NetBSD-5.0.2/sys/dev/sysmon/sysmon_envsys_events.c
/* $NetBSD: sysmon_envsys_events.c,v 1.58.4.4 2008/11/13 00:10:25 snj Exp $ */
/*-
* Copyright (c) 2007, 2008 Juan Romero Pardines.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
/*
* sysmon_envsys(9) events framework.
*/
#include <sys/cdefs.h>
__KERNEL_RCSID(0, "$NetBSD: sysmon_envsys_events.c,v 1.58.4.4 2008/11/13 00:10:25 snj Exp $");
#include <sys/param.h>
#include <sys/types.h>
#include <sys/conf.h>
#include <sys/errno.h>
#include <sys/kernel.h>
#include <sys/systm.h>
#include <sys/proc.h>
#include <sys/mutex.h>
#include <sys/kmem.h>
#include <sys/callout.h>
/* #define ENVSYS_DEBUG */
#include <dev/sysmon/sysmonvar.h>
#include <dev/sysmon/sysmon_envsysvar.h>
struct sme_sensor_event {
int state;
int event;
};
static const struct sme_sensor_event sme_sensor_event[] = {
{ ENVSYS_SVALID, PENVSYS_EVENT_NORMAL },
{ ENVSYS_SCRITOVER, PENVSYS_EVENT_CRITOVER },
{ ENVSYS_SCRITUNDER, PENVSYS_EVENT_CRITUNDER },
{ ENVSYS_SWARNOVER, PENVSYS_EVENT_WARNOVER },
{ ENVSYS_SWARNUNDER, PENVSYS_EVENT_WARNUNDER },
{ -1, -1 }
};
static bool sysmon_low_power;
#define SME_EVTIMO (SME_EVENTS_DEFTIMEOUT * hz)
static bool sme_event_check_low_power(void);
static bool sme_battery_check(void);
static bool sme_battery_critical(envsys_data_t *);
static bool sme_acadapter_check(void);
/*
* sme_event_register:
*
* + Registers a new sysmon envsys event or updates any event
* already in the queue.
*/
int
sme_event_register(prop_dictionary_t sdict, envsys_data_t *edata,
struct sysmon_envsys *sme, const char *objkey,
int32_t critval, int crittype, int powertype)
{
sme_event_t *see = NULL, *osee = NULL;
prop_object_t obj;
bool critvalup = false;
int error = 0;
int real_crittype;
int32_t o_critval;
KASSERT(sdict != NULL || edata != NULL || sme != NULL);
/*
* Allocate a new sysmon_envsys event.
*/
see = kmem_zalloc(sizeof(*see), KM_SLEEP);
if (see == NULL)
return ENOMEM;
/*
* Map user-types to kernel types
*/
switch (crittype) {
case PENVSYS_EVENT_USER_CRITMAX:
case PENVSYS_EVENT_USER_CRITMIN:
case PENVSYS_EVENT_USER_WARNMAX:
case PENVSYS_EVENT_USER_WARNMIN:
real_crittype = PENVSYS_EVENT_USER_LIMITS;
break;
case PENVSYS_EVENT_BATT_USERCAP:
case PENVSYS_EVENT_BATT_USERWARN:
real_crittype = PENVSYS_EVENT_BATT_USER_LIMITS;
break;
default:
real_crittype = crittype;
}
/*
* check if the event is already on the list and return
* EEXIST if value provided hasn't been changed.
*/
mutex_enter(&sme->sme_mtx);
LIST_FOREACH(osee, &sme->sme_events_list, see_list) {
if (strcmp(edata->desc, osee->see_pes.pes_sensname) == 0)
if (real_crittype == osee->see_type) {
switch (crittype) {
case PENVSYS_EVENT_USER_CRITMAX:
case PENVSYS_EVENT_BATT_USERCAP:
o_critval = osee->see_critmax;
break;
case PENVSYS_EVENT_USER_WARNMAX:
case PENVSYS_EVENT_BATT_USERWARN:
o_critval = osee->see_warnmax;
break;
case PENVSYS_EVENT_USER_WARNMIN:
o_critval = osee->see_warnmin;
break;
case PENVSYS_EVENT_USER_CRITMIN:
default:
o_critval = osee->see_critmin;
break;
}
if (o_critval == critval) {
DPRINTF(("%s: dev=%s sensor=%s type=%d "
"(already exists)\n", __func__,
osee->see_pes.pes_dvname,
osee->see_pes.pes_sensname,
osee->see_type));
error = EEXIST;
goto out;
}
critvalup = true;
break;
}
}
/*
* Critical condition operation requested by userland.
*/
if (objkey && critval && critvalup) {
obj = prop_dictionary_get(sdict, objkey);
if (obj && prop_object_type(obj) == PROP_TYPE_NUMBER) {
/*
* object is already in dictionary and value
* provided is not the same than we have
* currently, update the critical value.
*/
switch (crittype) {
case PENVSYS_EVENT_USER_CRITMAX:
case PENVSYS_EVENT_BATT_USERCAP:
osee->see_critmax = critval;
break;
case PENVSYS_EVENT_USER_WARNMAX:
case PENVSYS_EVENT_BATT_USERWARN:
osee->see_warnmax = critval;
break;
case PENVSYS_EVENT_USER_WARNMIN:
osee->see_warnmin = critval;
break;
case PENVSYS_EVENT_USER_CRITMIN:
default:
osee->see_critmin = critval;
break;
}
DPRINTF(("%s: (%s) event [sensor=%s type=%d] "
"(critval updated)\n", __func__, sme->sme_name,
edata->desc, osee->see_type));
error = sme_sensor_upint32(sdict, objkey, critval);
goto out;
}
}
/*
* New limit defined for existing event
*/
if (osee != NULL) {
osee->see_edata = edata;
switch (crittype) {
case PENVSYS_EVENT_USER_CRITMAX:
case PENVSYS_EVENT_BATT_USERCAP:
osee->see_critmax = critval;
break;
case PENVSYS_EVENT_USER_WARNMAX:
case PENVSYS_EVENT_BATT_USERWARN:
osee->see_warnmax = critval;
break;
case PENVSYS_EVENT_USER_WARNMIN:
osee->see_warnmin = critval;
break;
case PENVSYS_EVENT_USER_CRITMIN:
default:
osee->see_critmin = critval;
break;
}
if (objkey && critval) {
error = sme_sensor_upint32(sdict, objkey, critval);
if (error)
goto out;
}
DPRINTF(("%s: (%s) new limit added to existing event, type %d "
"critmin=%" PRIu32 " warnmin=%" PRIu32 " warnmax=%"
PRIu32 " critmax=%d\n", __func__, osee->see_sme->sme_name,
osee->see_type, osee->see_critmin, osee->see_warnmin,
osee->see_warnmax, osee->see_critmax));
goto out;
}
/*
* New event requested.
*/
see->see_edata = edata;
switch (crittype) {
case PENVSYS_EVENT_USER_CRITMAX:
case PENVSYS_EVENT_BATT_USERCAP:
see->see_critmax = critval;
break;
case PENVSYS_EVENT_USER_WARNMAX:
case PENVSYS_EVENT_BATT_USERWARN:
see->see_warnmax = critval;
break;
case PENVSYS_EVENT_USER_WARNMIN:
see->see_warnmin = critval;
break;
case PENVSYS_EVENT_USER_CRITMIN:
default:
see->see_critmin = critval;
break;
}
see->see_type = real_crittype;
see->see_sme = sme;
/* Initialize sensor type and previously-sent state */
see->see_pes.pes_type = powertype;
switch (real_crittype) {
case PENVSYS_EVENT_HW_LIMITS:
case PENVSYS_EVENT_USER_LIMITS:
case PENVSYS_EVENT_BATT_USER_LIMITS:
see->see_evsent = ENVSYS_SVALID;
break;
case PENVSYS_EVENT_STATE_CHANGED:
if (edata->units == ENVSYS_BATTERY_CAPACITY)
see->see_evsent = ENVSYS_BATTERY_CAPACITY_NORMAL;
else if (edata->units == ENVSYS_DRIVE)
see->see_evsent = ENVSYS_DRIVE_EMPTY;
#ifdef DIAGNOSTIC
else
panic("%s: bad units for "
"PENVSYS_EVENT_STATE_CHANGED", __func__);
#endif
break;
case PENVSYS_EVENT_CRITICAL:
default:
see->see_evsent = 0;
break;
}
(void)strlcpy(see->see_pes.pes_dvname, sme->sme_name,
sizeof(see->see_pes.pes_dvname));
(void)strlcpy(see->see_pes.pes_sensname, edata->desc,
sizeof(see->see_pes.pes_sensname));
LIST_INSERT_HEAD(&sme->sme_events_list, see, see_list);
if (objkey && critval) {
error = sme_sensor_upint32(sdict, objkey, critval);
if (error)
goto out;
}
DPRINTF(("%s: (%s) event registered (sensor=%s snum=%d type=%d "
"critmin=%" PRIu32 " warnmin=%" PRIu32 " warnmax=%" PRIu32
" crixmax=%" PRIu32 ")\n", __func__,
see->see_sme->sme_name, see->see_pes.pes_sensname,
see->see_edata->sensor, see->see_type, see->see_critmin,
see->see_warnmin, see->see_warnmax, see->see_critmax));
/*
* Initialize the events framework if it wasn't initialized before.
*/
if ((sme->sme_flags & SME_CALLOUT_INITIALIZED) == 0)
error = sme_events_init(sme);
out:
mutex_exit(&sme->sme_mtx);
if (error || critvalup)
kmem_free(see, sizeof(*see));
return error;
}
/*
* sme_event_unregister_all:
*
* + Unregisters all events associated with a sysmon envsys device.
*/
void
sme_event_unregister_all(struct sysmon_envsys *sme)
{
sme_event_t *see;
int evcounter = 0;
KASSERT(sme != NULL);
mutex_enter(&sme->sme_mtx);
LIST_FOREACH(see, &sme->sme_events_list, see_list) {
while (see->see_flags & SEE_EVENT_WORKING)
cv_wait(&sme->sme_condvar, &sme->sme_mtx);
if (strcmp(see->see_pes.pes_dvname, sme->sme_name) == 0)
evcounter++;
}
DPRINTF(("%s: total events %d (%s)\n", __func__,
evcounter, sme->sme_name));
while ((see = LIST_FIRST(&sme->sme_events_list))) {
if (evcounter == 0)
break;
if (strcmp(see->see_pes.pes_dvname, sme->sme_name) == 0) {
LIST_REMOVE(see, see_list);
DPRINTF(("%s: event %s %d removed (%s)\n", __func__,
see->see_pes.pes_sensname, see->see_type,
sme->sme_name));
kmem_free(see, sizeof(*see));
evcounter--;
}
}
if (LIST_EMPTY(&sme->sme_events_list))
if (sme->sme_flags & SME_CALLOUT_INITIALIZED)
sme_events_destroy(sme);
mutex_exit(&sme->sme_mtx);
}
/*
* sme_event_unregister:
*
* + Unregisters an event from the specified sysmon envsys device.
*/
int
sme_event_unregister(struct sysmon_envsys *sme, const char *sensor, int type)
{
sme_event_t *see;
bool found = false;
KASSERT(sensor != NULL);
mutex_enter(&sme->sme_mtx);
LIST_FOREACH(see, &sme->sme_events_list, see_list) {
if (strcmp(see->see_pes.pes_sensname, sensor) == 0) {
if (see->see_type == type) {
found = true;
break;
}
}
}
if (!found) {
mutex_exit(&sme->sme_mtx);
return EINVAL;
}
/*
* Wait for the event to finish its work, remove from the list
* and release resouces.
*/
while (see->see_flags & SEE_EVENT_WORKING)
cv_wait(&sme->sme_condvar, &sme->sme_mtx);
DPRINTF(("%s: removed dev=%s sensor=%s type=%d\n",
__func__, see->see_pes.pes_dvname, sensor, type));
LIST_REMOVE(see, see_list);
/*
* So the events list is empty, we'll do the following:
*
* - stop and destroy the callout.
* - destroy the workqueue.
*/
if (LIST_EMPTY(&sme->sme_events_list))
sme_events_destroy(sme);
mutex_exit(&sme->sme_mtx);
kmem_free(see, sizeof(*see));
return 0;
}
/*
* sme_event_drvadd:
*
* + Registers a new event for a device that had enabled any of
* the monitoring flags in the driver.
*/
void
sme_event_drvadd(void *arg)
{
sme_event_drv_t *sed_t = arg;
int error = 0;
KASSERT(sed_t != NULL);
#define SEE_REGEVENT(a, b, c) \
do { \
if (sed_t->sed_edata->flags & (a)) { \
char str[ENVSYS_DESCLEN] = "monitoring-state-"; \
\
error = sme_event_register(sed_t->sed_sdict, \
sed_t->sed_edata, \
sed_t->sed_sme, \
NULL, \
0, \
(b), \
sed_t->sed_powertype); \
if (error && error != EEXIST) \
printf("%s: failed to add event! " \
"error=%d sensor=%s event=%s\n", \
__func__, error, \
sed_t->sed_edata->desc, (c)); \
else { \
(void)strlcat(str, (c), sizeof(str)); \
prop_dictionary_set_bool(sed_t->sed_sdict, \
str, \
true); \
} \
} \
} while (/* CONSTCOND */ 0)
SEE_REGEVENT(ENVSYS_FMONCRITICAL,
PENVSYS_EVENT_CRITICAL,
"critical");
SEE_REGEVENT(ENVSYS_FMONCRITUNDER | ENVSYS_FMONCRITOVER |
ENVSYS_FMONWARNUNDER | ENVSYS_FMONWARNOVER,
PENVSYS_EVENT_HW_LIMITS,
"hw-range-limits");
SEE_REGEVENT(ENVSYS_FMONSTCHANGED,
PENVSYS_EVENT_STATE_CHANGED,
"state-changed");
/*
* we are done, free memory now.
*/
kmem_free(sed_t, sizeof(*sed_t));
}
/*
* sme_events_init:
*
* + Initialize the events framework for this device.
*/
int
sme_events_init(struct sysmon_envsys *sme)
{
int error = 0;
uint64_t timo;
KASSERT(sme != NULL);
KASSERT(mutex_owned(&sme->sme_mtx));
if (sme->sme_events_timeout)
timo = sme->sme_events_timeout * hz;
else
timo = SME_EVTIMO;
error = workqueue_create(&sme->sme_wq, sme->sme_name,
sme_events_worker, sme, PRI_NONE, IPL_SOFTCLOCK, WQ_MPSAFE);
if (error)
return error;
mutex_init(&sme->sme_callout_mtx, MUTEX_DEFAULT, IPL_SOFTCLOCK);
callout_init(&sme->sme_callout, CALLOUT_MPSAFE);
callout_setfunc(&sme->sme_callout, sme_events_check, sme);
callout_schedule(&sme->sme_callout, timo);
sme->sme_flags |= SME_CALLOUT_INITIALIZED;
DPRINTF(("%s: events framework initialized for '%s'\n",
__func__, sme->sme_name));
return error;
}
/*
* sme_events_destroy:
*
* + Destroys the event framework for this device: callout
* stopped, workqueue destroyed and callout mutex destroyed.
*/
void
sme_events_destroy(struct sysmon_envsys *sme)
{
KASSERT(mutex_owned(&sme->sme_mtx));
callout_stop(&sme->sme_callout);
workqueue_destroy(sme->sme_wq);
mutex_destroy(&sme->sme_callout_mtx);
callout_destroy(&sme->sme_callout);
sme->sme_flags &= ~SME_CALLOUT_INITIALIZED;
DPRINTF(("%s: events framework destroyed for '%s'\n",
__func__, sme->sme_name));
}
/*
* sme_events_check:
*
* + Passes the events to the workqueue thread and stops
* the callout if the 'low-power' condition is triggered.
*/
void
sme_events_check(void *arg)
{
struct sysmon_envsys *sme = arg;
sme_event_t *see;
uint64_t timo;
KASSERT(sme != NULL);
mutex_enter(&sme->sme_callout_mtx);
LIST_FOREACH(see, &sme->sme_events_list, see_list) {
workqueue_enqueue(sme->sme_wq, &see->see_wk, NULL);
see->see_edata->flags |= ENVSYS_FNEED_REFRESH;
}
if (sme->sme_events_timeout)
timo = sme->sme_events_timeout * hz;
else
timo = SME_EVTIMO;
if (!sysmon_low_power)
callout_schedule(&sme->sme_callout, timo);
mutex_exit(&sme->sme_callout_mtx);
}
/*
* sme_events_worker:
*
* + workqueue thread that checks if there's a critical condition
* and sends an event if it was triggered.
*/
void
sme_events_worker(struct work *wk, void *arg)
{
const struct sme_description_table *sdt = NULL;
const struct sme_sensor_event *sse = sme_sensor_event;
sme_event_t *see = (void *)wk;
struct sysmon_envsys *sme = see->see_sme;
envsys_data_t *edata = see->see_edata;
int i, state = 0;
KASSERT(wk == &see->see_wk);
KASSERT(sme != NULL || edata != NULL);
mutex_enter(&sme->sme_mtx);
if ((see->see_flags & SEE_EVENT_WORKING) == 0)
see->see_flags |= SEE_EVENT_WORKING;
/*
* sme_events_check marks the first event for the device to
* mak us refresh it here. Don't refresh if the driver uses
* its own method for refreshing.
*/
if ((sme->sme_flags & SME_DISABLE_REFRESH) == 0) {
if ((see->see_edata->flags & ENVSYS_FNEED_REFRESH) != 0) {
/* refresh sensor in device */
(*sme->sme_refresh)(sme, edata);
see->see_edata->flags &= ~ENVSYS_FNEED_REFRESH;
}
}
DPRINTFOBJ(("%s: (%s) desc=%s sensor=%d type=%d state=%d units=%d "
"value_cur=%d\n", __func__, sme->sme_name, edata->desc,
edata->sensor, see->see_type, edata->state, edata->units,
edata->value_cur));
/* skip the event if current sensor is in invalid state */
if (edata->state == ENVSYS_SINVALID)
goto out;
switch (see->see_type) {
/*
* For user range limits, calculate a new state first
* State based on user limits will override any hardware
* detected state.
*/
case PENVSYS_EVENT_USER_LIMITS:
case PENVSYS_EVENT_BATT_USER_LIMITS:
#define __EXCEEDED_LIMIT(lim, rel) ((lim) && edata->value_cur rel (lim))
if __EXCEEDED_LIMIT(see->see_critmin, <)
edata->state = ENVSYS_SCRITUNDER;
else if __EXCEEDED_LIMIT(see->see_warnmin, <)
edata->state = ENVSYS_SWARNUNDER;
else if __EXCEEDED_LIMIT(see->see_warnmax, >)
edata->state = ENVSYS_SWARNOVER;
else if __EXCEEDED_LIMIT(see->see_critmax, >)
edata->state = ENVSYS_SCRITOVER;
/* FALLTHROUGH */
#undef __EXCEED_LIMIT
/*
* For hardware and user range limits, send event if state has changed
*/
case PENVSYS_EVENT_HW_LIMITS:
if (edata->state == see->see_evsent)
break;
for (i = 0; sse[i].state != -1; i++)
if (sse[i].state == edata->state)
break;
if (sse[i].state == -1)
break;
if (edata->state == ENVSYS_SVALID)
sysmon_penvsys_event(&see->see_pes,
PENVSYS_EVENT_NORMAL);
else
sysmon_penvsys_event(&see->see_pes, sse[i].event);
see->see_evsent = edata->state;
break;
/*
* Send PENVSYS_EVENT_CRITICAL event if:
* State has gone from non-CRITICAL to CRITICAL,
* State remains CRITICAL and value has changed, or
* State has returned from CRITICAL to non-CRITICAL
*/
case PENVSYS_EVENT_CRITICAL:
if (edata->state == ENVSYS_SVALID &&
see->see_evsent != 0) {
sysmon_penvsys_event(&see->see_pes,
PENVSYS_EVENT_NORMAL);
see->see_evsent = 0;
} else if (edata->state == ENVSYS_SCRITICAL &&
see->see_evsent != edata->value_cur) {
sysmon_penvsys_event(&see->see_pes,
PENVSYS_EVENT_CRITICAL);
see->see_evsent = edata->value_cur;
}
break;
/*
* if value_cur is not normal (battery) or online (drive),
* send the event...
*/
case PENVSYS_EVENT_STATE_CHANGED:
/*
* the state has not been changed, just ignore the event.
*/
if (edata->value_cur == see->see_evsent)
break;
switch (edata->units) {
case ENVSYS_DRIVE:
sdt = sme_get_description_table(SME_DESC_DRIVE_STATES);
state = ENVSYS_DRIVE_ONLINE;
break;
case ENVSYS_BATTERY_CAPACITY:
sdt = sme_get_description_table(
SME_DESC_BATTERY_CAPACITY);
state = ENVSYS_BATTERY_CAPACITY_NORMAL;
break;
default:
panic("%s: invalid units for ENVSYS_FMONSTCHANGED",
__func__);
}
for (i = 0; sdt[i].type != -1; i++)
if (sdt[i].type == edata->value_cur)
break;
if (sdt[i].type == -1)
break;
/*
* copy current state description.
*/
(void)strlcpy(see->see_pes.pes_statedesc, sdt[i].desc,
sizeof(see->see_pes.pes_statedesc));
/*
* state is ok again... send a normal event.
*/
if (see->see_evsent && edata->value_cur == state) {
sysmon_penvsys_event(&see->see_pes,
PENVSYS_EVENT_NORMAL);
see->see_evsent = false;
}
/*
* state has been changed... send event.
*/
if (see->see_evsent || edata->value_cur != state) {
/*
* save current drive state.
*/
see->see_evsent = edata->value_cur;
sysmon_penvsys_event(&see->see_pes, see->see_type);
}
/*
* There's no need to continue if it's a drive sensor.
*/
if (edata->units == ENVSYS_DRIVE)
break;
/*
* Check if the system is running in low power and send the
* event to powerd (if running) or shutdown the system
* otherwise.
*/
if (!sysmon_low_power && sme_event_check_low_power()) {
struct penvsys_state pes;
/*
* Stop the callout and send the 'low-power' event.
*/
sysmon_low_power = true;
callout_stop(&sme->sme_callout);
pes.pes_type = PENVSYS_TYPE_BATTERY;
sysmon_penvsys_event(&pes, PENVSYS_EVENT_LOW_POWER);
}
break;
default:
panic("%s: invalid event type %d", __func__, see->see_type);
}
out:
see->see_flags &= ~SEE_EVENT_WORKING;
cv_broadcast(&sme->sme_condvar);
mutex_exit(&sme->sme_mtx);
}
/*
* Returns true if the system is in low power state: an AC adapter
* is OFF and all batteries are in LOW/CRITICAL state.
*/
static bool
sme_event_check_low_power(void)
{
if (!sme_acadapter_check())
return false;
return sme_battery_check();
}
/*
* Called with the sysmon_envsys device mtx held through the
* workqueue thread.
*/
static bool
sme_acadapter_check(void)
{
struct sysmon_envsys *sme;
envsys_data_t *edata;
bool dev = false, sensor = false;
LIST_FOREACH(sme, &sysmon_envsys_list, sme_list) {
if (sme->sme_class == SME_CLASS_ACADAPTER) {
dev = true;
break;
}
}
/*
* No AC Adapter devices were found.
*/
if (!dev)
return false;
/*
* Check if there's an AC adapter device connected.
*/
TAILQ_FOREACH(edata, &sme->sme_sensors_list, sensors_head) {
if (edata->units == ENVSYS_INDICATOR) {
sensor = true;
/* refresh current sensor */
(*sme->sme_refresh)(sme, edata);
if (edata->value_cur)
return false;
}
}
if (!sensor)
return false;
/*
* AC adapter found and not connected.
*/
return true;
}
/*
* Called with the sysmon_envsys device mtx held through the
* workqueue thread.
*/
static bool
sme_battery_check(void)
{
struct sysmon_envsys *sme;
envsys_data_t *edata;
int batteriesfound = 0;
bool present, batterycap, batterycharge;
/*
* Check for battery devices and its state.
*/
LIST_FOREACH(sme, &sysmon_envsys_list, sme_list) {
if (sme->sme_class != SME_CLASS_BATTERY)
continue;
present = true;
TAILQ_FOREACH(edata, &sme->sme_sensors_list, sensors_head) {
if (edata->units == ENVSYS_INDICATOR &&
!edata->value_cur) {
present = false;
break;
}
}
if (!present)
continue;
/*
* We've found a battery device...
*/
batteriesfound++;
batterycap = batterycharge = false;
TAILQ_FOREACH(edata, &sme->sme_sensors_list, sensors_head) {
if (edata->units == ENVSYS_BATTERY_CAPACITY) {
batterycap = true;
if (!sme_battery_critical(edata))
return false;
} else if (edata->units == ENVSYS_BATTERY_CHARGE) {
batterycharge = true;
if (edata->value_cur)
return false;
}
}
if (!batterycap || !batterycharge)
return false;
}
if (!batteriesfound)
return false;
/*
* All batteries in low/critical capacity and discharging.
*/
return true;
}
static bool
sme_battery_critical(envsys_data_t *edata)
{
if (edata->value_cur == ENVSYS_BATTERY_CAPACITY_CRITICAL ||
edata->value_cur == ENVSYS_BATTERY_CAPACITY_LOW)
return true;
return false;
}