static kal_uint32 charging_get_charger_type(void *data)
 {
	 kal_uint32 status = STATUS_OK;
#if defined(CONFIG_POWER_EXT)
	 *(CHARGER_TYPE*)(data) = STANDARD_HOST;
#else

	charging_type_det_done = KAL_FALSE;

	/********* Step initial  ***************/		 
	hw_bc11_init();
 
	/********* Step DCD ***************/  
	if(1 == hw_bc11_DCD())
	{
		/********* Step A1 ***************/
		if(1 == hw_bc11_stepA1())
		{
			*(CHARGER_TYPE*)(data) = APPLE_2_1A_CHARGER;
			battery_xlog_printk(BAT_LOG_CRTI, "step A1 : Apple 2.1A CHARGER!\r\n");
		}	 
		else
		{
			*(CHARGER_TYPE*)(data) = NONSTANDARD_CHARGER;
			battery_xlog_printk(BAT_LOG_CRTI, "step A1 : Non STANDARD CHARGER!\r\n");
		}
	}
	else
	{
		 /********* Step A2 ***************/
		 if(1 == hw_bc11_stepA2())
		 {
			 /********* Step B2 ***************/
			 if(1 == hw_bc11_stepB2())
			 {
				 *(CHARGER_TYPE*)(data) = STANDARD_CHARGER;
				 battery_xlog_printk(BAT_LOG_CRTI, "step B2 : STANDARD CHARGER!\r\n");
			 }
			 else
			 {
				 *(CHARGER_TYPE*)(data) = CHARGING_HOST;
				 battery_xlog_printk(BAT_LOG_CRTI, "step B2 :  Charging Host!\r\n");
			 }
		 }
		 else
		 {
			*(CHARGER_TYPE*)(data) = STANDARD_HOST;
			 battery_xlog_printk(BAT_LOG_CRTI, "step A2 : Standard USB Host!\r\n");
		 }
 
	}
 
	 /********* Finally setting *******************************/
	 hw_bc11_done();

 	charging_type_det_done = KAL_TRUE;
#endif
	 return status;
}
示例#2
0
int hw_charging_get_charger_type(void)
{
#if 0
    return STANDARD_HOST;
    //return STANDARD_CHARGER; //adaptor
#else
    CHARGER_TYPE CHR_Type_num = CHARGER_UNKNOWN;


    /********* Step initial  ***************/
    hw_bc11_init();

    /********* Step DCD ***************/
    if(1 == hw_bc11_DCD())
    {
         /********* Step A1 ***************/
         if(1 == hw_bc11_stepA1())
         {
             CHR_Type_num = APPLE_2_1A_CHARGER;
             battery_log(BAT_LOG_CRTI, "step A1 : Apple 2.1A CHARGER!\r\n");
         }
         else
         {
             CHR_Type_num = NONSTANDARD_CHARGER;
             battery_log(BAT_LOG_CRTI, "step A1 : Non STANDARD CHARGER!\r\n");
         }
    }
    else
    {
         /********* Step A2 ***************/
         if(1 == hw_bc11_stepA2())
         {
             /********* Step B2 ***************/
             if(1 == hw_bc11_stepB2())
             {
                // is_dcp_type = true;
                 CHR_Type_num = STANDARD_CHARGER;
                 battery_log(BAT_LOG_CRTI, "step B2 : STANDARD CHARGER!\r\n");
             }
             else
             {
                 CHR_Type_num = CHARGING_HOST;
                 battery_log(BAT_LOG_CRTI, "step B2 :  Charging Host!\r\n");
             }
         }
         else
         {
             CHR_Type_num = STANDARD_HOST;
             battery_log(BAT_LOG_CRTI, "step A2 : Standard USB Host!\r\n");
         }

    }

    /********* Finally setting *******************************/
    hw_bc11_done();

    return CHR_Type_num;
#endif
}
static CHARGER_TYPE hw_get_charger_type(void)
{
    kal_uint32 status = STATUS_OK;
    CHARGER_TYPE charger_type = CHARGER_UNKNOWN;

	charging_type_det_done = KAL_FALSE;
	/********* Step initial  ***************/		 
	hw_bc11_init();
 
	/********* Step DCD ***************/  
	if(1 == hw_bc11_DCD())
	{
		 /********* Step A1 ***************/
		 if(1 == hw_bc11_stepA1())
		 {
				 charger_type = APPLE_2_1A_CHARGER;
			battery_xlog_printk(BAT_LOG_CRTI, "step A1 : Apple 2.1A CHARGER!\r\n");
			 }	 
			 else
			 {
				charger_type = NONSTANDARD_CHARGER;
				battery_xlog_printk(BAT_LOG_CRTI, "step A1 : Non STANDARD CHARGER!\r\n");
			 }	 
		 }
	else
	{
		 /********* Step A2 ***************/
		 if(1 == hw_bc11_stepA2())
		 {
			 /********* Step B2 ***************/
			 if(1 == hw_bc11_stepB2())
			 {
				 charger_type = STANDARD_CHARGER;
				 battery_xlog_printk(BAT_LOG_CRTI, "step B2 : STANDARD CHARGER!\r\n");
			 }
			 else
			 {
				 charger_type = CHARGING_HOST;
				 battery_xlog_printk(BAT_LOG_CRTI, "step B2 :  Charging Host!\r\n");
			 }
		 }
		 else
		 {
			 charger_type = STANDARD_HOST;
			 battery_xlog_printk(BAT_LOG_CRTI, "step A2 : Standard USB Host!\r\n");
		 }
 
	}
 
	 /********* Finally setting *******************************/
	 hw_bc11_done();

#endif
	 return charger_type;
}
static kal_uint32 charging_get_charger_type(void *data)
{
	kal_uint32 status = STATUS_OK;
#if defined(CONFIG_POWER_EXT)
	*(CHARGER_TYPE*)(data) = STANDARD_HOST;
#else
	if (g_charger_type != CHARGER_UNKNOWN && g_charger_type != WIRELESS_CHARGER)
	{
		*(CHARGER_TYPE*)(data) = g_charger_type;
		battery_xlog_printk(BAT_LOG_CRTI, "[PowerSupply] return %d!\n", g_charger_type);
		return status;
	}

	charging_type_det_done = KAL_FALSE;

	/********* Step initial  ***************/
	hw_bc11_init();

	/********* Step DCD ***************/
	if(1 == hw_bc11_DCD())
	{
		/********* Step A1 ***************/
		if(1 == hw_bc11_stepA1())
		{
			/********* Step B1 ***************/
			if(1 == hw_bc11_stepB1())
			{
				*(CHARGER_TYPE*)(data) = NONSTANDARD_CHARGER;
				battery_xlog_printk(BAT_LOG_CRTI, "step B1 : Non STANDARD CHARGER!\n");
			}
			else
			{
				*(CHARGER_TYPE*)(data) = APPLE_2_1A_CHARGER;
				battery_xlog_printk(BAT_LOG_CRTI, "step B1 : Apple 2.1A CHARGER!\n");
			}
		}
		else
		{
			/********* Step C1 ***************/
			if(1 == hw_bc11_stepC1())
			{
				*(CHARGER_TYPE*)(data) = APPLE_1_0A_CHARGER;
				battery_xlog_printk(BAT_LOG_CRTI, "step C1 : Apple 1A CHARGER!\n");
			}
			else
			{
				*(CHARGER_TYPE*)(data) = APPLE_0_5A_CHARGER;
				battery_xlog_printk(BAT_LOG_CRTI, "step C1 : Apple 0.5A CHARGER!\n");
			}
		}
	}
	else
	{
		/********* Step A2 ***************/
		if(1 == hw_bc11_stepA2())
		{
			/********* Step B2 ***************/
			if(1 == hw_bc11_stepB2())
			{
				*(CHARGER_TYPE*)(data) = STANDARD_CHARGER;
				battery_xlog_printk(BAT_LOG_CRTI, "step B2 : STANDARD CHARGER!\n");
			}
			else
			{
				*(CHARGER_TYPE*)(data) = CHARGING_HOST;
				battery_xlog_printk(BAT_LOG_CRTI, "step B2 : Charging Host!\n");
			}
		}
		else
		{
			*(CHARGER_TYPE*)(data) = STANDARD_HOST;
			battery_xlog_printk(BAT_LOG_CRTI, "step A2 : Standard USB Host!\n");
		}
	}

	/********* Finally setting *******************************/
	hw_bc11_done();

#ifdef CONFIG_LGE_PM
	/* we do not support APPLE TA, so assume this as non-standard charger */
	if (*(CHARGER_TYPE*)(data) == APPLE_2_1A_CHARGER ||
		*(CHARGER_TYPE*)(data) == APPLE_1_0A_CHARGER ||
		*(CHARGER_TYPE*)(data) == APPLE_0_5A_CHARGER) {
		*(CHARGER_TYPE*)(data) = NONSTANDARD_CHARGER;
	}

	if (*(CHARGER_TYPE*)(data) == NONSTANDARD_CHARGER) {
		if (charging_type_det_retry == KAL_FALSE) {
			*(CHARGER_TYPE*)(data) = CHARGER_UNKNOWN;
			charging_type_det_retry = KAL_TRUE;
		}
	}
#endif

	charging_type_det_done = KAL_TRUE;

	g_charger_type = *(CHARGER_TYPE*)(data);
#endif

	return STATUS_OK;
}
 static kal_uint32 charging_get_charger_type(void *data)
 {
	 kal_uint32 status = STATUS_OK;
#if defined(CONFIG_POWER_EXT)
	 *(CHARGER_TYPE*)(data) = STANDARD_HOST;
#else
#if defined(MTK_WIRELESS_CHARGER_SUPPORT)
    int wireless_state = 0;
    wireless_state = mt_get_gpio_in(wireless_charger_gpio_number);
    if(wireless_state == WIRELESS_CHARGER_EXIST_STATE)
    {
        *(CHARGER_TYPE*)(data) = WIRELESS_CHARGER;
        battery_xlog_printk(BAT_LOG_CRTI, "WIRELESS_CHARGER!\r\n");
        return status;
    }
#endif

    if(g_charger_type!=CHARGER_UNKNOWN && g_charger_type!=WIRELESS_CHARGER)
    {
        *(CHARGER_TYPE*)(data) = g_charger_type;
        battery_xlog_printk(BAT_LOG_CRTI, "return %d!\r\n", g_charger_type);
        return status;
    }

	charging_type_det_done = KAL_FALSE;

	/********* Step initial  ***************/		 
	hw_bc11_init();
 
	/********* Step DCD ***************/  
	if(1 == hw_bc11_DCD())
	{
		 /********* Step A1 ***************/
		 if(1 == hw_bc11_stepA1())
		 {
			 /********* Step B1 ***************/
			 if(1 == hw_bc11_stepB1())
			 {
				 //*(CHARGER_TYPE*)(data) = NONSTANDARD_CHARGER;
				 //battery_xlog_printk(BAT_LOG_CRTI, "step B1 : Non STANDARD CHARGER!\r\n");
				 *(CHARGER_TYPE*)(data) = APPLE_2_1A_CHARGER;
				 battery_xlog_printk(BAT_LOG_CRTI, "step B1 : Apple 2.1A CHARGER!\r\n");
			 }	 
			 else
			 {
				 //*(CHARGER_TYPE*)(data) = APPLE_2_1A_CHARGER;
				 //battery_xlog_printk(BAT_LOG_CRTI, "step B1 : Apple 2.1A CHARGER!\r\n");
				 *(CHARGER_TYPE*)(data) = NONSTANDARD_CHARGER;
				 battery_xlog_printk(BAT_LOG_CRTI, "step B1 : Non STANDARD CHARGER!\r\n");
			 }	 
		 }
		 else
		 {
			 /********* Step C1 ***************/
			 if(1 == hw_bc11_stepC1())
			 {
				 *(CHARGER_TYPE*)(data) = APPLE_1_0A_CHARGER;
				 battery_xlog_printk(BAT_LOG_CRTI, "step C1 : Apple 1A CHARGER!\r\n");
			 }	 
			 else
			 {
				 *(CHARGER_TYPE*)(data) = APPLE_0_5A_CHARGER;
				 battery_xlog_printk(BAT_LOG_CRTI, "step C1 : Apple 0.5A CHARGER!\r\n");			 
			 }	 
		 }
 
	}
	else
	{
		 /********* Step A2 ***************/
		 if(1 == hw_bc11_stepA2())
		 {
			 /********* Step B2 ***************/
			 if(1 == hw_bc11_stepB2())
			 {
				 *(CHARGER_TYPE*)(data) = STANDARD_CHARGER;
				 battery_xlog_printk(BAT_LOG_CRTI, "step B2 : STANDARD CHARGER!\r\n");
			 }
			 else
			 {
				 *(CHARGER_TYPE*)(data) = CHARGING_HOST;
				 battery_xlog_printk(BAT_LOG_CRTI, "step B2 :  Charging Host!\r\n");
			 }
		 }
		 else
		 {
     *(CHARGER_TYPE*)(data) = STANDARD_HOST;
			 battery_xlog_printk(BAT_LOG_CRTI, "step A2 : Standard USB Host!\r\n");
		 }
 
	}
 
	 /********* Finally setting *******************************/
	 hw_bc11_done();

 	charging_type_det_done = KAL_TRUE;

    g_charger_type = *(CHARGER_TYPE*)(data);
#endif
	 return status;
}
 static kal_uint32 charging_get_charger_type(void *data)
 {
	 kal_uint32 status = STATUS_OK;
	 CHARGER_TYPE charger_type = CHARGER_UNKNOWN;
#if defined(CONFIG_POWER_EXT)
	 *(CHARGER_TYPE*)(data) = STANDARD_HOST;
#else
	charging_type_det_done = KAL_FALSE;

#if 0
    charger_type = hw_charger_type_detection();
    battery_log(BAT_LOG_CRTI, "charging_get_charger_type = %d\r\n", charger_type);

    *(CHARGER_TYPE*)(data) = charger_type;
#endif

#if 1
	/********* Step initial  ***************/
	hw_bc11_init();

	/********* Step DCD ***************/
	if(1 == hw_bc11_DCD())
	{
		 /********* Step A1 ***************/
		 if(1 == hw_bc11_stepA1())
		 {
			 /********* Step B1 ***************/
			 if(1 == hw_bc11_stepB1())
			 {
				 //*(CHARGER_TYPE*)(data) = NONSTANDARD_CHARGER;
				 //battery_log(BAT_LOG_CRTI, "step B1 : Non STANDARD CHARGER!\r\n");
				 *(CHARGER_TYPE*)(data) = APPLE_2_1A_CHARGER;
				 battery_log(BAT_LOG_CRTI, "step B1 : Apple 2.1A CHARGER!\r\n");
			 }
			 else
			 {
				 //*(CHARGER_TYPE*)(data) = APPLE_2_1A_CHARGER;
				 //battery_log(BAT_LOG_CRTI, "step B1 : Apple 2.1A CHARGER!\r\n");
				 *(CHARGER_TYPE*)(data) = NONSTANDARD_CHARGER;
				 battery_log(BAT_LOG_CRTI, "step B1 : Non STANDARD CHARGER!\r\n");
			 }
		 }
		 else
		 {
			 /********* Step C1 ***************/
			 if(1 == hw_bc11_stepC1())
			 {
				 *(CHARGER_TYPE*)(data) = APPLE_1_0A_CHARGER;
				 battery_log(BAT_LOG_CRTI, "step C1 : Apple 1A CHARGER!\r\n");
			 }
			 else
			 {
				 *(CHARGER_TYPE*)(data) = APPLE_0_5A_CHARGER;
				 battery_log(BAT_LOG_CRTI, "step C1 : Apple 0.5A CHARGER!\r\n");
			 }
		 }

	}
	else
	{
		 /********* Step A2 ***************/
		 if(1 == hw_bc11_stepA2())
		 {
			 /********* Step B2 ***************/
			 if(1 == hw_bc11_stepB2())
			 {
				 *(CHARGER_TYPE*)(data) = STANDARD_CHARGER;
				 battery_log(BAT_LOG_CRTI, "step B2 : STANDARD CHARGER!\r\n");
			 }
			 else
			 {
				 *(CHARGER_TYPE*)(data) = CHARGING_HOST;
				 battery_log(BAT_LOG_CRTI, "step B2 :  Charging Host!\r\n");
			 }
		 }
		 else
		 {
         *(CHARGER_TYPE*)(data) = STANDARD_HOST;
			 battery_log(BAT_LOG_CRTI, "step A2 : Standard USB Host!\r\n");
		 }

	}

	 /********* Finally setting *******************************/
	 hw_bc11_done();
#endif

 	charging_type_det_done = KAL_TRUE;
#endif
	 return status;
}