1 /* SPDX-License-Identifier: BSD-3-Clause
2 * Copyright(c) 2018 Intel Corporation
17 #include <rte_memcpy.h>
18 #include <rte_memory.h>
19 #include <rte_string_fns.h>
21 #include "power_pstate_cpufreq.h"
22 #include "power_common.h"
25 #ifdef RTE_LIBRTE_POWER_DEBUG
26 #define POWER_DEBUG_TRACE(fmt, args...) do { \
27 RTE_LOG(ERR, POWER, "%s: " fmt, __func__, ## args); \
30 #define POWER_DEBUG_TRACE(fmt, args...)
33 #define FOPEN_OR_ERR_RET(f, retval) do { \
35 RTE_LOG(ERR, POWER, "File not opened\n"); \
40 #define FOPS_OR_NULL_GOTO(ret, label) do { \
41 if ((ret) == NULL) { \
42 RTE_LOG(ERR, POWER, "fgets returns nothing\n"); \
47 #define FOPS_OR_ERR_GOTO(ret, label) do { \
49 RTE_LOG(ERR, POWER, "File operations failed\n"); \
54 /* macros used for rounding frequency to nearest 100000 */
55 #define FREQ_ROUNDING_DELTA 50000
56 #define ROUND_FREQ_TO_N_100000 100000
58 #define POWER_CONVERT_TO_DECIMAL 10
59 #define BUS_FREQ 100000
61 #define POWER_GOVERNOR_PERF "performance"
62 #define POWER_SYSFILE_GOVERNOR \
63 "/sys/devices/system/cpu/cpu%u/cpufreq/scaling_governor"
64 #define POWER_SYSFILE_MAX_FREQ \
65 "/sys/devices/system/cpu/cpu%u/cpufreq/scaling_max_freq"
66 #define POWER_SYSFILE_MIN_FREQ \
67 "/sys/devices/system/cpu/cpu%u/cpufreq/scaling_min_freq"
68 #define POWER_SYSFILE_CUR_FREQ \
69 "/sys/devices/system/cpu/cpu%u/cpufreq/scaling_cur_freq"
70 #define POWER_SYSFILE_BASE_MAX_FREQ \
71 "/sys/devices/system/cpu/cpu%u/cpufreq/cpuinfo_max_freq"
72 #define POWER_SYSFILE_BASE_MIN_FREQ \
73 "/sys/devices/system/cpu/cpu%u/cpufreq/cpuinfo_min_freq"
74 #define POWER_SYSFILE_BASE_FREQ \
75 "/sys/devices/system/cpu/cpu%u/cpufreq/base_frequency"
76 #define POWER_PSTATE_DRIVER "intel_pstate"
77 #define POWER_MSR_PATH "/dev/cpu/%u/msr"
82 #define PLATFORM_INFO 0x0CE
83 #define NON_TURBO_MASK 0xFF00
84 #define NON_TURBO_OFFSET 0x8
94 struct pstate_power_info {
95 unsigned int lcore_id; /**< Logical core id */
96 uint32_t freqs[RTE_MAX_LCORE_FREQS]; /**< Frequency array */
97 uint32_t nb_freqs; /**< number of available freqs */
98 FILE *f_cur_min; /**< FD of scaling_min */
99 FILE *f_cur_max; /**< FD of scaling_max */
100 char governor_ori[32]; /**< Original governor name */
101 uint32_t curr_idx; /**< Freq index in freqs array */
102 uint32_t non_turbo_max_ratio; /**< Non Turbo Max ratio */
103 uint32_t sys_max_freq; /**< system wide max freq */
104 uint32_t core_base_freq; /**< core base freq */
105 uint32_t state; /**< Power in use state */
106 uint16_t turbo_available; /**< Turbo Boost available */
107 uint16_t turbo_enable; /**< Turbo Boost enable/disable */
108 uint16_t priority_core; /**< High Performance core */
109 } __rte_cache_aligned;
112 static struct pstate_power_info lcore_power_info[RTE_MAX_LCORE];
115 * It is to read the specific MSR.
119 power_rdmsr(int msr, uint64_t *val, unsigned int lcore_id)
122 char fullpath[PATH_MAX];
124 snprintf(fullpath, sizeof(fullpath), POWER_MSR_PATH, lcore_id);
126 fd = open(fullpath, O_RDONLY);
129 RTE_LOG(ERR, POWER, "Error opening '%s': %s\n", fullpath,
134 ret = pread(fd, val, sizeof(uint64_t), msr);
137 RTE_LOG(ERR, POWER, "Error reading '%s': %s\n", fullpath,
142 POWER_DEBUG_TRACE("MSR Path %s, offset 0x%X for lcore %u\n",
143 fullpath, msr, lcore_id);
145 POWER_DEBUG_TRACE("Ret value %d, content is 0x%"PRIx64"\n", ret, *val);
152 * It is to fopen the sys file for the future setting the lcore frequency.
155 power_init_for_setting_freq(struct pstate_power_info *pi)
157 FILE *f_min, *f_max, *f_base;
158 char fullpath_min[PATH_MAX];
159 char fullpath_max[PATH_MAX];
160 char fullpath_base[PATH_MAX];
161 char buf_base[BUFSIZ];
163 uint32_t base_ratio = 0;
164 uint64_t max_non_turbo = 0;
167 snprintf(fullpath_min, sizeof(fullpath_min), POWER_SYSFILE_MIN_FREQ,
170 f_min = fopen(fullpath_min, "rw+");
171 FOPEN_OR_ERR_RET(f_min, -1);
173 snprintf(fullpath_max, sizeof(fullpath_max), POWER_SYSFILE_MAX_FREQ,
176 f_max = fopen(fullpath_max, "rw+");
180 FOPEN_OR_ERR_RET(f_max, -1);
182 pi->f_cur_min = f_min;
183 pi->f_cur_max = f_max;
185 snprintf(fullpath_base, sizeof(fullpath_base), POWER_SYSFILE_BASE_FREQ,
188 f_base = fopen(fullpath_base, "r");
189 if (f_base == NULL) {
190 /* No sysfs base_frequency, that's OK, continue without */
193 s_base = fgets(buf_base, sizeof(buf_base), f_base);
194 FOPS_OR_NULL_GOTO(s_base, out);
196 buf_base[BUFSIZ-1] = '\0';
197 if (strlen(buf_base))
198 /* Strip off terminating '\n' */
199 strtok(buf_base, "\n");
201 base_ratio = strtoul(buf_base, NULL, POWER_CONVERT_TO_DECIMAL)
205 /* Add MSR read to detect turbo status */
207 if (power_rdmsr(PLATFORM_INFO, &max_non_turbo, pi->lcore_id) < 0) {
212 max_non_turbo = (max_non_turbo&NON_TURBO_MASK)>>NON_TURBO_OFFSET;
214 POWER_DEBUG_TRACE("no turbo perf %"PRIu64"\n", max_non_turbo);
216 pi->non_turbo_max_ratio = max_non_turbo;
219 * If base_frequency is reported as greater than the maximum
220 * non-turbo frequency, then mark it as a high priority core.
222 if (base_ratio > max_non_turbo)
223 pi->priority_core = 1;
225 pi->priority_core = 0;
226 pi->core_base_freq = base_ratio * BUS_FREQ;
235 set_freq_internal(struct pstate_power_info *pi, uint32_t idx)
237 uint32_t target_freq = 0;
239 if (idx >= RTE_MAX_LCORE_FREQS || idx >= pi->nb_freqs) {
240 RTE_LOG(ERR, POWER, "Invalid frequency index %u, which "
241 "should be less than %u\n", idx, pi->nb_freqs);
245 /* Check if it is the same as current */
246 if (idx == pi->curr_idx)
249 /* Because Intel Pstate Driver only allow user change min/max hint
250 * User need change the min/max as same value.
252 if (fseek(pi->f_cur_min, 0, SEEK_SET) < 0) {
253 RTE_LOG(ERR, POWER, "Fail to set file position indicator to 0 "
254 "for setting frequency for lcore %u\n",
259 if (fseek(pi->f_cur_max, 0, SEEK_SET) < 0) {
260 RTE_LOG(ERR, POWER, "Fail to set file position indicator to 0 "
261 "for setting frequency for lcore %u\n",
266 /* Turbo is available and enabled, first freq bucket is sys max freq */
267 if (pi->turbo_available && idx == 0) {
268 if (pi->turbo_enable)
269 target_freq = pi->sys_max_freq;
271 RTE_LOG(ERR, POWER, "Turbo is off, frequency can't be scaled up more %u\n",
276 target_freq = pi->freqs[idx];
278 /* Decrease freq, the min freq should be updated first */
279 if (idx > pi->curr_idx) {
281 if (fprintf(pi->f_cur_min, "%u", target_freq) < 0) {
282 RTE_LOG(ERR, POWER, "Fail to write new frequency for "
283 "lcore %u\n", pi->lcore_id);
287 if (fprintf(pi->f_cur_max, "%u", target_freq) < 0) {
288 RTE_LOG(ERR, POWER, "Fail to write new frequency for "
289 "lcore %u\n", pi->lcore_id);
293 POWER_DEBUG_TRACE("Frequency '%u' to be set for lcore %u\n",
294 target_freq, pi->lcore_id);
296 fflush(pi->f_cur_min);
297 fflush(pi->f_cur_max);
301 /* Increase freq, the max freq should be updated first */
302 if (idx < pi->curr_idx) {
304 if (fprintf(pi->f_cur_max, "%u", target_freq) < 0) {
305 RTE_LOG(ERR, POWER, "Fail to write new frequency for "
306 "lcore %u\n", pi->lcore_id);
310 if (fprintf(pi->f_cur_min, "%u", target_freq) < 0) {
311 RTE_LOG(ERR, POWER, "Fail to write new frequency for "
312 "lcore %u\n", pi->lcore_id);
316 POWER_DEBUG_TRACE("Frequency '%u' to be set for lcore %u\n",
317 target_freq, pi->lcore_id);
319 fflush(pi->f_cur_max);
320 fflush(pi->f_cur_min);
329 * It is to check the current scaling governor by reading sys file, and then
330 * set it into 'performance' if it is not by writing the sys file. The original
331 * governor will be saved for rolling back.
334 power_set_governor_performance(struct pstate_power_info *pi)
339 char fullpath[PATH_MAX];
343 snprintf(fullpath, sizeof(fullpath), POWER_SYSFILE_GOVERNOR,
345 f = fopen(fullpath, "rw+");
346 FOPEN_OR_ERR_RET(f, ret);
348 s = fgets(buf, sizeof(buf), f);
349 FOPS_OR_NULL_GOTO(s, out);
350 /* Strip off terminating '\n' */
353 /* Check if current governor is performance */
354 if (strncmp(buf, POWER_GOVERNOR_PERF,
355 sizeof(POWER_GOVERNOR_PERF)) == 0) {
357 POWER_DEBUG_TRACE("Power management governor of lcore %u is "
358 "already performance\n", pi->lcore_id);
361 /* Save the original governor */
362 strlcpy(pi->governor_ori, buf, sizeof(pi->governor_ori));
364 /* Write 'performance' to the governor */
365 val = fseek(f, 0, SEEK_SET);
366 FOPS_OR_ERR_GOTO(val, out);
368 val = fputs(POWER_GOVERNOR_PERF, f);
369 FOPS_OR_ERR_GOTO(val, out);
371 /* We need to flush to see if the fputs succeeds */
373 FOPS_OR_ERR_GOTO(val, out);
376 RTE_LOG(INFO, POWER, "Power management governor of lcore %u has been "
377 "set to performance successfully\n", pi->lcore_id);
385 * It is to check the governor and then set the original governor back if
386 * needed by writing the sys file.
389 power_set_governor_original(struct pstate_power_info *pi)
394 char fullpath[PATH_MAX];
398 snprintf(fullpath, sizeof(fullpath), POWER_SYSFILE_GOVERNOR,
400 f = fopen(fullpath, "rw+");
401 FOPEN_OR_ERR_RET(f, ret);
403 s = fgets(buf, sizeof(buf), f);
404 FOPS_OR_NULL_GOTO(s, out);
406 /* Check if the governor to be set is the same as current */
407 if (strncmp(buf, pi->governor_ori, sizeof(pi->governor_ori)) == 0) {
409 POWER_DEBUG_TRACE("Power management governor of lcore %u "
410 "has already been set to %s\n",
411 pi->lcore_id, pi->governor_ori);
415 /* Write back the original governor */
416 val = fseek(f, 0, SEEK_SET);
417 FOPS_OR_ERR_GOTO(val, out);
419 val = fputs(pi->governor_ori, f);
420 FOPS_OR_ERR_GOTO(val, out);
423 RTE_LOG(INFO, POWER, "Power management governor of lcore %u "
424 "has been set back to %s successfully\n",
425 pi->lcore_id, pi->governor_ori);
433 * It is to get the available frequencies of the specific lcore by reading the
437 power_get_available_freqs(struct pstate_power_info *pi)
442 char buf_min[BUFSIZ];
443 char buf_max[BUFSIZ];
444 char fullpath_min[PATH_MAX];
445 char fullpath_max[PATH_MAX];
447 uint32_t sys_min_freq = 0, sys_max_freq = 0, base_max_freq = 0;
448 uint32_t i, num_freqs = 0;
450 snprintf(fullpath_max, sizeof(fullpath_max),
451 POWER_SYSFILE_BASE_MAX_FREQ,
453 snprintf(fullpath_min, sizeof(fullpath_min),
454 POWER_SYSFILE_BASE_MIN_FREQ,
457 f_min = fopen(fullpath_min, "r");
458 FOPEN_OR_ERR_RET(f_min, ret);
460 f_max = fopen(fullpath_max, "r");
464 FOPEN_OR_ERR_RET(f_max, ret);
466 s_min = fgets(buf_min, sizeof(buf_min), f_min);
467 FOPS_OR_NULL_GOTO(s_min, out);
469 s_max = fgets(buf_max, sizeof(buf_max), f_max);
470 FOPS_OR_NULL_GOTO(s_max, out);
473 /* Strip the line break if there is */
474 p_min = strchr(buf_min, '\n');
478 p_max = strchr(buf_max, '\n');
482 sys_min_freq = strtoul(buf_min, &p_min, POWER_CONVERT_TO_DECIMAL);
483 sys_max_freq = strtoul(buf_max, &p_max, POWER_CONVERT_TO_DECIMAL);
485 if (sys_max_freq < sys_min_freq)
488 pi->sys_max_freq = sys_max_freq;
490 if (pi->priority_core == 1)
491 base_max_freq = pi->core_base_freq;
493 base_max_freq = pi->non_turbo_max_ratio * BUS_FREQ;
495 POWER_DEBUG_TRACE("sys min %u, sys max %u, base_max %u\n",
500 if (base_max_freq < sys_max_freq)
501 pi->turbo_available = 1;
503 pi->turbo_available = 0;
505 /* If turbo is available then there is one extra freq bucket
506 * to store the sys max freq which value is base_max +1
508 num_freqs = (base_max_freq - sys_min_freq) / BUS_FREQ + 1 +
511 /* Generate the freq bucket array.
512 * If turbo is available the freq bucket[0] value is base_max +1
513 * the bucket[1] is base_max, bucket[2] is base_max - BUS_FREQ
515 * If turbo is not available bucket[0] is base_max and so on
517 for (i = 0, pi->nb_freqs = 0; i < num_freqs; i++) {
518 if ((i == 0) && pi->turbo_available)
519 pi->freqs[pi->nb_freqs++] = base_max_freq + 1;
521 pi->freqs[pi->nb_freqs++] =
522 base_max_freq - (i - pi->turbo_available) * BUS_FREQ;
527 POWER_DEBUG_TRACE("%d frequency(s) of lcore %u are available\n",
528 num_freqs, pi->lcore_id);
538 power_get_cur_idx(struct pstate_power_info *pi)
543 char buf_cur[BUFSIZ];
544 char fullpath_cur[PATH_MAX];
546 uint32_t sys_cur_freq = 0;
549 snprintf(fullpath_cur, sizeof(fullpath_cur),
550 POWER_SYSFILE_CUR_FREQ,
552 f_cur = fopen(fullpath_cur, "r");
553 FOPEN_OR_ERR_RET(f_cur, ret);
555 /* initialize the cur_idx to matching current frequency freq index */
556 s_cur = fgets(buf_cur, sizeof(buf_cur), f_cur);
557 FOPS_OR_NULL_GOTO(s_cur, fail);
559 p_cur = strchr(buf_cur, '\n');
562 sys_cur_freq = strtoul(buf_cur, &p_cur, POWER_CONVERT_TO_DECIMAL);
564 /* convert the frequency to nearest 100000 value
565 * Ex: if sys_cur_freq=1396789 then freq_conv=1400000
566 * Ex: if sys_cur_freq=800030 then freq_conv=800000
567 * Ex: if sys_cur_freq=800030 then freq_conv=800000
569 unsigned int freq_conv = 0;
570 freq_conv = (sys_cur_freq + FREQ_ROUNDING_DELTA)
571 / ROUND_FREQ_TO_N_100000;
572 freq_conv = freq_conv * ROUND_FREQ_TO_N_100000;
574 for (i = 0; i < pi->nb_freqs; i++) {
575 if (freq_conv == pi->freqs[i]) {
589 power_pstate_cpufreq_check_supported(void)
591 return cpufreq_check_scaling_driver(POWER_PSTATE_DRIVER);
595 power_pstate_cpufreq_init(unsigned int lcore_id)
597 struct pstate_power_info *pi;
600 if (lcore_id >= RTE_MAX_LCORE) {
601 RTE_LOG(ERR, POWER, "Lcore id %u can not exceed %u\n",
602 lcore_id, RTE_MAX_LCORE - 1U);
606 pi = &lcore_power_info[lcore_id];
607 exp_state = POWER_IDLE;
608 /* The power in use state works as a guard variable between
609 * the CPU frequency control initialization and exit process.
610 * The ACQUIRE memory ordering here pairs with the RELEASE
611 * ordering below as lock to make sure the frequency operations
612 * in the critical section are done under the correct state.
614 if (!__atomic_compare_exchange_n(&(pi->state), &exp_state,
616 __ATOMIC_ACQUIRE, __ATOMIC_RELAXED)) {
617 RTE_LOG(INFO, POWER, "Power management of lcore %u is "
618 "in use\n", lcore_id);
622 pi->lcore_id = lcore_id;
623 /* Check and set the governor */
624 if (power_set_governor_performance(pi) < 0) {
625 RTE_LOG(ERR, POWER, "Cannot set governor of lcore %u to "
626 "performance\n", lcore_id);
629 /* Init for setting lcore frequency */
630 if (power_init_for_setting_freq(pi) < 0) {
631 RTE_LOG(ERR, POWER, "Cannot init for setting frequency for "
632 "lcore %u\n", lcore_id);
636 /* Get the available frequencies */
637 if (power_get_available_freqs(pi) < 0) {
638 RTE_LOG(ERR, POWER, "Cannot get available frequencies of "
639 "lcore %u\n", lcore_id);
643 if (power_get_cur_idx(pi) < 0) {
644 RTE_LOG(ERR, POWER, "Cannot get current frequency "
645 "index of lcore %u\n", lcore_id);
649 /* Set freq to max by default */
650 if (power_pstate_cpufreq_freq_max(lcore_id) < 0) {
651 RTE_LOG(ERR, POWER, "Cannot set frequency of lcore %u "
652 "to max\n", lcore_id);
656 RTE_LOG(INFO, POWER, "Initialized successfully for lcore %u "
657 "power management\n", lcore_id);
658 exp_state = POWER_ONGOING;
659 __atomic_compare_exchange_n(&(pi->state), &exp_state, POWER_USED,
660 0, __ATOMIC_RELEASE, __ATOMIC_RELAXED);
665 exp_state = POWER_ONGOING;
666 __atomic_compare_exchange_n(&(pi->state), &exp_state, POWER_UNKNOWN,
667 0, __ATOMIC_RELEASE, __ATOMIC_RELAXED);
673 power_pstate_cpufreq_exit(unsigned int lcore_id)
675 struct pstate_power_info *pi;
678 if (lcore_id >= RTE_MAX_LCORE) {
679 RTE_LOG(ERR, POWER, "Lcore id %u can not exceeds %u\n",
680 lcore_id, RTE_MAX_LCORE - 1U);
683 pi = &lcore_power_info[lcore_id];
685 exp_state = POWER_USED;
686 /* The power in use state works as a guard variable between
687 * the CPU frequency control initialization and exit process.
688 * The ACQUIRE memory ordering here pairs with the RELEASE
689 * ordering below as lock to make sure the frequency operations
690 * in the critical section are under done the correct state.
692 if (!__atomic_compare_exchange_n(&(pi->state), &exp_state,
694 __ATOMIC_ACQUIRE, __ATOMIC_RELAXED)) {
695 RTE_LOG(INFO, POWER, "Power management of lcore %u is "
696 "not used\n", lcore_id);
700 /* Close FD of setting freq */
701 fclose(pi->f_cur_min);
702 fclose(pi->f_cur_max);
703 pi->f_cur_min = NULL;
704 pi->f_cur_max = NULL;
706 /* Set the governor back to the original */
707 if (power_set_governor_original(pi) < 0) {
708 RTE_LOG(ERR, POWER, "Cannot set the governor of %u back "
709 "to the original\n", lcore_id);
713 RTE_LOG(INFO, POWER, "Power management of lcore %u has exited from "
714 "'performance' mode and been set back to the "
715 "original\n", lcore_id);
716 exp_state = POWER_ONGOING;
717 __atomic_compare_exchange_n(&(pi->state), &exp_state, POWER_IDLE,
718 0, __ATOMIC_RELEASE, __ATOMIC_RELAXED);
723 exp_state = POWER_ONGOING;
724 __atomic_compare_exchange_n(&(pi->state), &exp_state, POWER_UNKNOWN,
725 0, __ATOMIC_RELEASE, __ATOMIC_RELAXED);
732 power_pstate_cpufreq_freqs(unsigned int lcore_id, uint32_t *freqs, uint32_t num)
734 struct pstate_power_info *pi;
736 if (lcore_id >= RTE_MAX_LCORE) {
737 RTE_LOG(ERR, POWER, "Invalid lcore ID\n");
742 RTE_LOG(ERR, POWER, "NULL buffer supplied\n");
746 pi = &lcore_power_info[lcore_id];
747 if (num < pi->nb_freqs) {
748 RTE_LOG(ERR, POWER, "Buffer size is not enough\n");
751 rte_memcpy(freqs, pi->freqs, pi->nb_freqs * sizeof(uint32_t));
757 power_pstate_cpufreq_get_freq(unsigned int lcore_id)
759 if (lcore_id >= RTE_MAX_LCORE) {
760 RTE_LOG(ERR, POWER, "Invalid lcore ID\n");
761 return RTE_POWER_INVALID_FREQ_INDEX;
764 return lcore_power_info[lcore_id].curr_idx;
769 power_pstate_cpufreq_set_freq(unsigned int lcore_id, uint32_t index)
771 if (lcore_id >= RTE_MAX_LCORE) {
772 RTE_LOG(ERR, POWER, "Invalid lcore ID\n");
776 return set_freq_internal(&(lcore_power_info[lcore_id]), index);
780 power_pstate_cpufreq_freq_up(unsigned int lcore_id)
782 struct pstate_power_info *pi;
784 if (lcore_id >= RTE_MAX_LCORE) {
785 RTE_LOG(ERR, POWER, "Invalid lcore ID\n");
789 pi = &lcore_power_info[lcore_id];
790 if (pi->curr_idx == 0 ||
791 (pi->curr_idx == 1 && pi->turbo_available && !pi->turbo_enable))
794 /* Frequencies in the array are from high to low. */
795 return set_freq_internal(pi, pi->curr_idx - 1);
799 power_pstate_cpufreq_freq_down(unsigned int lcore_id)
801 struct pstate_power_info *pi;
803 if (lcore_id >= RTE_MAX_LCORE) {
804 RTE_LOG(ERR, POWER, "Invalid lcore ID\n");
808 pi = &lcore_power_info[lcore_id];
809 if (pi->curr_idx + 1 == pi->nb_freqs)
812 /* Frequencies in the array are from high to low. */
813 return set_freq_internal(pi, pi->curr_idx + 1);
817 power_pstate_cpufreq_freq_max(unsigned int lcore_id)
819 if (lcore_id >= RTE_MAX_LCORE) {
820 RTE_LOG(ERR, POWER, "Invalid lcore ID\n");
824 /* Frequencies in the array are from high to low. */
825 if (lcore_power_info[lcore_id].turbo_available) {
826 if (lcore_power_info[lcore_id].turbo_enable)
828 return set_freq_internal(
829 &lcore_power_info[lcore_id], 0);
831 /* Set to max non-turbo */
832 return set_freq_internal(
833 &lcore_power_info[lcore_id], 1);
835 return set_freq_internal(&lcore_power_info[lcore_id], 0);
840 power_pstate_cpufreq_freq_min(unsigned int lcore_id)
842 struct pstate_power_info *pi;
844 if (lcore_id >= RTE_MAX_LCORE) {
845 RTE_LOG(ERR, POWER, "Invalid lcore ID\n");
849 pi = &lcore_power_info[lcore_id];
851 /* Frequencies in the array are from high to low. */
852 return set_freq_internal(pi, pi->nb_freqs - 1);
857 power_pstate_turbo_status(unsigned int lcore_id)
859 struct pstate_power_info *pi;
861 if (lcore_id >= RTE_MAX_LCORE) {
862 RTE_LOG(ERR, POWER, "Invalid lcore ID\n");
866 pi = &lcore_power_info[lcore_id];
868 return pi->turbo_enable;
872 power_pstate_enable_turbo(unsigned int lcore_id)
874 struct pstate_power_info *pi;
876 if (lcore_id >= RTE_MAX_LCORE) {
877 RTE_LOG(ERR, POWER, "Invalid lcore ID\n");
881 pi = &lcore_power_info[lcore_id];
883 if (pi->turbo_available)
884 pi->turbo_enable = 1;
886 pi->turbo_enable = 0;
888 "Failed to enable turbo on lcore %u\n",
898 power_pstate_disable_turbo(unsigned int lcore_id)
900 struct pstate_power_info *pi;
902 if (lcore_id >= RTE_MAX_LCORE) {
903 RTE_LOG(ERR, POWER, "Invalid lcore ID\n");
907 pi = &lcore_power_info[lcore_id];
909 pi->turbo_enable = 0;
911 if (pi->turbo_available && pi->curr_idx <= 1) {
912 /* Try to set freq to max by default coming out of turbo */
913 if (power_pstate_cpufreq_freq_max(lcore_id) < 0) {
915 "Failed to set frequency of lcore %u to max\n",
925 int power_pstate_get_capabilities(unsigned int lcore_id,
926 struct rte_power_core_capabilities *caps)
928 struct pstate_power_info *pi;
930 if (lcore_id >= RTE_MAX_LCORE) {
931 RTE_LOG(ERR, POWER, "Invalid lcore ID\n");
935 RTE_LOG(ERR, POWER, "Invalid argument\n");
939 pi = &lcore_power_info[lcore_id];
940 caps->capabilities = 0;
941 caps->turbo = !!(pi->turbo_available);
942 caps->priority = pi->priority_core;