update FIH baord VDIG1 to 2.7V

[firefly-linux-kernel-4.4.55.git] / arch / arm / mach-rk29 / board-rk29-fih.c

/* arch/arm/mach-rk29/board-rk29.c
 *
 * Copyright (C) 2010 ROCKCHIP, Inc.
 *
 * This software is licensed under the terms of the GNU General Public
 * License version 2, as published by the Free Software Foundation, and
 * may be copied, distributed, and modified under those terms.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 */

#include <linux/kernel.h>
#include <linux/init.h>
#include <linux/platform_device.h>
#include <linux/input.h>
#include <linux/io.h>
#include <linux/delay.h>
#include <linux/i2c.h>
#include <linux/spi/spi.h>
#include <linux/mmc/host.h>
#include <linux/android_pmem.h>
#include <linux/usb/android_composite.h>
#include <linux/i2c/tps65910.h>
#include <linux/mpu.h>
#include <linux/mpu3050.h>
#include <mach/hardware.h>
#include <asm/setup.h>
#include <asm/mach-types.h>
#include <asm/mach/arch.h>
#include <asm/mach/map.h>
#include <asm/mach/flash.h>
#include <asm/hardware/gic.h>

#include <mach/iomux.h>
#include <mach/gpio.h>
#include <mach/irqs.h>
#include <mach/rk29_iomap.h>
#include <mach/board.h>
#include <mach/rk29_nand.h>
#include <mach/rk29_camera.h>                          /* ddl@rock-chips.com : camera support */
#include <media/soc_camera.h>                               /* ddl@rock-chips.com : camera support */
#include <mach/vpu_mem.h>
#include <mach/sram.h>

#include <linux/regulator/rk29-pwm-regulator.h>
#include <linux/regulator/machine.h>

#include <linux/mtd/nand.h>
#include <linux/mtd/partitions.h>

#include "devices.h"
#include "../../../drivers/input/touchscreen/xpt2046_cbn_ts.h"


/* Set memory size of pmem */
#ifdef CONFIG_RK29_MEM_SIZE_M
#define SDRAM_SIZE          (CONFIG_RK29_MEM_SIZE_M * SZ_1M)
#else
#define SDRAM_SIZE          SZ_512M
#endif
#define PMEM_GPU_SIZE       (SZ_64M*3)
#define PMEM_UI_SIZE        SZ_32M
#define PMEM_VPU_SIZE       SZ_64M
#define PMEM_CAM_SIZE       0x01300000
#ifdef CONFIG_VIDEO_RK29_WORK_IPP
#define MEM_CAMIPP_SIZE     SZ_8M
#else
#define MEM_CAMIPP_SIZE     0
#endif
#define MEM_FB_SIZE         (3*SZ_2M)
#ifdef CONFIG_FB_WORK_IPP
#define MEM_FBIPP_SIZE      SZ_8M   //1920 x 1080 x 2 x 2  //RGB565 = x2;RGB888 = x4
#else
#define MEM_FBIPP_SIZE      0
#endif
#define PMEM_GPU_BASE       ((u32)RK29_SDRAM_PHYS + SDRAM_SIZE - PMEM_GPU_SIZE)
#define PMEM_UI_BASE        (PMEM_GPU_BASE - PMEM_UI_SIZE)
#define PMEM_VPU_BASE       (PMEM_UI_BASE - PMEM_VPU_SIZE)
#define PMEM_CAM_BASE       (PMEM_VPU_BASE - PMEM_CAM_SIZE)
#define MEM_CAMIPP_BASE     (PMEM_CAM_BASE - MEM_CAMIPP_SIZE)
#define MEM_FB_BASE         (MEM_CAMIPP_BASE - MEM_FB_SIZE)
#define MEM_FBIPP_BASE      (MEM_FB_BASE - MEM_FBIPP_SIZE)
#define LINUX_SIZE          (MEM_FBIPP_BASE - RK29_SDRAM_PHYS)

#define PREALLOC_WLAN_SEC_NUM           4
#define PREALLOC_WLAN_BUF_NUM           160
#define PREALLOC_WLAN_SECTION_HEADER    24

#define WLAN_SECTION_SIZE_0     (PREALLOC_WLAN_BUF_NUM * 128)
#define WLAN_SECTION_SIZE_1     (PREALLOC_WLAN_BUF_NUM * 128)
#define WLAN_SECTION_SIZE_2     (PREALLOC_WLAN_BUF_NUM * 512)
#define WLAN_SECTION_SIZE_3     (PREALLOC_WLAN_BUF_NUM * 1024)

#define WLAN_SKB_BUF_NUM        16

static struct sk_buff *wlan_static_skb[WLAN_SKB_BUF_NUM];

struct wifi_mem_prealloc {
        void *mem_ptr;
        unsigned long size;
};

extern struct sys_timer rk29_timer;

static int rk29_nand_io_init(void)
{
    return 0;
}

struct rk29_nand_platform_data rk29_nand_data = {
    .width      = 1,     /* data bus width in bytes */
    .hw_ecc     = 1,     /* hw ecc 0: soft ecc */
    .num_flash    = 1,
    .io_init   = rk29_nand_io_init,
};

#ifdef CONFIG_FB_RK29
/*****************************************************************************************
 * lcd  devices
 * author: zyw@rock-chips.com
 *****************************************************************************************/
//#ifdef  CONFIG_LCD_TD043MGEA1
#define LCD_TXD_PIN          INVALID_GPIO
#define LCD_CLK_PIN          INVALID_GPIO
#define LCD_CS_PIN           INVALID_GPIO
/*****************************************************************************************
* frame buffe  devices
* author: zyw@rock-chips.com
*****************************************************************************************/
#define FB_ID                       0
#define FB_DISPLAY_ON_PIN           RK29_PIN6_PD0
#define FB_LCD_STANDBY_PIN          RK29_PIN6_PD1
#define FB_LCD_CABC_EN_PIN          RK29_PIN6_PD2
#define FB_MCU_FMK_PIN              INVALID_GPIO

#define FB_DISPLAY_ON_VALUE         GPIO_HIGH
#define FB_LCD_STANDBY_VALUE        GPIO_HIGH

//#endif
static int rk29_lcd_io_init(void)
{
    int ret = 0;
    return ret;
}

static int rk29_lcd_io_deinit(void)
{
    int ret = 0;
    return ret;
}

static struct rk29lcd_info rk29_lcd_info = {
    .txd_pin  = LCD_TXD_PIN,
    .clk_pin = LCD_CLK_PIN,
    .cs_pin = LCD_CS_PIN,
    .io_init   = rk29_lcd_io_init,
    .io_deinit = rk29_lcd_io_deinit,
};


static int rk29_fb_io_init(struct rk29_fb_setting_info *fb_setting)
{
    int ret = 0;
    if(fb_setting->mcu_fmk_en && (FB_MCU_FMK_PIN != INVALID_GPIO))
    {
        ret = gpio_request(FB_MCU_FMK_PIN, NULL);
        if(ret != 0)
        {
            gpio_free(FB_MCU_FMK_PIN);
            printk(">>>>>> FB_MCU_FMK_PIN gpio_request err \n ");
        }
        gpio_direction_input(FB_MCU_FMK_PIN);
    }
    if(fb_setting->disp_on_en && (FB_DISPLAY_ON_PIN != INVALID_GPIO))
    {
        ret = gpio_request(FB_DISPLAY_ON_PIN, NULL);
        if(ret != 0)
        {
            gpio_free(FB_DISPLAY_ON_PIN);
            printk(">>>>>> FB_DISPLAY_ON_PIN gpio_request err \n ");
        }
    }

    if(fb_setting->disp_on_en && (FB_LCD_STANDBY_PIN != INVALID_GPIO))
    {
        ret = gpio_request(FB_LCD_STANDBY_PIN, NULL);
        if(ret != 0)
        {
            gpio_free(FB_LCD_STANDBY_PIN);
            printk(">>>>>> FB_LCD_STANDBY_PIN gpio_request err \n ");
        }
    }

    if(FB_LCD_CABC_EN_PIN != INVALID_GPIO)
    {
        ret = gpio_request(FB_LCD_CABC_EN_PIN, NULL);
        if(ret != 0)
        {
            gpio_free(FB_LCD_CABC_EN_PIN);
            printk(">>>>>> FB_LCD_CABC_EN_PIN gpio_request err \n ");
        }
        gpio_direction_output(FB_LCD_CABC_EN_PIN, 0);
        gpio_set_value(FB_LCD_CABC_EN_PIN, GPIO_LOW);
    }

    return ret;
}

static struct rk29fb_info rk29_fb_info = {
    .fb_id   = FB_ID,
    .disp_on_pin = FB_DISPLAY_ON_PIN,
    .disp_on_value = FB_DISPLAY_ON_VALUE,
    .standby_pin = FB_LCD_STANDBY_PIN,
    .standby_value = FB_LCD_STANDBY_VALUE,
    .mcu_fmk_pin = FB_MCU_FMK_PIN,
    .lcd_info = &rk29_lcd_info,
    .io_init   = rk29_fb_io_init,
};

/* rk29 fb resource */
static struct resource rk29_fb_resource[] = {
        [0] = {
        .name  = "lcdc reg",
                .start = RK29_LCDC_PHYS,
                .end   = RK29_LCDC_PHYS + RK29_LCDC_SIZE - 1,
                .flags = IORESOURCE_MEM,
        },
        [1] = {
            .name  = "lcdc irq",
                .start = IRQ_LCDC,
                .end   = IRQ_LCDC,
                .flags = IORESOURCE_IRQ,
        },
        [2] = {
            .name   = "win1 buf",
        .start  = MEM_FB_BASE,
        .end    = MEM_FB_BASE + MEM_FB_SIZE - 1,
        .flags  = IORESOURCE_MEM,
    },
    #ifdef CONFIG_FB_WORK_IPP
    [3] = {
            .name   = "win1 ipp buf",
        .start  = MEM_FBIPP_BASE,
        .end    = MEM_FBIPP_BASE + MEM_FBIPP_SIZE - 1,
        .flags  = IORESOURCE_MEM,
    },
    #endif
};

/*platform_device*/
struct platform_device rk29_device_fb = {
        .name             = "rk29-fb",
        .id               = 4,
        .num_resources    = ARRAY_SIZE(rk29_fb_resource),
        .resource         = rk29_fb_resource,
        .dev            = {
                .platform_data  = &rk29_fb_info,
        }
};

struct platform_device rk29_device_dma_cpy = {
        .name             = "dma_memcpy",
        .id               = 4,

};

#endif

static struct android_pmem_platform_data android_pmem_pdata = {
        .name           = "pmem",
        .start          = PMEM_UI_BASE,
        .size           = PMEM_UI_SIZE,
        .no_allocator   = 0,
        .cached         = 1,
};

static struct platform_device android_pmem_device = {
        .name           = "android_pmem",
        .id             = 0,
        .dev            = {
                .platform_data = &android_pmem_pdata,
        },
};


static struct android_pmem_platform_data android_pmem_cam_pdata = {
        .name           = "pmem_cam",
        .start          = PMEM_CAM_BASE,
        .size           = PMEM_CAM_SIZE,
        .no_allocator   = 1,
        .cached         = 1,
};

static struct platform_device android_pmem_cam_device = {
        .name           = "android_pmem",
        .id             = 1,
        .dev            = {
                .platform_data = &android_pmem_cam_pdata,
        },
};


static struct vpu_mem_platform_data vpu_mem_pdata = {
        .name           = "vpu_mem",
        .start          = PMEM_VPU_BASE,
        .size           = PMEM_VPU_SIZE,
        .cached         = 1,
};

static struct platform_device rk29_vpu_mem_device = {
        .name           = "vpu_mem",
        .id                 = 2,
        .dev            = {
        .platform_data = &vpu_mem_pdata,
        },
};

static struct platform_device rk29_v4l2_output_devce = {
        .name           = "rk29_vout",
};

/*HANNSTAR_P1003 touch*/
#if defined (CONFIG_HANNSTAR_P1003)
#define TOUCH_RESET_PIN RK29_PIN6_PC3
#define TOUCH_INT_PIN   RK29_PIN0_PA2

int p1003_init_platform_hw(void)
{
    if(gpio_request(TOUCH_RESET_PIN,NULL) != 0){
      gpio_free(TOUCH_RESET_PIN);
      printk("p1003_init_platform_hw gpio_request error\n");
      return -EIO;
    }

    if(gpio_request(TOUCH_INT_PIN,NULL) != 0){
      gpio_free(TOUCH_INT_PIN);
      printk("p1003_init_platform_hw gpio_request error\n");
      return -EIO;
    }
    gpio_pull_updown(TOUCH_INT_PIN, 1);
    gpio_direction_output(TOUCH_RESET_PIN, 0);
    msleep(500);
    gpio_set_value(TOUCH_RESET_PIN,GPIO_LOW);
    msleep(500);
    gpio_set_value(TOUCH_RESET_PIN,GPIO_HIGH);

    return 0;
}


struct p1003_platform_data p1003_info = {
  .model= 1003,
  .init_platform_hw= p1003_init_platform_hw,

};
#endif
#if defined (CONFIG_EETI_EGALAX)
#define TOUCH_RESET_PIN RK29_PIN6_PC3
#define TOUCH_INT_PIN   RK29_PIN0_PA2

static int EETI_EGALAX_init_platform_hw(void)
{
    if(gpio_request(TOUCH_RESET_PIN,NULL) != 0){
      gpio_free(TOUCH_RESET_PIN);
      printk("p1003_init_platform_hw gpio_request error\n");
      return -EIO;
    }

    if(gpio_request(TOUCH_INT_PIN,NULL) != 0){
      gpio_free(TOUCH_INT_PIN);
      printk("p1003_init_platform_hw gpio_request error\n");
      return -EIO;
    }
    gpio_pull_updown(TOUCH_INT_PIN, 1);
    gpio_direction_output(TOUCH_RESET_PIN, 0);
    msleep(500);
    gpio_set_value(TOUCH_RESET_PIN,GPIO_LOW);
    msleep(500);
    gpio_set_value(TOUCH_RESET_PIN,GPIO_HIGH);

    return 0;
}


static struct eeti_egalax_platform_data eeti_egalax_info = {
  .model= 1003,
  .init_platform_hw= EETI_EGALAX_init_platform_hw,

};
#endif
/*MMA8452 gsensor*/
#if defined (CONFIG_GS_MMA8452)
#define MMA8452_INT_PIN   RK29_PIN0_PA3

static int mma8452_init_platform_hw(void)
{

    if(gpio_request(MMA8452_INT_PIN,NULL) != 0){
      gpio_free(MMA8452_INT_PIN);
      printk("mma8452_init_platform_hw gpio_request error\n");
      return -EIO;
    }
    gpio_pull_updown(MMA8452_INT_PIN, 1);
    return 0;
}


static struct mma8452_platform_data mma8452_info = {
  .model= 8452,
  .swap_xy = 0,
  .init_platform_hw= mma8452_init_platform_hw,

};
#endif
#if defined (CONFIG_SENSORS_MPU3050)
/*mpu3050*/
static struct mpu3050_platform_data mpu3050_data = {
                .int_config = 0x10,
                .orientation = { 1, 0, 0,0, -1, 0,0, 0, 1 },
                .level_shifter = 0,
#if defined (CONFIG_SENSORS_KXTF9)
                .accel = {
                                .get_slave_descr = kxtf9_get_slave_descr ,
                                .adapt_num = 0, // The i2c bus to which the mpu device is
                                // connected
                                .irq = RK29_PIN0_PA3,
                                .bus = EXT_SLAVE_BUS_SECONDARY,  //The secondary I2C of MPU
                                .address = 0x0f,
                                .orientation = { 1, 0, 0,0, 1, 0,0, 0, 1 },
                },
#endif
#if defined (CONFIG_SENSORS_AK8975)
                .compass = {
                                .get_slave_descr = ak8975_get_slave_descr,/*ak5883_get_slave_descr,*/
                                .adapt_num = 0, // The i2c bus to which the compass device is. 
                                // It can be difference with mpu
                                // connected
                                .irq = RK29_PIN0_PA4,
                                .bus = EXT_SLAVE_BUS_PRIMARY,
                                .address = 0x0d,
                                .orientation = { -1, 0, 0,0, -1, 0,0, 0, 1 },
                },
};
#endif
#endif
#if defined (CONFIG_BATTERY_BQ27510)
 
#define DC_CHECK_PIN RK29_PIN4_PA1
#define LI_LION_BAT_NUM 2
static int bq27510_init_dc_check_pin(void)
{ 
        if(gpio_request(DC_CHECK_PIN,"dc_check") != 0)
        {      
                gpio_free(DC_CHECK_PIN);      
                printk("bq27510 init dc check pin request error\n");      
    return -EIO;    
        } 
        gpio_direction_input(DC_CHECK_PIN); 
        return 0;
}
struct bq27510_platform_data bq27510_info = 
{ 
                .init_dc_check_pin = bq27510_init_dc_check_pin, 
    .dc_check_pin =  DC_CHECK_PIN, 
    .bat_num = LI_LION_BAT_NUM,
};
 
#endif


/*****************************************************************************************
* TI TPS65910 voltage regulator devices 
******************************************************************************************/
#if defined (CONFIG_TPS65910_CORE)
/* VDD1 */
static struct regulator_consumer_supply rk29_vdd1_supplies[] = {
        {
                .supply = "vcore",      //      set name vcore for all platform 
        },
};

/* VDD1 DCDC */
static struct regulator_init_data rk29_regulator_vdd1 = {
        .constraints = {
                .min_uV = 950000,
                .max_uV = 1400000,
                .valid_modes_mask = REGULATOR_MODE_NORMAL,
                .valid_ops_mask = REGULATOR_CHANGE_VOLTAGE,
                .always_on = true,
                .apply_uV = true,
        },
        .num_consumer_supplies = ARRAY_SIZE(rk29_vdd1_supplies),
        .consumer_supplies = rk29_vdd1_supplies,
};

/* VDD2 */
static struct regulator_consumer_supply rk29_vdd2_supplies[] = {
        {
                .supply = "vdd2",
        },
};

/* VDD2 DCDC */
static struct regulator_init_data rk29_regulator_vdd2 = {
        .constraints = {
                .min_uV = 1200000,
                .max_uV = 1200000,
                .valid_modes_mask = REGULATOR_MODE_NORMAL,
                .valid_ops_mask = REGULATOR_CHANGE_STATUS,
                .always_on = true,
                .apply_uV = true,
        },
        .num_consumer_supplies = ARRAY_SIZE(rk29_vdd2_supplies),
        .consumer_supplies = rk29_vdd2_supplies,
};

/* VIO */
static struct regulator_consumer_supply rk29_vio_supplies[] = {
        {
                .supply = "vio",
        },
};

/* VIO  LDO */
static struct regulator_init_data rk29_regulator_vio = {
        .constraints = {
                .min_uV = 3300000,
                .max_uV = 3300000,
                .valid_modes_mask = REGULATOR_MODE_NORMAL,
                .valid_ops_mask = REGULATOR_CHANGE_STATUS,
                .always_on = true,
                .apply_uV = true,
        },
        .num_consumer_supplies = ARRAY_SIZE(rk29_vio_supplies),
        .consumer_supplies = rk29_vio_supplies,
};

/* VAUX1 */
static struct regulator_consumer_supply rk29_vaux1_supplies[] = {
        {
                .supply = "vaux1",
        },
};

/* VAUX1  LDO */
static struct regulator_init_data rk29_regulator_vaux1 = {
        .constraints = {
                .min_uV = 2800000,
                .max_uV = 2800000,
                .valid_modes_mask = REGULATOR_MODE_NORMAL,
                .valid_ops_mask = REGULATOR_CHANGE_STATUS,
                .apply_uV = true,
        },
        .num_consumer_supplies = ARRAY_SIZE(rk29_vaux1_supplies),
        .consumer_supplies = rk29_vaux1_supplies,
};

/* VAUX2 */
static struct regulator_consumer_supply rk29_vaux2_supplies[] = {
        {
                .supply = "vaux2",
        },
};

/* VAUX2  LDO */
static struct regulator_init_data rk29_regulator_vaux2 = {
        .constraints = {
                .min_uV = 2900000,
                .max_uV = 2900000,
                .valid_modes_mask = REGULATOR_MODE_NORMAL,
                .valid_ops_mask = REGULATOR_CHANGE_STATUS,
                .apply_uV = true,
        },
        .num_consumer_supplies = ARRAY_SIZE(rk29_vaux2_supplies),
        .consumer_supplies = rk29_vaux2_supplies,
};

/* VDAC */
static struct regulator_consumer_supply rk29_vdac_supplies[] = {
        {
                .supply = "vdac",
        },
};

/* VDAC  LDO */
static struct regulator_init_data rk29_regulator_vdac = {
        .constraints = {
                .min_uV = 1800000,
                .max_uV = 1800000,
                .valid_modes_mask = REGULATOR_MODE_NORMAL,
                .valid_ops_mask = REGULATOR_CHANGE_STATUS,
                .apply_uV = true,
        },
        .num_consumer_supplies = ARRAY_SIZE(rk29_vdac_supplies),
        .consumer_supplies = rk29_vdac_supplies,
};

/* VAUX33 */
static struct regulator_consumer_supply rk29_vaux33_supplies[] = {
        {
                .supply = "vaux33",
        },
};

/* VAUX33  LDO */
static struct regulator_init_data rk29_regulator_vaux33 = {
        .constraints = {
                .min_uV = 3300000,
                .max_uV = 3300000,
                .valid_modes_mask = REGULATOR_MODE_NORMAL,
                .valid_ops_mask = REGULATOR_CHANGE_STATUS,
                .apply_uV = true,
        },
        .num_consumer_supplies = ARRAY_SIZE(rk29_vaux33_supplies),
        .consumer_supplies = rk29_vaux33_supplies,
};

/* VMMC */
static struct regulator_consumer_supply rk29_vmmc_supplies[] = {
        {
                .supply = "vmmc",
        },
};

/* VMMC  LDO */
static struct regulator_init_data rk29_regulator_vmmc = {
        .constraints = {
                .min_uV = 3000000,
                .max_uV = 3000000,
                .valid_modes_mask = REGULATOR_MODE_NORMAL,
                .valid_ops_mask = REGULATOR_CHANGE_STATUS,
                .apply_uV = true,
        },
        .num_consumer_supplies = ARRAY_SIZE(rk29_vmmc_supplies),
        .consumer_supplies = rk29_vmmc_supplies,
};

/* VPLL */
static struct regulator_consumer_supply rk29_vpll_supplies[] = {
        {
                .supply = "vpll",
        },
};

/* VPLL  LDO */
static struct regulator_init_data rk29_regulator_vpll = {
        .constraints = {
                .min_uV = 2500000,
                .max_uV = 2500000,
                .valid_modes_mask = REGULATOR_MODE_NORMAL,
                .valid_ops_mask = REGULATOR_CHANGE_STATUS,
                .always_on = true,
                .apply_uV = true,
        },
        .num_consumer_supplies = ARRAY_SIZE(rk29_vpll_supplies),
        .consumer_supplies = rk29_vpll_supplies,
};

/* VDIG1 */
static struct regulator_consumer_supply rk29_vdig1_supplies[] = {
        {
                .supply = "vdig1",
        },
};

/* VDIG1  LDO */
static struct regulator_init_data rk29_regulator_vdig1 = {
        .constraints = {
                .min_uV = 2700000,
                .max_uV = 2700000,
                .valid_modes_mask = REGULATOR_MODE_NORMAL,
                .valid_ops_mask = REGULATOR_CHANGE_STATUS,
                .apply_uV = true,
        },
        .num_consumer_supplies = ARRAY_SIZE(rk29_vdig1_supplies),
        .consumer_supplies = rk29_vdig1_supplies,
};

/* VDIG2 */
static struct regulator_consumer_supply rk29_vdig2_supplies[] = {
        {
                .supply = "vdig2",
        },
};

/* VDIG2  LDO */
static struct regulator_init_data rk29_regulator_vdig2 = {
        .constraints = {
                .min_uV = 1200000,
                .max_uV = 1200000,
                .valid_modes_mask = REGULATOR_MODE_NORMAL,
                .valid_ops_mask = REGULATOR_CHANGE_STATUS,
                .always_on = true,
                .apply_uV = true,
        },
        .num_consumer_supplies = ARRAY_SIZE(rk29_vdig2_supplies),
        .consumer_supplies = rk29_vdig2_supplies,
};

static int rk29_tps65910_config(struct tps65910_platform_data *pdata)
{
        u8 val  = 0;
        int i   = 0;
        int err = -1;


        /* Configure TPS65910 for rk29 board needs */
        printk("rk29_tps65910_config: tps65910 init config.\n");
        
        err = tps65910_i2c_read_u8(TPS65910_I2C_ID0, &val, TPS65910_REG_DEVCTRL2);
        if (err) {
                printk(KERN_ERR "Unable to read TPS65910_REG_DEVCTRL2 reg\n");
                return -EIO;
        }       
        /* Set sleep state active high and allow device turn-off after PWRON long press */
        val |= (TPS65910_DEV2_SLEEPSIG_POL | TPS65910_DEV2_PWON_LP_OFF);

        err = tps65910_i2c_write_u8(TPS65910_I2C_ID0, val,
                        TPS65910_REG_DEVCTRL2);
        if (err) {
                printk(KERN_ERR "Unable to write TPS65910_REG_DEVCTRL2 reg\n");
                return -EIO;
        }

        /* Set the maxinum load current */
        /* VDD1 */
        err = tps65910_i2c_read_u8(TPS65910_I2C_ID0, &val, TPS65910_REG_VDD1);
        if (err) {
                printk(KERN_ERR "Unable to read TPS65910_REG_VDD1 reg\n");
                return -EIO;
        }

        val |= (1<<5);
        err = tps65910_i2c_write_u8(TPS65910_I2C_ID0, val, TPS65910_REG_VDD1);
        if (err) {
                printk(KERN_ERR "Unable to write TPS65910_REG_VDD1 reg\n");
                return -EIO;
        }

        /* VDD2 */
        err = tps65910_i2c_read_u8(TPS65910_I2C_ID0, &val, TPS65910_REG_VDD2);
        if (err) {
                printk(KERN_ERR "Unable to read TPS65910_REG_VDD2 reg\n");
                return -EIO;
        }

        val |= (1<<5);
        err = tps65910_i2c_write_u8(TPS65910_I2C_ID0, val, TPS65910_REG_VDD2);
        if (err) {
                printk(KERN_ERR "Unable to write TPS65910_REG_VDD2 reg\n");
                return -EIO;
        }

        /* VIO */
        err = tps65910_i2c_read_u8(TPS65910_I2C_ID0, &val, TPS65910_REG_VIO);
        if (err) {
                printk(KERN_ERR "Unable to read TPS65910_REG_VIO reg\n");
                return -EIO;
        }

        val |= (1<<6);
        err = tps65910_i2c_write_u8(TPS65910_I2C_ID0, val, TPS65910_REG_VIO);
        if (err) {
                printk(KERN_ERR "Unable to write TPS65910_REG_VIO reg\n");
                return -EIO;
        }

        /* Mask ALL interrupts */
        err = tps65910_i2c_write_u8(TPS65910_I2C_ID0, 0xFF,
                        TPS65910_REG_INT_MSK);
        if (err) {
                printk(KERN_ERR "Unable to write TPS65910_REG_INT_MSK reg\n");
                return -EIO;
        }
        err = tps65910_i2c_write_u8(TPS65910_I2C_ID0, 0x03,
                        TPS65910_REG_INT_MSK2);
        if (err) {
                printk(KERN_ERR "Unable to write TPS65910_REG_INT_MSK2 reg\n");
                return -EIO;
        }
        
        /* Set RTC Power, disable Smart Reflex in DEVCTRL_REG */
        val = 0;
        val |= (TPS65910_SR_CTL_I2C_SEL);
        err = tps65910_i2c_write_u8(TPS65910_I2C_ID0, val,
                        TPS65910_REG_DEVCTRL);
        if (err) {
                printk(KERN_ERR "Unable to write TPS65910_REG_DEVCTRL reg\n");
                return -EIO;
        }

        printk(KERN_INFO "TPS65910 Set default voltage.\n");
#if 1
        /* VGIG1 Set the default voltage: 2700 mV */
        val = 0x01;
        val |= (0x03 << 2);
        err = tps65910_i2c_write_u8(TPS65910_I2C_ID0, val, TPS65910_REG_VDIG1);
        if (err) {
                printk(KERN_ERR "Unable to read TPS65910 Reg at offset 0x%x= \
                                \n", TPS65910_REG_VDIG1);
                return -EIO;
        }
#endif

#if 0
        /* VDD1 Set the default voltage: 1150 mV(47)*/
        val = 47;       
        err = tps65910_i2c_write_u8(TPS65910_I2C_ID0, val, TPS65910_REG_VDD1_OP);
        if (err) {
                printk(KERN_ERR "Unable to read TPS65910 Reg at offset 0x%x= \
                                \n", TPS65910_REG_VDD1_OP);
                return -EIO;
        }

        /* VDD2 Set the default voltage: 1087 * 1.25mV(41)*/
        val = 42;       
        err = tps65910_i2c_write_u8(TPS65910_I2C_ID0, val, TPS65910_REG_VDD2_OP);
        if (err) {
                printk(KERN_ERR "Unable to read TPS65910 Reg at offset 0x%x= \
                                \n", TPS65910_REG_VDD2_OP);
                return -EIO;
        }
#endif

        /* initilize all ISR work as NULL, specific driver will
         * assign function(s) later.
         */
        for (i = 0; i < TPS65910_MAX_IRQS; i++)
                pdata->handlers[i] = NULL;

        return 0;
}

struct tps65910_platform_data rk29_tps65910_data = {
        .irq_num        = (unsigned)TPS65910_HOST_IRQ,
        .gpio           = NULL,
        .vio            = &rk29_regulator_vio,
        .vdd1           = &rk29_regulator_vdd1,
        .vdd2           = &rk29_regulator_vdd2,
        .vdd3           = NULL,
        .vdig1          = &rk29_regulator_vdig1,
        .vdig2          = &rk29_regulator_vdig2,
        .vaux33         = &rk29_regulator_vaux33,
        .vmmc           = &rk29_regulator_vmmc,
        .vaux1          = &rk29_regulator_vaux1,
        .vaux2          = &rk29_regulator_vaux2,
        .vdac           = &rk29_regulator_vdac,
        .vpll           = &rk29_regulator_vpll,
        .board_tps65910_config = rk29_tps65910_config,
};
#endif /* CONFIG_TPS65910_CORE */


/*****************************************************************************************
 * i2c devices
 * author: kfx@rock-chips.com
*****************************************************************************************/
static int rk29_i2c0_io_init(void)
{
        rk29_mux_api_set(GPIO2B7_I2C0SCL_NAME, GPIO2L_I2C0_SCL);
        rk29_mux_api_set(GPIO2B6_I2C0SDA_NAME, GPIO2L_I2C0_SDA);
        return 0;
}

static int rk29_i2c1_io_init(void)
{
        rk29_mux_api_set(GPIO1A7_I2C1SCL_NAME, GPIO1L_I2C1_SCL);
        rk29_mux_api_set(GPIO1A6_I2C1SDA_NAME, GPIO1L_I2C1_SDA);
        return 0;
}
static int rk29_i2c2_io_init(void)
{
        rk29_mux_api_set(GPIO5D4_I2C2SCL_NAME, GPIO5H_I2C2_SCL);
        rk29_mux_api_set(GPIO5D3_I2C2SDA_NAME, GPIO5H_I2C2_SDA);
        return 0;
}

static int rk29_i2c3_io_init(void)
{
        rk29_mux_api_set(GPIO2B5_UART3RTSN_I2C3SCL_NAME, GPIO2L_I2C3_SCL);
        rk29_mux_api_set(GPIO2B4_UART3CTSN_I2C3SDA_NAME, GPIO2L_I2C3_SDA);
        return 0;
}

struct rk29_i2c_platform_data default_i2c0_data = {
        .bus_num    = 0,
        .flags      = 0,
        .slave_addr = 0xff,
        .scl_rate  = 400*1000,
        .mode           = I2C_MODE_IRQ,
        .io_init = rk29_i2c0_io_init,
};

struct rk29_i2c_platform_data default_i2c1_data = {
        .bus_num    = 1,
        .flags      = 0,
        .slave_addr = 0xff,
        .scl_rate  = 400*1000,
        .mode           = I2C_MODE_POLL,
        .io_init = rk29_i2c1_io_init,
};

struct rk29_i2c_platform_data default_i2c2_data = {
        .bus_num    = 2,
        .flags      = 0,
        .slave_addr = 0xff,
        .scl_rate  = 400*1000,
        .mode           = I2C_MODE_IRQ,
        .io_init = rk29_i2c2_io_init,
};

struct rk29_i2c_platform_data default_i2c3_data = {
        .bus_num    = 3,
        .flags      = 0,
        .slave_addr = 0xff,
        .scl_rate  = 400*1000,
        .mode           = I2C_MODE_POLL,
        .io_init = rk29_i2c3_io_init,
};

#ifdef CONFIG_I2C0_RK29
static struct i2c_board_info __initdata board_i2c0_devices[] = {
#if defined (CONFIG_RK1000_CONTROL)
        {
                .type                   = "rk1000_control",
                .addr           = 0x40,
                .flags                  = 0,
        },
#endif
#if defined (CONFIG_SND_SOC_RK1000)
        {
                .type                   = "rk1000_i2c_codec",
                .addr           = 0x60,
                .flags                  = 0,
        },
#endif
#if defined (CONFIG_SND_SOC_WM8900)
        {
                .type                   = "wm8900",
                .addr           = 0x1A,
                .flags                  = 0,
        },
#endif
#if defined (CONFIG_BATTERY_STC3100)
        {
                .type                   = "stc3100",
                .addr           = 0x70,
                .flags                  = 0,
        },
#endif
#if defined (CONFIG_BATTERY_BQ27510)
        {
                .type                   = "bq27510",
                .addr           = 0x55,
                .flags                  = 0,
                .platform_data  = &bq27510_info,
        },
#endif
#if defined (CONFIG_RTC_HYM8563)
        {
                .type                   = "rtc_hym8563",
                .addr           = 0x51,
                .flags                  = 0,
                .irq            = RK29_PIN0_PA1,
        },
#endif
#if defined (CONFIG_GS_MMA8452)
    {
      .type           = "gs_mma8452",
      .addr           = 0x1c,
      .flags          = 0,
      .irq            = MMA8452_INT_PIN,
      .platform_data  = &mma8452_info,
    },
#endif
#if defined (CONFIG_SENSORS_AK8973)
        {
                .type                   = "ak8973",
                .addr           = 0x1d,
                .flags                  = 0,
                .irq                    = RK29_PIN0_PA4,
        },
#endif
#if 0//defined (CONFIG_SENSORS_AK8975)
        {
                .type                   = "ak8975",
                .addr           = 0x0d,
                .flags                  = 0,
                .irq                    = RK29_PIN0_PA4,
        },
#endif
/*mpu3050*/
#if defined (CONFIG_SENSORS_MPU3050) 
        {
                .type                   = "mpu3050",
                .addr                   = 0x68,
                .flags                  = 0,
                .irq                    = RK29_PIN5_PA3,
                .platform_data  = &mpu3050_data,
        },
#endif
};
#endif

#ifdef CONFIG_I2C1_RK29
static struct i2c_board_info __initdata board_i2c1_devices[] = {
#if defined (CONFIG_RK1000_CONTROL1)
        {
                .type                   = "rk1000_control",
                .addr                   = 0x40,
                .flags                  = 0,
        },
#endif
#if defined (CONFIG_ANX7150)
    {
                .type           = "anx7150",
        .addr           = 0x39,             //0x39, 0x3d
        .flags          = 0,
        .irq            = RK29_PIN1_PD7,
    },
#endif
#if defined (CONFIG_ATMEL_MXT224)
    {
      .type           = "mXT224_touch",
      .addr           = 0x4B,
      .flags          = 0,
      .irq            = RK29_PIN0_PA2,
    },
#endif
};
#endif

#ifdef CONFIG_I2C2_RK29
static struct i2c_board_info __initdata board_i2c2_devices[] = {
#if defined (CONFIG_HANNSTAR_P1003)
    {
        .type           = "p1003_touch",
        .addr           = 0x04,
        .flags          = 0,
        .irq            = RK29_PIN0_PA2,
        .platform_data  = &p1003_info,
    },
#endif
#if defined (CONFIG_EETI_EGALAX)
    {
        .type           = "egalax_i2c",
        .addr           = 0x04,
        .flags          = 0,
        .irq            = RK29_PIN0_PA2,
        .platform_data  = &eeti_egalax_info,
    },
#endif
#if defined (CONFIG_TPS65910_CORE)
        {
        .type           = "tps659102",
        .addr           = TPS65910_I2C_ID0,
        .flags          = 0,
        .irq            = TPS65910_HOST_IRQ,
        .platform_data  = &rk29_tps65910_data,
        },
#endif
};
#endif

#ifdef CONFIG_I2C3_RK29
static struct i2c_board_info __initdata board_i2c3_devices[] = {
};
#endif

/*****************************************************************************************
 * camera  devices
 * author: ddl@rock-chips.com
 *****************************************************************************************/
#ifdef CONFIG_VIDEO_RK29
#define SENSOR_NAME_0 RK29_CAM_SENSOR_NAME_MT9P111         /* back camera sensor */
#define SENSOR_IIC_ADDR_0           0x78
#define SENSOR_IIC_ADAPTER_ID_0    1
#define SENSOR_POWER_PIN_0         RK29_PIN5_PD7
#define SENSOR_RESET_PIN_0         INVALID_GPIO
#define SENSOR_POWERDN_PIN_0       RK29_PIN1_PB2
#define SENSOR_FALSH_PIN_0         INVALID_GPIO
#define SENSOR_POWERACTIVE_LEVEL_0 RK29_CAM_POWERACTIVE_L
#define SENSOR_RESETACTIVE_LEVEL_0 RK29_CAM_RESETACTIVE_L
#define SENSOR_POWERDNACTIVE_LEVEL_0 RK29_CAM_POWERDNACTIVE_H
#define SENSOR_FLASHACTIVE_LEVEL_0 RK29_CAM_FLASHACTIVE_L

#define SENSOR_NAME_1 RK29_CAM_SENSOR_NAME_S5K6AA          /* front camera sensor */
#define SENSOR_IIC_ADDR_1           0x78
#define SENSOR_IIC_ADAPTER_ID_1    1
#define SENSOR_POWER_PIN_1         INVALID_GPIO
#define SENSOR_RESET_PIN_1         RK29_PIN1_PB3
#define SENSOR_POWERDN_PIN_1       RK29_PIN6_PB7
#define SENSOR_FALSH_PIN_1         INVALID_GPIO
#define SENSOR_POWERACTIVE_LEVEL_1 RK29_CAM_POWERACTIVE_L
#define SENSOR_RESETACTIVE_LEVEL_1 RK29_CAM_RESETACTIVE_L
#define SENSOR_POWERDNACTIVE_LEVEL_1 RK29_CAM_POWERDNACTIVE_L
#define SENSOR_FLASHACTIVE_LEVEL_1 RK29_CAM_FLASHACTIVE_L

static int rk29_sensor_io_init(void);
static int rk29_sensor_io_deinit(int sensor);
static int rk29_sensor_ioctrl(struct device *dev,enum rk29camera_ioctrl_cmd cmd,int on);

static struct rk29camera_platform_data rk29_camera_platform_data = {
    .io_init = rk29_sensor_io_init,
    .io_deinit = rk29_sensor_io_deinit,
    .sensor_ioctrl = rk29_sensor_ioctrl,
    .gpio_res = {
        {
            .gpio_reset = SENSOR_RESET_PIN_0,
            .gpio_power = SENSOR_POWER_PIN_0,
            .gpio_powerdown = SENSOR_POWERDN_PIN_0,
            .gpio_flash = SENSOR_FALSH_PIN_0,
            .gpio_flag = (SENSOR_POWERACTIVE_LEVEL_0|SENSOR_RESETACTIVE_LEVEL_0|SENSOR_POWERDNACTIVE_LEVEL_0|SENSOR_FLASHACTIVE_LEVEL_0),
            .gpio_init = 0,
            .dev_name = SENSOR_NAME_0,
        }, {
            .gpio_reset = SENSOR_RESET_PIN_1,
            .gpio_power = SENSOR_POWER_PIN_1,
            .gpio_powerdown = SENSOR_POWERDN_PIN_1,
            .gpio_flash = SENSOR_FALSH_PIN_1,
            .gpio_flag = (SENSOR_POWERACTIVE_LEVEL_1|SENSOR_RESETACTIVE_LEVEL_1|SENSOR_POWERDNACTIVE_LEVEL_1|SENSOR_FLASHACTIVE_LEVEL_1),
            .gpio_init = 0,
            .dev_name = SENSOR_NAME_1,
        }
    },
        #ifdef CONFIG_VIDEO_RK29_WORK_IPP
        .meminfo = {
            .name  = "camera_ipp_mem",
                .start = MEM_CAMIPP_BASE,
                .size   = MEM_CAMIPP_SIZE,
        }
        #endif
};

static int rk29_sensor_io_init(void)
{
    int ret = 0, i;
    unsigned int camera_reset = INVALID_GPIO, camera_power = INVALID_GPIO;
        unsigned int camera_powerdown = INVALID_GPIO, camera_flash = INVALID_GPIO;
        unsigned int camera_ioflag;

    for (i=0; i<2; i++) {
        camera_reset = rk29_camera_platform_data.gpio_res[i].gpio_reset;
        camera_power = rk29_camera_platform_data.gpio_res[i].gpio_power;
                camera_powerdown = rk29_camera_platform_data.gpio_res[i].gpio_powerdown;
        camera_flash = rk29_camera_platform_data.gpio_res[i].gpio_flash;
                camera_ioflag = rk29_camera_platform_data.gpio_res[i].gpio_flag;
                rk29_camera_platform_data.gpio_res[i].gpio_init = 0;

        if (camera_power != INVALID_GPIO) {
            ret = gpio_request(camera_power, "camera power");
            if (ret)
                                goto sensor_io_int_loop_end;
                        rk29_camera_platform_data.gpio_res[i].gpio_init |= RK29_CAM_POWERACTIVE_MASK;
            gpio_set_value(camera_reset, (((~camera_ioflag)&RK29_CAM_POWERACTIVE_MASK)>>RK29_CAM_POWERACTIVE_BITPOS));
            gpio_direction_output(camera_power, (((~camera_ioflag)&RK29_CAM_POWERACTIVE_MASK)>>RK29_CAM_POWERACTIVE_BITPOS));

                        //printk("\n%s....power pin(%d) init success(0x%x)  \n",__FUNCTION__,camera_power,(((~camera_ioflag)&RK29_CAM_POWERACTIVE_MASK)>>RK29_CAM_POWERACTIVE_BITPOS));

        }

        if (camera_reset != INVALID_GPIO) {
            ret = gpio_request(camera_reset, "camera reset");
            if (ret)
                                goto sensor_io_int_loop_end;
                        rk29_camera_platform_data.gpio_res[i].gpio_init |= RK29_CAM_RESETACTIVE_MASK;
            gpio_set_value(camera_reset, ((camera_ioflag&RK29_CAM_RESETACTIVE_MASK)>>RK29_CAM_RESETACTIVE_BITPOS));
            gpio_direction_output(camera_reset, ((camera_ioflag&RK29_CAM_RESETACTIVE_MASK)>>RK29_CAM_RESETACTIVE_BITPOS));

                        //printk("\n%s....reset pin(%d) init success(0x%x)\n",__FUNCTION__,camera_reset,((camera_ioflag&RK29_CAM_RESETACTIVE_MASK)>>RK29_CAM_RESETACTIVE_BITPOS));

        }

                if (camera_powerdown != INVALID_GPIO) {
            ret = gpio_request(camera_powerdown, "camera powerdown");
            if (ret)
                                goto sensor_io_int_loop_end;
                        rk29_camera_platform_data.gpio_res[i].gpio_init |= RK29_CAM_POWERDNACTIVE_MASK;
            gpio_set_value(camera_powerdown, ((camera_ioflag&RK29_CAM_POWERDNACTIVE_MASK)>>RK29_CAM_POWERDNACTIVE_BITPOS));
            gpio_direction_output(camera_powerdown, ((camera_ioflag&RK29_CAM_POWERDNACTIVE_MASK)>>RK29_CAM_POWERDNACTIVE_BITPOS));

                        //printk("\n%s....powerdown pin(%d) init success(0x%x) \n",__FUNCTION__,camera_powerdown,((camera_ioflag&RK29_CAM_POWERDNACTIVE_BITPOS)>>RK29_CAM_POWERDNACTIVE_BITPOS));

        }

                if (camera_flash != INVALID_GPIO) {
            ret = gpio_request(camera_flash, "camera flash");
            if (ret)
                                goto sensor_io_int_loop_end;
                        rk29_camera_platform_data.gpio_res[i].gpio_init |= RK29_CAM_FLASHACTIVE_MASK;
            gpio_set_value(camera_flash, ((camera_ioflag&RK29_CAM_FLASHACTIVE_MASK)>>RK29_CAM_FLASHACTIVE_BITPOS));
            gpio_direction_output(camera_flash, ((camera_ioflag&RK29_CAM_FLASHACTIVE_MASK)>>RK29_CAM_FLASHACTIVE_BITPOS));

                        //printk("\n%s....flash pin(%d) init success(0x%x) \n",__FUNCTION__,camera_flash,((camera_ioflag&RK29_CAM_FLASHACTIVE_MASK)>>RK29_CAM_FLASHACTIVE_BITPOS));

        }
                continue;
sensor_io_int_loop_end:
                rk29_sensor_io_deinit(i);
                continue;
    }

    return 0;
}

static int rk29_sensor_io_deinit(int sensor)
{
    unsigned int camera_reset = INVALID_GPIO, camera_power = INVALID_GPIO;
        unsigned int camera_powerdown = INVALID_GPIO, camera_flash = INVALID_GPIO;

    camera_reset = rk29_camera_platform_data.gpio_res[sensor].gpio_reset;
    camera_power = rk29_camera_platform_data.gpio_res[sensor].gpio_power;
        camera_powerdown = rk29_camera_platform_data.gpio_res[sensor].gpio_powerdown;
    camera_flash = rk29_camera_platform_data.gpio_res[sensor].gpio_flash;

        if (rk29_camera_platform_data.gpio_res[sensor].gpio_init & RK29_CAM_POWERACTIVE_MASK) {
            if (camera_power != INVALID_GPIO) {
                gpio_direction_input(camera_power);
                gpio_free(camera_power);
            }
        }

        if (rk29_camera_platform_data.gpio_res[sensor].gpio_init & RK29_CAM_RESETACTIVE_MASK) {
            if (camera_reset != INVALID_GPIO)  {
                gpio_direction_input(camera_reset);
                gpio_free(camera_reset);
            }
        }

        if (rk29_camera_platform_data.gpio_res[sensor].gpio_init & RK29_CAM_POWERDNACTIVE_MASK) {
            if (camera_powerdown != INVALID_GPIO)  {
                gpio_direction_input(camera_powerdown);
                gpio_free(camera_powerdown);
            }
        }

        if (rk29_camera_platform_data.gpio_res[sensor].gpio_init & RK29_CAM_FLASHACTIVE_MASK) {
            if (camera_flash != INVALID_GPIO)  {
                gpio_direction_input(camera_flash);
                gpio_free(camera_flash);
            }
        }

        rk29_camera_platform_data.gpio_res[sensor].gpio_init = 0;
    return 0;
}
static int rk29_sensor_ioctrl(struct device *dev,enum rk29camera_ioctrl_cmd cmd, int on)
{
    unsigned int camera_power=INVALID_GPIO,camera_reset=INVALID_GPIO, camera_powerdown=INVALID_GPIO,camera_flash = INVALID_GPIO;
        unsigned int camera_ioflag,camera_io_init;
        int ret = RK29_CAM_IO_SUCCESS;

    if(rk29_camera_platform_data.gpio_res[0].dev_name &&  (strcmp(rk29_camera_platform_data.gpio_res[0].dev_name, dev_name(dev)) == 0)) {
                camera_power = rk29_camera_platform_data.gpio_res[0].gpio_power;
                camera_reset = rk29_camera_platform_data.gpio_res[0].gpio_reset;
        camera_powerdown = rk29_camera_platform_data.gpio_res[0].gpio_powerdown;
                camera_flash = rk29_camera_platform_data.gpio_res[0].gpio_flash;
                camera_ioflag = rk29_camera_platform_data.gpio_res[0].gpio_flag;
                camera_io_init = rk29_camera_platform_data.gpio_res[0].gpio_init;
    } else if (rk29_camera_platform_data.gpio_res[1].dev_name && (strcmp(rk29_camera_platform_data.gpio_res[1].dev_name, dev_name(dev)) == 0)) {
        camera_power = rk29_camera_platform_data.gpio_res[1].gpio_power;
        camera_reset = rk29_camera_platform_data.gpio_res[1].gpio_reset;
        camera_powerdown = rk29_camera_platform_data.gpio_res[1].gpio_powerdown;
                camera_flash = rk29_camera_platform_data.gpio_res[1].gpio_flash;
                camera_ioflag = rk29_camera_platform_data.gpio_res[1].gpio_flag;
                camera_io_init = rk29_camera_platform_data.gpio_res[1].gpio_init;
    }

        switch (cmd)
        {
                case Cam_Power:
                {
                        if (camera_power != INVALID_GPIO)  {
                                if (camera_io_init & RK29_CAM_POWERACTIVE_MASK) {
                                if (on) {
                                        gpio_set_value(camera_power, ((camera_ioflag&RK29_CAM_POWERACTIVE_MASK)>>RK29_CAM_POWERACTIVE_BITPOS));
                                                //printk("\n%s..%s..PowerPin=%d ..PinLevel = %x   \n",__FUNCTION__,dev_name(dev), camera_power, ((camera_ioflag&RK29_CAM_POWERACTIVE_MASK)>>RK29_CAM_POWERACTIVE_BITPOS));
                                                msleep(10);
                                        } else {
                                                gpio_set_value(camera_power, (((~camera_ioflag)&RK29_CAM_POWERACTIVE_MASK)>>RK29_CAM_POWERACTIVE_BITPOS));
                                                //printk("\n%s..%s..PowerPin=%d ..PinLevel = %x   \n",__FUNCTION__,dev_name(dev), camera_power, (((~camera_ioflag)&RK29_CAM_POWERACTIVE_MASK)>>RK29_CAM_POWERACTIVE_BITPOS));
                                        }
                                } else {
                                        ret = RK29_CAM_EIO_REQUESTFAIL;
                                        printk("\n%s..%s..PowerPin=%d request failed!\n",__FUNCTION__,dev_name(dev),camera_reset);
                                }
                    } else {
                                ret = RK29_CAM_EIO_INVALID;
                    }
                        break;
                }
                case Cam_Reset:
                {
                        if (camera_reset != INVALID_GPIO) {
                                if (camera_io_init & RK29_CAM_RESETACTIVE_MASK) {
                                        if (on) {
                                        gpio_set_value(camera_reset, ((camera_ioflag&RK29_CAM_RESETACTIVE_MASK)>>RK29_CAM_RESETACTIVE_BITPOS));
                                        //printk("\n%s..%s..ResetPin=%d ..PinLevel = %x \n",__FUNCTION__,dev_name(dev),camera_reset, ((camera_ioflag&RK29_CAM_RESETACTIVE_MASK)>>RK29_CAM_RESETACTIVE_BITPOS));
                                        } else {
                                                gpio_set_value(camera_reset,(((~camera_ioflag)&RK29_CAM_RESETACTIVE_MASK)>>RK29_CAM_RESETACTIVE_BITPOS));
                                        //printk("\n%s..%s..ResetPin= %d..PinLevel = %x   \n",__FUNCTION__,dev_name(dev), camera_reset, (((~camera_ioflag)&RK29_CAM_RESETACTIVE_MASK)>>RK29_CAM_RESETACTIVE_BITPOS));
                                }
                                } else {
                                        ret = RK29_CAM_EIO_REQUESTFAIL;
                                        printk("\n%s..%s..ResetPin=%d request failed!\n",__FUNCTION__,dev_name(dev),camera_reset);
                                }
                    } else {
                                ret = RK29_CAM_EIO_INVALID;
                    }
                        break;
                }

                case Cam_PowerDown:
                {
                        if (camera_powerdown != INVALID_GPIO) {
                                if (camera_io_init & RK29_CAM_POWERDNACTIVE_MASK) {
                                        if (on) {
                                        gpio_set_value(camera_powerdown, ((camera_ioflag&RK29_CAM_POWERDNACTIVE_MASK)>>RK29_CAM_POWERDNACTIVE_BITPOS));
                                        //printk("\n%s..%s..PowerDownPin=%d ..PinLevel = %x \n",__FUNCTION__,dev_name(dev),camera_powerdown, ((camera_ioflag&RK29_CAM_POWERDNACTIVE_MASK)>>RK29_CAM_POWERDNACTIVE_BITPOS));
                                        } else {
                                                gpio_set_value(camera_powerdown,(((~camera_ioflag)&RK29_CAM_POWERDNACTIVE_MASK)>>RK29_CAM_POWERDNACTIVE_BITPOS));
                                        //printk("\n%s..%s..PowerDownPin= %d..PinLevel = %x   \n",__FUNCTION__,dev_name(dev), camera_powerdown, (((~camera_ioflag)&RK29_CAM_POWERDNACTIVE_MASK)>>RK29_CAM_POWERDNACTIVE_BITPOS));
                                }
                                } else {
                                        ret = RK29_CAM_EIO_REQUESTFAIL;
                                        printk("\n%s..%s..PowerDownPin=%d request failed!\n",__FUNCTION__,dev_name(dev),camera_powerdown);
                                }
                    } else {
                                ret = RK29_CAM_EIO_INVALID;
                    }
                        break;
                }

                case Cam_Flash:
                {
                        if (camera_flash != INVALID_GPIO) {
                                if (camera_io_init & RK29_CAM_FLASHACTIVE_MASK) {
                                        if (on) {
                                        gpio_set_value(camera_flash, ((camera_ioflag&RK29_CAM_FLASHACTIVE_MASK)>>RK29_CAM_FLASHACTIVE_BITPOS));
                                        //printk("\n%s..%s..FlashPin=%d ..PinLevel = %x \n",__FUNCTION__,dev_name(dev),camera_flash, ((camera_ioflag&RK29_CAM_FLASHACTIVE_MASK)>>RK29_CAM_FLASHACTIVE_BITPOS));
                                        } else {
                                                gpio_set_value(camera_flash,(((~camera_ioflag)&RK29_CAM_FLASHACTIVE_MASK)>>RK29_CAM_FLASHACTIVE_BITPOS));
                                        //printk("\n%s..%s..FlashPin= %d..PinLevel = %x   \n",__FUNCTION__,dev_name(dev), camera_flash, (((~camera_ioflag)&RK29_CAM_FLASHACTIVE_MASK)>>RK29_CAM_FLASHACTIVE_BITPOS));
                                }
                                } else {
                                        ret = RK29_CAM_EIO_REQUESTFAIL;
                                        printk("\n%s..%s..FlashPin=%d request failed!\n",__FUNCTION__,dev_name(dev),camera_flash);
                                }
                    } else {
                                ret = RK29_CAM_EIO_INVALID;
                    }
                        break;
                }

                default:
                {
                        printk("%s cmd(0x%x) is unknown!\n",__FUNCTION__, cmd);
                        break;
                }
        }
    return ret;
}
static int rk29_sensor_power(struct device *dev, int on)
{
        rk29_sensor_ioctrl(dev,Cam_Power,on);
    return 0;
}
static int rk29_sensor_reset(struct device *dev)
{
        rk29_sensor_ioctrl(dev,Cam_Reset,1);
        msleep(2);
        rk29_sensor_ioctrl(dev,Cam_Reset,0);
        return 0;
}
static int rk29_sensor_powerdown(struct device *dev, int on)
{
        return rk29_sensor_ioctrl(dev,Cam_PowerDown,on);
}
#if (SENSOR_IIC_ADDR_0 != 0x00)
static struct i2c_board_info rk29_i2c_cam_info_0[] = {
        {
                I2C_BOARD_INFO(SENSOR_NAME_0, SENSOR_IIC_ADDR_0>>1)
        },
};

static struct soc_camera_link rk29_iclink_0 = {
        .bus_id         = RK29_CAM_PLATFORM_DEV_ID,
        .power          = rk29_sensor_power,
        .powerdown  = rk29_sensor_powerdown,
        .board_info     = &rk29_i2c_cam_info_0[0],
        .i2c_adapter_id = SENSOR_IIC_ADAPTER_ID_0,
        .module_name    = SENSOR_NAME_0,
};

/*platform_device : soc-camera need  */
static struct platform_device rk29_soc_camera_pdrv_0 = {
        .name   = "soc-camera-pdrv",
        .id     = 0,
        .dev    = {
                .init_name = SENSOR_NAME_0,
                .platform_data = &rk29_iclink_0,
        },
};
#endif
#if (SENSOR_IIC_ADDR_1 != 0x00)
static struct i2c_board_info rk29_i2c_cam_info_1[] = {
        {
                I2C_BOARD_INFO(SENSOR_NAME_1, SENSOR_IIC_ADDR_1>>1)
        },
};

static struct soc_camera_link rk29_iclink_1 = {
        .bus_id         = RK29_CAM_PLATFORM_DEV_ID,
        .power          = rk29_sensor_power,
        .powerdown  = rk29_sensor_powerdown,
        .board_info     = &rk29_i2c_cam_info_1[0],
        .i2c_adapter_id = SENSOR_IIC_ADAPTER_ID_1,
        .module_name    = SENSOR_NAME_1,
};

/*platform_device : soc-camera need  */
static struct platform_device rk29_soc_camera_pdrv_1 = {
        .name   = "soc-camera-pdrv",
        .id     = 1,
        .dev    = {
                .init_name = SENSOR_NAME_1,
                .platform_data = &rk29_iclink_1,
        },
};
#endif

static u64 rockchip_device_camera_dmamask = 0xffffffffUL;
static struct resource rk29_camera_resource[] = {
        [0] = {
                .start = RK29_VIP_PHYS,
                .end   = RK29_VIP_PHYS + RK29_VIP_SIZE - 1,
                .flags = IORESOURCE_MEM,
        },
        [1] = {
                .start = IRQ_VIP,
                .end   = IRQ_VIP,
                .flags = IORESOURCE_IRQ,
        }
};

/*platform_device : */
static struct platform_device rk29_device_camera = {
        .name             = RK29_CAM_DRV_NAME,
        .id               = RK29_CAM_PLATFORM_DEV_ID,               /* This is used to put cameras on this interface */
        .num_resources    = ARRAY_SIZE(rk29_camera_resource),
        .resource         = rk29_camera_resource,
        .dev            = {
                .dma_mask = &rockchip_device_camera_dmamask,
                .coherent_dma_mask = 0xffffffffUL,
                .platform_data  = &rk29_camera_platform_data,
        }
};
#endif
/*****************************************************************************************
 * backlight  devices
 * author: nzy@rock-chips.com
 *****************************************************************************************/
#ifdef CONFIG_BACKLIGHT_RK29_BL
 /*
 GPIO1B5_PWM0_NAME,       GPIO1L_PWM0
 GPIO5D2_PWM1_UART1SIRIN_NAME,  GPIO5H_PWM1
 GPIO2A3_SDMMC0WRITEPRT_PWM2_NAME,   GPIO2L_PWM2
 GPIO1A5_EMMCPWREN_PWM3_NAME,     GPIO1L_PWM3
 */

#define PWM_ID            0
#define PWM_MUX_NAME      GPIO1B5_PWM0_NAME
#define PWM_MUX_MODE      GPIO1L_PWM0
#define PWM_MUX_MODE_GPIO GPIO1L_GPIO1B5
#define PWM_GPIO RK29_PIN1_PB5
#define PWM_EFFECT_VALUE  0

//#define LCD_DISP_ON_PIN

#ifdef  LCD_DISP_ON_PIN
#define BL_EN_MUX_NAME    GPIOF34_UART3_SEL_NAME
#define BL_EN_MUX_MODE    IOMUXB_GPIO1_B34

#define BL_EN_PIN         GPIO0L_GPIO0A5
#define BL_EN_VALUE       GPIO_HIGH
#endif
static int rk29_backlight_io_init(void)
{
    int ret = 0;

    rk29_mux_api_set(PWM_MUX_NAME, PWM_MUX_MODE);
        #ifdef  LCD_DISP_ON_PIN
    rk29_mux_api_set(BL_EN_MUX_NAME, BL_EN_MUX_MODE);

    ret = gpio_request(BL_EN_PIN, NULL);
    if(ret != 0)
    {
        gpio_free(BL_EN_PIN);
    }

    gpio_direction_output(BL_EN_PIN, 0);
    gpio_set_value(BL_EN_PIN, BL_EN_VALUE);
        #endif
    return ret;
}

static int rk29_backlight_io_deinit(void)
{
    int ret = 0;
    #ifdef  LCD_DISP_ON_PIN
    gpio_free(BL_EN_PIN);
    #endif
    rk29_mux_api_set(PWM_MUX_NAME, PWM_MUX_MODE_GPIO);
    return ret;
}

static int rk29_backlight_pwm_suspend(void)
{
        int ret = 0;
        rk29_mux_api_set(PWM_MUX_NAME, PWM_MUX_MODE_GPIO);
        if (ret = gpio_request(PWM_GPIO, NULL)) {
                printk("func %s, line %d: request gpio fail\n", __FUNCTION__, __LINE__);
                return -1;
        }
        gpio_direction_output(PWM_GPIO, GPIO_LOW);
        return ret;
}

static int rk29_backlight_pwm_resume(void)
{
        gpio_free(PWM_GPIO);
        rk29_mux_api_set(PWM_MUX_NAME, PWM_MUX_MODE);
        return 0;
}

struct rk29_bl_info rk29_bl_info = {
    .pwm_id   = PWM_ID,
    .bl_ref   = PWM_EFFECT_VALUE,
    .io_init   = rk29_backlight_io_init,
    .io_deinit = rk29_backlight_io_deinit,
    .pwm_suspend = rk29_backlight_pwm_suspend,
    .pwm_resume = rk29_backlight_pwm_resume,
};
#endif
/*****************************************************************************************
* pwm voltage regulator devices
******************************************************************************************/
#if defined (CONFIG_RK29_PWM_REGULATOR)

#define REGULATOR_PWM_ID                                        2
#define REGULATOR_PWM_MUX_NAME                  GPIO2A3_SDMMC0WRITEPRT_PWM2_NAME
#define REGULATOR_PWM_MUX_MODE                                          GPIO2L_PWM2
#define REGULATOR_PWM_MUX_MODE_GPIO                             GPIO2L_GPIO2A3
#define REGULATOR_PWM_GPIO                              RK29_PIN2_PA3

static struct regulator_consumer_supply pwm_consumers[] = {
        {
                .supply = "vcore",
        }
};

static struct regulator_init_data rk29_pwm_regulator_data = {
        .constraints = {
                .name = "PWM2",
                .min_uV =  950000,
                .max_uV = 1400000,
                .apply_uV = 1,
                .valid_ops_mask = REGULATOR_CHANGE_STATUS | REGULATOR_CHANGE_VOLTAGE,
        },
        .num_consumer_supplies = ARRAY_SIZE(pwm_consumers),
        .consumer_supplies = pwm_consumers,
};

static struct pwm_platform_data rk29_regulator_pwm_platform_data = {
        .pwm_id = REGULATOR_PWM_ID,
        .pwm_gpio = REGULATOR_PWM_GPIO,
        //.pwm_iomux_name[] = REGULATOR_PWM_MUX_NAME;
        .pwm_iomux_name = REGULATOR_PWM_MUX_NAME,
        .pwm_iomux_pwm = REGULATOR_PWM_MUX_MODE,
        .pwm_iomux_gpio = REGULATOR_PWM_MUX_MODE_GPIO,
        .init_data  = &rk29_pwm_regulator_data,
};

static struct platform_device rk29_device_pwm_regulator = {
        .name = "pwm-voltage-regulator",
        .id   = -1,
        .dev  = {
                .platform_data = &rk29_regulator_pwm_platform_data,
        },
};

#endif


/*****************************************************************************************
 * SDMMC devices
*****************************************************************************************/
#ifdef CONFIG_SDMMC0_RK29
static int rk29_sdmmc0_cfg_gpio(void)
{
        rk29_mux_api_set(GPIO1D1_SDMMC0CMD_NAME, GPIO1H_SDMMC0_CMD);
        rk29_mux_api_set(GPIO1D0_SDMMC0CLKOUT_NAME, GPIO1H_SDMMC0_CLKOUT);
        rk29_mux_api_set(GPIO1D2_SDMMC0DATA0_NAME, GPIO1H_SDMMC0_DATA0);
        rk29_mux_api_set(GPIO1D3_SDMMC0DATA1_NAME, GPIO1H_SDMMC0_DATA1);
        rk29_mux_api_set(GPIO1D4_SDMMC0DATA2_NAME, GPIO1H_SDMMC0_DATA2);
        rk29_mux_api_set(GPIO1D5_SDMMC0DATA3_NAME, GPIO1H_SDMMC0_DATA3);
        rk29_mux_api_set(GPIO2A2_SDMMC0DETECTN_NAME, GPIO2L_SDMMC0_DETECT_N);
        rk29_mux_api_set(GPIO5D5_SDMMC0PWREN_NAME, GPIO5H_GPIO5D5);   ///GPIO5H_SDMMC0_PWR_EN);  ///GPIO5H_GPIO5D5);
        gpio_request(RK29_PIN5_PD5,"sdmmc");
#if 0
        gpio_set_value(RK29_PIN5_PD5,GPIO_HIGH);
        mdelay(100);
        gpio_set_value(RK29_PIN5_PD5,GPIO_LOW);
#else
        gpio_direction_output(RK29_PIN5_PD5,GPIO_LOW);
#endif
        return 0;
}

#define CONFIG_SDMMC0_USE_DMA
struct rk29_sdmmc_platform_data default_sdmmc0_data = {
        .host_ocr_avail = (MMC_VDD_25_26|MMC_VDD_26_27|MMC_VDD_27_28|MMC_VDD_28_29|MMC_VDD_29_30|
                                           MMC_VDD_30_31|MMC_VDD_31_32|MMC_VDD_32_33|
                                           MMC_VDD_33_34|MMC_VDD_34_35| MMC_VDD_35_36),
        .host_caps      = (MMC_CAP_4_BIT_DATA|MMC_CAP_MMC_HIGHSPEED|MMC_CAP_SD_HIGHSPEED),
        .io_init = rk29_sdmmc0_cfg_gpio,
        .dma_name = "sd_mmc",
#ifdef CONFIG_SDMMC0_USE_DMA
        .use_dma  = 1,
#else
        .use_dma = 0,
#endif
        .detect_irq = RK29_PIN2_PA2 // INVALID_GPIO
};
#endif
#ifdef CONFIG_SDMMC1_RK29
#define CONFIG_SDMMC1_USE_DMA
static int rk29_sdmmc1_cfg_gpio(void)
{
        rk29_mux_api_set(GPIO1C2_SDMMC1CMD_NAME, GPIO1H_SDMMC1_CMD);
        rk29_mux_api_set(GPIO1C7_SDMMC1CLKOUT_NAME, GPIO1H_SDMMC1_CLKOUT);
        rk29_mux_api_set(GPIO1C3_SDMMC1DATA0_NAME, GPIO1H_SDMMC1_DATA0);
        rk29_mux_api_set(GPIO1C4_SDMMC1DATA1_NAME, GPIO1H_SDMMC1_DATA1);
        rk29_mux_api_set(GPIO1C5_SDMMC1DATA2_NAME, GPIO1H_SDMMC1_DATA2);
        rk29_mux_api_set(GPIO1C6_SDMMC1DATA3_NAME, GPIO1H_SDMMC1_DATA3);
        //rk29_mux_api_set(GPIO1C0_UART0CTSN_SDMMC1DETECTN_NAME, GPIO1H_SDMMC1_DETECT_N);
        return 0;
}

#ifdef CONFIG_WIFI_CONTROL_FUNC
static int rk29sdk_wifi_status(struct device *dev);
static int rk29sdk_wifi_status_register(void (*callback)(int card_presend, void *dev_id), void *dev_id);
#endif

#define RK29SDK_WIFI_SDIO_CARD_DETECT_N    RK29_PIN1_PD6

struct rk29_sdmmc_platform_data default_sdmmc1_data = {
        .host_ocr_avail = (MMC_VDD_25_26|MMC_VDD_26_27|MMC_VDD_27_28|MMC_VDD_28_29|
                                           MMC_VDD_29_30|MMC_VDD_30_31|MMC_VDD_31_32|
                                           MMC_VDD_32_33|MMC_VDD_33_34),
        .host_caps      = (MMC_CAP_4_BIT_DATA|MMC_CAP_SDIO_IRQ|
                                   MMC_CAP_MMC_HIGHSPEED|MMC_CAP_SD_HIGHSPEED),
        .io_init = rk29_sdmmc1_cfg_gpio,
        .dma_name = "sdio",
#ifdef CONFIG_SDMMC1_USE_DMA
        .use_dma  = 1,
#else
        .use_dma = 0,
#endif
#ifdef CONFIG_WIFI_CONTROL_FUNC
        .status = rk29sdk_wifi_status,
        .register_status_notify = rk29sdk_wifi_status_register,
#endif
#if 0
        .detect_irq = RK29SDK_WIFI_SDIO_CARD_DETECT_N,
#endif
};
#endif

#ifdef CONFIG_WIFI_CONTROL_FUNC
#define RK29SDK_WIFI_BT_GPIO_POWER_N       RK29_PIN5_PD6
#define RK29SDK_WIFI_GPIO_RESET_N          RK29_PIN6_PC0
#define RK29SDK_BT_GPIO_RESET_N            RK29_PIN6_PC4

static int rk29sdk_wifi_cd = 0;   /* wifi virtual 'card detect' status */
static void (*wifi_status_cb)(int card_present, void *dev_id);
static void *wifi_status_cb_devid;
int rk29sdk_wifi_power_state = 0;
int rk29sdk_bt_power_state = 0;

static int rk29sdk_wifi_status(struct device *dev)
{
        return rk29sdk_wifi_cd;
}

static int rk29sdk_wifi_status_register(void (*callback)(int card_present, void *dev_id), void *dev_id)
{
        if(wifi_status_cb)
                return -EAGAIN;
        wifi_status_cb = callback;
        wifi_status_cb_devid = dev_id;
        return 0;
}

static int rk29sdk_wifi_bt_gpio_control_init(void)
{
    if (gpio_request(RK29SDK_WIFI_BT_GPIO_POWER_N, "wifi_bt_power")) {
           pr_info("%s: request wifi_bt power gpio failed\n", __func__);
           return -1;
    }

    if (gpio_request(RK29SDK_WIFI_GPIO_RESET_N, "wifi reset")) {
           pr_info("%s: request wifi reset gpio failed\n", __func__);
           gpio_free(RK29SDK_WIFI_BT_GPIO_POWER_N);
           return -1;
    }

    if (gpio_request(RK29SDK_BT_GPIO_RESET_N, "bt reset")) {
          pr_info("%s: request bt reset gpio failed\n", __func__);
          gpio_free(RK29SDK_WIFI_GPIO_RESET_N);
          return -1;
    }

    gpio_direction_output(RK29SDK_WIFI_BT_GPIO_POWER_N, GPIO_LOW);
    gpio_direction_output(RK29SDK_WIFI_GPIO_RESET_N,    GPIO_LOW);
    gpio_direction_output(RK29SDK_BT_GPIO_RESET_N,      GPIO_LOW);

    pr_info("%s: init finished\n",__func__);

    return 0;
}

static int rk29sdk_wifi_power(int on)
{
        pr_info("%s: %d\n", __func__, on);
        if (on){
                gpio_set_value(RK29SDK_WIFI_BT_GPIO_POWER_N, GPIO_HIGH);
                gpio_set_value(RK29SDK_WIFI_GPIO_RESET_N, GPIO_HIGH);
                mdelay(100);
                pr_info("wifi turn on power\n");
        }else{
                if (!rk29sdk_bt_power_state){
                        gpio_set_value(RK29SDK_WIFI_BT_GPIO_POWER_N, GPIO_LOW);
                        mdelay(100);
                        pr_info("wifi shut off power\n");
                }else
                {
                        pr_info("wifi shouldn't shut off power, bt is using it!\n");
                }
                gpio_set_value(RK29SDK_WIFI_GPIO_RESET_N, GPIO_LOW);

        }

        rk29sdk_wifi_power_state = on;
        return 0;
}

static int rk29sdk_wifi_reset_state;
static int rk29sdk_wifi_reset(int on)
{
        pr_info("%s: %d\n", __func__, on);
        gpio_set_value(RK29SDK_WIFI_GPIO_RESET_N, on);
        mdelay(100);
        rk29sdk_wifi_reset_state = on;
        return 0;
}

int rk29sdk_wifi_set_carddetect(int val)
{
        pr_info("%s:%d\n", __func__, val);
        rk29sdk_wifi_cd = val;
        if (wifi_status_cb){
                wifi_status_cb(val, wifi_status_cb_devid);
        }else {
                pr_warning("%s, nobody to notify\n", __func__);
        }
        return 0;
}
EXPORT_SYMBOL(rk29sdk_wifi_set_carddetect);

static struct wifi_mem_prealloc wifi_mem_array[PREALLOC_WLAN_SEC_NUM] = {
        {NULL, (WLAN_SECTION_SIZE_0 + PREALLOC_WLAN_SECTION_HEADER)},
        {NULL, (WLAN_SECTION_SIZE_1 + PREALLOC_WLAN_SECTION_HEADER)},
        {NULL, (WLAN_SECTION_SIZE_2 + PREALLOC_WLAN_SECTION_HEADER)},
        {NULL, (WLAN_SECTION_SIZE_3 + PREALLOC_WLAN_SECTION_HEADER)}
};

static void *rk29sdk_mem_prealloc(int section, unsigned long size)
{
        if (section == PREALLOC_WLAN_SEC_NUM)
                return wlan_static_skb;

        if ((section < 0) || (section > PREALLOC_WLAN_SEC_NUM))
                return NULL;

        if (wifi_mem_array[section].size < size)
                return NULL;

        return wifi_mem_array[section].mem_ptr;
}

int __init rk29sdk_init_wifi_mem(void)
{
        int i;
        int j;

        for (i = 0 ; i < WLAN_SKB_BUF_NUM ; i++) {
                wlan_static_skb[i] = dev_alloc_skb(
                                ((i < (WLAN_SKB_BUF_NUM / 2)) ? 4096 : 8192));

                if (!wlan_static_skb[i])
                        goto err_skb_alloc;
        }

        for (i = 0 ; i < PREALLOC_WLAN_SEC_NUM ; i++) {
                wifi_mem_array[i].mem_ptr =
                                kmalloc(wifi_mem_array[i].size, GFP_KERNEL);

                if (!wifi_mem_array[i].mem_ptr)
                        goto err_mem_alloc;
        }
        return 0;

err_mem_alloc:
        pr_err("Failed to mem_alloc for WLAN\n");
        for (j = 0 ; j < i ; j++)
               kfree(wifi_mem_array[j].mem_ptr);

        i = WLAN_SKB_BUF_NUM;

err_skb_alloc:
        pr_err("Failed to skb_alloc for WLAN\n");
        for (j = 0 ; j < i ; j++)
                dev_kfree_skb(wlan_static_skb[j]);

        return -ENOMEM;
}

static struct wifi_platform_data rk29sdk_wifi_control = {
        .set_power = rk29sdk_wifi_power,
        .set_reset = rk29sdk_wifi_reset,
        .set_carddetect = rk29sdk_wifi_set_carddetect,
        .mem_prealloc   = rk29sdk_mem_prealloc,
};
static struct platform_device rk29sdk_wifi_device = {
        .name = "bcm4329_wlan",
        .id = 1,
        .dev = {
                .platform_data = &rk29sdk_wifi_control,
         },
};
#endif


/* bluetooth rfkill device */
static struct platform_device rk29sdk_rfkill = {
        .name = "rk29sdk_rfkill",
        .id = -1,
};


#ifdef CONFIG_VIVANTE
static struct resource resources_gpu[] = {
    [0] = {
                .name   = "gpu_irq",
        .start  = IRQ_GPU,
        .end    = IRQ_GPU,
        .flags  = IORESOURCE_IRQ,
    },
    [1] = {
                .name = "gpu_base",
        .start  = RK29_GPU_PHYS,
        .end    = RK29_GPU_PHYS + RK29_GPU_SIZE,
        .flags  = IORESOURCE_MEM,
    },
    [2] = {
                .name = "gpu_mem",
        .start  = PMEM_GPU_BASE,
        .end    = PMEM_GPU_BASE + PMEM_GPU_SIZE,
        .flags  = IORESOURCE_MEM,
    },
};
static struct platform_device rk29_device_gpu = {
    .name             = "galcore",
    .id               = 0,
    .num_resources    = ARRAY_SIZE(resources_gpu),
    .resource         = resources_gpu,
};
#endif
#ifdef CONFIG_KEYS_RK29
extern struct rk29_keys_platform_data rk29_keys_pdata;
static struct platform_device rk29_device_keys = {
        .name           = "rk29-keypad",
        .id             = -1,
        .dev            = {
                .platform_data  = &rk29_keys_pdata,
        },
};
#endif

static void __init rk29_board_iomux_init(void)
{
        #ifdef CONFIG_RK29_PWM_REGULATOR
        rk29_mux_api_set(REGULATOR_PWM_MUX_NAME,REGULATOR_PWM_MUX_MODE);
        #endif
        #if defined (CONFIG_TPS65910_CORE)
    rk29_mux_api_set(GPIO4D32_CPUTRACEDATA32_NAME, GPIO4H_GPIO4D32);
        #endif
}

static struct platform_device *devices[] __initdata = {
#ifdef CONFIG_UART1_RK29
        &rk29_device_uart1,
#endif
#ifdef CONFIG_UART0_RK29
        &rk29_device_uart0,
#endif
#ifdef CONFIG_UART2_RK29
        &rk29_device_uart2,
#endif
#ifdef CONFIG_UART3_RK29
        &rk29_device_uart3,
#endif

#ifdef CONFIG_RK29_PWM_REGULATOR
        &rk29_device_pwm_regulator,
#endif
#ifdef CONFIG_SPIM0_RK29
    &rk29xx_device_spi0m,
#endif
#ifdef CONFIG_SPIM1_RK29
    &rk29xx_device_spi1m,
#endif
#ifdef CONFIG_ADC_RK29
        &rk29_device_adc,
#endif
#ifdef CONFIG_I2C0_RK29
        &rk29_device_i2c0,
#endif
#ifdef CONFIG_I2C1_RK29
        &rk29_device_i2c1,
#endif
#ifdef CONFIG_I2C2_RK29
        &rk29_device_i2c2,
#endif
#ifdef CONFIG_I2C3_RK29
        &rk29_device_i2c3,
#endif

#ifdef CONFIG_SND_RK29_SOC_I2S_2CH
        &rk29_device_iis_2ch,
#endif
#ifdef CONFIG_SND_RK29_SOC_I2S_8CH
        &rk29_device_iis_8ch,
#endif

#ifdef CONFIG_KEYS_RK29
        &rk29_device_keys,
#endif
#ifdef CONFIG_SDMMC0_RK29
        &rk29_device_sdmmc0,
#endif
#ifdef CONFIG_SDMMC1_RK29
        &rk29_device_sdmmc1,
#endif

#ifdef CONFIG_MTD_NAND_RK29XX
        &rk29xx_device_nand,
#endif

#ifdef CONFIG_WIFI_CONTROL_FUNC
        &rk29sdk_wifi_device,
#endif

#ifdef CONFIG_BT
        &rk29sdk_rfkill,
#endif

#ifdef CONFIG_MTD_NAND_RK29
        &rk29_device_nand,
#endif

#ifdef CONFIG_FB_RK29
        &rk29_device_fb,
        &rk29_device_dma_cpy,
#endif
#ifdef CONFIG_BACKLIGHT_RK29_BL
        &rk29_device_backlight,
#endif
#ifdef CONFIG_RK29_VMAC
        &rk29_device_vmac,
#endif
#ifdef CONFIG_VIVANTE
        &rk29_device_gpu,
#endif
#ifdef CONFIG_VIDEO_RK29
        &rk29_device_camera,      /* ddl@rock-chips.com : camera support  */
        #if (SENSOR_IIC_ADDR_0 != 0x00)
        &rk29_soc_camera_pdrv_0,
        #endif
        #if (SENSOR_IIC_ADDR_1 != 0x00)
        &rk29_soc_camera_pdrv_1,
        #endif
        &android_pmem_cam_device,
#endif
        &android_pmem_device,
        &rk29_vpu_mem_device,
#ifdef CONFIG_USB20_OTG
        &rk29_device_usb20_otg,
#endif
#ifdef CONFIG_USB20_HOST
        &rk29_device_usb20_host,
#endif
#ifdef CONFIG_USB11_HOST
        &rk29_device_usb11_host,
#endif
#ifdef CONFIG_USB_ANDROID
        &android_usb_device,
        &usb_mass_storage_device,
#endif
#ifdef CONFIG_RK29_IPP
        &rk29_device_ipp,
#endif
#ifdef CONFIG_VIDEO_RK29XX_VOUT
        &rk29_v4l2_output_devce,
#endif
};

/*****************************************************************************************
 * spi devices
 * author: cmc@rock-chips.com
 *****************************************************************************************/
static int rk29_vmac_register_set(void)
{
        //config rk29 vmac as rmii, 100MHz
        u32 value= readl(RK29_GRF_BASE + 0xbc);
        value = (value & 0xfff7ff) | (0x400);
        writel(value, RK29_GRF_BASE + 0xbc);
        return 0;
}

static int rk29_rmii_io_init(void)
{
        int err;

        //phy power gpio
        err = gpio_request(RK29_PIN6_PB0, "phy_power_en");
        if (err) {
                gpio_free(RK29_PIN6_PB0);
                printk("-------request RK29_PIN6_PB0 fail--------\n");
                return -1;
        }
        //phy power down
        gpio_direction_output(RK29_PIN6_PB0, GPIO_LOW);
        gpio_set_value(RK29_PIN6_PB0, GPIO_LOW);

        return 0;
}

static int rk29_rmii_io_deinit(void)
{
        //phy power down
        gpio_direction_output(RK29_PIN6_PB0, GPIO_LOW);
        gpio_set_value(RK29_PIN6_PB0, GPIO_LOW);
        //free
        gpio_free(RK29_PIN6_PB0);
        return 0;
}

static int rk29_rmii_power_control(int enable)
{
        if (enable) {
                //enable phy power
                gpio_direction_output(RK29_PIN6_PB0, GPIO_HIGH);
                gpio_set_value(RK29_PIN6_PB0, GPIO_HIGH);
        }
        else {
                gpio_direction_output(RK29_PIN6_PB0, GPIO_LOW);
                gpio_set_value(RK29_PIN6_PB0, GPIO_LOW);
        }
        return 0;
}

struct rk29_vmac_platform_data rk29_vmac_pdata = {
        .vmac_register_set = rk29_vmac_register_set,
        .rmii_io_init = rk29_rmii_io_init,
        .rmii_io_deinit = rk29_rmii_io_deinit,
        .rmii_power_control = rk29_rmii_power_control,
};

/*****************************************************************************************
 * spi devices
 * author: cmc@rock-chips.com
 *****************************************************************************************/
#define SPI_CHIPSELECT_NUM 2
static struct spi_cs_gpio rk29xx_spi0_cs_gpios[SPI_CHIPSELECT_NUM] = {
    {
                .name = "spi0 cs0",
                .cs_gpio = RK29_PIN2_PC1,
                .cs_iomux_name = GPIO2C1_SPI0CSN0_NAME,
                .cs_iomux_mode = GPIO2H_SPI0_CSN0,
        },
        {
                .name = "spi0 cs1",
                .cs_gpio = RK29_PIN1_PA4,
                .cs_iomux_name = GPIO1A4_EMMCWRITEPRT_SPI0CS1_NAME,//if no iomux,set it NULL
                .cs_iomux_mode = GPIO1L_SPI0_CSN1,
        }
};

static struct spi_cs_gpio rk29xx_spi1_cs_gpios[SPI_CHIPSELECT_NUM] = {
    {
                .name = "spi1 cs0",
                .cs_gpio = RK29_PIN2_PC5,
                .cs_iomux_name = GPIO2C5_SPI1CSN0_NAME,
                .cs_iomux_mode = GPIO2H_SPI1_CSN0,
        },
        {
                .name = "spi1 cs1",
                .cs_gpio = RK29_PIN1_PA3,
                .cs_iomux_name = GPIO1A3_EMMCDETECTN_SPI1CS1_NAME,//if no iomux,set it NULL
                .cs_iomux_mode = GPIO1L_SPI1_CSN1,
        }
};

static int spi_io_init(struct spi_cs_gpio *cs_gpios, int cs_num)
{
#if 1
        int i;
        if (cs_gpios) {
                for (i=0; i<cs_num; i++) {
                        rk29_mux_api_set(cs_gpios[i].cs_iomux_name, cs_gpios[i].cs_iomux_mode);
                }
        }
#endif

        return 0;
}

static int spi_io_deinit(struct spi_cs_gpio *cs_gpios, int cs_num)
{

        return 0;
}

static int spi_io_fix_leakage_bug(void)
{
#if 0
        gpio_direction_output(RK29_PIN2_PC1, GPIO_LOW);
#endif
        return 0;
}

static int spi_io_resume_leakage_bug(void)
{
#if 0
        gpio_direction_output(RK29_PIN2_PC1, GPIO_HIGH);
#endif
        return 0;
}

struct rk29xx_spi_platform_data rk29xx_spi0_platdata = {
        .num_chipselect = SPI_CHIPSELECT_NUM,
        .chipselect_gpios = rk29xx_spi0_cs_gpios,
        .io_init = spi_io_init,
        .io_deinit = spi_io_deinit,
        .io_fix_leakage_bug = spi_io_fix_leakage_bug,
        .io_resume_leakage_bug = spi_io_resume_leakage_bug,
};

struct rk29xx_spi_platform_data rk29xx_spi1_platdata = {
        .num_chipselect = SPI_CHIPSELECT_NUM,
        .chipselect_gpios = rk29xx_spi1_cs_gpios,
        .io_init = spi_io_init,
        .io_deinit = spi_io_deinit,
        .io_fix_leakage_bug = spi_io_fix_leakage_bug,
        .io_resume_leakage_bug = spi_io_resume_leakage_bug,
};

/*****************************************************************************************
 * xpt2046 touch panel
 * author: cmc@rock-chips.com
 *****************************************************************************************/
#define XPT2046_GPIO_INT           RK29_PIN0_PA3
#define DEBOUNCE_REPTIME  3

#if defined(CONFIG_TOUCHSCREEN_XPT2046_320X480_SPI)
static struct xpt2046_platform_data xpt2046_info = {
        .model                  = 2046,
        .keep_vref_on   = 1,
        .swap_xy                = 0,
        .x_min                  = 0,
        .x_max                  = 320,
        .y_min                  = 0,
        .y_max                  = 480,
        .debounce_max           = 7,
        .debounce_rep           = DEBOUNCE_REPTIME,
        .debounce_tol           = 20,
        .gpio_pendown           = XPT2046_GPIO_INT,
        .penirq_recheck_delay_usecs = 1,
};
#elif defined(CONFIG_TOUCHSCREEN_XPT2046_320X480_CBN_SPI)
static struct xpt2046_platform_data xpt2046_info = {
        .model                  = 2046,
        .keep_vref_on   = 1,
        .swap_xy                = 0,
        .x_min                  = 0,
        .x_max                  = 320,
        .y_min                  = 0,
        .y_max                  = 480,
        .debounce_max           = 7,
        .debounce_rep           = DEBOUNCE_REPTIME,
        .debounce_tol           = 20,
        .gpio_pendown           = XPT2046_GPIO_INT,
        .penirq_recheck_delay_usecs = 1,
};
#elif defined(CONFIG_TOUCHSCREEN_XPT2046_SPI)
static struct xpt2046_platform_data xpt2046_info = {
        .model                  = 2046,
        .keep_vref_on   = 1,
        .swap_xy                = 1,
        .x_min                  = 0,
        .x_max                  = 800,
        .y_min                  = 0,
        .y_max                  = 480,
        .debounce_max           = 7,
        .debounce_rep           = DEBOUNCE_REPTIME,
        .debounce_tol           = 20,
        .gpio_pendown           = XPT2046_GPIO_INT,

        .penirq_recheck_delay_usecs = 1,
};
#elif defined(CONFIG_TOUCHSCREEN_XPT2046_CBN_SPI)
static struct xpt2046_platform_data xpt2046_info = {
        .model                  = 2046,
        .keep_vref_on   = 1,
        .swap_xy                = 1,
        .x_min                  = 0,
        .x_max                  = 800,
        .y_min                  = 0,
        .y_max                  = 480,
        .debounce_max           = 7,
        .debounce_rep           = DEBOUNCE_REPTIME,
        .debounce_tol           = 20,
        .gpio_pendown           = XPT2046_GPIO_INT,

        .penirq_recheck_delay_usecs = 1,
};
#endif

static struct spi_board_info board_spi_devices[] = {
#if defined(CONFIG_TOUCHSCREEN_XPT2046_320X480_SPI) || defined(CONFIG_TOUCHSCREEN_XPT2046_320X480_CBN_SPI)\
    ||defined(CONFIG_TOUCHSCREEN_XPT2046_SPI) || defined(CONFIG_TOUCHSCREEN_XPT2046_CBN_SPI)
        {
                .modalias       = "xpt2046_ts",
                .chip_select    = 0,
                .max_speed_hz   = 125 * 1000 * 26,/* (max sample rate @ 3V) * (cmd + data + overhead) */
                .bus_num        = 0,
                .irq = XPT2046_GPIO_INT,
                .platform_data = &xpt2046_info,
        },
#endif
};


static void __init rk29_gic_init_irq(void)
{
        gic_dist_init(0, (void __iomem *)RK29_GICPERI_BASE, 32);
        gic_cpu_init(0, (void __iomem *)RK29_GICCPU_BASE);
}

static void __init machine_rk29_init_irq(void)
{
        rk29_gic_init_irq();
        rk29_gpio_init();
}

static void __init machine_rk29_board_init(void)
{
        rk29_board_iomux_init();

        board_power_init();

        platform_add_devices(devices, ARRAY_SIZE(devices));
#ifdef CONFIG_I2C0_RK29
        i2c_register_board_info(default_i2c0_data.bus_num, board_i2c0_devices,
                        ARRAY_SIZE(board_i2c0_devices));
#endif
#ifdef CONFIG_I2C1_RK29
        i2c_register_board_info(default_i2c1_data.bus_num, board_i2c1_devices,
                        ARRAY_SIZE(board_i2c1_devices));
#endif
#ifdef CONFIG_I2C2_RK29
        i2c_register_board_info(default_i2c2_data.bus_num, board_i2c2_devices,
                        ARRAY_SIZE(board_i2c2_devices));
#endif
#ifdef CONFIG_I2C3_RK29
        i2c_register_board_info(default_i2c3_data.bus_num, board_i2c3_devices,
                        ARRAY_SIZE(board_i2c3_devices));
#endif

        spi_register_board_info(board_spi_devices, ARRAY_SIZE(board_spi_devices));

#ifdef CONFIG_WIFI_CONTROL_FUNC
    rk29sdk_wifi_bt_gpio_control_init();
        rk29sdk_init_wifi_mem();
#endif

        board_usb_detect_init(RK29_PIN0_PA0);
}

static void __init machine_rk29_fixup(struct machine_desc *desc, struct tag *tags,
                                        char **cmdline, struct meminfo *mi)
{
        mi->nr_banks = 1;
        mi->bank[0].start = RK29_SDRAM_PHYS;
        mi->bank[0].node = PHYS_TO_NID(RK29_SDRAM_PHYS);
        mi->bank[0].size = LINUX_SIZE;
}

static void __init machine_rk29_mapio(void)
{
        rk29_map_common_io();
        rk29_setup_early_printk();
        rk29_sram_init();
        rk29_clock_init(periph_pll_300mhz);
        rk29_iomux_init();
}

MACHINE_START(RK29, "RK29board")
        /* UART for LL DEBUG */
        .phys_io        = RK29_UART1_PHYS,
        .io_pg_offst    = ((RK29_UART1_BASE) >> 18) & 0xfffc,
        .boot_params    = RK29_SDRAM_PHYS + 0x88000,
        .fixup          = machine_rk29_fixup,
        .map_io         = machine_rk29_mapio,
        .init_irq       = machine_rk29_init_irq,
        .init_machine   = machine_rk29_board_init,
        .timer          = &rk29_timer,
MACHINE_END