static int mt6229_io_init(void)
{
iomux_set(GPIO2_D5);
iomux_set(GPIO0_C6);
iomux_set(GPIO2_D4);
iomux_set(GPIO0_C4);
iomux_set(GPIO0_C5);
return 0;
}
static int rk29_backlight_io_init_q910_ipad3(void)
{
int ret = 0;
iomux_set(PWM_MODE);
return ret;
}
static int rk29_backlight_io_init(void)
{
int ret = 0, hubret = 0;
iomux_set(PWM_MODE);
ret = gpio_request(BL_EN_PIN, "bl_en");
if (ret != 0) {
gpio_free(BL_EN_PIN);
} else {
gpio_direction_output(BL_EN_PIN, 0);
gpio_set_value(BL_EN_PIN, BL_EN_VALUE);
}
hubret = gpio_request(HUB_RST_PIN, "hub_rst");
if (hubret != 0) {
gpio_free(HUB_RST_PIN);
} else
{
gpio_direction_output(HUB_RST_PIN, 0);
gpio_set_value(HUB_RST_PIN, GPIO_HIGH);
}
return ret;
}
static int rk29_sdmmc0_cfg_gpio(void)
{
#ifdef CONFIG_SDMMC_RK29_OLD
rk30_mux_api_set(GPIO3B1_SDMMC0CMD_NAME, GPIO3B_SDMMC0_CMD);
rk30_mux_api_set(GPIO3B0_SDMMC0CLKOUT_NAME, GPIO3B_SDMMC0_CLKOUT);
rk30_mux_api_set(GPIO3B2_SDMMC0DATA0_NAME, GPIO3B_SDMMC0_DATA0);
rk30_mux_api_set(GPIO3B3_SDMMC0DATA1_NAME, GPIO3B_SDMMC0_DATA1);
rk30_mux_api_set(GPIO3B4_SDMMC0DATA2_NAME, GPIO3B_SDMMC0_DATA2);
rk30_mux_api_set(GPIO3B5_SDMMC0DATA3_NAME, GPIO3B_SDMMC0_DATA3);
rk30_mux_api_set(GPIO3B6_SDMMC0DETECTN_NAME, GPIO3B_GPIO3B6);
rk30_mux_api_set(GPIO3A7_SDMMC0PWREN_NAME, GPIO3A_GPIO3A7);
gpio_request(RK30_PIN3_PA7, "sdmmc-power");
gpio_direction_output(RK30_PIN3_PA7, GPIO_LOW);
#else
rk29_sdmmc_set_iomux(0, 0xFFFF);
#if defined(CONFIG_SDMMC0_RK29_SDCARD_DET_FROM_GPIO)
iomux_set_gpio_mode(iomux_mode_to_gpio(MMC0_DETN));
#else
iomux_set(MMC0_DETN);
#endif
#if defined(CONFIG_SDMMC0_RK29_WRITE_PROTECT)
gpio_request(SDMMC0_WRITE_PROTECT_PIN, "sdmmc-wp");
gpio_direction_input(SDMMC0_WRITE_PROTECT_PIN);
#endif
#endif
return 0;
}
static int es8323_i2c_suspend (struct i2c_client *client, pm_message_t mesg)
{
#if 0
rk30_mux_api_set(I2C_CLK_NAME,I2C_CLK_GPIO_MODE);
if (gpio_request(I2C_CLK_GPIO, NULL)) {
printk("func %s, line %d: request gpio fail\n", __FUNCTION__, __LINE__);
return -1;
}
gpio_direction_output(I2C_CLK_GPIO,I2C_GPIO_OUTPUT);
rk30_mux_api_set(I2C_MCLK_NAME,I2C_MCLK_GPIO_MODE);
if (gpio_request(I2C_MCLK_GPIO, NULL)) {
printk("func %s, line %d: request gpio fail\n", __FUNCTION__, __LINE__);
return -1;
}
gpio_direction_output(I2C_MCLK_GPIO,I2C_MGPIO_OUTPUT);
#endif
iomux_set(GPIO1_C1);
if (gpio_request(RK30_PIN1_PC1, NULL)) {
printk("func %s, line %d: request gpio fail\n", __FUNCTION__, __LINE__);
return -1;
}
gpio_direction_input(RK30_PIN1_PC1);
gpio_pull_updown(RK30_PIN1_PC1, PullDisable);
#if 0
iomux_set(GPIO1_C2);
gpio_direction_input(RK30_PIN1_PC2);
gpio_pull_updown(RK30_PIN1_PC2, PullDisable);
iomux_set(GPIO1_C3);
gpio_direction_input(RK30_PIN1_PC3);
gpio_pull_updown(RK30_PIN1_PC3, PullDisable);
iomux_set(GPIO1_C4);
gpio_direction_input(RK30_PIN1_PC4);
gpio_pull_updown(RK30_PIN1_PC4, PullDisable);
iomux_set(GPIO1_C5);
gpio_direction_input(RK30_PIN1_PC5);
gpio_pull_updown(RK30_PIN1_PC5, PullDisable);
#endif
return 0;
}
static int rk_fb_io_init_c5(struct rk29_fb_setting_info *fb_setting)
{
int ret;
iomux_set(GPIO2_A1);
ret = gpio_request(MIPI_RST, "mipi_rst");
if (ret != 0) {
printk("request mipi_rst fail.");
goto ret0;
}
gpio_direction_output(MIPI_RST, MIPI_RST_VALUE);
//step 1
ret = gpio_request(LCD_EN_PIN_C5, "led_en");
if (ret != 0) {
printk("request led_en fail.");
goto ret0;
}
gpio_direction_output(LCD_EN_PIN_C5, LCD_EN_VALUE_C5);
//step 0
iomux_set(GPIO1_A7);
ret = gpio_request(LCD_STBYB, "stbyb");
if (ret != 0) {
printk("request stbyb fail.");
goto ret0;
}
gpio_direction_output(LCD_STBYB, LCD_STBYB_VALUE);
//mdelay(10);
//step 2
iomux_set(GPIO2_D1);
ret = gpio_request(LCD_CS_PIN_C5, "led_cs");
if (ret != 0) {
printk("request led_en fail.");
goto ret0;
}
gpio_direction_output(LCD_CS_PIN_C5, LCD_CS_VALUE_C5);
mdelay(1);
gpio_direction_output(MIPI_RST, !MIPI_RST_VALUE);
mdelay(100);
//step 3
ret0:
return ret;
}
void iomux_set_gpio_mode(int gpio)
{
unsigned int mode;
mode = iomux_gpio_to_mode(gpio);
if(mode_is_valid(mode))
iomux_set(mode);
}
static int rk29_backlight_pwm_resume_q910_ipad3(void)
{
int pwm_gpio = iomux_mode_to_gpio(PWM_MODE);
gpio_free(pwm_gpio);
iomux_set(PWM_MODE);
return 0;
}
static int rk30_i2c_check_idle(struct rk30_i2c *i2c)
{
int ret = 0;
int sda_io, scl_io;
int sda_lev, scl_lev;
sda_io = iomux_mode_to_gpio(i2c->sda_mode);
scl_io = iomux_mode_to_gpio(i2c->scl_mode);
printk("wax->sda_io=%d scl_io=%d$$$$$$$$$$$$$$$$$$$$$\n",sda_io,scl_io);
printk("wax->sda_io=%d scl_io=%d$$$$$$$$$$$$$$$$$$$$$\n",sda_io,scl_io);
if(218==sda_io||219==sda_io)
return I2C_IDLE;
ret = gpio_request(sda_io, NULL); //modify by nition
if(unlikely(ret < 0)){
dev_err(i2c->dev, "Failed to request gpio: SDA_GPIO\n");
return ret;
}
ret = gpio_request(scl_io, NULL); //modify by nition
if(unlikely(ret < 0)){
dev_err(i2c->dev, "Failed to request gpio: SCL_GPIO\n");
gpio_free(sda_io);
return ret;
}
gpio_direction_input(sda_io);
gpio_direction_input(scl_io);
sda_lev = gpio_get_value(sda_io);
scl_lev = gpio_get_value(scl_io);
gpio_free(sda_io);
gpio_free(scl_io);
iomux_set(i2c->sda_mode);
iomux_set(i2c->scl_mode);
if(sda_lev == 1 && scl_lev == 1)
return I2C_IDLE;
else if(sda_lev == 0 && scl_lev == 1)
return I2C_SDA_LOW;
else if(sda_lev == 1 && scl_lev == 0)
return I2C_SCL_LOW;
else
return BOTH_LOW;
}
static int rk29_backlight_pwm_resume_q97s_q98_ipad2(void)
{
int pwm_gpio = iomux_mode_to_gpio(PWM_MODE);
gpio_free(pwm_gpio);
iomux_set(PWM_MODE);
msleep(150);
gpio_direction_output(BL_EN_PIN, BL_EN_VALUE);
return 0;
}
void __init iomux_init(void)
{
int i, len;
len = ARRAY_SIZE(default_mode);
for(i = 0; i < len; i++)
iomux_set(default_mode[i]);
return;
}
static int rk29_backlight_pwm_resume(void)
{
int pwm_gpio = iomux_mode_to_gpio(bl_pwm_mode);
gpio_free(pwm_gpio);
iomux_set(bl_pwm_mode);
msleep(30);
port_output_on(bl_en);
return 0;
}
// q97s ipad2 specifics
static int rk29_backlight_io_init_q97s_q98_ipad2(void)
{
int ret = 0;
iomux_set(PWM_MODE);
ret = gpio_request(BL_EN_PIN, "bl_en");
if (ret == 0) {
gpio_direction_output(BL_EN_PIN, BL_EN_VALUE);
}
return ret;
}
static int rk29_backlight_pwm_resume(void)
{
int pwm_gpio = iomux_mode_to_gpio(pwm_mode[BL_PWM]);
gpio_free(pwm_gpio);
iomux_set(pwm_mode[BL_PWM]);
#ifdef LCD_DISP_ON_PIN
msleep(30);
gpio_direction_output(BL_EN_PIN, BL_EN_VALUE);
#endif
return 0;
}
static int sensor_reset_usr_cb (struct rk29camera_gpio_res *res,int on)
{
//#error "CONFIG_SENSOR_RESET_IOCTL_USR is 1, sensor_reset_usr_cb function must be writed!!";
int camera_reset = res->gpio_reset;
int camera_ioflag = res->gpio_flag;
int camera_io_init = res->gpio_init;
int ret = 0;
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("%s ResetPin=%d ..PinLevel = %x\n",res->dev_name,camera_reset, ((camera_ioflag&RK29_CAM_RESETACTIVE_MASK)>>RK29_CAM_RESETACTIVE_BITPOS));
mdelay(6);
} else {
gpio_set_value(camera_reset,(((~camera_ioflag)&RK29_CAM_RESETACTIVE_MASK)>>RK29_CAM_RESETACTIVE_BITPOS));
printk("%s ResetPin= %d..PinLevel = %x\n",res->dev_name, camera_reset, (((~camera_ioflag)&RK29_CAM_RESETACTIVE_MASK)>>RK29_CAM_RESETACTIVE_BITPOS));
mdelay(6);
iomux_set(SPI0_CLK);
iomux_set(SPI0_RXD);
iomux_set(SPI0_TXD);
iomux_set(SPI0_CS0);
iomux_set(I2C3_SDA);
iomux_set(I2C3_SCL);
mdelay(6);
}
} else {
static void rk29_sdmmc_set_iomux_mmc1(unsigned int bus_width)
{
#if SDMMC_USE_NEW_IOMUX_API
iomux_set(rksdmmc1_gpio_init.cmd_gpio.iomux.fmux);
iomux_set(rksdmmc1_gpio_init.clk_gpio.iomux.fmux);
iomux_set(rksdmmc1_gpio_init.data0_gpio.iomux.fmux);
iomux_set(rksdmmc1_gpio_init.data1_gpio.iomux.fmux);
iomux_set(rksdmmc1_gpio_init.data2_gpio.iomux.fmux);
iomux_set(rksdmmc1_gpio_init.data3_gpio.iomux.fmux);
#else
rk30_mux_api_set(rksdmmc1_gpio_init.cmd_gpio.iomux.name, rksdmmc1_gpio_init.cmd_gpio.iomux.fmux);
rk30_mux_api_set(rksdmmc1_gpio_init.clk_gpio.iomux.name, rksdmmc1_gpio_init.clk_gpio.iomux.fmux);
rk30_mux_api_set(rksdmmc1_gpio_init.data0_gpio.iomux.name, rksdmmc1_gpio_init.data0_gpio.iomux.fmux);
rk30_mux_api_set(rksdmmc1_gpio_init.data1_gpio.iomux.name, rksdmmc1_gpio_init.data1_gpio.iomux.fmux);
rk30_mux_api_set(rksdmmc1_gpio_init.data2_gpio.iomux.name, rksdmmc1_gpio_init.data2_gpio.iomux.fmux);
rk30_mux_api_set(rksdmmc1_gpio_init.data3_gpio.iomux.name, rksdmmc1_gpio_init.data3_gpio.iomux.fmux);
#endif
//IO voltage(vcc-ap0)
if(rk31sdk_wifi_voltage_select())
SDMMC_write_grf_reg(GRF_IO_CON4, (SDMMC1_IO_VOLTAGE_MASK|SDMMC1_IO_VOLTAGE_18));
else
SDMMC_write_grf_reg(GRF_IO_CON4, (SDMMC1_IO_VOLTAGE_MASK|SDMMC1_IO_VOLTAGE_33));
//sdmmc1 drive strength control
SDMMC_write_grf_reg(GRF_IO_CON3, (SDMMC1_DRIVER_STRENGTH_MASK|SDMMC1_DRIVER_STRENGTH_12MA));
}
static int rk29_backlight_io_init(void)
{
int ret = 0;
iomux_set(pwm_mode[BL_PWM]);
msleep(50);
#ifdef LCD_DISP_ON_PIN
ret = rk_gpio_request(BL_EN_PIN, GPIOF_DIR_OUT, BL_EN_VALUE, "bl_en");
if(ret < 0)
return ret;
#endif
return 0;
}
static int rk29_backlight_io_init(void)
{
int ret = 0;
iomux_set(PWM_MODE);
#ifdef LCD_DISP_ON_PIN
ret = gpio_request(BL_EN_PIN, "bl_en");
if (ret == 0) {
gpio_direction_output(BL_EN_PIN, BL_EN_VALUE);
}
#endif
return ret;
}
static int rk29_backlight_pwm_resume(void)
{
int pwm_gpio = iomux_mode_to_gpio(PWM_MODE);
gpio_free(pwm_gpio);
iomux_set(PWM_MODE);
msleep(30);
gpio_direction_output(BL_EN_PIN, 1);
gpio_set_value(BL_EN_PIN, BL_EN_VALUE);
return 0;
}
void usb20otg_hw_init(void)
{
#ifndef CONFIG_USB20_HOST
// close USB 2.0 HOST phy and clock
unsigned int * otg_phy_con1 = (unsigned int*)(RK319X_GRF_BASE + GRF_UOC1_CON1);
*otg_phy_con1 = 0x55 |(0x7f<<16); // enter suspend.
#endif
// usb phy config init
//pGRF_USBPHY_REG GRF_USBPHY0 = (pGRF_USBPHY_REG)GRF_USBPHY0_CON_BASE;
// other hardware init
iomux_set(OTG_DRV_VBUS);
}
static int rk29_sdmmc0_cfg_gpio(void)
{
rk29_sdmmc_set_iomux(0, 0xFFFF);
#if defined(CONFIG_SDMMC0_RK29_SDCARD_DET_FROM_GPIO)
iomux_set_gpio_mode(iomux_gpio_to_mode(RK29SDK_SD_CARD_DETECT_N));
#else
iomux_set(MMC0_DETN);
#endif
#if defined(CONFIG_SDMMC0_RK29_WRITE_PROTECT)
gpio_request(SDMMC0_WRITE_PROTECT_PIN, "sdmmc-wp");
gpio_direction_input(SDMMC0_WRITE_PROTECT_PIN);
#endif
return 0;
}
static int es8323_i2c_resume(struct i2c_client *client)
{
#if 0
gpio_free(I2C_MCLK_GPIO);
gpio_free(I2C_CLK_GPIO);
rk30_mux_api_set(I2C_MCLK_NAME,I2C_MCLK_CLK_MODE);
rk30_mux_api_set(I2C_CLK_NAME,I2C_CLK_CLK_MODE);
#endif
gpio_free(RK30_PIN1_PC1);
iomux_set(I2S0_SCLK);
return 0;
}
// lcd_en 20ms
// lcd_cs 10ms //AVDD and VGH,VGL
static int rk29_backlight_io_init_c5(void)
{
int ret = 0;
iomux_set(PWM_MODE);
ret = gpio_request(BL_EN_PIN, "bl_en");
if (ret != 0) {
printk("request bl_en fail.");
goto ret0;
}
gpio_direction_output(BL_EN_PIN, BL_EN_VALUE);
ret0:
return ret;
}
void usb20host_hw_init(void)
{
// usb phy config init
pGRF_USBPHY_REG GRF_USBPHY1 = (pGRF_USBPHY_REG)GRF_USBPHY1_CON_BASE;
//GRF_USBPHY1->CON7 = 0x78000000;//host_discon_con 575mv
GRF_USBPHY1->CON0 = 0xffff8518;
GRF_USBPHY1->CON1 = 0xffffe007;
GRF_USBPHY1->CON2 = 0xffff82c9;
GRF_USBPHY1->CON3 = 0xffff0202;
GRF_USBPHY1->CON4 = 0xffff5556;
GRF_USBPHY1->CON5 = 0xffff5555;
GRF_USBPHY1->CON6 = 0xffff0005;
GRF_USBPHY1->CON7 = 0xffff68d0;
// other haredware init
iomux_set(HOST_DRV_VBUS);
}
static int rk29_backlight_io_init(void)
{
int ret = 0;
iomux_set(PWM_MODE);
#ifdef LCD_DISP_ON_PIN
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_init(void)
{
int ret = 0;
printk("rk29_backlight_io_init %d\n",bl_pwm_mode);
iomux_set(bl_pwm_mode);
msleep(50);
if(bl_en== -1)
return 0;
ret = port_output_init(bl_en, 1, "bl_en");
if(ret < 0){
printk("%s: port output init faild\n", __func__);
return ret;
}
port_output_on(bl_en);
return ret;
}
static int rk29_sdmmc0_cfg_gpio(void)
{
#ifdef CONFIG_SDMMC_RK29_OLD
iomux_set(MMC0_CMD);
iomux_set(MMC0_CLKOUT);
iomux_set(MMC0_D0);
iomux_set(MMC0_D1);
iomux_set(MMC0_D2);
iomux_set(MMC0_D3);
iomux_set_gpio_mode(iomux_mode_to_gpio(MMC0_DETN));
gpio_request(RK30_PIN3_PA7, "sdmmc-power");
gpio_direction_output(RK30_PIN3_PA7, GPIO_LOW);
#else
rk29_sdmmc_set_iomux(0, 0xFFFF);
#if defined(CONFIG_SDMMC0_RK29_SDCARD_DET_FROM_GPIO)
#if SDMMC_USE_NEW_IOMUX_API
iomux_set_gpio_mode(iomux_gpio_to_mode(RK29SDK_SD_CARD_DETECT_N));
#else
rk30_mux_api_set(RK29SDK_SD_CARD_DETECT_PIN_NAME, RK29SDK_SD_CARD_DETECT_IOMUX_FGPIO);
#endif
#else
#if SDMMC_USE_NEW_IOMUX_API
iomux_set(MMC0_DETN);
#else
rk30_mux_api_set(RK29SDK_SD_CARD_DETECT_PIN_NAME, RK29SDK_SD_CARD_DETECT_IOMUX_FMUX);
#endif
#endif
#if defined(CONFIG_SDMMC0_RK29_WRITE_PROTECT)
gpio_request(SDMMC0_WRITE_PROTECT_PIN, "sdmmc-wp");
gpio_direction_input(SDMMC0_WRITE_PROTECT_PIN);
#endif
#endif
return 0;
}
void usb20otg_hw_init(void)
{
#ifndef CONFIG_USB20_HOST
// close USB 2.0 HOST phy and clock
unsigned int * otg_phy_con1 = (unsigned int*)(USBGRF_UOC1_CON1);
*otg_phy_con1 = 0x1D5 |(0x1ff<<16); // enter suspend.
#endif
// usb phy config init
pGRF_USBPHY_REG GRF_USBPHY0 = (pGRF_USBPHY_REG)GRF_USBPHY0_CON_BASE;
GRF_USBPHY0->CON0 = 0x00070007;//open pre-emphasize for otg
// other hardware init
#ifdef CONFIG_RK_CONFIG
otg_drv_init(0);
#else
#if(defined (CONFIG_MACH_RK3026_86V) ||defined (CONFIG_MACH_RK3026_86V_FAC))
#else
iomux_set(OTG_DRV_VBUS);
#endif
#endif
}
static int rk3188_lcdc_init(struct rk_lcdc_device_driver *dev_drv)
{
int i = 0;
int __iomem *c;
int v;
struct rk3188_lcdc_device *lcdc_dev = container_of(dev_drv,struct rk3188_lcdc_device,driver);
if(lcdc_dev->id == 0) //lcdc0
{
lcdc_dev->pd = clk_get(NULL,"pd_lcdc0");
lcdc_dev->hclk = clk_get(NULL,"hclk_lcdc0");
lcdc_dev->aclk = clk_get(NULL,"aclk_lcdc0");
lcdc_dev->dclk = clk_get(NULL,"dclk_lcdc0");
}
else if(lcdc_dev->id == 1)
{
lcdc_dev->pd = clk_get(NULL,"pd_lcdc1");
lcdc_dev->hclk = clk_get(NULL,"hclk_lcdc1");
lcdc_dev->aclk = clk_get(NULL,"aclk_lcdc1");
lcdc_dev->dclk = clk_get(NULL,"dclk_lcdc1");
}
else
{
printk(KERN_ERR "invalid lcdc device!\n");
return -EINVAL;
}
if (IS_ERR(lcdc_dev->pd) || (IS_ERR(lcdc_dev->aclk)) ||(IS_ERR(lcdc_dev->dclk)) || (IS_ERR(lcdc_dev->hclk)))
{
printk(KERN_ERR "failed to get lcdc%d clk source\n",lcdc_dev->id);
}
rk3188_lcdc_clk_enable(lcdc_dev);
if(lcdc_dev->id == 0)
{
#if defined(CONFIG_LCDC0_IO_18V)
v = 0x40004000; //bit14: 1,1.8v;0,3.3v
writel_relaxed(v,RK30_GRF_BASE + GRF_IO_CON4);
#else
v = 0x40000000;
writel_relaxed(v,RK30_GRF_BASE + GRF_IO_CON4);
#endif
}
if(lcdc_dev->id == 1) //iomux for lcdc1
{
#if defined(CONFIG_LCDC1_IO_18V)
v = 0x80008000; //bit14: 1,1.8v;0,3.3v
writel_relaxed(v,RK30_GRF_BASE + GRF_IO_CON4);
#else
v = 0x80000000;
writel_relaxed(v,RK30_GRF_BASE + GRF_IO_CON4);
#endif
iomux_set(LCDC1_DCLK);
iomux_set(LCDC1_DEN);
iomux_set(LCDC1_HSYNC);
iomux_set(LCDC1_VSYNC);
iomux_set(LCDC1_D0);
iomux_set(LCDC1_D1);
iomux_set(LCDC1_D2);
iomux_set(LCDC1_D3);
iomux_set(LCDC1_D4);
iomux_set(LCDC1_D5);
iomux_set(LCDC1_D6);
iomux_set(LCDC1_D7);
iomux_set(LCDC1_D8);
iomux_set(LCDC1_D9);
iomux_set(LCDC1_D10);
iomux_set(LCDC1_D11);
iomux_set(LCDC1_D12);
iomux_set(LCDC1_D13);
iomux_set(LCDC1_D14);
iomux_set(LCDC1_D15);
iomux_set(LCDC1_D16);
iomux_set(LCDC1_D17);
iomux_set(LCDC1_D18);
iomux_set(LCDC1_D19);
iomux_set(LCDC1_D20);
iomux_set(LCDC1_D21);
iomux_set(LCDC1_D22);
iomux_set(LCDC1_D23);
}
lcdc_set_bit(lcdc_dev,SYS_CTRL,m_AUTO_GATING_EN);//eanble axi-clk auto gating for low power
//lcdc_set_bit(lcdc_dev,DSP_CTRL0,m_WIN0_TOP);
if(dev_drv->cur_screen->dsp_lut)
{
lcdc_msk_reg(lcdc_dev,SYS_CTRL,m_DSP_LUT_EN,v_DSP_LUT_EN(0));
lcdc_cfg_done(lcdc_dev);
msleep(25);
for(i=0;i<256;i++)
{
v = dev_drv->cur_screen->dsp_lut[i];
c = lcdc_dev->dsp_lut_addr_base+i;
writel_relaxed(v,c);
}
lcdc_msk_reg(lcdc_dev,SYS_CTRL,m_DSP_LUT_EN,v_DSP_LUT_EN(1));
}
lcdc_cfg_done(lcdc_dev); // write any value to REG_CFG_DONE let config become effective
rk3188_lcdc_clk_disable(lcdc_dev);
return 0;
}
static void rk29_sdmmc_set_iomux_mmc0(unsigned int bus_width)
{
switch (bus_width)
{
case 1://SDMMC_CTYPE_4BIT:
{
#if SDMMC_USE_NEW_IOMUX_API
iomux_set(rksdmmc0_gpio_init.data1_gpio.iomux.fmux);
iomux_set(rksdmmc0_gpio_init.data2_gpio.iomux.fmux);
iomux_set(rksdmmc0_gpio_init.data3_gpio.iomux.fmux);
#else
rk30_mux_api_set(rksdmmc0_gpio_init.data1_gpio.iomux.name, rksdmmc0_gpio_init.data1_gpio.iomux.fmux);
rk30_mux_api_set(rksdmmc0_gpio_init.data2_gpio.iomux.name, rksdmmc0_gpio_init.data2_gpio.iomux.fmux);
rk30_mux_api_set(rksdmmc0_gpio_init.data3_gpio.iomux.name, rksdmmc0_gpio_init.data3_gpio.iomux.fmux);
#endif
}
break;
case 0x10000://SDMMC_CTYPE_8BIT:
break;
case 0xFFFF: //gpio_reset
{
#if (!!SDMMC_USE_NEW_IOMUX_API) && !defined(CONFIG_SDMMC0_RK29_SDCARD_DET_FROM_GPIO)
iomux_set(MMC0_DETN);
#endif
#if !(!!SDMMC_USE_NEW_IOMUX_API)
rk30_mux_api_set(rksdmmc0_gpio_init.power_en_gpio.iomux.name, rksdmmc0_gpio_init.power_en_gpio.iomux.fgpio);
#endif
gpio_request(rksdmmc0_gpio_init.power_en_gpio.io,"sdmmc-power");
gpio_direction_output(rksdmmc0_gpio_init.power_en_gpio.io, !(rksdmmc0_gpio_init.power_en_gpio.enable)); //power-off
#if 0 //replace the power control into rk29_sdmmc_set_ios(); modifyed by xbw at 2012-08-12
rk29_sdmmc_gpio_open(0, 0);
gpio_direction_output(rksdmmc0_gpio_init.power_en_gpio.io, rksdmmc0_gpio_init.power_en_gpio.enable); //power-on
rk29_sdmmc_gpio_open(0, 1);
#endif
}
break;
default: //case 0://SDMMC_CTYPE_1BIT:
{
#if SDMMC_USE_NEW_IOMUX_API
iomux_set(rksdmmc0_gpio_init.cmd_gpio.iomux.fmux);
iomux_set(rksdmmc0_gpio_init.clk_gpio.iomux.fmux);
iomux_set(rksdmmc0_gpio_init.data0_gpio.iomux.fmux);
#else
rk30_mux_api_set(rksdmmc0_gpio_init.cmd_gpio.iomux.name, rksdmmc0_gpio_init.cmd_gpio.iomux.fmux);
rk30_mux_api_set(rksdmmc0_gpio_init.clk_gpio.iomux.name, rksdmmc0_gpio_init.clk_gpio.iomux.fmux);
rk30_mux_api_set(rksdmmc0_gpio_init.data0_gpio.iomux.name, rksdmmc0_gpio_init.data0_gpio.iomux.fmux);
#endif
//IO voltage(vccio);
#ifdef RK31SDK_SET_SDMMC0_PIN_VOLTAGE
if(rk31sdk_get_sdmmc0_pin_io_voltage() > 2700)
SDMMC_write_grf_reg(GRF_IO_CON4, (SDMMC0_IO_VOLTAGE_MASK |SDMMC0_IO_VOLTAGE_33)); //set SDMMC0 pin to 3.3v
else
SDMMC_write_grf_reg(GRF_IO_CON4, (SDMMC0_IO_VOLTAGE_MASK |SDMMC0_IO_VOLTAGE_18));//set SDMMC0 pin to 1.8v
#else
//default set the voltage of SDMMC0 to 3.3V
SDMMC_write_grf_reg(GRF_IO_CON4, (SDMMC0_IO_VOLTAGE_MASK |SDMMC0_IO_VOLTAGE_33));
#endif
//sdmmc drive strength control
SDMMC_write_grf_reg(GRF_IO_CON2, (SDMMC0_DRIVER_STRENGTH_MASK |SDMMC0_DRIVER_STRENGTH_8MA));
#if !(!!SDMMC_USE_NEW_IOMUX_API)
rk30_mux_api_set(rksdmmc0_gpio_init.data1_gpio.iomux.name, rksdmmc0_gpio_init.data1_gpio.iomux.fgpio);
#endif
gpio_request(rksdmmc0_gpio_init.data1_gpio.io, "mmc0-data1");
gpio_direction_output(rksdmmc0_gpio_init.data1_gpio.io,GPIO_HIGH);//set mmc0-data1 to high.
#if !(!!SDMMC_USE_NEW_IOMUX_API)
rk30_mux_api_set(rksdmmc0_gpio_init.data2_gpio.iomux.name, rksdmmc0_gpio_init.data2_gpio.iomux.fgpio);
#endif
gpio_request(rksdmmc0_gpio_init.data2_gpio.io, "mmc0-data2");
gpio_direction_output(rksdmmc0_gpio_init.data2_gpio.io,GPIO_HIGH);//set mmc0-data2 to high.
#if !(!!SDMMC_USE_NEW_IOMUX_API)
rk30_mux_api_set(rksdmmc0_gpio_init.data3_gpio.iomux.name, rksdmmc0_gpio_init.data3_gpio.iomux.fgpio);
#endif
gpio_request(rksdmmc0_gpio_init.data3_gpio.io, "mmc0-data3");
gpio_direction_output(rksdmmc0_gpio_init.data3_gpio.io,GPIO_HIGH);//set mmc0-data3 to high.
}
break;
}
}
