summaryrefslogtreecommitdiff
path: root/drivers/clk/tegra/clk-tegra114.c
blob: 9467da7dee4918a60762700442d9685fc658ab3c (plain)
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/*
 * Copyright (c) 2012, 2013, NVIDIA CORPORATION.  All rights reserved.
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
 * version 2, as published by the Free Software Foundation.
 *
 * This program is distributed in the hope it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
 * more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program.  If not, see <http://www.gnu.org/licenses/>.
 */

#include <linux/io.h>
#include <linux/clk.h>
#include <linux/clk-provider.h>
#include <linux/clkdev.h>
#include <linux/of.h>
#include <linux/of_address.h>
#include <linux/delay.h>
#include <linux/export.h>
#include <linux/clk/tegra.h>

#include "clk.h"

#define RST_DEVICES_L			0x004
#define RST_DEVICES_H			0x008
#define RST_DEVICES_U			0x00C
#define RST_DFLL_DVCO			0x2F4
#define RST_DEVICES_V			0x358
#define RST_DEVICES_W			0x35C
#define RST_DEVICES_X			0x28C
#define RST_DEVICES_SET_L		0x300
#define RST_DEVICES_CLR_L		0x304
#define RST_DEVICES_SET_H		0x308
#define RST_DEVICES_CLR_H		0x30c
#define RST_DEVICES_SET_U		0x310
#define RST_DEVICES_CLR_U		0x314
#define RST_DEVICES_SET_V		0x430
#define RST_DEVICES_CLR_V		0x434
#define RST_DEVICES_SET_W		0x438
#define RST_DEVICES_CLR_W		0x43c
#define CPU_FINETRIM_SELECT		0x4d4	/* override default prop dlys */
#define CPU_FINETRIM_DR			0x4d8	/* rise->rise prop dly A */
#define CPU_FINETRIM_R			0x4e4	/* rise->rise prop dly inc A */
#define RST_DEVICES_NUM			5

/* RST_DFLL_DVCO bitfields */
#define DVFS_DFLL_RESET_SHIFT		0

/* CPU_FINETRIM_SELECT and CPU_FINETRIM_DR bitfields */
#define CPU_FINETRIM_1_FCPU_1		BIT(0)	/* fcpu0 */
#define CPU_FINETRIM_1_FCPU_2		BIT(1)	/* fcpu1 */
#define CPU_FINETRIM_1_FCPU_3		BIT(2)	/* fcpu2 */
#define CPU_FINETRIM_1_FCPU_4		BIT(3)	/* fcpu3 */
#define CPU_FINETRIM_1_FCPU_5		BIT(4)	/* fl2 */
#define CPU_FINETRIM_1_FCPU_6		BIT(5)	/* ftop */

/* CPU_FINETRIM_R bitfields */
#define CPU_FINETRIM_R_FCPU_1_SHIFT	0		/* fcpu0 */
#define CPU_FINETRIM_R_FCPU_1_MASK	(0x3 << CPU_FINETRIM_R_FCPU_1_SHIFT)
#define CPU_FINETRIM_R_FCPU_2_SHIFT	2		/* fcpu1 */
#define CPU_FINETRIM_R_FCPU_2_MASK	(0x3 << CPU_FINETRIM_R_FCPU_2_SHIFT)
#define CPU_FINETRIM_R_FCPU_3_SHIFT	4		/* fcpu2 */
#define CPU_FINETRIM_R_FCPU_3_MASK	(0x3 << CPU_FINETRIM_R_FCPU_3_SHIFT)
#define CPU_FINETRIM_R_FCPU_4_SHIFT	6		/* fcpu3 */
#define CPU_FINETRIM_R_FCPU_4_MASK	(0x3 << CPU_FINETRIM_R_FCPU_4_SHIFT)
#define CPU_FINETRIM_R_FCPU_5_SHIFT	8		/* fl2 */
#define CPU_FINETRIM_R_FCPU_5_MASK	(0x3 << CPU_FINETRIM_R_FCPU_5_SHIFT)
#define CPU_FINETRIM_R_FCPU_6_SHIFT	10		/* ftop */
#define CPU_FINETRIM_R_FCPU_6_MASK	(0x3 << CPU_FINETRIM_R_FCPU_6_SHIFT)

#define CLK_OUT_ENB_L			0x010
#define CLK_OUT_ENB_H			0x014
#define CLK_OUT_ENB_U			0x018
#define CLK_OUT_ENB_V			0x360
#define CLK_OUT_ENB_W			0x364
#define CLK_OUT_ENB_X			0x280
#define CLK_OUT_ENB_SET_L		0x320
#define CLK_OUT_ENB_CLR_L		0x324
#define CLK_OUT_ENB_SET_H		0x328
#define CLK_OUT_ENB_CLR_H		0x32c
#define CLK_OUT_ENB_SET_U		0x330
#define CLK_OUT_ENB_CLR_U		0x334
#define CLK_OUT_ENB_SET_V		0x440
#define CLK_OUT_ENB_CLR_V		0x444
#define CLK_OUT_ENB_SET_W		0x448
#define CLK_OUT_ENB_CLR_W		0x44c
#define CLK_OUT_ENB_SET_X		0x284
#define CLK_OUT_ENB_CLR_X		0x288
#define CLK_OUT_ENB_NUM			6

#define PLLC_BASE 0x80
#define PLLC_MISC2 0x88
#define PLLC_MISC 0x8c
#define PLLC2_BASE 0x4e8
#define PLLC2_MISC 0x4ec
#define PLLC3_BASE 0x4fc
#define PLLC3_MISC 0x500
#define PLLM_BASE 0x90
#define PLLM_MISC 0x9c
#define PLLP_BASE 0xa0
#define PLLP_MISC 0xac
#define PLLX_BASE 0xe0
#define PLLX_MISC 0xe4
#define PLLX_MISC2 0x514
#define PLLX_MISC3 0x518
#define PLLD_BASE 0xd0
#define PLLD_MISC 0xdc
#define PLLD2_BASE 0x4b8
#define PLLD2_MISC 0x4bc
#define PLLE_BASE 0xe8
#define PLLE_MISC 0xec
#define PLLA_BASE 0xb0
#define PLLA_MISC 0xbc
#define PLLU_BASE 0xc0
#define PLLU_MISC 0xcc
#define PLLRE_BASE 0x4c4
#define PLLRE_MISC 0x4c8

#define PLL_MISC_LOCK_ENABLE 18
#define PLLC_MISC_LOCK_ENABLE 24
#define PLLDU_MISC_LOCK_ENABLE 22
#define PLLE_MISC_LOCK_ENABLE 9
#define PLLRE_MISC_LOCK_ENABLE 30

#define PLLC_IDDQ_BIT 26
#define PLLX_IDDQ_BIT 3
#define PLLRE_IDDQ_BIT 16

#define PLL_BASE_LOCK BIT(27)
#define PLLE_MISC_LOCK BIT(11)
#define PLLRE_MISC_LOCK BIT(24)
#define PLLCX_BASE_LOCK (BIT(26)|BIT(27))

#define PLLE_AUX 0x48c
#define PLLC_OUT 0x84
#define PLLM_OUT 0x94
#define PLLP_OUTA 0xa4
#define PLLP_OUTB 0xa8
#define PLLA_OUT 0xb4

#define AUDIO_SYNC_CLK_I2S0 0x4a0
#define AUDIO_SYNC_CLK_I2S1 0x4a4
#define AUDIO_SYNC_CLK_I2S2 0x4a8
#define AUDIO_SYNC_CLK_I2S3 0x4ac
#define AUDIO_SYNC_CLK_I2S4 0x4b0
#define AUDIO_SYNC_CLK_SPDIF 0x4b4

#define AUDIO_SYNC_DOUBLER 0x49c

#define PMC_CLK_OUT_CNTRL 0x1a8
#define PMC_DPD_PADS_ORIDE 0x1c
#define PMC_DPD_PADS_ORIDE_BLINK_ENB 20
#define PMC_CTRL 0
#define PMC_CTRL_BLINK_ENB 7
#define PMC_BLINK_TIMER 0x40

#define OSC_CTRL			0x50
#define OSC_CTRL_OSC_FREQ_SHIFT		28
#define OSC_CTRL_PLL_REF_DIV_SHIFT	26

#define PLLXC_SW_MAX_P			6

#define CCLKG_BURST_POLICY 0x368
#define CCLKLP_BURST_POLICY 0x370
#define SCLK_BURST_POLICY 0x028
#define SYSTEM_CLK_RATE 0x030

#define UTMIP_PLL_CFG2 0x488
#define UTMIP_PLL_CFG2_STABLE_COUNT(x) (((x) & 0xffff) << 6)
#define UTMIP_PLL_CFG2_ACTIVE_DLY_COUNT(x) (((x) & 0x3f) << 18)
#define UTMIP_PLL_CFG2_FORCE_PD_SAMP_A_POWERDOWN BIT(0)
#define UTMIP_PLL_CFG2_FORCE_PD_SAMP_B_POWERDOWN BIT(2)
#define UTMIP_PLL_CFG2_FORCE_PD_SAMP_C_POWERDOWN BIT(4)

#define UTMIP_PLL_CFG1 0x484
#define UTMIP_PLL_CFG1_ENABLE_DLY_COUNT(x) (((x) & 0x1f) << 6)
#define UTMIP_PLL_CFG1_XTAL_FREQ_COUNT(x) (((x) & 0xfff) << 0)
#define UTMIP_PLL_CFG1_FORCE_PLLU_POWERUP BIT(17)
#define UTMIP_PLL_CFG1_FORCE_PLLU_POWERDOWN BIT(16)
#define UTMIP_PLL_CFG1_FORCE_PLL_ENABLE_POWERUP BIT(15)
#define UTMIP_PLL_CFG1_FORCE_PLL_ENABLE_POWERDOWN BIT(14)
#define UTMIP_PLL_CFG1_FORCE_PLL_ACTIVE_POWERDOWN BIT(12)

#define UTMIPLL_HW_PWRDN_CFG0			0x52c
#define UTMIPLL_HW_PWRDN_CFG0_SEQ_START_STATE	BIT(25)
#define UTMIPLL_HW_PWRDN_CFG0_SEQ_ENABLE	BIT(24)
#define UTMIPLL_HW_PWRDN_CFG0_USE_LOCKDET	BIT(6)
#define UTMIPLL_HW_PWRDN_CFG0_SEQ_RESET_INPUT_VALUE	BIT(5)
#define UTMIPLL_HW_PWRDN_CFG0_SEQ_IN_SWCTL	BIT(4)
#define UTMIPLL_HW_PWRDN_CFG0_CLK_ENABLE_SWCTL	BIT(2)
#define UTMIPLL_HW_PWRDN_CFG0_IDDQ_OVERRIDE	BIT(1)
#define UTMIPLL_HW_PWRDN_CFG0_IDDQ_SWCTL	BIT(0)

#define CLK_SOURCE_I2S0 0x1d8
#define CLK_SOURCE_I2S1 0x100
#define CLK_SOURCE_I2S2 0x104
#define CLK_SOURCE_NDFLASH 0x160
#define CLK_SOURCE_I2S3 0x3bc
#define CLK_SOURCE_I2S4 0x3c0
#define CLK_SOURCE_SPDIF_OUT 0x108
#define CLK_SOURCE_SPDIF_IN 0x10c
#define CLK_SOURCE_PWM 0x110
#define CLK_SOURCE_ADX 0x638
#define CLK_SOURCE_AMX 0x63c
#define CLK_SOURCE_HDA 0x428
#define CLK_SOURCE_HDA2CODEC_2X 0x3e4
#define CLK_SOURCE_SBC1 0x134
#define CLK_SOURCE_SBC2 0x118
#define CLK_SOURCE_SBC3 0x11c
#define CLK_SOURCE_SBC4 0x1b4
#define CLK_SOURCE_SBC5 0x3c8
#define CLK_SOURCE_SBC6 0x3cc
#define CLK_SOURCE_SATA_OOB 0x420
#define CLK_SOURCE_SATA 0x424
#define CLK_SOURCE_NDSPEED 0x3f8
#define CLK_SOURCE_VFIR 0x168
#define CLK_SOURCE_SDMMC1 0x150
#define CLK_SOURCE_SDMMC2 0x154
#define CLK_SOURCE_SDMMC3 0x1bc
#define CLK_SOURCE_SDMMC4 0x164
#define CLK_SOURCE_VDE 0x1c8
#define CLK_SOURCE_CSITE 0x1d4
#define CLK_SOURCE_LA 0x1f8
#define CLK_SOURCE_TRACE 0x634
#define CLK_SOURCE_OWR 0x1cc
#define CLK_SOURCE_NOR 0x1d0
#define CLK_SOURCE_MIPI 0x174
#define CLK_SOURCE_I2C1 0x124
#define CLK_SOURCE_I2C2 0x198
#define CLK_SOURCE_I2C3 0x1b8
#define CLK_SOURCE_I2C4 0x3c4
#define CLK_SOURCE_I2C5 0x128
#define CLK_SOURCE_UARTA 0x178
#define CLK_SOURCE_UARTB 0x17c
#define CLK_SOURCE_UARTC 0x1a0
#define CLK_SOURCE_UARTD 0x1c0
#define CLK_SOURCE_UARTE 0x1c4
#define CLK_SOURCE_UARTA_DBG 0x178
#define CLK_SOURCE_UARTB_DBG 0x17c
#define CLK_SOURCE_UARTC_DBG 0x1a0
#define CLK_SOURCE_UARTD_DBG 0x1c0
#define CLK_SOURCE_UARTE_DBG 0x1c4
#define CLK_SOURCE_3D 0x158
#define CLK_SOURCE_2D 0x15c
#define CLK_SOURCE_VI_SENSOR 0x1a8
#define CLK_SOURCE_VI 0x148
#define CLK_SOURCE_EPP 0x16c
#define CLK_SOURCE_MSENC 0x1f0
#define CLK_SOURCE_TSEC 0x1f4
#define CLK_SOURCE_HOST1X 0x180
#define CLK_SOURCE_HDMI 0x18c
#define CLK_SOURCE_DISP1 0x138
#define CLK_SOURCE_DISP2 0x13c
#define CLK_SOURCE_CILAB 0x614
#define CLK_SOURCE_CILCD 0x618
#define CLK_SOURCE_CILE 0x61c
#define CLK_SOURCE_DSIALP 0x620
#define CLK_SOURCE_DSIBLP 0x624
#define CLK_SOURCE_TSENSOR 0x3b8
#define CLK_SOURCE_D_AUDIO 0x3d0
#define CLK_SOURCE_DAM0 0x3d8
#define CLK_SOURCE_DAM1 0x3dc
#define CLK_SOURCE_DAM2 0x3e0
#define CLK_SOURCE_ACTMON 0x3e8
#define CLK_SOURCE_EXTERN1 0x3ec
#define CLK_SOURCE_EXTERN2 0x3f0
#define CLK_SOURCE_EXTERN3 0x3f4
#define CLK_SOURCE_I2CSLOW 0x3fc
#define CLK_SOURCE_SE 0x42c
#define CLK_SOURCE_MSELECT 0x3b4
#define CLK_SOURCE_DFLL_REF 0x62c
#define CLK_SOURCE_DFLL_SOC 0x630
#define CLK_SOURCE_SOC_THERM 0x644
#define CLK_SOURCE_XUSB_HOST_SRC 0x600
#define CLK_SOURCE_XUSB_FALCON_SRC 0x604
#define CLK_SOURCE_XUSB_FS_SRC 0x608
#define CLK_SOURCE_XUSB_SS_SRC 0x610
#define CLK_SOURCE_XUSB_DEV_SRC 0x60c
#define CLK_SOURCE_EMC 0x19c

/* PLLM override registers */
#define PMC_PLLM_WB0_OVERRIDE 0x1dc
#define PMC_PLLM_WB0_OVERRIDE_2 0x2b0

/* Tegra CPU clock and reset control regs */
#define CLK_RST_CONTROLLER_CPU_CMPLX_STATUS	0x470

#ifdef CONFIG_PM_SLEEP
static struct cpu_clk_suspend_context {
	u32 clk_csite_src;
	u32 cclkg_burst;
	u32 cclkg_divider;
} tegra114_cpu_clk_sctx;
#endif

static int periph_clk_enb_refcnt[CLK_OUT_ENB_NUM * 32];

static void __iomem *clk_base;
static void __iomem *pmc_base;

static DEFINE_SPINLOCK(pll_d_lock);
static DEFINE_SPINLOCK(pll_d2_lock);
static DEFINE_SPINLOCK(pll_u_lock);
static DEFINE_SPINLOCK(pll_div_lock);
static DEFINE_SPINLOCK(pll_re_lock);
static DEFINE_SPINLOCK(clk_doubler_lock);
static DEFINE_SPINLOCK(clk_out_lock);
static DEFINE_SPINLOCK(sysrate_lock);

static struct div_nmp pllxc_nmp = {
	.divm_shift = 0,
	.divm_width = 8,
	.divn_shift = 8,
	.divn_width = 8,
	.divp_shift = 20,
	.divp_width = 4,
};

static struct pdiv_map pllxc_p[] = {
	{ .pdiv = 1, .hw_val = 0 },
	{ .pdiv = 2, .hw_val = 1 },
	{ .pdiv = 3, .hw_val = 2 },
	{ .pdiv = 4, .hw_val = 3 },
	{ .pdiv = 5, .hw_val = 4 },
	{ .pdiv = 6, .hw_val = 5 },
	{ .pdiv = 8, .hw_val = 6 },
	{ .pdiv = 10, .hw_val = 7 },
	{ .pdiv = 12, .hw_val = 8 },
	{ .pdiv = 16, .hw_val = 9 },
	{ .pdiv = 12, .hw_val = 10 },
	{ .pdiv = 16, .hw_val = 11 },
	{ .pdiv = 20, .hw_val = 12 },
	{ .pdiv = 24, .hw_val = 13 },
	{ .pdiv = 32, .hw_val = 14 },
	{ .pdiv = 0, .hw_val = 0 },
};

static struct tegra_clk_pll_freq_table pll_c_freq_table[] = {
	{ 12000000, 624000000, 104, 0, 2},
	{ 12000000, 600000000, 100, 0, 2},
	{ 13000000, 600000000,  92, 0, 2},	/* actual: 598.0 MHz */
	{ 16800000, 600000000,  71, 0, 2},	/* actual: 596.4 MHz */
	{ 19200000, 600000000,  62, 0, 2},	/* actual: 595.2 MHz */
	{ 26000000, 600000000,  92, 1, 2},	/* actual: 598.0 MHz */
	{ 0, 0, 0, 0, 0, 0 },
};

static struct tegra_clk_pll_params pll_c_params = {
	.input_min = 12000000,
	.input_max = 800000000,
	.cf_min = 12000000,
	.cf_max = 19200000,	/* s/w policy, h/w capability 50 MHz */
	.vco_min = 600000000,
	.vco_max = 1400000000,
	.base_reg = PLLC_BASE,
	.misc_reg = PLLC_MISC,
	.lock_mask = PLL_BASE_LOCK,
	.lock_enable_bit_idx = PLLC_MISC_LOCK_ENABLE,
	.lock_delay = 300,
	.iddq_reg = PLLC_MISC,
	.iddq_bit_idx = PLLC_IDDQ_BIT,
	.max_p = PLLXC_SW_MAX_P,
	.dyn_ramp_reg = PLLC_MISC2,
	.stepa_shift = 17,
	.stepb_shift = 9,
	.pdiv_tohw = pllxc_p,
	.div_nmp = &pllxc_nmp,
};

static struct div_nmp pllcx_nmp = {
	.divm_shift = 0,
	.divm_width = 2,
	.divn_shift = 8,
	.divn_width = 8,
	.divp_shift = 20,
	.divp_width = 3,
};

static struct pdiv_map pllc_p[] = {
	{ .pdiv = 1, .hw_val = 0 },
	{ .pdiv = 2, .hw_val = 1 },
	{ .pdiv = 4, .hw_val = 3 },
	{ .pdiv = 8, .hw_val = 5 },
	{ .pdiv = 16, .hw_val = 7 },
	{ .pdiv = 0, .hw_val = 0 },
};

static struct tegra_clk_pll_freq_table pll_cx_freq_table[] = {
	{12000000, 600000000, 100, 0, 2},
	{13000000, 600000000, 92, 0, 2},	/* actual: 598.0 MHz */
	{16800000, 600000000, 71, 0, 2},	/* actual: 596.4 MHz */
	{19200000, 600000000, 62, 0, 2},	/* actual: 595.2 MHz */
	{26000000, 600000000, 92, 1, 2},	/* actual: 598.0 MHz */
	{0, 0, 0, 0, 0, 0},
};

static struct tegra_clk_pll_params pll_c2_params = {
	.input_min = 12000000,
	.input_max = 48000000,
	.cf_min = 12000000,
	.cf_max = 19200000,
	.vco_min = 600000000,
	.vco_max = 1200000000,
	.base_reg = PLLC2_BASE,
	.misc_reg = PLLC2_MISC,
	.lock_mask = PLL_BASE_LOCK,
	.lock_enable_bit_idx = PLL_MISC_LOCK_ENABLE,
	.lock_delay = 300,
	.pdiv_tohw = pllc_p,
	.div_nmp = &pllcx_nmp,
	.max_p = 7,
	.ext_misc_reg[0] = 0x4f0,
	.ext_misc_reg[1] = 0x4f4,
	.ext_misc_reg[2] = 0x4f8,
};

static struct tegra_clk_pll_params pll_c3_params = {
	.input_min = 12000000,
	.input_max = 48000000,
	.cf_min = 12000000,
	.cf_max = 19200000,
	.vco_min = 600000000,
	.vco_max = 1200000000,
	.base_reg = PLLC3_BASE,
	.misc_reg = PLLC3_MISC,
	.lock_mask = PLL_BASE_LOCK,
	.lock_enable_bit_idx = PLL_MISC_LOCK_ENABLE,
	.lock_delay = 300,
	.pdiv_tohw = pllc_p,
	.div_nmp = &pllcx_nmp,
	.max_p = 7,
	.ext_misc_reg[0] = 0x504,
	.ext_misc_reg[1] = 0x508,
	.ext_misc_reg[2] = 0x50c,
};

static struct div_nmp pllm_nmp = {
	.divm_shift = 0,
	.divm_width = 8,
	.override_divm_shift = 0,
	.divn_shift = 8,
	.divn_width = 8,
	.override_divn_shift = 8,
	.divp_shift = 20,
	.divp_width = 1,
	.override_divp_shift = 27,
};

static struct pdiv_map pllm_p[] = {
	{ .pdiv = 1, .hw_val = 0 },
	{ .pdiv = 2, .hw_val = 1 },
	{ .pdiv = 0, .hw_val = 0 },
};

static struct tegra_clk_pll_freq_table pll_m_freq_table[] = {
	{12000000, 800000000, 66, 0, 1},	/* actual: 792.0 MHz */
	{13000000, 800000000, 61, 0, 1},	/* actual: 793.0 MHz */
	{16800000, 800000000, 47, 0, 1},	/* actual: 789.6 MHz */
	{19200000, 800000000, 41, 0, 1},	/* actual: 787.2 MHz */
	{26000000, 800000000, 61, 1, 1},	/* actual: 793.0 MHz */
	{0, 0, 0, 0, 0, 0},
};

static struct tegra_clk_pll_params pll_m_params = {
	.input_min = 12000000,
	.input_max = 500000000,
	.cf_min = 12000000,
	.cf_max = 19200000,	/* s/w policy, h/w capability 50 MHz */
	.vco_min = 400000000,
	.vco_max = 1066000000,
	.base_reg = PLLM_BASE,
	.misc_reg = PLLM_MISC,
	.lock_mask = PLL_BASE_LOCK,
	.lock_enable_bit_idx = PLL_MISC_LOCK_ENABLE,
	.lock_delay = 300,
	.max_p = 2,
	.pdiv_tohw = pllm_p,
	.div_nmp = &pllm_nmp,
	.pmc_divnm_reg = PMC_PLLM_WB0_OVERRIDE,
	.pmc_divp_reg = PMC_PLLM_WB0_OVERRIDE_2,
};

static struct div_nmp pllp_nmp = {
	.divm_shift = 0,
	.divm_width = 5,
	.divn_shift = 8,
	.divn_width = 10,
	.divp_shift = 20,
	.divp_width = 3,
};

static struct tegra_clk_pll_freq_table pll_p_freq_table[] = {
	{12000000, 216000000, 432, 12, 1, 8},
	{13000000, 216000000, 432, 13, 1, 8},
	{16800000, 216000000, 360, 14, 1, 8},
	{19200000, 216000000, 360, 16, 1, 8},
	{26000000, 216000000, 432, 26, 1, 8},
	{0, 0, 0, 0, 0, 0},
};

static struct tegra_clk_pll_params pll_p_params = {
	.input_min = 2000000,
	.input_max = 31000000,
	.cf_min = 1000000,
	.cf_max = 6000000,
	.vco_min = 200000000,
	.vco_max = 700000000,
	.base_reg = PLLP_BASE,
	.misc_reg = PLLP_MISC,
	.lock_mask = PLL_BASE_LOCK,
	.lock_enable_bit_idx = PLL_MISC_LOCK_ENABLE,
	.lock_delay = 300,
	.div_nmp = &pllp_nmp,
};

static struct tegra_clk_pll_freq_table pll_a_freq_table[] = {
	{9600000, 282240000, 147, 5, 0, 4},
	{9600000, 368640000, 192, 5, 0, 4},
	{9600000, 240000000, 200, 8, 0, 8},

	{28800000, 282240000, 245, 25, 0, 8},
	{28800000, 368640000, 320, 25, 0, 8},
	{28800000, 240000000, 200, 24, 0, 8},
	{0, 0, 0, 0, 0, 0},
};


static struct tegra_clk_pll_params pll_a_params = {
	.input_min = 2000000,
	.input_max = 31000000,
	.cf_min = 1000000,
	.cf_max = 6000000,
	.vco_min = 200000000,
	.vco_max = 700000000,
	.base_reg = PLLA_BASE,
	.misc_reg = PLLA_MISC,
	.lock_mask = PLL_BASE_LOCK,
	.lock_enable_bit_idx = PLL_MISC_LOCK_ENABLE,
	.lock_delay = 300,
	.div_nmp = &pllp_nmp,
};

static struct tegra_clk_pll_freq_table pll_d_freq_table[] = {
	{12000000, 216000000, 864, 12, 2, 12},
	{13000000, 216000000, 864, 13, 2, 12},
	{16800000, 216000000, 720, 14, 2, 12},
	{19200000, 216000000, 720, 16, 2, 12},
	{26000000, 216000000, 864, 26, 2, 12},

	{12000000, 594000000, 594, 12, 0, 12},
	{13000000, 594000000, 594, 13, 0, 12},
	{16800000, 594000000, 495, 14, 0, 12},
	{19200000, 594000000, 495, 16, 0, 12},
	{26000000, 594000000, 594, 26, 0, 12},

	{12000000, 1000000000, 1000, 12, 0, 12},
	{13000000, 1000000000, 1000, 13, 0, 12},
	{19200000, 1000000000, 625, 12, 0, 12},
	{26000000, 1000000000, 1000, 26, 0, 12},

	{0, 0, 0, 0, 0, 0},
};

static struct tegra_clk_pll_params pll_d_params = {
	.input_min = 2000000,
	.input_max = 40000000,
	.cf_min = 1000000,
	.cf_max = 6000000,
	.vco_min = 500000000,
	.vco_max = 1000000000,
	.base_reg = PLLD_BASE,
	.misc_reg = PLLD_MISC,
	.lock_mask = PLL_BASE_LOCK,
	.lock_enable_bit_idx = PLLDU_MISC_LOCK_ENABLE,
	.lock_delay = 1000,
	.div_nmp = &pllp_nmp,
};

static struct tegra_clk_pll_params pll_d2_params = {
	.input_min = 2000000,
	.input_max = 40000000,
	.cf_min = 1000000,
	.cf_max = 6000000,
	.vco_min = 500000000,
	.vco_max = 1000000000,
	.base_reg = PLLD2_BASE,
	.misc_reg = PLLD2_MISC,
	.lock_mask = PLL_BASE_LOCK,
	.lock_enable_bit_idx = PLLDU_MISC_LOCK_ENABLE,
	.lock_delay = 1000,
	.div_nmp = &pllp_nmp,
};

static struct pdiv_map pllu_p[] = {
	{ .pdiv = 1, .hw_val = 1 },
	{ .pdiv = 2, .hw_val = 0 },
	{ .pdiv = 0, .hw_val = 0 },
};

static struct div_nmp pllu_nmp = {
	.divm_shift = 0,
	.divm_width = 5,
	.divn_shift = 8,
	.divn_width = 10,
	.divp_shift = 20,
	.divp_width = 1,
};

static struct tegra_clk_pll_freq_table pll_u_freq_table[] = {
	{12000000, 480000000, 960, 12, 0, 12},
	{13000000, 480000000, 960, 13, 0, 12},
	{16800000, 480000000, 400, 7, 0, 5},
	{19200000, 480000000, 200, 4, 0, 3},
	{26000000, 480000000, 960, 26, 0, 12},
	{0, 0, 0, 0, 0, 0},
};

static struct tegra_clk_pll_params pll_u_params = {
	.input_min = 2000000,
	.input_max = 40000000,
	.cf_min = 1000000,
	.cf_max = 6000000,
	.vco_min = 480000000,
	.vco_max = 960000000,
	.base_reg = PLLU_BASE,
	.misc_reg = PLLU_MISC,
	.lock_mask = PLL_BASE_LOCK,
	.lock_enable_bit_idx = PLLDU_MISC_LOCK_ENABLE,
	.lock_delay = 1000,
	.pdiv_tohw = pllu_p,
	.div_nmp = &pllu_nmp,
};

static struct tegra_clk_pll_freq_table pll_x_freq_table[] = {
	/* 1 GHz */
	{12000000, 1000000000, 83, 0, 1},	/* actual: 996.0 MHz */
	{13000000, 1000000000, 76, 0, 1},	/* actual: 988.0 MHz */
	{16800000, 1000000000, 59, 0, 1},	/* actual: 991.2 MHz */
	{19200000, 1000000000, 52, 0, 1},	/* actual: 998.4 MHz */
	{26000000, 1000000000, 76, 1, 1},	/* actual: 988.0 MHz */

	{0, 0, 0, 0, 0, 0},
};

static struct tegra_clk_pll_params pll_x_params = {
	.input_min = 12000000,
	.input_max = 800000000,
	.cf_min = 12000000,
	.cf_max = 19200000,	/* s/w policy, h/w capability 50 MHz */
	.vco_min = 700000000,
	.vco_max = 2400000000U,
	.base_reg = PLLX_BASE,
	.misc_reg = PLLX_MISC,
	.lock_mask = PLL_BASE_LOCK,
	.lock_enable_bit_idx = PLL_MISC_LOCK_ENABLE,
	.lock_delay = 300,
	.iddq_reg = PLLX_MISC3,
	.iddq_bit_idx = PLLX_IDDQ_BIT,
	.max_p = PLLXC_SW_MAX_P,
	.dyn_ramp_reg = PLLX_MISC2,
	.stepa_shift = 16,
	.stepb_shift = 24,
	.pdiv_tohw = pllxc_p,
	.div_nmp = &pllxc_nmp,
};

static struct tegra_clk_pll_freq_table pll_e_freq_table[] = {
	/* PLLE special case: use cpcon field to store cml divider value */
	{336000000, 100000000, 100, 21, 16, 11},
	{312000000, 100000000, 200, 26, 24, 13},
	{0, 0, 0, 0, 0, 0},
};

static struct div_nmp plle_nmp = {
	.divm_shift = 0,
	.divm_width = 8,
	.divn_shift = 8,
	.divn_width = 8,
	.divp_shift = 24,
	.divp_width = 4,
};

static struct tegra_clk_pll_params pll_e_params = {
	.input_min = 12000000,
	.input_max = 1000000000,
	.cf_min = 12000000,
	.cf_max = 75000000,
	.vco_min = 1600000000,
	.vco_max = 2400000000U,
	.base_reg = PLLE_BASE,
	.misc_reg = PLLE_MISC,
	.aux_reg = PLLE_AUX,
	.lock_mask = PLLE_MISC_LOCK,
	.lock_enable_bit_idx = PLLE_MISC_LOCK_ENABLE,
	.lock_delay = 300,
	.div_nmp = &plle_nmp,
};

static struct div_nmp pllre_nmp = {
	.divm_shift = 0,
	.divm_width = 8,
	.divn_shift = 8,
	.divn_width = 8,
	.divp_shift = 16,
	.divp_width = 4,
};

static struct tegra_clk_pll_params pll_re_vco_params = {
	.input_min = 12000000,
	.input_max = 1000000000,
	.cf_min = 12000000,
	.cf_max = 19200000, /* s/w policy, h/w capability 38 MHz */
	.vco_min = 300000000,
	.vco_max = 600000000,
	.base_reg = PLLRE_BASE,
	.misc_reg = PLLRE_MISC,
	.lock_mask = PLLRE_MISC_LOCK,
	.lock_enable_bit_idx = PLLRE_MISC_LOCK_ENABLE,
	.lock_delay = 300,
	.iddq_reg = PLLRE_MISC,
	.iddq_bit_idx = PLLRE_IDDQ_BIT,
	.div_nmp = &pllre_nmp,
};

/* Peripheral clock registers */

static struct tegra_clk_periph_regs periph_l_regs = {
	.enb_reg = CLK_OUT_ENB_L,
	.enb_set_reg = CLK_OUT_ENB_SET_L,
	.enb_clr_reg = CLK_OUT_ENB_CLR_L,
	.rst_reg = RST_DEVICES_L,
	.rst_set_reg = RST_DEVICES_SET_L,
	.rst_clr_reg = RST_DEVICES_CLR_L,
};

static struct tegra_clk_periph_regs periph_h_regs = {
	.enb_reg = CLK_OUT_ENB_H,
	.enb_set_reg = CLK_OUT_ENB_SET_H,
	.enb_clr_reg = CLK_OUT_ENB_CLR_H,
	.rst_reg = RST_DEVICES_H,
	.rst_set_reg = RST_DEVICES_SET_H,
	.rst_clr_reg = RST_DEVICES_CLR_H,
};

static struct tegra_clk_periph_regs periph_u_regs = {
	.enb_reg = CLK_OUT_ENB_U,
	.enb_set_reg = CLK_OUT_ENB_SET_U,
	.enb_clr_reg = CLK_OUT_ENB_CLR_U,
	.rst_reg = RST_DEVICES_U,
	.rst_set_reg = RST_DEVICES_SET_U,
	.rst_clr_reg = RST_DEVICES_CLR_U,
};

static struct tegra_clk_periph_regs periph_v_regs = {
	.enb_reg = CLK_OUT_ENB_V,
	.enb_set_reg = CLK_OUT_ENB_SET_V,
	.enb_clr_reg = CLK_OUT_ENB_CLR_V,
	.rst_reg = RST_DEVICES_V,
	.rst_set_reg = RST_DEVICES_SET_V,
	.rst_clr_reg = RST_DEVICES_CLR_V,
};

static struct tegra_clk_periph_regs periph_w_regs = {
	.enb_reg = CLK_OUT_ENB_W,
	.enb_set_reg = CLK_OUT_ENB_SET_W,
	.enb_clr_reg = CLK_OUT_ENB_CLR_W,
	.rst_reg = RST_DEVICES_W,
	.rst_set_reg = RST_DEVICES_SET_W,
	.rst_clr_reg = RST_DEVICES_CLR_W,
};

/* possible OSC frequencies in Hz */
static unsigned long tegra114_input_freq[] = {
	[0] = 13000000,
	[1] = 16800000,
	[4] = 19200000,
	[5] = 38400000,
	[8] = 12000000,
	[9] = 48000000,
	[12] = 260000000,
};

#define MASK(x) (BIT(x) - 1)

#define TEGRA_INIT_DATA_MUX(_name, _con_id, _dev_id, _parents, _offset,	\
			    _clk_num, _regs, _gate_flags, _clk_id)	\
	TEGRA_INIT_DATA_TABLE(_name, _con_id, _dev_id, _parents, _offset,\
			30, MASK(2), 0, 0, 8, 1, 0, _regs, _clk_num,	\
			periph_clk_enb_refcnt, _gate_flags, _clk_id,	\
			_parents##_idx, 0)

#define TEGRA_INIT_DATA_MUX_FLAGS(_name, _con_id, _dev_id, _parents, _offset,\
			    _clk_num, _regs, _gate_flags, _clk_id, flags)\
	TEGRA_INIT_DATA_TABLE(_name, _con_id, _dev_id, _parents, _offset,\
			30, MASK(2), 0, 0, 8, 1, 0, _regs, _clk_num,	\
			periph_clk_enb_refcnt, _gate_flags, _clk_id,	\
			_parents##_idx, flags)

#define TEGRA_INIT_DATA_MUX8(_name, _con_id, _dev_id, _parents, _offset, \
			     _clk_num, _regs, _gate_flags, _clk_id)	\
	TEGRA_INIT_DATA_TABLE(_name, _con_id, _dev_id, _parents, _offset,\
			29, MASK(3), 0, 0, 8, 1, 0, _regs, _clk_num,	\
			periph_clk_enb_refcnt, _gate_flags, _clk_id,	\
			_parents##_idx, 0)

#define TEGRA_INIT_DATA_INT(_name, _con_id, _dev_id, _parents, _offset,	\
			    _clk_num, _regs, _gate_flags, _clk_id)	\
	TEGRA_INIT_DATA_TABLE(_name, _con_id, _dev_id, _parents, _offset,\
			30, MASK(2), 0, 0, 8, 1, TEGRA_DIVIDER_INT, _regs,\
			_clk_num, periph_clk_enb_refcnt, _gate_flags,	\
			_clk_id, _parents##_idx, 0)

#define TEGRA_INIT_DATA_INT_FLAGS(_name, _con_id, _dev_id, _parents, _offset,\
			    _clk_num, _regs, _gate_flags, _clk_id, flags)\
	TEGRA_INIT_DATA_TABLE(_name, _con_id, _dev_id, _parents, _offset,\
			30, MASK(2), 0, 0, 8, 1, TEGRA_DIVIDER_INT, _regs,\
			_clk_num, periph_clk_enb_refcnt, _gate_flags,	\
			_clk_id, _parents##_idx, flags)

#define TEGRA_INIT_DATA_INT8(_name, _con_id, _dev_id, _parents, _offset,\
			    _clk_num, _regs, _gate_flags, _clk_id)	\
	TEGRA_INIT_DATA_TABLE(_name, _con_id, _dev_id, _parents, _offset,\
			29, MASK(3), 0, 0, 8, 1, TEGRA_DIVIDER_INT, _regs,\
			_clk_num, periph_clk_enb_refcnt, _gate_flags,	\
			_clk_id, _parents##_idx, 0)

#define TEGRA_INIT_DATA_UART(_name, _con_id, _dev_id, _parents, _offset,\
			     _clk_num, _regs, _clk_id)			\
	TEGRA_INIT_DATA_TABLE(_name, _con_id, _dev_id, _parents, _offset,\
			30, MASK(2), 0, 0, 16, 1, TEGRA_DIVIDER_UART, _regs,\
			_clk_num, periph_clk_enb_refcnt, 0, _clk_id,	\
			_parents##_idx, 0)

#define TEGRA_INIT_DATA_I2C(_name, _con_id, _dev_id, _parents, _offset,\
			     _clk_num, _regs, _clk_id)			\
	TEGRA_INIT_DATA_TABLE(_name, _con_id, _dev_id, _parents, _offset,\
			30, MASK(2), 0, 0, 16, 0, 0, _regs, _clk_num,	\
			periph_clk_enb_refcnt, 0, _clk_id, _parents##_idx, 0)

#define TEGRA_INIT_DATA_NODIV(_name, _con_id, _dev_id, _parents, _offset, \
			      _mux_shift, _mux_mask, _clk_num, _regs,	\
			      _gate_flags, _clk_id)			\
	TEGRA_INIT_DATA_TABLE(_name, _con_id, _dev_id, _parents, _offset,\
			_mux_shift, _mux_mask, 0, 0, 0, 0, 0, _regs,	\
			_clk_num, periph_clk_enb_refcnt, _gate_flags,	\
			_clk_id, _parents##_idx, 0)

#define TEGRA_INIT_DATA_XUSB(_name, _con_id, _dev_id, _parents, _offset, \
			     _clk_num, _regs, _gate_flags, _clk_id)	 \
	TEGRA_INIT_DATA_TABLE(_name, _con_id, _dev_id, _parents, _offset, \
			29, MASK(3), 0, 0, 8, 1, TEGRA_DIVIDER_INT, _regs, \
			_clk_num, periph_clk_enb_refcnt, _gate_flags,	 \
			_clk_id, _parents##_idx, 0)

#define TEGRA_INIT_DATA_AUDIO(_name, _con_id, _dev_id, _offset,  _clk_num,\
				 _regs, _gate_flags, _clk_id)		\
	TEGRA_INIT_DATA_TABLE(_name, _con_id, _dev_id, mux_d_audio_clk,	\
			_offset, 16, 0xE01F, 0, 0, 8, 1, 0, _regs, _clk_num, \
			periph_clk_enb_refcnt, _gate_flags , _clk_id,	\
			mux_d_audio_clk_idx, 0)

enum tegra114_clk {
	rtc = 4, timer = 5, uarta = 6, sdmmc2 = 9, i2s1 = 11, i2c1 = 12,
	ndflash = 13, sdmmc1 = 14, sdmmc4 = 15, pwm = 17, i2s2 = 18, epp = 19,
	gr_2d = 21, usbd = 22, isp = 23, gr_3d = 24, disp2 = 26, disp1 = 27,
	host1x = 28, vcp = 29, i2s0 = 30, apbdma = 34, kbc = 36, kfuse = 40,
	sbc1 = 41, nor = 42, sbc2 = 44, sbc3 = 46, i2c5 = 47, dsia = 48,
	mipi = 50, hdmi = 51, csi = 52, i2c2 = 54, uartc = 55, mipi_cal = 56,
	emc, usb2, usb3, vde = 61, bsea = 62, bsev = 63, uartd = 65,
	i2c3 = 67, sbc4 = 68, sdmmc3 = 69, owr = 71, csite = 73,
	la = 76, trace = 77, soc_therm = 78, dtv = 79, ndspeed = 80,
	i2cslow = 81, dsib = 82, tsec = 83, xusb_host = 89, msenc = 91,
	csus = 92, mselect = 99, tsensor = 100, i2s3 = 101, i2s4 = 102,
	i2c4 = 103, sbc5 = 104, sbc6 = 105, d_audio, apbif = 107, dam0, dam1,
	dam2, hda2codec_2x = 111, audio0_2x = 113, audio1_2x, audio2_2x,
	audio3_2x, audio4_2x, spdif_2x, actmon = 119, extern1 = 120,
	extern2 = 121, extern3 = 122, hda = 125, se = 127, hda2hdmi = 128,
	cilab = 144, cilcd = 145, cile = 146, dsialp = 147, dsiblp = 148,
	dds = 150, dp2 = 152, amx = 153, adx = 154, xusb_ss = 156, uartb = 192,
	vfir, spdif_in, spdif_out, vi, vi_sensor, fuse, fuse_burn, clk_32k,
	clk_m, clk_m_div2, clk_m_div4, pll_ref, pll_c, pll_c_out1, pll_c2,
	pll_c3, pll_m, pll_m_out1, pll_p, pll_p_out1, pll_p_out2, pll_p_out3,
	pll_p_out4, pll_a, pll_a_out0, pll_d, pll_d_out0, pll_d2, pll_d2_out0,
	pll_u, pll_u_480M, pll_u_60M, pll_u_48M, pll_u_12M, pll_x, pll_x_out0,
	pll_re_vco, pll_re_out, pll_e_out0, spdif_in_sync, i2s0_sync,
	i2s1_sync, i2s2_sync, i2s3_sync, i2s4_sync, vimclk_sync, audio0,
	audio1, audio2, audio3, audio4, spdif, clk_out_1, clk_out_2, clk_out_3,
	blink, xusb_host_src = 252, xusb_falcon_src, xusb_fs_src, xusb_ss_src,
	xusb_dev_src, xusb_dev, xusb_hs_src, sclk, hclk, pclk, cclk_g, cclk_lp,
	dfll_ref = 264, dfll_soc,

	/* Mux clocks */

	audio0_mux = 300, audio1_mux, audio2_mux, audio3_mux, audio4_mux,
	spdif_mux, clk_out_1_mux, clk_out_2_mux, clk_out_3_mux, dsia_mux,
	dsib_mux, clk_max,
};

struct utmi_clk_param {
	/* Oscillator Frequency in KHz */
	u32 osc_frequency;
	/* UTMIP PLL Enable Delay Count  */
	u8 enable_delay_count;
	/* UTMIP PLL Stable count */
	u8 stable_count;
	/*  UTMIP PLL Active delay count */
	u8 active_delay_count;
	/* UTMIP PLL Xtal frequency count */
	u8 xtal_freq_count;
};

static const struct utmi_clk_param utmi_parameters[] = {
	{.osc_frequency = 13000000, .enable_delay_count = 0x02,
	 .stable_count = 0x33, .active_delay_count = 0x05,
	 .xtal_freq_count = 0x7F},
	{.osc_frequency = 19200000, .enable_delay_count = 0x03,
	 .stable_count = 0x4B, .active_delay_count = 0x06,
	 .xtal_freq_count = 0xBB},
	{.osc_frequency = 12000000, .enable_delay_count = 0x02,
	 .stable_count = 0x2F, .active_delay_count = 0x04,
	 .xtal_freq_count = 0x76},
	{.osc_frequency = 26000000, .enable_delay_count = 0x04,
	 .stable_count = 0x66, .active_delay_count = 0x09,
	 .xtal_freq_count = 0xFE},
	{.osc_frequency = 16800000, .enable_delay_count = 0x03,
	 .stable_count = 0x41, .active_delay_count = 0x0A,
	 .xtal_freq_count = 0xA4},
};

/* peripheral mux definitions */

#define MUX_I2S_SPDIF(_id)						\
static const char *mux_pllaout0_##_id##_2x_pllp_clkm[] = { "pll_a_out0", \
							   #_id, "pll_p",\
							   "clk_m"};
MUX_I2S_SPDIF(audio0)
MUX_I2S_SPDIF(audio1)
MUX_I2S_SPDIF(audio2)
MUX_I2S_SPDIF(audio3)
MUX_I2S_SPDIF(audio4)
MUX_I2S_SPDIF(audio)

#define mux_pllaout0_audio0_2x_pllp_clkm_idx NULL
#define mux_pllaout0_audio1_2x_pllp_clkm_idx NULL
#define mux_pllaout0_audio2_2x_pllp_clkm_idx NULL
#define mux_pllaout0_audio3_2x_pllp_clkm_idx NULL
#define mux_pllaout0_audio4_2x_pllp_clkm_idx NULL
#define mux_pllaout0_audio_2x_pllp_clkm_idx NULL

static const char *mux_pllp_pllc_pllm_clkm[] = {
	"pll_p", "pll_c", "pll_m", "clk_m"
};
#define mux_pllp_pllc_pllm_clkm_idx NULL

static const char *mux_pllp_pllc_pllm[] = { "pll_p", "pll_c", "pll_m" };
#define mux_pllp_pllc_pllm_idx NULL

static const char *mux_pllp_pllc_clk32_clkm[] = {
	"pll_p", "pll_c", "clk_32k", "clk_m"
};
#define mux_pllp_pllc_clk32_clkm_idx NULL

static const char *mux_plla_pllc_pllp_clkm[] = {
	"pll_a_out0", "pll_c", "pll_p", "clk_m"
};
#define mux_plla_pllc_pllp_clkm_idx mux_pllp_pllc_pllm_clkm_idx

static const char *mux_pllp_pllc2_c_c3_pllm_clkm[] = {
	"pll_p", "pll_c2", "pll_c", "pll_c3", "pll_m", "clk_m"
};
static u32 mux_pllp_pllc2_c_c3_pllm_clkm_idx[] = {
	[0] = 0, [1] = 1, [2] = 2, [3] = 3, [4] = 4, [5] = 6,
};

static const char *mux_pllp_clkm[] = {
	"pll_p", "clk_m"
};
static u32 mux_pllp_clkm_idx[] = {
	[0] = 0, [1] = 3,
};

static const char *mux_pllm_pllc2_c_c3_pllp_plla[] = {
	"pll_m", "pll_c2", "pll_c", "pll_c3", "pll_p", "pll_a_out0"
};
#define mux_pllm_pllc2_c_c3_pllp_plla_idx mux_pllp_pllc2_c_c3_pllm_clkm_idx

static const char *mux_pllp_pllm_plld_plla_pllc_plld2_clkm[] = {
	"pll_p", "pll_m", "pll_d_out0", "pll_a_out0", "pll_c",
	"pll_d2_out0", "clk_m"
};
#define mux_pllp_pllm_plld_plla_pllc_plld2_clkm_idx NULL

static const char *mux_pllm_pllc_pllp_plla[] = {
	"pll_m", "pll_c", "pll_p", "pll_a_out0"
};
#define mux_pllm_pllc_pllp_plla_idx mux_pllp_pllc_pllm_clkm_idx

static const char *mux_pllp_pllc_clkm[] = {
	"pll_p", "pll_c", "pll_m"
};
static u32 mux_pllp_pllc_clkm_idx[] = {
	[0] = 0, [1] = 1, [2] = 3,
};

static const char *mux_pllp_pllc_clkm_clk32[] = {
	"pll_p", "pll_c", "clk_m", "clk_32k"
};
#define mux_pllp_pllc_clkm_clk32_idx NULL

static const char *mux_plla_clk32_pllp_clkm_plle[] = {
	"pll_a_out0", "clk_32k", "pll_p", "clk_m", "pll_e_out0"
};
#define mux_plla_clk32_pllp_clkm_plle_idx NULL

static const char *mux_clkm_pllp_pllc_pllre[] = {
	"clk_m", "pll_p", "pll_c", "pll_re_out"
};
static u32 mux_clkm_pllp_pllc_pllre_idx[] = {
	[0] = 0, [1] = 1, [2] = 3, [3] = 5,
};

static const char *mux_clkm_48M_pllp_480M[] = {
	"clk_m", "pll_u_48M", "pll_p", "pll_u_480M"
};
#define mux_clkm_48M_pllp_480M_idx NULL

static const char *mux_clkm_pllre_clk32_480M_pllc_ref[] = {
	"clk_m", "pll_re_out", "clk_32k", "pll_u_480M", "pll_c", "pll_ref"
};
static u32 mux_clkm_pllre_clk32_480M_pllc_ref_idx[] = {
	[0] = 0, [1] = 1, [2] = 3, [3] = 3, [4] = 4, [5] = 7,
};

static const char *mux_plld_out0_plld2_out0[] = {
	"pll_d_out0", "pll_d2_out0",
};
#define mux_plld_out0_plld2_out0_idx NULL

static const char *mux_d_audio_clk[] = {
	"pll_a_out0", "pll_p", "clk_m", "spdif_in_sync", "i2s0_sync",
	"i2s1_sync", "i2s2_sync", "i2s3_sync", "i2s4_sync", "vimclk_sync",
};
static u32 mux_d_audio_clk_idx[] = {
	[0] = 0, [1] = 0x8000, [2] = 0xc000, [3] = 0xE000, [4] = 0xE001,
	[5] = 0xE002, [6] = 0xE003, [7] = 0xE004, [8] = 0xE005, [9] = 0xE007,
};

static const char *mux_pllmcp_clkm[] = {
	"pll_m_out0", "pll_c_out0", "pll_p_out0", "clk_m", "pll_m_ud",
};

static const struct clk_div_table pll_re_div_table[] = {
	{ .val = 0, .div = 1 },
	{ .val = 1, .div = 2 },
	{ .val = 2, .div = 3 },
	{ .val = 3, .div = 4 },
	{ .val = 4, .div = 5 },
	{ .val = 5, .div = 6 },
	{ .val = 0, .div = 0 },
};

static struct clk *clks[clk_max];
static struct clk_onecell_data clk_data;

static unsigned long osc_freq;
static unsigned long pll_ref_freq;

static int __init tegra114_osc_clk_init(void __iomem *clk_base)
{
	struct clk *clk;
	u32 val, pll_ref_div;

	val = readl_relaxed(clk_base + OSC_CTRL);

	osc_freq = tegra114_input_freq[val >> OSC_CTRL_OSC_FREQ_SHIFT];
	if (!osc_freq) {
		WARN_ON(1);
		return -EINVAL;
	}

	/* clk_m */
	clk = clk_register_fixed_rate(NULL, "clk_m", NULL, CLK_IS_ROOT,
				      osc_freq);
	clk_register_clkdev(clk, "clk_m", NULL);
	clks[clk_m] = clk;

	/* pll_ref */
	val = (val >> OSC_CTRL_PLL_REF_DIV_SHIFT) & 3;
	pll_ref_div = 1 << val;
	clk = clk_register_fixed_factor(NULL, "pll_ref", "clk_m",
					CLK_SET_RATE_PARENT, 1, pll_ref_div);
	clk_register_clkdev(clk, "pll_ref", NULL);
	clks[pll_ref] = clk;

	pll_ref_freq = osc_freq / pll_ref_div;

	return 0;
}

static void __init tegra114_fixed_clk_init(void __iomem *clk_base)
{
	struct clk *clk;

	/* clk_32k */
	clk = clk_register_fixed_rate(NULL, "clk_32k", NULL, CLK_IS_ROOT,
				      32768);
	clk_register_clkdev(clk, "clk_32k", NULL);
	clks[clk_32k] = clk;

	/* clk_m_div2 */
	clk = clk_register_fixed_factor(NULL, "clk_m_div2", "clk_m",
					CLK_SET_RATE_PARENT, 1, 2);
	clk_register_clkdev(clk, "clk_m_div2", NULL);
	clks[clk_m_div2] = clk;

	/* clk_m_div4 */
	clk = clk_register_fixed_factor(NULL, "clk_m_div4", "clk_m",
					CLK_SET_RATE_PARENT, 1, 4);
	clk_register_clkdev(clk, "clk_m_div4", NULL);
	clks[clk_m_div4] = clk;

}

static __init void tegra114_utmi_param_configure(void __iomem *clk_base)
{
	u32 reg;
	int i;

	for (i = 0; i < ARRAY_SIZE(utmi_parameters); i++) {
		if (osc_freq == utmi_parameters[i].osc_frequency)
			break;
	}

	if (i >= ARRAY_SIZE(utmi_parameters)) {
		pr_err("%s: Unexpected oscillator freq %lu\n", __func__,
		       osc_freq);
		return;
	}

	reg = readl_relaxed(clk_base + UTMIP_PLL_CFG2);

	/* Program UTMIP PLL stable and active counts */
	/* [FIXME] arclk_rst.h says WRONG! This should be 1ms -> 0x50 Check! */
	reg &= ~UTMIP_PLL_CFG2_STABLE_COUNT(~0);
	reg |= UTMIP_PLL_CFG2_STABLE_COUNT(utmi_parameters[i].stable_count);

	reg &= ~UTMIP_PLL_CFG2_ACTIVE_DLY_COUNT(~0);

	reg |= UTMIP_PLL_CFG2_ACTIVE_DLY_COUNT(utmi_parameters[i].
					    active_delay_count);

	/* Remove power downs from UTMIP PLL control bits */
	reg &= ~UTMIP_PLL_CFG2_FORCE_PD_SAMP_A_POWERDOWN;
	reg &= ~UTMIP_PLL_CFG2_FORCE_PD_SAMP_B_POWERDOWN;
	reg &= ~UTMIP_PLL_CFG2_FORCE_PD_SAMP_C_POWERDOWN;

	writel_relaxed(reg, clk_base + UTMIP_PLL_CFG2);

	/* Program UTMIP PLL delay and oscillator frequency counts */
	reg = readl_relaxed(clk_base + UTMIP_PLL_CFG1);
	reg &= ~UTMIP_PLL_CFG1_ENABLE_DLY_COUNT(~0);

	reg |= UTMIP_PLL_CFG1_ENABLE_DLY_COUNT(utmi_parameters[i].
					    enable_delay_count);

	reg &= ~UTMIP_PLL_CFG1_XTAL_FREQ_COUNT(~0);
	reg |= UTMIP_PLL_CFG1_XTAL_FREQ_COUNT(utmi_parameters[i].
					   xtal_freq_count);

	/* Remove power downs from UTMIP PLL control bits */
	reg &= ~UTMIP_PLL_CFG1_FORCE_PLL_ENABLE_POWERDOWN;
	reg &= ~UTMIP_PLL_CFG1_FORCE_PLL_ACTIVE_POWERDOWN;
	reg &= ~UTMIP_PLL_CFG1_FORCE_PLLU_POWERUP;
	reg &= ~UTMIP_PLL_CFG1_FORCE_PLLU_POWERDOWN;
	writel_relaxed(reg, clk_base + UTMIP_PLL_CFG1);

	/* Setup HW control of UTMIPLL */
	reg = readl_relaxed(clk_base + UTMIPLL_HW_PWRDN_CFG0);
	reg |= UTMIPLL_HW_PWRDN_CFG0_USE_LOCKDET;
	reg &= ~UTMIPLL_HW_PWRDN_CFG0_CLK_ENABLE_SWCTL;
	reg |= UTMIPLL_HW_PWRDN_CFG0_SEQ_START_STATE;
	writel_relaxed(reg, clk_base + UTMIPLL_HW_PWRDN_CFG0);

	reg = readl_relaxed(clk_base + UTMIP_PLL_CFG1);
	reg &= ~UTMIP_PLL_CFG1_FORCE_PLL_ENABLE_POWERUP;
	reg &= ~UTMIP_PLL_CFG1_FORCE_PLL_ENABLE_POWERDOWN;
	writel_relaxed(reg, clk_base + UTMIP_PLL_CFG1);

	udelay(1);

	/* Setup SW override of UTMIPLL assuming USB2.0
	   ports are assigned to USB2 */
	reg = readl_relaxed(clk_base + UTMIPLL_HW_PWRDN_CFG0);
	reg |= UTMIPLL_HW_PWRDN_CFG0_IDDQ_SWCTL;
	reg &= ~UTMIPLL_HW_PWRDN_CFG0_IDDQ_OVERRIDE;
	writel_relaxed(reg, clk_base + UTMIPLL_HW_PWRDN_CFG0);

	udelay(1);

	/* Enable HW control UTMIPLL */
	reg = readl_relaxed(clk_base + UTMIPLL_HW_PWRDN_CFG0);
	reg |= UTMIPLL_HW_PWRDN_CFG0_SEQ_ENABLE;
	writel_relaxed(reg, clk_base + UTMIPLL_HW_PWRDN_CFG0);
}

static void __init _clip_vco_min(struct tegra_clk_pll_params *pll_params)
{
	pll_params->vco_min =
		DIV_ROUND_UP(pll_params->vco_min, pll_ref_freq) * pll_ref_freq;
}

static int __init _setup_dynamic_ramp(struct tegra_clk_pll_params *pll_params,
				      void __iomem *clk_base)
{
	u32 val;
	u32 step_a, step_b;

	switch (pll_ref_freq) {
	case 12000000:
	case 13000000:
	case 26000000:
		step_a = 0x2B;
		step_b = 0x0B;
		break;
	case 16800000:
		step_a = 0x1A;
		step_b = 0x09;
		break;
	case 19200000:
		step_a = 0x12;
		step_b = 0x08;
		break;
	default:
		pr_err("%s: Unexpected reference rate %lu\n",
			__func__, pll_ref_freq);
		WARN_ON(1);
		return -EINVAL;
	}

	val = step_a << pll_params->stepa_shift;
	val |= step_b << pll_params->stepb_shift;
	writel_relaxed(val, clk_base + pll_params->dyn_ramp_reg);

	return 0;
}

static void __init _init_iddq(struct tegra_clk_pll_params *pll_params,
			      void __iomem *clk_base)
{
	u32 val, val_iddq;

	val = readl_relaxed(clk_base + pll_params->base_reg);
	val_iddq = readl_relaxed(clk_base + pll_params->iddq_reg);

	if (val & BIT(30))
		WARN_ON(val_iddq & BIT(pll_params->iddq_bit_idx));
	else {
		val_iddq |= BIT(pll_params->iddq_bit_idx);
		writel_relaxed(val_iddq, clk_base + pll_params->iddq_reg);
	}
}

static void __init tegra114_pll_init(void __iomem *clk_base,
				     void __iomem *pmc)
{
	u32 val;
	struct clk *clk;

	/* PLLC */
	_clip_vco_min(&pll_c_params);
	if (_setup_dynamic_ramp(&pll_c_params, clk_base) >= 0) {
		_init_iddq(&pll_c_params, clk_base);
		clk = tegra_clk_register_pllxc("pll_c", "pll_ref", clk_base,
				pmc, 0, 0, &pll_c_params, TEGRA_PLL_USE_LOCK,
				pll_c_freq_table, NULL);
		clk_register_clkdev(clk, "pll_c", NULL);
		clks[pll_c] = clk;

		/* PLLC_OUT1 */
		clk = tegra_clk_register_divider("pll_c_out1_div", "pll_c",
				clk_base + PLLC_OUT, 0, TEGRA_DIVIDER_ROUND_UP,
				8, 8, 1, NULL);
		clk = tegra_clk_register_pll_out("pll_c_out1", "pll_c_out1_div",
					clk_base + PLLC_OUT, 1, 0,
					CLK_SET_RATE_PARENT, 0, NULL);
		clk_register_clkdev(clk, "pll_c_out1", NULL);
		clks[pll_c_out1] = clk;
	}

	/* PLLC2 */
	_clip_vco_min(&pll_c2_params);
	clk = tegra_clk_register_pllc("pll_c2", "pll_ref", clk_base, pmc, 0, 0,
			     &pll_c2_params, TEGRA_PLL_USE_LOCK,
			     pll_cx_freq_table, NULL);
	clk_register_clkdev(clk, "pll_c2", NULL);
	clks[pll_c2] = clk;

	/* PLLC3 */
	_clip_vco_min(&pll_c3_params);
	clk = tegra_clk_register_pllc("pll_c3", "pll_ref", clk_base, pmc, 0, 0,
			     &pll_c3_params, TEGRA_PLL_USE_LOCK,
			     pll_cx_freq_table, NULL);
	clk_register_clkdev(clk, "pll_c3", NULL);
	clks[pll_c3] = clk;

	/* PLLP */
	clk = tegra_clk_register_pll("pll_p", "pll_ref", clk_base, pmc, 0,
			    408000000, &pll_p_params,
			    TEGRA_PLL_FIXED | TEGRA_PLL_USE_LOCK,
			    pll_p_freq_table, NULL);
	clk_register_clkdev(clk, "pll_p", NULL);
	clks[pll_p] = clk;

	/* PLLP_OUT1 */
	clk = tegra_clk_register_divider("pll_p_out1_div", "pll_p",
				clk_base + PLLP_OUTA, 0, TEGRA_DIVIDER_FIXED |
				TEGRA_DIVIDER_ROUND_UP, 8, 8, 1, &pll_div_lock);
	clk = tegra_clk_register_pll_out("pll_p_out1", "pll_p_out1_div",
				clk_base + PLLP_OUTA, 1, 0,
				CLK_IGNORE_UNUSED | CLK_SET_RATE_PARENT, 0,
				&pll_div_lock);
	clk_register_clkdev(clk, "pll_p_out1", NULL);
	clks[pll_p_out1] = clk;

	/* PLLP_OUT2 */
	clk = tegra_clk_register_divider("pll_p_out2_div", "pll_p",
				clk_base + PLLP_OUTA, 0, TEGRA_DIVIDER_FIXED |
				TEGRA_DIVIDER_ROUND_UP | TEGRA_DIVIDER_INT, 24,
				8, 1, &pll_div_lock);
	clk = tegra_clk_register_pll_out("pll_p_out2", "pll_p_out2_div",
				clk_base + PLLP_OUTA, 17, 16,
				CLK_IGNORE_UNUSED | CLK_SET_RATE_PARENT, 0,
				&pll_div_lock);
	clk_register_clkdev(clk, "pll_p_out2", NULL);
	clks[pll_p_out2] = clk;

	/* PLLP_OUT3 */
	clk = tegra_clk_register_divider("pll_p_out3_div", "pll_p",
				clk_base + PLLP_OUTB, 0, TEGRA_DIVIDER_FIXED |
				TEGRA_DIVIDER_ROUND_UP, 8, 8, 1, &pll_div_lock);
	clk = tegra_clk_register_pll_out("pll_p_out3", "pll_p_out3_div",
				clk_base + PLLP_OUTB, 1, 0,
				CLK_IGNORE_UNUSED | CLK_SET_RATE_PARENT, 0,
				&pll_div_lock);
	clk_register_clkdev(clk, "pll_p_out3", NULL);
	clks[pll_p_out3] = clk;

	/* PLLP_OUT4 */
	clk = tegra_clk_register_divider("pll_p_out4_div", "pll_p",
				clk_base + PLLP_OUTB, 0, TEGRA_DIVIDER_FIXED |
				TEGRA_DIVIDER_ROUND_UP, 24, 8, 1,
				&pll_div_lock);
	clk = tegra_clk_register_pll_out("pll_p_out4", "pll_p_out4_div",
				clk_base + PLLP_OUTB, 17, 16,
				CLK_IGNORE_UNUSED | CLK_SET_RATE_PARENT, 0,
				&pll_div_lock);
	clk_register_clkdev(clk, "pll_p_out4", NULL);
	clks[pll_p_out4] = clk;

	/* PLLM */
	_clip_vco_min(&pll_m_params);
	clk = tegra_clk_register_pllm("pll_m", "pll_ref", clk_base, pmc,
			     CLK_IGNORE_UNUSED | CLK_SET_RATE_GATE, 0,
			     &pll_m_params, TEGRA_PLL_USE_LOCK,
			     pll_m_freq_table, NULL);
	clk_register_clkdev(clk, "pll_m", NULL);
	clks[pll_m] = clk;

	/* PLLM_OUT1 */
	clk = tegra_clk_register_divider("pll_m_out1_div", "pll_m",
				clk_base + PLLM_OUT, 0, TEGRA_DIVIDER_ROUND_UP,
				8, 8, 1, NULL);
	clk = tegra_clk_register_pll_out("pll_m_out1", "pll_m_out1_div",
				clk_base + PLLM_OUT, 1, 0, CLK_IGNORE_UNUSED |
				CLK_SET_RATE_PARENT, 0, NULL);
	clk_register_clkdev(clk, "pll_m_out1", NULL);
	clks[pll_m_out1] = clk;

	/* PLLM_UD */
	clk = clk_register_fixed_factor(NULL, "pll_m_ud", "pll_m",
					CLK_SET_RATE_PARENT, 1, 1);

	/* PLLX */
	_clip_vco_min(&pll_x_params);
	if (_setup_dynamic_ramp(&pll_x_params, clk_base) >= 0) {
		_init_iddq(&pll_x_params, clk_base);
		clk = tegra_clk_register_pllxc("pll_x", "pll_ref", clk_base,
				pmc, CLK_IGNORE_UNUSED, 0, &pll_x_params,
				TEGRA_PLL_USE_LOCK, pll_x_freq_table, NULL);
		clk_register_clkdev(clk, "pll_x", NULL);
		clks[pll_x] = clk;
	}

	/* PLLX_OUT0 */
	clk = clk_register_fixed_factor(NULL, "pll_x_out0", "pll_x",
					CLK_SET_RATE_PARENT, 1, 2);
	clk_register_clkdev(clk, "pll_x_out0", NULL);
	clks[pll_x_out0] = clk;

	/* PLLU */
	val = readl(clk_base + pll_u_params.base_reg);
	val &= ~BIT(24); /* disable PLLU_OVERRIDE */
	writel(val, clk_base + pll_u_params.base_reg);

	clk = tegra_clk_register_pll("pll_u", "pll_ref", clk_base, pmc, 0,
			    0, &pll_u_params, TEGRA_PLLU |
			    TEGRA_PLL_HAS_CPCON | TEGRA_PLL_SET_LFCON |
			    TEGRA_PLL_USE_LOCK, pll_u_freq_table, &pll_u_lock);
	clk_register_clkdev(clk, "pll_u", NULL);
	clks[pll_u] = clk;

	tegra114_utmi_param_configure(clk_base);

	/* PLLU_480M */
	clk = clk_register_gate(NULL, "pll_u_480M", "pll_u",
				CLK_SET_RATE_PARENT, clk_base + PLLU_BASE,
				22, 0, &pll_u_lock);
	clk_register_clkdev(clk, "pll_u_480M", NULL);
	clks[pll_u_480M] = clk;

	/* PLLU_60M */
	clk = clk_register_fixed_factor(NULL, "pll_u_60M", "pll_u",
					CLK_SET_RATE_PARENT, 1, 8);
	clk_register_clkdev(clk, "pll_u_60M", NULL);
	clks[pll_u_60M] = clk;

	/* PLLU_48M */
	clk = clk_register_fixed_factor(NULL, "pll_u_48M", "pll_u",
					CLK_SET_RATE_PARENT, 1, 10);
	clk_register_clkdev(clk, "pll_u_48M", NULL);
	clks[pll_u_48M] = clk;

	/* PLLU_12M */
	clk = clk_register_fixed_factor(NULL, "pll_u_12M", "pll_u",
					CLK_SET_RATE_PARENT, 1, 40);
	clk_register_clkdev(clk, "pll_u_12M", NULL);
	clks[pll_u_12M] = clk;

	/* PLLD */
	clk = tegra_clk_register_pll("pll_d", "pll_ref", clk_base, pmc, 0,
			    0, &pll_d_params,
			    TEGRA_PLL_HAS_CPCON | TEGRA_PLL_SET_LFCON |
			    TEGRA_PLL_USE_LOCK, pll_d_freq_table, &pll_d_lock);
	clk_register_clkdev(clk, "pll_d", NULL);
	clks[pll_d] = clk;

	/* PLLD_OUT0 */
	clk = clk_register_fixed_factor(NULL, "pll_d_out0", "pll_d",
					CLK_SET_RATE_PARENT, 1, 2);
	clk_register_clkdev(clk, "pll_d_out0", NULL);
	clks[pll_d_out0] = clk;

	/* PLLD2 */
	clk = tegra_clk_register_pll("pll_d2", "pll_ref", clk_base, pmc, 0,
			    0, &pll_d2_params,
			    TEGRA_PLL_HAS_CPCON | TEGRA_PLL_SET_LFCON |
			    TEGRA_PLL_USE_LOCK, pll_d_freq_table, &pll_d2_lock);
	clk_register_clkdev(clk, "pll_d2", NULL);
	clks[pll_d2] = clk;

	/* PLLD2_OUT0 */
	clk = clk_register_fixed_factor(NULL, "pll_d2_out0", "pll_d2",
					CLK_SET_RATE_PARENT, 1, 2);
	clk_register_clkdev(clk, "pll_d2_out0", NULL);
	clks[pll_d2_out0] = clk;

	/* PLLA */
	clk = tegra_clk_register_pll("pll_a", "pll_p_out1", clk_base, pmc, 0,
			    0, &pll_a_params, TEGRA_PLL_HAS_CPCON |
			    TEGRA_PLL_USE_LOCK, pll_a_freq_table, NULL);
	clk_register_clkdev(clk, "pll_a", NULL);
	clks[pll_a] = clk;

	/* PLLA_OUT0 */
	clk = tegra_clk_register_divider("pll_a_out0_div", "pll_a",
				clk_base + PLLA_OUT, 0, TEGRA_DIVIDER_ROUND_UP,
				8, 8, 1, NULL);
	clk = tegra_clk_register_pll_out("pll_a_out0", "pll_a_out0_div",
				clk_base + PLLA_OUT, 1, 0, CLK_IGNORE_UNUSED |
				CLK_SET_RATE_PARENT, 0, NULL);
	clk_register_clkdev(clk, "pll_a_out0", NULL);
	clks[pll_a_out0] = clk;

	/* PLLRE */
	_clip_vco_min(&pll_re_vco_params);
	clk = tegra_clk_register_pllre("pll_re_vco", "pll_ref", clk_base, pmc,
			     0, 0, &pll_re_vco_params, TEGRA_PLL_USE_LOCK,
			     NULL, &pll_re_lock, pll_ref_freq);
	clk_register_clkdev(clk, "pll_re_vco", NULL);
	clks[pll_re_vco] = clk;

	clk = clk_register_divider_table(NULL, "pll_re_out", "pll_re_vco", 0,
					 clk_base + PLLRE_BASE, 16, 4, 0,
					 pll_re_div_table, &pll_re_lock);
	clk_register_clkdev(clk, "pll_re_out", NULL);
	clks[pll_re_out] = clk;

	/* PLLE */
	clk = tegra_clk_register_plle_tegra114("pll_e_out0", "pll_re_vco",
				      clk_base, 0, 100000000, &pll_e_params,
				      pll_e_freq_table, NULL);
	clk_register_clkdev(clk, "pll_e_out0", NULL);
	clks[pll_e_out0] = clk;
}

static const char *mux_audio_sync_clk[] = { "spdif_in_sync", "i2s0_sync",
	"i2s1_sync", "i2s2_sync", "i2s3_sync", "i2s4_sync", "vimclk_sync",
};

static const char *clk_out1_parents[] = { "clk_m", "clk_m_div2",
	"clk_m_div4", "extern1",
};

static const char *clk_out2_parents[] = { "clk_m", "clk_m_div2",
	"clk_m_div4", "extern2",
};

static const char *clk_out3_parents[] = { "clk_m", "clk_m_div2",
	"clk_m_div4", "extern3",
};

static void __init tegra114_audio_clk_init(void __iomem *clk_base)
{
	struct clk *clk;

	/* spdif_in_sync */
	clk = tegra_clk_register_sync_source("spdif_in_sync", 24000000,
					     24000000);
	clk_register_clkdev(clk, "spdif_in_sync", NULL);
	clks[spdif_in_sync] = clk;

	/* i2s0_sync */
	clk = tegra_clk_register_sync_source("i2s0_sync", 24000000, 24000000);
	clk_register_clkdev(clk, "i2s0_sync", NULL);
	clks[i2s0_sync] = clk;

	/* i2s1_sync */
	clk = tegra_clk_register_sync_source("i2s1_sync", 24000000, 24000000);
	clk_register_clkdev(clk, "i2s1_sync", NULL);
	clks[i2s1_sync] = clk;

	/* i2s2_sync */
	clk = tegra_clk_register_sync_source("i2s2_sync", 24000000, 24000000);
	clk_register_clkdev(clk, "i2s2_sync", NULL);
	clks[i2s2_sync] = clk;

	/* i2s3_sync */
	clk = tegra_clk_register_sync_source("i2s3_sync", 24000000, 24000000);
	clk_register_clkdev(clk, "i2s3_sync", NULL);
	clks[i2s3_sync] = clk;

	/* i2s4_sync */
	clk = tegra_clk_register_sync_source("i2s4_sync", 24000000, 24000000);
	clk_register_clkdev(clk, "i2s4_sync", NULL);
	clks[i2s4_sync] = clk;

	/* vimclk_sync */
	clk = tegra_clk_register_sync_source("vimclk_sync", 24000000, 24000000);
	clk_register_clkdev(clk, "vimclk_sync", NULL);
	clks[vimclk_sync] = clk;

	/* audio0 */
	clk = clk_register_mux(NULL, "audio0_mux", mux_audio_sync_clk,
			       ARRAY_SIZE(mux_audio_sync_clk),
			       CLK_SET_RATE_NO_REPARENT,
			       clk_base + AUDIO_SYNC_CLK_I2S0, 0, 3, 0,
			       NULL);
	clks[audio0_mux] = clk;
	clk = clk_register_gate(NULL, "audio0", "audio0_mux", 0,
				clk_base + AUDIO_SYNC_CLK_I2S0, 4,
				CLK_GATE_SET_TO_DISABLE, NULL);
	clk_register_clkdev(clk, "audio0", NULL);
	clks[audio0] = clk;

	/* audio1 */
	clk = clk_register_mux(NULL, "audio1_mux", mux_audio_sync_clk,
			       ARRAY_SIZE(mux_audio_sync_clk),
			       CLK_SET_RATE_NO_REPARENT,
			       clk_base + AUDIO_SYNC_CLK_I2S1, 0, 3, 0,
			       NULL);
	clks[audio1_mux] = clk;
	clk = clk_register_gate(NULL, "audio1", "audio1_mux", 0,
				clk_base + AUDIO_SYNC_CLK_I2S1, 4,
				CLK_GATE_SET_TO_DISABLE, NULL);
	clk_register_clkdev(clk, "audio1", NULL);
	clks[audio1] = clk;

	/* audio2 */
	clk = clk_register_mux(NULL, "audio2_mux", mux_audio_sync_clk,
			       ARRAY_SIZE(mux_audio_sync_clk),
			       CLK_SET_RATE_NO_REPARENT,
			       clk_base + AUDIO_SYNC_CLK_I2S2, 0, 3, 0,
			       NULL);
	clks[audio2_mux] = clk;
	clk = clk_register_gate(NULL, "audio2", "audio2_mux", 0,
				clk_base + AUDIO_SYNC_CLK_I2S2, 4,
				CLK_GATE_SET_TO_DISABLE, NULL);
	clk_register_clkdev(clk, "audio2", NULL);
	clks[audio2] = clk;

	/* audio3 */
	clk = clk_register_mux(NULL, "audio3_mux", mux_audio_sync_clk,
			       ARRAY_SIZE(mux_audio_sync_clk),
			       CLK_SET_RATE_NO_REPARENT,
			       clk_base + AUDIO_SYNC_CLK_I2S3, 0, 3, 0,
			       NULL);
	clks[audio3_mux] = clk;
	clk = clk_register_gate(NULL, "audio3", "audio3_mux", 0,
				clk_base + AUDIO_SYNC_CLK_I2S3, 4,
				CLK_GATE_SET_TO_DISABLE, NULL);
	clk_register_clkdev(clk, "audio3", NULL);
	clks[audio3] = clk;

	/* audio4 */
	clk = clk_register_mux(NULL, "audio4_mux", mux_audio_sync_clk,
			       ARRAY_SIZE(mux_audio_sync_clk),
			       CLK_SET_RATE_NO_REPARENT,
			       clk_base + AUDIO_SYNC_CLK_I2S4, 0, 3, 0,
			       NULL);
	clks[audio4_mux] = clk;
	clk = clk_register_gate(NULL, "audio4", "audio4_mux", 0,
				clk_base + AUDIO_SYNC_CLK_I2S4, 4,
				CLK_GATE_SET_TO_DISABLE, NULL);
	clk_register_clkdev(clk, "audio4", NULL);
	clks[audio4] = clk;

	/* spdif */
	clk = clk_register_mux(NULL, "spdif_mux", mux_audio_sync_clk,
			       ARRAY_SIZE(mux_audio_sync_clk),
			       CLK_SET_RATE_NO_REPARENT,
			       clk_base + AUDIO_SYNC_CLK_SPDIF, 0, 3, 0,
			       NULL);
	clks[spdif_mux] = clk;
	clk = clk_register_gate(NULL, "spdif", "spdif_mux", 0,
				clk_base + AUDIO_SYNC_CLK_SPDIF, 4,
				CLK_GATE_SET_TO_DISABLE, NULL);
	clk_register_clkdev(clk, "spdif", NULL);
	clks[spdif] = clk;

	/* audio0_2x */
	clk = clk_register_fixed_factor(NULL, "audio0_doubler", "audio0",
					CLK_SET_RATE_PARENT, 2, 1);
	clk = tegra_clk_register_divider("audio0_div", "audio0_doubler",
				clk_base + AUDIO_SYNC_DOUBLER, 0, 0, 24, 1,
				0, &clk_doubler_lock);
	clk = tegra_clk_register_periph_gate("audio0_2x", "audio0_div",
				  TEGRA_PERIPH_NO_RESET, clk_base,
				  CLK_SET_RATE_PARENT, 113, &periph_v_regs,
				  periph_clk_enb_refcnt);
	clk_register_clkdev(clk, "audio0_2x", NULL);
	clks[audio0_2x] = clk;

	/* audio1_2x */
	clk = clk_register_fixed_factor(NULL, "audio1_doubler", "audio1",
					CLK_SET_RATE_PARENT, 2, 1);
	clk = tegra_clk_register_divider("audio1_div", "audio1_doubler",
				clk_base + AUDIO_SYNC_DOUBLER, 0, 0, 25, 1,
				0, &clk_doubler_lock);
	clk = tegra_clk_register_periph_gate("audio1_2x", "audio1_div",
				  TEGRA_PERIPH_NO_RESET, clk_base,
				  CLK_SET_RATE_PARENT, 114, &periph_v_regs,
				  periph_clk_enb_refcnt);
	clk_register_clkdev(clk, "audio1_2x", NULL);
	clks[audio1_2x] = clk;

	/* audio2_2x */
	clk = clk_register_fixed_factor(NULL, "audio2_doubler", "audio2",
					CLK_SET_RATE_PARENT, 2, 1);
	clk = tegra_clk_register_divider("audio2_div", "audio2_doubler",
				clk_base + AUDIO_SYNC_DOUBLER, 0, 0, 26, 1,
				0, &clk_doubler_lock);
	clk = tegra_clk_register_periph_gate("audio2_2x", "audio2_div",
				  TEGRA_PERIPH_NO_RESET, clk_base,
				  CLK_SET_RATE_PARENT, 115, &periph_v_regs,
				  periph_clk_enb_refcnt);
	clk_register_clkdev(clk, "audio2_2x", NULL);
	clks[audio2_2x] = clk;

	/* audio3_2x */
	clk = clk_register_fixed_factor(NULL, "audio3_doubler", "audio3",
					CLK_SET_RATE_PARENT, 2, 1);
	clk = tegra_clk_register_divider("audio3_div", "audio3_doubler",
				clk_base + AUDIO_SYNC_DOUBLER, 0, 0, 27, 1,
				0, &clk_doubler_lock);
	clk = tegra_clk_register_periph_gate("audio3_2x", "audio3_div",
				  TEGRA_PERIPH_NO_RESET, clk_base,
				  CLK_SET_RATE_PARENT, 116, &periph_v_regs,
				  periph_clk_enb_refcnt);
	clk_register_clkdev(clk, "audio3_2x", NULL);
	clks[audio3_2x] = clk;

	/* audio4_2x */
	clk = clk_register_fixed_factor(NULL, "audio4_doubler", "audio4",
					CLK_SET_RATE_PARENT, 2, 1);
	clk = tegra_clk_register_divider("audio4_div", "audio4_doubler",
				clk_base + AUDIO_SYNC_DOUBLER, 0, 0, 28, 1,
				0, &clk_doubler_lock);
	clk = tegra_clk_register_periph_gate("audio4_2x", "audio4_div",
				  TEGRA_PERIPH_NO_RESET, clk_base,
				  CLK_SET_RATE_PARENT, 117, &periph_v_regs,
				  periph_clk_enb_refcnt);
	clk_register_clkdev(clk, "audio4_2x", NULL);
	clks[audio4_2x] = clk;

	/* spdif_2x */
	clk = clk_register_fixed_factor(NULL, "spdif_doubler", "spdif",
					CLK_SET_RATE_PARENT, 2, 1);
	clk = tegra_clk_register_divider("spdif_div", "spdif_doubler",
				clk_base + AUDIO_SYNC_DOUBLER, 0, 0, 29, 1,
				0, &clk_doubler_lock);
	clk = tegra_clk_register_periph_gate("spdif_2x", "spdif_div",
				  TEGRA_PERIPH_NO_RESET, clk_base,
				  CLK_SET_RATE_PARENT, 118,
				  &periph_v_regs, periph_clk_enb_refcnt);
	clk_register_clkdev(clk, "spdif_2x", NULL);
	clks[spdif_2x] = clk;
}

static void __init tegra114_pmc_clk_init(void __iomem *pmc_base)
{
	struct clk *clk;

	/* clk_out_1 */
	clk = clk_register_mux(NULL, "clk_out_1_mux", clk_out1_parents,
			       ARRAY_SIZE(clk_out1_parents),
			       CLK_SET_RATE_NO_REPARENT,
			       pmc_base + PMC_CLK_OUT_CNTRL, 6, 3, 0,
			       &clk_out_lock);
	clks[clk_out_1_mux] = clk;
	clk = clk_register_gate(NULL, "clk_out_1", "clk_out_1_mux", 0,
				pmc_base + PMC_CLK_OUT_CNTRL, 2, 0,
				&clk_out_lock);
	clk_register_clkdev(clk, "extern1", "clk_out_1");
	clks[clk_out_1] = clk;

	/* clk_out_2 */
	clk = clk_register_mux(NULL, "clk_out_2_mux", clk_out2_parents,
			       ARRAY_SIZE(clk_out2_parents),
			       CLK_SET_RATE_NO_REPARENT,
			       pmc_base + PMC_CLK_OUT_CNTRL, 14, 3, 0,
			       &clk_out_lock);
	clks[clk_out_2_mux] = clk;
	clk = clk_register_gate(NULL, "clk_out_2", "clk_out_2_mux", 0,
				pmc_base + PMC_CLK_OUT_CNTRL, 10, 0,
				&clk_out_lock);
	clk_register_clkdev(clk, "extern2", "clk_out_2");
	clks[clk_out_2] = clk;

	/* clk_out_3 */
	clk = clk_register_mux(NULL, "clk_out_3_mux", clk_out3_parents,
			       ARRAY_SIZE(clk_out3_parents),
			       CLK_SET_RATE_NO_REPARENT,
			       pmc_base + PMC_CLK_OUT_CNTRL, 22, 3, 0,
			       &clk_out_lock);
	clks[clk_out_3_mux] = clk;
	clk = clk_register_gate(NULL, "clk_out_3", "clk_out_3_mux", 0,
				pmc_base + PMC_CLK_OUT_CNTRL, 18, 0,
				&clk_out_lock);
	clk_register_clkdev(clk, "extern3", "clk_out_3");
	clks[clk_out_3] = clk;

	/* blink */
	/* clear the blink timer register to directly output clk_32k */
	writel_relaxed(0, pmc_base + PMC_BLINK_TIMER);
	clk = clk_register_gate(NULL, "blink_override", "clk_32k", 0,
				pmc_base + PMC_DPD_PADS_ORIDE,
				PMC_DPD_PADS_ORIDE_BLINK_ENB, 0, NULL);
	clk = clk_register_gate(NULL, "blink", "blink_override", 0,
				pmc_base + PMC_CTRL,
				PMC_CTRL_BLINK_ENB, 0, NULL);
	clk_register_clkdev(clk, "blink", NULL);
	clks[blink] = clk;

}

static const char *sclk_parents[] = { "clk_m", "pll_c_out1", "pll_p_out4",
			       "pll_p", "pll_p_out2", "unused",
			       "clk_32k", "pll_m_out1" };

static const char *cclk_g_parents[] = { "clk_m", "pll_c", "clk_32k", "pll_m",
					"pll_p", "pll_p_out4", "unused",
					"unused", "pll_x" };

static const char *cclk_lp_parents[] = { "clk_m", "pll_c", "clk_32k", "pll_m",
					 "pll_p", "pll_p_out4", "unused",
					 "unused", "pll_x", "pll_x_out0" };

static void __init tegra114_super_clk_init(void __iomem *clk_base)
{
	struct clk *clk;

	/* CCLKG */
	clk = tegra_clk_register_super_mux("cclk_g", cclk_g_parents,
					ARRAY_SIZE(cclk_g_parents),
					CLK_SET_RATE_PARENT,
					clk_base + CCLKG_BURST_POLICY,
					0, 4, 0, 0, NULL);
	clk_register_clkdev(clk, "cclk_g", NULL);
	clks[cclk_g] = clk;

	/* CCLKLP */
	clk = tegra_clk_register_super_mux("cclk_lp", cclk_lp_parents,
					ARRAY_SIZE(cclk_lp_parents),
					CLK_SET_RATE_PARENT,
					clk_base + CCLKLP_BURST_POLICY,
					0, 4, 8, 9, NULL);
	clk_register_clkdev(clk, "cclk_lp", NULL);
	clks[cclk_lp] = clk;

	/* SCLK */
	clk = tegra_clk_register_super_mux("sclk", sclk_parents,
					ARRAY_SIZE(sclk_parents),
					CLK_SET_RATE_PARENT,
					clk_base + SCLK_BURST_POLICY,
					0, 4, 0, 0, NULL);
	clk_register_clkdev(clk, "sclk", NULL);
	clks[sclk] = clk;

	/* HCLK */
	clk = clk_register_divider(NULL, "hclk_div", "sclk", 0,
				   clk_base + SYSTEM_CLK_RATE, 4, 2, 0,
				   &sysrate_lock);
	clk = clk_register_gate(NULL, "hclk", "hclk_div", CLK_SET_RATE_PARENT |
				CLK_IGNORE_UNUSED, clk_base + SYSTEM_CLK_RATE,
				7, CLK_GATE_SET_TO_DISABLE, &sysrate_lock);
	clk_register_clkdev(clk, "hclk", NULL);
	clks[hclk] = clk;

	/* PCLK */
	clk = clk_register_divider(NULL, "pclk_div", "hclk", 0,
				   clk_base + SYSTEM_CLK_RATE, 0, 2, 0,
				   &sysrate_lock);
	clk = clk_register_gate(NULL, "pclk", "pclk_div", CLK_SET_RATE_PARENT |
				CLK_IGNORE_UNUSED, clk_base + SYSTEM_CLK_RATE,
				3, CLK_GATE_SET_TO_DISABLE, &sysrate_lock);
	clk_register_clkdev(clk, "pclk", NULL);
	clks[pclk] = clk;
}

static struct tegra_periph_init_data tegra_periph_clk_list[] = {
	TEGRA_INIT_DATA_MUX("i2s0", NULL, "tegra30-i2s.0", mux_pllaout0_audio0_2x_pllp_clkm, CLK_SOURCE_I2S0, 30, &periph_l_regs, TEGRA_PERIPH_ON_APB, i2s0),
	TEGRA_INIT_DATA_MUX("i2s1", NULL, "tegra30-i2s.1", mux_pllaout0_audio1_2x_pllp_clkm, CLK_SOURCE_I2S1, 11, &periph_l_regs, TEGRA_PERIPH_ON_APB, i2s1),
	TEGRA_INIT_DATA_MUX("i2s2", NULL, "tegra30-i2s.2", mux_pllaout0_audio2_2x_pllp_clkm, CLK_SOURCE_I2S2, 18, &periph_l_regs, TEGRA_PERIPH_ON_APB, i2s2),
	TEGRA_INIT_DATA_MUX("i2s3", NULL, "tegra30-i2s.3", mux_pllaout0_audio3_2x_pllp_clkm, CLK_SOURCE_I2S3, 101, &periph_v_regs, TEGRA_PERIPH_ON_APB, i2s3),
	TEGRA_INIT_DATA_MUX("i2s4", NULL, "tegra30-i2s.4", mux_pllaout0_audio4_2x_pllp_clkm, CLK_SOURCE_I2S4, 102, &periph_v_regs, TEGRA_PERIPH_ON_APB, i2s4),
	TEGRA_INIT_DATA_MUX("spdif_out", "spdif_out", "tegra30-spdif", mux_pllaout0_audio_2x_pllp_clkm, CLK_SOURCE_SPDIF_OUT, 10, &periph_l_regs, TEGRA_PERIPH_ON_APB, spdif_out),
	TEGRA_INIT_DATA_MUX("spdif_in", "spdif_in", "tegra30-spdif", mux_pllp_pllc_pllm, CLK_SOURCE_SPDIF_IN, 10, &periph_l_regs, TEGRA_PERIPH_ON_APB, spdif_in),
	TEGRA_INIT_DATA_MUX("pwm", NULL, "pwm", mux_pllp_pllc_clk32_clkm, CLK_SOURCE_PWM, 17, &periph_l_regs, TEGRA_PERIPH_ON_APB, pwm),
	TEGRA_INIT_DATA_MUX("adx", NULL, "adx", mux_plla_pllc_pllp_clkm, CLK_SOURCE_ADX, 154, &periph_w_regs, TEGRA_PERIPH_ON_APB, adx),
	TEGRA_INIT_DATA_MUX("amx", NULL, "amx", mux_plla_pllc_pllp_clkm, CLK_SOURCE_AMX, 153, &periph_w_regs, TEGRA_PERIPH_ON_APB, amx),
	TEGRA_INIT_DATA_MUX("hda", "hda", "tegra30-hda", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_HDA, 125, &periph_v_regs, TEGRA_PERIPH_ON_APB, hda),
	TEGRA_INIT_DATA_MUX("hda2codec_2x", "hda2codec", "tegra30-hda", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_HDA2CODEC_2X, 111, &periph_v_regs, TEGRA_PERIPH_ON_APB, hda2codec_2x),
	TEGRA_INIT_DATA_MUX("sbc1", NULL, "tegra11-spi.0", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_SBC1, 41, &periph_h_regs, TEGRA_PERIPH_ON_APB, sbc1),
	TEGRA_INIT_DATA_MUX("sbc2", NULL, "tegra11-spi.1", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_SBC2, 44, &periph_h_regs, TEGRA_PERIPH_ON_APB, sbc2),
	TEGRA_INIT_DATA_MUX("sbc3", NULL, "tegra11-spi.2", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_SBC3, 46, &periph_h_regs, TEGRA_PERIPH_ON_APB, sbc3),
	TEGRA_INIT_DATA_MUX("sbc4", NULL, "tegra11-spi.3", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_SBC4, 68, &periph_u_regs, TEGRA_PERIPH_ON_APB, sbc4),
	TEGRA_INIT_DATA_MUX("sbc5", NULL, "tegra11-spi.4", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_SBC5, 104, &periph_v_regs, TEGRA_PERIPH_ON_APB, sbc5),
	TEGRA_INIT_DATA_MUX("sbc6", NULL, "tegra11-spi.5", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_SBC6, 105, &periph_v_regs, TEGRA_PERIPH_ON_APB, sbc6),
	TEGRA_INIT_DATA_MUX8("ndflash", NULL, "tegra_nand", mux_pllp_pllc2_c_c3_pllm_clkm, CLK_SOURCE_NDFLASH, 13, &periph_u_regs, TEGRA_PERIPH_ON_APB, ndspeed),
	TEGRA_INIT_DATA_MUX8("ndspeed", NULL, "tegra_nand_speed", mux_pllp_pllc2_c_c3_pllm_clkm, CLK_SOURCE_NDSPEED, 80, &periph_u_regs, TEGRA_PERIPH_ON_APB, ndspeed),
	TEGRA_INIT_DATA_MUX("vfir", NULL, "vfir", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_VFIR, 7, &periph_l_regs, TEGRA_PERIPH_ON_APB, vfir),
	TEGRA_INIT_DATA_MUX("sdmmc1", NULL, "sdhci-tegra.0", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_SDMMC1, 14, &periph_l_regs, 0, sdmmc1),
	TEGRA_INIT_DATA_MUX("sdmmc2", NULL, "sdhci-tegra.1", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_SDMMC2, 9, &periph_l_regs, 0, sdmmc2),
	TEGRA_INIT_DATA_MUX("sdmmc3", NULL, "sdhci-tegra.2", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_SDMMC3, 69, &periph_u_regs, 0, sdmmc3),
	TEGRA_INIT_DATA_MUX("sdmmc4", NULL, "sdhci-tegra.3", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_SDMMC4, 15, &periph_l_regs, 0, sdmmc4),
	TEGRA_INIT_DATA_INT("vde", NULL, "vde", mux_pllp_pllc2_c_c3_pllm_clkm, CLK_SOURCE_VDE, 61, &periph_h_regs, 0, vde),
	TEGRA_INIT_DATA_MUX_FLAGS("csite", NULL, "csite", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_CSITE, 73, &periph_u_regs, TEGRA_PERIPH_ON_APB, csite, CLK_IGNORE_UNUSED),
	TEGRA_INIT_DATA_MUX("la", NULL, "la", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_LA, 76, &periph_u_regs, TEGRA_PERIPH_ON_APB, la),
	TEGRA_INIT_DATA_MUX("trace", NULL, "trace", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_TRACE, 77, &periph_u_regs, TEGRA_PERIPH_ON_APB, trace),
	TEGRA_INIT_DATA_MUX("owr", NULL, "tegra_w1", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_OWR, 71, &periph_u_regs, TEGRA_PERIPH_ON_APB, owr),
	TEGRA_INIT_DATA_MUX("nor", NULL, "tegra-nor", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_NOR, 42, &periph_h_regs, 0, nor),
	TEGRA_INIT_DATA_MUX("mipi", NULL, "mipi", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_MIPI, 50, &periph_h_regs, TEGRA_PERIPH_ON_APB, mipi),
	TEGRA_INIT_DATA_I2C("i2c1", "div-clk", "tegra11-i2c.0", mux_pllp_clkm, CLK_SOURCE_I2C1, 12, &periph_l_regs, i2c1),
	TEGRA_INIT_DATA_I2C("i2c2", "div-clk", "tegra11-i2c.1", mux_pllp_clkm, CLK_SOURCE_I2C2, 54, &periph_h_regs, i2c2),
	TEGRA_INIT_DATA_I2C("i2c3", "div-clk", "tegra11-i2c.2", mux_pllp_clkm, CLK_SOURCE_I2C3, 67, &periph_u_regs, i2c3),
	TEGRA_INIT_DATA_I2C("i2c4", "div-clk", "tegra11-i2c.3", mux_pllp_clkm, CLK_SOURCE_I2C4, 103, &periph_v_regs, i2c4),
	TEGRA_INIT_DATA_I2C("i2c5", "div-clk", "tegra11-i2c.4", mux_pllp_clkm, CLK_SOURCE_I2C5, 47, &periph_h_regs, i2c5),
	TEGRA_INIT_DATA_UART("uarta", NULL, "tegra_uart.0", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_UARTA, 6, &periph_l_regs, uarta),
	TEGRA_INIT_DATA_UART("uartb", NULL, "tegra_uart.1", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_UARTB, 7, &periph_l_regs, uartb),
	TEGRA_INIT_DATA_UART("uartc", NULL, "tegra_uart.2", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_UARTC, 55, &periph_h_regs, uartc),
	TEGRA_INIT_DATA_UART("uartd", NULL, "tegra_uart.3", mux_pllp_pllc_pllm_clkm, CLK_SOURCE_UARTD, 65, &periph_u_regs, uartd),
	TEGRA_INIT_DATA_INT("3d", NULL, "3d", mux_pllm_pllc2_c_c3_pllp_plla, CLK_SOURCE_3D, 24, &periph_l_regs, 0, gr_3d),
	TEGRA_INIT_DATA_INT("2d", NULL, "2d", mux_pllm_pllc2_c_c3_pllp_plla, CLK_SOURCE_2D, 21, &periph_l_regs, 0, gr_2d),
	TEGRA_INIT_DATA_MUX("vi_sensor", "vi_sensor", "tegra_camera", mux_pllm_pllc2_c_c3_pllp_plla, CLK_SOURCE_VI_SENSOR, 20, &periph_l_regs, TEGRA_PERIPH_NO_RESET, vi_sensor),
	TEGRA_INIT_DATA_INT8("vi", "vi", "tegra_camera", mux_pllm_pllc2_c_c3_pllp_plla, CLK_SOURCE_VI, 20, &periph_l_regs, 0, vi),
	TEGRA_INIT_DATA_INT8("epp", NULL, "epp", mux_pllm_pllc2_c_c3_pllp_plla, CLK_SOURCE_EPP, 19, &periph_l_regs, 0, epp),
	TEGRA_INIT_DATA_INT8("msenc", NULL, "msenc", mux_pllm_pllc2_c_c3_pllp_plla, CLK_SOURCE_MSENC, 91, &periph_u_regs, TEGRA_PERIPH_WAR_1005168, msenc),
	TEGRA_INIT_DATA_INT8("tsec", NULL, "tsec", mux_pllp_pllc2_c_c3_pllm_clkm, CLK_SOURCE_TSEC, 83, &periph_u_regs, 0, tsec),
	TEGRA_INIT_DATA_INT8("host1x", NULL, "host1x", mux_pllm_pllc2_c_c3_pllp_plla, CLK_SOURCE_HOST1X, 28, &periph_l_regs, 0, host1x),
	TEGRA_INIT_DATA_MUX8("hdmi", NULL, "hdmi", mux_pllp_pllm_plld_plla_pllc_plld2_clkm, CLK_SOURCE_HDMI, 51, &periph_h_regs, 0, hdmi),
	TEGRA_INIT_DATA_MUX("cilab", "cilab", "tegra_camera", mux_pllp_pllc_clkm, CLK_SOURCE_CILAB, 144, &periph_w_regs, 0, cilab),
	TEGRA_INIT_DATA_MUX("cilcd", "cilcd", "tegra_camera", mux_pllp_pllc_clkm, CLK_SOURCE_CILCD, 145, &periph_w_regs, 0, cilcd),
	TEGRA_INIT_DATA_MUX("cile", "cile", "tegra_camera", mux_pllp_pllc_clkm, CLK_SOURCE_CILE, 146, &periph_w_regs, 0, cile),
	TEGRA_INIT_DATA_MUX("dsialp", "dsialp", "tegradc.0", mux_pllp_pllc_clkm, CLK_SOURCE_DSIALP, 147, &periph_w_regs, 0, dsialp),
	TEGRA_INIT_DATA_MUX("dsiblp", "dsiblp", "tegradc.1", mux_pllp_pllc_clkm, CLK_SOURCE_DSIBLP, 148, &periph_w_regs, 0, dsiblp),
	TEGRA_INIT_DATA_MUX("tsensor", NULL, "tegra-tsensor", mux_pllp_pllc_clkm_clk32, CLK_SOURCE_TSENSOR, 100, &periph_v_regs, TEGRA_PERIPH_ON_APB, tsensor),
	TEGRA_INIT_DATA_MUX("actmon", NULL, "actmon", mux_pllp_pllc_clk32_clkm, CLK_SOURCE_ACTMON, 119, &periph_v_regs, 0, actmon),
	TEGRA_INIT_DATA_MUX8("extern1", NULL, "extern1", mux_plla_clk32_pllp_clkm_plle, CLK_SOURCE_EXTERN1, 120, &periph_v_regs, 0, extern1),
	TEGRA_INIT_DATA_MUX8("extern2", NULL, "extern2", mux_plla_clk32_pllp_clkm_plle, CLK_SOURCE_EXTERN2, 121, &periph_v_regs, 0, extern2),
	TEGRA_INIT_DATA_MUX8("extern3", NULL, "extern3", mux_plla_clk32_pllp_clkm_plle, CLK_SOURCE_EXTERN3, 122, &periph_v_regs, 0, extern3),
	TEGRA_INIT_DATA_MUX("i2cslow", NULL, "i2cslow", mux_pllp_pllc_clk32_clkm, CLK_SOURCE_I2CSLOW, 81, &periph_u_regs, TEGRA_PERIPH_ON_APB, i2cslow),
	TEGRA_INIT_DATA_INT8("se", NULL, "se", mux_pllp_pllc2_c_c3_pllm_clkm, CLK_SOURCE_SE, 127, &periph_v_regs, TEGRA_PERIPH_ON_APB, se),
	TEGRA_INIT_DATA_INT_FLAGS("mselect", NULL, "mselect", mux_pllp_clkm, CLK_SOURCE_MSELECT, 99, &periph_v_regs, 0, mselect, CLK_IGNORE_UNUSED),
	TEGRA_INIT_DATA_MUX("dfll_ref", "ref", "t114_dfll", mux_pllp_clkm, CLK_SOURCE_DFLL_REF, 155, &periph_w_regs, TEGRA_PERIPH_ON_APB, dfll_ref),
	TEGRA_INIT_DATA_MUX("dfll_soc", "soc", "t114_dfll", mux_pllp_clkm, CLK_SOURCE_DFLL_SOC, 155, &periph_w_regs, TEGRA_PERIPH_ON_APB, dfll_soc),
	TEGRA_INIT_DATA_MUX8("soc_therm", NULL, "soc_therm", mux_pllm_pllc_pllp_plla, CLK_SOURCE_SOC_THERM, 78, &periph_u_regs, TEGRA_PERIPH_ON_APB, soc_therm),
	TEGRA_INIT_DATA_XUSB("xusb_host_src", "host_src", "tegra_xhci", mux_clkm_pllp_pllc_pllre, CLK_SOURCE_XUSB_HOST_SRC, 143, &periph_w_regs, TEGRA_PERIPH_ON_APB | TEGRA_PERIPH_NO_RESET, xusb_host_src),
	TEGRA_INIT_DATA_XUSB("xusb_falcon_src", "falcon_src", "tegra_xhci", mux_clkm_pllp_pllc_pllre, CLK_SOURCE_XUSB_FALCON_SRC, 143, &periph_w_regs, TEGRA_PERIPH_NO_RESET, xusb_falcon_src),
	TEGRA_INIT_DATA_XUSB("xusb_fs_src", "fs_src", "tegra_xhci", mux_clkm_48M_pllp_480M, CLK_SOURCE_XUSB_FS_SRC, 143, &periph_w_regs, TEGRA_PERIPH_NO_RESET, xusb_fs_src),
	TEGRA_INIT_DATA_XUSB("xusb_ss_src", "ss_src", "tegra_xhci", mux_clkm_pllre_clk32_480M_pllc_ref, CLK_SOURCE_XUSB_SS_SRC, 143, &periph_w_regs, TEGRA_PERIPH_NO_RESET, xusb_ss_src),
	TEGRA_INIT_DATA_XUSB("xusb_dev_src", "dev_src", "tegra_xhci", mux_clkm_pllp_pllc_pllre, CLK_SOURCE_XUSB_DEV_SRC, 95, &periph_u_regs, TEGRA_PERIPH_ON_APB | TEGRA_PERIPH_NO_RESET, xusb_dev_src),
	TEGRA_INIT_DATA_AUDIO("d_audio", "d_audio", "tegra30-ahub", CLK_SOURCE_D_AUDIO, 106, &periph_v_regs, TEGRA_PERIPH_ON_APB, d_audio),
	TEGRA_INIT_DATA_AUDIO("dam0", NULL, "tegra30-dam.0", CLK_SOURCE_DAM0, 108, &periph_v_regs, TEGRA_PERIPH_ON_APB, dam0),
	TEGRA_INIT_DATA_AUDIO("dam1", NULL, "tegra30-dam.1", CLK_SOURCE_DAM1, 109, &periph_v_regs, TEGRA_PERIPH_ON_APB, dam1),
	TEGRA_INIT_DATA_AUDIO("dam2", NULL, "tegra30-dam.2", CLK_SOURCE_DAM2, 110, &periph_v_regs, TEGRA_PERIPH_ON_APB, dam2),
};

static struct tegra_periph_init_data tegra_periph_nodiv_clk_list[] = {
	TEGRA_INIT_DATA_NODIV("disp1", NULL, "tegradc.0", mux_pllp_pllm_plld_plla_pllc_plld2_clkm, CLK_SOURCE_DISP1, 29, 7, 27, &periph_l_regs, 0, disp1),
	TEGRA_INIT_DATA_NODIV("disp2", NULL, "tegradc.1", mux_pllp_pllm_plld_plla_pllc_plld2_clkm, CLK_SOURCE_DISP2, 29, 7, 26, &periph_l_regs, 0, disp2),
};

static __init void tegra114_periph_clk_init(void __iomem *clk_base)
{
	struct tegra_periph_init_data *data;
	struct clk *clk;
	int i;
	u32 val;

	/* apbdma */
	clk = tegra_clk_register_periph_gate("apbdma", "clk_m", 0, clk_base,
				  0, 34, &periph_h_regs,
				  periph_clk_enb_refcnt);
	clks[apbdma] = clk;

	/* rtc */
	clk = tegra_clk_register_periph_gate("rtc", "clk_32k",
				    TEGRA_PERIPH_ON_APB |
				    TEGRA_PERIPH_NO_RESET, clk_base,
				    0, 4, &periph_l_regs,
				    periph_clk_enb_refcnt);
	clk_register_clkdev(clk, NULL, "rtc-tegra");
	clks[rtc] = clk;

	/* kbc */
	clk = tegra_clk_register_periph_gate("kbc", "clk_32k",
				    TEGRA_PERIPH_ON_APB |
				    TEGRA_PERIPH_NO_RESET, clk_base,
				    0, 36, &periph_h_regs,
				    periph_clk_enb_refcnt);
	clks[kbc] = clk;

	/* timer */
	clk = tegra_clk_register_periph_gate("timer", "clk_m", 0, clk_base,
				  0, 5, &periph_l_regs,
				  periph_clk_enb_refcnt);
	clk_register_clkdev(clk, NULL, "timer");
	clks[timer] = clk;

	/* kfuse */
	clk = tegra_clk_register_periph_gate("kfuse", "clk_m",
				  TEGRA_PERIPH_ON_APB, clk_base,  0, 40,
				  &periph_h_regs, periph_clk_enb_refcnt);
	clks[kfuse] = clk;

	/* fuse */
	clk = tegra_clk_register_periph_gate("fuse", "clk_m",
				  TEGRA_PERIPH_ON_APB, clk_base,  0, 39,
				  &periph_h_regs, periph_clk_enb_refcnt);
	clks[fuse] = clk;

	/* fuse_burn */
	clk = tegra_clk_register_periph_gate("fuse_burn", "clk_m",
				  TEGRA_PERIPH_ON_APB, clk_base,  0, 39,
				  &periph_h_regs, periph_clk_enb_refcnt);
	clks[fuse_burn] = clk;

	/* apbif */
	clk = tegra_clk_register_periph_gate("apbif", "clk_m",
				  TEGRA_PERIPH_ON_APB, clk_base,  0, 107,
				  &periph_v_regs, periph_clk_enb_refcnt);
	clks[apbif] = clk;

	/* hda2hdmi */
	clk = tegra_clk_register_periph_gate("hda2hdmi", "clk_m",
				    TEGRA_PERIPH_ON_APB, clk_base,  0, 128,
				    &periph_w_regs, periph_clk_enb_refcnt);
	clks[hda2hdmi] = clk;

	/* vcp */
	clk = tegra_clk_register_periph_gate("vcp", "clk_m", 0, clk_base,  0,
				  29, &periph_l_regs,
				  periph_clk_enb_refcnt);
	clks[vcp] = clk;

	/* bsea */
	clk = tegra_clk_register_periph_gate("bsea", "clk_m", 0, clk_base,
				  0, 62, &periph_h_regs,
				  periph_clk_enb_refcnt);
	clks[bsea] = clk;

	/* bsev */
	clk = tegra_clk_register_periph_gate("bsev", "clk_m", 0, clk_base,
				  0, 63, &periph_h_regs,
				  periph_clk_enb_refcnt);
	clks[bsev] = clk;

	/* mipi-cal */
	clk = tegra_clk_register_periph_gate("mipi-cal", "clk_m", 0, clk_base,
				   0, 56, &periph_h_regs,
				  periph_clk_enb_refcnt);
	clks[mipi_cal] = clk;

	/* usbd */
	clk = tegra_clk_register_periph_gate("usbd", "clk_m", 0, clk_base,
				  0, 22, &periph_l_regs,
				  periph_clk_enb_refcnt);
	clks[usbd] = clk;

	/* usb2 */
	clk = tegra_clk_register_periph_gate("usb2", "clk_m", 0, clk_base,
				  0, 58, &periph_h_regs,
				  periph_clk_enb_refcnt);
	clks[usb2] = clk;

	/* usb3 */
	clk = tegra_clk_register_periph_gate("usb3", "clk_m", 0, clk_base,
				  0, 59, &periph_h_regs,
				  periph_clk_enb_refcnt);
	clks[usb3] = clk;

	/* csi */
	clk = tegra_clk_register_periph_gate("csi", "pll_p_out3", 0, clk_base,
				   0, 52, &periph_h_regs,
				  periph_clk_enb_refcnt);
	clks[csi] = clk;

	/* isp */
	clk = tegra_clk_register_periph_gate("isp", "clk_m", 0, clk_base, 0,
				  23, &periph_l_regs,
				  periph_clk_enb_refcnt);
	clks[isp] = clk;

	/* csus */
	clk = tegra_clk_register_periph_gate("csus", "clk_m",
				  TEGRA_PERIPH_NO_RESET, clk_base, 0, 92,
				  &periph_u_regs, periph_clk_enb_refcnt);
	clks[csus] = clk;

	/* dds */
	clk = tegra_clk_register_periph_gate("dds", "clk_m",
				  TEGRA_PERIPH_ON_APB, clk_base, 0, 150,
				  &periph_w_regs, periph_clk_enb_refcnt);
	clks[dds] = clk;

	/* dp2 */
	clk = tegra_clk_register_periph_gate("dp2", "clk_m",
				  TEGRA_PERIPH_ON_APB, clk_base, 0, 152,
				  &periph_w_regs, periph_clk_enb_refcnt);
	clks[dp2] = clk;

	/* dtv */
	clk = tegra_clk_register_periph_gate("dtv", "clk_m",
				    TEGRA_PERIPH_ON_APB, clk_base, 0, 79,
				    &periph_u_regs, periph_clk_enb_refcnt);
	clks[dtv] = clk;

	/* dsia */
	clk = clk_register_mux(NULL, "dsia_mux", mux_plld_out0_plld2_out0,
			       ARRAY_SIZE(mux_plld_out0_plld2_out0),
			       CLK_SET_RATE_NO_REPARENT,
			       clk_base + PLLD_BASE, 25, 1, 0, &pll_d_lock);
	clks[dsia_mux] = clk;
	clk = tegra_clk_register_periph_gate("dsia", "dsia_mux", 0, clk_base,
				    0, 48, &periph_h_regs,
				    periph_clk_enb_refcnt);
	clks[dsia] = clk;

	/* dsib */
	clk = clk_register_mux(NULL, "dsib_mux", mux_plld_out0_plld2_out0,
			       ARRAY_SIZE(mux_plld_out0_plld2_out0),
			       CLK_SET_RATE_NO_REPARENT,
			       clk_base + PLLD2_BASE, 25, 1, 0, &pll_d2_lock);
	clks[dsib_mux] = clk;
	clk = tegra_clk_register_periph_gate("dsib", "dsib_mux", 0, clk_base,
				    0, 82, &periph_u_regs,
				    periph_clk_enb_refcnt);
	clks[dsib] = clk;

	/* xusb_hs_src */
	val = readl(clk_base + CLK_SOURCE_XUSB_SS_SRC);
	val |= BIT(25); /* always select PLLU_60M */
	writel(val, clk_base + CLK_SOURCE_XUSB_SS_SRC);

	clk = clk_register_fixed_factor(NULL, "xusb_hs_src", "pll_u_60M", 0,
					1, 1);
	clks[xusb_hs_src] = clk;

	/* xusb_host */
	clk = tegra_clk_register_periph_gate("xusb_host", "xusb_host_src", 0,
				    clk_base, 0, 89, &periph_u_regs,
				    periph_clk_enb_refcnt);
	clks[xusb_host] = clk;

	/* xusb_ss */
	clk = tegra_clk_register_periph_gate("xusb_ss", "xusb_ss_src", 0,
				    clk_base, 0, 156, &periph_w_regs,
				    periph_clk_enb_refcnt);
	clks[xusb_host] = clk;

	/* xusb_dev */
	clk = tegra_clk_register_periph_gate("xusb_dev", "xusb_dev_src", 0,
				    clk_base, 0, 95, &periph_u_regs,
				    periph_clk_enb_refcnt);
	clks[xusb_dev] = clk;

	/* emc */
	clk = clk_register_mux(NULL, "emc_mux", mux_pllmcp_clkm,
			       ARRAY_SIZE(mux_pllmcp_clkm),
			       CLK_SET_RATE_NO_REPARENT,
			       clk_base + CLK_SOURCE_EMC,
			       29, 3, 0, NULL);
	clk = tegra_clk_register_periph_gate("emc", "emc_mux", 0, clk_base,
				CLK_IGNORE_UNUSED, 57, &periph_h_regs,
				periph_clk_enb_refcnt);
	clks[emc] = clk;

	for (i = 0; i < ARRAY_SIZE(tegra_periph_clk_list); i++) {
		data = &tegra_periph_clk_list[i];
		clk = tegra_clk_register_periph(data->name, data->parent_names,
				data->num_parents, &data->periph,
				clk_base, data->offset, data->flags);
		clks[data->clk_id] = clk;
	}

	for (i = 0; i < ARRAY_SIZE(tegra_periph_nodiv_clk_list); i++) {
		data = &tegra_periph_nodiv_clk_list[i];
		clk = tegra_clk_register_periph_nodiv(data->name,
				data->parent_names, data->num_parents,
				&data->periph, clk_base, data->offset);
		clks[data->clk_id] = clk;
	}
}

/* Tegra114 CPU clock and reset control functions */
static void tegra114_wait_cpu_in_reset(u32 cpu)
{
	unsigned int reg;

	do {
		reg = readl(clk_base + CLK_RST_CONTROLLER_CPU_CMPLX_STATUS);
		cpu_relax();
	} while (!(reg & (1 << cpu)));  /* check CPU been reset or not */
}
static void tegra114_disable_cpu_clock(u32 cpu)
{
	/* flow controller would take care in the power sequence. */
}

#ifdef CONFIG_PM_SLEEP
static void tegra114_cpu_clock_suspend(void)
{
	/* switch coresite to clk_m, save off original source */
	tegra114_cpu_clk_sctx.clk_csite_src =
				readl(clk_base + CLK_SOURCE_CSITE);
	writel(3 << 30, clk_base + CLK_SOURCE_CSITE);

	tegra114_cpu_clk_sctx.cclkg_burst =
				readl(clk_base + CCLKG_BURST_POLICY);
	tegra114_cpu_clk_sctx.cclkg_divider =
				readl(clk_base + CCLKG_BURST_POLICY + 4);
}

static void tegra114_cpu_clock_resume(void)
{
	writel(tegra114_cpu_clk_sctx.clk_csite_src,
					clk_base + CLK_SOURCE_CSITE);

	writel(tegra114_cpu_clk_sctx.cclkg_burst,
					clk_base + CCLKG_BURST_POLICY);
	writel(tegra114_cpu_clk_sctx.cclkg_divider,
					clk_base + CCLKG_BURST_POLICY + 4);
}
#endif

static struct tegra_cpu_car_ops tegra114_cpu_car_ops = {
	.wait_for_reset	= tegra114_wait_cpu_in_reset,
	.disable_clock	= tegra114_disable_cpu_clock,
#ifdef CONFIG_PM_SLEEP
	.suspend	= tegra114_cpu_clock_suspend,
	.resume		= tegra114_cpu_clock_resume,
#endif
};

static const struct of_device_id pmc_match[] __initconst = {
	{ .compatible = "nvidia,tegra114-pmc" },
	{},
};

/*
 * dfll_soc/dfll_ref apparently must be kept enabled, otherwise I2C5
 * breaks
 */
static struct tegra_clk_init_table init_table[] __initdata = {
	{uarta, pll_p, 408000000, 0},
	{uartb, pll_p, 408000000, 0},
	{uartc, pll_p, 408000000, 0},
	{uartd, pll_p, 408000000, 0},
	{pll_a, clk_max, 564480000, 1},
	{pll_a_out0, clk_max, 11289600, 1},
	{extern1, pll_a_out0, 0, 1},
	{clk_out_1_mux, extern1, 0, 1},
	{clk_out_1, clk_max, 0, 1},
	{i2s0, pll_a_out0, 11289600, 0},
	{i2s1, pll_a_out0, 11289600, 0},
	{i2s2, pll_a_out0, 11289600, 0},
	{i2s3, pll_a_out0, 11289600, 0},
	{i2s4, pll_a_out0, 11289600, 0},
	{dfll_soc, pll_p, 51000000, 1},
	{dfll_ref, pll_p, 51000000, 1},
	{clk_max, clk_max, 0, 0}, /* This MUST be the last entry. */
};

static void __init tegra114_clock_apply_init_table(void)
{
	tegra_init_from_table(init_table, clks, clk_max);
}


/**
 * tegra114_car_barrier - wait for pending writes to the CAR to complete
 *
 * Wait for any outstanding writes to the CAR MMIO space from this CPU
 * to complete before continuing execution.  No return value.
 */
static void tegra114_car_barrier(void)
{
	wmb();		/* probably unnecessary */
	readl_relaxed(clk_base + CPU_FINETRIM_SELECT);
}

/**
 * tegra114_clock_tune_cpu_trimmers_high - use high-voltage propagation delays
 *
 * When the CPU rail voltage is in the high-voltage range, use the
 * built-in hardwired clock propagation delays in the CPU clock
 * shaper.  No return value.
 */
void tegra114_clock_tune_cpu_trimmers_high(void)
{
	u32 select = 0;

	/* Use hardwired rise->rise & fall->fall clock propagation delays */
	select |= ~(CPU_FINETRIM_1_FCPU_1 | CPU_FINETRIM_1_FCPU_2 |
		    CPU_FINETRIM_1_FCPU_3 | CPU_FINETRIM_1_FCPU_4 |
		    CPU_FINETRIM_1_FCPU_5 | CPU_FINETRIM_1_FCPU_6);
	writel_relaxed(select, clk_base + CPU_FINETRIM_SELECT);

	tegra114_car_barrier();
}
EXPORT_SYMBOL(tegra114_clock_tune_cpu_trimmers_high);

/**
 * tegra114_clock_tune_cpu_trimmers_low - use low-voltage propagation delays
 *
 * When the CPU rail voltage is in the low-voltage range, use the
 * extended clock propagation delays set by
 * tegra114_clock_tune_cpu_trimmers_init().  The intention is to
 * maintain the input clock duty cycle that the FCPU subsystem
 * expects.  No return value.
 */
void tegra114_clock_tune_cpu_trimmers_low(void)
{
	u32 select = 0;

	/*
	 * Use software-specified rise->rise & fall->fall clock
	 * propagation delays (from
	 * tegra114_clock_tune_cpu_trimmers_init()
	 */
	select |= (CPU_FINETRIM_1_FCPU_1 | CPU_FINETRIM_1_FCPU_2 |
		   CPU_FINETRIM_1_FCPU_3 | CPU_FINETRIM_1_FCPU_4 |
		   CPU_FINETRIM_1_FCPU_5 | CPU_FINETRIM_1_FCPU_6);
	writel_relaxed(select, clk_base + CPU_FINETRIM_SELECT);

	tegra114_car_barrier();
}
EXPORT_SYMBOL(tegra114_clock_tune_cpu_trimmers_low);

/**
 * tegra114_clock_tune_cpu_trimmers_init - set up and enable clk prop delays
 *
 * Program extended clock propagation delays into the FCPU clock
 * shaper and enable them.  XXX Define the purpose - peak current
 * reduction?  No return value.
 */
/* XXX Initial voltage rail state assumption issues? */
void tegra114_clock_tune_cpu_trimmers_init(void)
{
	u32 dr = 0, r = 0;

	/* Increment the rise->rise clock delay by four steps */
	r |= (CPU_FINETRIM_R_FCPU_1_MASK | CPU_FINETRIM_R_FCPU_2_MASK |
	      CPU_FINETRIM_R_FCPU_3_MASK | CPU_FINETRIM_R_FCPU_4_MASK |
	      CPU_FINETRIM_R_FCPU_5_MASK | CPU_FINETRIM_R_FCPU_6_MASK);
	writel_relaxed(r, clk_base + CPU_FINETRIM_R);

	/*
	 * Use the rise->rise clock propagation delay specified in the
	 * r field
	 */
	dr |= (CPU_FINETRIM_1_FCPU_1 | CPU_FINETRIM_1_FCPU_2 |
	       CPU_FINETRIM_1_FCPU_3 | CPU_FINETRIM_1_FCPU_4 |
	       CPU_FINETRIM_1_FCPU_5 | CPU_FINETRIM_1_FCPU_6);
	writel_relaxed(dr, clk_base + CPU_FINETRIM_DR);

	tegra114_clock_tune_cpu_trimmers_low();
}
EXPORT_SYMBOL(tegra114_clock_tune_cpu_trimmers_init);

/**
 * tegra114_clock_assert_dfll_dvco_reset - assert the DFLL's DVCO reset
 *
 * Assert the reset line of the DFLL's DVCO.  No return value.
 */
void tegra114_clock_assert_dfll_dvco_reset(void)
{
	u32 v;

	v = readl_relaxed(clk_base + RST_DFLL_DVCO);
	v |= (1 << DVFS_DFLL_RESET_SHIFT);
	writel_relaxed(v, clk_base + RST_DFLL_DVCO);
	tegra114_car_barrier();
}
EXPORT_SYMBOL(tegra114_clock_assert_dfll_dvco_reset);

/**
 * tegra114_clock_deassert_dfll_dvco_reset - deassert the DFLL's DVCO reset
 *
 * Deassert the reset line of the DFLL's DVCO, allowing the DVCO to
 * operate.  No return value.
 */
void tegra114_clock_deassert_dfll_dvco_reset(void)
{
	u32 v;

	v = readl_relaxed(clk_base + RST_DFLL_DVCO);
	v &= ~(1 << DVFS_DFLL_RESET_SHIFT);
	writel_relaxed(v, clk_base + RST_DFLL_DVCO);
	tegra114_car_barrier();
}
EXPORT_SYMBOL(tegra114_clock_deassert_dfll_dvco_reset);

static void __init tegra114_clock_init(struct device_node *np)
{
	struct device_node *node;
	int i;

	clk_base = of_iomap(np, 0);
	if (!clk_base) {
		pr_err("ioremap tegra114 CAR failed\n");
		return;
	}

	node = of_find_matching_node(NULL, pmc_match);
	if (!node) {
		pr_err("Failed to find pmc node\n");
		WARN_ON(1);
		return;
	}

	pmc_base = of_iomap(node, 0);
	if (!pmc_base) {
		pr_err("Can't map pmc registers\n");
		WARN_ON(1);
		return;
	}

	if (tegra114_osc_clk_init(clk_base) < 0)
		return;

	tegra114_fixed_clk_init(clk_base);
	tegra114_pll_init(clk_base, pmc_base);
	tegra114_periph_clk_init(clk_base);
	tegra114_audio_clk_init(clk_base);
	tegra114_pmc_clk_init(pmc_base);
	tegra114_super_clk_init(clk_base);

	for (i = 0; i < ARRAY_SIZE(clks); i++) {
		if (IS_ERR(clks[i])) {
			pr_err
			    ("Tegra114 clk %d: register failed with %ld\n",
			     i, PTR_ERR(clks[i]));
		}
		if (!clks[i])
			clks[i] = ERR_PTR(-EINVAL);
	}

	clk_data.clks = clks;
	clk_data.clk_num = ARRAY_SIZE(clks);
	of_clk_add_provider(np, of_clk_src_onecell_get, &clk_data);

	tegra_clk_apply_init_table = tegra114_clock_apply_init_table;

	tegra_cpu_car_ops = &tegra114_cpu_car_ops;
}
CLK_OF_DECLARE(tegra114, "nvidia,tegra114-car", tegra114_clock_init);