#include <linux/delay.h>
#include <linux/power/cw2015_battery.h>
#include <linux/time.h>
-
#include <linux/interrupt.h>
#include <linux/irq.h>
#include <mach/board.h>
#define MODE_RESTART (0xf<<0)
#define CONFIG_UPDATE_FLG (0x1<<1)
-#define ATHD (0xa<<3) //ATHD =10%
+#define ATHD (0x0<<3) //ATHD =10%
#define CW_I2C_SPEED 100000 // default i2c speed set 100khz
-#define BATTERY_UP_MAX_CHANGE 600 // the max time allow battery change quantity
+#define BATTERY_UP_MAX_CHANGE 420 // the max time allow battery change quantity
+#define BATTERY_DOWN_CHANGE 60 // the max time allow battery change quantity
#define BATTERY_DOWN_MIN_CHANGE_RUN 30 // the min time allow battery change quantity when run
#define BATTERY_DOWN_MIN_CHANGE_SLEEP 1800 // the min time allow battery change quantity when run 30min
-#define BATTERY_DOWN_MAX_CHANGE_RUN_AC_ONLINE 1800
+#define BATTERY_DOWN_MAX_CHANGE_RUN_AC_ONLINE 3600
#define Enable_BATDRV_LOG 0
+#define USB_CHARGER_MODE 1
+#define AC_CHARGER_MODE 2
+
+
#if Enable_BATDRV_LOG
#define xprintk(format, arg...) printk("func: %s\n" format, __FUNCTION__, ##arg)
#else
#define xprintk(format, ...)
#endif
+extern int dwc_otg_check_dpdm(void);
+extern int get_gadget_connect_flag(void);
+extern int dwc_vbus_status( void );
+
struct cw_battery {
struct i2c_client *client;
struct workqueue_struct *battery_workqueue;
int dc_online;
int usb_online;
+ int charger_mode;
+ int charger_init_mode;
int capacity;
int voltage;
int status;
int time_to_empty;
+ int alt;
int bat_change;
};
ret = i2c_master_reg8_send(client, reg, buf, 1, CW_I2C_SPEED);
return ret;
}
+static int cw_read_word(struct i2c_client *client, u8 reg, u8 buf[])
+{
+ int ret;
+ ret = i2c_master_reg8_recv(client, reg, buf, 2, CW_I2C_SPEED);
+ return ret;
+}
+
+#if 0
+static int cw_write_word(struct i2c_client *client, u8 reg, u8 const buf[])
+{
+ int ret;
+ ret = i2c_master_reg8_send(client, reg, buf, 2, CW_I2C_SPEED);
+ return ret;
+}
+#endif
+
+
static int cw_update_config_info(struct cw_battery *cw_bat)
{
static int cw_quickstart(struct cw_battery *cw_bat)
{
int ret = 0;
- u8 reg_val = MODE_QUICK_START | MODE_NORMAL;
+ u8 reg_val = MODE_QUICK_START;
ret = cw_write(cw_bat->client, REG_MODE, ®_val); //(MODE_QUICK_START | MODE_NORMAL)); // 0x30
if(ret < 0) {
{
int cw_capacity;
int ret;
- u8 reg_val;
+ u8 reg_val[2];
struct timespec ts;
long new_run_time;
int allow_change;
int allow_capacity;
static int if_quickstart = 0;
+ static int jump_flag =0;
- ret = cw_read(cw_bat->client, REG_SOC, ®_val);
+ // ret = cw_read(cw_bat->client, REG_SOC, ®_val);
+ ret = cw_read_word(cw_bat->client, REG_SOC, reg_val);
if (ret < 0)
return ret;
- cw_capacity = reg_val;
+ cw_capacity = reg_val[0];
if ((cw_capacity < 0) || (cw_capacity > 100)) {
printk("get cw_capacity error; cw_capacity = %d\n", cw_capacity);
return cw_capacity;
else
xprintk("the cw201x capacity is %d, funciton: %s\n", cw_capacity, __func__);
- ret = cw_read(cw_bat->client, REG_SOC + 1, ®_val);
+ // ret = cw_read(cw_bat->client, REG_SOC + 1, ®_val);
ktime_get_ts(&ts);
new_run_time = ts.tv_sec;
get_monotonic_boottime(&ts);
new_sleep_time = ts.tv_sec - new_run_time;
- if ((cw_bat->dc_online == 1) && (cw_capacity >= 95) && (cw_capacity <= cw_bat->capacity)) { // avoid no charge full
+ if ((cw_bat->charger_mode > 0) && (cw_capacity >= 95) && (cw_capacity <= cw_bat->capacity)) { // avoid no charge full
capacity_or_aconline_time = (cw_bat->sleep_time_capacity > cw_bat->sleep_time_ac_online) ? cw_bat->sleep_time_capacity : cw_bat->sleep_time_ac_online;
capacity_or_aconline_time += (cw_bat->run_time_capacity > cw_bat->run_time_ac_online) ? cw_bat->run_time_capacity : cw_bat->run_time_ac_online;
if (allow_change > 0) {
allow_capacity = cw_bat->capacity + allow_change;
cw_capacity = (allow_capacity <= 100) ? allow_capacity : 100;
+ jump_flag =1;
}
- } else if (((cw_bat->dc_online == 1) && (cw_capacity == (cw_bat->capacity - 1)))
- || ((cw_bat->dc_online == 0) && (cw_capacity == (cw_bat->capacity + 1)))) { // modify battery level swing
+ } else if (((cw_bat->charger_mode > 0) && (cw_capacity == (cw_bat->capacity - 1)))
+ || ((cw_bat->charger_mode == 0) && (cw_capacity == (cw_bat->capacity + 1)))) { // modify battery level swing
if (!(cw_capacity == 0 && cw_bat->capacity == 1)) {
cw_capacity = cw_bat->capacity;
allow_capacity = cw_bat->capacity - allow_change;
cw_capacity = (allow_capacity >= cw_capacity) ? allow_capacity: cw_capacity;
- }
+ reg_val[0] = MODE_NORMAL;
+ ret = cw_write(cw_bat->client, REG_MODE, reg_val);
+ if (ret < 0)
+ return ret;
+
+ } else if ((cw_bat->charger_mode == 0) && (cw_capacity <= cw_bat->capacity ) && (cw_capacity >= 90) && (jump_flag == 1)) { // avoid battery level jump to CW_BAT
+ capacity_or_aconline_time = (cw_bat->sleep_time_capacity > cw_bat->sleep_time_ac_online) ? cw_bat->sleep_time_capacity : cw_bat->sleep_time_ac_online;
+ capacity_or_aconline_time += (cw_bat->run_time_capacity > cw_bat->run_time_ac_online) ? cw_bat->run_time_capacity : cw_bat->run_time_ac_online;
+ allow_change = (new_sleep_time + new_run_time - capacity_or_aconline_time) / BATTERY_DOWN_CHANGE;
+ if (allow_change > 0) {
+ allow_capacity = cw_bat->capacity - allow_change;
+ if (cw_capacity >= allow_capacity){
+ jump_flag =0;
+ }
+ else{
+ cw_capacity = (allow_capacity <= 100) ? allow_capacity : 100;
+ }
+ }
+ }
#if 1
- if((cw_bat->dc_online == 1) &&(cw_capacity == 0))
+ if((cw_bat->charger_mode > 0) &&(cw_capacity == 0))
{
if (((new_sleep_time + new_run_time - cw_bat->sleep_time_ac_online - cw_bat->run_time_ac_online) > BATTERY_DOWN_MAX_CHANGE_RUN_AC_ONLINE) && (if_quickstart == 0)) {
cw_quickstart(cw_bat); // if the cw_capacity = 0 the cw2015 will qstrt
if_quickstart = 1;
- } else if (if_quickstart == 1) {
- if_quickstart = 0;
}
- } else if (if_quickstart == 1) {
- if_quickstart = 0;
+ } else if ((if_quickstart == 1)&&(cw_bat->charger_mode == 0)) {
+ if_quickstart = 0;
}
+
#endif
- if((cw_capacity == 100) && (gpio_get_value(cw_bat->plat_data->chg_ok_pin) != cw_bat->plat_data->chg_ok_level))
- cw_capacity = 99;
+ if (cw_bat->plat_data->chg_ok_pin != INVALID_GPIO) {
+ if((cw_capacity == 100) && (gpio_get_value(cw_bat->plat_data->chg_ok_pin) != cw_bat->plat_data->chg_ok_level))
+ cw_capacity = 99;
+ }
return cw_capacity;
}
static int cw_get_vol(struct cw_battery *cw_bat)
{
int ret;
- u8 reg_val;
+ u8 reg_val[2];
u16 value16, value16_1, value16_2, value16_3;
int voltage;
- ret = cw_read(cw_bat->client, REG_VCELL, ®_val);
+ ret = cw_read_word(cw_bat->client, REG_VCELL, reg_val);
if (ret < 0)
return ret;
-
- value16 = reg_val;
-
- ret = cw_read(cw_bat->client, REG_VCELL + 1, ®_val);
- if (ret < 0)
- return ret;
-
- value16 = (value16 << 8) + reg_val;
-
- ret = cw_read(cw_bat->client, REG_VCELL, ®_val);
- if (ret < 0)
- return ret;
-
- value16_1 = reg_val;
-
- ret = cw_read(cw_bat->client, REG_VCELL + 1, ®_val);
- if (ret < 0)
- return ret;
-
- value16_1 = (value16_1 << 8) + reg_val;
+ value16 = (reg_val[0] << 8) + reg_val[1];
- ret = cw_read(cw_bat->client, REG_VCELL, ®_val);
+ ret = cw_read_word(cw_bat->client, REG_VCELL, reg_val);
if (ret < 0)
return ret;
+ value16_1 = (reg_val[0] << 8) + reg_val[1];
- value16_2 = reg_val;
-
- ret = cw_read(cw_bat->client, REG_VCELL + 1, ®_val);
+ ret = cw_read_word(cw_bat->client, REG_VCELL, reg_val);
if (ret < 0)
return ret;
-
- value16_2 = (value16_2 << 8) + reg_val;
+ value16_2 = (reg_val[0] << 8) + reg_val[1];
if(value16 > value16_1)
return voltage;
}
+#if 0
+static int cw_get_alt(struct cw_battery *cw_bat)
+{
+ int ret = 0;
+ u8 reg_val;
+ u8 value8 = 0;
+ int alrt;
+
+ ret = cw_read(cw_bat->client, REG_RRT_ALERT, ®_val);
+ if (ret < 0)
+ return ret;
+ value8 = reg_val;
+ alrt = value8 >>7;
+
+ //dev_info(&client->dev, "read RRT %d%%. value16 0x%x\n", alrt, value16);
+ value8 = value8&0x7f;
+ reg_val = value8;
+ ret = cw_write(cw_bat->client, REG_RRT_ALERT, ®_val);
+ if(ret < 0) {
+ printk("Error clear ALRT\n");
+ return ret;
+ }
+
+ return alrt;
+}
+#endif
+
+
static int cw_get_time_to_empty(struct cw_battery *cw_bat)
{
int ret;
static int rk_ac_update_online(struct cw_battery *cw_bat)
{
+ if(cw_bat->plat_data->dc_det_pin == INVALID_GPIO)
+ return 0;
if (gpio_get_value(cw_bat->plat_data->dc_det_pin) == cw_bat->plat_data->dc_det_level) {
if (cw_bat->dc_online != 1) {
cw_update_time_member_ac_online(cw_bat);
cw_bat->dc_online = 1;
+ if (cw_bat->charger_mode != AC_CHARGER_MODE)
+ cw_bat->charger_mode = AC_CHARGER_MODE;
+
return 1;
}
} else {
if (cw_bat->dc_online != 0) {
cw_update_time_member_ac_online(cw_bat);
cw_bat->dc_online = 0;
+ if ((cw_bat->usb_online == 0)&&(cw_bat->charger_mode != 0))
+ cw_bat->charger_mode = 0;
+
return 1;
}
}
static int rk_usb_update_online(struct cw_battery *cw_bat)
{
- cw_bat->usb_online = 0;
+ int usb_status = dwc_vbus_status();
+ int gadget_status =get_gadget_connect_flag();
+
+ xprintk("%s usb_status=[%d],cw_bat->charger_mode=[%d],cw_bat->gadget_status=[%d], cw_bat->charger_init_mode = [%d]\n",__func__,usb_status,cw_bat->charger_mode,gadget_status, cw_bat->charger_init_mode);
+
+
+ if (cw_bat->plat_data->is_usb_charge == 0) {
+ cw_bat->usb_online = 0;
+ return 0;
+
+ }
+
+ if (((usb_status == 2) || (cw_bat->charger_init_mode==2)) && (cw_bat->charger_mode != AC_CHARGER_MODE)){
+
+ if (cw_bat->charger_mode != AC_CHARGER_MODE)
+ cw_bat->charger_mode = AC_CHARGER_MODE;
+ if (cw_bat->plat_data->chg_mode_sel_pin != INVALID_GPIO)
+ gpio_direction_output(cw_bat->plat_data->chg_mode_sel_pin, (cw_bat->plat_data->chg_mode_sel_level==GPIO_HIGH) ? GPIO_HIGH : GPIO_LOW);
+ if (cw_bat->usb_online != 1){
+ cw_bat->usb_online = 1;
+ cw_update_time_member_ac_online(cw_bat);
+ return 1;
+ }
+ } else if ((usb_status == 1) || ((cw_bat->charger_init_mode==1))) {
+#if 1
+ if (0 == gadget_status){
+ if (cw_bat->charger_mode != AC_CHARGER_MODE)
+ cw_bat->charger_mode = AC_CHARGER_MODE;
+ if (cw_bat->plat_data->chg_mode_sel_pin != INVALID_GPIO)
+ gpio_direction_output(cw_bat->plat_data->chg_mode_sel_pin, (cw_bat->plat_data->chg_mode_sel_level==GPIO_HIGH) ? GPIO_HIGH : GPIO_LOW);
+ if (cw_bat->usb_online != 1){
+ cw_bat->usb_online = 1;
+ cw_update_time_member_ac_online(cw_bat);
+ return 1;
+ }
+ }
+ else{
+#endif
+ if (cw_bat->charger_mode != USB_CHARGER_MODE)
+ cw_bat->charger_mode = USB_CHARGER_MODE;
+ if (cw_bat->plat_data->chg_mode_sel_pin != INVALID_GPIO)
+ gpio_direction_output(cw_bat->plat_data->chg_mode_sel_pin, (cw_bat->plat_data->chg_mode_sel_level==GPIO_HIGH) ? GPIO_LOW : GPIO_HIGH);
+ if (cw_bat->usb_online != 1){
+ cw_bat->usb_online = 1;
+ cw_update_time_member_ac_online(cw_bat);
+ return 1;
+ }
+ }
+ } else {//if (usb_status == 0){
+ if (cw_bat->plat_data->chg_mode_sel_pin != INVALID_GPIO)
+ gpio_direction_output(cw_bat->plat_data->chg_mode_sel_pin, (cw_bat->plat_data->chg_mode_sel_level==GPIO_HIGH) ? GPIO_LOW : GPIO_HIGH);
+ if ((cw_bat->dc_online == 0)&&(cw_bat->charger_mode != 0))
+ cw_bat->charger_mode = 0;
+ if (cw_bat->usb_online != 0) {
+ cw_update_time_member_ac_online(cw_bat);
+ cw_bat->usb_online = 0;
+ return 1;
+ }
+ }
+
+
return 0;
}
struct cw_battery *cw_bat;
int ret;
+ struct timespec ts;
+ int time_from_boot;
+
delay_work = container_of(work, struct delayed_work, work);
cw_bat = container_of(delay_work, struct cw_battery, battery_delay_work);
-
+ get_monotonic_boottime(&ts);
+ time_from_boot = ts.tv_sec;
+ if ((time_from_boot > 30) && cw_bat->charger_init_mode) {
+ cw_bat->charger_init_mode = 0;
+ }
ret = rk_ac_update_online(cw_bat);
if (ret == 1) {
power_supply_changed(&cw_bat->rk_ac);
}
- ret = rk_usb_update_online(cw_bat);
- if (ret == 1) {
- power_supply_changed(&cw_bat->rk_usb);
+ if (cw_bat->plat_data->is_usb_charge == 1) {
+ ret = rk_usb_update_online(cw_bat);
+ if (ret == 1) {
+ power_supply_changed(&cw_bat->rk_usb);
+ power_supply_changed(&cw_bat->rk_ac); /////////////////////////////////////////////////////
+ }
}
+
rk_bat_update_status(cw_bat);
rk_bat_update_capacity(cw_bat);
rk_bat_update_vol(cw_bat);
cw_bat = container_of(psy, struct cw_battery, rk_usb);
switch (psp) {
case POWER_SUPPLY_PROP_ONLINE:
- val->intval = cw_bat->usb_online;
+ // val->intval = cw_bat->usb_online;
+ val->intval = (cw_bat->charger_mode == USB_CHARGER_MODE);
break;
default:
break;
cw_bat = container_of(psy, struct cw_battery, rk_ac);
switch (psp) {
case POWER_SUPPLY_PROP_ONLINE:
- val->intval = cw_bat->dc_online;
+ // val->intval = cw_bat->dc_online;
+ val->intval = (cw_bat->charger_mode == AC_CHARGER_MODE);
break;
default:
break;
goto request_chg_ok_pin_fail;
}
}
+
+ if ((cw_bat->plat_data->is_usb_charge == 1) && (cw_bat->plat_data->chg_mode_sel_pin!= INVALID_GPIO)) {
+ ret = gpio_request(cw_bat->plat_data->chg_mode_sel_pin, NULL);
+ if (ret) {
+ printk("failed to request chg_mode_sel_pin gpio\n");
+ goto request_chg_ok_pin_fail;
+ }
+ ret = gpio_direction_output(cw_bat->plat_data->chg_mode_sel_pin, (cw_bat->plat_data->chg_mode_sel_level==GPIO_HIGH) ? GPIO_LOW : GPIO_HIGH);
+ if (ret) {
+ printk("failed to set chg_mode_sel_pin input\n");
+ gpio_free(cw_bat->plat_data->chg_mode_sel_pin);
+ goto request_chg_ok_pin_fail;
+ }
+ }
+
return 0;
rk28_send_wakeup_key();
+ /* this assume if usb insert or extract dc_det pin is change */
+ if(cw_bat->charger_init_mode)
+ cw_bat->charger_init_mode=0;
+
irq = gpio_to_irq(cw_bat->plat_data->dc_det_pin);
type = gpio_get_value(cw_bat->plat_data->dc_det_pin) ? IRQ_TYPE_EDGE_FALLING : IRQ_TYPE_EDGE_RISING;
ret = irq_set_irq_type(irq, type);
int ret;
int irq;
int irq_flags;
+ int loop = 0;
cw_bat = devm_kzalloc(&client->dev, sizeof(*cw_bat), GFP_KERNEL);
if (!cw_bat) {
}
cw_bat->client = client;
+
ret = cw_init(cw_bat);
+ while ((loop++ < 200) && (ret != 0)) {
+ ret = cw_init(cw_bat);
+ }
+
if (ret)
return ret;
goto rk_usb_register_fail;
}
+ cw_bat->charger_init_mode = dwc_otg_check_dpdm();
+
cw_bat->dc_online = 0;
cw_bat->usb_online = 0;
+ cw_bat->charger_mode = 0;
cw_bat->capacity = 2;
cw_bat->voltage = 0;
cw_bat->status = 0;