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|
/*
* arch/arm/mach-tegra/board-colibri_t30.c
*
* Copyright (c) 2012-2013 Toradex, Inc.
*
* This source code is licensed under the GNU General Public License,
* Version 2. See the file COPYING for more details.
*/
#include <asm/mach/arch.h>
#include <asm/mach-types.h>
#include <linux/clk.h>
#include <linux/colibri_usb.h>
#include <linux/types.h> /* required by linux/gpio_keys.h */
#include <linux/gpio_keys.h>
#include <linux/i2c.h>
#include <linux/i2c-tegra.h>
#include <linux/input.h>
#include <linux/io.h>
#include <linux/leds_pwm.h>
#include <linux/lm95245.h>
#include <linux/mfd/stmpe.h>
#include <linux/platform_data/tegra_usb.h>
#include <linux/platform_device.h>
#include <linux/serial_8250.h>
#include <linux/spi/spi.h>
#include <linux/spi-tegra.h>
#include <linux/tegra_uart.h>
#include <mach/io_dpd.h>
#include <mach/sdhci.h>
#include <mach/tegra_asoc_pdata.h>
#include <mach/tegra_fiq_debugger.h>
#include <mach/thermal.h>
#include <mach/usb_phy.h>
#include <mach/w1.h>
#include "board-colibri_t30.h"
#include "board.h"
#include "clock.h"
#include "devices.h"
#include "gpio-names.h"
#include "pm.h"
/* ADC */
//TODO
/* Audio */
static struct tegra_asoc_platform_data colibri_t30_audio_sgtl5000_pdata = {
.gpio_spkr_en = -1,
.gpio_hp_det = -1,
.gpio_hp_mute = -1,
.gpio_int_mic_en = -1,
.gpio_ext_mic_en = -1,
.i2s_param[HIFI_CODEC] = {
.audio_port_id = 0, /* index of below registered
tegra_i2s_device */
.i2s_mode = TEGRA_DAIFMT_I2S,
.is_i2s_master = 1,
.sample_size = 16,
},
.i2s_param[BASEBAND] = {
.audio_port_id = -1,
},
.i2s_param[BT_SCO] = {
.audio_port_id = -1,
},
};
static struct platform_device colibri_t30_audio_sgtl5000_device = {
.name = "tegra-snd-colibri_t30-sgtl5000",
.id = 0,
.dev = {
.platform_data = &colibri_t30_audio_sgtl5000_pdata,
},
};
#ifdef CONFIG_TEGRA_CAMERA
/* Camera */
static struct platform_device tegra_camera = {
.name = "tegra_camera",
.id = -1,
};
#endif /* CONFIG_TEGRA_CAMERA */
/* Clocks */
static struct tegra_clk_init_table colibri_t30_clk_init_table[] __initdata = {
/* name parent rate enabled */
{"audio1", "i2s1_sync", 0, false},
{"audio2", "i2s2_sync", 0, false},
{"audio3", "i2s3_sync", 0, false},
{"blink", "clk_32k", 32768, true},
{"d_audio", "clk_m", 12000000, false},
{"dam0", "clk_m", 12000000, false},
{"dam1", "clk_m", 12000000, false},
{"dam2", "clk_m", 12000000, false},
//required?
{"hda", "pll_p", 108000000, false},
{"hda2codec_2x","pll_p", 48000000, false},
{"i2c1", "pll_p", 3200000, false},
{"i2c2", "pll_p", 3200000, false},
{"i2c3", "pll_p", 3200000, false},
{"i2c4", "pll_p", 3200000, false},
{"i2c5", "pll_p", 3200000, false},
{"i2s0", "pll_a_out0", 0, false},
{"i2s1", "pll_a_out0", 0, false},
{"i2s2", "pll_a_out0", 0, false},
{"i2s3", "pll_a_out0", 0, false},
{"pll_m", NULL, 0, false},
{"pwm", "pll_p", 3187500, false},
{"spdif_out", "pll_a_out0", 0, false},
{"vi", "pll_p", 0, false},
{"vi_sensor", "pll_p", 150000000, false},
{NULL, NULL, 0, 0},
};
/* GPIO */
#define DDC_SCL TEGRA_GPIO_PV4 /* X2-15 */
#define DDC_SDA TEGRA_GPIO_PV5 /* X2-16 */
#ifdef COLIBRI_T30_V10
#define EMMC_DETECT TEGRA_GPIO_PC7
#endif
#define EN_MIC_GND TEGRA_GPIO_PT1
#define FUSION_PEN_DOWN TEGRA_GPIO_PY6 /* SODIMM 103 */
#define FUSION_RESET TEGRA_GPIO_PY7 /* SODIMM 101 */
#define I2C_SCL TEGRA_GPIO_PC4 /* SODIMM 196 */
#define I2C_SDA TEGRA_GPIO_PC5 /* SODIMM 194 */
#define LAN_EXT_WAKEUP TEGRA_GPIO_PDD1
#define LAN_PME TEGRA_GPIO_PDD3
#define LAN_RESET TEGRA_GPIO_PDD0
#define LAN_V_BUS TEGRA_GPIO_PDD2
#ifdef COLIBRI_T30_V10
#define MMC_CD TEGRA_GPIO_PU6 /* SODIMM 43 */
#else
#define MMC_CD TEGRA_GPIO_PC7 /* SODIMM 43 */
#endif
#define PWR_I2C_SCL TEGRA_GPIO_PZ6
#define PWR_I2C_SDA TEGRA_GPIO_PZ7
#define TOUCH_PEN_INT TEGRA_GPIO_PV0
#define THERMD_ALERT TEGRA_GPIO_PD2
#define USBC_DET TEGRA_GPIO_PK5 /* SODIMM 137 */
#define USBH_OC TEGRA_GPIO_PW3 /* SODIMM 131 */
#define USBH_PEN TEGRA_GPIO_PW2 /* SODIMM 129 */
//TODO: sysfs GPIO exports
/* I2C */
/* Make sure that the pinmuxing enable the 'open drain' feature for pins used
for I2C */
/* GEN1_I2C: I2C_SDA/SCL on SODIMM pin 194/196 (e.g. RTC on carrier board) */
static struct i2c_board_info colibri_t30_i2c_bus1_board_info[] __initdata = {
{
/* M41T0M6 real time clock on Iris carrier board */
I2C_BOARD_INFO("rtc-ds1307", 0x68),
.type = "m41t00",
},
#ifdef CONFIG_TOUCHSCREEN_FUSION_F0710A
{
/* TouchRevolution Fusion 7 and 10 multi-touch controller */
I2C_BOARD_INFO("fusion_F0710A", 0x10),
},
#endif /* CONFIG_TOUCHSCREEN_FUSION_F0710A */
};
static struct tegra_i2c_platform_data colibri_t30_i2c1_platform_data = {
.adapter_nr = 0,
.arb_recovery = arb_lost_recovery,
.bus_clk_rate = {400000, 0},
.bus_count = 1,
.scl_gpio = {I2C_SCL, 0},
.sda_gpio = {I2C_SDA, 0},
.slave_addr = 0x00FC,
};
/* GEN2_I2C: unused */
/* DDC_CLOCK/DATA on X3 pin 15/16 (e.g. display EDID) */
static struct tegra_i2c_platform_data colibri_t30_i2c4_platform_data = {
.adapter_nr = 3,
.arb_recovery = arb_lost_recovery,
.bus_clk_rate = {10000, 10000},
.bus_count = 1,
.scl_gpio = {DDC_SCL, 0},
.sda_gpio = {DDC_SDA, 0},
.slave_addr = 0x00FC,
};
/* PWR_I2C: power I2C to audio codec, PMIC, temperature sensor and touch screen
controller */
/* STMPE811 touch screen controller */
static struct stmpe_ts_platform_data stmpe811_ts_data = {
.adc_freq = 1, /* 3.25 MHz ADC clock speed */
.ave_ctrl = 3, /* 8 sample average control */
.fraction_z = 7, /* 7 length fractional part in z */
.i_drive = 1, /* 50 mA typical 80 mA max touchscreen
drivers current limit value */
.mod_12b = 1, /* 12-bit ADC */
.ref_sel = 0, /* internal ADC reference */
.sample_time = 4, /* ADC converstion time: 80 clocks */
.settling = 3, /* 1 ms panel driver settling time */
.touch_det_delay = 5, /* 5 ms touch detect interrupt delay */
};
static struct stmpe_platform_data stmpe811_data = {
.blocks = STMPE_BLOCK_TOUCHSCREEN,
.id = 1,
.irq_base = STMPE811_IRQ_BASE,
.irq_trigger = IRQF_TRIGGER_FALLING,
.ts = &stmpe811_ts_data,
};
static void lm95245_probe_callback(struct device *dev);
static struct lm95245_platform_data colibri_t30_lm95245_pdata = {
.enable_os_pin = true,
.probe_callback = lm95245_probe_callback,
};
static struct i2c_board_info colibri_t30_i2c_bus5_board_info[] __initdata = {
{
/* SGTL5000 audio codec */
I2C_BOARD_INFO("sgtl5000", 0x0a),
},
{
/* STMPE811 touch screen controller */
I2C_BOARD_INFO("stmpe", 0x41),
.flags = I2C_CLIENT_WAKE,
.platform_data = &stmpe811_data,
.type = "stmpe811",
},
{
/* LM95245 temperature sensor
Note: OVERT_N directly connected to PMIC PWRDN */
I2C_BOARD_INFO("lm95245", 0x4c),
.platform_data = &colibri_t30_lm95245_pdata,
},
};
static struct tegra_i2c_platform_data colibri_t30_i2c5_platform_data = {
.adapter_nr = 4,
.arb_recovery = arb_lost_recovery,
.bus_clk_rate = {400000, 0},
.bus_count = 1,
.scl_gpio = {PWR_I2C_SCL, 0},
.sda_gpio = {PWR_I2C_SDA, 0},
};
static void __init colibri_t30_i2c_init(void)
{
tegra_i2c_device1.dev.platform_data = &colibri_t30_i2c1_platform_data;
tegra_i2c_device4.dev.platform_data = &colibri_t30_i2c4_platform_data;
tegra_i2c_device5.dev.platform_data = &colibri_t30_i2c5_platform_data;
platform_device_register(&tegra_i2c_device1);
platform_device_register(&tegra_i2c_device4);
platform_device_register(&tegra_i2c_device5);
#ifdef CONFIG_TOUCHSCREEN_FUSION_F0710A
if ((gpio_request(FUSION_PEN_DOWN, "103, Iris X16-15 Pen") == 0) &&
(gpio_direction_input(FUSION_PEN_DOWN) == 0)) {
gpio_export(FUSION_PEN_DOWN, 0);
} else {
printk(KERN_ERR "Could not obtain GPIO for Fusion pen down\n");
return;
}
if ((gpio_request(FUSION_RESET, "101, Iris X16-16 RST") == 0) &&
(gpio_direction_output(FUSION_RESET, 1) == 0)) {
gpio_direction_output(FUSION_RESET, 0);
mdelay(10);
gpio_direction_output(FUSION_RESET, 1);
} else {
printk(KERN_ERR "Could not obtain GPIO for Fusion reset\n");
return;
}
colibri_t30_i2c_bus1_board_info[1].irq = gpio_to_irq(FUSION_PEN_DOWN);
#endif /* CONFIG_TOUCHSCREEN_FUSION_F0710A */
i2c_register_board_info(0, colibri_t30_i2c_bus1_board_info,
ARRAY_SIZE(colibri_t30_i2c_bus1_board_info));
/* enable touch interrupt GPIO */
gpio_request(TOUCH_PEN_INT, "TOUCH_PEN_INT");
gpio_direction_input(TOUCH_PEN_INT);
colibri_t30_i2c_bus5_board_info[1].irq = gpio_to_irq(TOUCH_PEN_INT);
i2c_register_board_info(4, colibri_t30_i2c_bus5_board_info,
ARRAY_SIZE(colibri_t30_i2c_bus5_board_info));
}
/* Keys
Note: active-low means pull-ups required on carrier board resp. via
pin-muxing
Note2: power-key active-high due to EvalBoard v3.1a having 100 K pull-down
on SODIMM pin 45 */
#ifdef CONFIG_KEYBOARD_GPIO
#define GPIO_KEY(_id, _gpio, _lowactive, _iswake) \
{ \
.code = _id, \
.gpio = TEGRA_GPIO_##_gpio, \
.active_low = _lowactive, \
.desc = #_id, \
.type = EV_KEY, \
.wakeup = _iswake, \
.debounce_interval = 10, \
}
static struct gpio_keys_button colibri_t30_keys[] = {
#ifndef COLIBRI_T30_VI
GPIO_KEY(KEY_FIND, PCC2, 1, 0), /* SODIMM pin 77 */
#endif
GPIO_KEY(KEY_HOME, PT6, 1, 0), /* SODIMM pin 127 */
GPIO_KEY(KEY_BACK, PT5, 1, 1), /* SODIMM pin 133,
Iris X16-14 */
GPIO_KEY(KEY_VOLUMEUP, PDD7, 1, 0), /* SODIMM pin 22 */
GPIO_KEY(KEY_VOLUMEDOWN, PCC6, 1, 0), /* SODIMM pin 24 */
GPIO_KEY(KEY_POWER, PV1, 0, 1), /* SODIMM pin 45,
Iris X16-20 */
GPIO_KEY(KEY_MENU, PK6, 1, 0), /* SODIMM pin 135 */
};
static struct gpio_keys_platform_data colibri_t30_keys_platform_data = {
.buttons = colibri_t30_keys,
.nbuttons = ARRAY_SIZE(colibri_t30_keys),
};
static struct platform_device colibri_t30_keys_device = {
.name = "gpio-keys",
.id = 0,
.dev = {
.platform_data = &colibri_t30_keys_platform_data,
},
};
#endif /* CONFIG_KEYBOARD_GPIO */
/* MMC/SD */
#ifndef COLIBRI_T30_SDMMC4B
static struct tegra_sdhci_platform_data colibri_t30_emmc_platform_data = {
.cd_gpio = -1,
.ddr_clk_limit = 52000000,
.is_8bit = 1,
.mmc_data = {
.built_in = 1,
},
.power_gpio = -1,
.tap_delay = 0x0f,
.wp_gpio = -1,
};
#endif /* COLIBRI_T30_SDMMC4B */
static struct tegra_sdhci_platform_data colibri_t30_sdcard_platform_data = {
.cd_gpio = MMC_CD,
.ddr_clk_limit = 52000000,
.power_gpio = -1,
.tap_delay = 0x0f,
.wp_gpio = -1,
};
static void __init colibri_t30_sdhci_init(void)
{
/* register eMMC first */
tegra_sdhci_device4.dev.platform_data =
#ifdef COLIBRI_T30_SDMMC4B
&colibri_t30_sdcard_platform_data;
#else
&colibri_t30_emmc_platform_data;
#endif
platform_device_register(&tegra_sdhci_device4);
#ifndef COLIBRI_T30_SDMMC4B
tegra_sdhci_device2.dev.platform_data =
&colibri_t30_sdcard_platform_data;
platform_device_register(&tegra_sdhci_device2);
#endif
}
/* PWM LEDs */
static struct led_pwm tegra_leds_pwm[] = {
{
.name = "PWM<B>",
.pwm_id = 1,
.max_brightness = 255,
.pwm_period_ns = 19600,
},
{
.name = "PWM<C>",
.pwm_id = 2,
.max_brightness = 255,
.pwm_period_ns = 19600,
},
{
.name = "PWM<D>",
.pwm_id = 3,
.max_brightness = 255,
.pwm_period_ns = 19600,
},
};
static struct led_pwm_platform_data tegra_leds_pwm_data = {
.num_leds = ARRAY_SIZE(tegra_leds_pwm),
.leds = tegra_leds_pwm,
};
static struct platform_device tegra_led_pwm_device = {
.name = "leds_pwm",
.id = -1,
.dev = {
.platform_data = &tegra_leds_pwm_data,
},
};
/* RTC */
#ifdef CONFIG_RTC_DRV_TEGRA
static struct resource tegra_rtc_resources[] = {
[0] = {
.start = TEGRA_RTC_BASE,
.end = TEGRA_RTC_BASE + TEGRA_RTC_SIZE - 1,
.flags = IORESOURCE_MEM,
},
[1] = {
.start = INT_RTC,
.end = INT_RTC,
.flags = IORESOURCE_IRQ,
},
};
static struct platform_device tegra_rtc_device = {
.name = "tegra_rtc",
.id = -1,
.resource = tegra_rtc_resources,
.num_resources = ARRAY_SIZE(tegra_rtc_resources),
};
#endif /* CONFIG_RTC_DRV_TEGRA */
/* SPI */
#if defined(CONFIG_SPI_TEGRA) && defined(CONFIG_SPI_SPIDEV)
static struct spi_board_info tegra_spi_devices[] __initdata = {
{
.bus_num = 0, /* SPI1: Colibri SSP */
.chip_select = 0,
.irq = 0,
.max_speed_hz = 50000000,
.modalias = "spidev",
.mode = SPI_MODE_0,
.platform_data = NULL,
},
};
static void __init colibri_t30_register_spidev(void)
{
spi_register_board_info(tegra_spi_devices,
ARRAY_SIZE(tegra_spi_devices));
}
#else /* CONFIG_SPI_TEGRA && CONFIG_SPI_SPIDEV */
#define colibri_t30_register_spidev() do {} while (0)
#endif /* CONFIG_SPI_TEGRA && CONFIG_SPI_SPIDEV */
static struct platform_device *colibri_t30_spi_devices[] __initdata = {
&tegra_spi_device1,
};
static struct spi_clk_parent spi_parent_clk[] = {
[0] = {.name = "pll_p"},
#ifndef CONFIG_TEGRA_PLLM_RESTRICTED
[1] = {.name = "pll_m"},
[2] = {.name = "clk_m"},
#else /* !CONFIG_TEGRA_PLLM_RESTRICTED */
[1] = {.name = "clk_m"},
#endif /* !CONFIG_TEGRA_PLLM_RESTRICTED */
};
static struct tegra_spi_platform_data colibri_t30_spi_pdata = {
.is_dma_based = true,
.max_dma_buffer = 16 * 1024,
.is_clkon_always = false,
.max_rate = 100000000,
};
static void __init colibri_t30_spi_init(void)
{
int i;
struct clk *c;
for (i = 0; i < ARRAY_SIZE(spi_parent_clk); ++i) {
c = tegra_get_clock_by_name(spi_parent_clk[i].name);
if (IS_ERR_OR_NULL(c)) {
pr_err("Not able to get the clock for %s\n",
spi_parent_clk[i].name);
continue;
}
spi_parent_clk[i].parent_clk = c;
spi_parent_clk[i].fixed_clk_rate = clk_get_rate(c);
}
colibri_t30_spi_pdata.parent_clk_list = spi_parent_clk;
colibri_t30_spi_pdata.parent_clk_count = ARRAY_SIZE(spi_parent_clk);
tegra_spi_device1.dev.platform_data = &colibri_t30_spi_pdata;
platform_add_devices(colibri_t30_spi_devices,
ARRAY_SIZE(colibri_t30_spi_devices));
}
/* Thermal throttling */
static void *colibri_t30_alert_data;
static void (*colibri_t30_alert_func)(void *);
static int colibri_t30_low_edge = 0;
static int colibri_t30_low_hysteresis = 3000;
static int colibri_t30_low_limit = 0;
static struct device *lm95245_device = NULL;
static int thermd_alert_irq_disabled = 0;
struct work_struct thermd_alert_work;
struct workqueue_struct *thermd_alert_workqueue;
static struct balanced_throttle throttle_list[] = {
#ifdef CONFIG_TEGRA_THERMAL_THROTTLE
{
.id = BALANCED_THROTTLE_ID_TJ,
.throt_tab_size = 10,
.throt_tab = {
{ 0, 1000 },
{ 640000, 1000 },
{ 640000, 1000 },
{ 640000, 1000 },
{ 640000, 1000 },
{ 640000, 1000 },
{ 760000, 1000 },
{ 760000, 1050 },
{1000000, 1050 },
{1000000, 1100 },
},
},
#endif /* CONFIG_TEGRA_THERMAL_THROTTLE */
#ifdef CONFIG_TEGRA_SKIN_THROTTLE
{
.id = BALANCED_THROTTLE_ID_SKIN,
.throt_tab_size = 6,
.throt_tab = {
{ 640000, 1200 },
{ 640000, 1200 },
{ 760000, 1200 },
{ 760000, 1200 },
{1000000, 1200 },
{1000000, 1200 },
},
},
#endif /* CONFIG_TEGRA_SKIN_THROTTLE */
};
/* All units are in millicelsius */
static struct tegra_thermal_data thermal_data = {
.shutdown_device_id = THERMAL_DEVICE_ID_NCT_EXT,
.temp_shutdown = 115000,
#if defined(CONFIG_TEGRA_EDP_LIMITS) || defined(CONFIG_TEGRA_THERMAL_THROTTLE)
.throttle_edp_device_id = THERMAL_DEVICE_ID_NCT_EXT,
#endif
#ifdef CONFIG_TEGRA_EDP_LIMITS
.edp_offset = TDIODE_OFFSET, /* edp based on tdiode */
.hysteresis_edp = 3000,
#endif
#ifdef CONFIG_TEGRA_THERMAL_THROTTLE
.temp_throttle = 85000,
.tc1 = 0,
.tc2 = 1,
.passive_delay = 2000,
#endif /* CONFIG_TEGRA_THERMAL_THROTTLE */
#ifdef CONFIG_TEGRA_SKIN_THROTTLE
.skin_device_id = THERMAL_DEVICE_ID_SKIN,
.temp_throttle_skin = 43000,
.tc1_skin = 0,
.tc2_skin = 1,
.passive_delay_skin = 5000,
.skin_temp_offset = 9793,
.skin_period = 1100,
.skin_devs_size = 2,
.skin_devs = {
{
THERMAL_DEVICE_ID_NCT_EXT,
{
2, 1, 1, 1,
1, 1, 1, 1,
1, 1, 1, 0,
1, 1, 0, 0,
0, 0, -1, -7
}
},
{
THERMAL_DEVICE_ID_NCT_INT,
{
-11, -7, -5, -3,
-3, -2, -1, 0,
0, 0, 1, 1,
1, 2, 2, 3,
4, 6, 11, 18
}
},
},
#endif /* CONFIG_TEGRA_SKIN_THROTTLE */
};
/* Over-temperature shutdown OS aka high limit GPIO pin interrupt handler */
static irqreturn_t thermd_alert_irq(int irq, void *data)
{
disable_irq_nosync(irq);
thermd_alert_irq_disabled = 1;
queue_work(thermd_alert_workqueue, &thermd_alert_work);
return IRQ_HANDLED;
}
/* Gets both entered by THERMD_ALERT GPIO interrupt as well as re-scheduled. */
static void thermd_alert_work_func(struct work_struct *work)
{
int temp = 0;
lm95245_get_remote_temp(lm95245_device, &temp);
/* This emulates NCT1008 low limit behaviour */
if (!colibri_t30_low_edge && temp <= colibri_t30_low_limit) {
colibri_t30_alert_func(colibri_t30_alert_data);
colibri_t30_low_edge = 1;
} else if (colibri_t30_low_edge && temp > colibri_t30_low_limit +
colibri_t30_low_hysteresis) {
colibri_t30_low_edge = 0;
}
/* Avoid unbalanced enable for IRQ 367 */
if (thermd_alert_irq_disabled) {
colibri_t30_alert_func(colibri_t30_alert_data);
thermd_alert_irq_disabled = 0;
enable_irq(gpio_to_irq(THERMD_ALERT));
}
/* Keep re-scheduling */
msleep(2000);
queue_work(thermd_alert_workqueue, &thermd_alert_work);
}
static int lm95245_get_temp(void *_data, long *temp)
{
struct device *lm95245_device = _data;
int lm95245_temp = 0;
lm95245_get_remote_temp(lm95245_device, &lm95245_temp);
*temp = lm95245_temp;
return 0;
}
static int lm95245_get_temp_low(void *_data, long *temp)
{
*temp = 0;
return 0;
}
/* Our temperature sensor only allows triggering an interrupt on over-
temperature shutdown aka the high limit we therefore need to setup a
workqueue to catch leaving the low limit. */
static int lm95245_set_limits(void *_data,
long lo_limit_milli,
long hi_limit_milli)
{
struct device *lm95245_device = _data;
colibri_t30_low_limit = lo_limit_milli;
if (lm95245_device) lm95245_set_remote_os_limit(lm95245_device,
hi_limit_milli);
return 0;
}
static int lm95245_set_alert(void *_data,
void (*alert_func)(void *),
void *alert_data)
{
lm95245_device = _data;
colibri_t30_alert_func = alert_func;
colibri_t30_alert_data = alert_data;
return 0;
}
static int lm95245_set_shutdown_temp(void *_data, long shutdown_temp)
{
struct device *lm95245_device = _data;
if (lm95245_device) lm95245_set_remote_critical_limit(lm95245_device,
shutdown_temp);
return 0;
}
#ifdef CONFIG_TEGRA_SKIN_THROTTLE
/* Internal aka local board/case temp */
static int lm95245_get_itemp(void *dev_data, long *temp)
{
struct device *lm95245_device = dev_data;
int lm95245_temp = 0;
lm95245_get_local_temp(lm95245_device, &lm95245_temp);
*temp = lm95245_temp;
return 0;
}
#endif /* CONFIG_TEGRA_SKIN_THROTTLE */
static void lm95245_probe_callback(struct device *dev)
{
struct tegra_thermal_device *lm95245_remote;
lm95245_remote = kzalloc(sizeof(struct tegra_thermal_device),
GFP_KERNEL);
if (!lm95245_remote) {
pr_err("unable to allocate thermal device\n");
return;
}
lm95245_remote->name = "lm95245_remote";
lm95245_remote->id = THERMAL_DEVICE_ID_NCT_EXT;
lm95245_remote->data = dev;
lm95245_remote->offset = TDIODE_OFFSET;
lm95245_remote->get_temp = lm95245_get_temp;
lm95245_remote->get_temp_low = lm95245_get_temp_low;
lm95245_remote->set_limits = lm95245_set_limits;
lm95245_remote->set_alert = lm95245_set_alert;
lm95245_remote->set_shutdown_temp = lm95245_set_shutdown_temp;
tegra_thermal_device_register(lm95245_remote);
#ifdef CONFIG_TEGRA_SKIN_THROTTLE
{
struct tegra_thermal_device *lm95245_local;
lm95245_local = kzalloc(sizeof(struct tegra_thermal_device),
GFP_KERNEL);
if (!lm95245_local) {
kfree(lm95245_local);
pr_err("unable to allocate thermal device\n");
return;
}
lm95245_local->name = "lm95245_local";
lm95245_local->id = THERMAL_DEVICE_ID_NCT_INT;
lm95245_local->data = dev;
lm95245_local->get_temp = lm95245_get_itemp;
tegra_thermal_device_register(lm95245_local);
}
#endif /* CONFIG_TEGRA_SKIN_THROTTLE */
if (request_irq(gpio_to_irq(THERMD_ALERT), thermd_alert_irq,
IRQF_TRIGGER_LOW, "THERMD_ALERT", NULL))
pr_err("%s: unable to register THERMD_ALERT interrupt\n",
__func__);
}
static void colibri_t30_thermd_alert_init(void)
{
gpio_request(THERMD_ALERT, "THERMD_ALERT");
gpio_direction_input(THERMD_ALERT);
thermd_alert_workqueue = create_singlethread_workqueue("THERMD_ALERT");
INIT_WORK(&thermd_alert_work, thermd_alert_work_func);
}
/* UART */
static struct platform_device *colibri_t30_uart_devices[] __initdata = {
&tegra_uarta_device, /* FF */
&tegra_uartb_device, /* STD */
&tegra_uartd_device, /* BT */
};
static struct uart_clk_parent uart_parent_clk[] = {
[0] = {.name = "clk_m"},
[1] = {.name = "pll_p"},
#ifndef CONFIG_TEGRA_PLLM_RESTRICTED
[2] = {.name = "pll_m"},
#endif
};
static struct tegra_uart_platform_data colibri_t30_uart_pdata;
static void __init uart_debug_init(void)
{
int debug_port_id;
debug_port_id = get_tegra_uart_debug_port_id();
if (debug_port_id < 0) {
debug_port_id = 0;
}
switch (debug_port_id) {
case 0:
/* UARTA is the debug port. */
pr_info("Selecting UARTA as the debug console\n");
colibri_t30_uart_devices[0] = &debug_uarta_device;
debug_uart_clk = clk_get_sys("serial8250.0", "uarta");
debug_uart_port_base = ((struct plat_serial8250_port *)(
debug_uarta_device.dev.platform_data))->mapbase;
break;
case 1:
/* UARTB is the debug port. */
pr_info("Selecting UARTB as the debug console\n");
colibri_t30_uart_devices[1] = &debug_uartb_device;
debug_uart_clk = clk_get_sys("serial8250.0", "uartb");
debug_uart_port_base = ((struct plat_serial8250_port *)(
debug_uartb_device.dev.platform_data))->mapbase;
break;
case 3:
/* UARTD is the debug port. */
pr_info("Selecting UARTD as the debug console\n");
colibri_t30_uart_devices[2] = &debug_uartd_device;
debug_uart_clk = clk_get_sys("serial8250.0", "uartd");
debug_uart_port_base = ((struct plat_serial8250_port *)(
debug_uartd_device.dev.platform_data))->mapbase;
break;
default:
pr_info("The debug console id %d is invalid, Assuming UARTA",
debug_port_id);
colibri_t30_uart_devices[0] = &debug_uarta_device;
debug_uart_clk = clk_get_sys("serial8250.0", "uarta");
debug_uart_port_base = ((struct plat_serial8250_port *)(
debug_uarta_device.dev.platform_data))->mapbase;
break;
}
return;
}
static void __init colibri_t30_uart_init(void)
{
struct clk *c;
int i;
for (i = 0; i < ARRAY_SIZE(uart_parent_clk); ++i) {
c = tegra_get_clock_by_name(uart_parent_clk[i].name);
if (IS_ERR_OR_NULL(c)) {
pr_err("Not able to get the clock for %s\n",
uart_parent_clk[i].name);
continue;
}
uart_parent_clk[i].parent_clk = c;
uart_parent_clk[i].fixed_clk_rate = clk_get_rate(c);
}
colibri_t30_uart_pdata.parent_clk_list = uart_parent_clk;
colibri_t30_uart_pdata.parent_clk_count = ARRAY_SIZE(uart_parent_clk);
tegra_uarta_device.dev.platform_data = &colibri_t30_uart_pdata;
tegra_uartb_device.dev.platform_data = &colibri_t30_uart_pdata;
tegra_uartd_device.dev.platform_data = &colibri_t30_uart_pdata;
/* Register low speed only if it is selected */
if (!is_tegra_debug_uartport_hs()) {
uart_debug_init();
/* Clock enable for the debug channel */
if (!IS_ERR_OR_NULL(debug_uart_clk)) {
pr_info("The debug console clock name is %s\n",
debug_uart_clk->name);
c = tegra_get_clock_by_name("pll_p");
if (IS_ERR_OR_NULL(c))
pr_err("Not getting the parent clock pll_p\n");
else
clk_set_parent(debug_uart_clk, c);
clk_enable(debug_uart_clk);
clk_set_rate(debug_uart_clk, clk_get_rate(c));
} else {
pr_err("Not getting the clock %s for debug console\n",
debug_uart_clk->name);
}
}
platform_add_devices(colibri_t30_uart_devices,
ARRAY_SIZE(colibri_t30_uart_devices));
}
/* USB */
//TODO: overcurrent
static struct tegra_usb_platform_data tegra_udc_pdata = {
.has_hostpc = true,
.op_mode = TEGRA_USB_OPMODE_DEVICE,
.phy_intf = TEGRA_USB_PHY_INTF_UTMI,
.port_otg = true,
.u_cfg.utmi = {
.elastic_limit = 16,
.hssync_start_delay = 0,
.idle_wait_delay = 17,
.term_range_adj = 6,
.xcvr_lsfslew = 2,
.xcvr_lsrslew = 2,
.xcvr_setup = 8,
.xcvr_setup_offset = 0,
.xcvr_use_fuses = 1,
},
.u_data.dev = {
.charging_supported = false,
.remote_wakeup_supported = false,
.vbus_gpio = -1,
.vbus_pmu_irq = 0,
},
};
static struct tegra_usb_platform_data tegra_ehci1_utmi_pdata = {
.has_hostpc = true,
.op_mode = TEGRA_USB_OPMODE_HOST,
.phy_intf = TEGRA_USB_PHY_INTF_UTMI,
.port_otg = true,
.u_cfg.utmi = {
.elastic_limit = 16,
.hssync_start_delay = 0,
.idle_wait_delay = 17,
.term_range_adj = 6,
.xcvr_lsfslew = 2,
.xcvr_lsrslew = 2,
.xcvr_setup = 15,
.xcvr_setup_offset = 0,
.xcvr_use_fuses = 1,
},
.u_data.host = {
.hot_plug = true,
.power_off_on_suspend = false,
.remote_wakeup_supported = true,
.vbus_gpio = -1,
.vbus_reg = NULL,
},
};
static void ehci2_utmi_platform_post_phy_on(void)
{
/* enable VBUS */
gpio_set_value(LAN_V_BUS, 1);
/* reset */
gpio_set_value(LAN_RESET, 0);
udelay(5);
/* unreset */
gpio_set_value(LAN_RESET, 1);
}
static void ehci2_utmi_platform_pre_phy_off(void)
{
/* disable VBUS */
gpio_set_value(LAN_V_BUS, 0);
}
static struct tegra_usb_phy_platform_ops ehci2_utmi_plat_ops = {
.post_phy_on = ehci2_utmi_platform_post_phy_on,
.pre_phy_off = ehci2_utmi_platform_pre_phy_off,
};
static struct tegra_usb_platform_data tegra_ehci2_utmi_pdata = {
.has_hostpc = true,
.op_mode = TEGRA_USB_OPMODE_HOST,
.ops = &ehci2_utmi_plat_ops,
.phy_intf = TEGRA_USB_PHY_INTF_UTMI,
.port_otg = false,
.u_cfg.utmi = {
.elastic_limit = 16,
.hssync_start_delay = 0,
.idle_wait_delay = 17,
.term_range_adj = 6,
.xcvr_lsfslew = 2,
.xcvr_lsrslew = 2,
.xcvr_setup = 15,
.xcvr_setup_offset = 0,
.xcvr_use_fuses = 1,
},
.u_data.host = {
.hot_plug = false,
.power_off_on_suspend = true,
.remote_wakeup_supported = true,
.vbus_gpio = -1,
.vbus_reg = NULL,
},
};
static struct tegra_usb_platform_data tegra_ehci3_utmi_pdata = {
.has_hostpc = true,
.op_mode = TEGRA_USB_OPMODE_HOST,
.phy_intf = TEGRA_USB_PHY_INTF_UTMI,
.port_otg = false,
.u_cfg.utmi = {
.elastic_limit = 16,
.hssync_start_delay = 0,
.idle_wait_delay = 17,
.term_range_adj = 6,
.xcvr_lsfslew = 2,
.xcvr_lsrslew = 2,
.xcvr_setup = 8,
.xcvr_setup_offset = 0,
.xcvr_use_fuses = 1,
},
.u_data.host = {
.hot_plug = true,
.power_off_on_suspend = false,
.remote_wakeup_supported = true,
.vbus_gpio = USBH_PEN,
.vbus_gpio_inverted = 1,
.vbus_reg = NULL,
},
};
#ifndef CONFIG_USB_TEGRA_OTG
static struct platform_device *tegra_usb_otg_host_register(void)
{
struct platform_device *pdev;
void *platform_data;
int val;
pdev = platform_device_alloc(tegra_ehci1_device.name,
tegra_ehci1_device.id);
if (!pdev)
return NULL;
val = platform_device_add_resources(pdev, tegra_ehci1_device.resource,
tegra_ehci1_device.num_resources);
if (val)
goto error;
pdev->dev.dma_mask = tegra_ehci1_device.dev.dma_mask;
pdev->dev.coherent_dma_mask = tegra_ehci1_device.dev.coherent_dma_mask;
platform_data = kmalloc(sizeof(struct tegra_usb_platform_data),
GFP_KERNEL);
if (!platform_data)
goto error;
memcpy(platform_data, &tegra_ehci1_utmi_pdata,
sizeof(struct tegra_usb_platform_data));
pdev->dev.platform_data = platform_data;
val = platform_device_add(pdev);
if (val)
goto error_add;
return pdev;
error_add:
kfree(platform_data);
error:
pr_err("%s: failed to add the host controller device\n", __func__);
platform_device_put(pdev);
return NULL;
}
static void tegra_usb_otg_host_unregister(struct platform_device *pdev)
{
kfree(pdev->dev.platform_data);
pdev->dev.platform_data = NULL;
platform_device_unregister(pdev);
}
static struct colibri_otg_platform_data colibri_otg_pdata = {
.cable_detect_gpio = USBC_DET,
.host_register = &tegra_usb_otg_host_register,
.host_unregister = &tegra_usb_otg_host_unregister,
};
#else /* !CONFIG_USB_TEGRA_OTG */
static struct tegra_usb_otg_data tegra_otg_pdata = {
.ehci_device = &tegra_ehci1_device,
.ehci_pdata = &tegra_ehci1_utmi_pdata,
};
#endif /* !CONFIG_USB_TEGRA_OTG */
#ifndef CONFIG_USB_TEGRA_OTG
struct platform_device colibri_otg_device = {
.name = "colibri-otg",
.id = -1,
.dev = {
.platform_data = &colibri_otg_pdata,
},
};
#endif /* !CONFIG_USB_TEGRA_OTG */
static void colibri_t30_usb_init(void)
{
gpio_request(LAN_V_BUS, "LAN_V_BUS");
gpio_direction_output(LAN_V_BUS, 0);
gpio_export(LAN_V_BUS, false);
gpio_request(LAN_RESET, "LAN_RESET");
gpio_direction_output(LAN_RESET, 0);
gpio_export(LAN_RESET, false);
/* OTG should be the first to be registered
EHCI instance 0: USB1_DP/N -> USBOTG_P/N */
#ifndef CONFIG_USB_TEGRA_OTG
platform_device_register(&colibri_otg_device);
#else /* !CONFIG_USB_TEGRA_OTG */
tegra_otg_device.dev.platform_data = &tegra_otg_pdata;
platform_device_register(&tegra_otg_device);
#endif /* !CONFIG_USB_TEGRA_OTG */
/* setup the udc platform data */
tegra_udc_device.dev.platform_data = &tegra_udc_pdata;
platform_device_register(&tegra_udc_device);
/* EHCI instance 1: ASIX ETH */
tegra_ehci2_device.dev.platform_data = &tegra_ehci2_utmi_pdata;
platform_device_register(&tegra_ehci2_device);
/* EHCI instance 2: USB3_DP/N -> USBH1_P/N */
tegra_ehci3_device.dev.platform_data = &tegra_ehci3_utmi_pdata;
platform_device_register(&tegra_ehci3_device);
}
/* W1, aka OWR, aka OneWire */
#ifdef CONFIG_W1_MASTER_TEGRA
struct tegra_w1_timings colibri_t30_w1_timings = {
.tsu = 1,
.trelease = 0xf,
.trdv = 0xf,
.tlow0 = 0x3c,
.tlow1 = 1,
.tslot = 0x77,
.tpdl = 0x78,
.tpdh = 0x1e,
.trstl = 0x1df,
.trsth = 0x1df,
.rdsclk = 0x7,
.psclk = 0x50,
};
struct tegra_w1_platform_data colibri_t30_w1_platform_data = {
.clk_id = "tegra_w1",
.timings = &colibri_t30_w1_timings,
};
#endif /* CONFIG_W1_MASTER_TEGRA */
static struct platform_device *colibri_t30_devices[] __initdata = {
&tegra_pmu_device,
#if defined(CONFIG_RTC_DRV_TEGRA)
&tegra_rtc_device,
#endif
#if defined(CONFIG_TEGRA_IOVMM_SMMU) || defined(CONFIG_TEGRA_IOMMU_SMMU)
&tegra_smmu_device,
#endif
&tegra_wdt0_device,
&tegra_wdt1_device,
&tegra_wdt2_device,
#if defined(CONFIG_TEGRA_AVP)
&tegra_avp_device,
#endif
#ifdef CONFIG_TEGRA_CAMERA
&tegra_camera,
#endif
#if defined(CONFIG_CRYPTO_DEV_TEGRA_SE)
&tegra_se_device,
#endif
#if defined(CONFIG_CRYPTO_DEV_TEGRA_AES)
&tegra_aes_device,
#endif
&tegra_ahub_device,
&tegra_dam_device0,
&tegra_dam_device1,
&tegra_dam_device2,
&tegra_i2s_device2,
&tegra_spdif_device,
&spdif_dit_device,
&tegra_pcm_device,
&colibri_t30_audio_sgtl5000_device,
&tegra_cec_device,
#if defined(CONFIG_CRYPTO_DEV_TEGRA_AES)
&tegra_aes_device,
#endif
#ifdef CONFIG_KEYBOARD_GPIO
&colibri_t30_keys_device,
#endif
&tegra_led_pwm_device,
&tegra_pwfm1_device,
&tegra_pwfm2_device,
&tegra_pwfm3_device,
#ifdef CONFIG_W1_MASTER_TEGRA
&tegra_w1_device,
#endif
};
static void __init colibri_t30_init(void)
{
tegra_thermal_init(&thermal_data,
throttle_list,
ARRAY_SIZE(throttle_list));
tegra_clk_init_from_table(colibri_t30_clk_init_table);
colibri_t30_pinmux_init();
colibri_t30_thermd_alert_init();
colibri_t30_i2c_init();
colibri_t30_spi_init();
colibri_t30_usb_init();
#ifdef CONFIG_TEGRA_EDP_LIMITS
colibri_t30_edp_init();
#endif
colibri_t30_uart_init();
#ifdef CONFIG_W1_MASTER_TEGRA
tegra_w1_device.dev.platform_data = &colibri_t30_w1_platform_data;
#endif
platform_add_devices(colibri_t30_devices, ARRAY_SIZE(colibri_t30_devices));
tegra_ram_console_debug_init();
tegra_io_dpd_init();
colibri_t30_sdhci_init();
colibri_t30_regulator_init();
colibri_t30_suspend_init();
colibri_t30_panel_init();
// colibri_t30_sensors_init();
colibri_t30_emc_init();
colibri_t30_register_spidev();
tegra_release_bootloader_fb();
#ifdef CONFIG_TEGRA_WDT_RECOVERY
tegra_wdt_recovery_init();
#endif
tegra_serial_debug_init(TEGRA_UARTD_BASE, INT_WDT_CPU, NULL, -1, -1);
/* Activate Mic Bias */
gpio_request(EN_MIC_GND, "EN_MIC_GND");
gpio_direction_output(EN_MIC_GND, 1);
}
static void __init colibri_t30_reserve(void)
{
#if defined(CONFIG_NVMAP_CONVERT_CARVEOUT_TO_IOVMM)
/* Support 1920X1080 32bpp,double buffered on HDMI*/
tegra_reserve(0, SZ_8M + SZ_1M, SZ_16M);
#else
tegra_reserve(SZ_128M, SZ_8M, SZ_8M);
#endif
tegra_ram_console_debug_reserve(SZ_1M);
}
static const char *colibri_t30_dt_board_compat[] = {
"toradex,colibri_t30",
NULL
};
MACHINE_START(COLIBRI_T30, "Toradex Colibri T30")
.boot_params = 0x80000100,
.dt_compat = colibri_t30_dt_board_compat,
.init_early = tegra_init_early,
.init_irq = tegra_init_irq,
.init_machine = colibri_t30_init,
.map_io = tegra_map_common_io,
.reserve = colibri_t30_reserve,
.timer = &tegra_timer,
MACHINE_END
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