src/cpu/samsung/exynos5250/clock_init.c - mirrors/cros/chromiumos/third_party/coreboot - Git at Google

 /*
  * This file is part of the coreboot project.
  *
  * Copyright (C) 2012 Samsung Electronics
  *
  * This program is free software; you can redistribute it and/or modify
  * it under the terms of the GNU General Public License as published by
  * the Free Software Foundation; version 2 of the License.
  *
  * This program is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  * GNU General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License
  * along with this program; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
  */

 /* Clock setup for SMDK5250 board based on EXYNOS5 */

 #include <delay.h>
 #include <console/console.h>
 #include "clk.h"
 #include "dp.h"
 #include "setup.h"

 void system_clock_init(struct mem_timings *mem,
 		struct arm_clk_ratios *arm_clk_ratio)
 {
 	u32 val, tmp;

 	/* Turn on the MCT as early as possible. */
 	exynos_mct->g_tcon |= (1 << 8);

 	clrbits_le32(&exynos_clock->src_cpu, MUX_APLL_SEL_MASK);
 	do {
 		val = readl(&exynos_clock->mux_stat_cpu);
 	} while ((val | MUX_APLL_SEL_MASK) != val);

 	clrbits_le32(&exynos_clock->src_core1, MUX_MPLL_SEL_MASK);
 	do {
 		val = readl(&exynos_clock->mux_stat_core1);
 	} while ((val | MUX_MPLL_SEL_MASK) != val);

 	clrbits_le32(&exynos_clock->src_top2, MUX_CPLL_SEL_MASK);
 	clrbits_le32(&exynos_clock->src_top2, MUX_EPLL_SEL_MASK);
 	clrbits_le32(&exynos_clock->src_top2, MUX_VPLL_SEL_MASK);
 	clrbits_le32(&exynos_clock->src_top2, MUX_GPLL_SEL_MASK);
 	tmp = MUX_CPLL_SEL_MASK | MUX_EPLL_SEL_MASK | MUX_VPLL_SEL_MASK
 		| MUX_GPLL_SEL_MASK;
 	do {
 		val = readl(&exynos_clock->mux_stat_top2);
 	} while ((val | tmp) != val);

 	clrbits_le32(&exynos_clock->src_cdrex, MUX_BPLL_SEL_MASK);
 	do {
 		val = readl(&exynos_clock->mux_stat_cdrex);
 	} while ((val | MUX_BPLL_SEL_MASK) != val);

 	/* PLL locktime */
 	writel(APLL_LOCK_VAL, &exynos_clock->apll_lock);

 	writel(MPLL_LOCK_VAL, &exynos_clock->mpll_lock);

 	writel(BPLL_LOCK_VAL, &exynos_clock->bpll_lock);

 	writel(CPLL_LOCK_VAL, &exynos_clock->cpll_lock);

 	writel(GPLL_LOCK_VAL, &exynos_clock->gpll_lock);

 	writel(EPLL_LOCK_VAL, &exynos_clock->epll_lock);

 	writel(VPLL_LOCK_VAL, &exynos_clock->vpll_lock);

 	writel(CLK_REG_DISABLE, &exynos_clock->pll_div2_sel);

 	writel(MUX_HPM_SEL_MASK, &exynos_clock->src_cpu);
 	do {
 		val = readl(&exynos_clock->mux_stat_cpu);
 	} while ((val | HPM_SEL_SCLK_MPLL) != val);

 	val = arm_clk_ratio->arm2_ratio << 28
 		| arm_clk_ratio->apll_ratio << 24
 		| arm_clk_ratio->pclk_dbg_ratio << 20
 		| arm_clk_ratio->atb_ratio << 16
 		| arm_clk_ratio->periph_ratio << 12
 		| arm_clk_ratio->acp_ratio << 8
 		| arm_clk_ratio->cpud_ratio << 4
 		| arm_clk_ratio->arm_ratio;
 	writel(val, &exynos_clock->div_cpu0);
 	do {
 		val = readl(&exynos_clock->div_stat_cpu0);
 	} while (0 != val);

 	writel(CLK_DIV_CPU1_VAL, &exynos_clock->div_cpu1);
 	do {
 		val = readl(&exynos_clock->div_stat_cpu1);
 	} while (0 != val);

 	/* switch A15 clock source to OSC clock before changing APLL */
 	clrbits_le32(&exynos_clock->src_cpu, APLL_FOUT);

 	/* Set APLL */
 	writel(APLL_CON1_VAL, &exynos_clock->apll_con1);
 	val = set_pll(arm_clk_ratio->apll_mdiv, arm_clk_ratio->apll_pdiv,
 			arm_clk_ratio->apll_sdiv);
 	writel(val, &exynos_clock->apll_con0);
 	while ((readl(&exynos_clock->apll_con0) & APLL_CON0_LOCKED) == 0)
 		;

 	/* now it is safe to switch to APLL */
 	setbits_le32(&exynos_clock->src_cpu, APLL_FOUT);

 	/* Set MPLL */
 	writel(MPLL_CON1_VAL, &exynos_clock->mpll_con1);
 	val = set_pll(mem->mpll_mdiv, mem->mpll_pdiv, mem->mpll_sdiv);
 	writel(val, &exynos_clock->mpll_con0);
 	while ((readl(&exynos_clock->mpll_con0) & MPLL_CON0_LOCKED) == 0)
 		;

 	/*
 	 * Configure MUX_MPLL_FOUT to choose the direct clock source
 	 * path and avoid the fixed DIV/2 block to save power
 	 */
 	setbits_le32(&exynos_clock->pll_div2_sel, MUX_MPLL_FOUT_SEL);

 	/* Set BPLL */
 	if (mem->use_bpll) {
 		writel(BPLL_CON1_VAL, &exynos_clock->bpll_con1);
 		val = set_pll(mem->bpll_mdiv, mem->bpll_pdiv, mem->bpll_sdiv);
 		writel(val, &exynos_clock->bpll_con0);
 		while ((readl(&exynos_clock->bpll_con0) & BPLL_CON0_LOCKED) == 0)
 			;

 		setbits_le32(&exynos_clock->pll_div2_sel, MUX_BPLL_FOUT_SEL);
 	}

 	/* Set CPLL */
 	writel(CPLL_CON1_VAL, &exynos_clock->cpll_con1);
 	val = set_pll(mem->cpll_mdiv, mem->cpll_pdiv, mem->cpll_sdiv);
 	writel(val, &exynos_clock->cpll_con0);
 	while ((readl(&exynos_clock->cpll_con0) & CPLL_CON0_LOCKED) == 0)
 		;

 	/* Set GPLL */
 	writel(GPLL_CON1_VAL, &exynos_clock->gpll_con1);
 	val = set_pll(mem->gpll_mdiv, mem->gpll_pdiv, mem->gpll_sdiv);
 	writel(val, &exynos_clock->gpll_con0);
 	while ((readl(&exynos_clock->gpll_con0) & GPLL_CON0_LOCKED) == 0)
 		;

 	/* Set EPLL */
 	writel(EPLL_CON2_VAL, &exynos_clock->epll_con2);
 	writel(EPLL_CON1_VAL, &exynos_clock->epll_con1);
 	val = set_pll(mem->epll_mdiv, mem->epll_pdiv, mem->epll_sdiv);
 	writel(val, &exynos_clock->epll_con0);
 	while ((readl(&exynos_clock->epll_con0) & EPLL_CON0_LOCKED) == 0)
 		;

 	/* Set VPLL */
 	writel(VPLL_CON2_VAL, &exynos_clock->vpll_con2);
 	writel(VPLL_CON1_VAL, &exynos_clock->vpll_con1);
 	val = set_pll(mem->vpll_mdiv, mem->vpll_pdiv, mem->vpll_sdiv);
 	writel(val, &exynos_clock->vpll_con0);
 	while ((readl(&exynos_clock->vpll_con0) & VPLL_CON0_LOCKED) == 0)
 		;

 	writel(CLK_SRC_CORE0_VAL, &exynos_clock->src_core0);
 	writel(CLK_DIV_CORE0_VAL, &exynos_clock->div_core0);
 	while (readl(&exynos_clock->div_stat_core0) != 0)
 		;

 	writel(CLK_DIV_CORE1_VAL, &exynos_clock->div_core1);
 	while (readl(&exynos_clock->div_stat_core1) != 0)
 		;

 	writel(CLK_DIV_SYSRGT_VAL, &exynos_clock->div_sysrgt);
 	while (readl(&exynos_clock->div_stat_sysrgt) != 0)
 		;

 	writel(CLK_DIV_ACP_VAL, &exynos_clock->div_acp);
 	while (readl(&exynos_clock->div_stat_acp) != 0)
 		;

 	writel(CLK_DIV_SYSLFT_VAL, &exynos_clock->div_syslft);
 	while (readl(&exynos_clock->div_stat_syslft) != 0)
 		;

 	writel(CLK_SRC_TOP0_VAL, &exynos_clock->src_top0);
 	writel(CLK_SRC_TOP1_VAL, &exynos_clock->src_top1);
 	writel(TOP2_VAL, &exynos_clock->src_top2);
 	writel(CLK_SRC_TOP3_VAL, &exynos_clock->src_top3);

 	writel(CLK_DIV_TOP0_VAL, &exynos_clock->div_top0);
 	while (readl(&exynos_clock->div_stat_top0))
 		;

 	writel(CLK_DIV_TOP1_VAL, &exynos_clock->div_top1);
 	while (readl(&exynos_clock->div_stat_top1))
 		;

 	writel(CLK_SRC_LEX_VAL, &exynos_clock->src_lex);
 	while (1) {
 		val = readl(&exynos_clock->mux_stat_lex);
 		if (val == (val | 1))
 			break;
 	}

 	writel(CLK_DIV_LEX_VAL, &exynos_clock->div_lex);
 	while (readl(&exynos_clock->div_stat_lex))
 		;

 	writel(CLK_DIV_R0X_VAL, &exynos_clock->div_r0x);
 	while (readl(&exynos_clock->div_stat_r0x))
 		;

 	writel(CLK_DIV_R0X_VAL, &exynos_clock->div_r0x);
 	while (readl(&exynos_clock->div_stat_r0x))
 		;

 	writel(CLK_DIV_R1X_VAL, &exynos_clock->div_r1x);
 	while (readl(&exynos_clock->div_stat_r1x))
 		;

 	if (mem->use_bpll) {
 		writel(MUX_BPLL_SEL_MASK | MUX_MCLK_CDREX_SEL |
 			MUX_MCLK_DPHY_SEL, &exynos_clock->src_cdrex);
 	} else {
 		writel(CLK_REG_DISABLE, &exynos_clock->src_cdrex);
 	}

 	writel(CLK_DIV_CDREX_VAL, &exynos_clock->div_cdrex);
 	while (readl(&exynos_clock->div_stat_cdrex))
 		;

 	val = readl(&exynos_clock->src_cpu);
 	val |= CLK_SRC_CPU_VAL;
 	writel(val, &exynos_clock->src_cpu);

 	val = readl(&exynos_clock->src_top2);
 	val |= CLK_SRC_TOP2_VAL;
 	writel(val, &exynos_clock->src_top2);

 	val = readl(&exynos_clock->src_core1);
 	val |= CLK_SRC_CORE1_VAL;
 	writel(val, &exynos_clock->src_core1);

 	writel(CLK_SRC_FSYS0_VAL, &exynos_clock->src_fsys);
 	writel(CLK_DIV_FSYS0_VAL, &exynos_clock->div_fsys0);
 	while (readl(&exynos_clock->div_stat_fsys0))
 		;

 	writel(CLK_REG_DISABLE, &exynos_clock->clkout_cmu_cpu);
 	writel(CLK_REG_DISABLE, &exynos_clock->clkout_cmu_core);
 	writel(CLK_REG_DISABLE, &exynos_clock->clkout_cmu_acp);
 	writel(CLK_REG_DISABLE, &exynos_clock->clkout_cmu_top);
 	writel(CLK_REG_DISABLE, &exynos_clock->clkout_cmu_lex);
 	writel(CLK_REG_DISABLE, &exynos_clock->clkout_cmu_r0x);
 	writel(CLK_REG_DISABLE, &exynos_clock->clkout_cmu_r1x);
 	writel(CLK_REG_DISABLE, &exynos_clock->clkout_cmu_cdrex);

 	writel(CLK_SRC_PERIC0_VAL, &exynos_clock->src_peric0);
 	writel(CLK_DIV_PERIC0_VAL, &exynos_clock->div_peric0);

 	writel(CLK_SRC_PERIC1_VAL, &exynos_clock->src_peric1);
 	writel(CLK_DIV_PERIC1_VAL, &exynos_clock->div_peric1);
 	writel(CLK_DIV_PERIC2_VAL, &exynos_clock->div_peric2);
 	writel(SCLK_SRC_ISP_VAL, &exynos_clock->sclk_src_isp);
 	writel(SCLK_DIV_ISP_VAL, &exynos_clock->sclk_div_isp);
 	writel(CLK_DIV_ISP0_VAL, &exynos_clock->div_isp0);
 	writel(CLK_DIV_ISP1_VAL, &exynos_clock->div_isp1);
 	writel(CLK_DIV_ISP2_VAL, &exynos_clock->div_isp2);

 	/* FIMD1 SRC CLK SELECTION */
 	writel(CLK_SRC_DISP1_0_VAL, &exynos_clock->src_disp1_0);

 	val = MMC2_PRE_RATIO_VAL << MMC2_PRE_RATIO_OFFSET
 		| MMC2_RATIO_VAL << MMC2_RATIO_OFFSET
 		| MMC3_PRE_RATIO_VAL << MMC3_PRE_RATIO_OFFSET
 		| MMC3_RATIO_VAL << MMC3_RATIO_OFFSET;
 	writel(val, &exynos_clock->div_fsys2);
 }

 void clock_gate(void)
 {
 	/* CLK_GATE_IP_SYSRGT */
 	clrbits_le32(&exynos_clock->gate_ip_sysrgt, CLK_C2C_MASK);

 	/* CLK_GATE_IP_ACP */
 	clrbits_le32(&exynos_clock->gate_ip_acp, CLK_SMMUG2D_MASK |
 						 CLK_SMMUSSS_MASK |
 						 CLK_SMMUMDMA_MASK |
 						 CLK_ID_REMAPPER_MASK |
 						 CLK_G2D_MASK |
 						 CLK_SSS_MASK |
 						 CLK_MDMA_MASK |
 						 CLK_SECJTAG_MASK);

 	/* CLK_GATE_BUS_SYSLFT */
 	clrbits_le32(&exynos_clock->gate_bus_syslft, CLK_EFCLK_MASK);

 	/* CLK_GATE_IP_ISP0 */
 	clrbits_le32(&exynos_clock->gate_ip_isp0, CLK_UART_ISP_MASK |
 						  CLK_WDT_ISP_MASK |
 						  CLK_PWM_ISP_MASK |
 						  CLK_MTCADC_ISP_MASK |
 						  CLK_I2C1_ISP_MASK |
 						  CLK_I2C0_ISP_MASK |
 						  CLK_MPWM_ISP_MASK |
 						  CLK_MCUCTL_ISP_MASK |
 						  CLK_INT_COMB_ISP_MASK |
 						  CLK_SMMU_MCUISP_MASK |
 						  CLK_SMMU_SCALERP_MASK |
 						  CLK_SMMU_SCALERC_MASK |
 						  CLK_SMMU_FD_MASK |
 						  CLK_SMMU_DRC_MASK |
 						  CLK_SMMU_ISP_MASK |
 						  CLK_GICISP_MASK |
 						  CLK_ARM9S_MASK |
 						  CLK_MCUISP_MASK |
 						  CLK_SCALERP_MASK |
 						  CLK_SCALERC_MASK |
 						  CLK_FD_MASK |
 						  CLK_DRC_MASK |
 						  CLK_ISP_MASK);

 	/* CLK_GATE_IP_ISP1 */
 	clrbits_le32(&exynos_clock->gate_ip_isp1, CLK_SPI1_ISP_MASK |
 						  CLK_SPI0_ISP_MASK |
 						  CLK_SMMU3DNR_MASK |
 						  CLK_SMMUDIS1_MASK |
 						  CLK_SMMUDIS0_MASK |
 						  CLK_SMMUODC_MASK |
 						  CLK_3DNR_MASK |
 						  CLK_DIS_MASK |
 						  CLK_ODC_MASK);

 	/* CLK_GATE_SCLK_ISP */
 	clrbits_le32(&exynos_clock->gate_sclk_isp, SCLK_MPWM_ISP_MASK);

 	/* CLK_GATE_IP_GSCL */
 	clrbits_le32(&exynos_clock->gate_ip_gscl, CLK_SMMUFIMC_LITE2_MASK |
 						  CLK_SMMUFIMC_LITE1_MASK |
 						  CLK_SMMUFIMC_LITE0_MASK |
 						  CLK_SMMUGSCL3_MASK |
 						  CLK_SMMUGSCL2_MASK |
 						  CLK_SMMUGSCL1_MASK |
 						  CLK_SMMUGSCL0_MASK |
 						  CLK_GSCL_WRAP_B_MASK |
 						  CLK_GSCL_WRAP_A_MASK |
 						  CLK_CAMIF_TOP_MASK |
 						  CLK_GSCL3_MASK |
 						  CLK_GSCL2_MASK |
 						  CLK_GSCL1_MASK |
 						  CLK_GSCL0_MASK);

 	/* CLK_GATE_IP_DISP1 */
 	clrbits_le32(&exynos_clock->gate_ip_disp1, CLK_SMMUTVX_MASK |
 						   CLK_ASYNCTVX_MASK |
 						   CLK_HDMI_MASK |
 						   CLK_MIXER_MASK |
 						   CLK_DSIM1_MASK);

 	/* CLK_GATE_IP_MFC */
 	clrbits_le32(&exynos_clock->gate_ip_mfc, CLK_SMMUMFCR_MASK |
 						 CLK_SMMUMFCL_MASK |
 						 CLK_MFC_MASK);

 	/* CLK_GATE_IP_GEN */
 	clrbits_le32(&exynos_clock->gate_ip_gen, CLK_SMMUMDMA1_MASK |
 						 CLK_SMMUJPEG_MASK |
 						 CLK_SMMUROTATOR_MASK |
 						 CLK_MDMA1_MASK |
 						 CLK_JPEG_MASK |
 						 CLK_ROTATOR_MASK);

 	/* CLK_GATE_IP_FSYS */
 	clrbits_le32(&exynos_clock->gate_ip_fsys, CLK_WDT_IOP_MASK |
 						  CLK_SMMUMCU_IOP_MASK |
 						  CLK_SATA_PHY_I2C_MASK |
 						  CLK_SATA_PHY_CTRL_MASK |
 						  CLK_MCUCTL_MASK |
 						  CLK_NFCON_MASK |
 						  CLK_SMMURTIC_MASK |
 						  CLK_RTIC_MASK |
 						  CLK_MIPI_HSI_MASK |
 						  CLK_USBOTG_MASK |
 						  CLK_SATA_MASK |
 						  CLK_PDMA1_MASK |
 						  CLK_PDMA0_MASK |
 						  CLK_MCU_IOP_MASK);

 	/* CLK_GATE_IP_PERIC */
 	clrbits_le32(&exynos_clock->gate_ip_peric, CLK_HS_I2C3_MASK |
 						   CLK_HS_I2C2_MASK |
 						   CLK_HS_I2C1_MASK |
 						   CLK_HS_I2C0_MASK |
 						   CLK_AC97_MASK |
 						   CLK_SPDIF_MASK |
 						   CLK_PCM2_MASK |
 						   CLK_PCM1_MASK |
 						   CLK_I2S2_MASK |
 						   CLK_SPI2_MASK |
 						   CLK_SPI0_MASK);

 	/*
 	 * CLK_GATE_IP_PERIS
 	 * Note: Keep CHIPID_APBIF ungated to ensure reading the product ID
 	 * register (PRO_ID) works correctly when the OS kernel determines
 	 * which chip it is running on.
 	 */
 	clrbits_le32(&exynos_clock->gate_ip_peris, CLK_RTC_MASK |
 						   CLK_TZPC9_MASK |
 						   CLK_TZPC8_MASK |
 						   CLK_TZPC7_MASK |
 						   CLK_TZPC6_MASK |
 						   CLK_TZPC5_MASK |
 						   CLK_TZPC4_MASK |
 						   CLK_TZPC3_MASK |
 						   CLK_TZPC2_MASK |
 						   CLK_TZPC1_MASK |
 						   CLK_TZPC0_MASK);

 	/* CLK_GATE_BLOCK */
 	clrbits_le32(&exynos_clock->gate_block, CLK_ACP_MASK);

 	/* CLK_GATE_IP_CDREX */
 	clrbits_le32(&exynos_clock->gate_ip_cdrex, CLK_DPHY0_MASK |
 						   CLK_DPHY1_MASK |
 						   CLK_TZASC_DRBXR_MASK);

 }

 void clock_init_dp_clock(void)
 {
 	/* DP clock enable */
 	setbits_le32(&exynos_clock->gate_ip_disp1, CLK_GATE_DP1_ALLOW);

 	/* We run DP at 267 Mhz */
 	setbits_le32(&exynos_clock->div_disp1_0, CLK_DIV_DISP1_0_FIMD1);
 }
	/*
	* This file is part of the coreboot project.
	*
	* Copyright (C) 2012 Samsung Electronics
	*
	* This program is free software; you can redistribute it and/or modify
	* it under the terms of the GNU General Public License as published by
	* the Free Software Foundation; version 2 of the License.
	*
	* This program is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	* GNU General Public License for more details.
	*
	* You should have received a copy of the GNU General Public License
	* along with this program; if not, write to the Free Software
	* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
	*/

	/* Clock setup for SMDK5250 board based on EXYNOS5 */

	#include <delay.h>
	#include <console/console.h>
	#include "clk.h"
	#include "dp.h"
	#include "setup.h"

	void system_clock_init(struct mem_timings *mem,
	struct arm_clk_ratios *arm_clk_ratio)
	{
	u32 val, tmp;

	/* Turn on the MCT as early as possible. */
	exynos_mct->g_tcon \|= (1 << 8);

	clrbits_le32(&exynos_clock->src_cpu, MUX_APLL_SEL_MASK);
	do {
	val = readl(&exynos_clock->mux_stat_cpu);
	} while ((val \| MUX_APLL_SEL_MASK) != val);

	clrbits_le32(&exynos_clock->src_core1, MUX_MPLL_SEL_MASK);
	do {
	val = readl(&exynos_clock->mux_stat_core1);
	} while ((val \| MUX_MPLL_SEL_MASK) != val);

	clrbits_le32(&exynos_clock->src_top2, MUX_CPLL_SEL_MASK);
	clrbits_le32(&exynos_clock->src_top2, MUX_EPLL_SEL_MASK);
	clrbits_le32(&exynos_clock->src_top2, MUX_VPLL_SEL_MASK);
	clrbits_le32(&exynos_clock->src_top2, MUX_GPLL_SEL_MASK);
	tmp = MUX_CPLL_SEL_MASK \| MUX_EPLL_SEL_MASK \| MUX_VPLL_SEL_MASK
	\| MUX_GPLL_SEL_MASK;
	do {
	val = readl(&exynos_clock->mux_stat_top2);
	} while ((val \| tmp) != val);

	clrbits_le32(&exynos_clock->src_cdrex, MUX_BPLL_SEL_MASK);
	do {
	val = readl(&exynos_clock->mux_stat_cdrex);
	} while ((val \| MUX_BPLL_SEL_MASK) != val);

	/* PLL locktime */
	writel(APLL_LOCK_VAL, &exynos_clock->apll_lock);

	writel(MPLL_LOCK_VAL, &exynos_clock->mpll_lock);

	writel(BPLL_LOCK_VAL, &exynos_clock->bpll_lock);

	writel(CPLL_LOCK_VAL, &exynos_clock->cpll_lock);

	writel(GPLL_LOCK_VAL, &exynos_clock->gpll_lock);

	writel(EPLL_LOCK_VAL, &exynos_clock->epll_lock);

	writel(VPLL_LOCK_VAL, &exynos_clock->vpll_lock);

	writel(CLK_REG_DISABLE, &exynos_clock->pll_div2_sel);

	writel(MUX_HPM_SEL_MASK, &exynos_clock->src_cpu);
	do {
	val = readl(&exynos_clock->mux_stat_cpu);
	} while ((val \| HPM_SEL_SCLK_MPLL) != val);

	val = arm_clk_ratio->arm2_ratio << 28
	\| arm_clk_ratio->apll_ratio << 24
	\| arm_clk_ratio->pclk_dbg_ratio << 20
	\| arm_clk_ratio->atb_ratio << 16
	\| arm_clk_ratio->periph_ratio << 12
	\| arm_clk_ratio->acp_ratio << 8
	\| arm_clk_ratio->cpud_ratio << 4
	\| arm_clk_ratio->arm_ratio;
	writel(val, &exynos_clock->div_cpu0);
	do {
	val = readl(&exynos_clock->div_stat_cpu0);
	} while (0 != val);

	writel(CLK_DIV_CPU1_VAL, &exynos_clock->div_cpu1);
	do {
	val = readl(&exynos_clock->div_stat_cpu1);
	} while (0 != val);

	/* switch A15 clock source to OSC clock before changing APLL */
	clrbits_le32(&exynos_clock->src_cpu, APLL_FOUT);

	/* Set APLL */
	writel(APLL_CON1_VAL, &exynos_clock->apll_con1);
	val = set_pll(arm_clk_ratio->apll_mdiv, arm_clk_ratio->apll_pdiv,
	arm_clk_ratio->apll_sdiv);
	writel(val, &exynos_clock->apll_con0);
	while ((readl(&exynos_clock->apll_con0) & APLL_CON0_LOCKED) == 0)
	;

	/* now it is safe to switch to APLL */
	setbits_le32(&exynos_clock->src_cpu, APLL_FOUT);

	/* Set MPLL */
	writel(MPLL_CON1_VAL, &exynos_clock->mpll_con1);
	val = set_pll(mem->mpll_mdiv, mem->mpll_pdiv, mem->mpll_sdiv);
	writel(val, &exynos_clock->mpll_con0);
	while ((readl(&exynos_clock->mpll_con0) & MPLL_CON0_LOCKED) == 0)
	;

	/*
	* Configure MUX_MPLL_FOUT to choose the direct clock source
	* path and avoid the fixed DIV/2 block to save power
	*/
	setbits_le32(&exynos_clock->pll_div2_sel, MUX_MPLL_FOUT_SEL);

	/* Set BPLL */
	if (mem->use_bpll) {
	writel(BPLL_CON1_VAL, &exynos_clock->bpll_con1);
	val = set_pll(mem->bpll_mdiv, mem->bpll_pdiv, mem->bpll_sdiv);
	writel(val, &exynos_clock->bpll_con0);
	while ((readl(&exynos_clock->bpll_con0) & BPLL_CON0_LOCKED) == 0)
	;

	setbits_le32(&exynos_clock->pll_div2_sel, MUX_BPLL_FOUT_SEL);
	}

	/* Set CPLL */
	writel(CPLL_CON1_VAL, &exynos_clock->cpll_con1);
	val = set_pll(mem->cpll_mdiv, mem->cpll_pdiv, mem->cpll_sdiv);
	writel(val, &exynos_clock->cpll_con0);
	while ((readl(&exynos_clock->cpll_con0) & CPLL_CON0_LOCKED) == 0)
	;

	/* Set GPLL */
	writel(GPLL_CON1_VAL, &exynos_clock->gpll_con1);
	val = set_pll(mem->gpll_mdiv, mem->gpll_pdiv, mem->gpll_sdiv);
	writel(val, &exynos_clock->gpll_con0);
	while ((readl(&exynos_clock->gpll_con0) & GPLL_CON0_LOCKED) == 0)
	;

	/* Set EPLL */
	writel(EPLL_CON2_VAL, &exynos_clock->epll_con2);
	writel(EPLL_CON1_VAL, &exynos_clock->epll_con1);
	val = set_pll(mem->epll_mdiv, mem->epll_pdiv, mem->epll_sdiv);
	writel(val, &exynos_clock->epll_con0);
	while ((readl(&exynos_clock->epll_con0) & EPLL_CON0_LOCKED) == 0)
	;

	/* Set VPLL */
	writel(VPLL_CON2_VAL, &exynos_clock->vpll_con2);
	writel(VPLL_CON1_VAL, &exynos_clock->vpll_con1);
	val = set_pll(mem->vpll_mdiv, mem->vpll_pdiv, mem->vpll_sdiv);
	writel(val, &exynos_clock->vpll_con0);
	while ((readl(&exynos_clock->vpll_con0) & VPLL_CON0_LOCKED) == 0)
	;

	writel(CLK_SRC_CORE0_VAL, &exynos_clock->src_core0);
	writel(CLK_DIV_CORE0_VAL, &exynos_clock->div_core0);
	while (readl(&exynos_clock->div_stat_core0) != 0)
	;

	writel(CLK_DIV_CORE1_VAL, &exynos_clock->div_core1);
	while (readl(&exynos_clock->div_stat_core1) != 0)
	;

	writel(CLK_DIV_SYSRGT_VAL, &exynos_clock->div_sysrgt);
	while (readl(&exynos_clock->div_stat_sysrgt) != 0)
	;

	writel(CLK_DIV_ACP_VAL, &exynos_clock->div_acp);
	while (readl(&exynos_clock->div_stat_acp) != 0)
	;

	writel(CLK_DIV_SYSLFT_VAL, &exynos_clock->div_syslft);
	while (readl(&exynos_clock->div_stat_syslft) != 0)
	;

	writel(CLK_SRC_TOP0_VAL, &exynos_clock->src_top0);
	writel(CLK_SRC_TOP1_VAL, &exynos_clock->src_top1);
	writel(TOP2_VAL, &exynos_clock->src_top2);
	writel(CLK_SRC_TOP3_VAL, &exynos_clock->src_top3);

	writel(CLK_DIV_TOP0_VAL, &exynos_clock->div_top0);
	while (readl(&exynos_clock->div_stat_top0))
	;

	writel(CLK_DIV_TOP1_VAL, &exynos_clock->div_top1);
	while (readl(&exynos_clock->div_stat_top1))
	;

	writel(CLK_SRC_LEX_VAL, &exynos_clock->src_lex);
	while (1) {
	val = readl(&exynos_clock->mux_stat_lex);
	if (val == (val \| 1))
	break;
	}

	writel(CLK_DIV_LEX_VAL, &exynos_clock->div_lex);
	while (readl(&exynos_clock->div_stat_lex))
	;

	writel(CLK_DIV_R0X_VAL, &exynos_clock->div_r0x);
	while (readl(&exynos_clock->div_stat_r0x))
	;

	writel(CLK_DIV_R0X_VAL, &exynos_clock->div_r0x);
	while (readl(&exynos_clock->div_stat_r0x))
	;

	writel(CLK_DIV_R1X_VAL, &exynos_clock->div_r1x);
	while (readl(&exynos_clock->div_stat_r1x))
	;

	if (mem->use_bpll) {
	writel(MUX_BPLL_SEL_MASK \| MUX_MCLK_CDREX_SEL \|
	MUX_MCLK_DPHY_SEL, &exynos_clock->src_cdrex);
	} else {
	writel(CLK_REG_DISABLE, &exynos_clock->src_cdrex);
	}

	writel(CLK_DIV_CDREX_VAL, &exynos_clock->div_cdrex);
	while (readl(&exynos_clock->div_stat_cdrex))
	;

	val = readl(&exynos_clock->src_cpu);
	val \|= CLK_SRC_CPU_VAL;
	writel(val, &exynos_clock->src_cpu);

	val = readl(&exynos_clock->src_top2);
	val \|= CLK_SRC_TOP2_VAL;
	writel(val, &exynos_clock->src_top2);

	val = readl(&exynos_clock->src_core1);
	val \|= CLK_SRC_CORE1_VAL;
	writel(val, &exynos_clock->src_core1);

	writel(CLK_SRC_FSYS0_VAL, &exynos_clock->src_fsys);
	writel(CLK_DIV_FSYS0_VAL, &exynos_clock->div_fsys0);
	while (readl(&exynos_clock->div_stat_fsys0))
	;

	writel(CLK_REG_DISABLE, &exynos_clock->clkout_cmu_cpu);
	writel(CLK_REG_DISABLE, &exynos_clock->clkout_cmu_core);
	writel(CLK_REG_DISABLE, &exynos_clock->clkout_cmu_acp);
	writel(CLK_REG_DISABLE, &exynos_clock->clkout_cmu_top);
	writel(CLK_REG_DISABLE, &exynos_clock->clkout_cmu_lex);
	writel(CLK_REG_DISABLE, &exynos_clock->clkout_cmu_r0x);
	writel(CLK_REG_DISABLE, &exynos_clock->clkout_cmu_r1x);
	writel(CLK_REG_DISABLE, &exynos_clock->clkout_cmu_cdrex);

	writel(CLK_SRC_PERIC0_VAL, &exynos_clock->src_peric0);
	writel(CLK_DIV_PERIC0_VAL, &exynos_clock->div_peric0);

	writel(CLK_SRC_PERIC1_VAL, &exynos_clock->src_peric1);
	writel(CLK_DIV_PERIC1_VAL, &exynos_clock->div_peric1);
	writel(CLK_DIV_PERIC2_VAL, &exynos_clock->div_peric2);
	writel(SCLK_SRC_ISP_VAL, &exynos_clock->sclk_src_isp);
	writel(SCLK_DIV_ISP_VAL, &exynos_clock->sclk_div_isp);
	writel(CLK_DIV_ISP0_VAL, &exynos_clock->div_isp0);
	writel(CLK_DIV_ISP1_VAL, &exynos_clock->div_isp1);
	writel(CLK_DIV_ISP2_VAL, &exynos_clock->div_isp2);

	/* FIMD1 SRC CLK SELECTION */
	writel(CLK_SRC_DISP1_0_VAL, &exynos_clock->src_disp1_0);

	val = MMC2_PRE_RATIO_VAL << MMC2_PRE_RATIO_OFFSET
	\| MMC2_RATIO_VAL << MMC2_RATIO_OFFSET
	\| MMC3_PRE_RATIO_VAL << MMC3_PRE_RATIO_OFFSET
	\| MMC3_RATIO_VAL << MMC3_RATIO_OFFSET;
	writel(val, &exynos_clock->div_fsys2);
	}

	void clock_gate(void)
	{
	/* CLK_GATE_IP_SYSRGT */
	clrbits_le32(&exynos_clock->gate_ip_sysrgt, CLK_C2C_MASK);

	/* CLK_GATE_IP_ACP */
	clrbits_le32(&exynos_clock->gate_ip_acp, CLK_SMMUG2D_MASK \|
	CLK_SMMUSSS_MASK \|
	CLK_SMMUMDMA_MASK \|
	CLK_ID_REMAPPER_MASK \|
	CLK_G2D_MASK \|
	CLK_SSS_MASK \|
	CLK_MDMA_MASK \|
	CLK_SECJTAG_MASK);

	/* CLK_GATE_BUS_SYSLFT */
	clrbits_le32(&exynos_clock->gate_bus_syslft, CLK_EFCLK_MASK);

	/* CLK_GATE_IP_ISP0 */
	clrbits_le32(&exynos_clock->gate_ip_isp0, CLK_UART_ISP_MASK \|
	CLK_WDT_ISP_MASK \|
	CLK_PWM_ISP_MASK \|
	CLK_MTCADC_ISP_MASK \|
	CLK_I2C1_ISP_MASK \|
	CLK_I2C0_ISP_MASK \|
	CLK_MPWM_ISP_MASK \|
	CLK_MCUCTL_ISP_MASK \|
	CLK_INT_COMB_ISP_MASK \|
	CLK_SMMU_MCUISP_MASK \|
	CLK_SMMU_SCALERP_MASK \|
	CLK_SMMU_SCALERC_MASK \|
	CLK_SMMU_FD_MASK \|
	CLK_SMMU_DRC_MASK \|
	CLK_SMMU_ISP_MASK \|
	CLK_GICISP_MASK \|
	CLK_ARM9S_MASK \|
	CLK_MCUISP_MASK \|
	CLK_SCALERP_MASK \|
	CLK_SCALERC_MASK \|
	CLK_FD_MASK \|
	CLK_DRC_MASK \|
	CLK_ISP_MASK);

	/* CLK_GATE_IP_ISP1 */
	clrbits_le32(&exynos_clock->gate_ip_isp1, CLK_SPI1_ISP_MASK \|
	CLK_SPI0_ISP_MASK \|
	CLK_SMMU3DNR_MASK \|
	CLK_SMMUDIS1_MASK \|
	CLK_SMMUDIS0_MASK \|
	CLK_SMMUODC_MASK \|
	CLK_3DNR_MASK \|
	CLK_DIS_MASK \|
	CLK_ODC_MASK);

	/* CLK_GATE_SCLK_ISP */
	clrbits_le32(&exynos_clock->gate_sclk_isp, SCLK_MPWM_ISP_MASK);

	/* CLK_GATE_IP_GSCL */
	clrbits_le32(&exynos_clock->gate_ip_gscl, CLK_SMMUFIMC_LITE2_MASK \|
	CLK_SMMUFIMC_LITE1_MASK \|
	CLK_SMMUFIMC_LITE0_MASK \|
	CLK_SMMUGSCL3_MASK \|
	CLK_SMMUGSCL2_MASK \|
	CLK_SMMUGSCL1_MASK \|
	CLK_SMMUGSCL0_MASK \|
	CLK_GSCL_WRAP_B_MASK \|
	CLK_GSCL_WRAP_A_MASK \|
	CLK_CAMIF_TOP_MASK \|
	CLK_GSCL3_MASK \|
	CLK_GSCL2_MASK \|
	CLK_GSCL1_MASK \|
	CLK_GSCL0_MASK);

	/* CLK_GATE_IP_DISP1 */
	clrbits_le32(&exynos_clock->gate_ip_disp1, CLK_SMMUTVX_MASK \|
	CLK_ASYNCTVX_MASK \|
	CLK_HDMI_MASK \|
	CLK_MIXER_MASK \|
	CLK_DSIM1_MASK);

	/* CLK_GATE_IP_MFC */
	clrbits_le32(&exynos_clock->gate_ip_mfc, CLK_SMMUMFCR_MASK \|
	CLK_SMMUMFCL_MASK \|
	CLK_MFC_MASK);

	/* CLK_GATE_IP_GEN */
	clrbits_le32(&exynos_clock->gate_ip_gen, CLK_SMMUMDMA1_MASK \|
	CLK_SMMUJPEG_MASK \|
	CLK_SMMUROTATOR_MASK \|
	CLK_MDMA1_MASK \|
	CLK_JPEG_MASK \|
	CLK_ROTATOR_MASK);

	/* CLK_GATE_IP_FSYS */
	clrbits_le32(&exynos_clock->gate_ip_fsys, CLK_WDT_IOP_MASK \|
	CLK_SMMUMCU_IOP_MASK \|
	CLK_SATA_PHY_I2C_MASK \|
	CLK_SATA_PHY_CTRL_MASK \|
	CLK_MCUCTL_MASK \|
	CLK_NFCON_MASK \|
	CLK_SMMURTIC_MASK \|
	CLK_RTIC_MASK \|
	CLK_MIPI_HSI_MASK \|
	CLK_USBOTG_MASK \|
	CLK_SATA_MASK \|
	CLK_PDMA1_MASK \|
	CLK_PDMA0_MASK \|
	CLK_MCU_IOP_MASK);

	/* CLK_GATE_IP_PERIC */
	clrbits_le32(&exynos_clock->gate_ip_peric, CLK_HS_I2C3_MASK \|
	CLK_HS_I2C2_MASK \|
	CLK_HS_I2C1_MASK \|
	CLK_HS_I2C0_MASK \|
	CLK_AC97_MASK \|
	CLK_SPDIF_MASK \|
	CLK_PCM2_MASK \|
	CLK_PCM1_MASK \|
	CLK_I2S2_MASK \|
	CLK_SPI2_MASK \|
	CLK_SPI0_MASK);

	/*
	* CLK_GATE_IP_PERIS
	* Note: Keep CHIPID_APBIF ungated to ensure reading the product ID
	* register (PRO_ID) works correctly when the OS kernel determines
	* which chip it is running on.
	*/
	clrbits_le32(&exynos_clock->gate_ip_peris, CLK_RTC_MASK \|
	CLK_TZPC9_MASK \|
	CLK_TZPC8_MASK \|
	CLK_TZPC7_MASK \|
	CLK_TZPC6_MASK \|
	CLK_TZPC5_MASK \|
	CLK_TZPC4_MASK \|
	CLK_TZPC3_MASK \|
	CLK_TZPC2_MASK \|
	CLK_TZPC1_MASK \|
	CLK_TZPC0_MASK);

	/* CLK_GATE_BLOCK */
	clrbits_le32(&exynos_clock->gate_block, CLK_ACP_MASK);

	/* CLK_GATE_IP_CDREX */
	clrbits_le32(&exynos_clock->gate_ip_cdrex, CLK_DPHY0_MASK \|
	CLK_DPHY1_MASK \|
	CLK_TZASC_DRBXR_MASK);

	}

	void clock_init_dp_clock(void)
	{
	/* DP clock enable */
	setbits_le32(&exynos_clock->gate_ip_disp1, CLK_GATE_DP1_ALLOW);

	/* We run DP at 267 Mhz */
	setbits_le32(&exynos_clock->div_disp1_0, CLK_DIV_DISP1_0_FIMD1);
	}