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|
/*
* Copyright (C) 2011-2012 Freescale Semiconductor, Inc. All Rights Reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
* 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.
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include <linux/types.h>
#include <linux/sched.h>
#include <linux/delay.h>
#include <linux/pm.h>
#include <linux/interrupt.h>
#include <linux/irq.h>
#include <linux/init.h>
#include <linux/input.h>
#include <linux/nodemask.h>
#include <linux/clk.h>
#include <linux/platform_device.h>
#include <linux/fsl_devices.h>
#include <linux/smsc911x.h>
#include <linux/spi/spi.h>
#if defined(CONFIG_MTD_M25P80) || defined(CONFIG_MTD_M25P80_MODULE)
#include <linux/spi/flash.h>
#else
#include <linux/mtd/physmap.h>
#endif
#include <linux/i2c.h>
#include <linux/i2c/pca953x.h>
#include <linux/ata.h>
#include <linux/mtd/mtd.h>
#include <linux/mtd/map.h>
#include <linux/mtd/partitions.h>
#include <linux/pmic_external.h>
#include <linux/pmic_status.h>
#include <linux/ipu.h>
#include <linux/mxcfb.h>
#include <linux/pwm_backlight.h>
#include <linux/fec.h>
#include <linux/memblock.h>
#include <linux/gpio.h>
#include <linux/ion.h>
#include <linux/etherdevice.h>
#include <linux/regulator/anatop-regulator.h>
#include <linux/regulator/consumer.h>
#include <linux/regulator/machine.h>
#include <linux/regulator/fixed.h>
#include <linux/mxc_asrc.h>
#include <sound/pcm.h>
#include <linux/mfd/mxc-hdmi-core.h>
#include <mach/common.h>
#include <mach/hardware.h>
#include <mach/mxc_dvfs.h>
#include <mach/memory.h>
#include <mach/iomux-mx6q.h>
#include <mach/imx-uart.h>
#include <mach/viv_gpu.h>
#include <mach/ahci_sata.h>
#include <mach/ipu-v3.h>
#include <mach/mxc_hdmi.h>
#include <mach/mxc_asrc.h>
#include <mach/mipi_dsi.h>
#include <mach/mipi_csi2.h>
#include <asm/irq.h>
#include <asm/setup.h>
#include <asm/mach-types.h>
#include <asm/mach/arch.h>
#include <asm/mach/time.h>
#include "usb.h"
#include "devices-imx6q.h"
#include "crm_regs.h"
#include "cpu_op-mx6.h"
#include "board-mx6q_sabreauto.h"
#include "board-mx6solo_sabreauto.h"
/* sorted by GPIO_NR */
#define SABREAUTO_SD1_CD IMX_GPIO_NR(1, 1)
#define SABREAUTO_ESAI_INT IMX_GPIO_NR(1, 10)
#define SABREAUTO_ANDROID_HOME IMX_GPIO_NR(1, 11)
#define SABREAUTO_ANDROID_BACK IMX_GPIO_NR(1, 12)
#define SABREAUTO_SD3_WP IMX_GPIO_NR(1, 13)
#define SABREAUTO_I2C_EXP_RST IMX_GPIO_NR(1, 15)
#define SABREAUTO_USB_OTG_OC IMX_GPIO_NR(2, 8)
#define SABREAUTO_LDB_BACKLIGHT3 IMX_GPIO_NR(2, 9)
#define SABREAUTO_LDB_BACKLIGHT4 IMX_GPIO_NR(2, 10)
#define SABREAUTO_ANDROID_MENU IMX_GPIO_NR(2, 12)
#define SABREAUTO_ANDROID_VOLUP IMX_GPIO_NR(2, 15)
#define SABREAUTO_CAP_TCH_INT IMX_GPIO_NR(2, 28)
#define SABREAUTO_ECSPI1_CS1 IMX_GPIO_NR(3, 19)
#define SABREAUTO_DISP0_PWR IMX_GPIO_NR(3, 24)
#define SABREAUTO_DISP0_I2C_EN IMX_GPIO_NR(3, 28)
#define SABREAUTO_DISP0_DET_INT IMX_GPIO_NR(3, 31)
#define SABREAUTO_CSI0_RST IMX_GPIO_NR(4, 5)
#define SABREAUTO_DISP0_RESET IMX_GPIO_NR(5, 0)
#define SABREAUTO_I2C3_STEER IMX_GPIO_NR(5, 4)
#define SABREAUTO_WEIM_NOR_WDOG1 IMX_GPIO_NR(4, 29)
#define SABREAUTO_ANDROID_VOLDOWN IMX_GPIO_NR(5, 14)
#define SABREAUTO_PMIC_INT IMX_GPIO_NR(5, 16)
#define SABREAUTO_ALS_INT IMX_GPIO_NR(5, 17)
#define SABREAUTO_SD1_WP IMX_GPIO_NR(5, 20)
#define SABREAUTO_CSI0_PWN IMX_GPIO_NR(5, 23)
#define SABREAUTO_USB_HOST1_OC IMX_GPIO_NR(5, 0)
#define SABREAUTO_SD3_CD IMX_GPIO_NR(6, 15)
#define SABREAUTO_MAX7310_1_BASE_ADDR IMX_GPIO_NR(8, 0)
#define SABREAUTO_MAX7310_2_BASE_ADDR IMX_GPIO_NR(8, 8)
#define SABREAUTO_MAX7310_3_BASE_ADDR IMX_GPIO_NR(8, 16)
#define SABREAUTO_IO_EXP_GPIO1(x) (SABREAUTO_MAX7310_1_BASE_ADDR + (x))
#define SABREAUTO_IO_EXP_GPIO2(x) (SABREAUTO_MAX7310_2_BASE_ADDR + (x))
#define SABREAUTO_IO_EXP_GPIO3(x) (SABREAUTO_MAX7310_3_BASE_ADDR + (x))
#define SABREAUTO_PCIE_RST_B_REVB (SABREAUTO_MAX7310_1_BASE_ADDR + 2)
/*
* CAN2 STBY and EN lines are the same as the CAN1. These lines are not
* independent.
*/
#define SABREAUTO_PER_RST SABREAUTO_IO_EXP_GPIO1(3)
#define SABREAUTO_VIDEOIN_PWR SABREAUTO_IO_EXP_GPIO2(2)
#define SABREAUTO_CAN1_STEER SABREAUTO_IO_EXP_GPIO2(3)
#define SABREAUTO_CAN_STBY SABREAUTO_IO_EXP_GPIO2(5)
#define SABREAUTO_CAN_EN SABREAUTO_IO_EXP_GPIO2(6)
#define SABREAUTO_USB_HOST1_PWR SABREAUTO_IO_EXP_GPIO2(7)
#define SABREAUTO_USB_OTG_PWR SABREAUTO_IO_EXP_GPIO3(1)
#define BMCR_PDOWN 0x0800 /* PHY Powerdown */
extern char *gp_reg_id;
extern char *soc_reg_id;
extern char *pu_reg_id;
static int mma8451_position = 3;
static struct clk *sata_clk;
static int mipi_sensor;
static int can0_enable;
static int uart3_en;
static int tuner_en;
static int spinor_en;
static int weimnor_en;
static int __init spinor_enable(char *p)
{
spinor_en = 1;
return 0;
}
early_param("spi-nor", spinor_enable);
static int __init weimnor_enable(char *p)
{
weimnor_en = 1;
return 0;
}
early_param("weim-nor", weimnor_enable);
static int __init uart3_enable(char *p)
{
uart3_en = 1;
return 0;
}
early_param("uart3", uart3_enable);
static int __init tuner_enable(char *p)
{
tuner_en = 1;
return 0;
}
early_param("tuner", tuner_enable);
enum sd_pad_mode {
SD_PAD_MODE_LOW_SPEED,
SD_PAD_MODE_MED_SPEED,
SD_PAD_MODE_HIGH_SPEED,
};
#if defined(CONFIG_KEYBOARD_GPIO) || defined(CONFIG_KEYBOARD_GPIO_MODULE)
#define GPIO_BUTTON(gpio_num, ev_code, act_low, descr, wake) \
{ \
.gpio = gpio_num, \
.type = EV_KEY, \
.code = ev_code, \
.active_low = act_low, \
.desc = "btn " descr, \
.wakeup = wake, \
}
static struct gpio_keys_button ard_buttons[] = {
GPIO_BUTTON(SABREAUTO_ANDROID_HOME, KEY_HOME, 1, "home", 0),
GPIO_BUTTON(SABREAUTO_ANDROID_BACK, KEY_BACK, 1, "back", 0),
GPIO_BUTTON(SABREAUTO_ANDROID_MENU, KEY_MENU, 1, "menu", 0),
GPIO_BUTTON(SABREAUTO_ANDROID_VOLUP, KEY_VOLUMEUP, 1, "volume-up", 0),
GPIO_BUTTON(SABREAUTO_ANDROID_VOLDOWN, KEY_VOLUMEDOWN, 1, "volume-down", 0),
};
static struct gpio_keys_platform_data ard_android_button_data = {
.buttons = ard_buttons,
.nbuttons = ARRAY_SIZE(ard_buttons),
};
static struct platform_device ard_android_button_device = {
.name = "gpio-keys",
.id = -1,
.num_resources = 0,
.dev = {
.platform_data = &ard_android_button_data,
}
};
static void __init imx6q_add_android_device_buttons(void)
{
platform_device_register(&ard_android_button_device);
}
#else
static void __init imx6q_add_android_device_buttons(void) {}
#endif
static int plt_sd_pad_change(unsigned int index, int clock)
{
/* LOW speed is the default state of SD pads */
static enum sd_pad_mode pad_mode = SD_PAD_MODE_LOW_SPEED;
iomux_v3_cfg_t *sd_pads_200mhz = NULL;
iomux_v3_cfg_t *sd_pads_100mhz = NULL;
iomux_v3_cfg_t *sd_pads_50mhz = NULL;
u32 sd_pads_200mhz_cnt;
u32 sd_pads_100mhz_cnt;
u32 sd_pads_50mhz_cnt;
if (index != 2) {
printk(KERN_ERR"no such SD host controller index %d\n", index);
return -EINVAL;
}
if (cpu_is_mx6q()) {
sd_pads_200mhz = mx6q_sd3_200mhz;
sd_pads_100mhz = mx6q_sd3_100mhz;
sd_pads_50mhz = mx6q_sd3_50mhz;
sd_pads_200mhz_cnt = ARRAY_SIZE(mx6q_sd3_200mhz);
sd_pads_100mhz_cnt = ARRAY_SIZE(mx6q_sd3_100mhz);
sd_pads_50mhz_cnt = ARRAY_SIZE(mx6q_sd3_50mhz);
} else if (cpu_is_mx6dl()) {
sd_pads_200mhz = mx6dl_sd3_200mhz;
sd_pads_100mhz = mx6dl_sd3_100mhz;
sd_pads_50mhz = mx6dl_sd3_50mhz;
sd_pads_200mhz_cnt = ARRAY_SIZE(mx6dl_sd3_200mhz);
sd_pads_100mhz_cnt = ARRAY_SIZE(mx6dl_sd3_100mhz);
sd_pads_50mhz_cnt = ARRAY_SIZE(mx6dl_sd3_50mhz);
}
if (clock > 100000000) {
if (pad_mode == SD_PAD_MODE_HIGH_SPEED)
return 0;
BUG_ON(!sd_pads_200mhz);
pad_mode = SD_PAD_MODE_HIGH_SPEED;
return mxc_iomux_v3_setup_multiple_pads(sd_pads_200mhz,
sd_pads_200mhz_cnt);
} else if (clock > 52000000) {
if (pad_mode == SD_PAD_MODE_MED_SPEED)
return 0;
BUG_ON(!sd_pads_100mhz);
pad_mode = SD_PAD_MODE_MED_SPEED;
return mxc_iomux_v3_setup_multiple_pads(sd_pads_100mhz,
sd_pads_100mhz_cnt);
} else {
if (pad_mode == SD_PAD_MODE_LOW_SPEED)
return 0;
BUG_ON(!sd_pads_50mhz);
pad_mode = SD_PAD_MODE_LOW_SPEED;
return mxc_iomux_v3_setup_multiple_pads(sd_pads_50mhz,
sd_pads_50mhz_cnt);
}
}
static const struct esdhc_platform_data mx6q_sabreauto_sd3_data __initconst = {
.cd_gpio = SABREAUTO_SD3_CD,
.wp_gpio = SABREAUTO_SD3_WP,
.keep_power_at_suspend = 1,
.support_18v = 1,
.support_8bit = 1,
.delay_line = 0,
.platform_pad_change = plt_sd_pad_change,
};
static const struct esdhc_platform_data mx6q_sabreauto_sd1_data __initconst = {
.cd_gpio = SABREAUTO_SD1_CD,
.wp_gpio = SABREAUTO_SD1_WP,
.keep_power_at_suspend = 1,
};
static int __init gpmi_nand_platform_init(void)
{
iomux_v3_cfg_t *nand_pads = NULL;
u32 nand_pads_cnt;
if (cpu_is_mx6q()) {
nand_pads = mx6q_gpmi_nand;
nand_pads_cnt = ARRAY_SIZE(mx6q_gpmi_nand);
} else if (cpu_is_mx6dl()) {
nand_pads = mx6dl_gpmi_nand;
nand_pads_cnt = ARRAY_SIZE(mx6dl_gpmi_nand);
}
BUG_ON(!nand_pads);
return mxc_iomux_v3_setup_multiple_pads(nand_pads, nand_pads_cnt);
}
static const struct gpmi_nand_platform_data
mx6q_gpmi_nand_platform_data __initconst = {
.platform_init = gpmi_nand_platform_init,
.min_prop_delay_in_ns = 5,
.max_prop_delay_in_ns = 9,
.max_chip_count = 1,
};
static const struct anatop_thermal_platform_data
mx6q_sabreauto_anatop_thermal_data __initconst = {
.name = "anatop_thermal",
};
static inline void mx6q_sabreauto_init_uart(void)
{
imx6q_add_imx_uart(1, NULL);
imx6q_add_imx_uart(2, NULL);
imx6q_add_imx_uart(3, NULL);
}
static int mx6q_sabreauto_fec_phy_init(struct phy_device *phydev)
{
unsigned short val;
if (!board_is_mx6_reva()) {
/* To enable AR8031 ouput a 125MHz clk from CLK_25M */
phy_write(phydev, 0xd, 0x7);
phy_write(phydev, 0xe, 0x8016);
phy_write(phydev, 0xd, 0x4007);
val = phy_read(phydev, 0xe);
val &= 0xffe3;
val |= 0x18;
phy_write(phydev, 0xe, val);
/* Introduce tx clock delay */
phy_write(phydev, 0x1d, 0x5);
val = phy_read(phydev, 0x1e);
val |= 0x0100;
phy_write(phydev, 0x1e, val);
/*check phy power*/
val = phy_read(phydev, 0x0);
if (val & BMCR_PDOWN)
phy_write(phydev, 0x0, (val & ~BMCR_PDOWN));
} else {
/* prefer master mode, 1000 Base-T capable */
phy_write(phydev, 0x9, 0x0f00);
/* min rx data delay */
phy_write(phydev, 0x0b, 0x8105);
phy_write(phydev, 0x0c, 0x0000);
/* max rx/tx clock delay, min rx/tx control delay */
phy_write(phydev, 0x0b, 0x8104);
phy_write(phydev, 0x0c, 0xf0f0);
phy_write(phydev, 0x0b, 0x104);
}
return 0;
}
static int mx6q_sabreauto_fec_power_hibernate(struct phy_device *phydev)
{
return 0;
}
static struct fec_platform_data fec_data __initdata = {
.init = mx6q_sabreauto_fec_phy_init,
.power_hibernate = mx6q_sabreauto_fec_power_hibernate,
.phy = PHY_INTERFACE_MODE_RGMII,
};
static int mx6q_sabreauto_spi_cs[] = {
SABREAUTO_ECSPI1_CS1,
};
static const struct spi_imx_master mx6q_sabreauto_spi_data __initconst = {
.chipselect = mx6q_sabreauto_spi_cs,
.num_chipselect = ARRAY_SIZE(mx6q_sabreauto_spi_cs),
};
#if defined(CONFIG_MTD_M25P80) || defined(CONFIG_MTD_M25P80_MODULE)
static struct mtd_partition m25p32_partitions[] = {
{
.name = "bootloader",
.offset = 0,
.size = 0x00100000,
}, {
.name = "kernel",
.offset = MTDPART_OFS_APPEND,
.size = MTDPART_SIZ_FULL,
},
};
static struct flash_platform_data m25p32_spi_flash_data = {
.name = "m25p32",
.parts = m25p32_partitions,
.nr_parts = ARRAY_SIZE(m25p32_partitions),
.type = "m25p32",
};
static struct spi_board_info m25p32_spi0_board_info[] __initdata = {
#if defined(CONFIG_MTD_M25P80)
{
/* The modalias must be the same as spi device driver name */
.modalias = "m25p80",
.max_speed_hz = 20000000,
.bus_num = 0,
.chip_select = 0,
.platform_data = &m25p32_spi_flash_data,
},
#endif
};
static void spi_device_init(void)
{
spi_register_board_info(m25p32_spi0_board_info,
ARRAY_SIZE(m25p32_spi0_board_info));
}
#else
static struct mtd_partition mxc_nor_partitions[] = {
{
.name = "Bootloader",
.offset = 0,
.size = 0x00080000,
}, {
.name = "nor.Kernel",
.offset = MTDPART_OFS_APPEND,
.size = MTDPART_SIZ_FULL,
},
};
static struct resource nor_flash_resource = {
.start = CS0_BASE_ADDR,
.end = CS0_BASE_ADDR + 0x02000000 - 1,
.flags = IORESOURCE_MEM,
};
static struct physmap_flash_data nor_flash_data = {
.probe_type = "cfi_probe",
.width = 2,
.parts = mxc_nor_partitions,
.nr_parts = ARRAY_SIZE(mxc_nor_partitions),
};
static struct platform_device physmap_flash_device = {
.name = "physmap-flash",
.id = 0,
.dev = {
.platform_data = &nor_flash_data,
},
.resource = &nor_flash_resource,
.num_resources = 1,
};
static void mx6q_setup_weimcs(void)
{
unsigned int reg;
void __iomem *nor_reg = MX6_IO_ADDRESS(WEIM_BASE_ADDR);
void __iomem *ccm_reg = MX6_IO_ADDRESS(CCM_BASE_ADDR);
/*CCM_BASE_ADDR + CLKCTL_CCGR6*/
reg = readl(ccm_reg + 0x80);
reg |= 0x00000C00;
writel(reg, ccm_reg + 0x80);
__raw_writel(0x00620081, nor_reg);
__raw_writel(0x1C022000, nor_reg + 0x00000008);
__raw_writel(0x0804a240, nor_reg + 0x00000010);
}
#endif
static int max7310_1_setup(struct i2c_client *client,
unsigned gpio_base, unsigned ngpio,
void *context)
{
/* 0 BACKLITE_ON */
/* 1 SAT_SHUTDN_B */
/* 2 CPU_PER_RST_B */
/* 3 MAIN_PER_RST_B */
/* 4 IPOD_RST_B */
/* 5 MLB_RST_B */
/* 6 SSI_STEERING */
/* 7 GPS_RST_B */
int max7310_gpio_value[] = {
0, 1, 1, 1, 0, 0, 1, 0,
};
int n;
for (n = 0; n < ARRAY_SIZE(max7310_gpio_value); ++n) {
gpio_request(gpio_base + n, "MAX7310 1 GPIO Expander");
if (max7310_gpio_value[n] < 0)
gpio_direction_input(gpio_base + n);
else
gpio_direction_output(gpio_base + n,
max7310_gpio_value[n]);
gpio_export(gpio_base + n, 0);
}
return 0;
}
static struct pca953x_platform_data max7310_platdata = {
.gpio_base = SABREAUTO_MAX7310_1_BASE_ADDR,
.invert = 0,
.setup = max7310_1_setup,
};
static int max7310_u39_setup(struct i2c_client *client,
unsigned gpio_base, unsigned ngpio,
void *context)
{
/* 0 not use */
/* 1 GPS_PWREN */
/* 2 VIDEO_ADC_PWRDN_B */
/* 3 ENET_CAN1_STEER */
/* 4 EIMD30_BTUART3_STEER */
/* 5 CAN_STBY */
/* 6 CAN_EN */
/* 7 USB_H1_PWR */
int max7310_gpio_value[] = {
0, 1, 0, 0, 0, 1, 1, 1,
};
int n;
for (n = 0; n < ARRAY_SIZE(max7310_gpio_value); ++n) {
gpio_request(gpio_base + n, "MAX7310 U39 GPIO Expander");
if (max7310_gpio_value[n] < 0)
gpio_direction_input(gpio_base + n);
else
gpio_direction_output(gpio_base + n,
max7310_gpio_value[n]);
gpio_export(gpio_base + n, 0);
}
return 0;
}
static int max7310_u43_setup(struct i2c_client *client,
unsigned gpio_base, unsigned ngpio,
void *context)
{
/*0 PORT_EXP_C0*/
/*1 USB_OTG_PWR_ON */
/*2 SAT_RST_B*/
/*3 NAND_BT_WIFI_STEER*/
int max7310_gpio_value[] = {
0, 0, 0, 0, 0, 0, 0, 0,
};
int n;
if (uart3_en)
max7310_gpio_value[3] = 1;
for (n = 0; n < ARRAY_SIZE(max7310_gpio_value); ++n) {
gpio_request(gpio_base + n, "MAX7310 U43 GPIO Expander");
if (max7310_gpio_value[n] < 0)
gpio_direction_input(gpio_base + n);
else
gpio_direction_output(gpio_base + n,
max7310_gpio_value[n]);
gpio_export(gpio_base + n, 0);
}
return 0;
}
static struct pca953x_platform_data max7310_u39_platdata = {
.gpio_base = SABREAUTO_MAX7310_2_BASE_ADDR,
.invert = 0,
.setup = max7310_u39_setup,
};
static struct pca953x_platform_data max7310_u43_platdata = {
.gpio_base = SABREAUTO_MAX7310_3_BASE_ADDR,
.invert = 0,
.setup = max7310_u43_setup,
};
static struct fsl_mxc_camera_platform_data camera_data = {
.analog_regulator = "DA9052_LDO7",
.core_regulator = "DA9052_LDO9",
.mclk = 24000000,
.csi = 0,
};
static struct fsl_mxc_camera_platform_data ov5640_mipi_data = {
.mclk = 24000000,
.csi = 0,
};
static void adv7180_pwdn(int pwdn)
{
int status = -1;
status = gpio_request(SABREAUTO_VIDEOIN_PWR, "tvin-pwr");
if (pwdn)
gpio_direction_output(SABREAUTO_VIDEOIN_PWR, 0);
else
gpio_direction_output(SABREAUTO_VIDEOIN_PWR, 1);
gpio_free(SABREAUTO_VIDEOIN_PWR);
}
static struct fsl_mxc_tvin_platform_data adv7180_data = {
.dvddio_reg = NULL,
.dvdd_reg = NULL,
.avdd_reg = NULL,
.pvdd_reg = NULL,
.pwdn = adv7180_pwdn,
.reset = NULL,
.cvbs = true,
};
static struct imxi2c_platform_data mx6q_sabreauto_i2c2_data = {
.bitrate = 400000,
};
static struct imxi2c_platform_data mx6q_sabreauto_i2c1_data = {
.bitrate = 100000,
};
static struct mxc_audio_codec_platform_data cs42888_data = {
.rates = (
SNDRV_PCM_RATE_48000 |
SNDRV_PCM_RATE_96000 |
SNDRV_PCM_RATE_192000),
};
static struct fsl_mxc_lightsensor_platform_data ls_data = {
.rext = 499,
};
static struct i2c_board_info mxc_i2c2_board_info[] __initdata = {
{
I2C_BOARD_INFO("max7310", 0x30),
.platform_data = &max7310_platdata,
}, {
I2C_BOARD_INFO("max7310", 0x32),
.platform_data = &max7310_u39_platdata,
}, {
I2C_BOARD_INFO("max7310", 0x34),
.platform_data = &max7310_u43_platdata,
}, {
I2C_BOARD_INFO("adv7180", 0x21),
.platform_data = (void *)&adv7180_data,
}, {
I2C_BOARD_INFO("ov3640", 0x3c),
.platform_data = (void *)&camera_data,
},
{
I2C_BOARD_INFO("isl29023", 0x44),
.irq = gpio_to_irq(SABREAUTO_ALS_INT),
.platform_data = &ls_data,
},
{
I2C_BOARD_INFO("mma8451", 0x1c),
.platform_data = (void *)&mma8451_position,
},
};
static struct i2c_board_info mxc_i2c1_board_info[] __initdata = {
{
I2C_BOARD_INFO("egalax_ts", 0x04),
.irq = gpio_to_irq(SABREAUTO_CAP_TCH_INT),
}, {
I2C_BOARD_INFO("mxc_hdmi_i2c", 0x50),
}, {
I2C_BOARD_INFO("ov5640_mipi", 0x3c),
.platform_data = (void *)&ov5640_mipi_data,
}, {
I2C_BOARD_INFO("cs42888", 0x48),
.platform_data = (void *)&cs42888_data,
},
{
I2C_BOARD_INFO("si4763_i2c", 0x63),
},
};
struct platform_device mxc_si4763_audio_device = {
.name = "imx-tuner-si4763",
.id = 0,
};
struct platform_device si4763_codec_device = {
.name = "si4763",
.id = 0,
};
static struct imx_ssi_platform_data mx6_sabreauto_ssi1_pdata = {
.flags = IMX_SSI_DMA | IMX_SSI_SYN,
};
static struct mxc_audio_platform_data si4763_audio_data = {
.ssi_num = 1,
.src_port = 2,
.ext_port = 5,
};
static void imx6q_sabreauto_usbotg_vbus(bool on)
{
if (on)
gpio_set_value_cansleep(SABREAUTO_USB_OTG_PWR, 1);
else
gpio_set_value_cansleep(SABREAUTO_USB_OTG_PWR, 0);
}
static void imx6q_sabreauto_usbhost1_vbus(bool on)
{
if (on)
gpio_set_value_cansleep(SABREAUTO_USB_HOST1_PWR, 1);
else
gpio_set_value_cansleep(SABREAUTO_USB_HOST1_PWR, 0);
}
static void __init imx6q_sabreauto_init_usb(void)
{
int ret = 0;
imx_otg_base = MX6_IO_ADDRESS(MX6Q_USB_OTG_BASE_ADDR);
ret = gpio_request(SABREAUTO_USB_OTG_OC, "otg-oc");
if (ret) {
printk(KERN_ERR"failed to get GPIO SABREAUTO_USB_OTG_OC:"
" %d\n", ret);
return;
}
gpio_direction_input(SABREAUTO_USB_OTG_OC);
ret = gpio_request(SABREAUTO_USB_HOST1_OC, "usbh1-oc");
if (ret) {
printk(KERN_ERR"failed to get SABREAUTO_USB_HOST1_OC:"
" %d\n", ret);
return;
}
gpio_direction_input(SABREAUTO_USB_HOST1_OC);
mxc_iomux_set_gpr_register(1, 13, 1, 0);
mx6_set_otghost_vbus_func(imx6q_sabreauto_usbotg_vbus);
mx6_usb_dr_init();
mx6_set_host1_vbus_func(imx6q_sabreauto_usbhost1_vbus);
#ifdef CONFIG_USB_EHCI_ARC_HSIC
mx6_usb_h2_init();
mx6_usb_h3_init();
#endif
}
static struct viv_gpu_platform_data imx6q_gpu_pdata __initdata = {
.reserved_mem_size = SZ_128M + SZ_64M,
};
/* HW Initialization, if return 0, initialization is successful. */
static int mx6q_sabreauto_sata_init(struct device *dev, void __iomem *addr)
{
u32 tmpdata;
int ret = 0;
struct clk *clk;
sata_clk = clk_get(dev, "imx_sata_clk");
if (IS_ERR(sata_clk)) {
dev_err(dev, "no sata clock.\n");
return PTR_ERR(sata_clk);
}
ret = clk_enable(sata_clk);
if (ret) {
dev_err(dev, "can't enable sata clock.\n");
goto put_sata_clk;
}
/* Set PHY Paremeters, two steps to configure the GPR13,
* one write for rest of parameters, mask of first write is 0x07FFFFFD,
* and the other one write for setting the mpll_clk_off_b
*.rx_eq_val_0(iomuxc_gpr13[26:24]),
*.los_lvl(iomuxc_gpr13[23:19]),
*.rx_dpll_mode_0(iomuxc_gpr13[18:16]),
*.sata_speed(iomuxc_gpr13[15]),
*.mpll_ss_en(iomuxc_gpr13[14]),
*.tx_atten_0(iomuxc_gpr13[13:11]),
*.tx_boost_0(iomuxc_gpr13[10:7]),
*.tx_lvl(iomuxc_gpr13[6:2]),
*.mpll_ck_off(iomuxc_gpr13[1]),
*.tx_edgerate_0(iomuxc_gpr13[0]),
*/
tmpdata = readl(IOMUXC_GPR13);
writel(((tmpdata & ~0x07FFFFFD) | 0x0593A044), IOMUXC_GPR13);
/* enable SATA_PHY PLL */
tmpdata = readl(IOMUXC_GPR13);
writel(((tmpdata & ~0x2) | 0x2), IOMUXC_GPR13);
/* Get the AHB clock rate, and configure the TIMER1MS reg later */
clk = clk_get(NULL, "ahb");
if (IS_ERR(clk)) {
dev_err(dev, "no ahb clock.\n");
ret = PTR_ERR(clk);
goto release_sata_clk;
}
tmpdata = clk_get_rate(clk) / 1000;
clk_put(clk);
ret = sata_init(addr, tmpdata);
if (ret == 0)
return ret;
release_sata_clk:
clk_disable(sata_clk);
put_sata_clk:
clk_put(sata_clk);
return ret;
}
static void mx6q_sabreauto_sata_exit(struct device *dev)
{
clk_disable(sata_clk);
clk_put(sata_clk);
}
static struct ahci_platform_data mx6q_sabreauto_sata_data = {
.init = mx6q_sabreauto_sata_init,
.exit = mx6q_sabreauto_sata_exit,
};
static struct imx_asrc_platform_data imx_asrc_data = {
.channel_bits = 4,
.clk_map_ver = 2,
};
static void mx6q_sabreauto_reset_mipi_dsi(void)
{
gpio_set_value(SABREAUTO_DISP0_PWR, 1);
gpio_set_value(SABREAUTO_DISP0_RESET, 1);
udelay(10);
gpio_set_value(SABREAUTO_DISP0_RESET, 0);
udelay(50);
gpio_set_value(SABREAUTO_DISP0_RESET, 1);
/*
* it needs to delay 120ms minimum for reset complete
*/
msleep(120);
}
static struct mipi_dsi_platform_data mipi_dsi_pdata = {
.ipu_id = 0,
.disp_id = 0,
.lcd_panel = "TRULY-WVGA",
.reset = mx6q_sabreauto_reset_mipi_dsi,
};
static struct ipuv3_fb_platform_data sabr_fb_data[] = {
{ /*fb0*/
.disp_dev = "ldb",
.interface_pix_fmt = IPU_PIX_FMT_RGB666,
.mode_str = "LDB-XGA",
.default_bpp = 32,
.int_clk = false,
}, {
.disp_dev = "ldb",
.interface_pix_fmt = IPU_PIX_FMT_RGB666,
.mode_str = "LDB-XGA",
.default_bpp = 32,
.int_clk = false,
}, {
.disp_dev = "lcd",
.interface_pix_fmt = IPU_PIX_FMT_RGB565,
.mode_str = "CLAA-WVGA",
.default_bpp = 16,
.int_clk = false,
},
};
static void hdmi_init(int ipu_id, int disp_id)
{
int hdmi_mux_setting;
if ((ipu_id > 1) || (ipu_id < 0)) {
printk(KERN_ERR"Invalid IPU select for HDMI: %d. Set to 0\n",
ipu_id);
ipu_id = 0;
}
if ((disp_id > 1) || (disp_id < 0)) {
printk(KERN_ERR"Invalid DI select for HDMI: %d. Set to 0\n",
disp_id);
disp_id = 0;
}
/* Configure the connection between IPU1/2 and HDMI */
hdmi_mux_setting = 2*ipu_id + disp_id;
/* GPR3, bits 2-3 = HDMI_MUX_CTL */
mxc_iomux_set_gpr_register(3, 2, 2, hdmi_mux_setting);
/* Set HDMI event as SDMA event2 while Chip version later than TO1.2 */
if (hdmi_SDMA_check())
mxc_iomux_set_gpr_register(0, 0, 1, 1);
}
/* On mx6x sabreauto board i2c2 iomux with hdmi ddc,
* the pins default work at i2c2 function,
when hdcp enable, the pins should work at ddc function */
static void hdmi_enable_ddc_pin(void)
{
if (cpu_is_mx6dl())
mxc_iomux_v3_setup_multiple_pads(mx6dl_sabreauto_hdmi_ddc_pads,
ARRAY_SIZE(mx6dl_sabreauto_hdmi_ddc_pads));
else
mxc_iomux_v3_setup_multiple_pads(mx6q_sabreauto_hdmi_ddc_pads,
ARRAY_SIZE(mx6q_sabreauto_hdmi_ddc_pads));
}
static void hdmi_disable_ddc_pin(void)
{
if (cpu_is_mx6dl())
mxc_iomux_v3_setup_multiple_pads(mx6dl_sabreauto_i2c2_pads,
ARRAY_SIZE(mx6dl_sabreauto_i2c2_pads));
else
mxc_iomux_v3_setup_multiple_pads(mx6q_sabreauto_i2c2_pads,
ARRAY_SIZE(mx6q_sabreauto_i2c2_pads));
}
static struct fsl_mxc_hdmi_platform_data hdmi_data = {
.init = hdmi_init,
.enable_pins = hdmi_enable_ddc_pin,
.disable_pins = hdmi_disable_ddc_pin,
};
static struct fsl_mxc_hdmi_core_platform_data hdmi_core_data = {
.ipu_id = 0,
.disp_id = 0,
};
static struct fsl_mxc_lcd_platform_data lcdif_data = {
.ipu_id = 0,
.disp_id = 0,
.default_ifmt = IPU_PIX_FMT_RGB565,
};
static struct fsl_mxc_ldb_platform_data ldb_data = {
.ipu_id = 1,
.disp_id = 0,
.ext_ref = 1,
.mode = LDB_SEP0,
.sec_ipu_id = 1,
.sec_disp_id = 1,
};
static struct imx_ipuv3_platform_data ipu_data[] = {
{
.rev = 4,
.csi_clk[0] = "ccm_clk0",
}, {
.rev = 4,
.csi_clk[0] = "ccm_clk0",
},
};
/* Backlight PWM for CPU board lvds*/
static struct platform_pwm_backlight_data mx6_arm2_pwm_backlight_data3 = {
.pwm_id = 2,
.max_brightness = 255,
.dft_brightness = 128,
.pwm_period_ns = 50000,
};
static struct ion_platform_data imx_ion_data = {
.nr = 1,
.heaps = {
{
.type = ION_HEAP_TYPE_CARVEOUT,
.name = "vpu_ion",
.size = SZ_64M,
},
},
};
/* Backlight PWM for Main board lvds*/
static struct platform_pwm_backlight_data mx6_arm2_pwm_backlight_data4 = {
.pwm_id = 3,
.max_brightness = 255,
.dft_brightness = 128,
.pwm_period_ns = 50000,
};
static int flexcan0_en;
static int flexcan1_en;
static void mx6q_flexcan_switch(void)
{
if (flexcan0_en || flexcan1_en) {
gpio_set_value_cansleep(SABREAUTO_CAN_EN, 1);
gpio_set_value_cansleep(SABREAUTO_CAN_STBY, 1);
/* Enable STEER pin if CAN1 interface is required.
* STEER pin is used to switch between ENET_MDC
* and CAN1_TX functionality. By default ENET_MDC
* is active after reset.
*/
if (flexcan0_en)
gpio_set_value_cansleep(SABREAUTO_CAN1_STEER, 1);
} else {
/* avoid to disable CAN xcvr if any of the CAN interfaces
* are down. XCRV will be disabled only if both CAN2
* interfaces are DOWN.
*/
if (!flexcan0_en && !flexcan1_en) {
gpio_set_value_cansleep(SABREAUTO_CAN_EN, 0);
gpio_set_value_cansleep(SABREAUTO_CAN_STBY, 0);
}
/* turn down STEER pin only if CAN1 is DOWN */
if (!flexcan0_en)
gpio_set_value_cansleep(SABREAUTO_CAN1_STEER, 0);
}
}
static void mx6q_flexcan0_switch(int enable)
{
flexcan0_en = enable;
mx6q_flexcan_switch();
}
static void mx6q_flexcan1_switch(int enable)
{
flexcan1_en = enable;
mx6q_flexcan_switch();
}
static const struct flexcan_platform_data
mx6q_sabreauto_flexcan_pdata[] __initconst = {
{
.transceiver_switch = mx6q_flexcan0_switch,
}, {
.transceiver_switch = mx6q_flexcan1_switch,
}
};
static struct mipi_csi2_platform_data mipi_csi2_pdata = {
.ipu_id = 0,
.csi_id = 0,
.v_channel = 0,
.lanes = 2,
.dphy_clk = "mipi_pllref_clk",
.pixel_clk = "emi_clk",
};
static void sabreauto_suspend_enter(void)
{
/* suspend preparation */
}
static void sabreauto_suspend_exit(void)
{
/* resmue resore */
}
static const struct pm_platform_data mx6q_sabreauto_pm_data __initconst = {
.name = "imx_pm",
.suspend_enter = sabreauto_suspend_enter,
.suspend_exit = sabreauto_suspend_exit,
};
static const struct asrc_p2p_params esai_p2p = {
.p2p_rate = 48000,
.p2p_width = ASRC_WIDTH_24_BIT,
};
static struct mxc_audio_platform_data sab_audio_data = {
.sysclk = 24576000,
.codec_name = "cs42888.1-0048",
.priv = (void *)&esai_p2p,
};
static struct platform_device sab_audio_device = {
.name = "imx-cs42888",
};
static struct imx_esai_platform_data sab_esai_pdata = {
.flags = IMX_ESAI_NET,
};
static struct regulator_consumer_supply sabreauto_vmmc_consumers[] = {
REGULATOR_SUPPLY("vmmc", "sdhci-esdhc-imx.1"),
REGULATOR_SUPPLY("vmmc", "sdhci-esdhc-imx.2"),
REGULATOR_SUPPLY("vmmc", "sdhci-esdhc-imx.3"),
};
static struct regulator_init_data sabreauto_vmmc_init = {
.num_consumer_supplies = ARRAY_SIZE(sabreauto_vmmc_consumers),
.consumer_supplies = sabreauto_vmmc_consumers,
};
static struct fixed_voltage_config sabreauto_vmmc_reg_config = {
.supply_name = "vmmc",
.microvolts = 3300000,
.gpio = -1,
.init_data = &sabreauto_vmmc_init,
};
static struct platform_device sabreauto_vmmc_reg_devices = {
.name = "reg-fixed-voltage",
.id = 0,
.dev = {
.platform_data = &sabreauto_vmmc_reg_config,
},
};
static struct regulator_consumer_supply cs42888_sabreauto_consumer_va = {
.supply = "VA",
.dev_name = "1-0048",
};
static struct regulator_consumer_supply cs42888_sabreauto_consumer_vd = {
.supply = "VD",
.dev_name = "1-0048",
};
static struct regulator_consumer_supply cs42888_sabreauto_consumer_vls = {
.supply = "VLS",
.dev_name = "1-0048",
};
static struct regulator_consumer_supply cs42888_sabreauto_consumer_vlc = {
.supply = "VLC",
.dev_name = "1-0048",
};
static struct regulator_init_data cs42888_sabreauto_va_reg_initdata = {
.num_consumer_supplies = 1,
.consumer_supplies = &cs42888_sabreauto_consumer_va,
};
static struct regulator_init_data cs42888_sabreauto_vd_reg_initdata = {
.num_consumer_supplies = 1,
.consumer_supplies = &cs42888_sabreauto_consumer_vd,
};
static struct regulator_init_data cs42888_sabreauto_vls_reg_initdata = {
.num_consumer_supplies = 1,
.consumer_supplies = &cs42888_sabreauto_consumer_vls,
};
static struct regulator_init_data cs42888_sabreauto_vlc_reg_initdata = {
.num_consumer_supplies = 1,
.consumer_supplies = &cs42888_sabreauto_consumer_vlc,
};
static struct fixed_voltage_config cs42888_sabreauto_va_reg_config = {
.supply_name = "VA",
.microvolts = 2800000,
.gpio = -1,
.init_data = &cs42888_sabreauto_va_reg_initdata,
};
static struct fixed_voltage_config cs42888_sabreauto_vd_reg_config = {
.supply_name = "VD",
.microvolts = 2800000,
.gpio = -1,
.init_data = &cs42888_sabreauto_vd_reg_initdata,
};
static struct fixed_voltage_config cs42888_sabreauto_vls_reg_config = {
.supply_name = "VLS",
.microvolts = 2800000,
.gpio = -1,
.init_data = &cs42888_sabreauto_vls_reg_initdata,
};
static struct fixed_voltage_config cs42888_sabreauto_vlc_reg_config = {
.supply_name = "VLC",
.microvolts = 2800000,
.gpio = -1,
.init_data = &cs42888_sabreauto_vlc_reg_initdata,
};
static struct platform_device cs42888_sabreauto_va_reg_devices = {
.name = "reg-fixed-voltage",
.id = 3,
.dev = {
.platform_data = &cs42888_sabreauto_va_reg_config,
},
};
static struct platform_device cs42888_sabreauto_vd_reg_devices = {
.name = "reg-fixed-voltage",
.id = 4,
.dev = {
.platform_data = &cs42888_sabreauto_vd_reg_config,
},
};
static struct platform_device cs42888_sabreauto_vls_reg_devices = {
.name = "reg-fixed-voltage",
.id = 5,
.dev = {
.platform_data = &cs42888_sabreauto_vls_reg_config,
},
};
static struct platform_device cs42888_sabreauto_vlc_reg_devices = {
.name = "reg-fixed-voltage",
.id = 6,
.dev = {
.platform_data = &cs42888_sabreauto_vlc_reg_config,
},
};
static int __init imx6q_init_audio(void)
{
struct clk *pll4_clk, *esai_clk, *anaclk_2;
mxc_register_device(&sab_audio_device, &sab_audio_data);
imx6q_add_imx_esai(0, &sab_esai_pdata);
gpio_request(SABREAUTO_ESAI_INT, "esai-int");
gpio_direction_input(SABREAUTO_ESAI_INT);
anaclk_2 = clk_get(NULL, "anaclk_2");
if (IS_ERR(anaclk_2))
return PTR_ERR(anaclk_2);
clk_set_rate(anaclk_2, 24576000);
esai_clk = clk_get(NULL, "esai_clk");
if (IS_ERR(esai_clk))
return PTR_ERR(esai_clk);
pll4_clk = clk_get(NULL, "pll4");
if (IS_ERR(pll4_clk))
return PTR_ERR(pll4_clk);
clk_set_parent(pll4_clk, anaclk_2);
clk_set_parent(esai_clk, pll4_clk);
clk_set_rate(pll4_clk, 786432000);
clk_set_rate(esai_clk, 24576000);
platform_device_register(&cs42888_sabreauto_va_reg_devices);
platform_device_register(&cs42888_sabreauto_vd_reg_devices);
platform_device_register(&cs42888_sabreauto_vls_reg_devices);
platform_device_register(&cs42888_sabreauto_vlc_reg_devices);
return 0;
}
static struct mxc_mlb_platform_data mx6_sabreauto_mlb150_data = {
.reg_nvcc = NULL,
.mlb_clk = "mlb150_clk",
.mlb_pll_clk = "pll6",
};
static struct mxc_dvfs_platform_data sabreauto_dvfscore_data = {
.reg_id = "cpu_vddgp",
.soc_id = "cpu_vddsoc",
.pu_id = "cpu_vddvpu",
.clk1_id = "cpu_clk",
.clk2_id = "gpc_dvfs_clk",
.gpc_cntr_offset = MXC_GPC_CNTR_OFFSET,
.ccm_cdcr_offset = MXC_CCM_CDCR_OFFSET,
.ccm_cacrr_offset = MXC_CCM_CACRR_OFFSET,
.ccm_cdhipr_offset = MXC_CCM_CDHIPR_OFFSET,
.prediv_mask = 0x1F800,
.prediv_offset = 11,
.prediv_val = 3,
.div3ck_mask = 0xE0000000,
.div3ck_offset = 29,
.div3ck_val = 2,
.emac_val = 0x08,
.upthr_val = 25,
.dnthr_val = 9,
.pncthr_val = 33,
.upcnt_val = 10,
.dncnt_val = 10,
.delay_time = 80,
};
static void __init fixup_mxc_board(struct machine_desc *desc, struct tag *tags,
char **cmdline, struct meminfo *mi)
{
}
static int __init early_enable_mipi_sensor(char *p)
{
mipi_sensor = 1;
return 0;
}
early_param("mipi_sensor", early_enable_mipi_sensor);
static int __init early_enable_can0(char *p)
{
can0_enable = 1;
return 0;
}
early_param("can0", early_enable_can0);
static inline void __init mx6q_csi0_io_init(void)
{
/* Camera reset */
gpio_request(SABREAUTO_CSI0_RST, "cam-reset");
gpio_direction_output(SABREAUTO_CSI0_RST, 1);
/* Camera power down */
gpio_request(SABREAUTO_CSI0_PWN, "cam-pwdn");
gpio_direction_output(SABREAUTO_CSI0_PWN, 1);
msleep(1);
gpio_set_value(SABREAUTO_CSI0_PWN, 0);
if (cpu_is_mx6q())
mxc_iomux_set_gpr_register(1, 19, 1, 1);
else if (cpu_is_mx6dl())
mxc_iomux_set_gpr_register(13, 0, 3, 4);
}
static struct mxc_spdif_platform_data mxc_spdif_data = {
.spdif_tx = 0, /* disable tx */
.spdif_rx = 1, /* enable rx */
.spdif_rx_clk = 0, /* rx clk from spdif stream */
.spdif_clk = NULL, /* spdif bus clk */
};
static struct fsl_mxc_capture_platform_data capture_data[] = {
{
.csi = 0,
.ipu = 0,
.mclk_source = 0,
.is_mipi = 0,
}, {
.csi = 1,
.ipu = 0,
.mclk_source = 0,
.is_mipi = 1,
},
};
static const struct imx_pcie_platform_data mx6_sabreauto_pcie_data __initconst = {
.pcie_pwr_en = -EINVAL,
.pcie_rst = SABREAUTO_PCIE_RST_B_REVB,
.pcie_wake_up = -EINVAL,
.pcie_dis = -EINVAL,
};
/*!
* Board specific initialization.
*/
static void __init mx6_board_init(void)
{
int i;
int ret;
iomux_v3_cfg_t *common_pads = NULL;
iomux_v3_cfg_t *can0_pads = NULL;
iomux_v3_cfg_t *can1_pads = NULL;
iomux_v3_cfg_t *mipi_sensor_pads = NULL;
iomux_v3_cfg_t *i2c3_pads = NULL;
iomux_v3_cfg_t *tuner_pads = NULL;
iomux_v3_cfg_t *spinor_pads = NULL;
iomux_v3_cfg_t *weimnor_pads = NULL;
int common_pads_cnt;
int can0_pads_cnt;
int can1_pads_cnt;
int mipi_sensor_pads_cnt;
int i2c3_pads_cnt;
int tuner_pads_cnt;
int spinor_pads_cnt;
int weimnor_pads_cnt;
if (cpu_is_mx6q()) {
common_pads = mx6q_sabreauto_pads;
can0_pads = mx6q_sabreauto_can0_pads;
can1_pads = mx6q_sabreauto_can1_pads;
mipi_sensor_pads = mx6q_sabreauto_mipi_sensor_pads;
tuner_pads = mx6q_tuner_pads;
spinor_pads = mx6q_spinor_pads;
weimnor_pads = mx6q_weimnor_pads;
common_pads_cnt = ARRAY_SIZE(mx6q_sabreauto_pads);
can0_pads_cnt = ARRAY_SIZE(mx6q_sabreauto_can0_pads);
can1_pads_cnt = ARRAY_SIZE(mx6q_sabreauto_can1_pads);
mipi_sensor_pads_cnt = ARRAY_SIZE(mx6q_sabreauto_mipi_sensor_pads);
tuner_pads_cnt = ARRAY_SIZE(mx6q_tuner_pads);
spinor_pads_cnt = ARRAY_SIZE(mx6q_spinor_pads);
weimnor_pads_cnt = ARRAY_SIZE(mx6q_weimnor_pads);
if (board_is_mx6_reva()) {
i2c3_pads = mx6q_i2c3_pads_rev_a;
i2c3_pads_cnt = ARRAY_SIZE(mx6q_i2c3_pads_rev_a);
} else {
i2c3_pads = mx6q_i2c3_pads_rev_b;
i2c3_pads_cnt = ARRAY_SIZE(mx6q_i2c3_pads_rev_b);
}
} else if (cpu_is_mx6dl()) {
common_pads = mx6dl_sabreauto_pads;
can0_pads = mx6dl_sabreauto_can0_pads;
can1_pads = mx6dl_sabreauto_can1_pads;
mipi_sensor_pads = mx6dl_sabreauto_mipi_sensor_pads;
tuner_pads = mx6dl_tuner_pads;
spinor_pads = mx6dl_spinor_pads;
weimnor_pads = mx6dl_weimnor_pads;
common_pads_cnt = ARRAY_SIZE(mx6dl_sabreauto_pads);
can0_pads_cnt = ARRAY_SIZE(mx6dl_sabreauto_can0_pads);
can1_pads_cnt = ARRAY_SIZE(mx6dl_sabreauto_can1_pads);
mipi_sensor_pads_cnt = ARRAY_SIZE(mx6dl_sabreauto_mipi_sensor_pads);
tuner_pads_cnt = ARRAY_SIZE(mx6dl_tuner_pads);
spinor_pads_cnt = ARRAY_SIZE(mx6dl_spinor_pads);
weimnor_pads_cnt = ARRAY_SIZE(mx6dl_weimnor_pads);
if (board_is_mx6_reva()) {
i2c3_pads = mx6dl_i2c3_pads_rev_a;
i2c3_pads_cnt = ARRAY_SIZE(mx6dl_i2c3_pads_rev_a);
} else {
i2c3_pads = mx6dl_i2c3_pads_rev_b;
i2c3_pads_cnt = ARRAY_SIZE(mx6dl_i2c3_pads_rev_b);
}
}
BUG_ON(!common_pads);
mxc_iomux_v3_setup_multiple_pads(common_pads, common_pads_cnt);
/*If at least one NOR memory is selected we don't configure IC23 PADS*/
if (spinor_en) {
BUG_ON(!spinor_pads);
mxc_iomux_v3_setup_multiple_pads(spinor_pads, spinor_pads_cnt);
} else if (weimnor_en) {
BUG_ON(!weimnor_pads);
mxc_iomux_v3_setup_multiple_pads(weimnor_pads,
weimnor_pads_cnt);
} else {
BUG_ON(!i2c3_pads);
mxc_iomux_v3_setup_multiple_pads(i2c3_pads, i2c3_pads_cnt);
}
if (can0_enable) {
BUG_ON(!can0_pads);
mxc_iomux_v3_setup_multiple_pads(can0_pads,
can0_pads_cnt);
}
BUG_ON(!can1_pads);
mxc_iomux_v3_setup_multiple_pads(can1_pads, can1_pads_cnt);
if (tuner_en) {
BUG_ON(!tuner_pads);
mxc_iomux_v3_setup_multiple_pads(tuner_pads,
tuner_pads_cnt);
}
/* assert i2c-rst */
gpio_request(SABREAUTO_I2C_EXP_RST, "i2c-rst");
gpio_direction_output(SABREAUTO_I2C_EXP_RST, 1);
if (!board_is_mx6_reva()) {
/* enable either EIM_D18 or i2c3_sda route path */
gpio_request(SABREAUTO_I2C3_STEER, "i2c3-steer");
if (spinor_en)
gpio_direction_output(SABREAUTO_I2C3_STEER, 0);
else if (weimnor_en) {
/*Put DISP0_DAT8 in ALT5 mode to prevent WDOG1 of
resetting WEIM NOR*/
gpio_direction_output(SABREAUTO_I2C3_STEER, 0);
gpio_request(SABREAUTO_WEIM_NOR_WDOG1, "nor-reset");
gpio_direction_output(SABREAUTO_WEIM_NOR_WDOG1, 1);
} else
gpio_direction_output(SABREAUTO_I2C3_STEER, 1);
/* Set GPIO_16 input for IEEE-1588 ts_clk and
* RMII reference clk
* For MX6 GPR1 bit21 meaning:
* Bit21: 0 - GPIO_16 pad output
* 1 - GPIO_16 pad input
*/
mxc_iomux_set_gpr_register(1, 21, 1, 1);
}
if (mipi_sensor) {
BUG_ON(!mipi_sensor_pads);
mxc_iomux_v3_setup_multiple_pads(mipi_sensor_pads,
mipi_sensor_pads_cnt);
}
gp_reg_id = sabreauto_dvfscore_data.reg_id;
soc_reg_id = sabreauto_dvfscore_data.soc_id;
pu_reg_id = sabreauto_dvfscore_data.pu_id;
mx6q_sabreauto_init_uart();
imx6q_add_mipi_csi2(&mipi_csi2_pdata);
if (cpu_is_mx6dl()) {
mipi_dsi_pdata.ipu_id = 0;
mipi_dsi_pdata.disp_id = 1;
ldb_data.ipu_id = 0;
ldb_data.disp_id = 0;
ldb_data.sec_ipu_id = 0;
ldb_data.sec_disp_id = 1;
hdmi_core_data.disp_id = 1;
}
imx6q_add_mxc_hdmi_core(&hdmi_core_data);
imx6q_add_ipuv3(0, &ipu_data[0]);
if (cpu_is_mx6q()) {
imx6q_add_ipuv3(1, &ipu_data[1]);
for (i = 0; i < ARRAY_SIZE(sabr_fb_data); i++)
imx6q_add_ipuv3fb(i, &sabr_fb_data[i]);
} else if (cpu_is_mx6dl())
for (i = 0; i < (ARRAY_SIZE(sabr_fb_data) + 1) / 2; i++)
imx6q_add_ipuv3fb(i, &sabr_fb_data[i]);
imx6q_add_vdoa();
imx6q_add_mipi_dsi(&mipi_dsi_pdata);
imx6q_add_lcdif(&lcdif_data);
imx6q_add_ldb(&ldb_data);
imx6q_add_v4l2_output(0);
imx6q_add_v4l2_capture(0, &capture_data[0]);
imx6q_add_v4l2_capture(1, &capture_data[1]);
imx6q_add_android_device_buttons();
imx6q_add_imx_snvs_rtc();
imx6q_add_imx_caam();
imx6q_add_imx_i2c(1, &mx6q_sabreauto_i2c1_data);
i2c_register_board_info(1, mxc_i2c1_board_info,
ARRAY_SIZE(mxc_i2c1_board_info));
imx6q_add_imx_i2c(2, &mx6q_sabreauto_i2c2_data);
i2c_register_board_info(2, mxc_i2c2_board_info,
ARRAY_SIZE(mxc_i2c2_board_info));
ret = gpio_request(SABREAUTO_PMIC_INT, "pFUZE-int");
if (ret) {
printk(KERN_ERR"request pFUZE-int error!!\n");
return;
} else {
gpio_direction_input(SABREAUTO_PMIC_INT);
mx6q_sabreauto_init_pfuze100(SABREAUTO_PMIC_INT);
}
/* SPI */
imx6q_add_ecspi(0, &mx6q_sabreauto_spi_data);
#if defined(CONFIG_MTD_M25P80) || defined(CONFIG_MTD_M25P80_MODULE)
spi_device_init();
#else
mx6q_setup_weimcs();
platform_device_register(&physmap_flash_device);
#endif
imx6q_add_mxc_hdmi(&hdmi_data);
imx6q_add_anatop_thermal_imx(1, &mx6q_sabreauto_anatop_thermal_data);
if (!can0_enable)
imx6_init_fec(fec_data);
imx6q_add_pm_imx(0, &mx6q_sabreauto_pm_data);
imx6q_add_sdhci_usdhc_imx(2, &mx6q_sabreauto_sd3_data);
imx6q_add_sdhci_usdhc_imx(0, &mx6q_sabreauto_sd1_data);
imx_add_viv_gpu(&imx6_gpu_data, &imx6q_gpu_pdata);
imx6q_sabreauto_init_usb();
if (cpu_is_mx6q())
imx6q_add_ahci(0, &mx6q_sabreauto_sata_data);
imx6q_add_vpu();
imx6q_init_audio();
platform_device_register(&sabreauto_vmmc_reg_devices);
mx6_cpu_regulator_init();
imx_asrc_data.asrc_core_clk = clk_get(NULL, "asrc_clk");
imx_asrc_data.asrc_audio_clk = clk_get(NULL, "asrc_serial_clk");
imx6q_add_asrc(&imx_asrc_data);
if (!mipi_sensor)
mx6q_csi0_io_init();
/* DISP0 Detect */
gpio_request(SABREAUTO_DISP0_DET_INT, "disp0-detect");
gpio_direction_input(SABREAUTO_DISP0_DET_INT);
/* DISP0 Reset - Assert for i2c disabled mode */
gpio_request(SABREAUTO_DISP0_RESET, "disp0-reset");
gpio_direction_output(SABREAUTO_DISP0_RESET, 0);
/* DISP0 I2C enable */
gpio_request(SABREAUTO_DISP0_I2C_EN, "disp0-i2c");
gpio_direction_output(SABREAUTO_DISP0_I2C_EN, 0);
gpio_request(SABREAUTO_DISP0_PWR, "disp0-pwr");
gpio_direction_output(SABREAUTO_DISP0_PWR, 1);
gpio_request(SABREAUTO_LDB_BACKLIGHT3, "ldb-backlight3");
gpio_direction_output(SABREAUTO_LDB_BACKLIGHT3, 1);
gpio_request(SABREAUTO_LDB_BACKLIGHT4, "ldb-backlight4");
gpio_direction_output(SABREAUTO_LDB_BACKLIGHT4, 1);
imx6q_add_otp();
imx6q_add_viim();
imx6q_add_imx2_wdt(0, NULL);
imx6q_add_dma();
if (!uart3_en)
imx6q_add_gpmi(&mx6q_gpmi_nand_platform_data);
imx6q_add_dvfs_core(&sabreauto_dvfscore_data);
imx6q_add_ion(0, &imx_ion_data,
sizeof(imx_ion_data) + sizeof(struct ion_platform_heap));
imx6q_add_mxc_pwm(2);
imx6q_add_mxc_pwm(3);
imx6q_add_mxc_pwm_backlight(2, &mx6_arm2_pwm_backlight_data3);
imx6q_add_mxc_pwm_backlight(3, &mx6_arm2_pwm_backlight_data4);
mxc_spdif_data.spdif_core_clk = clk_get_sys("mxc_spdif.0", NULL);
clk_put(mxc_spdif_data.spdif_core_clk);
imx6q_add_spdif(&mxc_spdif_data);
imx6q_add_spdif_dai();
imx6q_add_spdif_audio_device();
if (can0_enable)
imx6q_add_flexcan0(&mx6q_sabreauto_flexcan_pdata[0]);
imx6q_add_flexcan1(&mx6q_sabreauto_flexcan_pdata[1]);
imx6q_add_hdmi_soc();
imx6q_add_hdmi_soc_dai();
imx6q_add_mlb150(&mx6_sabreauto_mlb150_data);
/* Tuner audio interface */
imx6q_add_imx_ssi(1, &mx6_sabreauto_ssi1_pdata);
mxc_register_device(&si4763_codec_device, NULL);
mxc_register_device(&mxc_si4763_audio_device, &si4763_audio_data);
imx6q_add_busfreq();
/* Add PCIe RC interface support */
imx6q_add_pcie(&mx6_sabreauto_pcie_data);
imx6q_add_perfmon(0);
imx6q_add_perfmon(1);
imx6q_add_perfmon(2);
}
extern void __iomem *twd_base;
static void __init mx6_timer_init(void)
{
struct clk *uart_clk;
#ifdef CONFIG_LOCAL_TIMERS
twd_base = ioremap(LOCAL_TWD_ADDR, SZ_256);
BUG_ON(!twd_base);
#endif
mx6_clocks_init(32768, 24000000, 0, 0);
uart_clk = clk_get_sys("imx-uart.0", NULL);
early_console_setup(UART4_BASE_ADDR, uart_clk);
}
static struct sys_timer mxc_timer = {
.init = mx6_timer_init,
};
static void __init mx6q_reserve(void)
{
phys_addr_t phys;
#if defined(CONFIG_MXC_GPU_VIV) || defined(CONFIG_MXC_GPU_VIV_MODULE)
if (imx6q_gpu_pdata.reserved_mem_size) {
phys = memblock_alloc_base(imx6q_gpu_pdata.reserved_mem_size,
SZ_4K, SZ_2G);
memblock_remove(phys, imx6q_gpu_pdata.reserved_mem_size);
imx6q_gpu_pdata.reserved_mem_base = phys;
}
#endif
#if defined(CONFIG_ION)
if (imx_ion_data.heaps[0].size) {
phys = memblock_alloc(imx_ion_data.heaps[0].size, SZ_4K);
memblock_free(phys, imx_ion_data.heaps[0].size);
memblock_remove(phys, imx_ion_data.heaps[0].size);
imx_ion_data.heaps[0].base = phys;
}
#endif
}
MACHINE_START(MX6Q_SABREAUTO, "Freescale i.MX 6Quad/DualLite/Solo Sabre Auto Board")
.boot_params = MX6_PHYS_OFFSET + 0x100,
.fixup = fixup_mxc_board,
.map_io = mx6_map_io,
.init_irq = mx6_init_irq,
.init_machine = mx6_board_init,
.timer = &mxc_timer,
.reserve = mx6q_reserve,
MACHINE_END
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