static void max17040_work(struct work_struct *work)
{
#ifdef MAX17040_ALARM_RTC_ENABLE
unsigned long flags;
#endif //MAX17040_ALARM_RTC_ENABLE
int enable;
static int first_enable = 1;
dbg_func_in();
max17040_data.event=NoEvents;
max17040_data.suspend_event=NoEvents;
#ifndef MAX17040_ALARM_RTC_ENABLE
// sleep_dbg("MAX17040_WORK CALL.\n");
//prevent suspend
max17040_prevent_suspend();
#else
// sleep_dbg("MAX17040_WORK RTC CALL.\n");
#endif //MAX17040_ALARM_RTC_ENABLE
//read voltage now
max17040_get_vcell();
//read soc
max17040_get_soc();
#ifdef MAX17040_DEBUG_QUICK
max17040_quick_get_value();
#endif
enable = atomic_read(&max17040_data.set_test);
//save volate now and soc [TEST APPLICATION]
if(enable)
{
if((max17040_data.event)||first_enable) // ps2 team shs : soc is changed
{
sleep_dbg("MAX17040 SET TEST.\n");
sleep_dbg("MAX17040_WORK SOC [%d] prev[%d] : voltage [%d] : charger_state [%d] : i2c state [%d]\n",max17040_data.soc,max17040_data.prev_soc, max17040_data.vcell,charge_state,max17040_data.i2c_state);
input_report_rel(max17040_data.max17040_input_data, REL_RX, max17040_data.vcell);
input_report_rel(max17040_data.max17040_input_data, REL_RY, max17040_data.soc);
input_report_rel(max17040_data.max17040_input_data, REL_RZ, enable);
input_sync(max17040_data.max17040_input_data);
if(first_enable)
first_enable = 0;
}
}
else
first_enable = 1;
//ps2 team shs : After you determine the value of voltage and soc If there are changes to the event generates.
if(max17040_data.slow_poll) //do not call early resume state.
{
if(max17040_data.suspend_event)// 15 percent below where they were soc.
{
dbg("low battery [%d] percent!!!!!!!\n",max17040_data.soc);
max17040_power_supply_changed();
sleep_dbg("[SLEEP_EVENT] 15 percent below Send Event [%d].\n",max17040_data.soc );
}
else //15 percent up where were soc.
{
max17040_power_supply_changed();
sleep_dbg("[SLEEP_EVENT] 15 percent up Send Event [%d].\n",max17040_data.soc );
}
}
else //call early resume state.
{
if(max17040_data.event) //Different values soc.
{
sleep_dbg("MAX17040_WORK SOC [%d] prev[%d] : voltage [%d] : charger_state [%d] : i2c state [%d]\n",max17040_data.soc,max17040_data.prev_soc, max17040_data.vcell,charge_state,max17040_data.i2c_state);
max17040_power_supply_changed();
}
else //same values soc.
{
dbg("[EVENT] Stop Event.\n");
}
}
#if defined(CONFIG_SKY_SMB136S_CHARGER)
if(max17040_raw_soc != max17040_raw_pre_soc) {
pr_err("[SOC:%d->%d]\n", max17040_raw_pre_soc, max17040_raw_soc);
/* if battery is fully charged, charging done*/
if(sky_get_plug_state() == 1 &&
(max17040_raw_pre_soc >= (CHARGING_DONE_THRESHOLD-5)
&& max17040_raw_soc >= CHARGING_DONE_THRESHOLD)) {
notify_event_charging_done();
}
/* if gauge falls below a threshold, recharging */
if(sky_get_plug_state() == 0 &&
(max17040_raw_pre_soc >= (RECHARGING_THRESHOLD-5)
&& max17040_raw_soc <= RECHARGING_THRESHOLD)) {
notify_event_recharging();
}
}
#endif
#ifdef MAX17040_ALARM_RTC_ENABLE
di->last_poll=alarm_get_elapsed_realtime();
/* prevent suspend before starting the alarm */
local_irq_save(flags);
max17040_schedule();
max17040_allow_suspend();
local_irq_restore(flags);
dbg_func_out();
#else
max17040_data.slow_poll = Early_resume;
max17040_allow_suspend();
schedule_delayed_work(&max17040_data.work, MAX17040_DELAY);
#endif // MAX17040_ALARM_RTC_ENABLE
}
static void max17040_work(struct work_struct *work)
{
#ifdef MAX17040_ALARM_RTC_ENABLE
struct max17040_chip *di =
container_of(work, struct max17040_chip, monitor_work);
#else
struct max17040_chip *di = container_of(work, struct max17040_chip, work.work);
#endif //MAX17040_ALARM_RTC_ENABLE
#ifdef MAX17040_ALARM_RTC_ENABLE
unsigned long flags;
#endif //MAX17040_ALARM_RTC_ENABLE
int enable;
static int first_enable = 1;
dbg_func_in();
max17040_data.event=NoEvents;
max17040_data.suspend_event=NoEvents;
#ifndef MAX17040_ALARM_RTC_ENABLE
// sleep_dbg("MAX17040_WORK CALL.\n");
//prevent suspend
max17040_prevent_suspend();
#else
// sleep_dbg("MAX17040_WORK RTC CALL.\n");
#endif //MAX17040_ALARM_RTC_ENABLE
//read voltage now
max17040_get_vcell();
//read soc
max17040_get_soc();
#ifdef MAX17040_DEBUG_QUICK
max17040_quick_get_value();
#endif
enable = atomic_read(&max17040_data.set_test);
//save volate now and soc [TEST APPLICATION]
if(enable)
{
if((max17040_data.event)||first_enable) // ps2 team shs : soc is changed
{
sleep_dbg("MAX17040 SET TEST.\n");
sleep_dbg("MAX17040_WORK SOC [%d] prev[%d] : voltage [%d] : charger_state [%d] : i2c state [%d]\n",max17040_data.soc,max17040_data.prev_soc, max17040_data.vcell,charge_state,max17040_data.i2c_state);
input_report_rel(max17040_data.max17040_input_data, REL_RX, max17040_data.vcell);
input_report_rel(max17040_data.max17040_input_data, REL_RY, max17040_data.soc);
input_report_rel(max17040_data.max17040_input_data, REL_RZ, enable);
input_sync(max17040_data.max17040_input_data);
if(first_enable)
first_enable = 0;
}
}
else
first_enable = 1;
//ps2 team shs : After you determine the value of voltage and soc If there are changes to the event generates.
if(max17040_data.slow_poll) //do not call early resume state.
{
if(max17040_data.suspend_event)// 15 percent below where they were soc.
{
dbg("low battery [%d] percent!!!!!!!\n",max17040_data.soc);
power_supply_changed(&di->battery);
sleep_dbg("[SLEEP_EVENT] 15 percent below Send Event [%d].\n",max17040_data.soc );
}
else //15 percent up where were soc.
{
power_supply_changed(&di->battery);
sleep_dbg("[SLEEP_EVENT] 15 percent up Send Event [%d].\n",max17040_data.soc );
}
}
else //call early resume state.
{
if(max17040_data.event) //Different values soc.
{
sleep_dbg("MAX17040_WORK SOC [%d] prev[%d] : voltage [%d] : charger_state [%d] : i2c state [%d]\n",max17040_data.soc,max17040_data.prev_soc, max17040_data.vcell,charge_state,max17040_data.i2c_state);
power_supply_changed(&di->battery);
}
else //same values soc.
{
dbg("[EVENT] Stop Event.\n");
}
}
#ifdef MAX17040_ALARM_RTC_ENABLE
di->last_poll=alarm_get_elapsed_realtime();
/* prevent suspend before starting the alarm */
local_irq_save(flags);
max17040_schedule();
max17040_allow_suspend();
local_irq_restore(flags);
dbg_func_out();
#else
max17040_data.slow_poll = Early_resume;
max17040_allow_suspend();
schedule_delayed_work(&max17040_data.work, MAX17040_DELAY);
#endif // MAX17040_ALARM_RTC_ENABLE
}
static void max17040_work(struct work_struct *work)
{
#ifdef MAX17040_ALARM_RTC_ENABLE
struct max17040_chip *di =
container_of(work, struct max17040_chip, monitor_work);
#else
struct max17040_chip *di = container_of(work, struct max17040_chip, work.work);
#endif //MAX17040_ALARM_RTC_ENABLE
#ifdef CONFIG_SKY_SMB136S_CHARGER
int thermal_time_check_count = 0;
unsigned long pm_temp = 0;
unsigned long pm_temp_sum = 0;
unsigned long current_batt_delta = 0;
unsigned long pre_batt_delta = 0;
int batt_delta_sum = 0;
int batt_delta = 0;
int chg_type;
#endif
// unsigned long flags;
int enable;
dbg_func_in();
max17040_data.event=NoEvents;
max17040_data.suspend_event=NoEvents;
#ifndef MAX17040_ALARM_RTC_ENABLE
// sleep_dbg("MAX17040_WORK CALL.\n");
//prevent suspend
max17040_prevent_suspend();
#else
// sleep_dbg("MAX17040_WORK RTC CALL.\n");
#endif //MAX17040_ALARM_RTC_ENABLE
//read voltage now
max17040_get_vcell();
//read soc
max17040_get_soc();
#ifdef MAX17040_DEBUG_QUICK
max17040_quick_get_value();
#endif
enable = atomic_read(&max17040_data.set_test);
//save volate now and soc [TEST APPLICATION]
if(enable)
{
if(max17040_data.event) // soc is changed
{
pr_err("MAX17040 SET TEST.\n");
sleep_dbg("MAX17040_WORK SOC [%d] prev[%d] : voltage [%d] : charger_state [%d] : i2c state [%d]\n",
max17040_data.soc,max17040_data.prev_soc, max17040_data.vcell,charge_state,max17040_data.i2c_state);
input_report_abs(max17040_data.max17040_input_data, ABS_X, max17040_data.vcell);
input_report_abs(max17040_data.max17040_input_data, ABS_Y, max17040_data.soc);
input_report_abs(max17040_data.max17040_input_data, ABS_WAKE, enable);
input_sync(max17040_data.max17040_input_data);
}
}
//After you determine the value of voltage and soc If there are changes to the event generates.
if(max17040_data.slow_poll) //do not call early resume state.
{
if(max17040_data.suspend_event)// 15 percent below where they were soc.
{
pr_err("low battery [%d] percent!!!!!!!\n",max17040_data.soc);
power_supply_changed(&di->battery);
pr_err("[SLEEP_EVENT] 15 percent below Send Event [%d].\n",max17040_data.soc );
}
else //15 percent up where were soc.
{
power_supply_changed(&di->battery);
pr_err("[SLEEP_EVENT] 15 percent up Send Event [%d].\n",max17040_data.soc );
}
}
else //call early resume state.
{
if(max17040_data.event) { //Different values soc.
pr_err("MAX17040_WORK SOC [%d] prev[%d] : voltage [%d] : charger_state [%d] : i2c state [%d]\n",
max17040_data.soc,max17040_data.prev_soc, max17040_data.vcell,charge_state,max17040_data.i2c_state);
power_supply_changed(&di->battery);
}
else { //same values soc.
//pr_err("[EVENT] Stop Event.\n");
}
}
if(max17040_raw_soc != max17040_raw_pre_soc) {
pr_err("[SOC:%d->%d]\n", max17040_raw_pre_soc, max17040_raw_soc);
/* if battery is fully charged, charging done*/
if(sky_get_plug_state() == 1 &&
(max17040_raw_pre_soc >= (CHARGING_DONE_THRESHOLD-5)
&& max17040_raw_soc >= CHARGING_DONE_THRESHOLD)) {
notify_event_charging_done();
}
/* if gauge falls below a threshold, recharging */
if(sky_get_plug_state() == 0 &&
(max17040_raw_pre_soc >= (RECHARGING_THRESHOLD-5)
&& max17040_raw_soc <= RECHARGING_THRESHOLD)) {
notify_event_recharging();
}
}
#ifdef MAX17040_ALARM_RTC_ENABLE
di->last_poll=alarm_get_elapsed_realtime();
/* prevent suspend before starting the alarm */
local_irq_save(flags);
max17040_schedule();
max17040_allow_suspend();
local_irq_restore(flags);
dbg_func_out();
#else
#ifdef CONFIG_SKY_SMB136S_CHARGER
chg_type = atomic_read(&smb_charger_state);
pmic8058_tz_get_temp_charging(&pm_temp);
if(thermal_time_check_count != 3) {
pm_temp_sum = pm_temp_sum + pm_temp;
current_batt_delta = pm_temp;
if (pm_temp > pre_batt_delta) {
batt_delta = pm_temp - pre_batt_delta;
batt_delta_sum = batt_delta_sum + batt_delta;
}
else {
batt_delta = 0;
batt_delta_sum = batt_delta_sum + batt_delta;
}
pre_batt_delta = current_batt_delta;
thermal_time_check_count ++;
}
else {
if(chg_type == 0) {
if(((pm_temp_sum > 114000) || (batt_delta_sum > 600 && pm_temp_sum > 84000)) && max17040_data.set_rcomp_mode == 0) {
high_current_rcomp_mode = 1;
max17040_set_rcomp();
}
else {
if(max17040_data.set_rcomp_mode == 1) {
high_current_rcomp_mode = 0;
max17040_set_rcomp();
}
}
}
else {
high_current_rcomp_mode = 0;
max17040_set_rcomp();
}
thermal_time_check_count = 0;
pm_temp_sum = 0;
batt_delta_sum = 0;
}
#endif
max17040_data.slow_poll = Early_resume;
max17040_allow_suspend();
schedule_delayed_work(&max17040_data.work, MAX17040_DELAY);
#endif // MAX17040_ALARM_RTC_ENABLE
}
