begin"),
PERF_INFO_TP("lock/contention_end", "Lock Contention End"),
PERF_INFO_TP("maple_tree/ma_read", "Maple Tree Read"),
PERF_INFO_TP("maple_tree/ma_write", "Maple Tree Write"),
PERF_INFO_TP("msr/read_msr", "MSR read"),
PERF_INFO_TP("msr/write_msr", "MSR write"),
PERF_INFO_TP("iommu/io_page_fault", "IOMMU IO Page Fault"),
PERF_INFO_TP("iommu/map", "IOMMU Map"),
PERF_INFO_TP("iommu/unmap", "IOMMU Unmap"),
PERF_INFO_TP("filemap/mm_filemap_add_to_page_cache", "Filemap page-cache add"),
PERF_INFO_TP("filemap/mm_filemap_delete_from_page_cache", "Filemap page-cache del"),
PERF_INFO_TP("oom/compact_retry", "OOM Compact Retry"),
PERF_INFO_TP("oom/wake_reaper", "OOM Wake Reaper"),
PERF_INFO_TP("oom/oom_score_adj_update", "OOM Score Adjust Update"),
PERF_INFO_TP("thermal/thermal_zone_trip", "Thermal Zone Trip"),
{ 0, 0, NULL, NULL }
};
static inline size_t stress_perf_info_find(const unsigned int type, const unsigned long config)
{
size_t i;
for (i = 0; (i < STRESS_PERF_MAX) && perf_info[i].label; i++) {
if ((perf_info[i].type == type) && (perf_info[i].config == config))
return i;
}
return STRESS_PERF_MAX;
}
/*
* stress_perf_type_tracepoint_resolve_config()
* resolve tracing event config value
*/
static inline void stress_perf_type_tracepoint_resolve_config(stress_perf_info_t *pi)
{
char path[PATH_MAX];
unsigned long config;
FILE *fp;
if (!pi->path)
return;
(void)snprintf(path, sizeof(path), "/sys/kernel/debug/tracing/events/%s/id",
pi->path);
if ((fp = fopen(path, "r")) == NULL)
return;
if (fscanf(fp, "%lu", &config) != 1) {
(void)fclose(fp);
return;
}
(void)fclose(fp);
pi->config = config;
}
/*
* stress_perf_init()
* perf initialize, resolve all configs
*/
void stress_perf_init(void)
{
size_t i;
for (i = 0; i < STRESS_PERF_MAX; i++) {
if (perf_info[i].type == PERF_TYPE_TRACEPOINT) {
stress_perf_type_tracepoint_resolve_config(&perf_info[i]);
}
}
}
/*
* stress_sys_perf_event_open()
* perf_event_open syscall wrapper
*/
static inline int stress_sys_perf_event_open(
struct perf_event_attr *attr,
pid_t pid,
int cpu,
int group_fd,
unsigned long flags)
{
return (int)syscall(__NR_perf_event_open, attr, pid, cpu, group_fd, flags);
}
/*
* stress_perf_yaml_label()
* turns text into a yaml compatible label.
*/
static char *stress_perf_yaml_label(char *dst, const char *src, const size_t n)
{
if (n) {
char *d = dst;
const char *s = src;
size_t i = n;
do {
if (*s == ' ')
*d = '_';
else if (isupper(*s))
*d = (char)tolower(*s);
else if (*s)
*d = *s;
else {
while (--i != 0)
*d++ = 0;
break;
}
s++;
d++;
} while (--i != 0);
}
return dst;
}
/*
* stress_perf_open()
* open perf, get leader and perf fd's
*/
int stress_perf_open(stress_perf_t *sp)
{
size_t i;
if (!sp)
return -1;
if (g_shared->perf.no_perf)
return -1;
(void)shim_memset(sp, 0, sizeof(*sp));
sp->perf_opened = 0;
for (i = 0; i < STRESS_PERF_MAX; i++) {
sp->perf_stat[i].fd = -1;
sp->perf_stat[i].counter = 0;
}
for (i = 0; (i < STRESS_PERF_MAX) && perf_info[i].label; i++) {
if (perf_info[i].config != UNRESOLVED) {
struct perf_event_attr attr;
(void)shim_memset(&attr, 0, sizeof(attr));
attr.type = perf_info[i].type;
attr.config = perf_info[i].config;
attr.disabled = 1;
attr.inherit = 1;
attr.read_format = PERF_FORMAT_TOTAL_TIME_ENABLED |
PERF_FORMAT_TOTAL_TIME_RUNNING;
attr.size = sizeof(attr);
sp->perf_stat[i].fd =
stress_sys_perf_event_open(&attr, 0, -1, -1, 0);
if (sp->perf_stat[i].fd > -1)
sp->perf_opened++;
}
}
if (!sp->perf_opened) {
int ret;
ret = stress_lock_acquire(g_shared->perf.lock);
if (ret) {
pr_dbg("perf: lock on perf lock failed\n");
return -1;
}
if (!g_shared->perf.no_perf) {
pr_dbg("perf: perf_event_open failed, no "
"perf events [%u]\n", getpid());
g_shared->perf.no_perf = true;
}
ret = stress_lock_release(g_shared->perf.lock);
if (ret) {
pr_dbg("perf: unlock on perf lock failed\n");
return -1;
}
return -1;
}
return 0;
}
/*
* stress_perf_enable()
* enable perf counters
*/
int stress_perf_enable(stress_perf_t *sp)
{
size_t i;
if (!sp)
return -1;
if (!sp->perf_opened)
return 0;
for (i = 0; (i < STRESS_PERF_MAX) && perf_info[i].label; i++) {
const int fd = sp->perf_stat[i].fd;
if (fd > -1) {
if (ioctl(fd, PERF_EVENT_IOC_RESET,
PERF_IOC_FLAG_GROUP) < 0) {
(void)close(fd);
sp->perf_stat[i].fd = -1;
continue;
}
if (ioctl(fd, PERF_EVENT_IOC_ENABLE,
PERF_IOC_FLAG_GROUP) < 0) {
(void)close(fd);
sp->perf_stat[i].fd = -1;
}
}
}
return 0;
}
/*
* stress_perf_disable()
* disable perf counters
*/
int stress_perf_disable(stress_perf_t *sp)
{
size_t i;
if (!sp)
return -1;
if (!sp->perf_opened)
return 0;
for (i = 0; (i < STRESS_PERF_MAX) && perf_info[i].label; i++) {
const int fd = sp->perf_stat[i].fd;
if (fd > -1) {
if (ioctl(fd, PERF_EVENT_IOC_DISABLE,
PERF_IOC_FLAG_GROUP) < 0) {
(void)close(fd);
sp->perf_stat[i].fd = -1;
}
}
}
return 0;
}
/*
* stress_perf_close()
* read counters and close
*/
int stress_perf_close(stress_perf_t *sp)
{
size_t i = 0;
stress_perf_data_t data;
ssize_t ret;
double scale;
if (!sp)
return -1;
if (!sp->perf_opened)
goto out_ok;
for (i = 0; (i < STRESS_PERF_MAX) && perf_info[i].label; i++) {
const int fd = sp->perf_stat[i].fd;
if (fd < 0 ) {
sp->perf_stat[i].counter = STRESS_PERF_INVALID;
continue;
}
(void)shim_memset(&data, 0, sizeof(data));
ret = read(fd, &data, sizeof(data));
if (ret != sizeof(data))
sp->perf_stat[i].counter = STRESS_PERF_INVALID;
else {
/* Ensure we don't get division by zero */
if (data.time_running == 0) {
scale = (data.time_enabled == 0) ? 1.0 : 0.0;
} else {
scale = (double)data.time_enabled /
(double)data.time_running;
}
sp->perf_stat[i].counter = (uint64_t)
((double)data.counter * scale);
}
(void)close(fd);
sp->perf_stat[i].fd = -1;
}
out_ok:
for (; i < STRESS_PERF_MAX; i++)
sp->perf_stat[i].counter = STRESS_PERF_INVALID;
return 0;
}
/*
* stress_perf_stat_succeeded()
* did perf event open work OK?
*/
bool stress_perf_stat_succeeded(const stress_perf_t *sp)
{
return sp->perf_opened > 0;
}
/*
* stress_perf_stat_scale()
* scale a counter by duration seconds
* into a human readable form
*/
static const char *stress_perf_stat_scale(const uint64_t counter, const double duration)
{
static char buffer[40];
const char *suffix = "E/sec";
double scale = QUINTILLION;
size_t i;
double scaled =
duration > 0.0 ? (double)counter / duration : 0.0;
for (i = 0; perf_scale[i].suffix; i++) {
if (scaled < perf_scale[i].threshold) {
suffix = perf_scale[i].suffix;
scale = perf_scale[i].scale;
break;
}
}
scaled /= scale;
(void)snprintf(buffer, sizeof(buffer), "%11.3f %-5s",
scaled, suffix);
return buffer;
}
/*
* Compare type + config relative to another reference type and config
*/
typedef struct {
const unsigned int type;
const unsigned long config;
const unsigned int ref_type;
const unsigned long ref_config;
const bool percent; /* scale by 100.0 for percentages? */
const char *fmt; /* snprintf format */
} perf_relative_t;
static const perf_relative_t perf_relatives[] = {
{ PERF_TYPE_HARDWARE, PERF_COUNT_HW_INSTRUCTIONS,
PERF_TYPE_HARDWARE, PERF_COUNT_HW_CPU_CYCLES,
false, " (%.3f instr. per cycle)" },
{ PERF_TYPE_HARDWARE, PERF_COUNT_HW_CACHE_MISSES,
PERF_TYPE_HARDWARE, PERF_COUNT_HW_CACHE_REFERENCES,
true, " (%6.3f%%)" },
{ PERF_TYPE_HARDWARE, PERF_COUNT_HW_BRANCH_MISSES,
PERF_TYPE_HARDWARE, PERF_COUNT_HW_BRANCH_INSTRUCTIONS,
true, " (%6.3f%%)" },
{ PERF_TYPE_HW_CACHE, PERF_INFO_HW_CACHE_CONFIG(L1D, READ, MISS),
PERF_TYPE_HW_CACHE, PERF_INFO_HW_CACHE_CONFIG(L1D, READ, ACCESS),
true, " (%6.3f%%)" },
{ PERF_TYPE_HW_CACHE, PERF_INFO_HW_CACHE_CONFIG(LL, READ, MISS),
PERF_TYPE_HW_CACHE, PERF_INFO_HW_CACHE_CONFIG(LL, READ, ACCESS),
true, " (%6.3f%%)" },
{ PERF_TYPE_HW_CACHE, PERF_INFO_HW_CACHE_CONFIG(LL, WRITE, MISS),
PERF_TYPE_HW_CACHE, PERF_INFO_HW_CACHE_CONFIG(LL, WRITE, ACCESS),
true, " (%6.3f%%)" },
{ PERF_TYPE_HW_CACHE, PERF_INFO_HW_CACHE_CONFIG(DTLB, READ, MISS),
PERF_TYPE_HW_CACHE, PERF_INFO_HW_CACHE_CONFIG(DTLB, READ, ACCESS),
true, " (%6.3f%%)" },
{ PERF_TYPE_HW_CACHE, PERF_INFO_HW_CACHE_CONFIG(DTLB, WRITE, MISS),
PERF_TYPE_HW_CACHE, PERF_INFO_HW_CACHE_CONFIG(DTLB, WRITE, ACCESS),
true, " (%6.3f%%)" },
{ PERF_TYPE_HW_CACHE, PERF_INFO_HW_CACHE_CONFIG(ITLB, READ, MISS),
PERF_TYPE_HW_CACHE, PERF_INFO_HW_CACHE_CONFIG(ITLB, READ, ACCESS),
true, " (%6.3f%%)" },
{ PERF_TYPE_HW_CACHE, PERF_INFO_HW_CACHE_CONFIG(BPU, READ, MISS),
PERF_TYPE_HW_CACHE, PERF_INFO_HW_CACHE_CONFIG(BPU, READ, ACCESS),
true, " (%6.3f%%)" },
{ PERF_TYPE_HW_CACHE, PERF_INFO_HW_CACHE_CONFIG(NODE, READ, MISS),
PERF_TYPE_HW_CACHE, PERF_INFO_HW_CACHE_CONFIG(NODE, READ, ACCESS),
true, " (%6.3f%%)" },
{ PERF_TYPE_HW_CACHE, PERF_INFO_HW_CACHE_CONFIG(NODE, WRITE, MISS),
PERF_TYPE_HW_CACHE, PERF_INFO_HW_CACHE_CONFIG(NODE, WRITE, ACCESS),
true, " (%6.3f%%)" },
};
/*
* stress_perf_stat_dump()
* emit perf statistics
*/
void stress_perf_stat_dump(FILE *yaml, stress_stressor_t *stressors_list, const double duration)
{
bool no_perf_stats = true;
stress_stressor_t *ss;
#if defined(HAVE_LOCALE_H)
(void)setlocale(LC_ALL, "");
#endif
pr_yaml(yaml, "perfstats:\n");
for (ss = stressors_list; ss; ss = ss->next) {
int p;
uint64_t counter_totals[STRESS_PERF_MAX];
bool got_data = false;
char munged[64];
stress_perf_t *sp;
if (ss->ignore.run)
continue;
if (!ss->stats)
continue;
sp = &ss->stats[0]->sp;
if (!stress_perf_stat_succeeded(sp))
continue;
(void)shim_memset(counter_totals, 0, sizeof(counter_totals));
/* Sum totals across all instances of the stressor */
for (p = 0; (p < STRESS_PERF_MAX) && perf_info[p].label; p++) {
int32_t j;
for (j = 0; j < ss->num_instances; j++) {
const uint64_t counter = sp->perf_stat[p].counter;
if (counter == STRESS_PERF_INVALID) {
counter_totals[p] = STRESS_PERF_INVALID;
break;
}
counter_totals[p] += counter;
got_data |= (counter > 0);
}
}
if (!got_data)
continue;
(void)stress_munge_underscore(munged, ss->stressor->name, sizeof(munged));
pr_inf("%s:\n", munged);
pr_yaml(yaml, " - stressor: %s\n", munged);
pr_yaml(yaml, " duration: %f\n", duration);
for (p = 0; (p < STRESS_PERF_MAX) && perf_info[p].label; p++) {
const char *l = perf_info[p].label;
const uint64_t ct = counter_totals[p];
if (l && (ct != STRESS_PERF_INVALID)) {
char extra[32];
char yaml_label[128];
*extra = '\0';
size_t i;
no_perf_stats = false;
for (i = 0; i < SIZEOF_ARRAY(perf_relatives); i++) {
if ((perf_info[p].type == perf_relatives[i].type) &&
(perf_info[p].config == perf_relatives[i].config)) {
const size_t idx = stress_perf_info_find(
perf_relatives[i].ref_type,
perf_relatives[i].ref_config);
if ((idx < STRESS_PERF_MAX) &&
(counter_totals[idx] > 0))
(void)snprintf(extra, sizeof(extra),
perf_relatives[i].fmt,
(perf_relatives[i].percent ? 100.0 : 1.0) *
(double)ct / (double)counter_totals[idx]);
}
}
pr_inf("%'26" PRIu64 " %-24s %s%s\n",
ct, l, stress_perf_stat_scale(ct, duration),
extra);
*yaml_label = '\0';
stress_perf_yaml_label(yaml_label, l, sizeof(yaml_label));
pr_yaml(yaml, " %s_total: %" PRIu64
"\n", yaml_label, ct);
pr_yaml(yaml, " %s_per_second: %f\n",
yaml_label, (double)ct / duration);
}
}
pr_yaml(yaml, "\n");
}
if (no_perf_stats) {
if (geteuid() != 0) {
char buffer[64];
ssize_t ret;
bool paranoid = false;
int level = 0;
static const char *path = "/proc/sys/kernel/perf_event_paranoid";
ret = stress_system_read(path, buffer, sizeof(buffer) - 1);
if (ret > 0) {
if (sscanf(buffer, "%5d", &level) == 1)
paranoid = true;
}
if (paranoid && (level > 1)) {
pr_inf("Cannot read perf counters, "
"do not have CAP_SYS_ADMIN capability "
"or %s is set too high (%d)\n",
path, level);
}
} else {
pr_inf("perf counters are not available "
"on this device\n");
}
}
}
#endif