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|
/*
* arch/arm/mach-tegra/usb_phy.c
*
* Copyright (C) 2010 Google, Inc.
* Copyright (C) 2010 - 2011 NVIDIA Corporation
*
* Author:
* Erik Gilling <konkers@google.com>
* Benoit Goby <benoit@android.com>
*
* This software is licensed under the terms of the GNU General Public
* License version 2, as published by the Free Software Foundation, and
* may be copied, distributed, and modified under those terms.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
*/
#include <linux/resource.h>
#include <linux/delay.h>
#include <linux/interrupt.h>
#include <linux/slab.h>
#include <linux/err.h>
#include <linux/platform_device.h>
#include <linux/io.h>
#include <linux/gpio.h>
#include <linux/usb/otg.h>
#include <linux/usb/ulpi.h>
#include <asm/mach-types.h>
#include <mach/usb_phy.h>
#include <mach/iomap.h>
#include <mach/pinmux.h>
#include "fuse.h"
#define USB_USBCMD 0x140
#define USB_USBCMD_RS (1 << 0)
#define USB_USBSTS 0x144
#define USB_USBSTS_PCI (1 << 2)
#define USB_USBSTS_HCH (1 << 12)
#define USB_TXFILLTUNING 0x164
#define USB_FIFO_TXFILL_THRES(x) (((x) & 0x1f) << 16)
#define USB_FIFO_TXFILL_MASK 0x1f0000
#define ULPI_VIEWPORT 0x170
#define USB_PORTSC1 0x184
#define USB_PORTSC1_PTS(x) (((x) & 0x3) << 30)
#define USB_PORTSC1_PSPD(x) (((x) & 0x3) << 26)
#define USB_PORTSC1_PHCD (1 << 23)
#define USB_PORTSC1_WKOC (1 << 22)
#define USB_PORTSC1_WKDS (1 << 21)
#define USB_PORTSC1_WKCN (1 << 20)
#define USB_PORTSC1_PTC(x) (((x) & 0xf) << 16)
#define USB_PORTSC1_PP (1 << 12)
#define USB_PORTSC1_LS(x) (((x) & 0x3) << 10)
#define USB_PORTSC1_SUSP (1 << 7)
#define USB_PORTSC1_PE (1 << 2)
#define USB_PORTSC1_CCS (1 << 0)
#define USB_SUSP_CTRL 0x400
#define USB_WAKE_ON_CNNT_EN_DEV (1 << 3)
#define USB_WAKE_ON_DISCON_EN_DEV (1 << 4)
#define USB_SUSP_CLR (1 << 5)
#define USB_PHY_CLK_VALID (1 << 7)
#define UTMIP_RESET (1 << 11)
#define UHSIC_RESET (1 << 11)
#define UTMIP_PHY_ENABLE (1 << 12)
#define UHSIC_PHY_ENABLE (1 << 12)
#define ULPI_PHY_ENABLE (1 << 13)
#define USB_SUSP_SET (1 << 14)
#define USB_WAKEUP_DEBOUNCE_COUNT(x) (((x) & 0x7) << 16)
#define USB1_LEGACY_CTRL 0x410
#define USB1_NO_LEGACY_MODE (1 << 0)
#define USB1_VBUS_SENSE_CTL_MASK (3 << 1)
#define USB1_VBUS_SENSE_CTL_VBUS_WAKEUP (0 << 1)
#define USB1_VBUS_SENSE_CTL_AB_SESS_VLD_OR_VBUS_WAKEUP \
(1 << 1)
#define USB1_VBUS_SENSE_CTL_AB_SESS_VLD (2 << 1)
#define USB1_VBUS_SENSE_CTL_A_SESS_VLD (3 << 1)
#define ULPIS2S_CTRL 0x418
#define ULPIS2S_ENA (1 << 0)
#define ULPIS2S_SUPPORT_DISCONNECT (1 << 2)
#define ULPIS2S_PLLU_MASTER_BLASTER60 (1 << 3)
#define ULPIS2S_SPARE(x) (((x) & 0xF) << 8)
#define ULPIS2S_FORCE_ULPI_CLK_OUT (1 << 12)
#define ULPIS2S_DISCON_DONT_CHECK_SE0 (1 << 13)
#define ULPIS2S_SUPPORT_HS_KEEP_ALIVE (1 << 14)
#define ULPIS2S_DISABLE_STP_PU (1 << 15)
#define ULPI_TIMING_CTRL_0 0x424
#define ULPI_CLOCK_OUT_DELAY(x) ((x) & 0x1F)
#define ULPI_OUTPUT_PINMUX_BYP (1 << 10)
#define ULPI_CLKOUT_PINMUX_BYP (1 << 11)
#define ULPI_SHADOW_CLK_LOOPBACK_EN (1 << 12)
#define ULPI_SHADOW_CLK_SEL (1 << 13)
#define ULPI_CORE_CLK_SEL (1 << 14)
#define ULPI_SHADOW_CLK_DELAY(x) (((x) & 0x1F) << 16)
#define ULPI_LBK_PAD_EN (1 << 26)
#define ULPI_LBK_PAD_E_INPUT_OR (1 << 27)
#define ULPI_CLK_OUT_ENA (1 << 28)
#define ULPI_CLK_PADOUT_ENA (1 << 29)
#define ULPI_TIMING_CTRL_1 0x428
#define ULPI_DATA_TRIMMER_LOAD (1 << 0)
#define ULPI_DATA_TRIMMER_SEL(x) (((x) & 0x7) << 1)
#define ULPI_STPDIRNXT_TRIMMER_LOAD (1 << 16)
#define ULPI_STPDIRNXT_TRIMMER_SEL(x) (((x) & 0x7) << 17)
#define ULPI_DIR_TRIMMER_LOAD (1 << 24)
#define ULPI_DIR_TRIMMER_SEL(x) (((x) & 0x7) << 25)
#define UTMIP_PLL_CFG1 0x804
#define UTMIP_XTAL_FREQ_COUNT(x) (((x) & 0xfff) << 0)
#define UTMIP_PLLU_ENABLE_DLY_COUNT(x) (((x) & 0x1f) << 27)
#define UTMIP_XCVR_CFG0 0x808
#define UTMIP_XCVR_SETUP(x) (((x) & 0xf) << 0)
#define UTMIP_XCVR_LSRSLEW(x) (((x) & 0x3) << 8)
#define UTMIP_XCVR_LSFSLEW(x) (((x) & 0x3) << 10)
#define UTMIP_FORCE_PD_POWERDOWN (1 << 14)
#define UTMIP_FORCE_PD2_POWERDOWN (1 << 16)
#define UTMIP_FORCE_PDZI_POWERDOWN (1 << 18)
#define UTMIP_XCVR_HSSLEW_MSB(x) (((x) & 0x7f) << 25)
#define UTMIP_BIAS_CFG0 0x80c
#define UTMIP_OTGPD (1 << 11)
#define UTMIP_BIASPD (1 << 10)
#define UTMIP_HSRX_CFG0 0x810
#define UTMIP_ELASTIC_LIMIT(x) (((x) & 0x1f) << 10)
#define UTMIP_IDLE_WAIT(x) (((x) & 0x1f) << 15)
#define UTMIP_HSRX_CFG1 0x814
#define UTMIP_HS_SYNC_START_DLY(x) (((x) & 0x1f) << 1)
#define UTMIP_TX_CFG0 0x820
#define UTMIP_FS_PREABMLE_J (1 << 19)
#define UTMIP_HS_DISCON_DISABLE (1 << 8)
#define UTMIP_MISC_CFG0 0x824
#define UTMIP_DPDM_OBSERVE (1 << 26)
#define UTMIP_DPDM_OBSERVE_SEL(x) (((x) & 0xf) << 27)
#define UTMIP_DPDM_OBSERVE_SEL_FS_J UTMIP_DPDM_OBSERVE_SEL(0xf)
#define UTMIP_DPDM_OBSERVE_SEL_FS_K UTMIP_DPDM_OBSERVE_SEL(0xe)
#define UTMIP_DPDM_OBSERVE_SEL_FS_SE1 UTMIP_DPDM_OBSERVE_SEL(0xd)
#define UTMIP_DPDM_OBSERVE_SEL_FS_SE0 UTMIP_DPDM_OBSERVE_SEL(0xc)
#define UTMIP_SUSPEND_EXIT_ON_EDGE (1 << 22)
#define UTMIP_MISC_CFG1 0x828
#define UTMIP_PLL_ACTIVE_DLY_COUNT(x) (((x) & 0x1f) << 18)
#define UTMIP_PLLU_STABLE_COUNT(x) (((x) & 0xfff) << 6)
#define UTMIP_DEBOUNCE_CFG0 0x82c
#define UTMIP_BIAS_DEBOUNCE_A(x) (((x) & 0xffff) << 0)
#define UTMIP_BAT_CHRG_CFG0 0x830
#define UTMIP_PD_CHRG (1 << 0)
#define UTMIP_SPARE_CFG0 0x834
#define FUSE_SETUP_SEL (1 << 3)
#define UTMIP_XCVR_CFG1 0x838
#define UTMIP_FORCE_PDDISC_POWERDOWN (1 << 0)
#define UTMIP_FORCE_PDCHRP_POWERDOWN (1 << 2)
#define UTMIP_FORCE_PDDR_POWERDOWN (1 << 4)
#define UTMIP_XCVR_TERM_RANGE_ADJ(x) (((x) & 0xf) << 18)
#define UTMIP_BIAS_CFG1 0x83c
#define UTMIP_BIAS_PDTRK_COUNT(x) (((x) & 0x1f) << 3)
#define UHSIC_PLL_CFG0 0x800
#define UHSIC_PLL_CFG1 0x804
#define UHSIC_XTAL_FREQ_COUNT(x) (((x) & 0xfff) << 0)
#define UHSIC_PLLU_ENABLE_DLY_COUNT(x) (((x) & 0x1f) << 14)
#define UHSIC_HSRX_CFG0 0x808
#define UHSIC_ELASTIC_UNDERRUN_LIMIT(x) (((x) & 0x1f) << 2)
#define UHSIC_ELASTIC_OVERRUN_LIMIT(x) (((x) & 0x1f) << 8)
#define UHSIC_IDLE_WAIT(x) (((x) & 0x1f) << 13)
#define UHSIC_HSRX_CFG1 0x80c
#define UHSIC_HS_SYNC_START_DLY(x) (((x) & 0x1f) << 1)
#define UHSIC_TX_CFG0 0x810
#define UHSIC_HS_POSTAMBLE_OUTPUT_ENABLE (1 << 6)
#define UHSIC_MISC_CFG0 0x814
#define UHSIC_SUSPEND_EXIT_ON_EDGE (1 << 7)
#define UHSIC_DETECT_SHORT_CONNECT (1 << 8)
#define UHSIC_FORCE_XCVR_MODE (1 << 15)
#define UHSIC_MISC_CFG1 0X818
#define UHSIC_PLLU_STABLE_COUNT(x) (((x) & 0xfff) << 2)
#define UHSIC_PADS_CFG0 0x81c
#define UHSIC_TX_RTUNEN 0xf000
#define UHSIC_TX_RTUNE(x) (((x) & 0xf) << 12)
#define UHSIC_PADS_CFG1 0x820
#define UHSIC_PD_BG (1 << 2)
#define UHSIC_PD_TX (1 << 3)
#define UHSIC_PD_TRK (1 << 4)
#define UHSIC_PD_RX (1 << 5)
#define UHSIC_PD_ZI (1 << 6)
#define UHSIC_RX_SEL (1 << 7)
#define UHSIC_RPD_DATA (1 << 9)
#define UHSIC_RPD_STROBE (1 << 10)
#define UHSIC_RPU_DATA (1 << 11)
#define UHSIC_RPU_STROBE (1 << 12)
#define UHSIC_CMD_CFG0 0x824
#define UHSIC_PRETEND_CONNECT_DETECT (1 << 5)
#define UHSIC_STAT_CFG0 0x828
#define UHSIC_CONNECT_DETECT (1 << 0)
#define UHSIC_SPARE_CFG0 0x82c
static DEFINE_SPINLOCK(utmip_pad_lock);
static int utmip_pad_count;
struct tegra_xtal_freq {
int freq;
u8 enable_delay;
u8 stable_count;
u8 active_delay;
u16 xtal_freq_count;
u16 debounce;
};
static const struct tegra_xtal_freq tegra_freq_table[] = {
{
.freq = 12000000,
.enable_delay = 0x02,
.stable_count = 0x2F,
.active_delay = 0x04,
.xtal_freq_count = 0x76,
.debounce = 0x7530,
},
{
.freq = 13000000,
.enable_delay = 0x02,
.stable_count = 0x33,
.active_delay = 0x05,
.xtal_freq_count = 0x7F,
.debounce = 0x7EF4,
},
{
.freq = 19200000,
.enable_delay = 0x03,
.stable_count = 0x4B,
.active_delay = 0x06,
.xtal_freq_count = 0xBB,
.debounce = 0xBB80,
},
{
.freq = 26000000,
.enable_delay = 0x04,
.stable_count = 0x66,
.active_delay = 0x09,
.xtal_freq_count = 0xFE,
.debounce = 0xFDE8,
},
};
static const struct tegra_xtal_freq tegra_uhsic_freq_table[] = {
{
.freq = 12000000,
.enable_delay = 0x02,
.stable_count = 0x2F,
.active_delay = 0x0,
.xtal_freq_count = 0x1CA,
},
{
.freq = 13000000,
.enable_delay = 0x02,
.stable_count = 0x33,
.active_delay = 0x0,
.xtal_freq_count = 0x1F0,
},
{
.freq = 19200000,
.enable_delay = 0x03,
.stable_count = 0x4B,
.active_delay = 0x0,
.xtal_freq_count = 0x2DD,
},
{
.freq = 26000000,
.enable_delay = 0x04,
.stable_count = 0x66,
.active_delay = 0x0,
.xtal_freq_count = 0x3E0,
},
};
static struct tegra_utmip_config utmip_default[] = {
[0] = {
.hssync_start_delay = 9,
.idle_wait_delay = 17,
.elastic_limit = 16,
.term_range_adj = 6,
.xcvr_setup = 9,
.xcvr_lsfslew = 1,
.xcvr_lsrslew = 1,
},
[2] = {
.hssync_start_delay = 9,
.idle_wait_delay = 17,
.elastic_limit = 16,
.term_range_adj = 6,
.xcvr_setup = 9,
.xcvr_lsfslew = 2,
.xcvr_lsrslew = 2,
},
};
static struct tegra_uhsic_config uhsic_default = {
.sync_start_delay = 9,
.idle_wait_delay = 17,
.term_range_adj = 0,
.elastic_underrun_limit = 16,
.elastic_overrun_limit = 16,
};
struct usb_phy_plat_data usb_phy_data[] = {
{ 0, 0, -1},
{ 0, 0, -1},
{ 0, 0, -1},
};
static inline bool phy_is_ulpi(struct tegra_usb_phy *phy)
{
return (phy->instance == 1);
}
static int utmip_pad_open(struct tegra_usb_phy *phy)
{
phy->pad_clk = clk_get_sys("utmip-pad", NULL);
if (IS_ERR(phy->pad_clk)) {
pr_err("%s: can't get utmip pad clock\n", __func__);
return PTR_ERR(phy->pad_clk);
}
if (phy->instance == 0) {
phy->pad_regs = phy->regs;
} else {
phy->pad_regs = ioremap(TEGRA_USB_BASE, TEGRA_USB_SIZE);
if (!phy->pad_regs) {
pr_err("%s: can't remap usb registers\n", __func__);
clk_put(phy->pad_clk);
return -ENOMEM;
}
}
return 0;
}
static void utmip_pad_close(struct tegra_usb_phy *phy)
{
if (phy->instance != 0)
iounmap(phy->pad_regs);
clk_put(phy->pad_clk);
}
static void utmip_pad_power_on(struct tegra_usb_phy *phy)
{
unsigned long val, flags;
void __iomem *base = phy->pad_regs;
clk_enable(phy->pad_clk);
spin_lock_irqsave(&utmip_pad_lock, flags);
if (utmip_pad_count++ == 0) {
val = readl(base + UTMIP_BIAS_CFG0);
val &= ~(UTMIP_OTGPD | UTMIP_BIASPD);
writel(val, base + UTMIP_BIAS_CFG0);
}
spin_unlock_irqrestore(&utmip_pad_lock, flags);
clk_disable(phy->pad_clk);
}
static int utmip_pad_power_off(struct tegra_usb_phy *phy)
{
unsigned long val, flags;
void __iomem *base = phy->pad_regs;
if (!utmip_pad_count) {
pr_err("%s: utmip pad already powered off\n", __func__);
return -EINVAL;
}
clk_enable(phy->pad_clk);
spin_lock_irqsave(&utmip_pad_lock, flags);
if (--utmip_pad_count == 0) {
val = readl(base + UTMIP_BIAS_CFG0);
val |= UTMIP_OTGPD | UTMIP_BIASPD;
writel(val, base + UTMIP_BIAS_CFG0);
}
spin_unlock_irqrestore(&utmip_pad_lock, flags);
clk_disable(phy->pad_clk);
return 0;
}
static int utmi_wait_register(void __iomem *reg, u32 mask, u32 result)
{
unsigned long timeout = 2000;
do {
if ((readl(reg) & mask) == result)
return 0;
udelay(1);
timeout--;
} while (timeout);
return -1;
}
static void utmi_phy_clk_disable(struct tegra_usb_phy *phy)
{
unsigned long val;
void __iomem *base = phy->regs;
if (phy->instance == 0) {
val = readl(base + USB_SUSP_CTRL);
val |= USB_SUSP_SET;
writel(val, base + USB_SUSP_CTRL);
udelay(10);
val = readl(base + USB_SUSP_CTRL);
val &= ~USB_SUSP_SET;
writel(val, base + USB_SUSP_CTRL);
}
if (phy->instance == 2) {
val = readl(base + USB_PORTSC1);
val |= USB_PORTSC1_PHCD;
writel(val, base + USB_PORTSC1);
}
if (utmi_wait_register(base + USB_SUSP_CTRL, USB_PHY_CLK_VALID, 0) < 0)
pr_err("%s: timeout waiting for phy to stabilize\n", __func__);
}
static void utmi_phy_clk_enable(struct tegra_usb_phy *phy)
{
unsigned long val;
void __iomem *base = phy->regs;
if (phy->instance == 0) {
val = readl(base + USB_SUSP_CTRL);
val |= USB_SUSP_CLR;
writel(val, base + USB_SUSP_CTRL);
udelay(10);
val = readl(base + USB_SUSP_CTRL);
val &= ~USB_SUSP_CLR;
writel(val, base + USB_SUSP_CTRL);
}
if (phy->instance == 2) {
val = readl(base + USB_PORTSC1);
val &= ~USB_PORTSC1_PHCD;
writel(val, base + USB_PORTSC1);
}
if (utmi_wait_register(base + USB_SUSP_CTRL, USB_PHY_CLK_VALID,
USB_PHY_CLK_VALID))
pr_err("%s: timeout waiting for phy to stabilize\n", __func__);
}
static void vbus_enable(int gpio)
{
int gpio_status;
if (gpio == -1)
return;
gpio_status = gpio_request(gpio,"VBUS_USB");
if (gpio_status < 0) {
printk("VBUS_USB request GPIO FAILED\n");
WARN_ON(1);
return;
}
tegra_gpio_enable(gpio);
gpio_status = gpio_direction_output(gpio, 1);
if (gpio_status < 0) {
printk("VBUS_USB request GPIO DIRECTION FAILED \n");
WARN_ON(1);
return;
}
gpio_set_value(gpio, 1);
}
static void vbus_disable(int gpio)
{
if (gpio == -1)
return;
gpio_set_value(gpio, 0);
gpio_free(gpio);
}
static int utmi_phy_power_on(struct tegra_usb_phy *phy)
{
unsigned long val;
void __iomem *base = phy->regs;
struct tegra_utmip_config *config = phy->config;
val = readl(base + USB_SUSP_CTRL);
val |= UTMIP_RESET;
writel(val, base + USB_SUSP_CTRL);
if (phy->instance == 0) {
val = readl(base + USB1_LEGACY_CTRL);
val |= USB1_NO_LEGACY_MODE;
writel(val, base + USB1_LEGACY_CTRL);
}
val = readl(base + UTMIP_TX_CFG0);
val &= ~UTMIP_FS_PREABMLE_J;
writel(val, base + UTMIP_TX_CFG0);
val = readl(base + UTMIP_HSRX_CFG0);
val &= ~(UTMIP_IDLE_WAIT(~0) | UTMIP_ELASTIC_LIMIT(~0));
val |= UTMIP_IDLE_WAIT(config->idle_wait_delay);
val |= UTMIP_ELASTIC_LIMIT(config->elastic_limit);
writel(val, base + UTMIP_HSRX_CFG0);
val = readl(base + UTMIP_HSRX_CFG1);
val &= ~UTMIP_HS_SYNC_START_DLY(~0);
val |= UTMIP_HS_SYNC_START_DLY(config->hssync_start_delay);
writel(val, base + UTMIP_HSRX_CFG1);
val = readl(base + UTMIP_DEBOUNCE_CFG0);
val &= ~UTMIP_BIAS_DEBOUNCE_A(~0);
val |= UTMIP_BIAS_DEBOUNCE_A(phy->freq->debounce);
writel(val, base + UTMIP_DEBOUNCE_CFG0);
val = readl(base + UTMIP_MISC_CFG0);
val &= ~UTMIP_SUSPEND_EXIT_ON_EDGE;
writel(val, base + UTMIP_MISC_CFG0);
val = readl(base + UTMIP_MISC_CFG1);
val &= ~(UTMIP_PLL_ACTIVE_DLY_COUNT(~0) | UTMIP_PLLU_STABLE_COUNT(~0));
val |= UTMIP_PLL_ACTIVE_DLY_COUNT(phy->freq->active_delay) |
UTMIP_PLLU_STABLE_COUNT(phy->freq->stable_count);
writel(val, base + UTMIP_MISC_CFG1);
val = readl(base + UTMIP_PLL_CFG1);
val &= ~(UTMIP_XTAL_FREQ_COUNT(~0) | UTMIP_PLLU_ENABLE_DLY_COUNT(~0));
val |= UTMIP_XTAL_FREQ_COUNT(phy->freq->xtal_freq_count) |
UTMIP_PLLU_ENABLE_DLY_COUNT(phy->freq->enable_delay);
writel(val, base + UTMIP_PLL_CFG1);
if (phy->mode == TEGRA_USB_PHY_MODE_DEVICE) {
val = readl(base + USB_SUSP_CTRL);
val &= ~(USB_WAKE_ON_CNNT_EN_DEV | USB_WAKE_ON_DISCON_EN_DEV);
writel(val, base + USB_SUSP_CTRL);
}
utmip_pad_power_on(phy);
val = readl(base + UTMIP_XCVR_CFG0);
val &= ~(UTMIP_FORCE_PD_POWERDOWN | UTMIP_FORCE_PD2_POWERDOWN |
UTMIP_FORCE_PDZI_POWERDOWN | UTMIP_XCVR_SETUP(~0) |
UTMIP_XCVR_LSFSLEW(~0) | UTMIP_XCVR_LSRSLEW(~0) |
UTMIP_XCVR_HSSLEW_MSB(~0));
val |= UTMIP_XCVR_SETUP(config->xcvr_setup);
val |= UTMIP_XCVR_LSFSLEW(config->xcvr_lsfslew);
val |= UTMIP_XCVR_LSRSLEW(config->xcvr_lsrslew);
writel(val, base + UTMIP_XCVR_CFG0);
val = readl(base + UTMIP_XCVR_CFG1);
val &= ~(UTMIP_FORCE_PDDISC_POWERDOWN | UTMIP_FORCE_PDCHRP_POWERDOWN |
UTMIP_FORCE_PDDR_POWERDOWN | UTMIP_XCVR_TERM_RANGE_ADJ(~0));
val |= UTMIP_XCVR_TERM_RANGE_ADJ(config->term_range_adj);
writel(val, base + UTMIP_XCVR_CFG1);
val = readl(base + UTMIP_BAT_CHRG_CFG0);
val &= ~UTMIP_PD_CHRG;
writel(val, base + UTMIP_BAT_CHRG_CFG0);
val = readl(base + UTMIP_BIAS_CFG1);
val &= ~UTMIP_BIAS_PDTRK_COUNT(~0);
val |= UTMIP_BIAS_PDTRK_COUNT(0x5);
writel(val, base + UTMIP_BIAS_CFG1);
if (phy->instance == 0) {
val = readl(base + UTMIP_SPARE_CFG0);
if (phy->mode == TEGRA_USB_PHY_MODE_DEVICE)
val &= ~FUSE_SETUP_SEL;
else
val |= FUSE_SETUP_SEL;
writel(val, base + UTMIP_SPARE_CFG0);
}
if (phy->instance == 2) {
val = readl(base + USB_SUSP_CTRL);
val |= UTMIP_PHY_ENABLE;
writel(val, base + USB_SUSP_CTRL);
}
val = readl(base + USB_SUSP_CTRL);
val &= ~UTMIP_RESET;
writel(val, base + USB_SUSP_CTRL);
if (phy->instance == 0) {
val = readl(base + USB1_LEGACY_CTRL);
val &= ~USB1_VBUS_SENSE_CTL_MASK;
val |= USB1_VBUS_SENSE_CTL_A_SESS_VLD;
writel(val, base + USB1_LEGACY_CTRL);
val = readl(base + USB_SUSP_CTRL);
val &= ~USB_SUSP_SET;
writel(val, base + USB_SUSP_CTRL);
}
utmi_phy_clk_enable(phy);
if (phy->instance == 2) {
val = readl(base + USB_PORTSC1);
val &= ~USB_PORTSC1_PTS(~0);
writel(val, base + USB_PORTSC1);
}
if (phy->mode == TEGRA_USB_PHY_MODE_HOST) {
vbus_enable(usb_phy_data[phy->instance].vbus_gpio);
}
return 0;
}
static void utmi_phy_power_off(struct tegra_usb_phy *phy)
{
unsigned long val;
void __iomem *base = phy->regs;
utmi_phy_clk_disable(phy);
if (phy->mode == TEGRA_USB_PHY_MODE_HOST) {
vbus_disable(usb_phy_data[phy->instance].vbus_gpio);
}
if (phy->mode == TEGRA_USB_PHY_MODE_DEVICE) {
val = readl(base + USB_SUSP_CTRL);
val &= ~USB_WAKEUP_DEBOUNCE_COUNT(~0);
val |= USB_WAKE_ON_CNNT_EN_DEV | USB_WAKEUP_DEBOUNCE_COUNT(5);
writel(val, base + USB_SUSP_CTRL);
}
val = readl(base + USB_SUSP_CTRL);
val |= UTMIP_RESET;
writel(val, base + USB_SUSP_CTRL);
val = readl(base + UTMIP_BAT_CHRG_CFG0);
val |= UTMIP_PD_CHRG;
writel(val, base + UTMIP_BAT_CHRG_CFG0);
val = readl(base + UTMIP_XCVR_CFG0);
val |= UTMIP_FORCE_PD_POWERDOWN | UTMIP_FORCE_PD2_POWERDOWN |
UTMIP_FORCE_PDZI_POWERDOWN;
writel(val, base + UTMIP_XCVR_CFG0);
val = readl(base + UTMIP_XCVR_CFG1);
val |= UTMIP_FORCE_PDDISC_POWERDOWN | UTMIP_FORCE_PDCHRP_POWERDOWN |
UTMIP_FORCE_PDDR_POWERDOWN;
writel(val, base + UTMIP_XCVR_CFG1);
utmip_pad_power_off(phy);
}
static void utmi_phy_preresume(struct tegra_usb_phy *phy)
{
unsigned long val;
void __iomem *base = phy->regs;
val = readl(base + UTMIP_TX_CFG0);
val |= UTMIP_HS_DISCON_DISABLE;
writel(val, base + UTMIP_TX_CFG0);
}
static void utmi_phy_postresume(struct tegra_usb_phy *phy)
{
unsigned long val;
void __iomem *base = phy->regs;
val = readl(base + UTMIP_TX_CFG0);
val &= ~UTMIP_HS_DISCON_DISABLE;
writel(val, base + UTMIP_TX_CFG0);
}
static void uhsic_phy_postresume(struct tegra_usb_phy *phy)
{
unsigned long val;
void __iomem *base = phy->regs;
val = readl(base + USB_TXFILLTUNING);
if ((val & USB_FIFO_TXFILL_MASK) != USB_FIFO_TXFILL_THRES(0x10)) {
val = USB_FIFO_TXFILL_THRES(0x10);
writel(val, base + USB_TXFILLTUNING);
}
}
static void utmi_phy_restore_start(struct tegra_usb_phy *phy,
enum tegra_usb_phy_port_speed port_speed)
{
unsigned long val;
void __iomem *base = phy->regs;
val = readl(base + UTMIP_MISC_CFG0);
val &= ~UTMIP_DPDM_OBSERVE_SEL(~0);
if (port_speed == TEGRA_USB_PHY_PORT_SPEED_LOW)
val |= UTMIP_DPDM_OBSERVE_SEL_FS_K;
else
val |= UTMIP_DPDM_OBSERVE_SEL_FS_J;
writel(val, base + UTMIP_MISC_CFG0);
udelay(1);
val = readl(base + UTMIP_MISC_CFG0);
val |= UTMIP_DPDM_OBSERVE;
writel(val, base + UTMIP_MISC_CFG0);
udelay(10);
}
static void utmi_phy_restore_end(struct tegra_usb_phy *phy)
{
unsigned long val;
void __iomem *base = phy->regs;
val = readl(base + UTMIP_MISC_CFG0);
val &= ~UTMIP_DPDM_OBSERVE;
writel(val, base + UTMIP_MISC_CFG0);
udelay(10);
}
static int ulpi_phy_power_on(struct tegra_usb_phy *phy)
{
int ret;
unsigned long val;
void __iomem *base = phy->regs;
struct tegra_ulpi_config *config = phy->config;
gpio_direction_output(config->reset_gpio, 0);
msleep(5);
gpio_direction_output(config->reset_gpio, 1);
clk_enable(phy->clk);
msleep(1);
val = readl(base + USB_SUSP_CTRL);
val |= UHSIC_RESET;
writel(val, base + USB_SUSP_CTRL);
val = readl(base + ULPI_TIMING_CTRL_0);
val |= ULPI_OUTPUT_PINMUX_BYP | ULPI_CLKOUT_PINMUX_BYP;
writel(val, base + ULPI_TIMING_CTRL_0);
val = readl(base + USB_SUSP_CTRL);
val |= ULPI_PHY_ENABLE;
writel(val, base + USB_SUSP_CTRL);
val = 0;
writel(val, base + ULPI_TIMING_CTRL_1);
val |= ULPI_DATA_TRIMMER_SEL(4);
val |= ULPI_STPDIRNXT_TRIMMER_SEL(4);
val |= ULPI_DIR_TRIMMER_SEL(4);
writel(val, base + ULPI_TIMING_CTRL_1);
udelay(10);
val |= ULPI_DATA_TRIMMER_LOAD;
val |= ULPI_STPDIRNXT_TRIMMER_LOAD;
val |= ULPI_DIR_TRIMMER_LOAD;
writel(val, base + ULPI_TIMING_CTRL_1);
/* Fix VbusInvalid due to floating VBUS */
ret = otg_io_write(phy->ulpi, 0x40, 0x08);
if (ret) {
pr_err("%s: ulpi write failed\n", __func__);
return ret;
}
ret = otg_io_write(phy->ulpi, 0x80, 0x0B);
if (ret) {
pr_err("%s: ulpi write failed\n", __func__);
return ret;
}
val = readl(base + USB_PORTSC1);
val |= USB_PORTSC1_WKOC | USB_PORTSC1_WKDS | USB_PORTSC1_WKCN;
writel(val, base + USB_PORTSC1);
val = readl(base + USB_SUSP_CTRL);
val |= USB_SUSP_CLR;
writel(val, base + USB_SUSP_CTRL);
udelay(100);
val = readl(base + USB_SUSP_CTRL);
val &= ~USB_SUSP_CLR;
writel(val, base + USB_SUSP_CTRL);
return 0;
}
static void ulpi_phy_power_off(struct tegra_usb_phy *phy)
{
unsigned long val;
void __iomem *base = phy->regs;
struct tegra_ulpi_config *config = phy->config;
/* Clear WKCN/WKDS/WKOC wake-on events that can cause the USB
* Controller to immediately bring the ULPI PHY out of low power
*/
val = readl(base + USB_PORTSC1);
val &= ~(USB_PORTSC1_WKOC | USB_PORTSC1_WKDS | USB_PORTSC1_WKCN);
writel(val, base + USB_PORTSC1);
gpio_direction_output(config->reset_gpio, 0);
clk_disable(phy->clk);
}
static int null_phy_power_on(struct tegra_usb_phy *phy)
{
const struct tegra_ulpi_trimmer default_trimmer = {0, 0, 4, 4};
unsigned long val;
void __iomem *base = phy->regs;
struct tegra_ulpi_config *config = phy->config;
if (config->preinit)
config->preinit();
if (!config->trimmer)
config->trimmer = &default_trimmer;
val = readl(base + USB_SUSP_CTRL);
val |= UHSIC_RESET;
writel(val, base + USB_SUSP_CTRL);
val = readl(base + ULPI_TIMING_CTRL_0);
val |= ULPI_OUTPUT_PINMUX_BYP | ULPI_CLKOUT_PINMUX_BYP;
writel(val, base + ULPI_TIMING_CTRL_0);
val = readl(base + USB_SUSP_CTRL);
val |= ULPI_PHY_ENABLE;
writel(val, base + USB_SUSP_CTRL);
/* set timming parameters */
val = readl(base + ULPI_TIMING_CTRL_0);
val |= ULPI_SHADOW_CLK_LOOPBACK_EN;
val |= ULPI_SHADOW_CLK_SEL;
val |= ULPI_OUTPUT_PINMUX_BYP;
val |= ULPI_CLKOUT_PINMUX_BYP;
val |= ULPI_LBK_PAD_EN;
val |= ULPI_SHADOW_CLK_DELAY(config->trimmer->shadow_clk_delay);
val |= ULPI_CLOCK_OUT_DELAY(config->trimmer->clock_out_delay);
val |= ULPI_LBK_PAD_E_INPUT_OR;
writel(val, base + ULPI_TIMING_CTRL_0);
val = 0;
writel(val, base + ULPI_TIMING_CTRL_1);
udelay(10);
/* enable null phy mode */
val = ULPIS2S_ENA;
val |= ULPIS2S_PLLU_MASTER_BLASTER60;
val |= ULPIS2S_SPARE((phy->mode == TEGRA_USB_PHY_MODE_HOST) ? 3 : 1);
writel(val, base + ULPIS2S_CTRL);
/* select ULPI_CORE_CLK_SEL to SHADOW_CLK */
val = readl(base + ULPI_TIMING_CTRL_0);
val |= ULPI_CORE_CLK_SEL;
writel(val, base + ULPI_TIMING_CTRL_0);
udelay(10);
/* enable ULPI null clocks - can't set the trimmers before this */
val = readl(base + ULPI_TIMING_CTRL_0);
val |= ULPI_CLK_OUT_ENA;
writel(val, base + ULPI_TIMING_CTRL_0);
udelay(10);
val = ULPI_DATA_TRIMMER_SEL(config->trimmer->data_trimmer);
val |= ULPI_STPDIRNXT_TRIMMER_SEL(config->trimmer->stpdirnxt_trimmer);
val |= ULPI_DIR_TRIMMER_SEL(4);
writel(val, base + ULPI_TIMING_CTRL_1);
udelay(10);
val |= ULPI_DATA_TRIMMER_LOAD;
val |= ULPI_STPDIRNXT_TRIMMER_LOAD;
val |= ULPI_DIR_TRIMMER_LOAD;
writel(val, base + ULPI_TIMING_CTRL_1);
val = readl(base + ULPI_TIMING_CTRL_0);
val |= ULPI_CLK_PADOUT_ENA;
writel(val, base + ULPI_TIMING_CTRL_0);
udelay(10);
val = readl(base + USB_SUSP_CTRL);
val |= USB_SUSP_CLR;
writel(val, base + USB_SUSP_CTRL);
udelay(100);
val = readl(base + USB_SUSP_CTRL);
val &= ~USB_SUSP_CLR;
writel(val, base + USB_SUSP_CTRL);
if (utmi_wait_register(base + USB_SUSP_CTRL, USB_PHY_CLK_VALID,
USB_PHY_CLK_VALID))
pr_err("%s: timeout waiting for phy to stabilize\n", __func__);
if (config->postinit)
config->postinit();
return 0;
}
static void null_phy_power_off(struct tegra_usb_phy *phy)
{
unsigned long val;
void __iomem *base = phy->regs;
val = readl(base + ULPI_TIMING_CTRL_0);
val &= ~ULPI_CLK_PADOUT_ENA;
writel(val, base + ULPI_TIMING_CTRL_0);
}
static int uhsic_phy_power_on(struct tegra_usb_phy *phy)
{
unsigned long val;
void __iomem *base = phy->regs;
struct tegra_uhsic_config *config = &uhsic_default;
struct tegra_ulpi_config *ulpi_config = phy->config;
if (ulpi_config->preinit)
ulpi_config->preinit();
val = readl(base + UHSIC_PADS_CFG1);
val &= ~(UHSIC_PD_BG | UHSIC_PD_TX | UHSIC_PD_TRK | UHSIC_PD_RX |
UHSIC_PD_ZI | UHSIC_RPD_DATA | UHSIC_RPD_STROBE);
val |= UHSIC_RX_SEL;
writel(val, base + UHSIC_PADS_CFG1);
udelay(2);
val = readl(base + USB_SUSP_CTRL);
val |= UHSIC_RESET;
writel(val, base + USB_SUSP_CTRL);
udelay(30);
val = readl(base + USB_SUSP_CTRL);
val |= UHSIC_PHY_ENABLE;
writel(val, base + USB_SUSP_CTRL);
val = readl(base + UHSIC_HSRX_CFG0);
val |= UHSIC_IDLE_WAIT(config->idle_wait_delay);
val |= UHSIC_ELASTIC_UNDERRUN_LIMIT(config->elastic_underrun_limit);
val |= UHSIC_ELASTIC_OVERRUN_LIMIT(config->elastic_overrun_limit);
writel(val, base + UHSIC_HSRX_CFG0);
val = readl(base + UHSIC_HSRX_CFG1);
val |= UHSIC_HS_SYNC_START_DLY(config->sync_start_delay);
writel(val, base + UHSIC_HSRX_CFG1);
val = readl(base + UHSIC_MISC_CFG0);
val |= UHSIC_SUSPEND_EXIT_ON_EDGE;
writel(val, base + UHSIC_MISC_CFG0);
val = readl(base + UHSIC_MISC_CFG1);
val |= UHSIC_PLLU_STABLE_COUNT(phy->freq->stable_count);
writel(val, base + UHSIC_MISC_CFG1);
val = readl(base + UHSIC_PLL_CFG1);
val |= UHSIC_PLLU_ENABLE_DLY_COUNT(phy->freq->enable_delay);
val |= UHSIC_XTAL_FREQ_COUNT(phy->freq->xtal_freq_count);
writel(val, base + UHSIC_PLL_CFG1);
val = readl(base + USB_SUSP_CTRL);
val &= ~(UHSIC_RESET);
writel(val, base + USB_SUSP_CTRL);
udelay(2);
val = readl(base + USB_PORTSC1);
val &= ~USB_PORTSC1_PTS(~0);
writel(val, base + USB_PORTSC1);
val = readl(base + USB_TXFILLTUNING);
if ((val & USB_FIFO_TXFILL_MASK) != USB_FIFO_TXFILL_THRES(0x10)) {
val = USB_FIFO_TXFILL_THRES(0x10);
writel(val, base + USB_TXFILLTUNING);
}
val = readl(base + USB_PORTSC1);
val &= ~(USB_PORTSC1_WKOC | USB_PORTSC1_WKDS | USB_PORTSC1_WKCN);
writel(val, base + USB_PORTSC1);
val = readl(base + UHSIC_PADS_CFG0);
val &= ~(UHSIC_TX_RTUNEN);
/* set Rtune impedance to 40 ohm */
val |= UHSIC_TX_RTUNE(0);
writel(val, base + UHSIC_PADS_CFG0);
if (utmi_wait_register(base + USB_SUSP_CTRL, USB_PHY_CLK_VALID,
USB_PHY_CLK_VALID)) {
pr_err("%s: timeout waiting for phy to stabilize\n", __func__);
}
return 0;
}
static void uhsic_phy_power_off(struct tegra_usb_phy *phy)
{
unsigned long val;
void __iomem *base = phy->regs;
val = readl(base + UHSIC_PADS_CFG1);
val &= ~UHSIC_RPU_STROBE;
val |= UHSIC_RPD_STROBE;
writel(val, base + UHSIC_PADS_CFG1);
val = readl(base + USB_SUSP_CTRL);
val |= UHSIC_RESET;
writel(val, base + USB_SUSP_CTRL);
udelay(30);
val = readl(base + USB_SUSP_CTRL);
val &= ~UHSIC_PHY_ENABLE;
writel(val, base + USB_SUSP_CTRL);
}
#ifdef CONFIG_USB_TEGRA_OTG
extern void tegra_otg_check_vbus_detection(void);
#endif
static irqreturn_t usb_phy_vbus_irq_thr(int irq, void *pdata)
{
struct tegra_usb_phy *phy = pdata;
if (!phy->regulator_on) {
regulator_enable(phy->reg_vdd);
phy->regulator_on = 1;
/*
* Optimal time to get the regulator turned on
* before detecting vbus interrupt.
*/
mdelay(15);
}
#ifdef CONFIG_USB_TEGRA_OTG
tegra_otg_check_vbus_detection();
#endif
return IRQ_HANDLED;
}
struct tegra_usb_phy *tegra_usb_phy_open(int instance, void __iomem *regs,
void *config, enum tegra_usb_phy_mode phy_mode)
{
struct tegra_usb_phy *phy;
struct tegra_ulpi_config *ulpi_config;
unsigned long parent_rate;
int i;
int err;
bool hsic = false;
phy = kmalloc(sizeof(struct tegra_usb_phy), GFP_KERNEL);
if (!phy)
return ERR_PTR(-ENOMEM);
phy->instance = instance;
phy->regs = regs;
phy->config = config;
phy->mode = phy_mode;
phy->regulator_on = 0;
if (!phy->config) {
if (phy_is_ulpi(phy)) {
pr_err("%s: ulpi phy configuration missing", __func__);
err = -EINVAL;
goto err0;
} else {
phy->config = &utmip_default[instance];
}
}
if (phy_is_ulpi(phy)) {
ulpi_config = config;
hsic = (ulpi_config->inf_type == TEGRA_USB_UHSIC);
}
phy->pll_u = clk_get_sys(NULL, "pll_u");
if (IS_ERR(phy->pll_u)) {
pr_err("Can't get pll_u clock\n");
err = PTR_ERR(phy->pll_u);
goto err0;
}
clk_enable(phy->pll_u);
parent_rate = clk_get_rate(clk_get_parent(phy->pll_u));
if (hsic) {
for (i = 0; i < ARRAY_SIZE(tegra_uhsic_freq_table); i++) {
if (tegra_uhsic_freq_table[i].freq == parent_rate) {
phy->freq = &tegra_uhsic_freq_table[i];
break;
}
}
} else {
for (i = 0; i < ARRAY_SIZE(tegra_freq_table); i++) {
if (tegra_freq_table[i].freq == parent_rate) {
phy->freq = &tegra_freq_table[i];
break;
}
}
}
if (!phy->freq) {
pr_err("invalid pll_u parent rate %ld\n", parent_rate);
err = -EINVAL;
goto err1;
}
if (phy_is_ulpi(phy)) {
ulpi_config = config;
if (ulpi_config->inf_type == TEGRA_USB_LINK_ULPI) {
phy->clk = clk_get_sys(NULL, ulpi_config->clk);
if (IS_ERR(phy->clk)) {
pr_err("%s: can't get ulpi clock\n", __func__);
err = -ENXIO;
goto err1;
}
tegra_gpio_enable(ulpi_config->reset_gpio);
gpio_request(ulpi_config->reset_gpio, "ulpi_phy_reset_b");
gpio_direction_output(ulpi_config->reset_gpio, 0);
phy->ulpi = otg_ulpi_create(&ulpi_viewport_access_ops, 0);
phy->ulpi->io_priv = regs + ULPI_VIEWPORT;
}
} else {
err = utmip_pad_open(phy);
if (err < 0)
goto err1;
}
phy->reg_vdd = regulator_get(NULL, "avdd_usb");
if (WARN_ON(IS_ERR_OR_NULL(phy->reg_vdd))) {
pr_err("couldn't get regulator avdd_usb: %ld \n",
PTR_ERR(phy->reg_vdd));
err = PTR_ERR(phy->reg_vdd);
goto err1;
}
if (instance == 0 && usb_phy_data[0].vbus_irq) {
err = request_threaded_irq(usb_phy_data[0].vbus_irq, NULL, usb_phy_vbus_irq_thr, IRQF_SHARED,
"usb_phy_vbus", phy);
if (err) {
pr_err("Failed to register IRQ\n");
goto err1;
}
}
return phy;
err1:
clk_disable(phy->pll_u);
clk_put(phy->pll_u);
err0:
kfree(phy);
return ERR_PTR(err);
}
int tegra_usb_phy_power_on(struct tegra_usb_phy *phy)
{
if (!phy->regulator_on) {
regulator_enable(phy->reg_vdd);
phy->regulator_on = 1;
}
if (phy_is_ulpi(phy)) {
struct tegra_ulpi_config *ulpi_config = phy->config;
if (ulpi_config->inf_type == TEGRA_USB_LINK_ULPI)
return ulpi_phy_power_on(phy);
else if (ulpi_config->inf_type == TEGRA_USB_UHSIC)
return uhsic_phy_power_on(phy);
else
return null_phy_power_on(phy);
} else
return utmi_phy_power_on(phy);
}
void tegra_usb_phy_power_off(struct tegra_usb_phy *phy)
{
if (phy_is_ulpi(phy)) {
struct tegra_ulpi_config *ulpi_config = phy->config;
if (ulpi_config->inf_type == TEGRA_USB_LINK_ULPI)
ulpi_phy_power_off(phy);
else if (ulpi_config->inf_type == TEGRA_USB_UHSIC)
uhsic_phy_power_off(phy);
else
null_phy_power_off(phy);
} else
utmi_phy_power_off(phy);
if (phy->regulator_on && (tegra_get_revision() >= TEGRA_REVISION_A03)) {
regulator_disable(phy->reg_vdd);
phy->regulator_on = 0;
}
}
void tegra_usb_phy_preresume(struct tegra_usb_phy *phy)
{
if (!phy_is_ulpi(phy))
utmi_phy_preresume(phy);
}
void tegra_usb_phy_postresume(struct tegra_usb_phy *phy)
{
struct tegra_ulpi_config *config = phy->config;
if ((phy->instance == 1) &&
(config->inf_type == TEGRA_USB_UHSIC))
uhsic_phy_postresume(phy);
else if (!phy_is_ulpi(phy))
utmi_phy_postresume(phy);
return 0;
}
void tegra_ehci_phy_restore_start(struct tegra_usb_phy *phy,
enum tegra_usb_phy_port_speed port_speed)
{
if (!phy_is_ulpi(phy))
utmi_phy_restore_start(phy, port_speed);
}
void tegra_ehci_phy_restore_end(struct tegra_usb_phy *phy)
{
if (!phy_is_ulpi(phy))
utmi_phy_restore_end(phy);
}
void tegra_usb_phy_clk_disable(struct tegra_usb_phy *phy)
{
if (!phy_is_ulpi(phy))
utmi_phy_clk_disable(phy);
}
void tegra_usb_phy_clk_enable(struct tegra_usb_phy *phy)
{
if (!phy_is_ulpi(phy))
utmi_phy_clk_enable(phy);
}
void tegra_usb_phy_close(struct tegra_usb_phy *phy)
{
if (phy_is_ulpi(phy)) {
struct tegra_ulpi_config *ulpi_config = phy->config;
if (ulpi_config->inf_type == TEGRA_USB_LINK_ULPI)
clk_put(phy->clk);
} else
utmip_pad_close(phy);
clk_disable(phy->pll_u);
clk_put(phy->pll_u);
regulator_put(phy->reg_vdd);
if (phy->instance == 0 && usb_phy_data[0].vbus_irq)
free_irq(usb_phy_data[0].vbus_irq, phy);
kfree(phy);
}
int tegra_usb_phy_bus_connect(struct tegra_usb_phy *phy)
{
unsigned long val;
void __iomem *base = phy->regs;
struct tegra_ulpi_config *config = phy->config;
if (phy_is_ulpi(phy) && (config->inf_type == TEGRA_USB_UHSIC)) {
val = readl(base + UHSIC_MISC_CFG0);
val |= UHSIC_DETECT_SHORT_CONNECT;
writel(val, base + UHSIC_MISC_CFG0);
udelay(1);
val = readl(base + UHSIC_MISC_CFG0);
val |= UHSIC_FORCE_XCVR_MODE;
writel(val, base + UHSIC_MISC_CFG0);
val = readl(base + UHSIC_PADS_CFG1);
val &= ~UHSIC_RPD_STROBE;
val |= UHSIC_RPU_STROBE;
writel(val, base + UHSIC_PADS_CFG1);
if (utmi_wait_register(base + UHSIC_STAT_CFG0, UHSIC_CONNECT_DETECT, UHSIC_CONNECT_DETECT) < 0) {
pr_err("%s: timeout waiting for hsic connect detect\n", __func__);
return -ETIMEDOUT;
}
if (utmi_wait_register(base + USB_PORTSC1, USB_PORTSC1_LS(2), USB_PORTSC1_LS(2)) < 0) {
pr_err("%s: timeout waiting for dplus state\n", __func__);
return -ETIMEDOUT;
}
}
return 0;
}
int tegra_usb_phy_bus_reset(struct tegra_usb_phy *phy)
{
unsigned long val;
void __iomem *base = phy->regs;
struct tegra_ulpi_config *config = phy->config;
if (phy_is_ulpi(phy) && (config->inf_type == TEGRA_USB_UHSIC)) {
val = readl(base + USB_PORTSC1);
val |= USB_PORTSC1_PTC(5);
writel(val, base + USB_PORTSC1);
udelay(2);
val = readl(base + USB_PORTSC1);
val &= ~USB_PORTSC1_PTC(~0);
writel(val, base + USB_PORTSC1);
udelay(2);
if (utmi_wait_register(base + USB_PORTSC1, USB_PORTSC1_LS(0), 0) < 0) {
pr_err("%s: timeout waiting for SE0\n", __func__);
return -ETIMEDOUT;
}
if (utmi_wait_register(base + USB_PORTSC1, USB_PORTSC1_CCS, USB_PORTSC1_CCS) < 0) {
pr_err("%s: timeout waiting for connection status\n", __func__);
return -ETIMEDOUT;
}
if (utmi_wait_register(base + USB_PORTSC1, USB_PORTSC1_PSPD(2), USB_PORTSC1_PSPD(2)) < 0) {
pr_err("%s: timeout waiting hsic high speed configuration\n", __func__);
return -ETIMEDOUT;
}
val = readl(base + USB_USBCMD);
val &= ~USB_USBCMD_RS;
writel(val, base + USB_USBCMD);
if (utmi_wait_register(base + USB_USBSTS, USB_USBSTS_HCH, USB_USBSTS_HCH) < 0) {
pr_err("%s: timeout waiting for stopping the controller\n", __func__);
return -ETIMEDOUT;
}
val = readl(base + UHSIC_PADS_CFG1);
val &= ~UHSIC_RPU_STROBE;
val |= UHSIC_RPD_STROBE;
writel(val, base + UHSIC_PADS_CFG1);
mdelay(50);
val = readl(base + UHSIC_PADS_CFG1);
val &= ~UHSIC_RPD_STROBE;
val |= UHSIC_RPU_STROBE;
writel(val, base + UHSIC_PADS_CFG1);
val = readl(base + USB_USBCMD);
val |= USB_USBCMD_RS;
writel(val, base + USB_USBCMD);
val = readl(base + UHSIC_PADS_CFG1);
val &= ~UHSIC_RPU_STROBE;
writel(val, base + UHSIC_PADS_CFG1);
if (utmi_wait_register(base + USB_USBCMD, USB_USBCMD_RS, USB_USBCMD_RS) < 0) {
pr_err("%s: timeout waiting for starting the controller\n", __func__);
return -ETIMEDOUT;
}
}
return 0;
}
int tegra_usb_phy_bus_idle(struct tegra_usb_phy *phy)
{
unsigned long val;
void __iomem *base = phy->regs;
struct tegra_ulpi_config *config = phy->config;
if (phy_is_ulpi(phy) && (config->inf_type == TEGRA_USB_UHSIC)) {
val = readl(base + UHSIC_MISC_CFG0);
val |= UHSIC_DETECT_SHORT_CONNECT;
writel(val, base + UHSIC_MISC_CFG0);
udelay(1);
val = readl(base + UHSIC_MISC_CFG0);
val |= UHSIC_FORCE_XCVR_MODE;
writel(val, base + UHSIC_MISC_CFG0);
val = readl(base + UHSIC_PADS_CFG1);
val &= ~UHSIC_RPD_STROBE;
val |= UHSIC_RPU_STROBE;
writel(val, base + UHSIC_PADS_CFG1);
}
return 0;
}
bool tegra_usb_phy_is_device_connected(struct tegra_usb_phy *phy)
{
void __iomem *base = phy->regs;
struct tegra_ulpi_config *config = phy->config;
if (phy_is_ulpi(phy) && (config->inf_type == TEGRA_USB_UHSIC)) {
if (!((readl(base + UHSIC_STAT_CFG0) & UHSIC_CONNECT_DETECT) == UHSIC_CONNECT_DETECT)) {
pr_err("%s: hsic no device connection\n", __func__);
return false;
}
if (utmi_wait_register(base + USB_PORTSC1, USB_PORTSC1_LS(2), USB_PORTSC1_LS(2)) < 0) {
pr_err("%s: timeout waiting for dplus state\n", __func__);
return false;
}
}
return true;
}
int __init tegra_usb_phy_init(struct usb_phy_plat_data *pdata, int size)
{
if (pdata) {
int i;
for (i = 0; i < size; i++, pdata++) {
usb_phy_data[pdata->instance].instance = pdata->instance;
usb_phy_data[pdata->instance].vbus_irq = pdata->vbus_irq;
usb_phy_data[pdata->instance].vbus_gpio = pdata->vbus_gpio;
}
}
return 0;
}
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