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|
// SPDX-License-Identifier: GPL-2.0-only
/*
* Samsung Exynos5 SoC series USB DRD PHY driver
*
* Phy provider for USB 3.0 DRD controller on Exynos5 SoC series
*
* Copyright (C) 2014 Samsung Electronics Co., Ltd.
* Author: Vivek Gautam <gautam.vivek@samsung.com>
*/
#include <linux/bitfield.h>
#include <linux/clk.h>
#include <linux/delay.h>
#include <linux/io.h>
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/of.h>
#include <linux/iopoll.h>
#include <linux/phy/phy.h>
#include <linux/platform_device.h>
#include <linux/mutex.h>
#include <linux/mfd/syscon.h>
#include <linux/regmap.h>
#include <linux/regulator/consumer.h>
#include <linux/soc/samsung/exynos-regs-pmu.h>
/* Exynos USB PHY registers */
#define EXYNOS5_FSEL_9MHZ6 0x0
#define EXYNOS5_FSEL_10MHZ 0x1
#define EXYNOS5_FSEL_12MHZ 0x2
#define EXYNOS5_FSEL_19MHZ2 0x3
#define EXYNOS5_FSEL_20MHZ 0x4
#define EXYNOS5_FSEL_24MHZ 0x5
#define EXYNOS5_FSEL_26MHZ 0x6
#define EXYNOS5_FSEL_50MHZ 0x7
/* Exynos5: USB 3.0 DRD PHY registers */
#define EXYNOS5_DRD_LINKSYSTEM 0x04
#define LINKSYSTEM_XHCI_VERSION_CONTROL BIT(27)
#define LINKSYSTEM_FLADJ_MASK (0x3f << 1)
#define LINKSYSTEM_FLADJ(_x) ((_x) << 1)
#define EXYNOS5_DRD_PHYUTMI 0x08
#define PHYUTMI_OTGDISABLE BIT(6)
#define PHYUTMI_FORCESUSPEND BIT(1)
#define PHYUTMI_FORCESLEEP BIT(0)
#define EXYNOS5_DRD_PHYPIPE 0x0c
#define EXYNOS5_DRD_PHYCLKRST 0x10
#define PHYCLKRST_EN_UTMISUSPEND BIT(31)
#define PHYCLKRST_SSC_REFCLKSEL_MASK (0xff << 23)
#define PHYCLKRST_SSC_REFCLKSEL(_x) ((_x) << 23)
#define PHYCLKRST_SSC_RANGE_MASK (0x03 << 21)
#define PHYCLKRST_SSC_RANGE(_x) ((_x) << 21)
#define PHYCLKRST_SSC_EN BIT(20)
#define PHYCLKRST_REF_SSP_EN BIT(19)
#define PHYCLKRST_REF_CLKDIV2 BIT(18)
#define PHYCLKRST_MPLL_MULTIPLIER_MASK (0x7f << 11)
#define PHYCLKRST_MPLL_MULTIPLIER_100MHZ_REF (0x19 << 11)
#define PHYCLKRST_MPLL_MULTIPLIER_50M_REF (0x32 << 11)
#define PHYCLKRST_MPLL_MULTIPLIER_24MHZ_REF (0x68 << 11)
#define PHYCLKRST_MPLL_MULTIPLIER_20MHZ_REF (0x7d << 11)
#define PHYCLKRST_MPLL_MULTIPLIER_19200KHZ_REF (0x02 << 11)
#define PHYCLKRST_FSEL_PIPE_MASK (0x7 << 8)
#define PHYCLKRST_FSEL_UTMI_MASK (0x7 << 5)
#define PHYCLKRST_FSEL(_x) ((_x) << 5)
#define PHYCLKRST_FSEL_PAD_100MHZ (0x27 << 5)
#define PHYCLKRST_FSEL_PAD_24MHZ (0x2a << 5)
#define PHYCLKRST_FSEL_PAD_20MHZ (0x31 << 5)
#define PHYCLKRST_FSEL_PAD_19_2MHZ (0x38 << 5)
#define PHYCLKRST_RETENABLEN BIT(4)
#define PHYCLKRST_REFCLKSEL_MASK (0x03 << 2)
#define PHYCLKRST_REFCLKSEL_PAD_REFCLK (0x2 << 2)
#define PHYCLKRST_REFCLKSEL_EXT_REFCLK (0x3 << 2)
#define PHYCLKRST_PORTRESET BIT(1)
#define PHYCLKRST_COMMONONN BIT(0)
#define EXYNOS5_DRD_PHYREG0 0x14
#define PHYREG0_SSC_REF_CLK_SEL BIT(21)
#define PHYREG0_SSC_RANGE BIT(20)
#define PHYREG0_CR_WRITE BIT(19)
#define PHYREG0_CR_READ BIT(18)
#define PHYREG0_CR_DATA_IN(_x) ((_x) << 2)
#define PHYREG0_CR_CAP_DATA BIT(1)
#define PHYREG0_CR_CAP_ADDR BIT(0)
#define EXYNOS5_DRD_PHYREG1 0x18
#define PHYREG1_CR_DATA_OUT(_x) ((_x) << 1)
#define PHYREG1_CR_ACK BIT(0)
#define EXYNOS5_DRD_PHYPARAM0 0x1c
#define PHYPARAM0_REF_USE_PAD BIT(31)
#define PHYPARAM0_REF_LOSLEVEL_MASK (0x1f << 26)
#define PHYPARAM0_REF_LOSLEVEL (0x9 << 26)
#define EXYNOS5_DRD_PHYPARAM1 0x20
#define PHYPARAM1_PCS_TXDEEMPH_MASK (0x1f << 0)
#define PHYPARAM1_PCS_TXDEEMPH (0x1c)
#define EXYNOS5_DRD_PHYTERM 0x24
#define EXYNOS5_DRD_PHYTEST 0x28
#define PHYTEST_POWERDOWN_SSP BIT(3)
#define PHYTEST_POWERDOWN_HSP BIT(2)
#define EXYNOS5_DRD_PHYADP 0x2c
#define EXYNOS5_DRD_PHYUTMICLKSEL 0x30
#define PHYUTMICLKSEL_UTMI_CLKSEL BIT(2)
#define EXYNOS5_DRD_PHYRESUME 0x34
#define EXYNOS5_DRD_LINKPORT 0x44
/* USB 3.0 DRD PHY SS Function Control Reg; accessed by CR_PORT */
#define EXYNOS5_DRD_PHYSS_LOSLEVEL_OVRD_IN (0x15)
#define LOSLEVEL_OVRD_IN_LOS_BIAS_5420 (0x5 << 13)
#define LOSLEVEL_OVRD_IN_LOS_BIAS_DEFAULT (0x0 << 13)
#define LOSLEVEL_OVRD_IN_EN (0x1 << 10)
#define LOSLEVEL_OVRD_IN_LOS_LEVEL_DEFAULT (0x9 << 0)
#define EXYNOS5_DRD_PHYSS_TX_VBOOSTLEVEL_OVRD_IN (0x12)
#define TX_VBOOSTLEVEL_OVRD_IN_VBOOST_5420 (0x5 << 13)
#define TX_VBOOSTLEVEL_OVRD_IN_VBOOST_DEFAULT (0x4 << 13)
#define EXYNOS5_DRD_PHYSS_LANE0_TX_DEBUG (0x1010)
#define LANE0_TX_DEBUG_RXDET_MEAS_TIME_19M2_20M (0x4 << 4)
#define LANE0_TX_DEBUG_RXDET_MEAS_TIME_24M (0x8 << 4)
#define LANE0_TX_DEBUG_RXDET_MEAS_TIME_25M_26M (0x8 << 4)
#define LANE0_TX_DEBUG_RXDET_MEAS_TIME_48M_50M_52M (0x20 << 4)
#define LANE0_TX_DEBUG_RXDET_MEAS_TIME_62M5 (0x20 << 4)
#define LANE0_TX_DEBUG_RXDET_MEAS_TIME_96M_100M (0x40 << 4)
/* Exynos850: USB DRD PHY registers */
#define EXYNOS850_DRD_LINKCTRL 0x04
#define LINKCTRL_FORCE_RXELECIDLE BIT(18)
#define LINKCTRL_FORCE_PHYSTATUS BIT(17)
#define LINKCTRL_FORCE_PIPE_EN BIT(16)
#define LINKCTRL_FORCE_QACT BIT(8)
#define LINKCTRL_BUS_FILTER_BYPASS(_x) ((_x) << 4)
#define EXYNOS850_DRD_LINKPORT 0x08
#define LINKPORT_HOST_NUM_U3 GENMASK(19, 16)
#define LINKPORT_HOST_NUM_U2 GENMASK(15, 12)
#define EXYNOS850_DRD_CLKRST 0x20
/*
* On versions without SS ports (like E850), bit 3 is for the 2.0 phy (HS),
* while on versions with (like gs101), bits 2 and 3 are for the 3.0 phy (SS)
* and bits 12 & 13 for the 2.0 phy.
*/
#define CLKRST_PHY20_SW_POR BIT(13)
#define CLKRST_PHY20_SW_POR_SEL BIT(12)
#define CLKRST_LINK_PCLK_SEL BIT(7)
#define CLKRST_PHY_SW_RST BIT(3)
#define CLKRST_PHY_RESET_SEL BIT(2)
#define CLKRST_PORT_RST BIT(1)
#define CLKRST_LINK_SW_RST BIT(0)
#define EXYNOS850_DRD_SSPPLLCTL 0x30
#define SSPPLLCTL_FSEL GENMASK(2, 0)
#define EXYNOS850_DRD_UTMI 0x50
#define UTMI_FORCE_VBUSVALID BIT(5)
#define UTMI_FORCE_BVALID BIT(4)
#define UTMI_DP_PULLDOWN BIT(3)
#define UTMI_DM_PULLDOWN BIT(2)
#define UTMI_FORCE_SUSPEND BIT(1)
#define UTMI_FORCE_SLEEP BIT(0)
#define EXYNOS850_DRD_HSP 0x54
#define HSP_FSV_OUT_EN BIT(24)
#define HSP_VBUSVLDEXTSEL BIT(13)
#define HSP_VBUSVLDEXT BIT(12)
#define HSP_EN_UTMISUSPEND BIT(9)
#define HSP_COMMONONN BIT(8)
#define EXYNOS850_DRD_HSPPARACON 0x58
#define HSPPARACON_TXVREF GENMASK(31, 28)
#define HSPPARACON_TXRISE GENMASK(25, 24)
#define HSPPARACON_TXRES GENMASK(22, 21)
#define HSPPARACON_TXPREEMPPULSE BIT(20)
#define HSPPARACON_TXPREEMPAMP GENMASK(19, 18)
#define HSPPARACON_TXHSXV GENMASK(17, 16)
#define HSPPARACON_TXFSLS GENMASK(15, 12)
#define HSPPARACON_SQRX GENMASK(10, 8)
#define HSPPARACON_OTG GENMASK(6, 4)
#define HSPPARACON_COMPDIS GENMASK(2, 0)
#define EXYNOS850_DRD_HSP_TEST 0x5c
#define HSP_TEST_SIDDQ BIT(24)
/* Exynos9 - GS101 */
#define EXYNOS850_DRD_SECPMACTL 0x48
#define SECPMACTL_PMA_ROPLL_REF_CLK_SEL GENMASK(13, 12)
#define SECPMACTL_PMA_LCPLL_REF_CLK_SEL GENMASK(11, 10)
#define SECPMACTL_PMA_REF_FREQ_SEL GENMASK(9, 8)
#define SECPMACTL_PMA_LOW_PWR BIT(4)
#define SECPMACTL_PMA_TRSV_SW_RST BIT(3)
#define SECPMACTL_PMA_CMN_SW_RST BIT(2)
#define SECPMACTL_PMA_INIT_SW_RST BIT(1)
#define SECPMACTL_PMA_APB_SW_RST BIT(0)
/* PMA registers */
#define EXYNOS9_PMA_USBDP_CMN_REG0008 0x0020
#define CMN_REG0008_OVRD_AUX_EN BIT(3)
#define CMN_REG0008_AUX_EN BIT(2)
#define EXYNOS9_PMA_USBDP_CMN_REG00B8 0x02e0
#define CMN_REG00B8_LANE_MUX_SEL_DP GENMASK(3, 0)
#define EXYNOS9_PMA_USBDP_CMN_REG01C0 0x0700
#define CMN_REG01C0_ANA_LCPLL_LOCK_DONE BIT(7)
#define CMN_REG01C0_ANA_LCPLL_AFC_DONE BIT(6)
/* these have similar register layout, for lanes 0 and 2 */
#define EXYNOS9_PMA_USBDP_TRSV_REG03C3 0x0f0c
#define EXYNOS9_PMA_USBDP_TRSV_REG07C3 0x1f0c
#define TRSV_REG03C3_LN0_MON_RX_CDR_AFC_DONE BIT(3)
#define TRSV_REG03C3_LN0_MON_RX_CDR_CAL_DONE BIT(2)
#define TRSV_REG03C3_LN0_MON_RX_CDR_FLD_PLL_MODE_DONE BIT(1)
#define TRSV_REG03C3_LN0_MON_RX_CDR_LOCK_DONE BIT(0)
/* TRSV_REG0413 and TRSV_REG0813 have similar register layout */
#define EXYNOS9_PMA_USBDP_TRSV_REG0413 0x104c
#define TRSV_REG0413_OVRD_LN1_TX_RXD_COMP_EN BIT(7)
#define TRSV_REG0413_OVRD_LN1_TX_RXD_EN BIT(5)
#define EXYNOS9_PMA_USBDP_TRSV_REG0813 0x204c
#define TRSV_REG0813_OVRD_LN3_TX_RXD_COMP_EN BIT(7)
#define TRSV_REG0813_OVRD_LN3_TX_RXD_EN BIT(5)
/* PCS registers */
#define EXYNOS9_PCS_NS_VEC_PS1_N1 0x010c
#define EXYNOS9_PCS_NS_VEC_PS2_N0 0x0110
#define EXYNOS9_PCS_NS_VEC_PS3_N0 0x0118
#define NS_VEC_NS_REQ GENMASK(31, 24)
#define NS_VEC_ENABLE_TIMER BIT(22)
#define NS_VEC_SEL_TIMEOUT GENMASK(21, 20)
#define NS_VEC_INV_MASK GENMASK(19, 16)
#define NS_VEC_COND_MASK GENMASK(11, 8)
#define NS_VEC_EXP_COND GENMASK(3, 0)
#define EXYNOS9_PCS_OUT_VEC_2 0x014c
#define EXYNOS9_PCS_OUT_VEC_3 0x0150
#define PCS_OUT_VEC_B9_DYNAMIC BIT(19)
#define PCS_OUT_VEC_B9_SEL_OUT BIT(18)
#define PCS_OUT_VEC_B8_DYNAMIC BIT(17)
#define PCS_OUT_VEC_B8_SEL_OUT BIT(16)
#define PCS_OUT_VEC_B7_DYNAMIC BIT(15)
#define PCS_OUT_VEC_B7_SEL_OUT BIT(14)
#define PCS_OUT_VEC_B6_DYNAMIC BIT(13)
#define PCS_OUT_VEC_B6_SEL_OUT BIT(12)
#define PCS_OUT_VEC_B5_DYNAMIC BIT(11)
#define PCS_OUT_VEC_B5_SEL_OUT BIT(10)
#define PCS_OUT_VEC_B4_DYNAMIC BIT(9)
#define PCS_OUT_VEC_B4_SEL_OUT BIT(8)
#define PCS_OUT_VEC_B3_DYNAMIC BIT(7)
#define PCS_OUT_VEC_B3_SEL_OUT BIT(6)
#define PCS_OUT_VEC_B2_DYNAMIC BIT(5)
#define PCS_OUT_VEC_B2_SEL_OUT BIT(4)
#define PCS_OUT_VEC_B1_DYNAMIC BIT(3)
#define PCS_OUT_VEC_B1_SEL_OUT BIT(2)
#define PCS_OUT_VEC_B0_DYNAMIC BIT(1)
#define PCS_OUT_VEC_B0_SEL_OUT BIT(0)
#define EXYNOS9_PCS_TIMEOUT_0 0x0170
#define EXYNOS9_PCS_TIMEOUT_3 0x017c
#define EXYNOS9_PCS_EBUF_PARAM 0x0304
#define EBUF_PARAM_SKP_REMOVE_TH_EMPTY_MODE GENMASK(29, 24)
#define EXYNOS9_PCS_BACK_END_MODE_VEC 0x030c
#define BACK_END_MODE_VEC_FORCE_EBUF_EMPTY_MODE BIT(1)
#define BACK_END_MODE_VEC_DISABLE_DATA_MASK BIT(0)
#define EXYNOS9_PCS_RX_CONTROL 0x03f0
#define RX_CONTROL_EN_BLOCK_ALIGNER_TYPE_B BIT(22)
#define EXYNOS9_PCS_RX_CONTROL_DEBUG 0x03f4
#define RX_CONTROL_DEBUG_EN_TS_CHECK BIT(5)
#define RX_CONTROL_DEBUG_NUM_COM_FOUND GENMASK(3, 0)
#define EXYNOS9_PCS_LOCAL_COEF 0x040c
#define LOCAL_COEF_PMA_CENTER_COEF GENMASK(21, 16)
#define LOCAL_COEF_LF GENMASK(13, 8)
#define LOCAL_COEF_FS GENMASK(5, 0)
#define EXYNOS9_PCS_HS_TX_COEF_MAP_0 0x0410
#define HS_TX_COEF_MAP_0_SSTX_DEEMP GENMASK(17, 12)
#define HS_TX_COEF_MAP_0_SSTX_LEVEL GENMASK(11, 6)
#define HS_TX_COEF_MAP_0_SSTX_PRE_SHOOT GENMASK(5, 0)
#define KHZ 1000
#define MHZ (KHZ * KHZ)
#define PHY_TUNING_ENTRY_PHY(o, m, v) { \
.off = (o), \
.mask = (m), \
.val = (v), \
.region = PTR_PHY \
}
#define PHY_TUNING_ENTRY_PCS(o, m, v) { \
.off = (o), \
.mask = (m), \
.val = (v), \
.region = PTR_PCS \
}
#define PHY_TUNING_ENTRY_PMA(o, m, v) { \
.off = (o), \
.mask = (m), \
.val = (v), \
.region = PTR_PMA, \
}
#define PHY_TUNING_ENTRY_LAST { .region = PTR_INVALID }
#define for_each_phy_tune(tune) \
for (; (tune)->region != PTR_INVALID; ++(tune))
struct exynos5_usbdrd_phy_tuning {
u32 off;
u32 mask;
u32 val;
char region;
#define PTR_INVALID 0
#define PTR_PHY 1
#define PTR_PCS 2
#define PTR_PMA 3
};
enum exynos5_usbdrd_phy_tuning_state {
PTS_UTMI_POSTINIT,
PTS_PIPE3_PREINIT,
PTS_PIPE3_INIT,
PTS_PIPE3_POSTINIT,
PTS_PIPE3_POSTLOCK,
PTS_MAX,
};
enum exynos5_usbdrd_phy_id {
EXYNOS5_DRDPHY_UTMI,
EXYNOS5_DRDPHY_PIPE3,
EXYNOS5_DRDPHYS_NUM,
};
struct phy_usb_instance;
struct exynos5_usbdrd_phy;
struct exynos5_usbdrd_phy_config {
u32 id;
void (*phy_isol)(struct phy_usb_instance *inst, bool isolate);
void (*phy_init)(struct exynos5_usbdrd_phy *phy_drd);
unsigned int (*set_refclk)(struct phy_usb_instance *inst);
};
struct exynos5_usbdrd_phy_drvdata {
const struct exynos5_usbdrd_phy_config *phy_cfg;
const struct exynos5_usbdrd_phy_tuning **phy_tunes;
const struct phy_ops *phy_ops;
const char * const *clk_names;
int n_clks;
const char * const *core_clk_names;
int n_core_clks;
const char * const *regulator_names;
int n_regulators;
u32 pmu_offset_usbdrd0_phy;
u32 pmu_offset_usbdrd0_phy_ss;
u32 pmu_offset_usbdrd1_phy;
};
/**
* struct exynos5_usbdrd_phy - driver data for USB 3.0 PHY
* @dev: pointer to device instance of this platform device
* @reg_phy: usb phy controller register memory base
* @reg_pcs: usb phy physical coding sublayer register memory base
* @reg_pma: usb phy physical media attachment register memory base
* @clks: clocks for register access
* @core_clks: core clocks for phy (ref, pipe3, utmi+, ITP, etc. as required)
* @drv_data: pointer to SoC level driver data structure
* @phys: array for 'EXYNOS5_DRDPHYS_NUM' number of PHY
* instances each with its 'phy' and 'phy_cfg'.
* @extrefclk: frequency select settings when using 'separate
* reference clocks' for SS and HS operations
* @regulators: regulators for phy
*/
struct exynos5_usbdrd_phy {
struct device *dev;
void __iomem *reg_phy;
void __iomem *reg_pcs;
void __iomem *reg_pma;
struct clk_bulk_data *clks;
struct clk_bulk_data *core_clks;
const struct exynos5_usbdrd_phy_drvdata *drv_data;
struct phy_usb_instance {
struct phy *phy;
u32 index;
struct regmap *reg_pmu;
u32 pmu_offset;
const struct exynos5_usbdrd_phy_config *phy_cfg;
} phys[EXYNOS5_DRDPHYS_NUM];
u32 extrefclk;
struct regulator_bulk_data *regulators;
};
static inline
struct exynos5_usbdrd_phy *to_usbdrd_phy(struct phy_usb_instance *inst)
{
return container_of((inst), struct exynos5_usbdrd_phy,
phys[(inst)->index]);
}
/*
* exynos5_rate_to_clk() converts the supplied clock rate to the value that
* can be written to the phy register.
*/
static unsigned int exynos5_rate_to_clk(unsigned long rate, u32 *reg)
{
/* EXYNOS5_FSEL_MASK */
switch (rate) {
case 9600 * KHZ:
*reg = EXYNOS5_FSEL_9MHZ6;
break;
case 10 * MHZ:
*reg = EXYNOS5_FSEL_10MHZ;
break;
case 12 * MHZ:
*reg = EXYNOS5_FSEL_12MHZ;
break;
case 19200 * KHZ:
*reg = EXYNOS5_FSEL_19MHZ2;
break;
case 20 * MHZ:
*reg = EXYNOS5_FSEL_20MHZ;
break;
case 24 * MHZ:
*reg = EXYNOS5_FSEL_24MHZ;
break;
case 26 * MHZ:
*reg = EXYNOS5_FSEL_26MHZ;
break;
case 50 * MHZ:
*reg = EXYNOS5_FSEL_50MHZ;
break;
default:
return -EINVAL;
}
return 0;
}
static void exynos5_usbdrd_phy_isol(struct phy_usb_instance *inst,
bool isolate)
{
unsigned int val;
if (!inst->reg_pmu)
return;
val = isolate ? 0 : EXYNOS4_PHY_ENABLE;
regmap_update_bits(inst->reg_pmu, inst->pmu_offset,
EXYNOS4_PHY_ENABLE, val);
}
/*
* Sets the pipe3 phy's clk as EXTREFCLK (XXTI) which is internal clock
* from clock core. Further sets multiplier values and spread spectrum
* clock settings for SuperSpeed operations.
*/
static unsigned int
exynos5_usbdrd_pipe3_set_refclk(struct phy_usb_instance *inst)
{
u32 reg;
struct exynos5_usbdrd_phy *phy_drd = to_usbdrd_phy(inst);
/* restore any previous reference clock settings */
reg = readl(phy_drd->reg_phy + EXYNOS5_DRD_PHYCLKRST);
/* Use EXTREFCLK as ref clock */
reg &= ~PHYCLKRST_REFCLKSEL_MASK;
reg |= PHYCLKRST_REFCLKSEL_EXT_REFCLK;
/* FSEL settings corresponding to reference clock */
reg &= ~PHYCLKRST_FSEL_PIPE_MASK |
PHYCLKRST_MPLL_MULTIPLIER_MASK |
PHYCLKRST_SSC_REFCLKSEL_MASK;
switch (phy_drd->extrefclk) {
case EXYNOS5_FSEL_50MHZ:
reg |= (PHYCLKRST_MPLL_MULTIPLIER_50M_REF |
PHYCLKRST_SSC_REFCLKSEL(0x00));
break;
case EXYNOS5_FSEL_24MHZ:
reg |= (PHYCLKRST_MPLL_MULTIPLIER_24MHZ_REF |
PHYCLKRST_SSC_REFCLKSEL(0x88));
break;
case EXYNOS5_FSEL_20MHZ:
reg |= (PHYCLKRST_MPLL_MULTIPLIER_20MHZ_REF |
PHYCLKRST_SSC_REFCLKSEL(0x00));
break;
case EXYNOS5_FSEL_19MHZ2:
reg |= (PHYCLKRST_MPLL_MULTIPLIER_19200KHZ_REF |
PHYCLKRST_SSC_REFCLKSEL(0x88));
break;
default:
dev_dbg(phy_drd->dev, "unsupported ref clk\n");
break;
}
return reg;
}
/*
* Sets the utmi phy's clk as EXTREFCLK (XXTI) which is internal clock
* from clock core. Further sets the FSEL values for HighSpeed operations.
*/
static unsigned int
exynos5_usbdrd_utmi_set_refclk(struct phy_usb_instance *inst)
{
u32 reg;
struct exynos5_usbdrd_phy *phy_drd = to_usbdrd_phy(inst);
/* restore any previous reference clock settings */
reg = readl(phy_drd->reg_phy + EXYNOS5_DRD_PHYCLKRST);
reg &= ~PHYCLKRST_REFCLKSEL_MASK;
reg |= PHYCLKRST_REFCLKSEL_EXT_REFCLK;
reg &= ~PHYCLKRST_FSEL_UTMI_MASK |
PHYCLKRST_MPLL_MULTIPLIER_MASK |
PHYCLKRST_SSC_REFCLKSEL_MASK;
reg |= PHYCLKRST_FSEL(phy_drd->extrefclk);
return reg;
}
static void
exynos5_usbdrd_apply_phy_tunes(struct exynos5_usbdrd_phy *phy_drd,
enum exynos5_usbdrd_phy_tuning_state state)
{
const struct exynos5_usbdrd_phy_tuning *tune;
tune = phy_drd->drv_data->phy_tunes[state];
if (!tune)
return;
for_each_phy_tune(tune) {
void __iomem *reg_base;
u32 reg = 0;
switch (tune->region) {
case PTR_PHY:
reg_base = phy_drd->reg_phy;
break;
case PTR_PCS:
reg_base = phy_drd->reg_pcs;
break;
case PTR_PMA:
reg_base = phy_drd->reg_pma;
break;
default:
dev_warn_once(phy_drd->dev,
"unknown phy region %d\n", tune->region);
continue;
}
if (~tune->mask) {
reg = readl(reg_base + tune->off);
reg &= ~tune->mask;
}
reg |= tune->val;
writel(reg, reg_base + tune->off);
}
}
static void exynos5_usbdrd_pipe3_init(struct exynos5_usbdrd_phy *phy_drd)
{
u32 reg;
reg = readl(phy_drd->reg_phy + EXYNOS5_DRD_PHYPARAM1);
/* Set Tx De-Emphasis level */
reg &= ~PHYPARAM1_PCS_TXDEEMPH_MASK;
reg |= PHYPARAM1_PCS_TXDEEMPH;
writel(reg, phy_drd->reg_phy + EXYNOS5_DRD_PHYPARAM1);
reg = readl(phy_drd->reg_phy + EXYNOS5_DRD_PHYTEST);
reg &= ~PHYTEST_POWERDOWN_SSP;
writel(reg, phy_drd->reg_phy + EXYNOS5_DRD_PHYTEST);
}
static void
exynos5_usbdrd_usbdp_g2_v4_ctrl_pma_ready(struct exynos5_usbdrd_phy *phy_drd)
{
void __iomem *regs_base = phy_drd->reg_phy;
u32 reg;
/* link pipe_clock selection to pclk of PMA */
reg = readl(regs_base + EXYNOS850_DRD_CLKRST);
reg |= CLKRST_LINK_PCLK_SEL;
writel(reg, regs_base + EXYNOS850_DRD_CLKRST);
reg = readl(regs_base + EXYNOS850_DRD_SECPMACTL);
reg &= ~SECPMACTL_PMA_REF_FREQ_SEL;
reg |= FIELD_PREP_CONST(SECPMACTL_PMA_REF_FREQ_SEL, 1);
/* SFR reset */
reg |= (SECPMACTL_PMA_LOW_PWR | SECPMACTL_PMA_APB_SW_RST);
reg &= ~(SECPMACTL_PMA_ROPLL_REF_CLK_SEL |
SECPMACTL_PMA_LCPLL_REF_CLK_SEL);
/* PMA power off */
reg |= (SECPMACTL_PMA_TRSV_SW_RST | SECPMACTL_PMA_CMN_SW_RST |
SECPMACTL_PMA_INIT_SW_RST);
writel(reg, regs_base + EXYNOS850_DRD_SECPMACTL);
udelay(1);
reg = readl(regs_base + EXYNOS850_DRD_SECPMACTL);
reg &= ~SECPMACTL_PMA_LOW_PWR;
writel(reg, regs_base + EXYNOS850_DRD_SECPMACTL);
udelay(1);
/* release override */
reg = readl(regs_base + EXYNOS850_DRD_LINKCTRL);
reg &= ~LINKCTRL_FORCE_PIPE_EN;
writel(reg, regs_base + EXYNOS850_DRD_LINKCTRL);
udelay(1);
/* APB enable */
reg = readl(regs_base + EXYNOS850_DRD_SECPMACTL);
reg &= ~SECPMACTL_PMA_APB_SW_RST;
writel(reg, regs_base + EXYNOS850_DRD_SECPMACTL);
}
static void
exynos5_usbdrd_usbdp_g2_v4_pma_lane_mux_sel(struct exynos5_usbdrd_phy *phy_drd)
{
void __iomem *regs_base = phy_drd->reg_pma;
u32 reg;
/* lane configuration: USB on all lanes */
reg = readl(regs_base + EXYNOS9_PMA_USBDP_CMN_REG00B8);
reg &= ~CMN_REG00B8_LANE_MUX_SEL_DP;
writel(reg, regs_base + EXYNOS9_PMA_USBDP_CMN_REG00B8);
/*
* FIXME: below code supports one connector orientation only. It needs
* updating once we can receive connector events.
*/
/* override of TX receiver detector and comparator: lane 1 */
reg = readl(regs_base + EXYNOS9_PMA_USBDP_TRSV_REG0413);
reg &= ~TRSV_REG0413_OVRD_LN1_TX_RXD_COMP_EN;
reg &= ~TRSV_REG0413_OVRD_LN1_TX_RXD_EN;
writel(reg, regs_base + EXYNOS9_PMA_USBDP_TRSV_REG0413);
/* lane 3 */
reg = readl(regs_base + EXYNOS9_PMA_USBDP_TRSV_REG0813);
reg |= TRSV_REG0813_OVRD_LN3_TX_RXD_COMP_EN;
reg |= TRSV_REG0813_OVRD_LN3_TX_RXD_EN;
writel(reg, regs_base + EXYNOS9_PMA_USBDP_TRSV_REG0813);
}
static int
exynos5_usbdrd_usbdp_g2_v4_pma_check_pll_lock(struct exynos5_usbdrd_phy *phy_drd)
{
static const unsigned int timeout_us = 40000;
static const unsigned int sleep_us = 40;
static const u32 locked = (CMN_REG01C0_ANA_LCPLL_LOCK_DONE |
CMN_REG01C0_ANA_LCPLL_AFC_DONE);
u32 reg;
int err;
err = readl_poll_timeout(
phy_drd->reg_pma + EXYNOS9_PMA_USBDP_CMN_REG01C0,
reg, (reg & locked) == locked, sleep_us, timeout_us);
if (err)
dev_err(phy_drd->dev,
"timed out waiting for PLL lock: %#.8x\n", reg);
return err;
}
static void
exynos5_usbdrd_usbdp_g2_v4_pma_check_cdr_lock(struct exynos5_usbdrd_phy *phy_drd)
{
static const unsigned int timeout_us = 40000;
static const unsigned int sleep_us = 40;
static const u32 locked =
(TRSV_REG03C3_LN0_MON_RX_CDR_AFC_DONE
| TRSV_REG03C3_LN0_MON_RX_CDR_CAL_DONE
| TRSV_REG03C3_LN0_MON_RX_CDR_FLD_PLL_MODE_DONE
| TRSV_REG03C3_LN0_MON_RX_CDR_LOCK_DONE);
u32 reg;
int err;
err = readl_poll_timeout(
phy_drd->reg_pma + EXYNOS9_PMA_USBDP_TRSV_REG03C3,
reg, (reg & locked) == locked, sleep_us, timeout_us);
if (!err)
return;
dev_err(phy_drd->dev,
"timed out waiting for CDR lock (l0): %#.8x, retrying\n", reg);
/* based on cable orientation, this might be on the other phy port */
err = readl_poll_timeout(
phy_drd->reg_pma + EXYNOS9_PMA_USBDP_TRSV_REG07C3,
reg, (reg & locked) == locked, sleep_us, timeout_us);
if (err)
dev_err(phy_drd->dev,
"timed out waiting for CDR lock (l2): %#.8x\n", reg);
}
static void exynos5_usbdrd_utmi_init(struct exynos5_usbdrd_phy *phy_drd)
{
u32 reg;
reg = readl(phy_drd->reg_phy + EXYNOS5_DRD_PHYPARAM0);
/* Set Loss-of-Signal Detector sensitivity */
reg &= ~PHYPARAM0_REF_LOSLEVEL_MASK;
reg |= PHYPARAM0_REF_LOSLEVEL;
writel(reg, phy_drd->reg_phy + EXYNOS5_DRD_PHYPARAM0);
reg = readl(phy_drd->reg_phy + EXYNOS5_DRD_PHYPARAM1);
/* Set Tx De-Emphasis level */
reg &= ~PHYPARAM1_PCS_TXDEEMPH_MASK;
reg |= PHYPARAM1_PCS_TXDEEMPH;
writel(reg, phy_drd->reg_phy + EXYNOS5_DRD_PHYPARAM1);
/* UTMI Power Control */
writel(PHYUTMI_OTGDISABLE, phy_drd->reg_phy + EXYNOS5_DRD_PHYUTMI);
reg = readl(phy_drd->reg_phy + EXYNOS5_DRD_PHYTEST);
reg &= ~PHYTEST_POWERDOWN_HSP;
writel(reg, phy_drd->reg_phy + EXYNOS5_DRD_PHYTEST);
}
static int exynos5_usbdrd_phy_init(struct phy *phy)
{
int ret;
u32 reg;
struct phy_usb_instance *inst = phy_get_drvdata(phy);
struct exynos5_usbdrd_phy *phy_drd = to_usbdrd_phy(inst);
ret = clk_bulk_prepare_enable(phy_drd->drv_data->n_clks, phy_drd->clks);
if (ret)
return ret;
/* Reset USB 3.0 PHY */
writel(0x0, phy_drd->reg_phy + EXYNOS5_DRD_PHYREG0);
writel(0x0, phy_drd->reg_phy + EXYNOS5_DRD_PHYRESUME);
/*
* Setting the Frame length Adj value[6:1] to default 0x20
* See xHCI 1.0 spec, 5.2.4
*/
reg = LINKSYSTEM_XHCI_VERSION_CONTROL |
LINKSYSTEM_FLADJ(0x20);
writel(reg, phy_drd->reg_phy + EXYNOS5_DRD_LINKSYSTEM);
reg = readl(phy_drd->reg_phy + EXYNOS5_DRD_PHYPARAM0);
/* Select PHY CLK source */
reg &= ~PHYPARAM0_REF_USE_PAD;
writel(reg, phy_drd->reg_phy + EXYNOS5_DRD_PHYPARAM0);
/* This bit must be set for both HS and SS operations */
reg = readl(phy_drd->reg_phy + EXYNOS5_DRD_PHYUTMICLKSEL);
reg |= PHYUTMICLKSEL_UTMI_CLKSEL;
writel(reg, phy_drd->reg_phy + EXYNOS5_DRD_PHYUTMICLKSEL);
/* UTMI or PIPE3 specific init */
inst->phy_cfg->phy_init(phy_drd);
/* reference clock settings */
reg = inst->phy_cfg->set_refclk(inst);
/* Digital power supply in normal operating mode */
reg |= PHYCLKRST_RETENABLEN |
/* Enable ref clock for SS function */
PHYCLKRST_REF_SSP_EN |
/* Enable spread spectrum */
PHYCLKRST_SSC_EN |
/* Power down HS Bias and PLL blocks in suspend mode */
PHYCLKRST_COMMONONN |
/* Reset the port */
PHYCLKRST_PORTRESET;
writel(reg, phy_drd->reg_phy + EXYNOS5_DRD_PHYCLKRST);
fsleep(10);
reg &= ~PHYCLKRST_PORTRESET;
writel(reg, phy_drd->reg_phy + EXYNOS5_DRD_PHYCLKRST);
clk_bulk_disable_unprepare(phy_drd->drv_data->n_clks, phy_drd->clks);
return 0;
}
static int exynos5_usbdrd_phy_exit(struct phy *phy)
{
int ret;
u32 reg;
struct phy_usb_instance *inst = phy_get_drvdata(phy);
struct exynos5_usbdrd_phy *phy_drd = to_usbdrd_phy(inst);
ret = clk_bulk_prepare_enable(phy_drd->drv_data->n_clks, phy_drd->clks);
if (ret)
return ret;
reg = PHYUTMI_OTGDISABLE |
PHYUTMI_FORCESUSPEND |
PHYUTMI_FORCESLEEP;
writel(reg, phy_drd->reg_phy + EXYNOS5_DRD_PHYUTMI);
/* Resetting the PHYCLKRST enable bits to reduce leakage current */
reg = readl(phy_drd->reg_phy + EXYNOS5_DRD_PHYCLKRST);
reg &= ~(PHYCLKRST_REF_SSP_EN |
PHYCLKRST_SSC_EN |
PHYCLKRST_COMMONONN);
writel(reg, phy_drd->reg_phy + EXYNOS5_DRD_PHYCLKRST);
/* Control PHYTEST to remove leakage current */
reg = readl(phy_drd->reg_phy + EXYNOS5_DRD_PHYTEST);
reg |= PHYTEST_POWERDOWN_SSP |
PHYTEST_POWERDOWN_HSP;
writel(reg, phy_drd->reg_phy + EXYNOS5_DRD_PHYTEST);
clk_bulk_disable_unprepare(phy_drd->drv_data->n_clks, phy_drd->clks);
return 0;
}
static int exynos5_usbdrd_phy_power_on(struct phy *phy)
{
int ret;
struct phy_usb_instance *inst = phy_get_drvdata(phy);
struct exynos5_usbdrd_phy *phy_drd = to_usbdrd_phy(inst);
dev_dbg(phy_drd->dev, "Request to power_on usbdrd_phy phy\n");
ret = clk_bulk_prepare_enable(phy_drd->drv_data->n_core_clks,
phy_drd->core_clks);
if (ret)
return ret;
/* Enable VBUS supply */
ret = regulator_bulk_enable(phy_drd->drv_data->n_regulators,
phy_drd->regulators);
if (ret) {
dev_err(phy_drd->dev, "Failed to enable PHY regulator(s)\n");
goto fail_vbus;
}
/* Power-on PHY */
inst->phy_cfg->phy_isol(inst, false);
return 0;
fail_vbus:
clk_bulk_disable_unprepare(phy_drd->drv_data->n_core_clks,
phy_drd->core_clks);
return ret;
}
static int exynos5_usbdrd_phy_power_off(struct phy *phy)
{
struct phy_usb_instance *inst = phy_get_drvdata(phy);
struct exynos5_usbdrd_phy *phy_drd = to_usbdrd_phy(inst);
dev_dbg(phy_drd->dev, "Request to power_off usbdrd_phy phy\n");
/* Power-off the PHY */
inst->phy_cfg->phy_isol(inst, true);
/* Disable VBUS supply */
regulator_bulk_disable(phy_drd->drv_data->n_regulators,
phy_drd->regulators);
clk_bulk_disable_unprepare(phy_drd->drv_data->n_core_clks,
phy_drd->core_clks);
return 0;
}
static int crport_handshake(struct exynos5_usbdrd_phy *phy_drd,
u32 val, u32 cmd)
{
unsigned int result;
int err;
writel(val | cmd, phy_drd->reg_phy + EXYNOS5_DRD_PHYREG0);
err = readl_poll_timeout(phy_drd->reg_phy + EXYNOS5_DRD_PHYREG1,
result, (result & PHYREG1_CR_ACK), 1, 100);
if (err == -ETIMEDOUT) {
dev_err(phy_drd->dev, "CRPORT handshake timeout1 (0x%08x)\n", val);
return err;
}
writel(val, phy_drd->reg_phy + EXYNOS5_DRD_PHYREG0);
err = readl_poll_timeout(phy_drd->reg_phy + EXYNOS5_DRD_PHYREG1,
result, !(result & PHYREG1_CR_ACK), 1, 100);
if (err == -ETIMEDOUT) {
dev_err(phy_drd->dev, "CRPORT handshake timeout2 (0x%08x)\n", val);
return err;
}
return 0;
}
static int crport_ctrl_write(struct exynos5_usbdrd_phy *phy_drd,
u32 addr, u32 data)
{
int ret;
/* Write Address */
writel(PHYREG0_CR_DATA_IN(addr),
phy_drd->reg_phy + EXYNOS5_DRD_PHYREG0);
ret = crport_handshake(phy_drd, PHYREG0_CR_DATA_IN(addr),
PHYREG0_CR_CAP_ADDR);
if (ret)
return ret;
/* Write Data */
writel(PHYREG0_CR_DATA_IN(data),
phy_drd->reg_phy + EXYNOS5_DRD_PHYREG0);
ret = crport_handshake(phy_drd, PHYREG0_CR_DATA_IN(data),
PHYREG0_CR_CAP_DATA);
if (ret)
return ret;
ret = crport_handshake(phy_drd, PHYREG0_CR_DATA_IN(data),
PHYREG0_CR_WRITE);
return ret;
}
/*
* Calibrate few PHY parameters using CR_PORT register to meet
* SuperSpeed requirements on Exynos5420 and Exynos5800 systems,
* which have 28nm USB 3.0 DRD PHY.
*/
static int exynos5420_usbdrd_phy_calibrate(struct exynos5_usbdrd_phy *phy_drd)
{
unsigned int temp;
int ret = 0;
/*
* Change los_bias to (0x5) for 28nm PHY from a
* default value (0x0); los_level is set as default
* (0x9) as also reflected in los_level[30:26] bits
* of PHYPARAM0 register.
*/
temp = LOSLEVEL_OVRD_IN_LOS_BIAS_5420 |
LOSLEVEL_OVRD_IN_EN |
LOSLEVEL_OVRD_IN_LOS_LEVEL_DEFAULT;
ret = crport_ctrl_write(phy_drd,
EXYNOS5_DRD_PHYSS_LOSLEVEL_OVRD_IN,
temp);
if (ret) {
dev_err(phy_drd->dev,
"Failed setting Loss-of-Signal level for SuperSpeed\n");
return ret;
}
/*
* Set tx_vboost_lvl to (0x5) for 28nm PHY Tuning,
* to raise Tx signal level from its default value of (0x4)
*/
temp = TX_VBOOSTLEVEL_OVRD_IN_VBOOST_5420;
ret = crport_ctrl_write(phy_drd,
EXYNOS5_DRD_PHYSS_TX_VBOOSTLEVEL_OVRD_IN,
temp);
if (ret) {
dev_err(phy_drd->dev,
"Failed setting Tx-Vboost-Level for SuperSpeed\n");
return ret;
}
/*
* Set proper time to wait for RxDetect measurement, for
* desired reference clock of PHY, by tuning the CR_PORT
* register LANE0.TX_DEBUG which is internal to PHY.
* This fixes issue with few USB 3.0 devices, which are
* not detected (not even generate interrupts on the bus
* on insertion) without this change.
* e.g. Samsung SUM-TSB16S 3.0 USB drive.
*/
switch (phy_drd->extrefclk) {
case EXYNOS5_FSEL_50MHZ:
temp = LANE0_TX_DEBUG_RXDET_MEAS_TIME_48M_50M_52M;
break;
case EXYNOS5_FSEL_20MHZ:
case EXYNOS5_FSEL_19MHZ2:
temp = LANE0_TX_DEBUG_RXDET_MEAS_TIME_19M2_20M;
break;
case EXYNOS5_FSEL_24MHZ:
default:
temp = LANE0_TX_DEBUG_RXDET_MEAS_TIME_24M;
break;
}
ret = crport_ctrl_write(phy_drd,
EXYNOS5_DRD_PHYSS_LANE0_TX_DEBUG,
temp);
if (ret)
dev_err(phy_drd->dev,
"Fail to set RxDet measurement time for SuperSpeed\n");
return ret;
}
static struct phy *exynos5_usbdrd_phy_xlate(struct device *dev,
const struct of_phandle_args *args)
{
struct exynos5_usbdrd_phy *phy_drd = dev_get_drvdata(dev);
if (WARN_ON(args->args[0] >= EXYNOS5_DRDPHYS_NUM))
return ERR_PTR(-ENODEV);
return phy_drd->phys[args->args[0]].phy;
}
static int exynos5_usbdrd_phy_calibrate(struct phy *phy)
{
struct phy_usb_instance *inst = phy_get_drvdata(phy);
struct exynos5_usbdrd_phy *phy_drd = to_usbdrd_phy(inst);
if (inst->phy_cfg->id == EXYNOS5_DRDPHY_UTMI)
return exynos5420_usbdrd_phy_calibrate(phy_drd);
return 0;
}
static const struct phy_ops exynos5_usbdrd_phy_ops = {
.init = exynos5_usbdrd_phy_init,
.exit = exynos5_usbdrd_phy_exit,
.power_on = exynos5_usbdrd_phy_power_on,
.power_off = exynos5_usbdrd_phy_power_off,
.calibrate = exynos5_usbdrd_phy_calibrate,
.owner = THIS_MODULE,
};
static void
exynos5_usbdrd_usb_v3p1_pipe_override(struct exynos5_usbdrd_phy *phy_drd)
{
void __iomem *regs_base = phy_drd->reg_phy;
u32 reg;
/* force pipe3 signal for link */
reg = readl(regs_base + EXYNOS850_DRD_LINKCTRL);
reg &= ~LINKCTRL_FORCE_PHYSTATUS;
reg |= LINKCTRL_FORCE_PIPE_EN | LINKCTRL_FORCE_RXELECIDLE;
writel(reg, regs_base + EXYNOS850_DRD_LINKCTRL);
/* PMA disable */
reg = readl(regs_base + EXYNOS850_DRD_SECPMACTL);
reg |= SECPMACTL_PMA_LOW_PWR;
writel(reg, regs_base + EXYNOS850_DRD_SECPMACTL);
}
static void exynos850_usbdrd_utmi_init(struct exynos5_usbdrd_phy *phy_drd)
{
void __iomem *regs_base = phy_drd->reg_phy;
u32 reg;
u32 ss_ports;
/*
* Disable HWACG (hardware auto clock gating control). This will force
* QACTIVE signal in Q-Channel interface to HIGH level, to make sure
* the PHY clock is not gated by the hardware.
*/
reg = readl(regs_base + EXYNOS850_DRD_LINKCTRL);
reg |= LINKCTRL_FORCE_QACT;
writel(reg, regs_base + EXYNOS850_DRD_LINKCTRL);
reg = readl(regs_base + EXYNOS850_DRD_LINKPORT);
ss_ports = FIELD_GET(LINKPORT_HOST_NUM_U3, reg);
/* Start PHY Reset (POR=high) */
reg = readl(regs_base + EXYNOS850_DRD_CLKRST);
if (ss_ports) {
reg |= CLKRST_PHY20_SW_POR;
reg |= CLKRST_PHY20_SW_POR_SEL;
reg |= CLKRST_PHY_RESET_SEL;
}
reg |= CLKRST_PHY_SW_RST;
writel(reg, regs_base + EXYNOS850_DRD_CLKRST);
/* Enable UTMI+ */
reg = readl(regs_base + EXYNOS850_DRD_UTMI);
reg &= ~(UTMI_FORCE_SUSPEND | UTMI_FORCE_SLEEP | UTMI_DP_PULLDOWN |
UTMI_DM_PULLDOWN);
writel(reg, regs_base + EXYNOS850_DRD_UTMI);
/* Set PHY clock and control HS PHY */
reg = readl(regs_base + EXYNOS850_DRD_HSP);
reg |= HSP_EN_UTMISUSPEND | HSP_COMMONONN;
writel(reg, regs_base + EXYNOS850_DRD_HSP);
/* Set VBUS Valid and D+ pull-up control by VBUS pad usage */
reg = readl(regs_base + EXYNOS850_DRD_LINKCTRL);
reg |= LINKCTRL_BUS_FILTER_BYPASS(0xf);
writel(reg, regs_base + EXYNOS850_DRD_LINKCTRL);
reg = readl(regs_base + EXYNOS850_DRD_UTMI);
reg |= UTMI_FORCE_BVALID | UTMI_FORCE_VBUSVALID;
writel(reg, regs_base + EXYNOS850_DRD_UTMI);
reg = readl(regs_base + EXYNOS850_DRD_HSP);
reg |= HSP_VBUSVLDEXT | HSP_VBUSVLDEXTSEL;
writel(reg, regs_base + EXYNOS850_DRD_HSP);
reg = readl(regs_base + EXYNOS850_DRD_SSPPLLCTL);
reg &= ~SSPPLLCTL_FSEL;
switch (phy_drd->extrefclk) {
case EXYNOS5_FSEL_50MHZ:
reg |= FIELD_PREP_CONST(SSPPLLCTL_FSEL, 7);
break;
case EXYNOS5_FSEL_26MHZ:
reg |= FIELD_PREP_CONST(SSPPLLCTL_FSEL, 6);
break;
case EXYNOS5_FSEL_24MHZ:
reg |= FIELD_PREP_CONST(SSPPLLCTL_FSEL, 2);
break;
case EXYNOS5_FSEL_20MHZ:
reg |= FIELD_PREP_CONST(SSPPLLCTL_FSEL, 1);
break;
case EXYNOS5_FSEL_19MHZ2:
reg |= FIELD_PREP_CONST(SSPPLLCTL_FSEL, 0);
break;
default:
dev_warn(phy_drd->dev, "unsupported ref clk: %#.2x\n",
phy_drd->extrefclk);
break;
}
writel(reg, regs_base + EXYNOS850_DRD_SSPPLLCTL);
if (phy_drd->drv_data->phy_tunes)
exynos5_usbdrd_apply_phy_tunes(phy_drd,
PTS_UTMI_POSTINIT);
/* Power up PHY analog blocks */
reg = readl(regs_base + EXYNOS850_DRD_HSP_TEST);
reg &= ~HSP_TEST_SIDDQ;
writel(reg, regs_base + EXYNOS850_DRD_HSP_TEST);
/* Finish PHY reset (POR=low) */
fsleep(10); /* required before doing POR=low */
reg = readl(regs_base + EXYNOS850_DRD_CLKRST);
if (ss_ports) {
reg |= CLKRST_PHY20_SW_POR_SEL;
reg &= ~CLKRST_PHY20_SW_POR;
}
reg &= ~(CLKRST_PHY_SW_RST | CLKRST_PORT_RST);
writel(reg, regs_base + EXYNOS850_DRD_CLKRST);
fsleep(75); /* required after POR=low for guaranteed PHY clock */
/* Disable single ended signal out */
reg = readl(regs_base + EXYNOS850_DRD_HSP);
reg &= ~HSP_FSV_OUT_EN;
writel(reg, regs_base + EXYNOS850_DRD_HSP);
if (ss_ports)
exynos5_usbdrd_usb_v3p1_pipe_override(phy_drd);
}
static int exynos850_usbdrd_phy_init(struct phy *phy)
{
struct phy_usb_instance *inst = phy_get_drvdata(phy);
struct exynos5_usbdrd_phy *phy_drd = to_usbdrd_phy(inst);
int ret;
ret = clk_bulk_prepare_enable(phy_drd->drv_data->n_clks, phy_drd->clks);
if (ret)
return ret;
/* UTMI or PIPE3 specific init */
inst->phy_cfg->phy_init(phy_drd);
clk_bulk_disable_unprepare(phy_drd->drv_data->n_clks, phy_drd->clks);
return 0;
}
static int exynos850_usbdrd_phy_exit(struct phy *phy)
{
struct phy_usb_instance *inst = phy_get_drvdata(phy);
struct exynos5_usbdrd_phy *phy_drd = to_usbdrd_phy(inst);
void __iomem *regs_base = phy_drd->reg_phy;
u32 reg;
int ret;
ret = clk_bulk_prepare_enable(phy_drd->drv_data->n_clks, phy_drd->clks);
if (ret)
return ret;
/* Set PHY clock and control HS PHY */
reg = readl(regs_base + EXYNOS850_DRD_UTMI);
reg &= ~(UTMI_DP_PULLDOWN | UTMI_DM_PULLDOWN);
reg |= UTMI_FORCE_SUSPEND | UTMI_FORCE_SLEEP;
writel(reg, regs_base + EXYNOS850_DRD_UTMI);
/* Power down PHY analog blocks */
reg = readl(regs_base + EXYNOS850_DRD_HSP_TEST);
reg |= HSP_TEST_SIDDQ;
writel(reg, regs_base + EXYNOS850_DRD_HSP_TEST);
/* Link reset */
reg = readl(regs_base + EXYNOS850_DRD_CLKRST);
reg |= CLKRST_LINK_SW_RST;
writel(reg, regs_base + EXYNOS850_DRD_CLKRST);
fsleep(10); /* required before doing POR=low */
reg &= ~CLKRST_LINK_SW_RST;
writel(reg, regs_base + EXYNOS850_DRD_CLKRST);
clk_bulk_disable_unprepare(phy_drd->drv_data->n_clks, phy_drd->clks);
return 0;
}
static const struct phy_ops exynos850_usbdrd_phy_ops = {
.init = exynos850_usbdrd_phy_init,
.exit = exynos850_usbdrd_phy_exit,
.power_on = exynos5_usbdrd_phy_power_on,
.power_off = exynos5_usbdrd_phy_power_off,
.owner = THIS_MODULE,
};
static void exynos5_usbdrd_gs101_pipe3_init(struct exynos5_usbdrd_phy *phy_drd)
{
void __iomem *regs_pma = phy_drd->reg_pma;
void __iomem *regs_phy = phy_drd->reg_phy;
u32 reg;
exynos5_usbdrd_usbdp_g2_v4_ctrl_pma_ready(phy_drd);
/* force aux off */
reg = readl(regs_pma + EXYNOS9_PMA_USBDP_CMN_REG0008);
reg &= ~CMN_REG0008_AUX_EN;
reg |= CMN_REG0008_OVRD_AUX_EN;
writel(reg, regs_pma + EXYNOS9_PMA_USBDP_CMN_REG0008);
exynos5_usbdrd_apply_phy_tunes(phy_drd, PTS_PIPE3_PREINIT);
exynos5_usbdrd_apply_phy_tunes(phy_drd, PTS_PIPE3_INIT);
exynos5_usbdrd_apply_phy_tunes(phy_drd, PTS_PIPE3_POSTINIT);
exynos5_usbdrd_usbdp_g2_v4_pma_lane_mux_sel(phy_drd);
/* reset release from port */
reg = readl(regs_phy + EXYNOS850_DRD_SECPMACTL);
reg &= ~(SECPMACTL_PMA_TRSV_SW_RST | SECPMACTL_PMA_CMN_SW_RST |
SECPMACTL_PMA_INIT_SW_RST);
writel(reg, regs_phy + EXYNOS850_DRD_SECPMACTL);
if (!exynos5_usbdrd_usbdp_g2_v4_pma_check_pll_lock(phy_drd))
exynos5_usbdrd_usbdp_g2_v4_pma_check_cdr_lock(phy_drd);
}
static int exynos5_usbdrd_gs101_phy_init(struct phy *phy)
{
struct phy_usb_instance *inst = phy_get_drvdata(phy);
struct exynos5_usbdrd_phy *phy_drd = to_usbdrd_phy(inst);
int ret;
if (inst->phy_cfg->id == EXYNOS5_DRDPHY_UTMI) {
/* Power-on PHY ... */
ret = regulator_bulk_enable(phy_drd->drv_data->n_regulators,
phy_drd->regulators);
if (ret) {
dev_err(phy_drd->dev,
"Failed to enable PHY regulator(s)\n");
return ret;
}
}
/*
* ... and ungate power via PMU. Without this here, we get an SError
* trying to access PMA registers
*/
exynos5_usbdrd_phy_isol(inst, false);
return exynos850_usbdrd_phy_init(phy);
}
static int exynos5_usbdrd_gs101_phy_exit(struct phy *phy)
{
struct phy_usb_instance *inst = phy_get_drvdata(phy);
struct exynos5_usbdrd_phy *phy_drd = to_usbdrd_phy(inst);
int ret;
if (inst->phy_cfg->id != EXYNOS5_DRDPHY_UTMI)
return 0;
ret = exynos850_usbdrd_phy_exit(phy);
if (ret)
return ret;
exynos5_usbdrd_phy_isol(inst, true);
return regulator_bulk_disable(phy_drd->drv_data->n_regulators,
phy_drd->regulators);
}
static const struct phy_ops gs101_usbdrd_phy_ops = {
.init = exynos5_usbdrd_gs101_phy_init,
.exit = exynos5_usbdrd_gs101_phy_exit,
.owner = THIS_MODULE,
};
static int exynos5_usbdrd_phy_clk_handle(struct exynos5_usbdrd_phy *phy_drd)
{
int ret;
struct clk *ref_clk;
unsigned long ref_rate;
phy_drd->clks = devm_kcalloc(phy_drd->dev, phy_drd->drv_data->n_clks,
sizeof(*phy_drd->clks), GFP_KERNEL);
if (!phy_drd->clks)
return -ENOMEM;
for (int i = 0; i < phy_drd->drv_data->n_clks; ++i)
phy_drd->clks[i].id = phy_drd->drv_data->clk_names[i];
ret = devm_clk_bulk_get(phy_drd->dev, phy_drd->drv_data->n_clks,
phy_drd->clks);
if (ret)
return dev_err_probe(phy_drd->dev, ret,
"failed to get phy clock(s)\n");
phy_drd->core_clks = devm_kcalloc(phy_drd->dev,
phy_drd->drv_data->n_core_clks,
sizeof(*phy_drd->core_clks),
GFP_KERNEL);
if (!phy_drd->core_clks)
return -ENOMEM;
for (int i = 0; i < phy_drd->drv_data->n_core_clks; ++i)
phy_drd->core_clks[i].id = phy_drd->drv_data->core_clk_names[i];
ret = devm_clk_bulk_get(phy_drd->dev, phy_drd->drv_data->n_core_clks,
phy_drd->core_clks);
if (ret)
return dev_err_probe(phy_drd->dev, ret,
"failed to get phy core clock(s)\n");
ref_clk = NULL;
for (int i = 0; i < phy_drd->drv_data->n_core_clks; ++i) {
if (!strcmp(phy_drd->core_clks[i].id, "ref")) {
ref_clk = phy_drd->core_clks[i].clk;
break;
}
}
if (!ref_clk)
return dev_err_probe(phy_drd->dev, -ENODEV,
"failed to find phy reference clock\n");
ref_rate = clk_get_rate(ref_clk);
ret = exynos5_rate_to_clk(ref_rate, &phy_drd->extrefclk);
if (ret)
return dev_err_probe(phy_drd->dev, ret,
"clock rate (%ld) not supported\n",
ref_rate);
return 0;
}
static const struct exynos5_usbdrd_phy_config phy_cfg_exynos5[] = {
{
.id = EXYNOS5_DRDPHY_UTMI,
.phy_isol = exynos5_usbdrd_phy_isol,
.phy_init = exynos5_usbdrd_utmi_init,
.set_refclk = exynos5_usbdrd_utmi_set_refclk,
},
{
.id = EXYNOS5_DRDPHY_PIPE3,
.phy_isol = exynos5_usbdrd_phy_isol,
.phy_init = exynos5_usbdrd_pipe3_init,
.set_refclk = exynos5_usbdrd_pipe3_set_refclk,
},
};
static const struct exynos5_usbdrd_phy_config phy_cfg_exynos850[] = {
{
.id = EXYNOS5_DRDPHY_UTMI,
.phy_isol = exynos5_usbdrd_phy_isol,
.phy_init = exynos850_usbdrd_utmi_init,
},
};
static const char * const exynos5_clk_names[] = {
"phy",
};
static const char * const exynos5_core_clk_names[] = {
"ref",
};
static const char * const exynos5433_core_clk_names[] = {
"ref", "phy_pipe", "phy_utmi", "itp",
};
static const char * const exynos5_regulator_names[] = {
"vbus", "vbus-boost",
};
static const struct exynos5_usbdrd_phy_drvdata exynos5420_usbdrd_phy = {
.phy_cfg = phy_cfg_exynos5,
.phy_ops = &exynos5_usbdrd_phy_ops,
.pmu_offset_usbdrd0_phy = EXYNOS5_USBDRD_PHY_CONTROL,
.pmu_offset_usbdrd1_phy = EXYNOS5420_USBDRD1_PHY_CONTROL,
.clk_names = exynos5_clk_names,
.n_clks = ARRAY_SIZE(exynos5_clk_names),
.core_clk_names = exynos5_core_clk_names,
.n_core_clks = ARRAY_SIZE(exynos5_core_clk_names),
.regulator_names = exynos5_regulator_names,
.n_regulators = ARRAY_SIZE(exynos5_regulator_names),
};
static const struct exynos5_usbdrd_phy_drvdata exynos5250_usbdrd_phy = {
.phy_cfg = phy_cfg_exynos5,
.phy_ops = &exynos5_usbdrd_phy_ops,
.pmu_offset_usbdrd0_phy = EXYNOS5_USBDRD_PHY_CONTROL,
.clk_names = exynos5_clk_names,
.n_clks = ARRAY_SIZE(exynos5_clk_names),
.core_clk_names = exynos5_core_clk_names,
.n_core_clks = ARRAY_SIZE(exynos5_core_clk_names),
.regulator_names = exynos5_regulator_names,
.n_regulators = ARRAY_SIZE(exynos5_regulator_names),
};
static const struct exynos5_usbdrd_phy_drvdata exynos5433_usbdrd_phy = {
.phy_cfg = phy_cfg_exynos5,
.phy_ops = &exynos5_usbdrd_phy_ops,
.pmu_offset_usbdrd0_phy = EXYNOS5_USBDRD_PHY_CONTROL,
.pmu_offset_usbdrd1_phy = EXYNOS5433_USBHOST30_PHY_CONTROL,
.clk_names = exynos5_clk_names,
.n_clks = ARRAY_SIZE(exynos5_clk_names),
.core_clk_names = exynos5433_core_clk_names,
.n_core_clks = ARRAY_SIZE(exynos5433_core_clk_names),
.regulator_names = exynos5_regulator_names,
.n_regulators = ARRAY_SIZE(exynos5_regulator_names),
};
static const struct exynos5_usbdrd_phy_drvdata exynos7_usbdrd_phy = {
.phy_cfg = phy_cfg_exynos5,
.phy_ops = &exynos5_usbdrd_phy_ops,
.pmu_offset_usbdrd0_phy = EXYNOS5_USBDRD_PHY_CONTROL,
.clk_names = exynos5_clk_names,
.n_clks = ARRAY_SIZE(exynos5_clk_names),
.core_clk_names = exynos5433_core_clk_names,
.n_core_clks = ARRAY_SIZE(exynos5433_core_clk_names),
.regulator_names = exynos5_regulator_names,
.n_regulators = ARRAY_SIZE(exynos5_regulator_names),
};
static const struct exynos5_usbdrd_phy_drvdata exynos850_usbdrd_phy = {
.phy_cfg = phy_cfg_exynos850,
.phy_ops = &exynos850_usbdrd_phy_ops,
.pmu_offset_usbdrd0_phy = EXYNOS5_USBDRD_PHY_CONTROL,
.clk_names = exynos5_clk_names,
.n_clks = ARRAY_SIZE(exynos5_clk_names),
.core_clk_names = exynos5_core_clk_names,
.n_core_clks = ARRAY_SIZE(exynos5_core_clk_names),
.regulator_names = exynos5_regulator_names,
.n_regulators = ARRAY_SIZE(exynos5_regulator_names),
};
static const struct exynos5_usbdrd_phy_config phy_cfg_gs101[] = {
{
.id = EXYNOS5_DRDPHY_UTMI,
.phy_isol = exynos5_usbdrd_phy_isol,
.phy_init = exynos850_usbdrd_utmi_init,
},
{
.id = EXYNOS5_DRDPHY_PIPE3,
.phy_isol = exynos5_usbdrd_phy_isol,
.phy_init = exynos5_usbdrd_gs101_pipe3_init,
},
};
static const struct exynos5_usbdrd_phy_tuning gs101_tunes_utmi_postinit[] = {
PHY_TUNING_ENTRY_PHY(EXYNOS850_DRD_HSPPARACON,
(HSPPARACON_TXVREF | HSPPARACON_TXRES |
HSPPARACON_TXPREEMPAMP | HSPPARACON_SQRX |
HSPPARACON_COMPDIS),
(FIELD_PREP_CONST(HSPPARACON_TXVREF, 6) |
FIELD_PREP_CONST(HSPPARACON_TXRES, 1) |
FIELD_PREP_CONST(HSPPARACON_TXPREEMPAMP, 3) |
FIELD_PREP_CONST(HSPPARACON_SQRX, 5) |
FIELD_PREP_CONST(HSPPARACON_COMPDIS, 7))),
PHY_TUNING_ENTRY_LAST
};
static const struct exynos5_usbdrd_phy_tuning gs101_tunes_pipe3_preinit[] = {
/* preinit */
/* CDR data mode exit GEN1 ON / GEN2 OFF */
PHY_TUNING_ENTRY_PMA(0x0c8c, -1, 0xff),
PHY_TUNING_ENTRY_PMA(0x1c8c, -1, 0xff),
PHY_TUNING_ENTRY_PMA(0x0c9c, -1, 0x7d),
PHY_TUNING_ENTRY_PMA(0x1c9c, -1, 0x7d),
/* improve EDS distribution */
PHY_TUNING_ENTRY_PMA(0x0e7c, -1, 0x06),
PHY_TUNING_ENTRY_PMA(0x09e0, -1, 0x00),
PHY_TUNING_ENTRY_PMA(0x09e4, -1, 0x36),
PHY_TUNING_ENTRY_PMA(0x1e7c, -1, 0x06),
PHY_TUNING_ENTRY_PMA(0x1e90, -1, 0x00),
PHY_TUNING_ENTRY_PMA(0x1e94, -1, 0x36),
/* improve LVCC */
PHY_TUNING_ENTRY_PMA(0x08f0, -1, 0x30),
PHY_TUNING_ENTRY_PMA(0x18f0, -1, 0x30),
/* LFPS RX VIH shmoo hole */
PHY_TUNING_ENTRY_PMA(0x0a08, -1, 0x0c),
PHY_TUNING_ENTRY_PMA(0x1a08, -1, 0x0c),
/* remove unrelated option for v4 phy */
PHY_TUNING_ENTRY_PMA(0x0a0c, -1, 0x05),
PHY_TUNING_ENTRY_PMA(0x1a0c, -1, 0x05),
/* improve Gen2 LVCC */
PHY_TUNING_ENTRY_PMA(0x00f8, -1, 0x1c),
PHY_TUNING_ENTRY_PMA(0x00fc, -1, 0x54),
/* Change Vth of RCV_DET because of TD 7.40 Polling Retry Test */
PHY_TUNING_ENTRY_PMA(0x104c, -1, 0x07),
PHY_TUNING_ENTRY_PMA(0x204c, -1, 0x07),
/* reduce Ux Exit time, assuming 26MHz clock */
/* Gen1 */
PHY_TUNING_ENTRY_PMA(0x0ca8, -1, 0x00),
PHY_TUNING_ENTRY_PMA(0x0cac, -1, 0x04),
PHY_TUNING_ENTRY_PMA(0x1ca8, -1, 0x00),
PHY_TUNING_ENTRY_PMA(0x1cac, -1, 0x04),
/* Gen2 */
PHY_TUNING_ENTRY_PMA(0x0cb8, -1, 0x00),
PHY_TUNING_ENTRY_PMA(0x0cbc, -1, 0x04),
PHY_TUNING_ENTRY_PMA(0x1cb8, -1, 0x00),
PHY_TUNING_ENTRY_PMA(0x1cbc, -1, 0x04),
/* RX impedance setting */
PHY_TUNING_ENTRY_PMA(0x0bb0, 0x03, 0x01),
PHY_TUNING_ENTRY_PMA(0x0bb4, 0xf0, 0xa0),
PHY_TUNING_ENTRY_PMA(0x1bb0, 0x03, 0x01),
PHY_TUNING_ENTRY_PMA(0x1bb4, 0xf0, 0xa0),
PHY_TUNING_ENTRY_LAST
};
static const struct exynos5_usbdrd_phy_tuning gs101_tunes_pipe3_init[] = {
/* init */
/* abnormal common pattern mask */
PHY_TUNING_ENTRY_PCS(EXYNOS9_PCS_BACK_END_MODE_VEC,
BACK_END_MODE_VEC_DISABLE_DATA_MASK, 0),
/* de-serializer enabled when U2 */
PHY_TUNING_ENTRY_PCS(EXYNOS9_PCS_OUT_VEC_2, PCS_OUT_VEC_B4_DYNAMIC,
PCS_OUT_VEC_B4_SEL_OUT),
/* TX Keeper Disable, Squelch on when U3 */
PHY_TUNING_ENTRY_PCS(EXYNOS9_PCS_OUT_VEC_3, PCS_OUT_VEC_B7_DYNAMIC,
PCS_OUT_VEC_B7_SEL_OUT | PCS_OUT_VEC_B2_SEL_OUT),
PHY_TUNING_ENTRY_PCS(EXYNOS9_PCS_NS_VEC_PS1_N1, -1,
(FIELD_PREP_CONST(NS_VEC_NS_REQ, 5) |
NS_VEC_ENABLE_TIMER |
FIELD_PREP_CONST(NS_VEC_SEL_TIMEOUT, 3))),
PHY_TUNING_ENTRY_PCS(EXYNOS9_PCS_NS_VEC_PS2_N0, -1,
(FIELD_PREP_CONST(NS_VEC_NS_REQ, 1) |
NS_VEC_ENABLE_TIMER |
FIELD_PREP_CONST(NS_VEC_SEL_TIMEOUT, 3) |
FIELD_PREP_CONST(NS_VEC_COND_MASK, 2) |
FIELD_PREP_CONST(NS_VEC_EXP_COND, 2))),
PHY_TUNING_ENTRY_PCS(EXYNOS9_PCS_NS_VEC_PS3_N0, -1,
(FIELD_PREP_CONST(NS_VEC_NS_REQ, 1) |
NS_VEC_ENABLE_TIMER |
FIELD_PREP_CONST(NS_VEC_SEL_TIMEOUT, 3) |
FIELD_PREP_CONST(NS_VEC_COND_MASK, 7) |
FIELD_PREP_CONST(NS_VEC_EXP_COND, 7))),
PHY_TUNING_ENTRY_PCS(EXYNOS9_PCS_TIMEOUT_0, -1, 112),
/* Block Aligner Type B */
PHY_TUNING_ENTRY_PCS(EXYNOS9_PCS_RX_CONTROL, 0,
RX_CONTROL_EN_BLOCK_ALIGNER_TYPE_B),
/* Block align at TS1/TS2 for Gen2 stability (Gen2 only) */
PHY_TUNING_ENTRY_PCS(EXYNOS9_PCS_RX_CONTROL_DEBUG,
RX_CONTROL_DEBUG_NUM_COM_FOUND,
(RX_CONTROL_DEBUG_EN_TS_CHECK |
/*
* increase pcs ts1 adding packet-cnt 1 --> 4
* lnx_rx_valid_rstn_delay_rise_sp/ssp :
* 19.6us(0x200) -> 15.3us(0x4)
*/
FIELD_PREP_CONST(RX_CONTROL_DEBUG_NUM_COM_FOUND, 4))),
/* Gen1 Tx DRIVER pre-shoot, de-emphasis, level ctrl */
PHY_TUNING_ENTRY_PCS(EXYNOS9_PCS_HS_TX_COEF_MAP_0,
(HS_TX_COEF_MAP_0_SSTX_DEEMP | HS_TX_COEF_MAP_0_SSTX_LEVEL |
HS_TX_COEF_MAP_0_SSTX_PRE_SHOOT),
(FIELD_PREP_CONST(HS_TX_COEF_MAP_0_SSTX_DEEMP, 8) |
FIELD_PREP_CONST(HS_TX_COEF_MAP_0_SSTX_LEVEL, 0xb) |
FIELD_PREP_CONST(HS_TX_COEF_MAP_0_SSTX_PRE_SHOOT, 0))),
/* Gen2 Tx DRIVER level ctrl */
PHY_TUNING_ENTRY_PCS(EXYNOS9_PCS_LOCAL_COEF,
LOCAL_COEF_PMA_CENTER_COEF,
FIELD_PREP_CONST(LOCAL_COEF_PMA_CENTER_COEF, 0xb)),
/* Gen2 U1 exit LFPS duration : 900ns ~ 1.2us */
PHY_TUNING_ENTRY_PCS(EXYNOS9_PCS_TIMEOUT_3, -1, 4096),
/* set skp_remove_th 0x2 -> 0x7 for avoiding retry problem. */
PHY_TUNING_ENTRY_PCS(EXYNOS9_PCS_EBUF_PARAM,
EBUF_PARAM_SKP_REMOVE_TH_EMPTY_MODE,
FIELD_PREP_CONST(EBUF_PARAM_SKP_REMOVE_TH_EMPTY_MODE, 0x7)),
PHY_TUNING_ENTRY_LAST
};
static const struct exynos5_usbdrd_phy_tuning gs101_tunes_pipe3_postlock[] = {
/* Squelch off when U3 */
PHY_TUNING_ENTRY_PCS(EXYNOS9_PCS_OUT_VEC_3, PCS_OUT_VEC_B2_SEL_OUT, 0),
PHY_TUNING_ENTRY_LAST
};
static const struct exynos5_usbdrd_phy_tuning *gs101_tunes[PTS_MAX] = {
[PTS_UTMI_POSTINIT] = gs101_tunes_utmi_postinit,
[PTS_PIPE3_PREINIT] = gs101_tunes_pipe3_preinit,
[PTS_PIPE3_INIT] = gs101_tunes_pipe3_init,
[PTS_PIPE3_POSTLOCK] = gs101_tunes_pipe3_postlock,
};
static const char * const gs101_clk_names[] = {
"phy", "ctrl_aclk", "ctrl_pclk", "scl_pclk",
};
static const char * const gs101_regulator_names[] = {
"pll",
"dvdd-usb20", "vddh-usb20", "vdd33-usb20",
"vdda-usbdp", "vddh-usbdp",
};
static const struct exynos5_usbdrd_phy_drvdata gs101_usbd31rd_phy = {
.phy_cfg = phy_cfg_gs101,
.phy_tunes = gs101_tunes,
.phy_ops = &gs101_usbdrd_phy_ops,
.pmu_offset_usbdrd0_phy = GS101_PHY_CTRL_USB20,
.pmu_offset_usbdrd0_phy_ss = GS101_PHY_CTRL_USBDP,
.clk_names = gs101_clk_names,
.n_clks = ARRAY_SIZE(gs101_clk_names),
.core_clk_names = exynos5_core_clk_names,
.n_core_clks = ARRAY_SIZE(exynos5_core_clk_names),
.regulator_names = gs101_regulator_names,
.n_regulators = ARRAY_SIZE(gs101_regulator_names),
};
static const struct of_device_id exynos5_usbdrd_phy_of_match[] = {
{
.compatible = "google,gs101-usb31drd-phy",
.data = &gs101_usbd31rd_phy
}, {
.compatible = "samsung,exynos5250-usbdrd-phy",
.data = &exynos5250_usbdrd_phy
}, {
.compatible = "samsung,exynos5420-usbdrd-phy",
.data = &exynos5420_usbdrd_phy
}, {
.compatible = "samsung,exynos5433-usbdrd-phy",
.data = &exynos5433_usbdrd_phy
}, {
.compatible = "samsung,exynos7-usbdrd-phy",
.data = &exynos7_usbdrd_phy
}, {
.compatible = "samsung,exynos850-usbdrd-phy",
.data = &exynos850_usbdrd_phy
},
{ },
};
MODULE_DEVICE_TABLE(of, exynos5_usbdrd_phy_of_match);
static int exynos5_usbdrd_phy_probe(struct platform_device *pdev)
{
struct device *dev = &pdev->dev;
struct device_node *node = dev->of_node;
struct exynos5_usbdrd_phy *phy_drd;
struct phy_provider *phy_provider;
const struct exynos5_usbdrd_phy_drvdata *drv_data;
struct regmap *reg_pmu;
u32 pmu_offset;
int i, ret;
int channel;
phy_drd = devm_kzalloc(dev, sizeof(*phy_drd), GFP_KERNEL);
if (!phy_drd)
return -ENOMEM;
dev_set_drvdata(dev, phy_drd);
phy_drd->dev = dev;
drv_data = of_device_get_match_data(dev);
if (!drv_data)
return -EINVAL;
phy_drd->drv_data = drv_data;
if (of_property_present(dev->of_node, "reg-names")) {
void __iomem *reg;
reg = devm_platform_ioremap_resource_byname(pdev, "phy");
if (IS_ERR(reg))
return PTR_ERR(reg);
phy_drd->reg_phy = reg;
reg = devm_platform_ioremap_resource_byname(pdev, "pcs");
if (IS_ERR(reg))
return PTR_ERR(reg);
phy_drd->reg_pcs = reg;
reg = devm_platform_ioremap_resource_byname(pdev, "pma");
if (IS_ERR(reg))
return PTR_ERR(reg);
phy_drd->reg_pma = reg;
} else {
/* DTB with just a single region */
phy_drd->reg_phy = devm_platform_ioremap_resource(pdev, 0);
if (IS_ERR(phy_drd->reg_phy))
return PTR_ERR(phy_drd->reg_phy);
}
ret = exynos5_usbdrd_phy_clk_handle(phy_drd);
if (ret)
return ret;
reg_pmu = syscon_regmap_lookup_by_phandle(dev->of_node,
"samsung,pmu-syscon");
if (IS_ERR(reg_pmu)) {
dev_err(dev, "Failed to lookup PMU regmap\n");
return PTR_ERR(reg_pmu);
}
/*
* Exynos5420 SoC has multiple channels for USB 3.0 PHY, with
* each having separate power control registers.
* 'channel' facilitates to set such registers.
*/
channel = of_alias_get_id(node, "usbdrdphy");
if (channel < 0)
dev_dbg(dev, "Not a multi-controller usbdrd phy\n");
/* Get regulators */
phy_drd->regulators = devm_kcalloc(dev,
drv_data->n_regulators,
sizeof(*phy_drd->regulators),
GFP_KERNEL);
if (!phy_drd->regulators)
return ENOMEM;
regulator_bulk_set_supply_names(phy_drd->regulators,
drv_data->regulator_names,
drv_data->n_regulators);
ret = devm_regulator_bulk_get(dev, drv_data->n_regulators,
phy_drd->regulators);
if (ret)
return dev_err_probe(dev, ret, "failed to get regulators\n");
dev_vdbg(dev, "Creating usbdrd_phy phy\n");
for (i = 0; i < EXYNOS5_DRDPHYS_NUM; i++) {
struct phy *phy = devm_phy_create(dev, NULL, drv_data->phy_ops);
if (IS_ERR(phy)) {
dev_err(dev, "Failed to create usbdrd_phy phy\n");
return PTR_ERR(phy);
}
phy_drd->phys[i].phy = phy;
phy_drd->phys[i].index = i;
phy_drd->phys[i].reg_pmu = reg_pmu;
switch (channel) {
case 1:
pmu_offset = drv_data->pmu_offset_usbdrd1_phy;
break;
case 0:
default:
pmu_offset = drv_data->pmu_offset_usbdrd0_phy;
if (i == EXYNOS5_DRDPHY_PIPE3 && drv_data
->pmu_offset_usbdrd0_phy_ss)
pmu_offset = drv_data->pmu_offset_usbdrd0_phy_ss;
break;
}
phy_drd->phys[i].pmu_offset = pmu_offset;
phy_drd->phys[i].phy_cfg = &drv_data->phy_cfg[i];
phy_set_drvdata(phy, &phy_drd->phys[i]);
}
phy_provider = devm_of_phy_provider_register(dev,
exynos5_usbdrd_phy_xlate);
if (IS_ERR(phy_provider)) {
dev_err(phy_drd->dev, "Failed to register phy provider\n");
return PTR_ERR(phy_provider);
}
return 0;
}
static struct platform_driver exynos5_usb3drd_phy = {
.probe = exynos5_usbdrd_phy_probe,
.driver = {
.of_match_table = exynos5_usbdrd_phy_of_match,
.name = "exynos5_usb3drd_phy",
.suppress_bind_attrs = true,
}
};
module_platform_driver(exynos5_usb3drd_phy);
MODULE_DESCRIPTION("Samsung Exynos5 SoCs USB 3.0 DRD controller PHY driver");
MODULE_AUTHOR("Vivek Gautam <gautam.vivek@samsung.com>");
MODULE_LICENSE("GPL v2");
MODULE_ALIAS("platform:exynos5_usb3drd_phy");
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