173347b07SNate Lawson /*- 20d4ac62aSNate Lawson * Copyright (c) 2004-2007 Nate Lawson (SDG) 373347b07SNate Lawson * All rights reserved. 473347b07SNate Lawson * 573347b07SNate Lawson * Redistribution and use in source and binary forms, with or without 673347b07SNate Lawson * modification, are permitted provided that the following conditions 773347b07SNate Lawson * are met: 873347b07SNate Lawson * 1. Redistributions of source code must retain the above copyright 973347b07SNate Lawson * notice, this list of conditions and the following disclaimer. 1073347b07SNate Lawson * 2. Redistributions in binary form must reproduce the above copyright 1173347b07SNate Lawson * notice, this list of conditions and the following disclaimer in the 1273347b07SNate Lawson * documentation and/or other materials provided with the distribution. 1373347b07SNate Lawson * 1473347b07SNate Lawson * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 1573347b07SNate Lawson * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 1673347b07SNate Lawson * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 1773347b07SNate Lawson * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 1873347b07SNate Lawson * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 1973347b07SNate Lawson * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 2073347b07SNate Lawson * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 2173347b07SNate Lawson * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 2273347b07SNate Lawson * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 2373347b07SNate Lawson * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 2473347b07SNate Lawson * SUCH DAMAGE. 2573347b07SNate Lawson */ 2673347b07SNate Lawson 2773347b07SNate Lawson #include <sys/cdefs.h> 2873347b07SNate Lawson __FBSDID("$FreeBSD$"); 2973347b07SNate Lawson 3073347b07SNate Lawson #include <sys/param.h> 3173347b07SNate Lawson #include <sys/bus.h> 3273347b07SNate Lawson #include <sys/cpu.h> 3373347b07SNate Lawson #include <sys/eventhandler.h> 3473347b07SNate Lawson #include <sys/kernel.h> 35789f03ceSNate Lawson #include <sys/lock.h> 3673347b07SNate Lawson #include <sys/malloc.h> 3773347b07SNate Lawson #include <sys/module.h> 3873347b07SNate Lawson #include <sys/proc.h> 3973347b07SNate Lawson #include <sys/queue.h> 40a15e947dSNate Lawson #include <sys/sbuf.h> 4173347b07SNate Lawson #include <sys/sched.h> 42a15e947dSNate Lawson #include <sys/smp.h> 4373347b07SNate Lawson #include <sys/sysctl.h> 4473347b07SNate Lawson #include <sys/systm.h> 45789f03ceSNate Lawson #include <sys/sx.h> 460325089dSNate Lawson #include <sys/timetc.h> 470d4ac62aSNate Lawson #include <sys/taskqueue.h> 4873347b07SNate Lawson 4973347b07SNate Lawson #include "cpufreq_if.h" 5073347b07SNate Lawson 5173347b07SNate Lawson /* 5273347b07SNate Lawson * Common CPU frequency glue code. Drivers for specific hardware can 5373347b07SNate Lawson * attach this interface to allow users to get/set the CPU frequency. 5473347b07SNate Lawson */ 5573347b07SNate Lawson 5673347b07SNate Lawson /* 5773347b07SNate Lawson * Number of levels we can handle. Levels are synthesized from settings 58d269386aSNate Lawson * so for M settings and N drivers, there may be M*N levels. 5973347b07SNate Lawson */ 60d269386aSNate Lawson #define CF_MAX_LEVELS 64 6173347b07SNate Lawson 6256e5a87aSHajimu UMEMOTO struct cf_saved_freq { 6356e5a87aSHajimu UMEMOTO struct cf_level level; 6456e5a87aSHajimu UMEMOTO int priority; 6556e5a87aSHajimu UMEMOTO SLIST_ENTRY(cf_saved_freq) link; 6656e5a87aSHajimu UMEMOTO }; 6756e5a87aSHajimu UMEMOTO 6873347b07SNate Lawson struct cpufreq_softc { 69789f03ceSNate Lawson struct sx lock; 7073347b07SNate Lawson struct cf_level curr_level; 715f0afa04SNate Lawson int curr_priority; 7256e5a87aSHajimu UMEMOTO SLIST_HEAD(, cf_saved_freq) saved_freq; 7373347b07SNate Lawson struct cf_level_lst all_levels; 745f0afa04SNate Lawson int all_count; 7567c8649fSNate Lawson int max_mhz; 7673347b07SNate Lawson device_t dev; 7773347b07SNate Lawson struct sysctl_ctx_list sysctl_ctx; 780d4ac62aSNate Lawson struct task startup_task; 79dac50931SAndriy Gapon struct cf_level *levels_buf; 8073347b07SNate Lawson }; 8173347b07SNate Lawson 8273347b07SNate Lawson struct cf_setting_array { 8373347b07SNate Lawson struct cf_setting sets[MAX_SETTINGS]; 8473347b07SNate Lawson int count; 8573347b07SNate Lawson TAILQ_ENTRY(cf_setting_array) link; 8673347b07SNate Lawson }; 8773347b07SNate Lawson 8873347b07SNate Lawson TAILQ_HEAD(cf_setting_lst, cf_setting_array); 8973347b07SNate Lawson 90789f03ceSNate Lawson #define CF_MTX_INIT(x) sx_init((x), "cpufreq lock") 91789f03ceSNate Lawson #define CF_MTX_LOCK(x) sx_xlock((x)) 92789f03ceSNate Lawson #define CF_MTX_UNLOCK(x) sx_xunlock((x)) 93789f03ceSNate Lawson #define CF_MTX_ASSERT(x) sx_assert((x), SX_XLOCKED) 94789f03ceSNate Lawson 958d913481SNate Lawson #define CF_DEBUG(msg...) do { \ 968d913481SNate Lawson if (cf_verbose) \ 978d913481SNate Lawson printf("cpufreq: " msg); \ 988d913481SNate Lawson } while (0) 998d913481SNate Lawson 10073347b07SNate Lawson static int cpufreq_attach(device_t dev); 1010d4ac62aSNate Lawson static void cpufreq_startup_task(void *ctx, int pending); 10273347b07SNate Lawson static int cpufreq_detach(device_t dev); 10373347b07SNate Lawson static int cf_set_method(device_t dev, const struct cf_level *level, 10473347b07SNate Lawson int priority); 10573347b07SNate Lawson static int cf_get_method(device_t dev, struct cf_level *level); 10673347b07SNate Lawson static int cf_levels_method(device_t dev, struct cf_level *levels, 10773347b07SNate Lawson int *count); 10888c9b54cSNate Lawson static int cpufreq_insert_abs(struct cpufreq_softc *sc, 10973347b07SNate Lawson struct cf_setting *sets, int count); 11088c9b54cSNate Lawson static int cpufreq_expand_set(struct cpufreq_softc *sc, 11188c9b54cSNate Lawson struct cf_setting_array *set_arr); 11288c9b54cSNate Lawson static struct cf_level *cpufreq_dup_set(struct cpufreq_softc *sc, 11388c9b54cSNate Lawson struct cf_level *dup, struct cf_setting *set); 11473347b07SNate Lawson static int cpufreq_curr_sysctl(SYSCTL_HANDLER_ARGS); 11573347b07SNate Lawson static int cpufreq_levels_sysctl(SYSCTL_HANDLER_ARGS); 116e959a70bSNate Lawson static int cpufreq_settings_sysctl(SYSCTL_HANDLER_ARGS); 11773347b07SNate Lawson 11873347b07SNate Lawson static device_method_t cpufreq_methods[] = { 11973347b07SNate Lawson DEVMETHOD(device_probe, bus_generic_probe), 12073347b07SNate Lawson DEVMETHOD(device_attach, cpufreq_attach), 12173347b07SNate Lawson DEVMETHOD(device_detach, cpufreq_detach), 12273347b07SNate Lawson 12373347b07SNate Lawson DEVMETHOD(cpufreq_set, cf_set_method), 12473347b07SNate Lawson DEVMETHOD(cpufreq_get, cf_get_method), 12573347b07SNate Lawson DEVMETHOD(cpufreq_levels, cf_levels_method), 12673347b07SNate Lawson {0, 0} 12773347b07SNate Lawson }; 12873347b07SNate Lawson static driver_t cpufreq_driver = { 12973347b07SNate Lawson "cpufreq", cpufreq_methods, sizeof(struct cpufreq_softc) 13073347b07SNate Lawson }; 13173347b07SNate Lawson static devclass_t cpufreq_dc; 13273347b07SNate Lawson DRIVER_MODULE(cpufreq, cpu, cpufreq_driver, cpufreq_dc, 0, 0); 13373347b07SNate Lawson 134b070969bSNate Lawson static int cf_lowest_freq; 1358d913481SNate Lawson static int cf_verbose; 136b070969bSNate Lawson TUNABLE_INT("debug.cpufreq.lowest", &cf_lowest_freq); 1378d913481SNate Lawson TUNABLE_INT("debug.cpufreq.verbose", &cf_verbose); 1386472ac3dSEd Schouten static SYSCTL_NODE(_debug, OID_AUTO, cpufreq, CTLFLAG_RD, NULL, 1396472ac3dSEd Schouten "cpufreq debugging"); 140b070969bSNate Lawson SYSCTL_INT(_debug_cpufreq, OID_AUTO, lowest, CTLFLAG_RW, &cf_lowest_freq, 1, 141b070969bSNate Lawson "Don't provide levels below this frequency."); 1428d913481SNate Lawson SYSCTL_INT(_debug_cpufreq, OID_AUTO, verbose, CTLFLAG_RW, &cf_verbose, 1, 1438d913481SNate Lawson "Print verbose debugging messages"); 144b070969bSNate Lawson 14573347b07SNate Lawson static int 14673347b07SNate Lawson cpufreq_attach(device_t dev) 14773347b07SNate Lawson { 14873347b07SNate Lawson struct cpufreq_softc *sc; 149d288bcc4SAlexander Motin struct pcpu *pc; 15073347b07SNate Lawson device_t parent; 151d288bcc4SAlexander Motin uint64_t rate; 15273347b07SNate Lawson int numdevs; 15373347b07SNate Lawson 1548d913481SNate Lawson CF_DEBUG("initializing %s\n", device_get_nameunit(dev)); 15573347b07SNate Lawson sc = device_get_softc(dev); 15673347b07SNate Lawson parent = device_get_parent(dev); 15773347b07SNate Lawson sc->dev = dev; 15873347b07SNate Lawson sysctl_ctx_init(&sc->sysctl_ctx); 15973347b07SNate Lawson TAILQ_INIT(&sc->all_levels); 160789f03ceSNate Lawson CF_MTX_INIT(&sc->lock); 16173347b07SNate Lawson sc->curr_level.total_set.freq = CPUFREQ_VAL_UNKNOWN; 16256e5a87aSHajimu UMEMOTO SLIST_INIT(&sc->saved_freq); 163f436f175SNathan Whitehorn /* Try to get nominal CPU freq to use it as maximum later if needed */ 164f436f175SNathan Whitehorn sc->max_mhz = cpu_get_nominal_mhz(dev); 165f436f175SNathan Whitehorn /* If that fails, try to measure the current rate */ 166f436f175SNathan Whitehorn if (sc->max_mhz <= 0) { 167d288bcc4SAlexander Motin pc = cpu_get_pcpu(dev); 168d288bcc4SAlexander Motin if (cpu_est_clockrate(pc->pc_cpuid, &rate) == 0) 169d288bcc4SAlexander Motin sc->max_mhz = rate / 1000000; 170d288bcc4SAlexander Motin else 17167c8649fSNate Lawson sc->max_mhz = CPUFREQ_VAL_UNKNOWN; 172f436f175SNathan Whitehorn } 17373347b07SNate Lawson 17473347b07SNate Lawson /* 17573347b07SNate Lawson * Only initialize one set of sysctls for all CPUs. In the future, 17673347b07SNate Lawson * if multiple CPUs can have different settings, we can move these 17773347b07SNate Lawson * sysctls to be under every CPU instead of just the first one. 17873347b07SNate Lawson */ 17973347b07SNate Lawson numdevs = devclass_get_count(cpufreq_dc); 18073347b07SNate Lawson if (numdevs > 1) 18173347b07SNate Lawson return (0); 18273347b07SNate Lawson 1838d913481SNate Lawson CF_DEBUG("initializing one-time data for %s\n", 1848d913481SNate Lawson device_get_nameunit(dev)); 185dac50931SAndriy Gapon sc->levels_buf = malloc(CF_MAX_LEVELS * sizeof(*sc->levels_buf), 186dac50931SAndriy Gapon M_DEVBUF, M_WAITOK); 18773347b07SNate Lawson SYSCTL_ADD_PROC(&sc->sysctl_ctx, 18873347b07SNate Lawson SYSCTL_CHILDREN(device_get_sysctl_tree(parent)), 18973347b07SNate Lawson OID_AUTO, "freq", CTLTYPE_INT | CTLFLAG_RW, sc, 0, 19073347b07SNate Lawson cpufreq_curr_sysctl, "I", "Current CPU frequency"); 19173347b07SNate Lawson SYSCTL_ADD_PROC(&sc->sysctl_ctx, 19273347b07SNate Lawson SYSCTL_CHILDREN(device_get_sysctl_tree(parent)), 19373347b07SNate Lawson OID_AUTO, "freq_levels", CTLTYPE_STRING | CTLFLAG_RD, sc, 0, 19473347b07SNate Lawson cpufreq_levels_sysctl, "A", "CPU frequency levels"); 1950d4ac62aSNate Lawson 1960d4ac62aSNate Lawson /* 1970d4ac62aSNate Lawson * Queue a one-shot broadcast that levels have changed. 1980d4ac62aSNate Lawson * It will run once the system has completed booting. 1990d4ac62aSNate Lawson */ 2000d4ac62aSNate Lawson TASK_INIT(&sc->startup_task, 0, cpufreq_startup_task, dev); 2010d4ac62aSNate Lawson taskqueue_enqueue(taskqueue_thread, &sc->startup_task); 20273347b07SNate Lawson 20373347b07SNate Lawson return (0); 20473347b07SNate Lawson } 20573347b07SNate Lawson 2060d4ac62aSNate Lawson /* Handle any work to be done for all drivers that attached during boot. */ 2070d4ac62aSNate Lawson static void 2080d4ac62aSNate Lawson cpufreq_startup_task(void *ctx, int pending) 2090d4ac62aSNate Lawson { 2100d4ac62aSNate Lawson 2110d4ac62aSNate Lawson cpufreq_settings_changed((device_t)ctx); 2120d4ac62aSNate Lawson } 2130d4ac62aSNate Lawson 21473347b07SNate Lawson static int 21573347b07SNate Lawson cpufreq_detach(device_t dev) 21673347b07SNate Lawson { 21773347b07SNate Lawson struct cpufreq_softc *sc; 21856e5a87aSHajimu UMEMOTO struct cf_saved_freq *saved_freq; 21973347b07SNate Lawson int numdevs; 22073347b07SNate Lawson 2218d913481SNate Lawson CF_DEBUG("shutdown %s\n", device_get_nameunit(dev)); 22273347b07SNate Lawson sc = device_get_softc(dev); 22373347b07SNate Lawson sysctl_ctx_free(&sc->sysctl_ctx); 22473347b07SNate Lawson 22556e5a87aSHajimu UMEMOTO while ((saved_freq = SLIST_FIRST(&sc->saved_freq)) != NULL) { 22656e5a87aSHajimu UMEMOTO SLIST_REMOVE_HEAD(&sc->saved_freq, link); 22756e5a87aSHajimu UMEMOTO free(saved_freq, M_TEMP); 22856e5a87aSHajimu UMEMOTO } 22956e5a87aSHajimu UMEMOTO 23073347b07SNate Lawson /* Only clean up these resources when the last device is detaching. */ 23173347b07SNate Lawson numdevs = devclass_get_count(cpufreq_dc); 2328d913481SNate Lawson if (numdevs == 1) { 2338d913481SNate Lawson CF_DEBUG("final shutdown for %s\n", device_get_nameunit(dev)); 234dac50931SAndriy Gapon free(sc->levels_buf, M_DEVBUF); 2358d913481SNate Lawson } 23673347b07SNate Lawson 23773347b07SNate Lawson return (0); 23873347b07SNate Lawson } 23973347b07SNate Lawson 24073347b07SNate Lawson static int 24173347b07SNate Lawson cf_set_method(device_t dev, const struct cf_level *level, int priority) 24273347b07SNate Lawson { 24373347b07SNate Lawson struct cpufreq_softc *sc; 24473347b07SNate Lawson const struct cf_setting *set; 24556e5a87aSHajimu UMEMOTO struct cf_saved_freq *saved_freq, *curr_freq; 2460325089dSNate Lawson struct pcpu *pc; 24762db376aSNate Lawson int error, i; 24873347b07SNate Lawson 24973347b07SNate Lawson sc = device_get_softc(dev); 250789f03ceSNate Lawson error = 0; 251789f03ceSNate Lawson set = NULL; 25256e5a87aSHajimu UMEMOTO saved_freq = NULL; 25373347b07SNate Lawson 2540d4ac62aSNate Lawson /* We are going to change levels so notify the pre-change handler. */ 2550d4ac62aSNate Lawson EVENTHANDLER_INVOKE(cpufreq_pre_change, level, &error); 2560d4ac62aSNate Lawson if (error != 0) { 2570d4ac62aSNate Lawson EVENTHANDLER_INVOKE(cpufreq_post_change, level, error); 2580d4ac62aSNate Lawson return (error); 259b4130b8aSMarcus Alves Grando } 2600325089dSNate Lawson 261789f03ceSNate Lawson CF_MTX_LOCK(&sc->lock); 26256e5a87aSHajimu UMEMOTO 263a15e947dSNate Lawson #ifdef SMP 264a15e947dSNate Lawson /* 265a15e947dSNate Lawson * If still booting and secondary CPUs not started yet, don't allow 266a15e947dSNate Lawson * changing the frequency until they're online. This is because we 267a15e947dSNate Lawson * can't switch to them using sched_bind() and thus we'd only be 268a15e947dSNate Lawson * switching the main CPU. XXXTODO: Need to think more about how to 269a15e947dSNate Lawson * handle having different CPUs at different frequencies. 270a15e947dSNate Lawson */ 271a15e947dSNate Lawson if (mp_ncpus > 1 && !smp_active) { 272a15e947dSNate Lawson device_printf(dev, "rejecting change, SMP not started yet\n"); 273a15e947dSNate Lawson error = ENXIO; 274a15e947dSNate Lawson goto out; 275a15e947dSNate Lawson } 276a15e947dSNate Lawson #endif /* SMP */ 277a15e947dSNate Lawson 27856e5a87aSHajimu UMEMOTO /* 27956e5a87aSHajimu UMEMOTO * If the requested level has a lower priority, don't allow 28056e5a87aSHajimu UMEMOTO * the new level right now. 28156e5a87aSHajimu UMEMOTO */ 28256e5a87aSHajimu UMEMOTO if (priority < sc->curr_priority) { 2838d913481SNate Lawson CF_DEBUG("ignoring, curr prio %d less than %d\n", priority, 2848d913481SNate Lawson sc->curr_priority); 285789f03ceSNate Lawson error = EPERM; 286789f03ceSNate Lawson goto out; 287789f03ceSNate Lawson } 2885f0afa04SNate Lawson 28956e5a87aSHajimu UMEMOTO /* 29056e5a87aSHajimu UMEMOTO * If the caller didn't specify a level and one is saved, prepare to 29156e5a87aSHajimu UMEMOTO * restore the saved level. If none has been saved, return an error. 29256e5a87aSHajimu UMEMOTO */ 29356e5a87aSHajimu UMEMOTO if (level == NULL) { 29456e5a87aSHajimu UMEMOTO saved_freq = SLIST_FIRST(&sc->saved_freq); 29556e5a87aSHajimu UMEMOTO if (saved_freq == NULL) { 29656e5a87aSHajimu UMEMOTO CF_DEBUG("NULL level, no saved level\n"); 29756e5a87aSHajimu UMEMOTO error = ENXIO; 29856e5a87aSHajimu UMEMOTO goto out; 29956e5a87aSHajimu UMEMOTO } 30056e5a87aSHajimu UMEMOTO level = &saved_freq->level; 30156e5a87aSHajimu UMEMOTO priority = saved_freq->priority; 30256e5a87aSHajimu UMEMOTO CF_DEBUG("restoring saved level, freq %d prio %d\n", 30356e5a87aSHajimu UMEMOTO level->total_set.freq, priority); 30456e5a87aSHajimu UMEMOTO } 30556e5a87aSHajimu UMEMOTO 306b070969bSNate Lawson /* Reject levels that are below our specified threshold. */ 307da8a77c1SNate Lawson if (level->total_set.freq < cf_lowest_freq) { 3088d913481SNate Lawson CF_DEBUG("rejecting freq %d, less than %d limit\n", 3098d913481SNate Lawson level->total_set.freq, cf_lowest_freq); 310789f03ceSNate Lawson error = EINVAL; 311789f03ceSNate Lawson goto out; 312789f03ceSNate Lawson } 313b070969bSNate Lawson 31473347b07SNate Lawson /* If already at this level, just return. */ 3158d913481SNate Lawson if (CPUFREQ_CMP(sc->curr_level.total_set.freq, level->total_set.freq)) { 3168d913481SNate Lawson CF_DEBUG("skipping freq %d, same as current level %d\n", 3178d913481SNate Lawson level->total_set.freq, sc->curr_level.total_set.freq); 3181fea6ce7SHajimu UMEMOTO goto skip; 3198d913481SNate Lawson } 32073347b07SNate Lawson 32173347b07SNate Lawson /* First, set the absolute frequency via its driver. */ 32273347b07SNate Lawson set = &level->abs_set; 32373347b07SNate Lawson if (set->dev) { 32473347b07SNate Lawson if (!device_is_attached(set->dev)) { 32573347b07SNate Lawson error = ENXIO; 32673347b07SNate Lawson goto out; 32773347b07SNate Lawson } 3281196826aSNate Lawson 32962db376aSNate Lawson /* Bind to the target CPU before switching. */ 3301196826aSNate Lawson pc = cpu_get_pcpu(set->dev); 331982d11f8SJeff Roberson thread_lock(curthread); 3321196826aSNate Lawson sched_bind(curthread, pc->pc_cpuid); 333982d11f8SJeff Roberson thread_unlock(curthread); 3348d913481SNate Lawson CF_DEBUG("setting abs freq %d on %s (cpu %d)\n", set->freq, 3358d913481SNate Lawson device_get_nameunit(set->dev), PCPU_GET(cpuid)); 33673347b07SNate Lawson error = CPUFREQ_DRV_SET(set->dev, set); 337982d11f8SJeff Roberson thread_lock(curthread); 3381196826aSNate Lawson sched_unbind(curthread); 339982d11f8SJeff Roberson thread_unlock(curthread); 34073347b07SNate Lawson if (error) { 34173347b07SNate Lawson goto out; 34273347b07SNate Lawson } 34373347b07SNate Lawson } 34473347b07SNate Lawson 34588c9b54cSNate Lawson /* Next, set any/all relative frequencies via their drivers. */ 34688c9b54cSNate Lawson for (i = 0; i < level->rel_count; i++) { 34788c9b54cSNate Lawson set = &level->rel_set[i]; 34888c9b54cSNate Lawson if (!device_is_attached(set->dev)) { 34988c9b54cSNate Lawson error = ENXIO; 35088c9b54cSNate Lawson goto out; 35188c9b54cSNate Lawson } 3521196826aSNate Lawson 35362db376aSNate Lawson /* Bind to the target CPU before switching. */ 3541196826aSNate Lawson pc = cpu_get_pcpu(set->dev); 355982d11f8SJeff Roberson thread_lock(curthread); 3561196826aSNate Lawson sched_bind(curthread, pc->pc_cpuid); 357982d11f8SJeff Roberson thread_unlock(curthread); 3588d913481SNate Lawson CF_DEBUG("setting rel freq %d on %s (cpu %d)\n", set->freq, 3598d913481SNate Lawson device_get_nameunit(set->dev), PCPU_GET(cpuid)); 36088c9b54cSNate Lawson error = CPUFREQ_DRV_SET(set->dev, set); 361982d11f8SJeff Roberson thread_lock(curthread); 3621196826aSNate Lawson sched_unbind(curthread); 363982d11f8SJeff Roberson thread_unlock(curthread); 36488c9b54cSNate Lawson if (error) { 36588c9b54cSNate Lawson /* XXX Back out any successful setting? */ 36688c9b54cSNate Lawson goto out; 36788c9b54cSNate Lawson } 36888c9b54cSNate Lawson } 36973347b07SNate Lawson 3701fea6ce7SHajimu UMEMOTO skip: 3715f0afa04SNate Lawson /* 3725f0afa04SNate Lawson * Before recording the current level, check if we're going to a 37356e5a87aSHajimu UMEMOTO * higher priority. If so, save the previous level and priority. 3745f0afa04SNate Lawson */ 3755f0afa04SNate Lawson if (sc->curr_level.total_set.freq != CPUFREQ_VAL_UNKNOWN && 37656e5a87aSHajimu UMEMOTO priority > sc->curr_priority) { 3778d913481SNate Lawson CF_DEBUG("saving level, freq %d prio %d\n", 3788d913481SNate Lawson sc->curr_level.total_set.freq, sc->curr_priority); 37956e5a87aSHajimu UMEMOTO curr_freq = malloc(sizeof(*curr_freq), M_TEMP, M_NOWAIT); 38056e5a87aSHajimu UMEMOTO if (curr_freq == NULL) { 38156e5a87aSHajimu UMEMOTO error = ENOMEM; 38256e5a87aSHajimu UMEMOTO goto out; 38356e5a87aSHajimu UMEMOTO } 38456e5a87aSHajimu UMEMOTO curr_freq->level = sc->curr_level; 38556e5a87aSHajimu UMEMOTO curr_freq->priority = sc->curr_priority; 38656e5a87aSHajimu UMEMOTO SLIST_INSERT_HEAD(&sc->saved_freq, curr_freq, link); 3875f0afa04SNate Lawson } 38873347b07SNate Lawson sc->curr_level = *level; 3895f0afa04SNate Lawson sc->curr_priority = priority; 39073347b07SNate Lawson 39156e5a87aSHajimu UMEMOTO /* If we were restoring a saved state, reset it to "unused". */ 39256e5a87aSHajimu UMEMOTO if (saved_freq != NULL) { 39356e5a87aSHajimu UMEMOTO CF_DEBUG("resetting saved level\n"); 39456e5a87aSHajimu UMEMOTO sc->curr_level.total_set.freq = CPUFREQ_VAL_UNKNOWN; 39556e5a87aSHajimu UMEMOTO SLIST_REMOVE_HEAD(&sc->saved_freq, link); 39656e5a87aSHajimu UMEMOTO free(saved_freq, M_TEMP); 39756e5a87aSHajimu UMEMOTO } 39856e5a87aSHajimu UMEMOTO 39973347b07SNate Lawson out: 400789f03ceSNate Lawson CF_MTX_UNLOCK(&sc->lock); 4010d4ac62aSNate Lawson 4020d4ac62aSNate Lawson /* 4030d4ac62aSNate Lawson * We changed levels (or attempted to) so notify the post-change 4040d4ac62aSNate Lawson * handler of new frequency or error. 4050d4ac62aSNate Lawson */ 4060d4ac62aSNate Lawson EVENTHANDLER_INVOKE(cpufreq_post_change, level, error); 407789f03ceSNate Lawson if (error && set) 40873347b07SNate Lawson device_printf(set->dev, "set freq failed, err %d\n", error); 4090d4ac62aSNate Lawson 41073347b07SNate Lawson return (error); 41173347b07SNate Lawson } 41273347b07SNate Lawson 41373347b07SNate Lawson static int 41473347b07SNate Lawson cf_get_method(device_t dev, struct cf_level *level) 41573347b07SNate Lawson { 41673347b07SNate Lawson struct cpufreq_softc *sc; 41773347b07SNate Lawson struct cf_level *levels; 41873347b07SNate Lawson struct cf_setting *curr_set, set; 41973347b07SNate Lawson struct pcpu *pc; 42073347b07SNate Lawson device_t *devs; 4212145b9d2SNate Lawson int count, error, i, n, numdevs; 42273347b07SNate Lawson uint64_t rate; 42373347b07SNate Lawson 42473347b07SNate Lawson sc = device_get_softc(dev); 425789f03ceSNate Lawson error = 0; 42673347b07SNate Lawson levels = NULL; 42773347b07SNate Lawson 42873347b07SNate Lawson /* If we already know the current frequency, we're done. */ 429789f03ceSNate Lawson CF_MTX_LOCK(&sc->lock); 430789f03ceSNate Lawson curr_set = &sc->curr_level.total_set; 4318d913481SNate Lawson if (curr_set->freq != CPUFREQ_VAL_UNKNOWN) { 4328d913481SNate Lawson CF_DEBUG("get returning known freq %d\n", curr_set->freq); 43373347b07SNate Lawson goto out; 4348d913481SNate Lawson } 435789f03ceSNate Lawson CF_MTX_UNLOCK(&sc->lock); 43673347b07SNate Lawson 43773347b07SNate Lawson /* 43873347b07SNate Lawson * We need to figure out the current level. Loop through every 43973347b07SNate Lawson * driver, getting the current setting. Then, attempt to get a best 44073347b07SNate Lawson * match of settings against each level. 44173347b07SNate Lawson */ 44273347b07SNate Lawson count = CF_MAX_LEVELS; 44373347b07SNate Lawson levels = malloc(count * sizeof(*levels), M_TEMP, M_NOWAIT); 44473347b07SNate Lawson if (levels == NULL) 44573347b07SNate Lawson return (ENOMEM); 44673347b07SNate Lawson error = CPUFREQ_LEVELS(sc->dev, levels, &count); 447d269386aSNate Lawson if (error) { 448d269386aSNate Lawson if (error == E2BIG) 449d269386aSNate Lawson printf("cpufreq: need to increase CF_MAX_LEVELS\n"); 450789f03ceSNate Lawson free(levels, M_TEMP); 451789f03ceSNate Lawson return (error); 452d269386aSNate Lawson } 45373347b07SNate Lawson error = device_get_children(device_get_parent(dev), &devs, &numdevs); 454789f03ceSNate Lawson if (error) { 455789f03ceSNate Lawson free(levels, M_TEMP); 456789f03ceSNate Lawson return (error); 457789f03ceSNate Lawson } 458789f03ceSNate Lawson 459789f03ceSNate Lawson /* 460789f03ceSNate Lawson * Reacquire the lock and search for the given level. 461789f03ceSNate Lawson * 462789f03ceSNate Lawson * XXX Note: this is not quite right since we really need to go 463789f03ceSNate Lawson * through each level and compare both absolute and relative 464789f03ceSNate Lawson * settings for each driver in the system before making a match. 465789f03ceSNate Lawson * The estimation code below catches this case though. 466789f03ceSNate Lawson */ 467789f03ceSNate Lawson CF_MTX_LOCK(&sc->lock); 4682145b9d2SNate Lawson for (n = 0; n < numdevs && curr_set->freq == CPUFREQ_VAL_UNKNOWN; n++) { 4692145b9d2SNate Lawson if (!device_is_attached(devs[n])) 47073347b07SNate Lawson continue; 471be00f605SJohn Baldwin if (CPUFREQ_DRV_GET(devs[n], &set) != 0) 47273347b07SNate Lawson continue; 47373347b07SNate Lawson for (i = 0; i < count; i++) { 47488c9b54cSNate Lawson if (CPUFREQ_CMP(set.freq, levels[i].total_set.freq)) { 47573347b07SNate Lawson sc->curr_level = levels[i]; 47673347b07SNate Lawson break; 47773347b07SNate Lawson } 47873347b07SNate Lawson } 47973347b07SNate Lawson } 48073347b07SNate Lawson free(devs, M_TEMP); 4818d913481SNate Lawson if (curr_set->freq != CPUFREQ_VAL_UNKNOWN) { 4828d913481SNate Lawson CF_DEBUG("get matched freq %d from drivers\n", curr_set->freq); 48373347b07SNate Lawson goto out; 4848d913481SNate Lawson } 48573347b07SNate Lawson 48673347b07SNate Lawson /* 48773347b07SNate Lawson * We couldn't find an exact match, so attempt to estimate and then 48873347b07SNate Lawson * match against a level. 48973347b07SNate Lawson */ 49073347b07SNate Lawson pc = cpu_get_pcpu(dev); 49173347b07SNate Lawson if (pc == NULL) { 49273347b07SNate Lawson error = ENXIO; 49373347b07SNate Lawson goto out; 49473347b07SNate Lawson } 49573347b07SNate Lawson cpu_est_clockrate(pc->pc_cpuid, &rate); 49673347b07SNate Lawson rate /= 1000000; 49773347b07SNate Lawson for (i = 0; i < count; i++) { 49873347b07SNate Lawson if (CPUFREQ_CMP(rate, levels[i].total_set.freq)) { 49973347b07SNate Lawson sc->curr_level = levels[i]; 5008d913481SNate Lawson CF_DEBUG("get estimated freq %d\n", curr_set->freq); 501be00f605SJohn Baldwin goto out; 50273347b07SNate Lawson } 50373347b07SNate Lawson } 504be00f605SJohn Baldwin error = ENXIO; 50573347b07SNate Lawson 50673347b07SNate Lawson out: 507789f03ceSNate Lawson if (error == 0) 508789f03ceSNate Lawson *level = sc->curr_level; 509789f03ceSNate Lawson 510789f03ceSNate Lawson CF_MTX_UNLOCK(&sc->lock); 51173347b07SNate Lawson if (levels) 51273347b07SNate Lawson free(levels, M_TEMP); 513789f03ceSNate Lawson return (error); 51473347b07SNate Lawson } 51573347b07SNate Lawson 51673347b07SNate Lawson static int 51773347b07SNate Lawson cf_levels_method(device_t dev, struct cf_level *levels, int *count) 51873347b07SNate Lawson { 51988c9b54cSNate Lawson struct cf_setting_array *set_arr; 52073347b07SNate Lawson struct cf_setting_lst rel_sets; 52173347b07SNate Lawson struct cpufreq_softc *sc; 52273347b07SNate Lawson struct cf_level *lev; 52373347b07SNate Lawson struct cf_setting *sets; 52473347b07SNate Lawson struct pcpu *pc; 52573347b07SNate Lawson device_t *devs; 52688c9b54cSNate Lawson int error, i, numdevs, set_count, type; 52773347b07SNate Lawson uint64_t rate; 52873347b07SNate Lawson 52973347b07SNate Lawson if (levels == NULL || count == NULL) 53073347b07SNate Lawson return (EINVAL); 53173347b07SNate Lawson 53273347b07SNate Lawson TAILQ_INIT(&rel_sets); 53373347b07SNate Lawson sc = device_get_softc(dev); 53473347b07SNate Lawson error = device_get_children(device_get_parent(dev), &devs, &numdevs); 53573347b07SNate Lawson if (error) 53673347b07SNate Lawson return (error); 53773347b07SNate Lawson sets = malloc(MAX_SETTINGS * sizeof(*sets), M_TEMP, M_NOWAIT); 53873347b07SNate Lawson if (sets == NULL) { 53973347b07SNate Lawson free(devs, M_TEMP); 54073347b07SNate Lawson return (ENOMEM); 54173347b07SNate Lawson } 54273347b07SNate Lawson 54373347b07SNate Lawson /* Get settings from all cpufreq drivers. */ 544789f03ceSNate Lawson CF_MTX_LOCK(&sc->lock); 54573347b07SNate Lawson for (i = 0; i < numdevs; i++) { 546e22cd41cSNate Lawson /* Skip devices that aren't ready. */ 54773347b07SNate Lawson if (!device_is_attached(devs[i])) 54873347b07SNate Lawson continue; 549e22cd41cSNate Lawson 550e22cd41cSNate Lawson /* 551e22cd41cSNate Lawson * Get settings, skipping drivers that offer no settings or 552e22cd41cSNate Lawson * provide settings for informational purposes only. 553e22cd41cSNate Lawson */ 554e94a0c1aSNate Lawson error = CPUFREQ_DRV_TYPE(devs[i], &type); 5558d913481SNate Lawson if (error || (type & CPUFREQ_FLAG_INFO_ONLY)) { 5568d913481SNate Lawson if (error == 0) { 5578d913481SNate Lawson CF_DEBUG("skipping info-only driver %s\n", 5588d913481SNate Lawson device_get_nameunit(devs[i])); 5598d913481SNate Lawson } 560e94a0c1aSNate Lawson continue; 5618d913481SNate Lawson } 56273347b07SNate Lawson set_count = MAX_SETTINGS; 563e94a0c1aSNate Lawson error = CPUFREQ_DRV_SETTINGS(devs[i], sets, &set_count); 564e94a0c1aSNate Lawson if (error || set_count == 0) 56573347b07SNate Lawson continue; 56673347b07SNate Lawson 567e22cd41cSNate Lawson /* Add the settings to our absolute/relative lists. */ 5680325089dSNate Lawson switch (type & CPUFREQ_TYPE_MASK) { 56988c9b54cSNate Lawson case CPUFREQ_TYPE_ABSOLUTE: 57088c9b54cSNate Lawson error = cpufreq_insert_abs(sc, sets, set_count); 57188c9b54cSNate Lawson break; 57288c9b54cSNate Lawson case CPUFREQ_TYPE_RELATIVE: 5738d913481SNate Lawson CF_DEBUG("adding %d relative settings\n", set_count); 57488c9b54cSNate Lawson set_arr = malloc(sizeof(*set_arr), M_TEMP, M_NOWAIT); 57588c9b54cSNate Lawson if (set_arr == NULL) { 57688c9b54cSNate Lawson error = ENOMEM; 57788c9b54cSNate Lawson goto out; 57888c9b54cSNate Lawson } 57988c9b54cSNate Lawson bcopy(sets, set_arr->sets, set_count * sizeof(*sets)); 58088c9b54cSNate Lawson set_arr->count = set_count; 58188c9b54cSNate Lawson TAILQ_INSERT_TAIL(&rel_sets, set_arr, link); 58288c9b54cSNate Lawson break; 58388c9b54cSNate Lawson default: 58488c9b54cSNate Lawson error = EINVAL; 58588c9b54cSNate Lawson } 58688c9b54cSNate Lawson if (error) 58773347b07SNate Lawson goto out; 58873347b07SNate Lawson } 58973347b07SNate Lawson 59067c8649fSNate Lawson /* 59167c8649fSNate Lawson * If there are no absolute levels, create a fake one at 100%. We 59267c8649fSNate Lawson * then cache the clockrate for later use as our base frequency. 59367c8649fSNate Lawson */ 59473347b07SNate Lawson if (TAILQ_EMPTY(&sc->all_levels)) { 59567c8649fSNate Lawson if (sc->max_mhz == CPUFREQ_VAL_UNKNOWN) { 596f436f175SNathan Whitehorn sc->max_mhz = cpu_get_nominal_mhz(dev); 597f436f175SNathan Whitehorn /* 598f436f175SNathan Whitehorn * If the CPU can't report a rate for 100%, hope 599f436f175SNathan Whitehorn * the CPU is running at its nominal rate right now, 600f436f175SNathan Whitehorn * and use that instead. 601f436f175SNathan Whitehorn */ 602f436f175SNathan Whitehorn if (sc->max_mhz <= 0) { 60373347b07SNate Lawson pc = cpu_get_pcpu(dev); 60473347b07SNate Lawson cpu_est_clockrate(pc->pc_cpuid, &rate); 60567c8649fSNate Lawson sc->max_mhz = rate / 1000000; 60667c8649fSNate Lawson } 607f436f175SNathan Whitehorn } 60867c8649fSNate Lawson memset(&sets[0], CPUFREQ_VAL_UNKNOWN, sizeof(*sets)); 60967c8649fSNate Lawson sets[0].freq = sc->max_mhz; 61067c8649fSNate Lawson sets[0].dev = NULL; 61188c9b54cSNate Lawson error = cpufreq_insert_abs(sc, sets, 1); 61273347b07SNate Lawson if (error) 61373347b07SNate Lawson goto out; 61473347b07SNate Lawson } 61573347b07SNate Lawson 61688c9b54cSNate Lawson /* Create a combined list of absolute + relative levels. */ 61788c9b54cSNate Lawson TAILQ_FOREACH(set_arr, &rel_sets, link) 61888c9b54cSNate Lawson cpufreq_expand_set(sc, set_arr); 61988c9b54cSNate Lawson 62088c9b54cSNate Lawson /* If the caller doesn't have enough space, return the actual count. */ 62188c9b54cSNate Lawson if (sc->all_count > *count) { 62288c9b54cSNate Lawson *count = sc->all_count; 62388c9b54cSNate Lawson error = E2BIG; 62488c9b54cSNate Lawson goto out; 62588c9b54cSNate Lawson } 62688c9b54cSNate Lawson 62788c9b54cSNate Lawson /* Finally, output the list of levels. */ 62873347b07SNate Lawson i = 0; 62973347b07SNate Lawson TAILQ_FOREACH(lev, &sc->all_levels, link) { 630e1f13773SNate Lawson /* 631e1f13773SNate Lawson * Skip levels that are too close in frequency to the 632e1f13773SNate Lawson * previous levels. Some systems report bogus duplicate 633e1f13773SNate Lawson * settings (i.e., for acpi_perf). 634e1f13773SNate Lawson */ 635e1f13773SNate Lawson if (i > 0 && CPUFREQ_CMP(lev->total_set.freq, 636e1f13773SNate Lawson levels[i - 1].total_set.freq)) { 637e1f13773SNate Lawson sc->all_count--; 638e1f13773SNate Lawson continue; 639e1f13773SNate Lawson } 640e1f13773SNate Lawson 641b070969bSNate Lawson /* Skip levels that have a frequency that is too low. */ 642da8a77c1SNate Lawson if (lev->total_set.freq < cf_lowest_freq) { 643b070969bSNate Lawson sc->all_count--; 644b070969bSNate Lawson continue; 645b070969bSNate Lawson } 646b070969bSNate Lawson 64773347b07SNate Lawson levels[i] = *lev; 64873347b07SNate Lawson i++; 64973347b07SNate Lawson } 65088c9b54cSNate Lawson *count = sc->all_count; 65173347b07SNate Lawson error = 0; 65273347b07SNate Lawson 65373347b07SNate Lawson out: 65473347b07SNate Lawson /* Clear all levels since we regenerate them each time. */ 65573347b07SNate Lawson while ((lev = TAILQ_FIRST(&sc->all_levels)) != NULL) { 65673347b07SNate Lawson TAILQ_REMOVE(&sc->all_levels, lev, link); 65773347b07SNate Lawson free(lev, M_TEMP); 65873347b07SNate Lawson } 659789f03ceSNate Lawson sc->all_count = 0; 660789f03ceSNate Lawson 661789f03ceSNate Lawson CF_MTX_UNLOCK(&sc->lock); 66288c9b54cSNate Lawson while ((set_arr = TAILQ_FIRST(&rel_sets)) != NULL) { 66388c9b54cSNate Lawson TAILQ_REMOVE(&rel_sets, set_arr, link); 66488c9b54cSNate Lawson free(set_arr, M_TEMP); 66588c9b54cSNate Lawson } 66673347b07SNate Lawson free(devs, M_TEMP); 66773347b07SNate Lawson free(sets, M_TEMP); 66873347b07SNate Lawson return (error); 66973347b07SNate Lawson } 67073347b07SNate Lawson 67173347b07SNate Lawson /* 67273347b07SNate Lawson * Create levels for an array of absolute settings and insert them in 67373347b07SNate Lawson * sorted order in the specified list. 67473347b07SNate Lawson */ 67573347b07SNate Lawson static int 67688c9b54cSNate Lawson cpufreq_insert_abs(struct cpufreq_softc *sc, struct cf_setting *sets, 67773347b07SNate Lawson int count) 67873347b07SNate Lawson { 67988c9b54cSNate Lawson struct cf_level_lst *list; 68073347b07SNate Lawson struct cf_level *level, *search; 68173347b07SNate Lawson int i; 68273347b07SNate Lawson 683789f03ceSNate Lawson CF_MTX_ASSERT(&sc->lock); 684789f03ceSNate Lawson 68588c9b54cSNate Lawson list = &sc->all_levels; 68673347b07SNate Lawson for (i = 0; i < count; i++) { 68773347b07SNate Lawson level = malloc(sizeof(*level), M_TEMP, M_NOWAIT | M_ZERO); 68873347b07SNate Lawson if (level == NULL) 68973347b07SNate Lawson return (ENOMEM); 69073347b07SNate Lawson level->abs_set = sets[i]; 69188c9b54cSNate Lawson level->total_set = sets[i]; 69288c9b54cSNate Lawson level->total_set.dev = NULL; 69388c9b54cSNate Lawson sc->all_count++; 69473347b07SNate Lawson 69573347b07SNate Lawson if (TAILQ_EMPTY(list)) { 6968d913481SNate Lawson CF_DEBUG("adding abs setting %d at head\n", 6978d913481SNate Lawson sets[i].freq); 69873347b07SNate Lawson TAILQ_INSERT_HEAD(list, level, link); 69973347b07SNate Lawson continue; 70073347b07SNate Lawson } 70173347b07SNate Lawson 70273347b07SNate Lawson TAILQ_FOREACH_REVERSE(search, list, cf_level_lst, link) { 70388c9b54cSNate Lawson if (sets[i].freq <= search->total_set.freq) { 7048d913481SNate Lawson CF_DEBUG("adding abs setting %d after %d\n", 7058d913481SNate Lawson sets[i].freq, search->total_set.freq); 70673347b07SNate Lawson TAILQ_INSERT_AFTER(list, search, level, link); 70773347b07SNate Lawson break; 70873347b07SNate Lawson } 70973347b07SNate Lawson } 71073347b07SNate Lawson } 71173347b07SNate Lawson return (0); 71273347b07SNate Lawson } 71373347b07SNate Lawson 71488c9b54cSNate Lawson /* 71588c9b54cSNate Lawson * Expand a group of relative settings, creating derived levels from them. 71688c9b54cSNate Lawson */ 71788c9b54cSNate Lawson static int 71888c9b54cSNate Lawson cpufreq_expand_set(struct cpufreq_softc *sc, struct cf_setting_array *set_arr) 71988c9b54cSNate Lawson { 72088c9b54cSNate Lawson struct cf_level *fill, *search; 72188c9b54cSNate Lawson struct cf_setting *set; 72288c9b54cSNate Lawson int i; 72388c9b54cSNate Lawson 724789f03ceSNate Lawson CF_MTX_ASSERT(&sc->lock); 725789f03ceSNate Lawson 7265308b2a6SNate Lawson /* 7275308b2a6SNate Lawson * Walk the set of all existing levels in reverse. This is so we 7285308b2a6SNate Lawson * create derived states from the lowest absolute settings first 7295308b2a6SNate Lawson * and discard duplicates created from higher absolute settings. 7305308b2a6SNate Lawson * For instance, a level of 50 Mhz derived from 100 Mhz + 50% is 7315308b2a6SNate Lawson * preferable to 200 Mhz + 25% because absolute settings are more 7325308b2a6SNate Lawson * efficient since they often change the voltage as well. 7335308b2a6SNate Lawson */ 7345308b2a6SNate Lawson TAILQ_FOREACH_REVERSE(search, &sc->all_levels, cf_level_lst, link) { 73588c9b54cSNate Lawson /* Add each setting to the level, duplicating if necessary. */ 73688c9b54cSNate Lawson for (i = 0; i < set_arr->count; i++) { 73788c9b54cSNate Lawson set = &set_arr->sets[i]; 73888c9b54cSNate Lawson 73988c9b54cSNate Lawson /* 74088c9b54cSNate Lawson * If this setting is less than 100%, split the level 74188c9b54cSNate Lawson * into two and add this setting to the new level. 74288c9b54cSNate Lawson */ 74388c9b54cSNate Lawson fill = search; 7445308b2a6SNate Lawson if (set->freq < 10000) { 74588c9b54cSNate Lawson fill = cpufreq_dup_set(sc, search, set); 74688c9b54cSNate Lawson 74788c9b54cSNate Lawson /* 7485308b2a6SNate Lawson * The new level was a duplicate of an existing 7495308b2a6SNate Lawson * level or its absolute setting is too high 7505308b2a6SNate Lawson * so we freed it. For example, we discard a 7515308b2a6SNate Lawson * derived level of 1000 MHz/25% if a level 7525308b2a6SNate Lawson * of 500 MHz/100% already exists. 75388c9b54cSNate Lawson */ 75488c9b54cSNate Lawson if (fill == NULL) 7555308b2a6SNate Lawson break; 7565308b2a6SNate Lawson } 75788c9b54cSNate Lawson 75888c9b54cSNate Lawson /* Add this setting to the existing or new level. */ 75988c9b54cSNate Lawson KASSERT(fill->rel_count < MAX_SETTINGS, 76088c9b54cSNate Lawson ("cpufreq: too many relative drivers (%d)", 76188c9b54cSNate Lawson MAX_SETTINGS)); 76288c9b54cSNate Lawson fill->rel_set[fill->rel_count] = *set; 76388c9b54cSNate Lawson fill->rel_count++; 7648d913481SNate Lawson CF_DEBUG( 7658d913481SNate Lawson "expand set added rel setting %d%% to %d level\n", 7668d913481SNate Lawson set->freq / 100, fill->total_set.freq); 76788c9b54cSNate Lawson } 76888c9b54cSNate Lawson } 76988c9b54cSNate Lawson 77088c9b54cSNate Lawson return (0); 77188c9b54cSNate Lawson } 77288c9b54cSNate Lawson 77388c9b54cSNate Lawson static struct cf_level * 77488c9b54cSNate Lawson cpufreq_dup_set(struct cpufreq_softc *sc, struct cf_level *dup, 77588c9b54cSNate Lawson struct cf_setting *set) 77688c9b54cSNate Lawson { 77788c9b54cSNate Lawson struct cf_level_lst *list; 77888c9b54cSNate Lawson struct cf_level *fill, *itr; 77988c9b54cSNate Lawson struct cf_setting *fill_set, *itr_set; 78088c9b54cSNate Lawson int i; 78188c9b54cSNate Lawson 782789f03ceSNate Lawson CF_MTX_ASSERT(&sc->lock); 783789f03ceSNate Lawson 78488c9b54cSNate Lawson /* 78588c9b54cSNate Lawson * Create a new level, copy it from the old one, and update the 78688c9b54cSNate Lawson * total frequency and power by the percentage specified in the 78788c9b54cSNate Lawson * relative setting. 78888c9b54cSNate Lawson */ 78988c9b54cSNate Lawson fill = malloc(sizeof(*fill), M_TEMP, M_NOWAIT); 79088c9b54cSNate Lawson if (fill == NULL) 79188c9b54cSNate Lawson return (NULL); 79288c9b54cSNate Lawson *fill = *dup; 79388c9b54cSNate Lawson fill_set = &fill->total_set; 79488c9b54cSNate Lawson fill_set->freq = 79588c9b54cSNate Lawson ((uint64_t)fill_set->freq * set->freq) / 10000; 79688c9b54cSNate Lawson if (fill_set->power != CPUFREQ_VAL_UNKNOWN) { 79788c9b54cSNate Lawson fill_set->power = ((uint64_t)fill_set->power * set->freq) 79888c9b54cSNate Lawson / 10000; 79988c9b54cSNate Lawson } 80088c9b54cSNate Lawson if (set->lat != CPUFREQ_VAL_UNKNOWN) { 80188c9b54cSNate Lawson if (fill_set->lat != CPUFREQ_VAL_UNKNOWN) 80288c9b54cSNate Lawson fill_set->lat += set->lat; 80388c9b54cSNate Lawson else 80488c9b54cSNate Lawson fill_set->lat = set->lat; 80588c9b54cSNate Lawson } 8068d913481SNate Lawson CF_DEBUG("dup set considering derived setting %d\n", fill_set->freq); 80788c9b54cSNate Lawson 80888c9b54cSNate Lawson /* 80988c9b54cSNate Lawson * If we copied an old level that we already modified (say, at 100%), 81088c9b54cSNate Lawson * we need to remove that setting before adding this one. Since we 81188c9b54cSNate Lawson * process each setting array in order, we know any settings for this 81288c9b54cSNate Lawson * driver will be found at the end. 81388c9b54cSNate Lawson */ 81488c9b54cSNate Lawson for (i = fill->rel_count; i != 0; i--) { 81588c9b54cSNate Lawson if (fill->rel_set[i - 1].dev != set->dev) 81688c9b54cSNate Lawson break; 8178d913481SNate Lawson CF_DEBUG("removed last relative driver: %s\n", 8188d913481SNate Lawson device_get_nameunit(set->dev)); 81988c9b54cSNate Lawson fill->rel_count--; 82088c9b54cSNate Lawson } 82188c9b54cSNate Lawson 82288c9b54cSNate Lawson /* 8235308b2a6SNate Lawson * Insert the new level in sorted order. If it is a duplicate of an 8245308b2a6SNate Lawson * existing level (1) or has an absolute setting higher than the 8255308b2a6SNate Lawson * existing level (2), do not add it. We can do this since any such 8265308b2a6SNate Lawson * level is guaranteed use less power. For example (1), a level with 8275308b2a6SNate Lawson * one absolute setting of 800 Mhz uses less power than one composed 8285308b2a6SNate Lawson * of an absolute setting of 1600 Mhz and a relative setting at 50%. 8295308b2a6SNate Lawson * Also for example (2), a level of 800 Mhz/75% is preferable to 8305308b2a6SNate Lawson * 1600 Mhz/25% even though the latter has a lower total frequency. 83188c9b54cSNate Lawson */ 83288c9b54cSNate Lawson list = &sc->all_levels; 8335308b2a6SNate Lawson KASSERT(!TAILQ_EMPTY(list), ("all levels list empty in dup set")); 83488c9b54cSNate Lawson TAILQ_FOREACH_REVERSE(itr, list, cf_level_lst, link) { 83588c9b54cSNate Lawson itr_set = &itr->total_set; 8369000b91eSNate Lawson if (CPUFREQ_CMP(fill_set->freq, itr_set->freq)) { 8379000b91eSNate Lawson CF_DEBUG("dup set rejecting %d (dupe)\n", 8389000b91eSNate Lawson fill_set->freq); 8399000b91eSNate Lawson itr = NULL; 8409000b91eSNate Lawson break; 8419000b91eSNate Lawson } else if (fill_set->freq < itr_set->freq) { 8429000b91eSNate Lawson if (fill->abs_set.freq <= itr->abs_set.freq) { 8438d913481SNate Lawson CF_DEBUG( 8448d913481SNate Lawson "dup done, inserting new level %d after %d\n", 8458d913481SNate Lawson fill_set->freq, itr_set->freq); 84688c9b54cSNate Lawson TAILQ_INSERT_AFTER(list, itr, fill, link); 84788c9b54cSNate Lawson sc->all_count++; 8489000b91eSNate Lawson } else { 8499000b91eSNate Lawson CF_DEBUG("dup set rejecting %d (abs too big)\n", 8509000b91eSNate Lawson fill_set->freq); 8519000b91eSNate Lawson itr = NULL; 8529000b91eSNate Lawson } 85388c9b54cSNate Lawson break; 85488c9b54cSNate Lawson } 85588c9b54cSNate Lawson } 8565308b2a6SNate Lawson 8575308b2a6SNate Lawson /* We didn't find a good place for this new level so free it. */ 8585308b2a6SNate Lawson if (itr == NULL) { 8595308b2a6SNate Lawson CF_DEBUG("dup set freeing new level %d (not optimal)\n", 8605308b2a6SNate Lawson fill_set->freq); 8615308b2a6SNate Lawson free(fill, M_TEMP); 8625308b2a6SNate Lawson fill = NULL; 86388c9b54cSNate Lawson } 86488c9b54cSNate Lawson 86588c9b54cSNate Lawson return (fill); 86688c9b54cSNate Lawson } 86788c9b54cSNate Lawson 86873347b07SNate Lawson static int 86973347b07SNate Lawson cpufreq_curr_sysctl(SYSCTL_HANDLER_ARGS) 87073347b07SNate Lawson { 87173347b07SNate Lawson struct cpufreq_softc *sc; 87273347b07SNate Lawson struct cf_level *levels; 8730325089dSNate Lawson int count, devcount, error, freq, i, n; 8740325089dSNate Lawson device_t *devs; 87573347b07SNate Lawson 8760325089dSNate Lawson devs = NULL; 87773347b07SNate Lawson sc = oidp->oid_arg1; 878dac50931SAndriy Gapon levels = sc->levels_buf; 87973347b07SNate Lawson 88073347b07SNate Lawson error = CPUFREQ_GET(sc->dev, &levels[0]); 88173347b07SNate Lawson if (error) 88273347b07SNate Lawson goto out; 88373347b07SNate Lawson freq = levels[0].total_set.freq; 88473347b07SNate Lawson error = sysctl_handle_int(oidp, &freq, 0, req); 88573347b07SNate Lawson if (error != 0 || req->newptr == NULL) 88673347b07SNate Lawson goto out; 88773347b07SNate Lawson 8880325089dSNate Lawson /* 8890325089dSNate Lawson * While we only call cpufreq_get() on one device (assuming all 8900325089dSNate Lawson * CPUs have equal levels), we call cpufreq_set() on all CPUs. 8910325089dSNate Lawson * This is needed for some MP systems. 8920325089dSNate Lawson */ 8930325089dSNate Lawson error = devclass_get_devices(cpufreq_dc, &devs, &devcount); 89473347b07SNate Lawson if (error) 89573347b07SNate Lawson goto out; 8960325089dSNate Lawson for (n = 0; n < devcount; n++) { 8970325089dSNate Lawson count = CF_MAX_LEVELS; 8980325089dSNate Lawson error = CPUFREQ_LEVELS(devs[n], levels, &count); 899d269386aSNate Lawson if (error) { 900d269386aSNate Lawson if (error == E2BIG) 901d269386aSNate Lawson printf( 902d269386aSNate Lawson "cpufreq: need to increase CF_MAX_LEVELS\n"); 9030325089dSNate Lawson break; 904d269386aSNate Lawson } 90573347b07SNate Lawson for (i = 0; i < count; i++) { 90673347b07SNate Lawson if (CPUFREQ_CMP(levels[i].total_set.freq, freq)) { 9070325089dSNate Lawson error = CPUFREQ_SET(devs[n], &levels[i], 90873347b07SNate Lawson CPUFREQ_PRIO_USER); 90973347b07SNate Lawson break; 91073347b07SNate Lawson } 91173347b07SNate Lawson } 9120325089dSNate Lawson if (i == count) { 91373347b07SNate Lawson error = EINVAL; 9140325089dSNate Lawson break; 9150325089dSNate Lawson } 9160325089dSNate Lawson } 91773347b07SNate Lawson 91873347b07SNate Lawson out: 9190325089dSNate Lawson if (devs) 9200325089dSNate Lawson free(devs, M_TEMP); 92173347b07SNate Lawson return (error); 92273347b07SNate Lawson } 92373347b07SNate Lawson 92473347b07SNate Lawson static int 92573347b07SNate Lawson cpufreq_levels_sysctl(SYSCTL_HANDLER_ARGS) 92673347b07SNate Lawson { 92773347b07SNate Lawson struct cpufreq_softc *sc; 92873347b07SNate Lawson struct cf_level *levels; 92973347b07SNate Lawson struct cf_setting *set; 93073347b07SNate Lawson struct sbuf sb; 93173347b07SNate Lawson int count, error, i; 93273347b07SNate Lawson 93373347b07SNate Lawson sc = oidp->oid_arg1; 93473347b07SNate Lawson sbuf_new(&sb, NULL, 128, SBUF_AUTOEXTEND); 93573347b07SNate Lawson 93673347b07SNate Lawson /* Get settings from the device and generate the output string. */ 93773347b07SNate Lawson count = CF_MAX_LEVELS; 938dac50931SAndriy Gapon levels = sc->levels_buf; 93930215f48SChristian Brueffer if (levels == NULL) { 94030215f48SChristian Brueffer sbuf_delete(&sb); 94173347b07SNate Lawson return (ENOMEM); 94230215f48SChristian Brueffer } 94373347b07SNate Lawson error = CPUFREQ_LEVELS(sc->dev, levels, &count); 944d269386aSNate Lawson if (error) { 945d269386aSNate Lawson if (error == E2BIG) 946d269386aSNate Lawson printf("cpufreq: need to increase CF_MAX_LEVELS\n"); 94773347b07SNate Lawson goto out; 948d269386aSNate Lawson } 94973347b07SNate Lawson if (count) { 95073347b07SNate Lawson for (i = 0; i < count; i++) { 95173347b07SNate Lawson set = &levels[i].total_set; 95273347b07SNate Lawson sbuf_printf(&sb, "%d/%d ", set->freq, set->power); 95373347b07SNate Lawson } 95473347b07SNate Lawson } else 95573347b07SNate Lawson sbuf_cpy(&sb, "0"); 95673347b07SNate Lawson sbuf_trim(&sb); 95773347b07SNate Lawson sbuf_finish(&sb); 95873347b07SNate Lawson error = sysctl_handle_string(oidp, sbuf_data(&sb), sbuf_len(&sb), req); 95973347b07SNate Lawson 96073347b07SNate Lawson out: 96173347b07SNate Lawson sbuf_delete(&sb); 96273347b07SNate Lawson return (error); 96373347b07SNate Lawson } 96473347b07SNate Lawson 965e959a70bSNate Lawson static int 966e959a70bSNate Lawson cpufreq_settings_sysctl(SYSCTL_HANDLER_ARGS) 967e959a70bSNate Lawson { 968e959a70bSNate Lawson device_t dev; 969e959a70bSNate Lawson struct cf_setting *sets; 970e959a70bSNate Lawson struct sbuf sb; 971e959a70bSNate Lawson int error, i, set_count; 972e959a70bSNate Lawson 973e959a70bSNate Lawson dev = oidp->oid_arg1; 974e959a70bSNate Lawson sbuf_new(&sb, NULL, 128, SBUF_AUTOEXTEND); 975e959a70bSNate Lawson 976e959a70bSNate Lawson /* Get settings from the device and generate the output string. */ 977e959a70bSNate Lawson set_count = MAX_SETTINGS; 978e959a70bSNate Lawson sets = malloc(set_count * sizeof(*sets), M_TEMP, M_NOWAIT); 97930215f48SChristian Brueffer if (sets == NULL) { 98030215f48SChristian Brueffer sbuf_delete(&sb); 981e959a70bSNate Lawson return (ENOMEM); 98230215f48SChristian Brueffer } 983e959a70bSNate Lawson error = CPUFREQ_DRV_SETTINGS(dev, sets, &set_count); 984e959a70bSNate Lawson if (error) 985e959a70bSNate Lawson goto out; 986e959a70bSNate Lawson if (set_count) { 987e959a70bSNate Lawson for (i = 0; i < set_count; i++) 988e959a70bSNate Lawson sbuf_printf(&sb, "%d/%d ", sets[i].freq, sets[i].power); 989e959a70bSNate Lawson } else 990e959a70bSNate Lawson sbuf_cpy(&sb, "0"); 991e959a70bSNate Lawson sbuf_trim(&sb); 992e959a70bSNate Lawson sbuf_finish(&sb); 993e959a70bSNate Lawson error = sysctl_handle_string(oidp, sbuf_data(&sb), sbuf_len(&sb), req); 994e959a70bSNate Lawson 995e959a70bSNate Lawson out: 996e959a70bSNate Lawson free(sets, M_TEMP); 997e959a70bSNate Lawson sbuf_delete(&sb); 998e959a70bSNate Lawson return (error); 999e959a70bSNate Lawson } 1000e959a70bSNate Lawson 100173347b07SNate Lawson int 100273347b07SNate Lawson cpufreq_register(device_t dev) 100373347b07SNate Lawson { 100467c8649fSNate Lawson struct cpufreq_softc *sc; 100573347b07SNate Lawson device_t cf_dev, cpu_dev; 100673347b07SNate Lawson 1007e959a70bSNate Lawson /* Add a sysctl to get each driver's settings separately. */ 1008e959a70bSNate Lawson SYSCTL_ADD_PROC(device_get_sysctl_ctx(dev), 1009e959a70bSNate Lawson SYSCTL_CHILDREN(device_get_sysctl_tree(dev)), 1010e959a70bSNate Lawson OID_AUTO, "freq_settings", CTLTYPE_STRING | CTLFLAG_RD, dev, 0, 1011e959a70bSNate Lawson cpufreq_settings_sysctl, "A", "CPU frequency driver settings"); 1012e959a70bSNate Lawson 101373347b07SNate Lawson /* 10140325089dSNate Lawson * Add only one cpufreq device to each CPU. Currently, all CPUs 10150325089dSNate Lawson * must offer the same levels and be switched at the same time. 101673347b07SNate Lawson */ 10170325089dSNate Lawson cpu_dev = device_get_parent(dev); 101867c8649fSNate Lawson if ((cf_dev = device_find_child(cpu_dev, "cpufreq", -1))) { 101967c8649fSNate Lawson sc = device_get_softc(cf_dev); 102067c8649fSNate Lawson sc->max_mhz = CPUFREQ_VAL_UNKNOWN; 102173347b07SNate Lawson return (0); 102267c8649fSNate Lawson } 102373347b07SNate Lawson 10240325089dSNate Lawson /* Add the child device and possibly sysctls. */ 10250325089dSNate Lawson cf_dev = BUS_ADD_CHILD(cpu_dev, 0, "cpufreq", -1); 102673347b07SNate Lawson if (cf_dev == NULL) 102773347b07SNate Lawson return (ENOMEM); 102873347b07SNate Lawson device_quiet(cf_dev); 102973347b07SNate Lawson 103073347b07SNate Lawson return (device_probe_and_attach(cf_dev)); 103173347b07SNate Lawson } 103273347b07SNate Lawson 103373347b07SNate Lawson int 103473347b07SNate Lawson cpufreq_unregister(device_t dev) 103573347b07SNate Lawson { 103673347b07SNate Lawson device_t cf_dev, *devs; 1037e94a0c1aSNate Lawson int cfcount, devcount, error, i, type; 103873347b07SNate Lawson 103973347b07SNate Lawson /* 104073347b07SNate Lawson * If this is the last cpufreq child device, remove the control 104173347b07SNate Lawson * device as well. We identify cpufreq children by calling a method 104273347b07SNate Lawson * they support. 104373347b07SNate Lawson */ 104473347b07SNate Lawson error = device_get_children(device_get_parent(dev), &devs, &devcount); 104573347b07SNate Lawson if (error) 104673347b07SNate Lawson return (error); 104767c8649fSNate Lawson cf_dev = device_find_child(device_get_parent(dev), "cpufreq", -1); 104871ab130cSNate Lawson if (cf_dev == NULL) { 104971ab130cSNate Lawson device_printf(dev, 105071ab130cSNate Lawson "warning: cpufreq_unregister called with no cpufreq device active\n"); 105171ab130cSNate Lawson return (0); 105271ab130cSNate Lawson } 105373347b07SNate Lawson cfcount = 0; 105473347b07SNate Lawson for (i = 0; i < devcount; i++) { 105573347b07SNate Lawson if (!device_is_attached(devs[i])) 105673347b07SNate Lawson continue; 1057e94a0c1aSNate Lawson if (CPUFREQ_DRV_TYPE(devs[i], &type) == 0) 105873347b07SNate Lawson cfcount++; 105973347b07SNate Lawson } 10600325089dSNate Lawson if (cfcount <= 1) 106173347b07SNate Lawson device_delete_child(device_get_parent(cf_dev), cf_dev); 106273347b07SNate Lawson free(devs, M_TEMP); 106373347b07SNate Lawson 106473347b07SNate Lawson return (0); 106573347b07SNate Lawson } 10660d4ac62aSNate Lawson 10670d4ac62aSNate Lawson int 10680d4ac62aSNate Lawson cpufreq_settings_changed(device_t dev) 10690d4ac62aSNate Lawson { 10700d4ac62aSNate Lawson 10710d4ac62aSNate Lawson EVENTHANDLER_INVOKE(cpufreq_levels_changed, 10720d4ac62aSNate Lawson device_get_unit(device_get_parent(dev))); 10730d4ac62aSNate Lawson return (0); 10740d4ac62aSNate Lawson } 1075