mirror of
https://github.com/libretro/RetroArch.git
synced 2024-12-02 21:37:14 +00:00
443 lines
13 KiB
C
443 lines
13 KiB
C
/* RetroArch - A frontend for libretro.
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* Copyright (C) 2021 - David Guillen Fandos
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*
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* RetroArch is free software: you can redistribute it and/or modify it under the terms
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* of the GNU General Public License as published by the Free Software Found-
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* ation, either version 3 of the License, or (at your option) any later version.
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*
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* RetroArch is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
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* without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
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* PURPOSE. See the GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License along with RetroArch.
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* If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <stdio.h>
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#include <time.h>
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#include <string.h>
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#include <file/file_path.h>
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#include <lists/string_list.h>
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#include <lists/dir_list.h>
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#include <streams/file_stream.h>
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#include <string/stdstring.h>
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#include <retro_miscellaneous.h>
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#include "cpufreq.h"
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#include "../../configuration.h"
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#define REFRESH_TIMEOUT 2
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#define CPU_POLICIES_DIR "/sys/devices/system/cpu/cpufreq/"
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static time_t last_update = 0;
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static cpu_scaling_driver_t **scaling_drivers = NULL;
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/* Mode state and its options */
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static enum cpu_scaling_mode cur_smode = CPUSCALING_MANAGED_PERFORMANCE;
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static cpu_scaling_opts_t cur_smode_opts = { 1, ~0U, "performance", "ondemand" };
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/* Precalculate and store the absolute max and min frequencies */
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static uint32_t abs_min_freq = 1, abs_max_freq = ~0U;
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static bool readparse_uint32(const char *path, uint32_t *value)
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{
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char *tmpbuf;
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if (!filestream_read_file(path, (void**)&tmpbuf, NULL))
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return false;
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string_remove_all_chars(tmpbuf, '\n');
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if (sscanf(tmpbuf, "%" PRIu32, value) != 1)
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{
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free(tmpbuf);
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return false;
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}
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free(tmpbuf);
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return true;
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}
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static struct string_list* readparse_list(const char *path)
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{
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char *tmpbuf;
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struct string_list* ret;
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if (!filestream_read_file(path, (void**)&tmpbuf, NULL))
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return NULL;
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string_remove_all_chars(tmpbuf, '\n');
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ret = string_split(tmpbuf, " ");
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free(tmpbuf);
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return ret;
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}
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static void free_drivers(cpu_scaling_driver_t **d)
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{
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if (d)
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{
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cpu_scaling_driver_t **it = d;
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while (*it)
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{
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cpu_scaling_driver_t *drv = *it++;
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if (drv->affected_cpus)
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free(drv->affected_cpus);
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if (drv->scaling_governor)
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free(drv->scaling_governor);
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if (drv->available_freqs)
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free(drv->available_freqs);
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string_list_free(drv->available_governors);
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free(drv);
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}
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free(d);
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}
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}
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cpu_scaling_driver_t **get_cpu_scaling_drivers(bool can_update)
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{
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if (can_update && (time(NULL) > last_update + REFRESH_TIMEOUT ||
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!scaling_drivers))
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{
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/* Parse /sys/devices/system/cpu/cpufreq/ policies */
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int i, j, pc;
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struct string_list *policy_dir = dir_list_new(CPU_POLICIES_DIR, NULL,
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true, false, false, false);
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if (!policy_dir)
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return NULL;
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dir_list_sort(policy_dir, false);
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/* Delete the previous list of drivers */
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free_drivers(scaling_drivers);
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scaling_drivers = (cpu_scaling_driver_t**)calloc(
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(policy_dir->size + 1), sizeof(cpu_scaling_driver_t*));
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for (i = 0, pc = 0; i < policy_dir->size; i++)
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{
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uint32_t polid;
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cpu_scaling_driver_t *drv;
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struct string_list *tmplst;
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char fpath[PATH_MAX_LENGTH];
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const char *fname = strrchr(policy_dir->elems[i].data, '/');
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if (!fname)
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continue;
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/* Ensure this is a policy and get its ID */
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if (sscanf(fname, "/policy%" PRIu32, &polid) != 1)
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continue;
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drv = calloc(1, sizeof(cpu_scaling_driver_t));
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drv->policy_id = polid;
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/* Read all nodes with freq info */
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fill_pathname_join(fpath, policy_dir->elems[i].data,
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"scaling_cur_freq", sizeof(fpath));
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readparse_uint32(fpath, &drv->current_frequency);
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fill_pathname_join(fpath, policy_dir->elems[i].data,
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"cpuinfo_min_freq", sizeof(fpath));
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readparse_uint32(fpath, &drv->min_cpu_freq);
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fill_pathname_join(fpath, policy_dir->elems[i].data,
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"cpuinfo_max_freq", sizeof(fpath));
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readparse_uint32(fpath, &drv->max_cpu_freq);
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fill_pathname_join(fpath, policy_dir->elems[i].data,
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"scaling_min_freq", sizeof(fpath));
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readparse_uint32(fpath, &drv->min_policy_freq);
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/* Check current freq limits and update them */
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if (abs_min_freq > drv->min_cpu_freq || abs_min_freq == 1)
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abs_min_freq = drv->min_cpu_freq;
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if (abs_max_freq < drv->max_cpu_freq || abs_max_freq == ~0U)
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abs_max_freq = drv->max_cpu_freq;
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fill_pathname_join(fpath, policy_dir->elems[i].data,
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"scaling_max_freq", sizeof(fpath));
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readparse_uint32(fpath, &drv->max_policy_freq);
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fill_pathname_join(fpath, policy_dir->elems[i].data,
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"scaling_available_governors", sizeof(fpath));
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drv->available_governors = readparse_list(fpath);
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fill_pathname_join(fpath, policy_dir->elems[i].data,
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"affected_cpus", sizeof(fpath));
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filestream_read_file(fpath, (void**)&drv->affected_cpus, NULL);
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string_remove_all_chars(drv->affected_cpus, '\n');
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fill_pathname_join(fpath, policy_dir->elems[i].data,
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"scaling_governor", sizeof(fpath));
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filestream_read_file(fpath, (void**)&drv->scaling_governor, NULL);
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string_remove_all_chars(drv->scaling_governor, '\n');
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/* This is not available in many platforms! */
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fill_pathname_join(fpath, policy_dir->elems[i].data,
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"scaling_available_frequencies", sizeof(fpath));
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tmplst = readparse_list(fpath);
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if (tmplst)
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{
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drv->available_freqs = calloc(tmplst->size, sizeof(uint32_t));
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for (j = 0; j < tmplst->size; j++)
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{
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uint32_t freq = (uint32_t)atol(tmplst->elems[j].data);
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drv->available_freqs[j] = freq;
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if (abs_min_freq > freq || abs_min_freq == 1)
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abs_min_freq = freq;
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if (abs_max_freq < freq || abs_max_freq == ~0U)
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abs_max_freq = freq;
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}
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string_list_free(tmplst);
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}
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/* Move to the list */
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scaling_drivers[pc++] = drv;
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}
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dir_list_free(policy_dir);
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last_update = time(NULL);
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}
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return scaling_drivers;
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}
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bool set_cpu_scaling_min_frequency(
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cpu_scaling_driver_t *driver,
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uint32_t min_freq)
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{
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char fpath[PATH_MAX_LENGTH];
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char value[16];
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snprintf(fpath, sizeof(fpath), CPU_POLICIES_DIR "policy%u/scaling_min_freq",
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driver->policy_id);
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snprintf(value, sizeof(value), "%" PRIu32 "\n", min_freq);
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if (filestream_write_file(fpath, value, strlen(value)))
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{
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driver->min_policy_freq = min_freq;
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last_update = 0; /* Force reload */
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return true;
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}
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return false;
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}
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bool set_cpu_scaling_max_frequency(
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cpu_scaling_driver_t *driver,
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uint32_t max_freq)
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{
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char fpath[PATH_MAX_LENGTH];
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char value[16];
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snprintf(fpath, sizeof(fpath), CPU_POLICIES_DIR "policy%u/scaling_max_freq",
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driver->policy_id);
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snprintf(value, sizeof(value), "%" PRIu32 "\n", max_freq);
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if (filestream_write_file(fpath, value, strlen(value)))
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{
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driver->max_policy_freq = max_freq;
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last_update = 0; /* Force reload */
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return true;
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}
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return false;
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}
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uint32_t get_cpu_scaling_next_frequency(
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cpu_scaling_driver_t *driver,
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uint32_t freq,
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int step)
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{
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/* If the driver does not have a list of available frequencies */
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if (driver->available_freqs)
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{
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uint32_t *fr = driver->available_freqs;
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while (*fr)
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{
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if (fr[0] <= freq && fr[1] > freq && step > 0)
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{
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freq = fr[1];
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break;
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}
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else if (fr[0] < freq && fr[1] >= freq && step < 0)
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{
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freq = fr[0];
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break;
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}
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fr++;
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}
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if (!(*fr))
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{
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if (step > 0)
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freq = driver->max_cpu_freq;
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else
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freq = driver->min_cpu_freq;
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}
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}
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else {
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/* Just do small steps towards the max/min, arbitrary 100MHz */
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freq = freq + step * 100000;
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}
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freq = MIN(freq, driver->max_cpu_freq);
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freq = MAX(freq, driver->min_cpu_freq);
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return freq;
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}
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uint32_t get_cpu_scaling_next_frequency_limit(uint32_t freq, int step)
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{
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/* Tune step, if it's smaller than 100MHz */
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unsigned fstep = 100000;
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if ((abs_max_freq - abs_min_freq) / 20 < fstep)
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fstep = 50000;
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if (freq <= abs_min_freq && step < 0)
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return 1; /* Means "minimum frequency" */
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if (freq >= abs_max_freq && step > 0)
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return ~0U; /* Means "maximum frequency" */
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/* Just do small steps towards the max/min */
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freq = freq + step * fstep;
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freq = MIN(freq, abs_max_freq);
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freq = MAX(freq, abs_min_freq);
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return freq;
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}
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bool set_cpu_scaling_governor(cpu_scaling_driver_t *driver, const char* governor)
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{
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char fpath[PATH_MAX_LENGTH];
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snprintf(fpath, sizeof(fpath), CPU_POLICIES_DIR "policy%u/scaling_governor",
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driver->policy_id);
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if (filestream_write_file(fpath, governor, strlen(governor)))
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{
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if (driver->scaling_governor)
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free(driver->scaling_governor);
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driver->scaling_governor = strdup(governor);
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last_update = 0; /* Force reload */
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return true;
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}
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return false;
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}
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static void steer_all_drivers(
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const char *governor,
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uint32_t minfreq,
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uint32_t maxfreq)
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{
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cpu_scaling_driver_t **drivers = get_cpu_scaling_drivers(false);
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if (!drivers)
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return;
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while (*drivers)
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{
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cpu_scaling_driver_t *d = *drivers++;
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if (minfreq)
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set_cpu_scaling_min_frequency(d, MAX(minfreq, d->min_cpu_freq));
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if (maxfreq)
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set_cpu_scaling_max_frequency(d, MIN(maxfreq, d->max_cpu_freq));
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set_cpu_scaling_governor(d, governor);
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}
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}
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void set_cpu_scaling_signal(enum cpu_scaling_event event)
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{
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switch (cur_smode) {
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case CPUSCALING_MANAGED_PERFORMANCE:
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/* Bump to perf or fall back to ondemand depending on the RA state */
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if (event == CPUSCALING_EVENT_FOCUS_CORE)
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steer_all_drivers("performance", cur_smode_opts.min_freq,
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cur_smode_opts.max_freq);
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else
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steer_all_drivers("ondemand", 1, ~0U);
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break;
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case CPUSCALING_MANAGED_PER_CONTEXT:
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/* Apply the right settings the user specified */
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if (event == CPUSCALING_EVENT_FOCUS_CORE)
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steer_all_drivers(cur_smode_opts.main_policy, cur_smode_opts.min_freq,
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cur_smode_opts.max_freq);
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else
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steer_all_drivers(cur_smode_opts.menu_policy, 1, ~0U);
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break;
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default:
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break;
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};
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}
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enum cpu_scaling_mode get_cpu_scaling_mode(cpu_scaling_opts_t *opts)
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{
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if (opts)
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*opts = cur_smode_opts;
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return cur_smode;
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}
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void set_cpu_scaling_mode(
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enum cpu_scaling_mode mode,
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const cpu_scaling_opts_t *opts)
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{
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settings_t *settings = config_get_ptr();
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/* Store current state */
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cur_smode = mode;
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if (opts)
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cur_smode_opts = *opts;
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switch (mode)
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{
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case CPUSCALING_MANUAL:
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/* Do nothing, the UI allows for tweaking directly */
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break;
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case CPUSCALING_MANAGED_PERFORMANCE:
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case CPUSCALING_MANAGED_PER_CONTEXT:
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/* Simulate a state change to enforce the policy */
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set_cpu_scaling_signal(CPUSCALING_EVENT_FOCUS_MENU);
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break;
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case CPUSCALING_MAX_PERFORMANCE:
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// Set performance and bump frequencies to min/max
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steer_all_drivers("performance", 1, ~0U);
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break;
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case CPUSCALING_MIN_POWER:
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// Set powersave and bump frequencies to min/max
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steer_all_drivers("powersave", 1, ~0U);
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break;
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case CPUSCALING_BALANCED:
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// Set ondemand and bump frequencies to min/max
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steer_all_drivers("ondemand", 1, ~0U);
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break;
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};
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if (settings)
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{
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/* Store current settings */
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settings->uints.cpu_scaling_mode = (int)cur_smode;
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settings->uints.cpu_min_freq = cur_smode_opts.min_freq;
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settings->uints.cpu_max_freq = cur_smode_opts.max_freq;
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strlcpy(settings->arrays.cpu_main_gov, cur_smode_opts.main_policy,
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sizeof(settings->arrays.cpu_main_gov));
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strlcpy(settings->arrays.cpu_menu_gov, cur_smode_opts.menu_policy,
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sizeof(settings->arrays.cpu_menu_gov));
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}
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};
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void cpu_scaling_driver_free()
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{
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if (scaling_drivers)
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free_drivers(scaling_drivers);
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scaling_drivers = NULL;
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last_update = 0;
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}
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void cpu_scaling_driver_init(void)
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{
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/* Read the default settings */
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settings_t *settings = config_get_ptr();
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unsigned mode = settings->uints.cpu_scaling_mode;
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cur_smode_opts.min_freq = settings->uints.cpu_min_freq;
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cur_smode_opts.max_freq = settings->uints.cpu_max_freq;
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if (mode <= (int)CPUSCALING_MANUAL)
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cur_smode = (enum cpu_scaling_mode)mode;
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if (settings->arrays.cpu_main_gov[0])
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strlcpy(cur_smode_opts.main_policy, settings->arrays.cpu_main_gov,
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sizeof(cur_smode_opts.main_policy));
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if (settings->arrays.cpu_menu_gov[0])
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strlcpy(cur_smode_opts.menu_policy, settings->arrays.cpu_menu_gov,
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sizeof(cur_smode_opts.menu_policy));
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/* Force update the policy tree */
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get_cpu_scaling_drivers(true);
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/* Force enforce these settings */
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set_cpu_scaling_mode(cur_smode, NULL);
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}
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